Vamp 11V en Manual 1.0
Vamp 11V en Manual 1.0
RELAY
VAMP 11V
Technical Manual
(V11V/EN M v1.0)
(January 2016)
Note:          The technical manual for this device gives instructions for its installation, commissioning, and operation.
               However, the manual cannot cover all conceivable circumstances or include detailed information on all
               topics. In the event of any questions or specific problems arising, do not take any action without proper
               authorization. Contact the appropriate Schneider Electric Energy technical sales office and request the
               necessary information.
               Any agreements, commitments, and legal relationships and any obligations on the part of Schneider
               Electric Energy including settlements of warranties, result solely from the applicable purchase contract,
               which is not affected by the contents of the technical manual.
               This device MUST NOT be modified. If any modification is made without the express permission of
               Schneider Electric Energy, it will invalidate the warranty, and may render the product unsafe.
The SCHNEIDER ELECTRIC ENERGY logo and any alternative version thereof are trademarks and service marks of
SCHNEIDER ELECTRIC ENERGY.
VAMP is a registered trademark of SCHNEIDER ELECTRIC ENERGY. All trade names or trademarks mentioned herein
whether registered or not, are the sole property of their owners.
This manual is provided for informational use only and is subject to change without notice.
SS
                 SAFETY SECTION
Safety Section                                     V11V/EN SS v1.0
(SS) - 1
CONTENTS
1.       INTRODUCTION                                           2
                                                                     SS
2.       HEALTH AND SAFETY                                      2
3.       SYMBOLS AND LABELS ON THE EQUIPMENT                    3
3.1      Symbols                                                3
3.2      Labels                                                 3
(SS) - 2
     1.         INTRODUCTION
SS              This Safety Section and the relevant equipment documentation provide full information on
                safe handling, commissioning and testing of this equipment. This Safety Section also
                includes reference to typical equipment label markings.
                The technical data in this Safety Section is typical only, see the technical data section of the
                relevant equipment documentation for data specific to a particular item of equipment.
                           Before carrying out any work on the equipment the user should be familiar with
                           the contents of this Safety Section and the ratings on the equipment’s rating
                           label.
                Reference should be made to the external connection diagram before the equipment is
                installed, commissioned or serviced.
                Language specific, self-adhesive User Interface labels are provided in a bag for some
                equipment.
                •   Are familiar with the installation, commissioning, and operation of the equipment and of
                    the system to which it is being connected;
                •   Are able to safely perform switching operations in accordance with accepted safety
                    engineering practices and are authorized to energize and de-energize equipment and to
                    isolate, ground, and label it;
                •   Are trained in the care and use of safety apparatus in accordance with safety
                    engineering practices;
(SS) - 3
          Note: This symbol may also be used for a Protective Conductor (Earth) Terminal if that
                terminal is part of a terminal block or sub-assembly e.g. power supply.
                   *NOTE:      THE TERM EARTH USED THROUGHOUT THIS TECHNICAL MANUAL IS THE
                               DIRECT EQUIVALENT OF THE NORTH AMERICAN TERM GROUND.
3.2      Labels
         See Safety Guide (SFTY/4L M) for typical equipment labeling information.
(SS) - 4
(SS) - 5
(SS) - 6
                          Disposal
                          It is recommended that incineration and disposal to water courses is avoided.
                          The equipment should be disposed of in a safe manner. Batteries should be
                          removed from any equipment before its disposal, taking precautions to avoid
                          short circuits. Particular regulations within the country of operation, may apply to
                          the disposal of the equipment.
VAMP 11V
IT
INTRODUCTION
CONTENTS
FIGURES
IT              A guide to the VAMP range of relays and the documentation structure. Also a general
                functional overview of the relay and brief application summary are given.
                V11V/EN TD Technical Data
                Technical data including setting ranges, accuracy limits, recommended operating conditions,
                ratings and performance data. Compliance with norms and international standards is quoted
                where appropriate.
                V11V/EN GS Getting Started
                A guide to the different user interfaces of the protection relay describing how to start using it.
                This section provides detailed information regarding the communication interfaces of the
                relay, including a detailed description of how to access the settings database stored within
                the relay.
                V11V/EN ST Settings
                List of all relay settings, including ranges, step sizes and defaults, together with a brief
                explanation of each setting.
                V11V/EN OP Operation
                A comprehensive and detailed functional description of all protection and non-protection
                functions.
                V11V/EN AP Application Notes
                This section includes a description of common power system applications of the relay,
                calculation of suitable settings, some typical worked examples, and how to apply the settings
                to the relay.
                V11V/EN MR Measurements and Recording
                Detailed description of the relays recording and measurements functions.
                V11V/EN CM Commissioning
                Instructions on how to commission the relay, comprising checks on the calibration and
                functionality of the relay.
                V11V/EN MT Maintenance
                A general maintenance policy for the relay is outlined.
                V11V/EN TS Troubleshooting
                Advice on how to recognize failure modes and the recommended course of action. Includes
                guidance on whom at Schneider Electric Energy to contact for advice.
                V11V/EN SG Symbols and Glossary
                List of common technical abbreviations found within the product documentation.
                V11V/EN IN Installation
                Recommendations on unpacking, handling, inspection and storage of the relay. A guide to
                the mechanical and electrical installation of the relay is provided, incorporating earthing
                recommendations. All external wiring connections to the relay are indicated.
Introduction                                                                       V11V/EN IT v1.0
                                                                                                     IT
     V11V/EN IT v1.0                                                                        Introduction
     2.         INTRODUCTION TO VAMP
                VAMP is a comprehensive solution capable of meeting all electricity supply requirements.
                It comprises a range of components, systems and services from Schneider Electric Energy.
                Central to the VAMP concept is flexibility.
                VAMP provides the ability to define an application solution and, through extensive
                communication capabilities, integrate it with your power supply control system.
IT
                VAMP products include extensive facilities for recording information on the state and
                behavior of the power system using disturbance and fault records. They can also provide
                measurements of the system at regular intervals for a control center enabling remote
                monitoring and control to take place.
                For up-to-date information on any VAMP product, visit our website:
                www.schneider-electric.com
Introduction                                                                               V11V/EN IT v1.0
3.          PRODUCT SCOPE
            VAMP 11V is cost-effective over/under voltage and frequency protection relay for essential
            protection functions. It is high-quality, easy to install and easy to set up (even manually by
            using front panel HMI).
            Thanks of very small case dimensions can be applied as replacement of all old technology
            protection relays or installed in the modern low dimension MV or LV switchgear panels,
            events and relay settings can be downloaded to a local PC (selected Models).
                                                                                                               IT
            Settings for the protection elements are entered using the front panel keyboard and can be
            checked on the local display or using the MiCOM S1 Studio setting software (selected
            Models). MiCOM S1 Studio must be at least 5.1.0 software version or higher. In case of
            having older version of MiCOM S1 Studio than 5.1.0, please install the newest tool from
            Schneider Electric Web Page.
3.1         Key for the manual
            The V11V relays are available in several hardware versions offering different numbers of
            outputs, inputs, communication ports etc. called “Models” (Model: A, N, L).
            Please refer to the commercial publication for further information on the product features and
            application arrangements.
3.2         Functional overview
            The V11V relay offers a wide variety of protection functions.
            The protection features are summarized below:
                                                                                                 Function
                               PROTECTION FUNCTIONS OVERVIEW
                                                                                                 available
                          Three undervoltage stages are provided with AND/OR logic. The
                          first (U<) and the second stage (U<<) may be set to Inverse
              27/27S                                                                            All models
                          Definite Minimum Time (IDMT) or Definite Time (DT); the third
                          stage (U<<<) may be set to DT only.
                          Three overvoltage stages are provided with AND/OR logic. The
                          first (U>) and the second stage (U>>) may be set to Inverse
                59                                                                              All models
                          Definite Minimum Time (IDMT) or Definite Time (DT); the third
                          stage (U>>>) may be set to DT only.
                          Three earth fault stages operates from a measured or calculated
                          (from phase voltage) earth fault voltage value. The first earth       All models
                          fault stage has time-delayed characteristics which are selectable     Model L does
                59N                                                                              not have
                          between inverse definite minimum time (IDMT) and definite time
                                                                                                 dedicated
                          (DT). The second and third stages have a definite time                analog input
                          characteristic only.
                          Two negative sequence overvoltage stages are provided as
                          overvoltage      protection     with    independent      time-delay
                47        characteristics. These characteristics are selectable between            N, A
                          inverse definite minimum time (IDMT) and definite time (DT) for
                          first stage, second stage can operate only with DT characteristic.
                          The positive sequence undervoltage element included in the
                          V11V relays provides two stage non-directional undervoltage
                          protection with independent time-delay characteristics. These
                27D                                                                                  A
                          characteristics are selectable between inverse definite minimum
                          time (IDMT) and definite time (DT) for first stage. Second stage
                          can operate only with DT characteristic.
                          The frequency element included in the V11V relay provides six
                          stages of non-directional overfrequency or underfrequency
             81U/81O                                                                                 A
                          protection with independent time-delay characteristics. These
                          characteristics are only definite time (DT) characteristic.
                          USB port (in models: A with powering feature)                            N,A
                                                                                                L(optional),
                          Rear communication port (RS485)
                                                                                                   N,A
     V11V/EN IT v1.0                                                                           Introduction
                                                                                                 Function
                                    PROTECTION FUNCTIONS OVERVIEW
                                                                                                 available
                               CB Control via a rear communication port (RS485) or dedicated
                                                                                                    NA
                               binary input
                                                                                                L(0), N(2),
                               Binary inputs
                                                                                                   A(6)
                                                                                                L(4), N(6),
IT                             Output contacts (Watchdog included)
                                                                                                   A(8)
                               3 timers (AUX)                                                      N, A
                               Comprehensive disturbance recording (waveform capture)               A
                               Time synchronization via binary input                                A
                               Circuit breaker status & condition monitoring                        A
                The V11V also offers the following relay management functions in addition to the functions
                listed above.
                •   Up to 20 Fault Records, 5 Alarm Records, 200 Events (if ports are available) (when the
                    available space is exhausted, the oldest record is automatically overwritten by the new
                    one)
                •   Readout of actual settings available via the USB port or rear communication port
                    (RS485) (if ports are available)
• Counters
Application overview
VAMP 11V
TD
TECHNICAL DATA
VAMP 11V
TD
Technical Data                                                    V11V/EN TD v1.0
CONTENT
1.         Mechanical specification                                            3
1.1        Case                                                                3
1.2        Terminals                                                           3
2.         RATINGS                                                             4
2.1        Power Supply                                                        4
                                                                                    TD
2.2        Frequency (Voltage Inputs)                                          5
2.3        Voltage Inputs                                                      5
2.4        Binary Inputs                                                       6
2.5        Output Relay Characteristics                                        7
3.         INSULATION                                                          8
4.         EMC TESTS                                                           9
5.         ENVIRONMENT                                                        11
6.         EU Directive                                                       12
6.1        EMC Compliance                                                     12
6.2        Product Safety                                                     12
1.         Mechanical specification
1.1        Case
1.2        Terminals
           AC Voltage Input Terminals
           Threaded M3 screw-type plug-in terminals, with wire protection for conductor cross-section
                         2
           (i) 0.2 - 6 mm single-core
                                                                                                           TD
                         2
           (ii) 0.2 - 4 mm finely stranded
           General Input/Output Terminals
           For power supply, binary and contact inputs, output contacts and COM for rear
           communications.
           Threaded M3 screw-type plug-in terminals, with wire protection for conductor cross-section
                         2
           (i) 0.2 - 4 mm single-core
                             2
           (ii) 0.2 - 2.5 mm finely stranded
           Local communication
           USB port
           Cable Type: USB 2.0
           Connectors:
           PC: type A male
           V11V: type mini B 5-pin male
           USB Cable: minimum 1P*28AWG/2C*24AWG, max : 2m
     2.         RATINGS
     2.1        Power Supply
Vx S
                 Vx range                                                         VA
                                               V
                                                               Initial position       Active position
                                              24                     3.5                    7.5
                 24V – 60V ac
                                              60                     4.5                    8.0
                                              110                    6.0                   10.0
                 90V – 240V ac
                 (L, N: 24V -240V ac)         230                   10.0                   14.5
                                              240                   10.2                   15.0
Vx range W
                                                       Vx                      *TOFF
                                                                        ac               dc
                                                       24 V           20 ms            20 ms
                                                       48 V           50 ms            30 ms
                                                       60 V           90 ms            50 ms
                                                       90 V           200 ms           100 ms
                                                                                                           TD
                                                     110 V            300 ms           150 ms
                                                     220 V             1,2 s           600 ms
                                                     230 V             1,3 s           700 ms
                                                     240 V             1,4 s           750 ms
                                                     250 V             1,5 s           800 ms
                                              *4 energized output relays
           Nominal voltage (Un)            (57 ÷ 130) Vph-phac eff or (220 ÷ 480) Vph-phac eff
                                           (dependent on CORTEC number)
           Operating range                 (5 ÷ 200) Vph-phac eff or (20 ÷ 720) Vph-phac eff
           Nominal Burden at Un            < 0.22 VA at (57 ÷ 130) Vac;
                                           < 0.3 VA at (220 ÷ 480) Vac;
           Thermal withstand               10 s @ 300/1300 Vph-phac eff
                                           continuous: 200/720 Vph-phac eff
           Connection                      Refer to section 12 of V11V Installation chapter
                                           (V11V/EN IN)
                                                                 Binary Inputs
                    Filtering                                   Minimum      Maximum
                      time        Nominal          Voltage     polarisation polarisation    Maximum
                    approx.       Voltage         operating      voltage      current       continuous
                                   range            range       (Logic 1)                   withstand
                                                                 approx.      approx.
                                    24 –            19.2 –       16 Vdc            12 mA     110 Vdc
                1      40 ms
                                  60 Vac/dc        66 Vac/dc     18 Vac            (66V)     78 Vac
TD              2      40 ms
                                     90 –            72 –
                                                                66 Vac/dc
                                                                                   2.5 mA    300 Vdc
                                  240 Vac/dc      264 Vac/dc                       (264V)    264 Vac
           Contact ratings
           Contact relay                      Dry contact, Ag Ni
           Carry capability                   5 A continuous
           Rated Voltage                      250 Vac
           Breaking characteristics for RL1, RL2, RL3 and WD
           Short-duration capacity            25 A for 3 s
           Making capacity                    150 A for 30 ms
           AC breaking capacity               1250 VA resistive (cos φ = unity)                     TD
                                              1250 VA inductive (cos φ = 0.7)
           DC breaking capacity               250 Vdc;
                                              50 W resistive
                                              25 W inductive (L/R = 40 ms)
           Operation time                     <10ms
           Durability
           Loaded contact                     10 000 operations minimum
           Unloaded contact                   100 000 operations minimum
           Breaking characteristics for RL4, RL5, RL6, RL7
           Short-duration capacity            25 A for 3 s
           Making capacity                    150 A for 30 ms
           AC breaking capacity               1250 VA resistive (cos φ = unity)
                                              1250 VA inductive (cos φ = 0.7)
           DC breaking capacity               250 Vdc;
                                              50 W resistive
                                              25 W inductive (L/R = 40 ms)
           Operation time                    <10ms
           Durability
           Loaded contact                     10 000 operations minimum
           Unloaded contact                   100 000 operations minimum
     V11V/EN TD v1.0                                                                Technical Data
     3.         INSULATION
      Insulation resistance   EN 60255-27: 2014   > 100 MΩ at 500 Vdc
                                                  (Using only electronic/brushless insulation
                                                  tester).
      High Voltage                                2 kV RMS AC, 1 minute:
      (Dielectric)                                Between all case terminals connected
      Withstand                                   together and the case earth.
                                                  Between all terminals of independent circuits
                                                  with terminals on each independent circuit
                                                  connected together (USB port excluded).
TD    Impulse Voltage                             Front time: 1.2 µs, Time to half-value: 50 µs,
      Withstand Test                              Peak value: 5 kV
                                                  Source Characteristics: 500 Ohm, 0.5 J.
                                                  Common and differential mode: power supply,
                                                  terminal block (excluding RS485), binary
                                                  inputs, relays
      Creepage Distances                          Pollution degree 2,
      and Clearances                              Overvoltage category III,
                                                  Impulse test voltage 5 kV.
Technical Data                                                                      V11V/EN TD v1.0
4.         EMC TESTS
 1 MHz Burst High         EN 60255 - 26: 2013   Common-mode test voltage: 2.5 kV,
 Frequency                EN61000-4-18: 2010    Differential test voltage: 1.0 kV,
 Disturbance Test
                          Level 3               Test duration: 2 s,
                                                Source impedance: 200 Ω
 Immunity to              EN61000-4-2: 2009     8 kV discharge in air to all communication
 Electrostatic            Level 3               ports.
 Discharge                                      6 kV point contact discharge to any part of the
                                                front of the product.
 Electrical Fast          EN61000-4-4: 2012     Amplitude: 2 kV,                                      TD
 Transient or Burst       Level 3               Burst frequency 5 kHz (Class III)
 Requirements
 Surge Immunity Test      EN61000-4-5: 2014     Time to half-value: 1.2/50 µs,
                          Level 3               Amplitude: 2 kV between all groups and case
                                                             earth,
                                                Amplitude: 1 kV between terminals of each
                                                             group
 Immunity to Radiated     EN61000-4-3: 2010      Test field strength, frequency band:
 Electromagnetic                                 - 80 MHz to 1000 MHz: 10 V/m,
 Energy
                                                 - 1.4 GHz to 2.7 GHz: 10 V/m
                                                 Test using AM: 1 kHz / 80% sinus
                                                Spot frequencies:
                                                80MHz, 160MHz, 380MHz, 450MHz, 900MHz,
                                                1850MHz, 2150MHz
                                                80 % AM, 1kHz, 100% (duty cycle)
 Radiated Immunity                              10 V/m, 900 MHz 100% AM, 200 Hz/50%
 from Digital Radio                             square wave
 Telephones
 Immunity to              EN61000-4-6: 2014     Disturbing test voltage: 10 V, 150 kHz to
 Conducted                                      80 MHz, 80% AM, 1 kHz
 Disturbances Induced                           Spot frequencies: 27 MHz, 68 MHz
 by Radio Frequency
 Fields
 Power Frequency          EN61000-4-8: 2010     50Hz, 30 A/m - 1 minute for each position
 Magnetic Field           Level 4               50Hz, 300 A/m - 3 seconds for each position
 Immunity
 Network frequency                              50Hz, 1000A/m – 1 seconds for each position
 (50Hz)
 electromagnetic fields
 immunity test
 Pulse magnetic fields    EN61000-4-9: 2010     6,4/16 µs magnetic pulse 1000A/m.
 immunity test                                  Applied to enclosure.
                          Level 5
 Conducted Emissions      EN55022: 2011         0.15 MHz - 0.5 MHz, 79 dBµV (quasi peak)
                          (CISPR 22)            66 dBµV (average);
                          Class A               0.5 MHz - 30 MHz, 73 dBµV (quasi peak)
                                                60 dBµV (average)
 Radiated Emissions       EN55022: 2011         30 MHz - 230 MHz, 40 dBµV/m at 10 m
                          (CISPR 11)                measurement distance;
                          Class A               230 MHz - 1 GHz, 47 dBµV/m at 10 m
                                                    measurement distance
                                                1 - 2 GHz, 76 dBµV/m at 3 m
                                                measurement distance
     V11V/EN TD v1.0                                                             Technical Data
5.         ENVIRONMENT
 Ambient          EN 60255-1: 2010      Operating temperature range: -20°C to +60°C
 Temperature      EN60068-2-2 Bd:                                    (–4°F to +140°F),
 Range            2007                  Storage and transit:         –25°C to +70°C
                  EN60068-2-1 Ad:                                    (–13°F to +158°F).
                  2007
 Ambient          EN 60068-2-78: Cab:   56 days at 93% relative humidity and +40°C.
 Humidity         2013
 Range
                  EN 60068-2-30: Db:    Damp heat cyclic, six (12 + 12) hour cycles,
                  2005                  93% RH, +25 to +55°C
                                                                                                      TD
 Vibration Test   EN 60255-21-1: 1995   Response Class 1
                                        Endurance Class 1
 Shock and        EN 60255-21-2: 1995   Shock response Class 1
 Bump                                   Shock withstand Class 1
                                        Bump Class 1
 Seismic          EN 60255-21-3:1995    Class 2
 Enclosure        EN 60529: 2000        IP 40 Protection for relay housing
 Protection                             IP 20 Protection for terminals.
                                        IP 54 Protection (front panel) against dust and
                                        dripping water for flash mounted case.
     V11V/EN TD v1.0                                                             Technical Data
     6.          EU Directive
     6.1         EMC Compliance
2014/30/EU
                 −     EN 60255-26: 2013
TD               −     EN 60255-1: 2010
     6.2         Product Safety
2014/35/EU
                 −     EN60255-27:2014
Technical Data                                                                      V11V/EN TD v1.0
9.         DEVIATIONS OF MEASUREMENTS                                                                       TD
           Measurement                            Range                      Deviation
                                                                             ± (2% of rdg + 2 digits)
                                                                                                        1
           Voltage / Residual voltage             (57 ÷ 130) Vac
                                                  (220 ÷ 480) Vac
           Frequency                              (40 ÷ 60) Hz               ±10 mHz
                                                  (50 ÷ 70) Hz
            1. rdg: reading (the read-in value)
               digit: the smallest value that can be displayed
     V11V/EN TD v1.0                                                                           Technical Data
                                         Setting Range
                 [27] Undervoltage
                                         Min.                          Max.           Step
                                   Setting Range
           [59] Overvoltage
                                   Min.                            Max.           Step
           V> ?                    Disabled, OR Trip, OR Alarm, AND Trip, AND Alarm, OR
                                   Trip/52a, OR Alarm/52a, AND Trip/52a, AND Alarm/52a
           V>                      5 V for range (57-130)V         200 V          0.1 V
                                   20 V for range (220-480)V       720 V          0.5 V                    TD
           Delay type              DT or IDMT (IEC_SI, IEC_VI, IEC_EI, IEC_LTI, UK_STI,
                                   C02_P20, US_ C08, IEEE_MI, IEEE_VI, IEEE_EI, RXIDG,
                                   BPN EDF, RI, RECT, C02_P40 curve)
           tV>                     0.02 s                          200 s          0.01 s
           V> TMS                  0.02                            1.50           0.01
           V> TD                   0.02                            100            0.01
           V> Reset Delay Type DT or IDMT (refer to Operation chapter)
           DMT V> tReset           0.00 s                          600 s          0.01 s
           K (RI)                  0.1                             10             0.1
           V>> ?                   Disabled, OR Trip, OR Alarm, AND Trip, AND Alarm, OR
                                   Trip/52a, OR Alarm/52a, AND Trip/52a, AND Alarm/52a
           V> >                    5 V for range (57-130)V         200 V          0.1 V
                                   20 V for range (220-480)V       720 V          0.5 V
           Delay type              DT or IDMT (IEC_SI, IEC_VI, IEC_EI, IEC_LTI, UK_STI,
                                   C02_P20, US_ C08, IEEE_MI, IEEE_VI, IEEE_EI, RXIDG,
                                   BPN EDF, RI, RECT, C02_P40 curve)
           tV> >                   0.02 s                          200 s          0.01 s
           V>> TMS                 0.02                            1.50           0.01
           V>> TD                  0.02                            100            0.01
           V>> Reset Delay         DT or IDMT (refer to Operation chapter)
           Type
           DMT V>> tReset          0.00 s                          600 s          0.01 s
           K (RI)                  0.1                             10             0.1
           V>>> ?                  Disabled, OR Trip, OR Alarm, AND Trip, AND Alarm, OR
                                   Trip/52a, OR Alarm/52a, AND Trip/52a, AND Alarm/52a
           V>>>                    5 V for range (57-130)V         200 V          0.1 V
                                   20 V for range (220-480)V       720 V          0.5 V
           tV>>>                   0.02 s                          200 s          0.01 s
     V11V/EN TD v1.0                                                                          Technical Data
                                          Setting Range
                 [59] Overvoltage
                                          Min.                      Max.            Step
                 VN> ?                    Disabled, Trip (measured), Alarm (measured), Trip
TD                                        (Ua+Ub+Uc), Alarm (Ua+Ub+Uc)
                 VN>                      0.5 V                     130 V           0.1 V
                                                 Setting ranges
                [81U/O] Frequency
                                                 Min.          Max.         Step
                f1?                              Disabled, f> Trip, f> Alarm, f< Trip,
                                                 f< Alarm
                f1                               fn-10 Hz      fn+10 Hz     0.01 Hz
                tf1                              0.1 s         600.00 s     0.01 s
TD              f2?                              Disabled, f> Trip, f> Alarm, f< Trip,
                                                 f< Alarm
                f2                               fn-10 Hz      fn+10 Hz     0.01 Hz
                tf2                              0.1 s         600.00 s     0.01 s
                f3?                              Disabled, f> Trip, f> Alarm, f< Trip,
                                                 f< Alarm
                f3                               fn-10 Hz      fn+10 Hz     0.01 Hz
                tf3                              0.1s          600.00 s     0.01 s
                f4?                              Disabled, f> Trip, f> Alarm, f< Trip,
                                                 f< Alarm
                f4                               fn-10 Hz      fn+10 Hz     0.01 Hz
                tf4                              0.1 s         600.00 s     0.01 s
                f5?                              Disabled, f> Trip, f> Alarm, f< Trip,
                                                 f< Alarm
                f5                               fn-10 Hz      fn+10 Hz     0.01 Hz
                tf5                              0.1 s         600.00 s     0.01 s
                f6?                              Disabled, f> Trip, f> Alarm, f< Trip,
                                                 f< Alarm
                f6                               fn-10 Hz      fn+10 Hz     0.01 Hz
                tf6                              0.1 s         600.00 s     0.01 s
           −     tV>, tV>>, tV>>>, tV<, tV<<, tV<<<, tV1<(A), tV1<<(A), tV2>, tV2>>, tVN>, tVN>>,
                 tVN>>>, tf1(A), tf2(A), tf3(A), tf4(A), tf5(A), tf6(A).
           The following stages may be blocked by VTS:
           −     V>, V>>, V>>>, V<, V<<, V<<<, V1<(A), V1<<(A), V2>, V2>>, VN>, VN>>, VN>>>, f1(A),
                 f2(A), f3(A), f4(A), f5(A), f6(A).
           The following stages may be blocked by state control of connector:
− VTS, V>, V>>, V>>>, V<, V<<, V<<<, V1<(A), V1<<(A), V2>, V2>>, VN>, VN>>, VN>>>.
                tVN>>>, Blocking tf1(A), Blocking tf2(A), Blocking tf3(A), Blocking tf4(A), Blocking tf5(A),
                Blocking tf6(A), AUX1, AUX2, AUX3, AUX4, AUX5, CB Status 52a, CB Status 52b, CB FLT
                External Signalling, Setting Group 2, Manual Close, Manual Trip, VTS, Start Disturber
                Recorder, Local CTRL Mode, Time Synchronization.
     11.6.2     Reverse Input Logic
                The logic of the inputs can be reversed: Input L1 and L2 (N) or L1 to L6 (A)
                Note: Reverse logic means that if an input is energized, the function assigned to this input is
                disabled. If the input is not energized, the function is enabled.
     11.7       LEDs
TD              Assignable functions: Alarm, Start V>, Start V>>, Start V>>>, Start V<, Start V<<, Start V<<<,
                Start V1<(A), Start V1<<(A), Start V2>(N, A), Start V2>>(N, A), Start VN>, Start VN>>, Start
                VN>>>, Start f1(A), Start f2(A), Start f3(A), Start f4(A), Start f5(A), Start f6(A), AUX1, AUX2,
                AUX3, AUX4, AUX5, tV>, tV>>, tV>>>, tV<, tV<<, tV<<<, tV1<(A), tV1<<(A), tV2>(N, A),
                tV2>>(N, A), tVN>, tVN>>, tVN>>>, tf1(A), tf2(A), tf3(A), tf4(A), tf5(A), tf6(A), tAUX1, tAUX2,
                tAUX3, Local CTRL mode, CB Alarm, Maintenance, tCB Faulty External Signalling, Setting
                Group 2, tVTS, tfout.
     11.8       Latch of the LED’s
                All LED’s can be latched.
Technical Data                                                        V11V/EN TD v1.0
                                     Setting range
           Auxiliary timers G1/G2
                                     Min.        Max.         Step
           Aux1 ?                    Disabled , Trip, Alarm
           Time-delay tAux1          0           600 s        10 ms
           Aux2 ?                    Disabled , Trip, Alarm
           Time-delay tAux2          0           600 s        10 ms
           Aux3?                     Disabled , Trip, Alarm
           Time-delay tAux3          0           600 s        10 ms                     TD
     V11V/EN TD v1.0                                                                              Technical Data
                                                           Setting range
                CB Control Time             Model
                                                           Min.         Max.         Step
                tOpen Pulse min             All models       0.1 s           10 s        0.01 s
                tClose Pulse                All models       0.1 s           10 s        0.01 s
                Time-delay for Close            A            0.0 s          200 s        0.01 s
                                                    Setting range
                CB Supervision
                                                    Min.             Max.           Step
                CB Time Supervision?                Yes or No
                CB Open time                        0.01 s           10 s           0.01 s
                CB Close time                       0.01 s           10 s           0.01 s
Technical Data                                                                    V11V/EN TD v1.0
           Capacity                 20 faults
           Time-tag                 1 millisecond
           Triggers                 Any selected protection which trip CB
           Data                     Fault date
                                    Protection thresholds
                                    Setting Group
                                    AC inputs measurements (RMS)
                                    Fault measurements
     V11V/EN TD v1.0                                                                               Technical Data
                Disturbance Records Total record: up to 4s, but not more than 5 records
                Triggers               Any selected protection alarm and threshold, logic input, remote
                                       command
                Data                   AC input channels 16 sample per cycle
                                       digital input and output states
                                            Default value                          Setting range
TD                                                               Min.          Max.          Step
                Pre-fault Time                    0.1            0.1           2             0.01
                Post-fault Time                   0.1            0.1           1             0.01
                Max record time                   1.5            0.10          4             0.01
                Disturb record Trig              on Inst         on Trip or on Inst.
                Trigger                Protection selected for tripping, Logic input (Start Distur.R.)
Technical Data                                                                       V11V/EN TD v1.0
     14.         CURVES
     14.1        General
                 Although the curves tend towards infinite when the voltage approaches Vs (general threshold),
                 the minimum guaranteed value of the operating voltage for all the curves with the inverse time
                 characteristic is 1.1 Vs (with a tolerance of ± 0.05 Vs).
     14.1.1      Inverse Time Curves
                 Some stage of protection functions can be selected (refer to settings options) with an inverse
                 definite minimum time (IDMT) characteristic. The time-delay is calculated using a mathematical
                 formula.
TD               In all, there are fifteen IDMT characteristics available.
                 The mathematical formula applicable to the first ten curves is:
                                           
                                           
                                 k         
                 t = TMS ×          α
                                         + c
                             G  − P    
                            Gs             
                                         
                 Where:
                 t                Operation time
                 k, c, α, P       Constant (see table)
                 G                Value of measured voltage
                 Gs               Value of the programmed threshold (pick-up value)
                 TMS Time multiplier setting (for IEC: TMS; IEEE: TD)
                     Type of curve
                     (according to IEC60255-       Standard            k         c            α         P
                     151 std definition)
                     IEC Standard inverse (SI)     IEC/A        0.14         0         0.02        1
                     IEC Very inverse (VI)         IEC/B        13.5         0         1           1
                     IEC Extremely inverse (EI)    IEC/C        80           0         2           1
                     Long time inverse (LTI)       IEC          120          0         1           1
                     FR Short time inverse (STI) FR             0.05         0         0.04        1
                     US Short time inverse         C02 P20      0.02394      0.01694   0.02        1
                     US Short time inverse         C02 P40      0.16758      0.11858   0.02        1
                     Long time inverse             C08          5.848        0.1654    2           1
                     IEEE Moderately Inverse       IEEE         0.0515       0.114     0.02        1
                     IEEE Very inverse             IEEE         19.61        0.491     2           1
                     IEEE Extremely inverse        IEEE         28.2         0.1217    2           1
                     UK Rectifier protection       RECT         45900        0         5.6         1
                     BNP (EDF)                     EDF          1000         0.655     2           1
                     RI                                         -4.2373      0         -1          1.43644
                 Note: For RI curve the equation is valid for the range: 1.1 ≤ V/Vs ≤ 20
Technical Data                                                                                V11V/EN TD v1.0
           RXIDG Curves
           The first earth thresholds can be selected with dedicated RXIDG curves.
           The curves available follow the formula:
           t = 5.8 – 1.35 * Un ( 1/ (k * Vs/V))
           Where:
           t = tripping time
           k = coefficient (from 0.3 to 1, by steps of 0.01)
                                                                                                                  TD
           Vs = value of the programmed threshold (Pick-up value)
           V = value of measured voltage
                                                  DMT Reset
                                                                             IDMT characteristic
                                                  characteristic
           DMT, Rectifier, LTI, STI,              Settable from 0 to 600 ms Not available. If IDMT is
           Rectifier, BNP EDF, RXIDG                                        selected: reset timer is set to
                                                                            0s (see table below: K=0)
           IDMT IEC or RI                         Settable from 0 to 600 ms Based on RTMS value
                                                                            (refer to Operation chapter)
           IDMT IEEE or CO                        Settable from 0 to 600 ms Based on RTD value
                                                                            (refer to Operation chapter)
           Reset timer:
           The first phase, earth and negative sequence overvoltage stages are provided with a timer hold
           facility: "t Reset".
           It may be set to a definite time value or to an inverse definite minimum time characteristic
           (IEC/IEEE/ANSI curves only). This may be useful in certain applications, for example when
           grading with upstream electromechanical overcurrent relays that have inherent reset time-
           delays.
           The second and third earth fault stages have only a definite time reset.
           A possible situation where the reset timer may be used is to reduce fault clearance times where
           intermittent faults occur.
           An example may occur in a cable with plastic insulation. In this application it is possible that the
           fault energy melts the cable insulation, which then reseals after clearance, thereby eliminating
           the cause for the fault. This process repeats itself to give a succession of fault current pulses,
     V11V/EN TD v1.0                                                                               Technical Data
                 each of increasing duration with reducing intervals between the pulses, until the fault becomes
                 permanent.
                 When the reset time of the overvoltage relay is set to its minimum, the relay will be repeatedly
                 reset and will not be able to trip until the fault becomes permanent. By using the reset timer hold
                 function the relay will integrate the fault current pulses, thereby reducing the fault clearance
                 time.
                 The mathematical formula applicable to the five curves is:
                                                  
                                                  
                                           tr     
                           t = RT ×             p 
TD                                   1 −  G  
                                                  
                                      Gs  
                 Where:
                 t        Reset time
                 tr, p    Constant (see table)
VAMP 11V
GS
GETTING STARTED
VAMP V11V
GS
Getting Started                                                                 V11V/EN GS v1.0
CONTENTS
1.         RELAY POWER UP                                                                    4
1.1        System Connections                                                                4
1.2        Auxiliary Power Supply Connections                                                4
1.3     Powering up from the USB port is available in model A only (not available in model N,
model L no USB on the front panel)                                                           4
GS
Getting Started                                                         V11V/EN GS v1.0
FIGURES
                                   For safety reasons, no work must be carried out on the V11V until all
                                   power sources to the unit have been disconnected.
     1.         RELAY POWER UP
                Follow the following instructions carefully in order to correctly power up the relay.
GS   1.1        System Connections
                Check the wiring scheme of your installation.
                Check that the output relay contacts are included in your trip circuit.
     1.2        Auxiliary Power Supply Connections
                Connect a DC or AC (according to nominal supply rating VAUX) voltage power supply.
                Turn on the auxiliary power supply and set to approximately the rated voltage as shown on
                the relay's front panel.
                The display should show:
− 8 LEDs,
                       -   Edition of setting value is possible (the level correct password has been
                           entered),
     2.1.3      Indications
                Note: “(NA)” means that function is available in model N and A only.
                Fixed Function LEDS:
                Healthy – Powering of microprocessor and no hardware problems detected (green LED)
                Trip – Any trip caused by protection criteria
                And 6 programmable LEDS for the following functions (OR logic):
                Alarm –                Alarm signal
                U> –                   Start of the first overvoltage stage
                U>> –                  Start of the second overvoltage stage
                U>>>–                  Start of the third overvoltage stage
                U< –                   Start of the first undervoltage stage
                U<< –
GS                                     Start of the second undervoltage stage
                U<<<–                  Start of the third undervoltage stage
                U1< –                  Start of the first positive sequence undervoltage stage (A)
                U1<< –                 Start of the second positive sequence undervoltage stage (A)
                U2>–                   Start of the first stage negative sequence overvoltage stage (NA)
                U2>>–                  Start of the second stage negative sequence overvoltage stage (NA)
                UN> –                  Start of the first earth fault overvoltage stage
                UN>> –                 Start of the second earth fault overvoltage stage
                UN>>>–                 Start of the third earth fault overvoltage stage
                Start f1–              Start of the first frequency stage (A)
                Start f2–              Start of the second frequency stage (A)
                Start f3–              Start of the third frequency stage (A)
                Start f4–              Start of the fourth frequency stage (A)
                Start f5–              Start of the fifth frequency stage (A)
                Start f6–              Start of the sixth frequency stage (A)
                AUX1 –                 Trigger of AUX1 (via a binary input) (A)
                AUX2 –                 Trigger of AUX2 (via a binary input) (A)
                AUX3 –                 Trigger of AUX3 (via a binary input) (A)
                tU> –                  Trip of the first overvoltage stage
                tU>> –                 Trip of the second overvoltage stage
                tU>>>–                 Trip of the third overvoltage stage
                tU< –                  Trip of the first undervoltage stage
                tU<< –                 Trip of the second undervoltage stage
                tU<<<–                 Trip of the third undervoltage stage
                tU1< –                 Trip of the first positive sequence undervoltage stage (A)
                tU1<< –                Trip of the second positive sequence undervoltage stage (A)
                tU2>–                  Trip of the first stage negative sequence overvoltage stage (NA)
                tU2>>–                 Trip of the second stage negative sequence overvoltage stage (NA)
                tUN> –                 Trip of the first earth fault overvoltage stage
                tUN>> –                Trip of the second earth fault overvoltage stage
Getting Started                                                                             V11V/EN GS v1.0
GS
PJ103ENd
                    1 – Terminal block A: Auxiliary voltage Vaux, contact outputs (WD,RL1-RL3) and binary inputs (L1, L2) and
                        RS485
                    2 – Contact outputs (A): RL6, RL7 and binary inputs (A): L3, L4, L5, L6
                    3 – Terminal block C: voltage analogue inputs (phases and earth), (NA) output contacts: RL4, RL5
                    Refer to Installation chapter V11V/EN IN.
               Once the ratings have been verified for the application, connect the equipment to an external
               power source capable of delivering the requirements specified on the label, to perform the
               relay familiarization procedures. Please refer to the wiring diagrams in the Installation section
               for complete installation details, ensuring that the correct polarities are observed in the case
               of dc supply.
                           Note:       The label specifies the auxiliary voltage for the V11V supply input and
                                       binary inputs (dependent on ordering options).
    2.2.2      Voltage inputs
               The measuring voltage inputs of the V11V should be connected to the secondary wires of
               the power system VTs as shown in the connection diagrams in section 8 of V11V Installation
               chapter V11V/EN IN.
               The parameters of the VTs that can be connected to the V11V’s voltage input terminals are
               detailed in section 3 of chapter V11V/EN AP - Applications.
    2.2.3      Earthing
               V11V have no the Protective (Earth) Conductor Terminal (because of the plastic case)
    2.2.4      Output contacts
               Depends on the model the V11V has:
               - Model L: 3 output contacts + WD(RL0)
               - Model N: 5 output contacts + WD(RL0)
               - Model A: 7 output contacts + WD(RL0)
     V11V/EN GS v1.0                                                                              Getting Started
                 V11V is delivered with the following default factory settings for the outputs:
                 -   Output RL0/WD (N/O: A3-A5, N/C: A4-A5) -watchdog is not configurable
                 -   Output RL1 (N/O: A6-A8, N/C: A7-A8) is not configured
                 -   Output RL2 (N/O: A9-A11, N/C: A10-A11) is not configured
                 -   Output RL3 (N/O: A12-A13) is not configured
                 -   Output RL4 (NA) (N/O: C1-C2) is not configured
                 -   Output RL5 (NA) (N/O: C3-C4) is not configured
                 -   Output RL6 (A) (N/O: B1-B2) is not configured
                 -   Output RL7 (A) (N/O: B3-B4) is not configured
                 To modify the outputs configuration, refer to section 2.2 of chapter V11V/EN ST - Settings.
                 The output connection diagram is shown in section 8 of chapter V11V/EN IN - Installation.
GS   2.2.5       Binary inputs
                 Depends on the model the V11V has:
                 - Model L: no binary inputs
                 - Model N: 2 binary inputs
                 - Model A: 6 binary inputs
                 Binary inputs:
                 -   Input L1 (NA): A14-A16 terminals (terminal block A)
                 -   Input L2 (NA): A15-A16 terminals (terminal block A)
                 -   Input L3 (A): B5-B7 terminals (terminal block B)
                 -   Input L4 (A): B6-B7 terminals (terminal block B)
                 -   Input L5 (A): B8-B10 terminals (terminal block B)
                 -   Input L6 (A): B9-B10 terminals (terminal block B)
                 There operation range is the same as auxiliary voltage supply (A1-A2 terminals) see chapter
                 2.2.1 (ordering option).
                 To modify the inputs' configuration, refer to section 1.2.3 of chapter V11V/EN ST - Settings.
                 The input connection diagram is shown in section 8 of chapter V11V/EN IN - Installation.
           After restart or powering up, the V11V is in Protection Mode. This means that all settings
           are the same as in the relay's operation system and are available on the front panel user
           interface.
           To change any parameters, it is necessary to switch the V11V to the SETTING CHANGE
           MODE.
           The SETTING CHANGE MODE, for entered password level which changes setting
           parameters, is indicated by the sequential flashing of the programmable LEDs (from 4 up to
           8 LEDs) on the front panel.
           Until it is switched back from the SETTING CHANGE MODE to the PROTECTION MODE,
           or restarted by disconnecting then reconnecting the power supply, the V11V uses the setting
           parameters that were active before the SETTING CHANGE MODE was entered (previous
           settings).
           Press the OK navigation key, after changing a chosen parameter (confirmation of change).
           The new value is saved in FRAM memory but the V11V still uses the setting value that was
           active before the SETTING CHANGE MODE was entered (previous settings). The new
           value will be available in the operation system only after the firmware has been reset. When
           the firmware is reset, all the settings are loaded into the V11V system.                           GS
           When switching from the SETTING CHANGE MODE to the PROTECTION MODE, a warm
           reset is applied.
           The V11V therefore applies the new parameters to the relay's operation system.
           Afterwards, the settings available on the front panel and those used by the operation system
           are consistent.
                    Note:         While the LEDs (LED’s 3 - 7) are start flashing subsequently
                                  (SETTING CHANGE MODE by entering Administrator or Protection
                                  setting password) there can be a mismatch between the settings
                                  displayed on the front panel and those used by the operating system.
                                  When “Control only” rights password is entered then all LED’s (LED’s
                                  3 - 7) start flashing in the same time. Administrator or Protection
                                  setting password. Additionally all changes are executed and recorded
                                  immediately (no need warm reset of firmware). Because this level is
                                  not signaled so after 5 minutes V11V switches back automatically
                                  from the SETTING CHANGE MODE to the PROTECTION MODE.
           The password protection of the relay comprises three levels:
           −   Control only (Test control) – this level is used for tests and/or control execution only (no
               changing of setting parameters) so signaling of SETTING CHANGE MODE differs from
               above. On this password level there is no the sequential flashing of the programmable
               LEDs (from 3 up to 7 LEDs) but flashing in the same time. On the control windows is the
               special sign:   which informs that control is allowed.
           Administrator rights: all the menu settings may be changed (violet color on Fig.9-25).
           Protection setting rights: it is possible to change settings in the PROTECTION column;
           CTRL Default Windows (CB status CTRL, L/R status CTRL) and COMMISSIONING/
           Maintenance Mode windows are also possible (green color on Fig.9-25).
           Control rights: CTRL Default Windows (CB status CTRL, L/R status CTRL) and
           COMMISSIONING/Maintenance Mode windows from the front panel only (yellow color on
           Fig.9-25).
           For each level the password consists of 4 digits (0 to 9)
           NOTE: The default password is 0000 for every password protection level.
     V11V/EN GS v1.0                                                                             Getting Started
                 It is recommended to change default password from 0000 to unique value for every
                 password level.
                 If the first password is different, this means that the Administrator password has been
                 changed.
                 The Protection setting password is still 0000. Therefore, to protect settings against
                 unauthorized access it is necessary to change the Protection setting password by first
                 entering 0000 then a new value.
                 The Control password is still 0000. Therefore, if it is necessary to change it, first enter 0000
                 then the new value (Control right) of the password.
                           Notes:        1. If the Protection setting rights have not been changed, or if it has
                                         been set to the default value (0000), it is possible to change all the
                                         settings in the PROTECTION column, reset the counters and control
                                         the CB without entering a password, simply by pressing the OK
                                         navigation key. This makes it possible to change a chosen parameter
                                         by automatically switching the V11V to the SETTING CHANGE
                                         MODE (the programmable LEDs are flashing).
GS                                       This means that even after changing only one parameter it is
                                         necessary to switch the V11V back to PROTECTION MODE in order
                                         to activate the new settings (warm restart).
                                         2. If the Control rights password has not been changed or if it has
                                         been set to the default value (0000) it is possible to control the CB in
                                         menu without password protection.
     2.4.1       SETTING CHANGE MODE
                 The SETTING CHANGE MODE should be used to change settings.
                 Using the SETTING CHANGE MODE ensures that all changed parameters will be applied
                 simultaneously so as to avoid any problems caused by possible setting inconsistencies.
                 The SETTING CHANGE MODE makes it possible to change settings while the relay is
                 active without any risk (the V11V continues to use the previous settings).
                 After exiting the SETTING CHANGE MODE a warm reset of firmware is applied so that all
                 the protection counters are reset.
                           Note:         Latched LEDs and outputs are not reset (stored values are not
                                         cleared during a V11V reset)
                 To switch the V11V to the SETTING CHANGE MODE navigate to the SETTING CHANGE
                 MODE main header (see Figure 9), then press the key:
                 Edit settings?
                 Enter PSWD
                 Edit settings?
                 Enter PSWD 0000
                 1. If the digit is flashing, change the digit to the required value by pressing the      key or
                    the     key.
           Setting change:
            Without limits
           To indicate that the V11V is in SETTING CHANGE MODE on the level: “Without limits”
           the programmable LEDs are flashing
- Protection settings:
           Setting change:
            Protection only
                                                                                                            GS
           To indicate that the V11V is in SETTING CHANGE MODE on the level: “Protection only”
           the programmable LEDs are flashing
- Control only:
           Setting change:
            Test control
           There is no any indication that this level is entered. SETTING CHANGE MODE is active by 5
           minutes only.
                       Note:         The parallel pressing:     and     key it makes jump from any place
                                     to:
           Edit settings?
            Enter PSWD
           the menu cell in which the password can be entered (hot key).
           If all settings are changed, it is necessary to return to PROTECTION MODE to apply a warm
           reset.
           Edit settings?
           Exit:press ENTER
Press the OK navigation key to apply a warm reset and display the following cell:
           Setting change:
                  Protected
           The programmable LEDs do not flash sequentially. The V11V is in PROTECTION MODE
                       Note:         In SETTING CHANGE MODE all functions use the previously stored
                                     settings (before the SETTING CHANGE MODE was entered).
     V11V/EN GS v1.0                                                                              Getting Started
                 Edit settings?
                 Enter PSWD 000
                 Edit settings?
                 Exit:press ENTER
                 Press the OK navigation key to switch from SETTING CHANGE MODE to PROTECTION
                 MODE.
                 The following cell should be displayed:
                 Setting change:
                        Protected
                 The above cell confirms that settings are password-protected, and that the V11V is in
                 PROTECTION MODE.
                 Additionally the programmable LEDs do not flash sequentially.
                 Changing the password
                 To change the password, first enter the existing password to obtain the appropriate
                 password protection rights.
Change Password
                 Change Password
                            0000
                 Setting change:
                  Without limits
                 To exit the SETTING CHANGE MODE (apply a warm reset) press the                     and        keys
                 simultaneously to display the following cell:
Getting Started                                                                     V11V/EN GS v1.0
           Edit settings?
           Exit:press ENTER
           Press the OK navigation key to confirm switching from SETTING CHANGE MODE to
           PROTECTION MODE.
           The following cell should be displayed:
           Setting change:
                  Protected
           The above cell confirms that the settings are password-protected and that the V11V is in
           PROTECTION MODE. Additionally the programmable LEDs do not flash sequentially.
                                                                                                      GS
     V11V/EN GS v1.0                                                                         Getting Started
GS
the
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                            Getting Started
RECORDS
Figure 4:
       or
                                                                                                             FAULT                 ALARM                COUNTERS                                                                  MAX MEAS.
                                                                                                             RECORD                RECORD                                                                                         VALUES
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              RECORDS column
                                                                                           RECORDS column
                                                                                                                                                                                                                                                                                                                                                                              or
                                                                                                                                                                                  Read only
                                                                                                             Vc=       00000.0V    Vc=      00000.0V
                                                                                                             VN=       00000.0V    VN=      00000.0V
                                                                                                                                                                   Write under the password protection:
Counters can be reset in the Counter Reset cell of the menu, by pressing the OK key then
                                                                                                                                                                                                                                                        Records in the Fault Recorder can be reset using the MiCOM S1 Studio communication
                                                                                                                                                                                                                                                                                                                                                                                     key. Once the required record is selected, press the
              key. Once the required record is selected, press the OK key to confirm the
                                                                                                                                                                                                                                                                                                                                             HMI OK key to confirm the change. If the Control rights password has been set to the default
                                                                                                                                                                                                                                                                                                                                             Changing a record in the menu is possible in the Record Number menu cell, by pressing the
value (0000), this operation does not require entering a password; otherwise it is necessary
                                                                                                                                                                                                                                             GS
     V11V/EN GS v1.0                                                                         Getting Started
                 In addition, counters can be reset using the MiCOM S1 Studio communication software or
                 via the RS485 link.
     2.5.4       SETTING GROUP columns
                 The V11V has two setting groups. The relay is delivered with one setting group active only
                 (factory default setting).
                 If two setting groups are to be used, the second setting group must be activated in the menu
                 cell:
                 GLOBAL SETTINGS/SETTING GROUP SELECT/Setting Group Select:
                                            Nb of Groups
                                            0: One Group
                                                                                                                                                                                                                                                                                 SETTING GROUP 1
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                        Getting Started
                                                                                                                                                                                                                                                       Figure 5:
                                                                                                                                                                                                                                                                                 PROTECTION G1
PHASE O/V G1 PHASE U/V G1 E/GND FAULT O/V NEGATIVE SEQ.O/V POSITIVE SEQ.U/V Frequency AUX TIMERS G1
                                                  Notes:
                                                                                                                                                                                                                                                                                 [59]                 [27]                 [59N]      G1      [47]          G1                  [27D]         G1                           [81O/81U]        G1
                                                                                                                                                                                                                                                                                 Delay Type           Delay Type            Delay Type         Delay Type                         Delay Type                                tf1                  f5 Threshold         AUX2?
                                                                                                                                                                                                                                                                                 U>   1: IEC SI       U<   1: IEC SI        UN> 1: IEC SI      U2> 1: IEC SI                      U1< 1: IEC SI                                         1.00s            50.20Hz         2: Alarm
                                                                                                                                                                                                                                                                                  U> TMS              U< TMS                UN> TMS            U2> TMS                            U1< TMS                                   f2?                  tf5                  tAUX2?
                                                                                                                                                                                                                                                                                              1.00                1.00                1.00                  1.00                                      1.00                     3: f< Trip                    1.00s                10.00s
                                                                                                                                                                                                                                                                                 RTD/RTMS Reset       RTD/RTMS Reset        RTD/RTMS Reset     RTD/RTMS Reset                     RTD/RTMS Reset                            tf2                  f6 Threshold         tAUX3
                                                                                                                                                                                                                                                                                 U>         0.00      U<         0.00       UN>        0.00    U2>         0.00                   U1<         0.00                                      1.00s            50.50Hz               10.00s
                                                                                                                                                                                                                                                                                  U>> Threshold       U<< Threshold         UN>> Threshold     U2>> Threshold                     U1<< Threshold                            f3 Threshold
                                                                                                                                                                                                                                                                                           140.0V               70.0V                 30.0V             140.0V                              70.0V                                   47.50Hz
                                                                          configuring them to that function and via a special symbol on the LCD display.
                                                                                                                                                                                                                                                                                                                                                                           Administrator password (Without limits)
                                                                                                                                                                                                                                                                                 tU>>>                tU<<<                tUN>>>                                                                                           tf4
                                                                                                                                                                                                                                                                                                                                                                           Protection setting password (Protection only)
                                                                                                                                                                                                                                                                                             0.10s                0.10s               0.10s                                                                                             1.00s
                                                                                                                                                                                                                                                                                                                                                                            Control password (Test control)
                                                                                                                                                                                                                                                                                                                                                                                                                                                         PJ914ENd
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                            (GS) 3-19
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                        V11V/EN GS v1.0
                                                                          Information about the active setting group can be displayed via the programmable LEDs by
                                                                                                                                                                                                                                                                                                                                                                                                                     GS
     V11V/EN GS v1.0                                                                         Getting Started
GS
                 It is possible to Copy all parameters from Setting Group 1 to Setting Group 2 and inversely in
                 the Copy settings cell by pressing the OK navigation key. Choose the required operation by
                 pressing the       or      key (Copy G1     G2 or Copy G2        G1). Confirm the change by
                 pressing the OK navigation key.
                 Note: The setting group change's time-delay, from Setting Group 1 to Setting Group 2
                 (t Change Setting cell), applies to changes effected via a binary input only (NA).
     2.5.6       COMMISSIONING column
                 The settings available in the the COMMISSIONING column are:
− Opto I/P status – which binary inputs are active (logic status) (NA),
− Relay O/P status – which binary outputs are active (physical status),
                 −       Maintenance mode – allows the user to check the operation of the protection
                         functions without actually sending any external command (tripping or signaling) (A),
GS − Test Pattern – allows the user to set outputs contacts for tests (A),
− Contact Test Time – defines the output's pulse length during the tests (A),
                 −       Test outputs – if set to 1: apply test, pressing the OK navigation key will execute the
                         test of the outputs (A),
− Functional Test – allows the user to set the protection criteria to be tested (A),
                 −       Functional Test End – defines the end of the functional test: CB opened or Time
                         (A),
− Functional Test Time – defines the pulse length during the functional test (A),
                 −       Functional Test – if set to Apply Test pressing the OK navigation key will execute
                         the functional test (A).
                 It is possible to set following Maintenance mode options (A):
                     •    “No” - Maintenance mode is disabled. All window cells below are hidden
                          (Maintenance mode is the latest cell in COMMISIONING column)
GS
GS
GS
GS
GS
CONFIGURATION G1
LEDs 000000 VN>> 000000 tV> 000000 tf1 000000 Group 1 000000
                                                                                                                                     Access:
                                                        Start     765432   Start   765432            765432              765432
                                                        V<<<      000000   f6      000000   tV1<<    000000   tAUX2      000000                     Read only
                                                                                                                          GS
     V11V/EN GS v1.0                                                     Getting Started
GS
GS
GS
GS
GS
GS
CONFIGURATION G1
                                                                                                                     Access:
                                                        Start     765432            765432
                                                        V<<<      000000   tV<<<    000000                                          Read only
                                    GS
     V11V/EN GS v1.0                                                     Getting Started
GS
GS
GS
GS
GS
GS
A18 A19
GS
                                                                                P0953ENa
           During typing an advice will appear as above (type slowly), so select "MiCOM S1 Studio
           - IED Support Software” (2)
           The new window will appear (see below). Click on “MiCOM S1 Studio 5.1.0” (1)”
                                                                                                             GS
The new window will appear (see below). Click on MiCOM S1 Studio Installer 5.1.0 (1)
           Note: in case of any problems with finding windows as above, it is possible to go directly to
           window below by typing in internet browser: “MiCOM-S1-Studio 5.1.0 Installer.exe”.
           The new window will appear (see below). Click “Save file”, than run exe file for starting of
           installation.
     V11V/EN GS v1.0   Getting Started
GS
Getting Started                                                                       V11V/EN GS v1.0
           The settings and parameters of the protection relay can be extracted from the relay or
           loaded using the Data Model manager. The Data Model Manager can load any model from a
           local file, a external disks/drives or an Internet server (if connected).
           The Data Model Manager is used to add and remove data models, as well as to export and
           import data model files.
           It is necessary to close MiCOM S1 Studio prior to launching the Data Model Manager.
           To open the Data Model Manager, click on the icon:            . Select "All
                                                                                  "    programs" then
           "Schneider Electric" and than "MiCOM S1 Studio".
GS
           Select the Add option to add the new data model then click on Next..
     V11V/EN GS v1.0                                                                           Getting Started
                 The next window is used to select the data model's source (external
                                                                              (external drives, local folder or
                 Schneider Electric FTP server). Select the data model's source then click on Next.
GS
                 The Data Modell Manager loads the data models details then automatically displays the
                 language selection panel. Select the menu language then click on Next.
GS
Click on Install.. The data model files are downloaded and updated in your system.
           Once installation is complete, close the Data Model Manager. The downloaded Data Model
           will be used byy MiCOM S1 Studio when a system file is opened or created. For more
           information on how to open this default setting file, refer to sub-chapter
                                                                              chapter 3.5.99.
3.5.3      “Quick Connection” to the relay using MiCOM S1 Studio
GS
                 −     Click on the Quick Connect button at the top left of the application's window.
Getting Started                                                                          V11V/EN GS v1.0
GS
           −      Enter Password: administrator level (without limits) - the same as in the V11V which is
           connected via USB port. If the administrator password is not entered in the V11V – leave it
           as default. Note: the password could be unique for every V11V so if the password is
           forgotten – contact with SE service for help.
           Select virtual COM (VCP) which was created by USB driver:
     V11V/EN GS v1.0                                                                       Getting Started
GS
The virtual COM can be read in WINDOWS’s “Device Manager” like below:
                 NOTE: If V11V is connected but no any USB Serial port is shown, it means that USB drivers
                        are not installed or VCP (Virtual COM Port) option of USB Serial Converter is not
                        selected. Check VCP option as below:
Getting Started                                                                     V11V/EN GS v1.0
                                                                                                      GS
            Unplug USB cable and plug in again. Restart MiCOM S1 Studio and repeat the procedure.
GS
− V11V settings were saved on PC. The name of SET file is 000.set:
GS
           −     Double Click on 000.set set file to see settings on the right window of MiCOM S1
           Studio:
GS
                 −     Click on the name of Device and right-click to open the contextual menu: Send:
GS
           − By default, the window displays the message “create new or open existing system”: click
             on "New" to create a new system.
GS
                 − The following window is displayed: Enter the name of the system, and the path to save
                   the system file. Click OK.
                         Note:       If an item is selected in the Studio Explorer panel, its properties are
                                     displayed in the Properties panel:
Getting Started                                                                        V11V/EN GS v1.0
GS
           Click on the New substation icon (or right-click to open the contextual menu). The following
           window is displayed:
     V11V/EN GS v1.0                                                                            Getting Started
The new substation is displayed and the menu bar is updated when a substation is selected:
GS
GS
Select the device type then click on Next, select the model then click on Next:
GS
GS
           − If the file is saved or if the relay is not connected: Click on the Settings and right-click to
             open the contextual menu: Add Existing file
     V11V/EN GS v1.0                                                                             Getting Started
                 − If the relay is connected, extract its settings: Click on the Settings and right-click to open
                   the contextual menu: Extract Settings
GS
− Click on the Settings and right-click to open the contextual menu: New File
GS
GS
                 NOTE: If V11V is connected but no any USB Serial port is shown, it means that:
                 If you can’t see “USB Serial Converter” it means that USB divers are not installed.
                 Refer section “3.2 USB Driver and virtual COM software installation”
Getting Started                                                                      V11V/EN GS v1.0
                                                                                                       GS
           Check VCP option by right-click to open the contextual menu: Properties and Advanced:
            Unplug USB cable and plug in again. Restart MiCOM S1 Studio and repeat the procedure.
     V11V/EN GS v1.0                                                                  Getting Started
GS
                 The Wavewin File Manager is displayed (refer to the Wavewin User’s guide to operate
                 Wavewin).
Getting Started   V11V/EN GS v1.0
                                    GS
     V11V/EN GS v1.0                                                                        Getting Started
                 − Website: http://www.schneider-electric.com/CCC
Settings                                     V11V/EN ST v1.0
VAMP 11V
ST
SETTINGS
CONTENTS
1.         GENERAL INFORMATION                            3
2.         SETTINGS                                       5
2.1        Protection Settings                            5
2.1.1      Phase O/V [59]                                 5
2.1.2      Phase U/V [27]                                 7
2.1.3      Positive sequence U/V [27D] (A)                9
2.1.4      Negative Sequence O/V [46] (NA)               11
2.1.5      E/GND FAULT O/V [59N]                         13
2.1.6      FREQUENCY [81O/81U] (A)                       15
                                                               ST
2.1.7      Auxiliary Timers (AN)                         16
2.2        Input Configuration                           17
2.3        Output Relay Configuration                    21
2.4        LED Configuration                             26
3.         GLOBAL SETTINGS                               30
3.1        LOC                                           30
3.2        Setting Group Select                          31
3.3        VT’s Supervision (AN)                         32
3.4        VT Ratio                                      34
3.5        Circuit Breaker                               34
3.6        Voltage Advanced Configuration                35
3.7        [81] Advanced Settings (A)                    36
3.8        Communication (AN)                            37
3.9        Disturbance Recorder (A)                      38
4.         COMMISSIONING (AN)                            39
5.         SETTING CHANGE MODE                           41
6.         OP PARAMETERS                                 42
     V11V/EN ST v1.0   Settings
ST
Settings                                                                                   V11V/EN ST v1.0
1.         GENERAL INFORMATION
           The V11V must be configured to the system and application by means of the appropriate
           settings. This section gives instructions for determining the settings, which are located in the
           folder entitled, Schneider Electric Energy in the menu tree. The order in which the settings
           are listed and described in this chapter is: the protection settings, control and configuration
           settings (see section V11V/EN GS for the detailed relay menu map). The relay is supplied
           with a factory-set configuration of default settings
           All voltage settings are in secondary side voltage (transform by VT). The voltage can be
           defined as phase to phase or phase to neutral measurements. We have four possibilities for
           VT connections, like as:
           −     3Upn + UN – connected three voltage phase to neutral and earth fault voltage (open
                 delta)
           −     2Upp + UN – connected two voltage phase to phase and earth fault voltage (open
                 delta)                                                                                       ST
           −     3Upp + UN – connected three voltage phase to phase and earth fault voltage (open
                 delta)
           MiCOM S1 Studio 5.1.0 (or higher) can be used to download and upload protection and
           configuration setting values via the relay's USB port.
           The protection and I/O settings include all the following items that become active once
           enabled in the configuration column of the relay menu database:
− Output settings,
− Input settings,
           −     LED settings.
           There are two groups of protection and I/O settings, with each group containing the same
           setting cells. One group of protection and I/O settings is selected as the active group, and is
           used by the protection elements. The settings for group 1 are shown. The settings are
           discussed in the same order in which they are displayed in the menu.
           The menu structure is as follows:
           - DEFAULT WINDOW - Voltage phase to phase and phase to neutral in multiples of Vn, all
           type voltage like above in Volts, CB Control window (A), Local/remote control window (NA),
           status of frequency protection (A)
           - ALARM STATUS
           - RECORDS
                 - FAULT RECORD
                 - ALARM RECORD
                 - COUNTERS
                         - CONTROL COUNTER
                         - FAULT COUNTER
                 - MAXIMUM MEASURMENT VALUES
           - SETTING GROUP 1
                 - PROTECTION G1
                         - PHASE O/V G1 [59]
     V11V/EN ST v1.0                                                  Settings
2.         SETTINGS
2.1        Protection Settings
2.1.1      Phase O/V [59]
           The overvoltage protection included in the V11V relays provides three-stage overvoltage
           protection with independent time-delay characteristics (DT or IDMT – dependent for stage),
           which can be set to operate from phase to phase or phase to neutral voltage. All overvoltage
           settings apply to all three phases but are independent for each of the three stages.
           The first overvoltage stags have time-delayed characteristics which are selectable between
           inverse definite minimum time (IDMT) and definite time (DMT). The second and third stage
           has definite time characteristics (DMT) only.
                                                                     Setting Range
                  Menu Text             Default Setting                                         Step Size
                                                                   Min.           Max.
                                                              Disabled, OR Trip, OR Alarm, AND Trip,
           V> ?                      Disabled
                                                              AND Alarm, OR Trip/52a (NA), OR                      ST
                                                              Alarm/52a (NA), AND Trip/52a (NA), AND
                                                              Alarm/52a (NA)
           Setting to disable or enable the protection element.
           The protection element can be set to trip the CB (Enable Trip), only issue an Alarm signal
           (Enable Alarm), option OR means that, protection will work when fault appears in any one
           phase, for AND when fault appears in all three phases. Trip/52a and Alarm/52a means
           that we have possibility to block this protection function from state CB – turn off position.
           If the protection element is set to 'Trip' it means that it is linked to the Protection trip (see
           LED and Output configuration) and Trip Command (see Output configuration) functions.
           Additionally this protection element will trigger fault recording, disturbance recording, as
           well as the Trip LED on the front panel.
           If the protection element is set to 'Alarm' it means that it is linked to the Alarm function
           (see LED and Output configuration) and 'ALARM STATUS' indication.
                                     20 V                     5V              200 V            0.1 V
           V> Threshold
                                     20 V                     20 V            720 V            0.1 V
           Pick-up setting for the first stage of the overvoltage element.
           We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
                                                              DT, IEC_SI, IEC_VI, IEC_EI, IEC_LTI,
                                                              UK_STI, RECT, RI, IEEE_MI, IEEE_VI,
           V> Delay Type             DT
                                                              IEEE_EI, CO2_Px20, US_CO8, RXIDG,
                                                              BPN_EDF, CO2_Px40
           Setting for the tripping characteristic for the first stage overvoltage element.
           tV> /TMS/TD               0.02 s                   0.02 s*         200 s*           0.01 s*
           Setting for the time-delay for the definite time setting if selected for first stage element and
           setting for the time multiplier setting to adjust the operating time of the all IDMT.
           * Range and step size for DMT curve. Range and step size for IDMT curves are described
           below:
                1) TD: min=0.02 s; max=100 s, step size=0.01 s,
                2) TMS: min=0.02 s; max=1.5 s, step size=0.01 s,
                3) k: min=0.3 s; max=1 s, step size=0.01 s,
                4) K: min=0.1 s; max=10 s, step size=0.1 s.
           V> Reset Delay Type       DT High State            DT High State or IDMT            N/A
           Setting to determine the type of reset/release characteristic of the IEEE/US curves.
           V> DMT tReset             0s                       0s              600 s            0.01 s
           Setting that determines the reset/release time for definite time reset characteristics.
     V11V/EN ST v1.0                                                                                        Settings
                                                                           Setting Range
                       Menu Text              Default Setting                                       Step Size
                                                                       Min.             Max.
                                                                  Disabled, OR Trip, OR Alarm, AND Trip,
                                                                  AND Alarm, OR Trip/52a (NA), OR
                V>> ?                    Disabled
                                                                  Alarm/52a (NA), AND Trip/52a (NA), AND
                                                                  Alarm/52a (NA)
                See V>
                                         40 V                     5V              200 V            0.1 V
                V>> Threshold
                                         40 V                     20 V            720 V            0.1 V
                Pick-up setting for the second stage of the overvoltage element.
                We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
                tV>>                     0.02 s                   0.02 s          200 s            0.01 s
                Setting for the time-delay for the definite time setting for this stage element.
            IDMT tripping can be blocked if any DMT stage is started, settings: IDMT interlock by DMT
            (GLOBAL SETTINGS/O/V ADVANCED column). This settings is common for E/Gnd Fault
            O/V [59N], Phase O/V [59] and Phase U/V [27]
                                                                     Setting Range
                  Menu Text             Default Setting                                          Step Size
                                                                   Min.           Max.
                                                              Disabled, OR Trip, OR Alarm, AND Trip,
                                                              AND Alarm, OR Trip/52a (NA), OR
           V< ?                      Disabled
                                                              Alarm/52a (NA), AND Trip/52a (NA), AND
                                                              Alarm/52a (NA)
           Setting to disable or enable the protection element.
           The protection element can be set to trip the CB (Enable Trip), only issue an Alarm signal
           (Enable Alarm), option OR means that, protection will work when fault appears in any one
           phase, for AND when fault appears in all three phases. Trip/52a and Alarm/52a means                      ST
           that we have possibility to block this protection function from state CB – turn off position.
           If the protection element is set to 'Trip' it means that it is linked to the Protection trip (see
           LED and Output configuration) and Trip Command (see Output configuration) functions.
           Additionally this protection element will trigger fault recording, disturbance recording, as
           well as the Trip LED on the front panel.
           If the protection element is set to 'Alarm' it means that it is linked to the Alarm function
           (see LED and Output configuration) and 'ALARM STATUS' indication.
                                     20 V                     5V              130 V             0.1 V
           V< Threshold
                                     20 V                     20 V            480 V             0.1 V
           Pick-up setting for the first stage of the undervoltage element.
           We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
                                                              DT, IEC_SI, IEC_VI, IEC_EI, IEC_LTI,
                                                              UK_STI, RECT, RI, IEEE_MI, IEEE_VI,
           V< Delay Type             DT
                                                              IEEE_EI, CO2_Px20, US_CO8, RXIDG,
                                                              BPN_EDF, CO2_Px40
           Setting for the tripping characteristic for the first stage undervoltage element.
           tV< /TMS/TD               0.02 s                   0.02 s*         200 s*            0.01 s*
           Setting for the time-delay for the definite time setting if selected for first stage element and
           setting for the time multiplier setting to adjust the operating time of the all IDMT.
           * Range and step size for DMT curve. Range and step size for IDMT curves are described
           below:
                1) TD: min=0.02 s; max=100 s, step size=0.01 s,
                2) TMS: min=0.02 s; max=1.5 s, step size=0.01 s,
                3) k: min=0.3 s; max=1 s, step size=0.01 s,
                4) K: min=0.1 s; max=10 s, step size=0.1 s.
           V< Reset Delay Type       DT High State            DT High State or IDMT             N/A
           Setting to determine the type of reset/release characteristic of the IEEE/US curves.
           V< DMT tReset             0s                       0s              600 s             0.01 s
           Setting that determines the reset/release time for definite time reset characteristics.
                                                              Disabled, OR Trip, OR Alarm, AND Trip,
                                                              AND Alarm, OR Trip/52a (NA), OR
           V<< ?                     Disabled
                                                              Alarm/52a (NA), AND Trip/52a (NA), AND
                                                              Alarm/52a (NA)
           See V<
     V11V/EN ST v1.0                                                                                        Settings
                                                                           Setting Range
                       Menu Text             Default Setting                                        Step Size
                                                                       Min.           Max.
                                         40 V                     5V              130 V            0.1 V
                V<< Threshold
                                         40 V                     20 V            480 V            0.1 V
                Pick-up setting for the second stage of the undervoltage element.
                We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
                tV<<                     0.02 s                   0.02 s          200 s            0.01 s
                Setting for the time-delay for the definite time setting for this stage element.
                                                                  Disabled, OR Trip, OR Alarm, AND Trip,
                                                                  AND Alarm, OR Trip/52a (NA), OR
                V<<< ?                   Disabled
                                                                  Alarm/52a (NA), AND Trip/52a (NA), AND
                                                                  Alarm/52a (NA)
                See V<
ST              V<<< Threshold
                                         50 V                     5V              130 V            0.1 V
                                         50 V                     20 V            480 V            0.1 V
                Pick-up setting for the third stage of the undervoltage element.
                We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
                tV<<<                    0.02 s                   0.02 s          200 s            0.01 s
                Setting for the time-delay for the definite time setting for this stage element.
Settings                                                                                     V11V/EN ST v1.0
                                                                    Setting Range
                 Menu Text           Default Setting                                            Step Size
                                                                  Min.              Max.
           V1 < ?                    Disabled           Disabled, Trip, Alarm, Trip/52a, Alarm/52a
           Setting to disable or enable the protection element.
           The protection element can be set to trip the CB (Enable Trip), only issue an Alarm signal
           (Enable Alarm).
           If the protection element is set to 'Trip' it means that it is linked to the Protection trip (see
           LED and Output configuration) and Trip Command (see Output configuration) functions.
           Additionally this protection element will trigger fault recording, disturbance recording, as
                                                                                                                 ST
           well as the Trip LED on the front panel.
           If the protection element is set to 'Alarm' it means that it is linked to the Alarm function
           (see LED and Output configuration) and 'ALARM STATUS' indication.
                                     20 V               5V                    130 V           0.1 V
           V1< Threshold
                                     20 V               20 V                  480 V           0.1 V
           Pick-up setting for the first stage positive sequence U/V element.
           We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
                                                        DT, IEC_SI, IEC_VI, IEC_EI, IEC_LTI, UK_STI,
                                                        RECT, RI, IEEE_MI, IEEE_VI, IEEE_EI,
           V1< Delay Type            DT
                                                        CO2_Px20, US_CO8, RXIDG, BPN_EDF,
                                                        CO2_Px40
           Setting for the tripping characteristic for the first stage positive sequence U/V element.
           tV1</TMS/TD               0.02 s             0.02 s*               200 s*          0.01 s*
           Setting for the time-delay for the definite time setting if selected for first stage element and
           setting for the time multiplier setting to adjust the operating time of the all IDMT.
           * Range and step size for DMT curve. Range and step size for IDMT curves are described
           below:
                1) TD: min=0.02 s; max=100 s, step size=0.01 s,
                2) TMS: min=0.02 s; max=1.5 s, step size=0.01 s,
                3) k: min=0.3 s; max=1 s, step size=0.01 s,
                4) K: min=0.1 s; max=10 s, step size=0.1 s.
           V1< Reset Delay
                                     DT High State      DT High State or IDMT                 N/A
           Type
           Setting to determine the type of reset/release characteristic of the IEEE/US curves.
           V1< DMT tReset            0s                 0s                    600 s           0.01 s
           Setting that determines the reset/release time for definite time reset characteristics.
           V1 << ?                   Disabled           Disabled, Trip, Alarm, Trip/52a, Alarm/52a
            See V1<
                                     40 V               5V                    130 V           0.1 V
           V1<< Threshold
                                     40 V               20 V                  480 V           0.1 V
           Pick-up setting for the second stage positive sequence U/V element.
           We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
     V11V/EN ST v1.0                                                                                     Settings
                                                                        Setting Range
                       Menu Text           Default Setting                                           Step Size
                                                                      Min.              Max.
                 tV1<<                     0.02 s            0.02 s                200 s            0.01 s
                 Setting for the time-delay for the definite time setting for this stage element.
ST
Settings                                                                                     V11V/EN ST v1.0
                                                                     Setting Range
                 Menu Text              Default Setting                                         Step Size
                                                                   Min.           Max.
           V2> ?                     Disabled                 Disabled, Trip, Alarm, Trip/52a, Alarm/52a
           Setting to disable or enable the protection element.
           The protection element can be set to trip the CB (Enable Trip), only issue an Alarm signal
           (Enable Alarm.
           If the protection element is set to 'Trip' it means that it is linked to the Protection trip (see
           LED and Output configuration) and Trip Command (see Output configuration) functions.
                                                                                                                 ST
           Additionally this protection element will trigger fault recording, disturbance recording, as
           well as the Trip LED on the front panel.
           If the protection element is set to 'Alarm' it means that it is linked to the Alarm function
           (see LED and Output configuration) and 'ALARM STATUS' indication.
                                     20 V                     5V              200 V           0.1 V
           V2> Threshold
                                     20 V                     20 V            720 V           0.1 V
           Pick-up setting for the first stage negative sequence O/V element.
           We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
                                                              DT, IEC_SI, IEC_VI, IEC_EI, IEC_LTI,
                                                              UK_STI, RECT, RI, IEEE_MI, IEEE_VI,
           V2> Delay Type            DT
                                                              IEEE_EI, CO2_Px20, US_CO8, RXIDG,
                                                              BPN_EDF, CO2_Px40
           Setting for the tripping characteristic for the first stage negative sequence O/V element.
           tV2>/TMS/TD               0.02 s                   0.02 s*         200 s*          0.01 s*
           Setting for the time-delay for the definite time setting if selected for first stage element and
           setting for the time multiplier setting to adjust the operating time of the all IDMT.
           * Range and step size for DMT curve. Range and step size for IDMT curves are described
           below:
                1) TD: min=0.02 s; max=100 s, step size=0.01 s,
                2) TMS: min=0.02 s; max=1.5 s, step size=0.01 s,
                3) k: min=0.3 s; max=1 s, step size=0.01 s,
                4) K: min=0.1 s; max=10 s, step size=0.1 s.
           V2> Reset Delay
                                     DT High State            DT High State or IDMT           N/A
           Type
           Setting to determine the type of reset/release characteristic of the IEEE/US curves.
           V2> DMT tReset            0s                       0s              600 s           0.01 s
           Setting that determines the reset/release time for definite time reset characteristics.
           V2>> ?                    Disabled                 Disabled, Trip, Alarm, Trip/52a, Alarm/52a
           See V2>>
                                     40 V                     5V              200 V           0.1 V
           V2>> Threshold
                                     40 V                     20 V            720 V           0.1 V
           Pick-up setting for the first stage negative sequence O/V element.
           We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
     V11V/EN ST v1.0                                                                                         Settings
                                                                            Setting Range
                       Menu Text              Default Setting                                        Step Size
                                                                        Min.           Max.
                 tV2>>                    0.02 s                   0.02 s          200 s            0.01 s
                 Setting for the time-delay for the definite time setting for this stage element.
ST
Settings                                                                                     V11V/EN ST v1.0
                                                                      Setting Range
                 Menu Text              Default Setting                                           Step Size
                                                                   Min.           Max.
                                                              Disabled, Trip (measured), Alarm
                                                              (measured), Trip (Ua+Ub+Uc), Alarm
           VN> ?                     Disabled                 (Ua+Ub+Uc)
                                                              Measured option is available in model N, A
                                                              only
           Setting to disable or enable the protection element.
           The protection element can be set to trip the CB (Enable Trip), only issue an Alarm signal            ST
           (Enable Alarm). Trip/Alarm (measured) earth fault voltage will be measured, when we
           select Trip/Alarm (Ua+Ub+Uc) earth fault voltage will be calculated.
           If the protection element is set to 'Trip' it means that it is linked to the Protection trip (see
           LED and Output configuration) and Trip Command (see Output configuration) functions.
           Additionally this protection element will trigger fault recording, disturbance recording, as
           well as the Trip LED on the front panel.
           If the protection element is set to 'Alarm' it means that it is linked to the Alarm function
           (see LED and Output configuration) and 'ALARM STATUS' indication.
           VN> Threshold             5V                       0.5 V           130 V           0.1 V
           Pick-up setting for the first stage of the overvoltage element.
                                                              DT, IEC_SI, IEC_VI, IEC_EI, IEC_LTI,
                                                              UK_STI, RECT, RI, IEEE_MI, IEEE_VI,
           VN> Delay Type            DT
                                                              IEEE_EI, CO2_Px20, US_CO8, RXIDG,
                                                              BPN_EDF, CO2_Px40
           Setting for the tripping characteristic for the first stage E/F overvoltage element.
           tVN> /TMS/TD              0.02 s                   0.02 s*         200 s*          0.01 s*
           Setting for the time-delay for the definite time setting if selected for first stage element and
           setting for the time multiplier setting to adjust the operating time of the all IDMT.
           * Range and step size for DMT curve. Range and step size for IDMT curves are described
           below:
                1) TD: min=0.02 s; max=100 s, step size=0.01 s,
                2) TMS: min=0.02 s; max=1.5 s, step size=0.01 s,
                3) k: min=0.3 s; max=1 s, step size=0.01 s,
                4) K: min=0.1 s; max=10 s, step size=0.1 s.
           VN> Reset Delay
                                     DT High State            DT High State or IDMT           N/A
           Type
           Setting to determine the type of reset/release characteristic of the IEEE/US curves.
           VN> DMT tReset            0s                       0s              600 s           0.01 s
           Setting that determines the reset/release time for definite time reset characteristics.
                                                              Disabled, Trip (measured), Alarm
                                                              (measured), Trip (Ua+Ub+Uc), Alarm
           VN>> ?                    Disabled                 (Ua+Ub+Uc)
                                                              Measured option is available in model N, A
                                                              only
           See VN>
     V11V/EN ST v1.0                                                                                         Settings
                                                                            Setting Range
                       Menu Text              Default Setting                                        Step Size
                                                                        Min.           Max.
                 VN>> Threshold           10 V                     0.5 V           130 V            0.1 V
                 Pick-up setting for the second stage of the overvoltage element.
                 tVN>>                    0.02 s                   0.02 s          200 s            0.01 s
                 Setting for the time-delay for the definite time setting for this stage element.
                                                                   Disabled, Trip (measured), Alarm
                                                                   (measured), Trip (Ua+Ub+Uc), Alarm
                 VN>>> ?                  Disabled                 (Ua+Ub+Uc)
                                                                   Measured option is available in model N, A
                                                                   only
                 See VN>
                 VN>>> Threshold          15 V                     0.5 V           130 V            0.1 V
ST               Pick-up setting for the third stage of the E/F overvoltage element.
                 We have two ranges of settings, first is for 57 – 130 VAC, second is for 220 – 480 VAC.
                 tVN>>>                   0.02 s                   0.02 s          200 s            0.01 s
                 Setting for the time-delay for the definite time setting for this stage element.
Settings                                                                                       V11V/EN ST v1.0
                                                                      Setting Range
                  Menu Text             Default Setting                                          Step Size
                                                                  Min.            Max.
                                                               Disabled, f> Trip, f> Alarm, f< Trip,
           f1 ?                      Disabled
                                                              f< Alarm
           Setting to disable or enable the protection element.
           The protection element can be set to trip the CB (Enable Trip), only issue an Alarm signal              ST
           (Enable Alarm). We can select overfrequency (f>) type or underfrequency (f<).
           If the protection element is set to 'Trip' it means that it is linked to the Protection trip (see
           LED and Output configuration) and Trip Command (see Output configuration) functions.
           Additionally this protection element will trigger fault recording, disturbance recording, as
           well as the Trip LED on the front panel.
           If the protection element is set to 'Alarm' it means that it is linked to the Alarm function
           (see LED and Output configuration) and 'ALARM STATUS' indication.
           f1 Threshold              50 Hz                    40 Hz           60 Hz             0.01 Hz
           Pick-up setting for the first stage frequency element, when in GLOBAL SETTINGS
           /GENERAL SETTINGS/Nominal Frequency is set on 50Hz
           f1 Threshold              50 Hz                    50 Hz           70 Hz             0.01 Hz
           Pick-up setting for the first stage frequency element, when in GLOBAL SETTINGS
           /GENERAL SETTINGS/Nominal Frequency is set on 60Hz
           tf1                       0.1 s                    0.1 s           600 s             0.01 s
           Setting for the time-delay for the definite time setting for first stage element.
           For f2 to f6 stages, settings are the same like for f1 stage
     V11V/EN ST v1.0                                                                                Settings
                                                                        Setting Range
                       Menu Text              Default Setting                               Step Size
                                                                      Min.          Max.
                 AUX1 ?                  Disabled                Disabled , Trip, Alarm
                 Setting to disable or enable the AUX element.
                 The element can be set to:
                     - trip the CB (Enable Trip),
                     - signal only (Alarm).
                 tAUX1                   0s                      0s             600 s      0.01 s
                 Setting for the operating time-delay of the AUX1 function.
                 AUX2 ?                   Disabled               See AUX1?
                 Same as AUX1
                                                                                                       Step
                    Menu Text                Default Setting                    Setting Range
                                                                                                       Size
                                                                                                         Step
                       Menu Text                Default Setting                Setting Range
                                                                                                         Size
                                                                                                Step
                Menu Text                Default Setting              Setting Range
                                                                                                Size
           The high state of this logic input enables the blocking logic function of the f5 (resets its
           associated time–delay)
           Blocking f6 (A)                   000000                          0-1                  1
           The high state of this logic input enables the blocking logic function of the f6 (resets its
           associated time–delay)
           AUX1 (NA)                         000000                          0-1                  1
           This logic input energizes the AUX1 function
           AUX2 (NA)                         000000                          0-1                  1
           This logic input energizes the AUX2 function
           AUX3 (A)                          000000                          0-1                  1
           This logic input energizes the AUX3 function
                                                                                                          ST
           AUX4 (A)                          000000                          0-1                  1
           This logic input energizes the AUX4 function.
           Note:
           1. AUX4 has no timer therefore it is not included in the SETTING GROUP
               x/PROTECTION Gx/AUX TIMERS submenu.
           2. AUX4 cannot be assigned directly to Protection Trip or Alarm functions.
           3. AUX4 is used as a simple bridge between an input and the LEDs or an input and the
               outputs without any signaling (Alarm or Trip).
           AUX5 (A)                          000000                          0-1                  1
           This logic input energizes the AUX5 function.
           Note:
           1. AUX5 has no timer therefore it is not included in the SETTING GROUP
               x/PROTECTION Gx/AUX TIMERS submenu.
           2. AUX5 cannot be assigned directly to Protection Trip or Alarm functions.
           3. AUX5 is used as a simple bridge between an input and the LEDs or an input and the
               outputs without any signaling (Alarm or Trip).
           CB Status 52A (A)                 000000                          0-1                  1
           This logic input provides the V11V with information about the turn on state of the CB. This
           information is used by the communication system and CB diagnostic function.
           Note:
           1. If inputs are assigned to both: CB Status 52A and CB Status 52B, the V11V uses a
                two-bit CB status logic.
           2. If inputs are assigned to either CB Status 52A or CB Status 52B only, the V11V uses
                a one-bit CB status logic
     V11V/EN ST v1.0                                                                                     Settings
                                                                                                         Step
                       Menu Text                Default Setting                Setting Range
                                                                                                         Size
           Start VN>> is high if the VN>> protection element has started (VN above the set VN>>
           threshold).
           Start VN>>>                   0000000                       0-1                1
           Start VN>>> is high if the VN>>> protection element has started (VN above the set VN>>>
           threshold).
           Start f1 (A)                  0000000                       0-1                1
           Start f1 is high if the f1 protection element has started (f above or below the set f1
           threshold – is contingent on what we set).
           Start f2 (A)                  0000000                       0-1                1
           Start f2 is high if the f2 protection element has started (f above or below the set f2
           threshold – is contingent on what we set).
           Start f3 (A)                  0000000                       0-1                1           ST
           Start f3 is high if the f3 protection element has started (f above or below the set f3
           threshold – is contingent on what we set).
           Start f4 (A)                  0000000                       0-1                1
           Start f4 is high if the f4 protection element has started (f above or below the set f4
           threshold – is contingent on what we set).
           Start f5 (A)                  0000000                       0-1                1
           Start f5 is high if the f5 protection element has started (f above or below the set f5
           threshold – is contingent on what we set).
           Start f6 (A)                  0000000                       0-1                1
           Start f6 is high if the f6 protection element has started (f above or below the set f6
           threshold – is contingent on what we set).
           AUX1 (NA)                     0000000                       0-1                1
           AUX1 is high if the input assigned to AUX1 is set high.
           AUX2 (NA)                     0000000                       0-1                1
           AUX2 is high if the input assigned to AUX2 is set high.
           AUX3 (A)                      0000000                       0-1                1
           AUX3 is high if the input assigned to AUX3 is set high.
           AUX4 (A)                      0000000                       0-1                1
           AUX4 is high if the input assigned to AUX4 is set high.
           AUX5 (A)                      0000000                       0-1                1
           AUX5 is high if the input assigned to AUX5 is set high.
           tV>                           0000000                       0-1                1
           tV> is high if the set time-delay for the V> element has elapsed
           tV>>                          0000000                       0-1                1
           tV>> is high if the set time-delay for the V>> element has elapsed
           tV>>>                         0000000                       0-1                1
           tV>>> is high if the set time-delay for the V>>> element has elapsed
           tV<                           0000000                       0-1                1
           tV< is high if the set time-delay for the V< element has elapsed
           tV<<                          0000000                       0-1                1
     V11V/EN ST v1.0                                                                          Settings
                 tV<< is high if the set time-delay for the V<< element has elapsed
                 tV<<<                          0000000                        0-1           1
                 tV<<< is high if the set time-delay for the V<<< element has elapsed
                 tV1< (A)                       0000000                       0-1            1
                 tV1< is high if the set time-delay for the V1< element has elapsed
                 tV1<< (A)                      0000000                        0-1           1
                 tV1<< is high if the set time-delay for the V1<< element has elapsed
                 tV2> (NA)                      0000000                        0-1           1
                 tV2> is high if the set time-delay for the V2> element has elapsed
                 tV2>> (NA)                     0000000                        0-1           1
ST               tV2>> is high if the set time-delay for the V2>> element has elapsed
                 tVN>                           0000000                        0-1           1
                 tVN> is high if the set time-delay for the VN> element has elapsed
                 tVN>>                          0000000                        0-1           1
                 tVN>> is high if the set time-delay for the VN>> element has elapsed
                 tVN>>>                         0000000                        0-1           1
                 tVN>>> is high if the set time-delay for the VN>>> element has elapsed
                 tf1 (A)                        0000000                        0-1           1
                 tf1 is high if the set time-delay for the f1 element has elapsed
                 tf2 (A)                        0000000                        0-1           1
                 tf2 is high if the set time-delay for the f2 element has elapsed
                 tf3 (A)                        0000000                        0-1           1
                 tf3 is high if the set time-delay for the f3 element has elapsed
                 tf4 (A)                        0000000                        0-1           1
                 tf4 is high if the set time-delay for the f4 element has elapsed
                 tf5 (A)                        0000000                        0-1           1
                 tf5 is high if the set time-delay for the f5 element has elapsed
                 tf6 (A)                        0000000                        0-1           1
                 tf6 is high if the set time-delay for the f6 element has elapsed
                 tAUX1 (NA)                     0000000                        0-1           1
                 tAUX1 is high if the set time-delay for the AUX1 element has elapsed
                 tAUX2 (NA)                     0000000                        0-1           1
                 tAUX2 is high if the set time-delay for the AUX2 element has elapsed
                 tAUX3 (A)                      0000000                        0-1           1
                 tAUX3 is high if the set time-delay for the AUX3 element has elapsed
                 CB Alarm (A)                   0000000                        0-1           1
                 CB Alarm : Circuit Breaker Alarm function signal
                 tCB FLT Ext.Sign (A)           0000000                        0-1           1
Settings                                                                                V11V/EN ST v1.0
           tCB FLT Ext.Sign is high if the tCB FLT ext. time-delay has elapsed.
           The counter is started if the function CB FLT Ext.Sign assigned to binary input is high.
           Binary input is used to indicate that there is sufficient energy in the CB operating
           mechanism to close and trip the CB.
           The tCB FLT ext. time-delay is set at GLOBAL SETTINGS/CIRCUIT BREAKER/ tCB
           FLT ext.
           The binary input is set at SETTING GROUP x/INPUTS CONFIGURATION Gx/ CB FLT
           Ext.Sign.
           Setting Group 1 (NA)            0000000                    0-1                     1
           Setting Group 1 is active (switched via a binary input, the front panel, RS485 comms).
           tVTS (A)                        0000000                    0-1                     1
           tVTS is active (VT supervision fail).
           fout (A)                        0000000                    0-1                     1           ST
           Frequency is out of range.
     V11V/EN ST v1.0                                                                                   Settings
                                                                                                        Step
                       Menu Text                  Default Setting              Setting Range
                                                                                                        Size
                                                                                                    Step
                  Menu Text                    Default Setting              Setting Range
                                                                                                    Size
                                                                                        Step
                        Menu Text                    Default Setting   Setting Range
                                                                                        Size
                                                                                              Step
                 Menu Text                 Default Setting            Setting Range
                                                                                              Size
                                                                                                        ST
     V11V/EN ST v1.0                                                                                  Settings
     3.          GLOBAL SETTINGS
     3.1         LOC
                                                                                      English
                                                                                      German
                                                                                      French
                 Language                English                                      Spanish
                                                                                      Russian
                                                                                      Turkish
                                                                                      Regional
                 This cell is used to change the language of the menu.
                 The REGIONAL language is used if it is necessary to customize labels in the V11V menu.
                 For example: the CB Fail label instead of the AUX1 label. To change the labels in the
                 V11V menu, the Menu Creator Software is used. All available V11V language versions
ST               can be used as a template for a Regional menu.
                                                                                      Meas. P – P [V]
                                                                                      Meas. P – P [Un]
                                                                                      Meas. P – N [V]
                 Default Display         Measurements P – P [V]
                                                                                      Meas. P – N [Un]
                                                                                      CB Control (A)
                                                                                      L/R Mode (A)
                 This cell is used to change the default display window:
                 0: Measurements in phase to phase voltage
                 1: Measurements in phase to phase voltage refer to Un
                 2: Measurements in phase to neutral voltage
                 3: Measurements in phase to neutral voltage refer to Un
                 4: CB control window for CB control (close and trip command)
                 5: L/R Status Local/Remote and for presenting Control Mode state information
                                                                                      Manual only
                 LEDs Reset              Manual only                                  Protect.Start
                                                                                      Close Command (A)
                 This cell is used to change the resetting method of latched LEDs in the menu.
                 0: Manual only – Resetting of latched LEDs via manual reset only (C clear key, input,
                 USB,RS485)
                 1: Protect.Start – Resetting of latched LEDs upon any protection start (set for CB tripping)
                 or via manual reset
                 2: Close Command - Resetting of latched LEDs upon Close Command applied by V11V
                                                                                      Manual only
                 Latched Outputs
                                         Manual only                                  Protect.Start
                 Reset
                                                                                      Close Command (A)
                 This cell is used to change the resetting method of latched outputs in the menu.
                 0: Manual only – Resetting of latched outputs via manual reset only (C clear key, input,
                 USB,RS485)
                 1: Protect.Start – Resetting of latched outputs upon any protection start (set for CB
                 tripping) or via manual reset
                 2: Close Command - Resetting of latched outputs upon Close Command applied by V11V
                                                                                      Manual only
                 Trip Info Reset         Manual only                                  Protect.Start
                                                                                      Close Command (A)
Settings                                                                                     V11V/EN ST v1.0
           This cell is used to change the resetting method of latched outputs in the menu.
           0: Manual only – Resetting of trip info reset via manual reset only (C clear key, input,
           USB, RS485)
           1: Protect.Start – Resetting of trip info reset upon any protection start (set for CB tripping)
           or via manual reset
           2: Close Command - Resetting of trip info reset upon Close Command applied by V11V
                                                                                   Self Reset
           Alarm Info Latching       Self Reset
                                                                                   Manual Reset
           This cell is used to change the resetting method of Alarm indication windows (ALARM
           STATUS)
           0: Self Reset – This option means that if an alarm signal has disappeared no information
           is available in the ALARM STATUS column
           1: Manual Reset – this option means that if an alarm signal has disappeared information is
           still available in the ALARM STATUS column until it is reset in the ALARM STATUS/
           Alarm Reset cell.                                                                                   ST
                                                                                   50Hz
           Nominal Frequency        50Hz
                                                                                   60Hz
           This cell is used to set the nominal frequency of the power system.
           Control Keys                                                           No (Without)
                                    No
           Confirm                                                                Yes (With)
           This cell is used to select the way of close/trip command execution from the front panel
           (CB Close key/CB Open key).
           No: after pressing CB Close key or CB Open key the command is executed
           instantaneously
           Yes: after pressing CB Close key or CB Open key the new window will be appeared to
           confirm or cancel the control command (Close or Trip). After pressing OK key the control
           command is executed or after pressing C clear key the control command is cancelled.
                                                                                   One
           Number of Groups         One
                                                                                   Two
           This cell is used to choose the number of setting groups available in the V11V.
           By choosing One Group all settings related to Group 2 are hidden in the menu.
                                                                                   Group 1
           Setting Group            Group 1
                                                                                   Group 2
           This cell is used to change the current setting group.
           t Change Settings                                                       0.00 to 200 s, step
                                    0.00 s
           Group (G1 -> G2)                                                        0.01 s
           This cell is used to set the time-delay changing between the setting Group 1 and Group 2.
     V11V/EN ST v1.0                                                                                    Settings
                                                                                     Disabled
                 VT’s Supervision         Disabled
                                                                                     Enabled
                 This cell is used to enabled voltage transformer supervision function.
                                                                                     VTS Input
                 Detection Mode           VTS Input                                  Delta Ur
                                                                                     Delta Ur or VTS Input
                 This cell is visible when GLOBAL SETTINGS/VT RATIO/VT Connection is set to:
                 3Upn+UN,
                 or 2Upp+UN,
                 or 3Upp+UN.
                 In other case (3Upn) is fixed VTS Input only.
ST               This cell is used to change the detection mode of VT failure.
                 Ur – difference between: VN measured and VN calculated
                                                                                     2V to 130V
                 Delta Vr                 15V
                                                                                     step 0,1V
                 This cell is visible when GLOBAL SETTINGS/VT SUPERVISION/Detection Mode is set
                 to:
                 Delta Ur,
                 or Delta Ur or VTS Input
                                                                                     0.00s to 100 s,
                 tVTS                     5.00 s
                                                                                     step 0.01 s
                 This cell is used to change the operating time delay of the element upon detection of a
                 voltage transformer supervision.
                                                                                     No
                 Inhibit VTS / 52a        No
                                                                                     Yes
                 This cell is used to enabled blocking logic of VTS supervision from state CB – turn off
                 position.
                                                                                     No
                 Block [27] U/V           No
                                                                                     Yes
                 This cell is used to enabled blocking logic of V< protection from tVTS function.
                                                                                     No
                 Block [59] O/V           No
                                                                                     Yes
                 This cell is used to enabled blocking logic of V> protection from tVTS function.
                 Block [59N] E/GND                                                   No
                                          No
                 O/V                                                                 Yes
                 This cell is used to enabled blocking logic of VN> protection from tVTS function.
                 Block [27D] POS.                                                    No
                                          No
                 SEQ. U/V                                                            Yes
                 This cell is used to enabled blocking logic of V1< protection from tVTS function.
                 Block [47] NEG.                                                    No
                                          No
                 SEQ. O/V                                                           Yes
                 This cell is used to enabled blocking logic of V2> protection from tVTS function.
Settings                                                                                 V11V/EN ST v1.0
                                                                              No
           Block [81] freq.         No
                                                                              Yes
           This cell is used to enabled blocking logic of frequency protection from tVTS function.
                                                                                                            ST
     V11V/EN ST v1.0                                                                                      Settings
3.4 VT Ratio
                                                                            Setting Range
                       Menu Text             Default Setting                                       Step Size
                                                                          Min.            Max.
                                          0.1 kV
                 Line VT Primary                                    0.05 kV         65 kV        0.01 kV
                                          0.22 kV
                 Sets the voltage transformer input's primary voltage rating.
                 Default value depends on Phase range (see: Line VT Sec)
                 Default setting 0.1 kV is set for Phase Range 50 - 130 V
                 Default setting 0.22 kV is set for Phase Range 220 - 480 V
                 Line VT Sec              100 V                     57 V            130 V        0.1 V
                 Sets the voltage transformer input's secondary voltage rating. Set for 57-130VAC
                 measuring range.
                 Line VT Sec              220 V                     220 V           480 V        0.1 V
ST               Sets the voltage transformer input's secondary voltage rating. Set for 220-480VAC
                 measuring range.
                 E/Gnd VT Primary         0.1 kV                    0.05 kV         65 kV        0.01 kV
                 Sets the earth fault transformer input's primary voltage rating.
                 E/Gnd VT Sec             100 V                     57 V            130 V        0.1 V
                 Sets the earth fault transformer input's secondary voltage rating.
                                                                                                 3Upn
                                                                                                 3Upn+UN
                 VT Connection (AN)       3Upn+UN                   N/A             N/A
                                                                                                 2Upp+UN
                                                                                                 3Upp+UN
                 Sets type of analog connection of VT
                                                                                                 P-N
                 Prot. Config. V>         P-P                       N/A             N/A
                                                                                                 P-P
                 Sets type of voltage which is use in protections
                                                                                                 P-N
                 Prot. Config. V<         P-P                       N/A             N/A
                                                                                                 P-P
                 Sets type of voltage which is use in protections
                                                                             Setting Range
                       Menu Text               Default Setting                                    Step Size
                                                                           Min.        Max.
                  tOpen Pulse min         0.1 s                     0.1 s           10 s         0.01 s
                  Defines the duration of the trip pulse used by the Autoreclose, Trip Command and Trip
                  CB Order outputs.
                  tClose Pulse            0.1 s                     0.1 s           10 s         0.01 s
                  Defines the duration of the close pulse used by the Close CB Order output.
                  Time Delay for Close    0s                        0s              200 s        0.01 s
                  Defines the time-delay for Manual or Remote CB close commands.
                  tCB FLT ext (A)         16 s                      1s              200 s        1s
Settings                                                                                   V11V/EN ST v1.0
                                                                      Setting Range
                 Menu Text                Default Setting                                     Step Size
                                                                    Min.        Max.
            A settable time-delay is included for manual closure with this circuit breaker check. If the
            circuit breaker does not indicate a healthy condition in this time period following a close
            command, then the relay will lockout and set off an alarm.
                                                              Remote only
            Remote Mode (A)          0: Remote only
                                                              Remote+Local
            This cell is used to define Remote CB control mode.
            0: Remote only – If V11V is in Remote mode it is possible to apply a close and a trip
                                command via RS485 only.
            1: Remote+Local – In Remote mode it is possible to close and trip CB via RS485 or
            locally (Default window menu, Front panel keys, binary input).
            CB Supervision (AN)      No                       No             Yes            n/a
            Selection of the time monitoring function of CB open and close operations.
            If Yes is selected, the CB Open Time and CB Close Time menu are displayed. (ALARM
            signalling).
                                                                                                                ST
            Max CB Open Time
                                     0.1 s                    0.1 s          10 s           0.01 s
            (A)
            Displays the Alarm time threshold for a CB open operation.
            Max CB Close Time
                                     0.5 s                    0.1 s          10 s           0.01 s
            (A)
            Displays the Alarm time threshold for a CB close operation.
                                                                        Setting Range
                       Menu Text               Default Setting                                      Step Size
                                                                      Min.          Max.
                 Prot. Freq. Blocking      65 V                  5V            100 V            1V
                 Sets threshold of voltage below [81] function is blocked
                 Meas. Valid. Nb of
                                           4                     1             10               1
                 halfcycles
                 Sets numbers of halfcycles which are need to confirm working [81] protection
ST
Settings                                                                                       V11V/EN ST v1.0
                                                                    Setting Range
                Menu Text              Default Setting                                                 Step Size
                                                                 Min.              Max.
           Relay Address            247                      1               247                   1
           This cell sets the unique address for the relay so that only one relay is accessed by the
           master station's software. This address is applied for RS485 port only.
           Note: USB port has fixed address: 1.
                                                                               Modbus
           Protocol                 IEC103                                     IEC103
                                                                             Modbus (DE)
           This cell sets the type of protocol for RS485:
           0: Modbus RTU protocol (used for MS1S)
           1: IEC103 protocol
           2: Modbus (DE) valid with Modbus Standard                                                                  ST
           This setting parameter is applied for RS485 port only.
           Note: USB port has fixed protocol: Modbus.
                                                             4800 bits/s , 9600 bits/s, 19200 bits/s,
           Baud Rate                19200 bits/s
                                                             38400 bits/s, 57600 bits/s, 115200 bits/s
           This cell controls the communication speed between relay and master station. It is
           important that both the relay and the master station have the same speed setting.
           This setting parameter is applied for RS485 port only.
           Note: USB port has fixed Baud Rate: 115.2 kbits/s.
           Parity                   None                     None, Odd, Even
           This cell controls the parity format used in the data frames. It is important that both the
           relay and the master station have the same parity setting.
           This setting parameter is applied for RS485 port only.
           Note: USB port has fixed Parity: No parity.
           Stop bits                1 stop bit               1 stop bit, 2 stop bits
           This cell controls the stop bit format used in the data frames. It is important that both the
           relay and the master station have the same stop bits setting.
           This setting parameter is applied for RS485 port only.
           Note: USB port has fixed Stop bits: 1 stop bit.
                       ‘
                       Note:     The above parameters are relevant to the RS485 port only.
                                 The USB port has the               non-settable       following       parameters:
                                 - Protocol: Modbus RTU
                                 - Address: 1
                                 - Baud Rate: 115.2 kbits/s
                                 - Comms. Mode:
                                      Data Bit: 8
                                      Stop bit: 1
                                      Parity: none
     V11V/EN ST v1.0                                                                                          Settings
                                                                              Setting Range
ST                      Menu Text               Default Setting
                                                                          Min.             Max.
                                                                                                        Step Size
4. COMMISSIONING
           This column contains menu cells which allow the status of the opto-isolated inputs, output
           relay contacts to be monitored. Additionally there are cells to test the operation of the output
           contacts, user-programmable LEDs.
           To access the Edit Setting Menu window faster, press the left and up keys at the same
           time.
           This action makes the menu jump to the Edit Setting cell.
           Then press the OK key, a password will be requested.
           Enter the password (the default factory password is “0000” for every password level)
           In the Without limits or the Protection only state, all the LEDs will then light up, in rapid
           sequence. This indicates that the V11V is operating in Edit Mode: the parameters can be
           changed in this state.
           In the Control state there is no any LED signaling (no lighting up in rapid sequence as
           above).
           After having set all the required parameters, press simultaneously the 4 and 8 keys,
           then press the OK key once
     V11V/EN ST v1.0                                                                                  Settings
     6.          OP PARAMETERS
                 This column contains menu cells to show some of the V11V 's parameters.
VAMP 11V
OP
OPERATION
VAMP 11V
OP
Operation                                                               V11V/EN OP v1.0
CONTENTS
FIGURES
OP
Operation                                                                                                         V11V/EN OP v1.0
                                                                         &
               V> Disabled                                                        TIMER
V> AND
                                                                         &                    Instantaneous
                                                                                                   Recorder
                                              OR
               52a                                  &                                                                     Trip Protection
                The first (V>) and second (V>>) stages of overvoltage protection have time-delayed
                characteristics which are selectable between inverse definite minimum time (IDMT) and
                definite time (DT). The third (V>>>) stage has a definite time characteristic only.
                The inverse time-delayed characteristics indicated above comply with the following formula:
                                                                k
                IEC/UK/FR curves:           t = TMS ⋅ (                   + c) ;
                                                           G
                                                          ( )α − P
                                                           Gs
                                                            k
                IEEE/US curves:             t = TD ⋅ (                 + c) ;
                                                          G
                                                         ( )α − P
                                                          Gs
                where:
OP              t           =   Operating time in [s],
                k, P, c =       Constant,
                G           =   Measured voltage in [V],
                TMS         =   Time multiplier setting for IEC curves,
                TD          =   Time dial setting for IEEE curves,
                Gs          =   Voltage threshold setting in [V],
α = Constant.
                               Type of Curve
                         according to IEC60255-151           Standard                 k         c       α            P
                                std definition
                    IEC Standard Inverse Time (SI)                  IEC/A           0.14        0      0.02          1
                    IEC Very Inverse Time (VI)                      IEC/B           13.5        0       1            1
                    IEC Extremely Inverse Time (EI)                 IEC/C            80         0       2            1
                    IEC Long Time Inverse (LTI)                     IEC              120        0       1            1
                FR Short Time Inverse (STI)                          FR             0.05        0      0.04          1
                    UK Rectifier (Rect)                              UK             45900       0      5.6           1
                                                                  IEEE
                IEEE Moderately Inverse Time (MI)                                  0.0515     0.114    0.02          1
                                                                (IEC/D)
                                                                  IEEE
                    IEEE Very Inverse Time (VI)                                     19.61     0.491     2            1
                                                                (IEC/E)
                                                                 IEEE
                    IEEE Extremely Inverse Time (EI)                                28.2     0.1217     2            1
                                                                (IEC/F)
                    US Time Inverse (CO8)                            US             5.848    0.1654     2            1
                A time multiplier setting TMS is used to adjust the operating time of IEC & UK IDMT curves.
Operation                                                                                                                    V11V/EN OP v1.0
            A time multiplier setting TD is used to adjust the operating time of IEEE or US IDMT curves.
            Note:
            1. For (CO2 P20), TD is defined like in MiCOM P20 series
            2. For (CO2 P40), TD is defined like in MiCOM P40 series
            The difference between above two characteristics is in definition of TD setting value only.
100 100
10
                10                                                                                                                                 OP
            Time [s]                                                          Time [s]
                                                                          A                                                                 A
                                                                                    1
B B
                                                                                                                                            C
                                                                          C
                 1
                                                                                                                                            D
                                                                                  0.1
                                                                          D
                                                                          E      0.01
                0.1
                                                                                        0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
                      0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
                             Multiples of pickup setting: G/Gs                                 Multiples of pickup setting: G/Gs
100 100
10
10
                  1
                                                                                                                                               B
                                                                          A                                                                    C
                                                                                   1
                                                                          B
                0.1                                                       C                                                                    D
                                                                                                                                               E
               0.01                                                       E      0.1
                      0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20              0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
                                                                                          10
                          100
                                                                                   E
                                                                                                                                                    E
OP                                                                                       0.01
                          0.1
                                0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20            0 1 2 3 4 5 6 7 8 9 10 11 1213 14 1516 17 18 19 20
                                                                                           10
                 10
                                                                                       Time [s]                                                      A
                Time [s]
                                                                                            1                                                        B
                  1
                                                                                                                                                     C
                                                                                          0.1
                 0.1
                                                                                                                                                     E
                                                   E       D    C     B     A            0.01
                0.01
                                                                                                0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
                       0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
                                                                                                     Multiples of pickup setting: G/Gs
                             Multiples of pickup setting: G/Gs
                           E: TMS=0.05           D: TMS=0.2           C: TMS=0.5                     E: TD=0.05       D: TD=0.2         C: TD=0.5
                           B: TMS=1              A: TMS=2                                            B: TD=1          A: TD=2
Operation                                                                                                                   V11V/EN OP v1.0
                    10
                                                                                 10
                     1                                                 A
                                                                                   1
                                                                       B
                                                                                                                                              A
                                                                       C
                                                                                                                                              B
0.1 D 0.1 C
                                                                                                                                              D
                                                                       E
                0.01
                          0 1 2 3 4 5 6 7 8 9 1011121314151617 181920
                                                                                0.01
                                                                                       0 1 2 3 4 5 6 7 8 9 1011121314151617 181920
                                                                                                                                              E
                                                                                                                                                  OP
                                                                                              Multiples of pickup setting: G/Gs
                            Multiples of pickup setting: G/Gs
                                                                                           E: TD=0.05        D: TD=0.2         C: TD=0.5
                            E: TD=0.05     D: TD=0.2       C: TD=0.5                       B: TD=1           A: TD=2
                            B: TD=1        A: TD=2
100 100
10
              10
                                                                            Time [s]
            Time [s]                                                    A
                                                                                   1
                                                                        B
                                                                                                                                           A
                                                                        C
                                                                                                                                           B
               1
                                                                                 0.1                                                       C
                                                                        D
                                                                                                                                           D
                                                                        E       0.01                                                          E
                                                                                       0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
              0.1
                    0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20                      Multiples of pickup setting: G/Gs
                             Multiples of pickup setting: G/Gs                              E: TD=0.05       D: TD=0.2         C: TD=0.5
                                                                                            B: TD=1          A: TD=2
                            E: TD=0.05     D: TD=0.2       C: TD=0.5
                            B: TD=1        A: TD=2
            RXIDG Curves
            The curves available follow the formula:
            t = 5.8 – 1.35 * Un ( 1/ (k * Us/U))
            Where:
            t = tripping time
            k = coefficient (from 0.3 to 1, by steps of 0.01)
            Us = value of the programmed threshold (Pick-up value)
            U = value of measured voltage
     V11V/EN OP v1.0                                                                                   Operation
                First stage of overvoltage protection in the V11V relay are provided with a timer hold facility,
                which may either be set to zero or to a definite time value. Setting of the timer to zero means
                that the overvoltage timer for that stage will reset instantaneously once the voltage falls
                below 95% of the threshold setting. Setting of the hold timer to a value other than zero,
                delays the resetting of the protection element timers for this period. When the reset time of
                the overvoltage relay is instantaneous, the relay will be repeatedly reset and not be able to
                trip until the fault becomes permanent. By using the Timer Hold facility the relay will integrate
                the fault pulses, thereby reducing fault clearance time.
                The timer hold facility can be found for the first overvoltage stages as settings V> DMT
                tRESET". Note that this cell is not visible for the IEC/IEEE/US curves if an inverse time reset
                characteristic has been selected (SETTING GROUP x/PROTECTION Gx/ PHASE O/V
                G1(G2)/ V>) Reset Delay Type 1:IDMT setting), as the reset time is then determined by the
                programmed time dial setting.
                The IEEE/US/IEC curves may have an inverse time reset characteristic (V> Reset Delay
                Type 1: IDMT setting) or instantaneous reset (V> Reset Delay Type 0:DMT setting). If
                IDMT reset is selected (V> Reset Delay Type 1: IDMT setting) then the following menu will
                be available: V> RTD/RTMS RESET. The following equation can be used to calculate the
                inverse reset time for IEEE/IEC curves:
                                                           tr
                IEC:           reset time = RTMS ⋅
                                                            G
                                                      1 − ( )p
                                                           Gs
                                                         tr
                IEEE:          reset time = RTD ⋅
                                                          G
                                                    1 − ( )P
                                                         Gs
                where:
                RTD         = Time dial setting for IEEE/US curves,
                RTMS        = A time multiplier setting for IEC curves,
                tr          = Constant (see table below),
                P            = Constant (see table below).
                           Note:       To be in line with IEEE/IEC the RTMS (RTD) value should be equal to
                                       the TMS (TD) value. The setting for RTMS or RTD is given to adjust
                                       the reset characteristic to specific applications. Typically RTMS = TMS
                                       and RTD = TD.
            Note:
            1. For CO2_P20, RTD is defined like in MiCOM P20 series
            2. For CO2_P40, RTD is defined like in MiCOM P40 series
            The difference between above two characteristics is in definition of TD setting value only.
                                                                                                               OP
            Reset DMT Characteristic
            If Delay Type V> is set as DMT curve, the Reset Delay Type is consequently a DMT type.
            This applies independently from Reset Delay Type cell setting.
1.2         Undervoltage Protection
            The undervoltage protection included in the V11V relays provides three-stage undervoltage
            protection with independent time-delay characteristics (DT or IDMT – depending on stage),
            which can be set to operate from phase to phase or phase to neutral voltage. All
            undervoltage settings apply to all three phases but are independent for each of the three
            stages.
            Each protection stage can be also selected to Trip the CB (works when all three phases are
            faulty – AND option, or if any one phase is faulty – OR option) or to indicate a signal (Alarm)
            only, there is possibility to chose trip and alarm with blocking option from state of CB
            contacts (52a).
            If an undervoltage protection stage (V<, V<< or V<<<) is set to Trip, it means that that stage
            is linked to the Protect.Trip and Prot.Trip pulse functions (see LED and Output
            configuration).
            If an undervoltage protection stage (V<, V<< or V<<<) is set to Alarm, it means that that
            stage is linked to the Alarm function (see LED and Output configuration).
                    If OR Trip is selected, the undervoltage stage will trip when any one phase is faulty
                    (works similarly for alarm option).
                    If AND Trip is selected, the undervoltage stage will trip when all phases are faulty
                    (works similarly for alarm option).
                    If OR Trip/52a is selected, the undervoltage stage will trip when any one phase is
                    faulty and there is confirmation of closed state of breaker (works similarly for alarm
                    option).
                    If AND Trip/52a is selected, the undervoltage stage will trip when all phases are faulty
                    and there is confirmation of closed state of breaker (works similarly for alarm option).
     V11V/EN OP v1.0                                                                                                        Operation
                                                                             &
                    V< Disabled                                                       TIMER
V< AND
                                                                             &                    Instantaneous
                                                                                                       Recorder
                                                   OR
                    52a                                  &                                                                  Trip Protection
OP
                 Figure 2:            Undervoltage Protection Logic Diagram
                 The types of IDMT characteristics are the same like in overvoltage protection. For more
                 information about time-delay characteristic, please refer to section 1.1.1 of this chapter,
                 about time delayed reset characteristic please refer to section 1.1.2.
Operation                                                                                                  V11V/EN OP v1.0
            If an earth fault stage (VN>, VN>> or VN>>>) is set to Alarm, it means that that stage is
            linked to the Alarm function (see LED and Output configuration).
                   If Trip (measured) is selected, the earth fault stage will trip from measured zero
                   sequence of voltage.
                   If Alarm (measured) is selected, the earth fault stage will indicate alarm from
                   measured zero sequence of voltage.
                   If Trip (Ua+Ub+Uc) is selected, the earth fault stage will trip from calculated zero
                                                                                                                                    OP
                   sequence of voltage.
                   If Alarm (Ua+Ub+Uc) is selected, the earth fault stage will indicate alarm from
                   calculated zero sequence of voltage
Start VN>
                                                                     &                Instantaneous
                                                                                           Recorder
Trip Protection
                                                          VN> Trip
                                                                                                       &    Trip Pulse Protection
Fault Recorder
            Figure 3: Earth Fault protection logic diagram for UN>. For other two stages, the
                  logic diagram is the same but without the IDMT characteristics
            The types of IDMT characteristics are the same, like in overvoltage protection. For more
            information about time-delay characteristic, please refer to section 1.1.1 of this chapter,
            about time delayed reset characteristic please refer to section 1.1.2.
     V11V/EN OP v1.0                                                                                                          Operation
                    52a
                                                                               &   tV2> Time delay
U2
                                                                               &                Instantaneous
                                                                                                     Recorder
Trip Protection
                                                                    V2> Trip
                                                                                                                 &   Trip Pulse Protection
Fault Recorder
                52a
                                                                       &   tV1> Time delay
V1
                                                                       &                    Instantaneous
                                                                                                 Recorder
Trip Protection
                                                            V1> Trip
                                                                                                            &    Trip Pulse Protection
Fault Recorder
OP                        If f> Alarm is selected, the frequency stage will work in overfrequency option and
                          indicate alarm when frequency exceeds set threshold value.
                          If f< Trip is selected, the frequency stage will work in underfrequency option and trip
                          when frequency exceeds set threshold value.
                          If f< Alarm is selected, the frequency stage will work in underfrequency option and
                          indicate alarm when frequency exceeds set threshold value.
                      VTS Block fn
                                                                                                                             &              Alarm Recorder
                                                                                        0                T
                                                                                &
                                                                                             TIMER
                                                         OR
                                                                                                                 Start fn
Trip Protection
                                                                      fn Trip
                                                                                                                                 &     Trip Pulse Protection
Fault Recorder
                       VTS Block fn
                                                                                                                             &            Alarm Recorder
                                                                                    0                T
                                                                        & &
                       Disabled fn>                                                         TIMER
                                                                                &                    Instantaneous
                                                                                                          Recorder
Trip Protection
                                                                      fn Trip
                                                                                                                             &       Trip Pulse Protection
Fault Recorder
                                                                               tAUXn
                                                                                      T
                                                                             Time delay
                                                                                                                                              OP
                                                                                                                            tAUXn
                                                                                 DT
Start AUXn
                                                                     &                    Instantaneous
                                                                                               Recorder
Trip Protection
                                                         AUXn Trip
                                                                                                          &   Trip Pulse Protection
Fault Recorder
            VT supervision function can block protection function according to the settings, when VT loss
            is detected.
            −   DELTA Vr and VTS – VT supervision function works when internal calculation confirms            OP
                a problem with VT and/or input “VTS” is energized.
            There is a possibility to set time delay to activate blocked protection function by VT
            supervision in GLOBAL SETTINGS/VT SUPERVISION/tVTS.
                 In the above configuration LED6 indicates the CB closed position and LED7 indicates the CB
                 open position.
                 If the Control menu cell is selected as the default display, the CB status is indicated on the
                 LCD display:
                  CB status: Opened
                  CTRL: no operat.
OP
Operation                                                                                  V11V/EN OP v1.0
                LR Status: L+R
                CTRL: no operat.
            -     A digital input labelled: Local CTRL Mode
            When the Local CTRL Mode input is energized, all remote commands are blocked. When
            the Local CTRL Mode input is de-energized, remote control commands can be issued. In
            Local mode, only the synchronizing time signal is allowed.
            The Remote mode is set in GLOBAL SETTINGS/CIRCUIT BREAKER/Remote CTRL
            Mode:                                                                                            OP
            -     0: Remote only – Only Remote control is permitted. All manual controls (HMI,
                  Close/Trip function keys, Binary Inputs assigned to Manual Close or Trip) are blocked,
            -     1: Remote + LOC - Remote and Local controls are permitted.
            Control Mode default cell:
                  The first line of CTRL Mode cell allows monitoring of the Local/Remote Mode status:
                  -    Status: Local - Local mode,
                  -    Stat: Remote – Remote Mode. GLOBAL SETTINGS/CIRCUIT BREAKER/Remote
                       CTRL Mode is set to 0: Remote only,
                  -    Status: L+R – Remote Mode. GLOBAL SETTINGS/CIRCUIT BREAKER/Remote
                       CTRL Mode is set to 1: Remote + Loc.
                  The second line is used to change Local/Remote Mode in the menu:
                  -    CTRL: no operat. – No operation,
                  -    CTRL: Local – Local Mode command,
                  -    CTRL: Remote – Remote Mode command.
                  To change from Remote to Local mode it is necessary to press the OK key, enter
                  Control Password (if it is set), press the OK key twice (confirm password and select
                  changing). Press down or up key to choose Local confirm by Enter. LR Status
                  indicates: LR Status: Local.
                  To change from Local to Remote mode it is necessary to press the OK key, enter
                  Control Password (if it is set), press the OK key twice (confirm the password and select
                  the change). Press the        or       key to select Remote then confirm by pressing the
                  OK key. LR Status indicates: LR Status L+R (option Remote CTRL Mode 1: Remote +
                  Local) or LR Status Remote (option Remote CTRL Mode 0: Remote) .
                      Note: if the Control Password is set to zero: no asking about password will appear –
                      the Control Password is disabled.
            It is possible to map the Local Mode state to a LED by assigning the LED to the Local CTRL
            Mode function (SETTING GROUP x/LEDs CONFIGURATION Gx).
     V11V/EN OP v1.0                                                                                 Operation
            Notes:
                 1. Binary Input configuration is associated with both Setting Groups, so that if in
                    a Setting Group the selected binary input is assigned to Setting Group 2, in the other
                    group it must be set to Setting Group 2 as well, otherwise no switch will occur.
                 2. If the V11V is powered-up and Group 2 is selected via a binary input, the t Change
                    Setting G1->G2 time-delay is ignored (changing to setting group 2 is instantaneous –
                    without time-delay).
                 3. The setting group switch is based on the level of the binary input. So as long as
                    Setting Group 2's logic signal is high, the V11V uses Setting Group 2.
            Switch between Active Groups via the Menu or a Remote Command (RS485, USB)
            By using the relay front panel interface it is possible to change the active setting group:
            1: Group1 or 2: Group2 (menu cell: GLOBAL SETTINGS/SETTING GROUP SELECT/
            Setting Group).
            This menu cell is commonly used for switching groups from the front panel interface and via
            a remote command (RS485 or USB).
                                                                                                             OP
            It means that if the GLOBAL SETTINGS/SETTING GROUP SELECT/Setting Group menu
            cell is set to 1: Group1 and the remote setting group 2 command is executed, the value of
            menu cell: GLOBAL SETTINGS/SETTING GROUP SELECT/Setting Group will be
            changed to 2: Group2 (Active group: 2).
            Setting group 1 will be applied if:
            -     1: Group1 is set in the GLOBAL SETTINGS/SETTING GROUP SELECT/Setting
                  Group menu cell from the relay's front panel interface,
            -     the remote setting group 1 command is executed. The value of the GLOBAL
                  SETTINGS/SETTING GROUP SELECT/Setting Group menu cell will then be changed
                  to 1: Group1.
            Priority
            Warning: If the digital input that has been assigned to the setting group change operating on
            level (low or high), it is not possible to change the setting group via neither remote
            communications nor the front panel.
            The detailed logic table for setting group selection is shown below:
                                                  Front Panel
                Binary Input Setting Group
                                                  and                        Active Group
                2 (NA)
                                                  Remote Setting
                Not configured                    G1                         G1
                Not configured                    G2                         G2
                G1                                G1                         G1
                G1                                G2                         G1
                G2                                G1                         G2
                G2                                G2                         G2
            Note: If a setting group change initiated by a remote command has not been effected due to
                  priority settings, that command is ignored (not recorded in the V11V logic for the
                  future, when priority settings allow changing).
            It is possible to assign an Active Group state to an output contact by setting the output
            contact to the Setting Group x output (SETTING GROUP x/OUTPUT RELAYS
            CONFIGURATION Gx.
     V11V/EN OP v1.0                                                                              Operation
                 If Active Group signaling is required, some LEDs should be assigned to the Setting Group x
                 function (SETTING GROUP x/LEDs CONFIGURATION Gx).
OP
Operation                                                                                   V11V/EN OP v1.0
2.5         Commissioning
2.5.1       Maintenance Mode (Model A)
            This menu allows the user to check the operation of the protection functions.
            It is possible to set following Maintenance mode options (settings):
                •   “No” - Maintenance mode is disabled. All window cells below are hidden
                    (Maintenance mode is the latest cell in COMMISIONING column)
                •   Control command which activate this mode (rear command or setting: “Yes,….”)
                    and by turning off the power supply.
            Note: Maintenance rear command is available in Modbus protocol only
                                       Maintenance Mode
                                       1: Yes
                                       Test         7654321
                                       Pattern      0000000
     V11V/EN OP v1.0                                                                                      Operation
                                             Contact Test
                                             Time         1.00s
                 If the outputs for test are selected and Time for output closing is set, the closing command
                 can be executed in this cell:
                                             Test output
                                             0: no operation
                 To execute the test, press OK key, press the       or       key to select 1: Apply test and
                 confirm action by OK. The contact will be closed for the duration of the Contact Test Time
                 pulse.
     2.5.3       Functional test
OP               This function is available after activation of Maintenance mode
                 The next commissioning cells allow the user to check the functional output configuration of
                 the V11V. To do this, the user has only to select which protection element will be triggered,
                 and this will close the contact assigned to this protection element and allow the continuity of
                 the wiring to be checked.
                                             Functional Test
                                             0: U>
In the cell below the end of the functional test can be configured:
                                             Functional Test
                                             End 0: CB trip
                                             Functional Test
                                             CTRL: no operation
                 To execute this test, press the OK key, press the    or      key to select 1: Operate and
                 confirm action by pressing OK. The contact will be closed for the duration of the Contact
                 Test Time pulse.
                 NOTE: In Maintenance Mode V11V works with full functionality (ready to trip in a fault
                 condition, even during functional test). During functional test of selected stage (for example
                 tU>), V11V measures voltages so the rest active stages (for example tU>>, tUN>, etc) work
                 on the measured voltage from the field. Test voltage is seen in tested stage only (for
                 example tU>): two times greater than tU> current setting value in all phases. After test, in the
                 fault record all recorded voltages values are based on the voltage measured in the field.
Operation                                                                                       V11V/EN OP v1.0
- Local tripping and closing, via the relay menu or function keys,
OP
            A manual trip will be permitted when the circuit breaker is initially closed. Likewise, a close
            command can only be issued if the CB is initially open. To confirm these states it will be
            necessary to use the breaker 52A (assigned to CB status 52A input) and/or 52B (assigned
            to CB status 52B input) contacts. Under these circumstances manual CB control will be
            possible. Additionally, it will be not possible to see the CB status in the Control default cell.
            Once a CB Close command is initiated the output contact (Close CB order) can be set to
            operate following a user-defined time-delay (Time-delay for Close setting in GLOBAL
            SETTINGS/CIRCUIT BREAKER menu). This would give personnel time to move safely
            away from the circuit breaker following the close command. This time-delay will apply to all
            manual CB Close commands.
     V11V/EN OP v1.0                                                                                   Operation
                 The length of the trip or close control pulse can be set via the tOpen pulse min and tClose
                 Pulse settings respectively (GLOBAL SETTINGS/CIRCUIT BREAKER menu). This should
                 be set as long enough to ensure the breaker has completed its open or close cycle before
                 the pulse has elapsed.
                             Note:       The manual trip and close commands are found in the default Control
                                         cell and the Close/Trip keys on the front panel.
                 If an attempt to close the breaker is being made, and a protection trip signal is generated,
                 the protection trip command overrides the close command.
                 If CB FLT Ext.Sign is assigned to a binary input this signal is checked before manual
                 closing of the CB. This function uses the signal received at the relay's binary input to confirm
                 whether the breaker is capable of closing (sufficient circuit breaker energy for example). A
                 user-settable time-delay, tCB FLT ext, is included for manual closure. If, following a close
                 command, the CB does not signal a healthy condition before the timer elapses, then the
                 relay will lockout and issue an alarm.
                       Note:     Trip and close commands work independently from CB status. It means that
                                 the Trip/Close command will be executed even if CB status is discrepancy (00
OP                               - undefined or 11 - faulty).
     2.7         Real Time Clock Synchronization via Opto-Inputs (Model A)
                 In modern protective schemes it is often desirable to synchronize the relay’s real time clock
                 so that events from different relays can be placed in chronological order. This can be done
                 using the communication interface connected to the substation control system or via a binary
                 input. Any of the available binary inputs on the V11V relay can be selected for
                 synchronization. Pulsing this input will result in the real time clock snapping to the nearest
                 minute. The recommended pulse duration is 20 ms to be repeated no more than once per
                 minute. An example of the time synchronization function is shown.
                 The Manual only option prevents a close command from being issued without readout of the
                 cause of trip by maintenance personnel. It reduces the risk to switch on to fault.
Operation                                                                              V11V/EN OP v1.0
            The Manual only option prevents a close command from being issued without readout of the
            cause of trip by maintenance personnel. It reduces the risk to switch on to fault.
            The Protection start option allows to signal the latest trip only: Start of any protection
            element set to trip the CB, reset all latched LEDs and show the default display.
                                                                                                         OP
     V11V/EN OP v1.0                                                                                   Operation
     2.9         Records
     2.9.1       Fault Recorder
                 Each time any of the set thresholds are crossed, an instantaneous record is created and
                 displayed in the RECORDS/FAULT RECORD menu. Information on the last five starts is
                 available, with the duration of the signal.
                 The following information is displayed in the RECORDS/FAULT RECORD menu: time, date,
                 origin (crossing of a voltage threshold or start of a protection element's time-delay), and
                 voltage values.
                 Each time any of the set protection elements trips (Protect.Trip output), a fault record is
                 created and stored in memory. The fault record tags up to 20 faults and stores them in a
                 non-volatile (FRAM) memory. This allows the operator to identify and analyze system
                 failures. When the available memory space is exhausted, the new fault automatically
                 overwrites the oldest fault.
                 The user can view the latest fault record in the RECORD/FAULT RECORDS menu, where
                 the user can choose to display up to 20 stored records. These records are the fault flags, the
OP               fault measurements, etc. Also note that the time stamp displayed in the fault record itself will
                 be more accurate than the corresponding time stamp given in the event record. This is due
                 to the fact that events are logged some time after the actual fault is recorded.
     2.9.2       Alarm Recorder
                 Each time any of the set protection element issues an ALARM signal (Alarm output), an
                 Alarm record is created and stored in memory. The fault record tags up to 5 faults and stores
                 them in a non-volatile (FRAM) memory. This allows the operator to identify and analyze
                 system failures. When the available memory space is exhausted, the new alarm
                 automatically overwrites the oldest alarm.
                 The user can view the latest Alarm record in the RECORD/ALARM RECORDS menu, where
                 he or she can choose to display up to 5 stored records. These records are the alarm flags,
                 the alarm measurements, etc. Also note that the time stamp displayed in the Alarm record
                 itself will be more accurate than the corresponding time stamp given in the event record.
Operation                                                                                    V11V/EN OP v1.0
Vamp 11V
AP
APPLICATION NOTES
Vamp 11V
AP
Application Notes                                                                     V11V/EN AP v1.0
CONTENTS
1.         INTRODUCTION                                                                            3
1.1        Description of relay V11V                                                               3
3.         VT REQUIREMENTS                                                                        18
4.         AUXILIARY SUPPLY FUSE RATING                                                           19
FIGURES
           Figure 2:     Logic diagram for the phase stages V>, V>> and V>>>          5
           Figure 13: Example of Local/Remote Application                             12
     V11V/EN AP v1.0   Application Notes
AP
Application Notes                                                                     V11V/EN AP v1.0
1.         INTRODUCTION
1.1        Description of relay V11V
           The relay V11V range is Schneider Electric universal voltage/frequency protection. This
           protection have been designed to control, protect and monitor industrial power network,
           public power grid.
                           Before carrying out any work on the equipment, the user should be familiar
                           with the contents of the Safety Guide, SFTY/4L M/E11 or later issue, or
                           the safety and technical data section of the technical manual and also the
                           ratings on the equipment rating label.
                            For safety reasons, no work must be carried out on the V11V until all
                            power sources to the unit have been disconnected.
                                                                                                        AP
     V11V/EN AP v1.0                                                                          Application Notes
                The instantaneous stages are labeled “V>” for the first stage, “V>>” and “V>>>” for the
                second and third instantaneous stages respectively (“VN>”, “VN>>” and “VN>>>” for earth
                fault elements).
                The time-delayed stages are labeled “tV>” for the first stage, “tV>>” and “tV>>>” for the
                second and third time-delayed stages respectively (“tVN>”, “tVN>>” and “tVN>>>” for the
                time-delayed earth fault stages).
                The protection elements trip when the following conditions are realized:
                -   A phase to phase or phase to neutral voltages exceeds the set overvoltage threshold
                -   The relevant time-delay has elapsed
                -   The blocking logic (if used) is not activated.
                The following diagrams show the functionality for each stage.
Application Notes                                                                                 V11V/EN AP v1.0
Start V >
Max V>
Start V >>
Max V>>
Start V>>>
Max V >>>
                                                         &           DT             t V>>>
                       Block.tV >>> Input
P0942ENa
           Figure 2:      Logic diagram for the phase stages V>, V>> and V>>>
           The logic associated with the earth fault stage is identical to the logic described above. The
           stages V> & tV>, V>> & tV>> and V>>> & tV>>> are respectively replaced by the stages
           VN> & tVN>, VN>> & tVN>>, VN>>> & tVN>>>.                                                                   AP
           Thanks to the "Blocking Logic" function, it is possible to freeze the timer as long as the
           "Block Logic" signal is active.
           As soon as the blocking “Block Logic" signal drops, if the overvoltage value is still over the
           set threshold, the time-delay resumes using the value prior to the activation of the blocking
           function as its new initial value. This allows faster clearance of the fault after resetting of the
           “Block Logic" signal.
2.1.1      Instantaneous function
           As soon as a phase (or earth) timer stage starts running, the instantaneous output
           associated with that stage is activated. This output indicates that the protection element has
           detected a phase (or earth) fault and that the corresponding time-delay has started. This
           time-delay can be blocked via the associated "Block Logic" logic input. If this blocking input
           is activated by an output contact of a downstream relay, the logic that will lead to the trip
           command is then blocked only if the relay that is the closest to the fault can see and
           therefore eliminate the fault. This principle is known as «Blocking logic» or «Blocking». It is
           described in more detail in this document.
2.1.2      DMT timer stages
           The three phase (earth) overvoltage stages can be assigned definite time-delays. The time
           to operate is equal to the set time-delay plus the time for the output contact to operate
           (typically about 30 ms) and the time required to detect the overvoltage condition (maximum
           20 ms at 50 Hz).
           For DMT stages, a definite-time "tReset" reset timer is associated with the first phase o/v
           stage, and with the first earth fault stage.
     V11V/EN AP v1.0                                                                          Application Notes
                The first and the second (V>, V>>) and e/f (VN>) overvoltage stages can be selected with
                an inverse maximum time (IDMT) characteristic.
                The time-delay in relay operation is calculated with a mathematical formula that depends on
                the relay voltage and TMS (IEC and UK) or TD (IEEE and US) values.
                There are twelve inverse time characteristics available:
                The first overvoltage [V>] and the first earth fault [VN>] stages have a reset timer.
                The value that is set for this reset timer corresponds to the minimum time during which the
                voltage value needs to be lower than 95% of the phase to phase or phase to neutral (or
                earth) threshold before the corresponding phase (or earth) time-delay is reset.
                           Note:       This rule does not apply when the protection element is triggered.
                                       When the protection element is triggered, the time-delay tV> (or tVN>)
                                       is immediately reset.
                DMT stages have DMT reset timers only.
                IDMT characteristics can be associated with either a DMT or an IDMT reset timer. This
                selection is made in the menu:
                       -   phase voltage: SETTING GROUP x/PROTECTION Gx /[59] PHASE O/V Gx
                           /Reset Delay Type: 0:DT High State or 1: IDMT
                       -   earth voltage: SETTING GROUP x/PROTECTION Gx /[59N] E/GND FAULT O/V
                           Gx/Reset Delay Type: 0: DT High State or 1: IDMT
Application Notes                                                                            V11V/EN AP v1.0
           For the first phase and earth overvoltage stages, the Vamp 11V has a timer hold facility,
           DMT tReset, which can be set to a definite time value or to an inverse time characteristic.
           This timer hold facility is used to reduce fault clearance times and is also useful in situations
           where intermittent faults may be experienced. This can for example be the case on a plastic-
           insulated cable. In that case, the fault energy may cause the cable insulation to melt and
           reseal, thereby extinguishing the fault. This process repeats itself a couple of times giving a
           succession of fault current pulses, each of increasing duration with reducing intervals
           between the pulses, until the fault becomes permanent.
           When the reset time of the overvoltage relay is instantaneous the relay will be repeatedly
           reset and unable to trip until the fault becomes permanent. By using the Timer Hold facility,
           the relay will integrate the fault voltage pulses, thereby reducing fault clearance time.
           The Vamp 11V's reset timer DMT tReset can be found in the following menu cells:
                                           
                                           
                                  tr       
           IEC: t = RTMS ×              p 
                            1 −  G  
                                           
                             Gs  
                                                      
                                                      
                                            tr        
           IEEE and US: t = RTD ×                 p   
                                      1 −  G      
                                                      
                                       Gs           
           where:
           t       Reset time
           tr, p   Constant (see table)
           G       Value of the measured voltage
                Three stages are available: VN>, VN>> and VN>>>. The first stage has IDMT or DT
                characteristics. The types of characteristics are the same as for V> (refer to section 2.1.3).
     2.2        Phase undervoltage functions
                Vamp 11V relays provide definite and independent time-delayed undervoltage protection.
                Each phase voltage input is associated with three stages.
                The first timer stage for phase undervoltage can be set to definite time-delay or inverse
                time-delay using the IEC_SI, IEC_VI, IEC_EI, IEC_LTI, UK_STI, C02_P20, US_ C08,
                IEEE_MI, IEEE_VI, IEEE_EI, RXIDG, BPN EDF, RI, RECT, C02_P40 curves. Their
                parameters are shown in the Technical Data chapter of this Technical Guide.
                The second and third stage for u/v can be set as definite time-delay only.
                The instantaneous stages are labeled “V<” for the first stage, “V<<” and “V<<<” for the
                second and third instantaneous stages respectively.
                The time-delayed stages are labeled “tV<” for the first stage, “tV<<” and “tV<<<” for the
                second and third time-delayed stages respectively.
                The protection elements trip when the following conditions are realized:
                -    A phase to phase or phase to neutral voltages exceeds the set undervoltage threshold
                -    The relevant time-delay has elapsed
                -    The blocking logic (if used) is not activated.
Application Notes                                                                          V11V/EN AP v1.0
           All other information about undervoltage functions are similar to o/v function. Refer to 2.1.
2.3        Positive sequence undervoltage (A)
           Positive sequence undervoltage function has two independent stages. Each stage can work
           to trip and signal to alarm.
           We have possibility to block this function from sate of the connector (when state is open
           function is blocked) or from input.
           The first s positive sequence undervoltage stage can be set to definite time-delay or inverse
           time-delay using the IEC_SI, IEC_VI, IEC_EI, IEC_LTI, UK_STI, C02_P20, US_ C08,
           IEEE_MI, IEEE_VI, IEEE_EI, RXIDG, BPN EDF, RI, RECT, C02_P40 curves. Their
           parameters are shown in the Technical Data chapter of this Technical Guide.
           The second stage can be set as definite time-delay only.
                                                                                                              AP
           The instantaneous stages are labeled “V1<” for the first stage, “V1<<” for the second
           instantaneous stages respectively.
           The time-delayed stages are labeled “tV1<” for the first stage, “tV1<<” for the second
           time-delayed stages respectively.
           The protection elements trip when the following conditions are realized:
           -   A positive sequence of the voltage exceeds the set undervoltage threshold
           -   The relevant time-delay has elapsed
           -   The blocking logic (if used) is not activated.
           The first negative sequence overvoltage stage can be set to definite time-delay or inverse
           time-delay using the IEC_SI, IEC_VI, IEC_EI, IEC_LTI, UK_STI, C02_P20, US_ C08,
           IEEE_MI, IEEE_VI, IEEE_EI, RXIDG, BPN EDF, RI, RECT, C02_P40 curves. Their
           parameters are shown in the Technical Data chapter of this Technical Guide.
           The second stage can be set as definite time-delay only.
     V11V/EN AP v1.0                                                                           Application Notes
                 The instantaneous stages are labeled “V2>” for the first stage, “V2>>” for the second
                 instantaneous stages respectively.
                 The time-delayed stages are labeled “tV2>” for the first stage, “tV2>>” for the second time-
                 delayed stages respectively.
                 The protection elements trip when the following conditions are realized:
                 -   A negative sequence of the voltage exceeds the set overvoltage threshold
                 -   The relevant time-delay has elapsed
                 -   The blocking logic (if used) is not activated.
                 All other information about undervoltage functions are similar to o/v function. Refer to 2.1.
                 The effectiveness of each stage of load shedding depends on what proportion of the power
                 deficiency it represents. If the load shedding stage is too small compared to the prevailing
                 generation deficiency, then the improvement in frequency may be non-existent. This aspect
                 should be taken into account when forming the load groups.
                 Time delays should be sufficient to override any transient dips in frequency, as well as to
                 provide time for the frequency controls in the system to respond. This should be balanced
                 against the system survival requirement since excessive time delays may jeopardize system
                 stability. Time delay settings of 5 - 20s are typical.
                 The relatively long time delays are intended to provide time for the system controls to
                 respond and will work well in a situation where the decline of system frequency is slow. For
                 situations where rapid decline of frequency is expected, the load shedding scheme above
                 should be supplemented by rate of change of frequency protection elements.
Application Notes                                                                         V11V/EN AP v1.0
                                                                           REMOTE: opened
                                     V11V             DC V -   DC V +      LOCAL: closed
                                                                               Switch
                                                                               REMOTE/LOCAL
                                   Local CTRL Mode
                                   RL2
                             Trip CB Order                                         Manual Trip CB
                                                                                        Coil
                                  RL 3
                              Close Order                                           Close CB Coil
                                   RL 1
                                Protection                                          Protection Trip
                               Trip (pulse )                                            CB Coil
AP P0947ENa
           If 1: One Group is selected, the SETTING GROUP 2 column and the setting group cell are
           hidden in relay menu.
           Switching between the groups can be done via:
                 -   a selected binary input assigned to the Setting Group 2 logic input (SETTING
                     GROUP x/INPUTS submenu),
                 -    the relay front panel interface (GLOBAL SETTINGS/SETTING GROUP SELECT/
                       Number of Groups: 0: One Group or 1: Two Groups),
                 -   through the communications port (refer to Mapping Database for detailed
                     information).
           Switching between setting groups can be done even while a protection function is active (no
           timers are resetting).
           The user can check which one of the setting groups is active looking in the OP
           PARAMETERS menu: Active Set Group cell.
           The user can also assign the active group (Setting Group x function) to an output relay
           (SETTING GROUP x/OUTPUT RELAYS CONFIGURATION Gx) or to an LED (SETTING
           GROUP x/LEDs CONFIGURATION G1).
           Setting group change via a digital input
           It is possible to change the setting group by energizing a digital input (on level).
           If the setting group switchover is done via a binary input, the change from One Group to Two        AP
           Groups is executed.
           Switch between Active Groups via a Binary Input
           When powering up the relay, the selected group (One Group or Two Groups) corresponds to
           the state of the logic input assigned to Setting Group 2. This means:
           A – Reverse Inp.Logic = 0 and Setting Group 2 = 1
           (SETTING GROUP x/INPUTS CONFIGURATION Gx submenu),
           If the programmed logic input starts being supplied with +V, then after the t Change Setting
           G1->G2 time-delay the active group will be G2. If the programmed logic input is not supplied
           with +V, then the active group will be G1.
           B – Reverse Inp.Logic = 1 and Setting Group 2 = 1
           (SETTING GROUP x/INPUTS CONFIGURATION Gx submenu),
           If the programmed logic input is supplied with +V, then the active group will be G1.
           If the programmed logic input stops being supplied with +V, then after the t Change Setting
           G1->G2 time-delay the active group will be G2.
                     Notes:       1. Binary Input configuration is associated with both Setting Groups,
                                  so that if in a Setting Group the selected binary input is assigned to
                                  Setting Group 2, in the other group it must be set to Setting Group 2
                                  as well, otherwise no switch will occur.
                                  2. If the V11V is powering up and Group 2 is selected via a binary
                                  input, the t Change Setting G1->G2 time-delay is ignored (changing
                                  to setting group 2 is instantaneous – without time-delay).
                                  3. The setting group switch is based on the level of the binary input.
                                  So as long as Setting Group 2's logic signal is high, the V11V uses
                                  Setting Group 2.
           Switch between Active Groups via the Menu or a Remote Command (RS485, USB)
           By using the relay front panel interface it is possible to change the active setting group:
           0: One Group or 1: Two Groups (menu cell: GLOBAL SETTINGS/SETTING GROUP
           SELECT/ Setting Group).
           Above menu cell is common for changing from panel interface and via remote command
           (RS485 or USB).
     V11V/EN AP v1.0                                                                             Application Notes
                 Above menu cell is common for changing from panel interface and via remote command
                 (RS485 or USB).
                 It means that if the GLOBAL SETTINGS/SETTING GROUP SELECT/ Setting Group menu
                 cell is set to 0: One Group and the remote setting group 2 command is executed, the value
                 of menu cell: GLOBAL SETTINGS/SETTING GROUP SELECT/ Setting Group will be
                 changed to 1: Two Groups value (Active group: 2).
                 Setting group 1 will be applied if:
                 -   0: One Group is set in the GLOBAL SETTINGS/SETTING GROUP SELECT/ Number
                     of Groups menu cell from the relay's front panel interface,
                     or
                 -   the remote setting One Group command is executed. The value of the GLOBAL
                     SETTINGS/SETTING GROUP SELECT/ Number of Groups menu cell will then be
                     changed to 0: One Group.
                 WARNING:           If the digital input has been assigned to the setting group change, it is not
                                    possible to change the setting group via remote communications. If changing via
                                    Menu or RS485 is required ensure that no input is assigned to Setting Group 2.
                 Priority
                 The detailed logic table for setting group selection is shown below:
                                                          Front Panel
                     Binary Input Setting
                                                             and                           Active Group
AP                            Group 2
                                                         Remote Setting
                          Not configured                      G1                                 G1
                          Not configured                      G2                                 G2
                               G1                             G1                                 G1
                               G1                             G2                                 G1
                               G2                             G1                                 G2
                               G2                             G2                                 G2
                 Note: If a setting group change initiated by a remote command has not been effected due of
                 priority settings, that command is ignored (not recorded in the V11V's logic for the future,
                 when priority settings allow changing).
                 It is possible to assign an Active Group state to an output contact by setting the output
                 contact to the Setting Group x output (SETTING GROUP x/OUTPUT RELAYS
                 CONFIGURATION Gx.
                 If Active Group signaling is required, some LEDs should be assigned to the Setting Group x
                 function (SETTING GROUP x/LEDs CONFIGURATION Gx).
     2.10        Maintenance Mode (A)
                 This menu allows the user to check the operation of the protection functions.
                 It is possible to set following Maintenance mode options (settings):
                     •      “No” - Maintenance mode is disabled. All window cells below are hidden
                            (Maintenance mode is the latest cell in COMMISIONING column)
               •     Control command which activate this mode (rear command or setting: “Yes,….”)
                     and by turning off the power supply.
           Note: Maintenance rear command is available in Modbus protocol only
           When this menu is activated (set to: “Yes,outp.trips” or “Yes,outp.block”), the Alarm led is
           lit. Additionally it is possible to configure Maintenance Mode to programmable LED.
           In “Yes,outp.block” case, all the output contacts are blocked, and no command can be
           issued to these contacts, even if a protection threshold associated with one of these output
           contacts has been crossed (If a protection threshold is crossed, all associated LEDs will be
           ON, even the TRIP LED, if protection element is set to Trip).
2.11       Circuit Breaker State Monitoring (Model A)                                                         AP
           An operator at a remote location requires a reliable indication of the state of the switchgear.
           Without an indication that each circuit breaker is either open or closed, the operator has
           insufficient information to decide on switching operations. The Vamp 11V relays incorporate
           a circuit breaker state monitoring feature, giving an indication of the position of the circuit
           breaker.
           This indication is available either on the relay's front panel or via the communication network.
           The positions of the CB contacts can be selected under the SETTING GROUP x/INPUTS
           CONFIGURATION Gx and SETTING GROUP x/LEDs CONFIGURATION Gx menus using
           AUX4 (in parallel with CB Status 52A) and AUX5 (in parallel with CB Status 52B).
           AUX4 (CB closed) and AUX5 (CB opened) must be assigned to LEDs in SETTING GROUP
           x/LEDs CONFIGURATION Gx menu.
2.12       Circuit Breaker Condition Monitoring (A)
           Periodic maintenance of circuit breakers is generally based on a fixed time interval, or a fixed
           number of fault current interruptions.
           The relays record the following controls and statistics related to each circuit breaker trip
           operation:
• time-delay setting,
                 minute. Synchronization pulse should be repeated no more than once per minute. An
                 example of the time synchronization function is shown.
     3.          VT REQUIREMENTS
                 In choosing the VT for use with the V11V relays, it is only necessary to consider the
                 accuracy requirements and the output burden of the VT is sufficient to supply the
                 relay demands. Protection classes 3P or 6P are usually adequate in terms of accuracy but
                 care should be taken that the VT is not over-sized as this may lead to resonance problems.
                 Typically, the output burden of the VT could be 10% higher than the total connected burden
                 of all connected devices
AP
Application Notes                                                                      V11V/EN AP v1.0
           Alternatively, miniature circuit breakers (MCB) may be used to protect the auxiliary supply
           circuits.
                                                                                                         AP
Measurements and Recording                       V11V/EN MR v1.0
VAMP 11V
VAMP 11V
MR
Measurements and Recording                  V11V/EN MR v1.0
CONTENTS
                                                              MR
     V11V/EN MR v1.0   Measurements and Recording
MR
Measurements and Recording                                                                  V11V/EN MR v1.0
           The above table shows the abbreviated description that is given to the various alarm
           conditions and also a corresponding value between 0 and 31. This value is appended to
           each alarm. It is used by the event extraction software, such as MiCOM S1 Studio, to identify
           the alarm. Either ON or OFF is shown after the description to signify whether the particular
           condition is operational or has reset.
     V11V/EN MR v1.0                                                                   Measurements and Recording
Per phase record of the voltage value during the fault: Vϕ and measured VN.
                Fault records are stored in non-volatile memory (FRAM memory). This type of memory does
                not require any maintenance (no battery inside the V11V). Fault records are stored without
                any time limitation even if the V11V is not supplied from any power source.
     1.4        Alarm records
                Each alarm record is generated with time stamp.
                The following data is recorded for any relevant elements that operated during an alarm, and
                can be viewed in each of the last 5 alarm records:
                (i) Event Text (the reason for a protection alarm):
                                V> alarm
                                V>> alarm
                                V>>> alarm
                                V< alarm
                                V<< alarm
                                V<<< alarm
Measurements and Recording                                                              V11V/EN MR v1.0
                          VN> alarm
                          VN>> alarm
                          VN>>> alarm
                          V2> alarm (N, A)
                          V2>> alarm (N, A)
                          V1< alarm (A)
                          V1<< alarm (A)
                          f1 trip (A)
                          f2 trip (A)
                          f3 trip (A)
                          f4 trip (A)
                          f5 trip (A)
                          f6 trip (A)
                          AUX1 trip (NA)
                          AUX2 trip (NA)
                          AUX3 trip (NA)
Per phase record of the voltage value during the alarm: Vϕ and measured VN
           Alarm records are stored in non-volatile memory (FRAM memory). This type of memory does
           not require any maintenance (no battery inside the V11V). Alarm records are stored without
           any time limitation even if the V11V is not supplied from any power source.
1.5        Alarm status
                                                                                                          MR
           Alarm status presents the current Alarm signals.
           The Alarm signals information can be with latching or without latching, depends on the
           setting value GLOBAL SETTINGS/LOC/
                 - Alarms Info 0:Self-reset – only current Alarm status is displayed,
               - Alarms Info 1:Latching – Alarm information is latched up to reset in cell: ALARM
           STATUS/Reset Press ENTER cell.
     1.6        Measurements
                The relay produces a variety of directly measured power system quantities:
                Va, Vb, Vc            -      fundamental harmonic values,
                Vab, Vbc, Vca         -      fundamental harmonic values,
                V1 (A), V2 (N, A)     -      calculated fundamental harmonic ratio,
                f (A)                 -      frequency,
MR
Measurements and Recording                                                                     V11V/EN MR v1.0
1.7        Counters
           The V11V counters are available in the RECORDS/COUNTERS menu:
           -   CONTROL COUNTER:
                      -     No. Trips – Number of manual trip commands (inputs, menu default Control
                            Window, trip key, remote control via RS485 or USB)
                      -     No. Close - Number of manual close commands (inputs, menu default Control
                            Window, trip key, remote control via RS485 or USB)
                      Counters can be reset in the CONTROL COUNTER column.
           -   FAULT COUNTER:
                      -     No. Fault Trips – Number of trip commands from protection elements (voltage-
                            based protection element trip, AUX trips and Auto-recloser trips)
                      -     No. Fault Starts – Number of timer starts by protection elements set to trip
                            (voltage-based protection element and AUX)
                      -     No. Alarms - Number of Alarm signals from protection elements set to Alarm
                            or functions mapped to an Alarm signal,
                      -     No. HW Warnings – Number of hardware problems detected by the self-
                            monitoring function.
                      Counters can be reset in the FAULT COUNTER column.
1.8        Disturbance Recorder (Model A)
           The integral disturbance recorder has an area of memory specifically set aside for record
           storage. The number of records that may be stored by the relay is dependent upon the
           selected recording duration:
           Total number of records available in disturbance recorder is:
                  o        One - for set Max Record Time from in range: 2.01s – 4.00s                              MR
                  o        Two – for set Max Record Time from in range: 1.51s – 2.00s
                  o        Three – for set Max Record Time from in range: 1.01s – 1.33s
                  o        Four – for set Max Record Time from in range: 0.81s – 1.00s
                  o        Five - for set Max Record Time from in range: 0.10s – 0.8s
           The recorder stores actual samples that are taken at a rate of 16 samples per cycle. Each
           disturbance record consists of eight analog data channels and thirty-two digital data
           channels. The relevant VT ratios for the analog channels are also extracted to enable scaling
           to primary quantities.
                          Note:       If a VT ratio is set to less than a unit, the relay will choose a scaling
                                      factor of zero for the appropriate channel.
                                                                         Setting Range
                 Menu Text                  Default Setting                                      Step Size
                                                                     Min.            Max.
           Pre-Time                      0.1 s                   0.1 s          2s             0.01 s
           Setting for the disturbance record pre-fault time. The pre-fault time adjusts the beginning of
           the disturbance record: In this example, the record starts 100ms before the disturbance. Its
           length can be limited by setting.
           Post-Fault Time               0.1 s                   0.1 s          1s             0.01 s
     V11V/EN MR v1.0                                                                   Measurements and Recording
                Setting for the disturbance record post-fault time. The total disturbance recording time is:
                pre-fault time + high state of triggering criteria (Start or Trip time)+ post-fault time.
                The above total recording time is limited by setting.
                                                                                      0: on Inst.
                Disturbance Rec.Trig.              0: on Inst.
                                                                                      1: on Trip
                Setting for the trigger criteria:
                0: on Inst. – the trigger is the disturbance indicated by the starting of a protection element
                set to trip the CB. If this option is chosen the total recording time is: pre-fault time + duration
                of protection start + post-fault time, but no longer than the value of Max Record Time.
                When delay time of any protection function exceeds Max Record Time and after this delay
                time TRIP signal occurs then TRIP is recorded in the next additional record.
                1: on Trip. – the trigger is the disturbance indicated by a protection element trip. If this
                option is chosen the total recording time is: pre-fault time + duration of protection trip+ post-
                fault time, but no longer than the value of Max Record Time.
                Max Record Time            1.5 s                     0.1 s          4s              0.01 s
                Setting for the maximum total recording time. If default value is kept (4 s) it means that
                4 records will be recorded.
                It is not possible to display the disturbance records locally on the LCD; they must be
                extracted using suitable software such as MiCOM S1 Studio.
MR
Measurements and Recording                                                               V11V/EN MR v1.0
                                                                 Setting Range
               Menu Text           Default Setting                                           Step Size
                                                               Min.               Max.
           Line VT Primary       0.1 kV                0.05k                  65k           0.01k
           Sets the phase voltage transformer input's primary voltage rating.
           Line VT Sec           100 V                 57                     130           0.1
           Sets the phase voltage transformer input's secondary voltage rating.
           E/Gnd VT Primary      0.1kV                 0.05k                  65k           0.01k
           Sets the earth fault voltage transformer input's primary voltage rating.
           E/Gnd VT Sec          100 V                 57                     130           0.1
           Sets the earth fault voltage transformer input's secondary voltage rating.
                                                       3Upn, 3Upn+UN, 2Upp+UN,
           VT connection         3Upn                                                       N/A
                                                       3Upp+UN
           Sets the VT connection type to analog input V11V
           Protection config
                                 P–P                   P – P, P – N                         N/A
           V>
           Selection of the overvoltage protection type: Phase – Phase or Phase – Neutral
           Protection config
                                                                                                             MR
                                 P–P                   P – P, P – N                         N/A
           V<
           Selection of the undervoltage protection type: Phase – Phase or Phase – Neutral
     V11V/EN MR v1.0                                                                Measurements and Recording
                                                                                       0: Meas. P – P [V]
                                                                                       1: Meas. P – P [Un]
                                                                                       2: Meas. P – N [V]
                 Default Display          0:Meas. P – P
                                                                                       3: Meas. P – N [Un]
                                                                                       4: Control CB (N, A)
                                                                                       5: Local Mode (A)
                 This cell is used to change the default display window
                 0: Measurements in volts (phase to phase)
                 1: Measurements referred to Un (phase to phase)
                 2: Measurements in volts (phase to neutral)
                 3: Measurements referred to Un (phase to neutral)
                 4: Control Mode window for changing of the CB control mode (N, A)
                 5: Local/Remote mode and for presenting Control Mode state information (A)
MR
Commissioning                               V11V/EN CM v1.0
COMMISSIONING
CM
CM
Commissioning                                     V11V/EN CM v1.0
CONTENTS
1.         SETTING FAMILIARIZATION                             4
2.         EQUIPMENT REQUIRED FOR COMMISSIONING                5
2.1        Minimum equipment required                          5
3.         PRODUCT CHECKS                                      5
3.1        With the relay de-energized                         5
3.1.1      Visual inspection                                   6
3.1.2      Insulation                                          6
3.1.3      External wiring                                     6
3.1.4      Auxiliary supply voltage (Vx)                       6
3.2        With the relay energized                            7
3.2.1      Light emitting diodes (LEDs)                        7
3.2.2      Binary Inputs                                       8
3.2.3      Output Relays                                       8
3.2.4      Rear Communications Port (A)                        9
3.2.5      USB communications port                             9
3.2.6      Voltage inputs                                     10
4.         SETTING CHECKS                                    11
4.1        Apply application-Specific Settings                11
4.2        Demonstrate correct relay operation                11
4.2.1      Overvoltage protection testing                     11
5.         FUNCTIONAL TESTS                                  16
6.         COMMISSIONING TEST RECORD                         18     CM
7.         SETTING RECORD                                    22
     V11V/EN CM v1.0                                                                               Commissioning
                INTRODUCTION
                The VAMP 11V feeder protection relays are fully numerical in design, implementing all
                protection and non-protection functions in software. The relays employ a high degree of
                self-monitoring. The commissioning tests do not need to be as extensive as with non-
                numeric electronic or electro-mechanical relays.
                In the commissioning of numeric relays, it is only necessary to verify that the hardware is
                functioning correctly and that the application-specific software settings have been applied to
                the relay. It is considered unnecessary to test every function of the relay if the settings have
                been verified by one of the following methods:
                •      Extracting the settings applied to the relay using appropriate setting software
                       (preferred method),
                                  For safety reasons, no work must be carried out on the V11V until all
                                  power sources to the unit have been disconnected.
     1.         SETTING FAMILIARIZATION
CM              When commissioning a VAMP 11V relay for the first time, sufficient time should be allowed
                to enable the user to become familiar with the method by which the settings are applied.
                The Getting Started chapter (V11V/EN GS) contains a detailed description of the V11V relay.
                Via the front panel all the settings can be changed (refer to Settings chapter V11V/EN ST of
                this manual), LEDs and alarms reset, and fault and event records cleared. However, menu
                cells with access levels higher than the default level will require the appropriate password to
                be entered, before changes can be made.
                Alternatively, if a portable PC is available together with suitable setting software (such as
                MiCOM S1 Studio 5.1.0 or higher), the menu can be viewed a page at a time to display a full
                column of data and text. This PC software also allows settings to be entered more easily,
                saved to a file on disk for future reference or printed to produce a setting record. Refer to the
                PC software user manual for details (refer to Getting Started V11V/EN GS). If the software is
                being used for the first time, allow sufficient time to become familiar with its operation.
Commissioning                                                                               V11V/EN CM v1.0
3.         PRODUCT CHECKS
           These product checks cover all aspects of the relay and should be carried out to ensure that
           the unit has not been physically damaged prior to commissioning, that it is functioning
           correctly and that all input quantity measurements are within the stated tolerances.
           If the application-specific settings have been applied to the relay prior to commissioning, it is
           advisable to make a copy of the settings to allow their restoration later. This could be done
           by:
           •     Extracting the settings from the relay itself (this again requires a portable PC with
                 appropriate setting software)
           •     Manually creating a setting record. This could be done using a copy of the setting
                 record located at the end of this chapter to record the settings. As the relay’s menu is
                 scrolled through sequentially via the front panel user interface.
3.1        With the relay de-energized
           The following group of tests should be carried out without powering the V11V.
           WARNING:          NEVER OPEN CIRCUIT THE SECONDARY CIRCUIT OF A CURRENT
                             TRANSFORMER SINCE THE HIGH VOLTAGE PRODUCED MAY BE
                                                                                                               CM
                             LETHAL AND COULD DAMAGE INSULATION.
           The voltage transformer connections must be isolated from the relay for these checks. If an
           P991 test block is provided, the required isolation can easily be achieved by inserting test
           plug type P992 which effectively open circuits all wiring routed through the test block.
           Before inserting the test plug, reference should be made to the scheme (wiring) diagram to
           ensure that this will not potentially cause damage or a safety hazard.
           If a test block is not provided, the voltage transformer supply to the relay should be isolated
           by means of the panel links or connecting blocks. Where means of isolating the auxiliary
           supply and trip circuit (e.g. isolation links, fuses, MCB, etc.) are provided, these should be
           used. If this is not possible, the wiring to these circuits will have to be disconnected and the
           exposed ends suitably terminated to prevent them from being a safety hazard.
     V11V/EN CM v1.0                                                                            Commissioning
                It should be noted that the relay can withstand an ac ripple of up to 12% of the upper rated
                voltage on the dc auxiliary supply.
Commissioning                                                                                V11V/EN CM v1.0
           Do not energize the relay or interface unit using the battery charger with the battery
           disconnected as this can irreparably damage the relay’s power supply circuitry.
           Energize the relay only if the auxiliary supply is within the specified operating ranges. If a test
           block is provided, it may be necessary to link across the front of the test plug to connect the
           auxiliary supply to the relay.
                     Note:         Vx nominal supply rating is common to auxiliary voltage supply and
                                   binary control inputs
3.2        With the relay energized
           The following group of tests verifies that the relay hardware and software are functioning
           correctly and should be carried out while the V11V is powered.
           MV isolators should be opened and the MV side should be connected to the earth to allow
           safe operation of the CB.
3.2.1      Light emitting diodes (LEDs)
           On power up the green LED should have lit up and stayed on indicating that the relay is
           healthy. The relay has a non-volatile memory that remembers the state (on or off) of the
           alarm, trip and, if configured to latch, LED indicators when the relay was last energized from
           an auxiliary supply. Therefore these indicators may also lit up when the auxiliary supply is
           applied.
           Latching of LEDs can be configured via MiCOM S1 Studio 5.1.0 (or higher) setting software
           (USB port) or manually by the front panel
           Default configuration of LEDs (except Trip LED): without latching
                     Note:         The above default configuration can be changed using the MiCOM S1
                                   Studio 5.1.0 (or higher) setting software (USB port).
           Trip LED is fixed to protection trip with latching.
           The eight LEDs are on the front panel of the relay:
           •      The green Healthy LED indicates that the V11V is powered and no internal faults are
                  detected. A flashing LED indicates a hardware problem on the V11V. Not lit – V11V
                  has no power supply
           •      Red Trip LED: indicates that the time-delay of the protection element set to trip has          CM
                  elapsed
           •      Yellow Alarm LED: indicates that the time-delay of the protection element set to Alarm
                  has elapsed or that non-protection functions as issued an Alarm signal. This LED can
                  be programmed as 3-7 LEDs too.
                  Note: By default Alarm LED is not configured to Alarm. It is necessary to configure
                  this LED for Alarm function via MiCOM S1 Studio 5.1.0 (or higher) setting software
                  (USB port) or manually by the front panel
           After establishing the connection between PC and V11V via the USB port, the green Healthy
           LED should be lit permanently (it means that the V11V is powered), even if V11V is not
           connected to auxiliary voltage supply.
           The remaining LEDs can be checked via the “LEDs Reset” function. This function can be
           mapped to the L1 – L8 inputs.
           All red LEDs should be lit within 1 s.
           Default LEDs setting (both Setting Groups):
           -    LED2 – LED7: not configured.
     V11V/EN CM v1.0                                                                                  Commissioning
           Reverse Output Logic means that after powering the V11V, n/o contacts are closed. Output
           triggering via a programmable function opens the contacts (rest position).
3.2.4      Rear Communications Port (NA)
           This test should only be performed where the relay is to be accessed from a remote location
           and will vary depending on the communications standard adopted.
           It is not the intention of the test to verify the operation of the complete system from the relay
           to the remote location, just the relay’s rear communications port and any protocol converter
           necessary.
3.2.4.1    IEC60870-5-103 (VDEW) communications
           IEC60870-5-103/VDEW communication systems are designed to have a local Master Station
           and this should be used to verify that the relay’s EIA(RS)485 port, is working.
           The relay address and baud rate settings for EIA(RS)485 can be set by using local
           communication via the USB port (setting software) or via the relay's front panel.
           Default Factory Setting:
           -    Baud Rate: 19.2 bps
           -    Parity: No parity
           -    Stop Bits: one stop bit
           -    Data Bits: 8 (fixed)
           Also ensure that the relay's address and baud rate settings in the application software are
           the same as those set via the USB port.
           Check that, using the Master Station, communications with the relay can be established.
3.2.4.2    MODBUS communications
           Connect a portable PC running the appropriate MODBUS Master Station software to the
           relay’s first rear EIA(RS)485 port via an EIA(RS)485 to EIA(RS)232 interface converter. The
           terminal numbers for the relay's EIA(RS)485 port are up to 31.
           The relay address, Parity and Baud Rate settings for EIA(RS)485 are set by using local
           communication via USB port (MiCOM S1 Studio 5.1.0 (or higher) software).
                                                                                                               CM
           Default Factory Setting:
           -    Baud Rate: 19.2 bps
           -    Parity: No parity
           -    Stop Bits: one stop bit
           -    Data Bits: 8 (fixed)
           Ensure that the relay's address and baud rate settings in the application software are the
           same as those set via the USB port.
           Check that communications with the relay can be established.
3.2.5      USB communications port
           The USB port is used for local communications between a PC and the V11V.
               Note: Max current necessary to supply V11V from USB port is 450mA. USB
                     standard offers 500mA for a one PC’s USB controller, so it is not
                     recommended to connect any additional devices to the same PC’s USB
                     controller. If the total power consumption from a one PC’s USB controller is
                     greater than 500mA, V11V can be in permanent rest (V11V display and the
                     green Healthy LED will be flashing)
           The USB port integrates electronic boards only to allow communications with the V11V via
           the HMI and USB interfaces. Input (binary and voltage) and Output boards are not supplied.
     V11V/EN CM v1.0                                                                             Commissioning
                 For local communications, the MiCOM S1 Studio 5.1.0 (or higher) setting software is used.
                 USB parameters (not settable in the V11V):
                 -   Protocol: Modbus RTU
                 -   Address: 1
                 -   Baud Rate: 115.2 kbits/s
                 -   Data Bits: 8
                 -   Stop bit: 1
                 -   Parity: None
     3.2.6       Voltage inputs
                 This test verifies that the accuracy of voltage measurement is within the acceptable
                 tolerances.
                 The V11V measures the fundamental components of voltage.
                 Apply a voltage equal to the rating of the line voltage transformer secondary winding to each
                 voltage transformer input of the corresponding rating, in turn (see external connection
                 diagram (V11V/EN IN) for appropriate terminal numbers), checking its magnitude using a
                 multimeter/test set readout. The corresponding reading can then be checked in the
                 MEASUREMENT column of the menu or via the MiCOM S1 Studio 5.1.0 (or higher)
                 /Measurement Viewer connected to the V11V via USB port. Refer to the PC software user
                 manual for details.
                 If MiCOM S1 Studio 5.1.0 (or higher) is not available, it is necessary to test the protection
                 stages to measure the accuracy of analogue inputs.
                 Measuring accuracy of the relay:
                 Reference Conditions:
                 Sinusoidal signals with nominal frequency fn total harmonic distortion = 2 %, ambient
                 temperature 20 °C and nominal auxiliary voltage Vx.
                 Deviation relative to the relevant nominal value under reference conditions.
CM Operating Data
                 Frequency:                     ±10mHz
Commissioning                                                                                V11V/EN CM v1.0
4.         SETTING CHECKS
           The setting checks ensure that all of the application-specific relay settings (i.e. the relay’s
           functions), for the particular installation, have been correctly applied to the relay.
                     Note:        The trip circuit should remain isolated during these checks to prevent
                                  accidental operation of the associated circuit breaker.
4.1        Apply application-Specific Settings
           There are two methods of applying the settings to the relay:
           Downloading them from a pre-prepared setting file to the relay using a portable PC running
           the MiCOM S1 Studio 5.1.0 (or higher) support software. Communication between the PC
           and the V11V is done via the relay’s USB front port, located at the bottom of front panel, or
           rear communications port. This method is preferred for transferring function settings as it is
           much faster and there is less margin for error.
           If a setting file has been created for the particular application and is available on an external
           memory disk, this will further reduce the commissioning time.
           Enter them manually via the relay’s operator interface.
           Application notes for the setting values are given in Application Notes chapter V11V/EN AP
           of this manual.
4.2        Demonstrate correct relay operation
           The above tests have already demonstrated that the relay is within calibration, thus the
           purpose of these tests is as follows:
           −    To determine that the primary protection functions of the relay, overvoltage, earth-fault
                etc. can trip according to the correct application settings.
CM
CM
CM
Commissioning                                                                               V11V/EN CM v1.0
     5.          FUNCTIONAL TESTS
                 VAMP 11V has special functions for this purpose available in COMMISIONING column.
                 In Model A the special function Maintenance Mode is available for more comfortable testing
                 of the relay.
                 Note: If Maintenance Mode is not selected all test cells are hidden in V11V menu.
                 It is possible to set following Maintenance mode options (settings):
                     •    “No” - Maintenance mode is disabled. All window cells below are hidden
                          (Maintenance mode is the latest cell in COMMISIONING column)
                      •   Control command which activate this mode (rear command or setting: “Yes,….”)
                          and by turning off the power supply.
                                             Maintenance Mode
                                             1: Yes
When this menu is activated (set to YES: “Yes” or “Yes,outp.block”), the Alarm led is lit.
                 In “Yes,outp.block” case, all the output contacts are blocked, and no command can be
                 issued to these contacts, even if a protection threshold associated with one of these output
                 contacts has been crossed. If a protection threshold is crossed, all associated LEDs will be
                 ON, even the TRIP LED, if protection element is set to Trip.
                 The commissioning cells allow the user to check the external wiring to the relay's output
                 contacts. This function is available after activation of Maintenance mode. To do this, the
                 user has only to set to 1 the desired output contact's corresponding bit, and this will close the
                 contact and allow the continuity of the wiring to be checked.
                                             Test          7654321
                                             Pattern       0000000
                                             Contact Test
                                             Time         001.00s
Commissioning                                                                                 V11V/EN CM v1.0
           If the outputs for test are selected and Time for output closing is set, the closing command
           can be executed in this cell:
                                        Test output
                                        0: no operation
           To execute the test, press OK key, press the        or      key to select 1: Apply test and
           confirm action by OK. The contact will be closed for the duration of the Contact Test Time
           pulse.
           The next commissioning cells, which appears in Maintenance mode, allows the user to
           check the functional output configuration of the V11V. To do this, the user has only to select
           which protection element will be triggered, and this will close the contact assigned to this
           protection element and allow the continuity of the wiring to be checked.
                                        Functional Test
                                        0: V>
In the cell below the end of the functional test can be configured:
                                        Functional Test
                                        End 0: CB trip
                                        Contact Test
                                        Time         001.00s
                                        Functional Test
                                        CTRL: no operation
           To execute this test, press the OK key, press the     or     key to select 1: Operate and
                                                                                                                 CM
           confirm action by pressing OK. The contact will be closed for the duration of the Contact
           Test Time pulse.
     V11V/EN CM v1.0                                                                              Commissioning
                 Date:                                    Engineer:
                 Station:                                 Circuit:
                                                          System Frequency:                               Hz
                                            Model:
                 Injection test set
                                            Serial No:
                                            Model:
                 Insulation tester
                                            Serial No:
                                            Type:
                 Setting software:
                                            Version:
CM
Commissioning                                                                        V11V/EN CM v1.0
                                                                         Delete as appropriate
                Have all relevant safety instructions been followed?    Yes          No
 1.             Product Checks
 1.1            With the relay de-energized
 1.1.1          Visual inspection
 1.1.1.1        Relay damaged?                                          Yes          No
 1.1.1.2        Rating information correct for installation?            Yes          No
                                                                        Yes       No
 1.1.2          Insulation resistance >100MΩ at 500V dc
                                                                       Not Tested
 1.1.3          External wiring
 1.1.3.1        Wiring checked against diagram?                         Yes          No
                                                                                                       CM
     V11V/EN CM v1.0                                                                           Commissioning
      1.2.2       Inputs
                  Auxiliary voltage for binary control inputs:
      1.2.2.1     Value measured (see: COMMISSIONING/Opto I/P                      V dc
                  Status window of menu) (NA)
      1.2.2.2     L1 binary input working? (NA)                              Yes          No
      1.2.2.3     L2 binary input working? (NA)                              Yes          No
      1.2.2.4     L3 binary input working? (A)                               Yes          No
      1.2.2.5     L4 binary input working? (A)                               Yes          No
      1.2.2.6     L5 binary input working? (A)                               Yes          No
      1.2.2.7     L6 binary input working? (A)                               Yes          No
2. Setting Checks
 3.             Final Checks
                All test equipment, leads, shorts and test blocks removed
 3.1                                                                        Yes       No
                safely?
                                                                            Yes       No
 3.2            Disturbed customer wiring re-checked?
                                                                            N/A
 3.3            All commissioning tests disabled?                           Yes       No
 3.4            Records reset (via software)?                               Yes       No
COMMENTS #
 Date:                                                      Date:
     V11V/EN CM v1.0                                                                                 Commissioning
     7.          SETTING RECORD
                 Date:                                   Engineer:
                 Station:                                Circuit:
                                                         System Frequency:                                      Hz
                                                         VT Ratio (tap in use):                       /         V
Delete as appropriate
                                            OVERVOLTAGE G1
                 SETTING GROUP 1/ PROTECTION G1/
                                                                        Settings
                 PHASE O/V [59] G1
                                                              0: Disabled
                                                              1: OR Trip
                                                              2: OR Alarm
                                                              3: AND Trip
                 1                      V> ?                  4: AND Alarm
                                                              5: OR Trip/52a
                                                              6: OR Alarm/52a
                                                              7: AND Trip/52a
                                                              8: AND Alarm/52a
                 2                      V> Threshold                V
                 3                      V> Delay Type
                 4                      tV>/TMS/TD                  s
                                                              0: DMT
                 5                      V> Reset Delay Type
                                                              1: IDMT
                 6                      V> DMT tReset               s
                                                              0: Disabled
                                                              1: OR Trip
                                                              2: OR Alarm
                                                              3: AND Trip
                 7                      V>> ?                 4: AND Alarm
                                                              5: OR Trip/52a
                                                              6: OR Alarm/52a
                                                              7: AND Trip/52a
                                                              8: AND Alarm/52a
                 8                      V>> Threshold               V
CM               9                      tV>>                        s
                                                              0: Disabled
                                                              1: OR Trip
                                                              2: OR Alarm
                                                              3: AND Trip
                 10                     V>>> ?                4: AND Alarm
                                                              5: OR Trip/52a
                                                              6: OR Alarm/52a
                                                              7: AND Trip/52a
                                                              8: AND Alarm/52a
                 11                     V>>> Threshold              V
                 12                     tV>>>                       s
Commissioning                                                         V11V/EN CM v1.0
                                     UNDERVOLTAGE G1
           SETTING GROUP 1/ PROTECTION G1/
                                                                  Settings
           PHASE U/V [27] G1
                                                        0: Disabled
                                                        1: OR Trip
                                                        2: OR Alarm
                                                        3: AND Trip
           1                      V< ?                  4: AND Alarm
                                                        5: OR Trip/52a
                                                        6: OR Alarm/52a
                                                        7: AND Trip/52a
                                                        8: AND Alarm/52a
           2                      V< Threshold                V
           3                      V< Delay Type
           4                      tV</TMS/TD                  s
                                                        0: DMT
           5                      V< Reset Delay Type
                                                        1: IDMT
           6                      V< DMT tReset               s
                                                        0: Disabled
                                                        1: OR Trip
                                                        2: OR Alarm
                                                        3: AND Trip
           7                      V<< ?                 4: AND Alarm
                                                        5: OR Trip/52a
                                                        6: OR Alarm/52a
                                                        7: AND Trip/52a
                                                        8: AND Alarm/52a
           8                      V<< Threshold               V
           9                      tV<<                        s                          CM
                                                        0: Disabled
                                                        1: OR Trip
                                                        2: OR Alarm
                                                        3: AND Trip
           10                     V<<< ?                4: AND Alarm
                                                        5: OR Trip/52a
                                                        6: OR Alarm/52a
                                                        7: AND Trip/52a
                                                        8: AND Alarm/52a
           11                     V<<< Threshold              V
           12                     tV<<<                       s
     V11V/EN CM v1.0                                                           Commissioning
CM
Commissioning                                                           V11V/EN CM v1.0
                                                                                          CM
     V11V/EN CM v1.0                                                           Commissioning
1 Latched outputs
                      Reverse outp.
                 2
                      logic
                 3    Protect. Trip
                 4    Prot.Trip pulse
                      Trip CB Order
                 5
                      (A)
                      Close CB Order
                 6
                      (A)
                 7    Alarm
                 8    Start V>
                 9    Start V>>
                 10   Start V>>>
                 11   Start V<
                 12   Start V<<
                 13   Start V<<<
                 14   Start V1< (A)
                 15   Start V1<< (A)
                 16   Start V2> (NA)
                 17   Start V2>> (NA)
                 18   Start VN>
CM
                 19   Start VN>>
                 20   Start VN>>>
                 21   Start f1 (A)
                 22   Start f2 (A)
                 23   Start f3 (A)
                 24   Start f4 (A)
                 25   Start f5 (A)
                 26   Start f6 (A)
                 27   AUX1 (NA)
                 28   AUX2 (NA)
                 29   AUX3 (A)
                 30   AUX4 (A)
                 31   AUX5 (A)
                 32   tV>
                 33   tV>>
                 34   tV>>>
Commissioning                 V11V/EN CM v1.0
   35      tV<
   36      tV<<
   37      tV<<<
   38      tV1< (A)
   39      tV1<< (A)
   40      tV2> (NA)
   41      tV2>> (NA)
   42      CB Alarm (AE)
   43      tVN>
   44      tVN>>
   45      tVN>>>
   46      tf1 (A)
   47      tf2 (A)
   48      tf3 (A)
   49      tf4 (A)
   50      tf5 (A)
   51      tf6 (A)
   52      tAUX1 (NA)
   53      tAUX2 (NA)
   54      tAUX3 (A)
   55      CB Alarm (A)
           tCB FLT Ext.Sign
   56
           (A)
           Setting Group 1
   57
           (NA)
   58      tVTS (A)                             CM
   59      fout (A)
     V11V/EN CM v1.0                                                              Commissioning
                                           LEDs CONFIGURATION G1
                 SETTING GROUP 1/
                                                    LED2   LED3    LED4   LED5   LED6    LED7
                 LEDs CONFIGURATION G1
                 1       Latched LEDs
                 2       Alarm
                 3       Start V>
                 4       Start V>>
                 5       Start V>>>
                 6       Start V<
                 7       Start V<<
                 8       Start V<<<
                 9       Start V1< (A)
                 10      Start V1<< (A)
                 11      Start V2> (NA)
                 12      Start V2>> (NA)
                 13      Start VN>
                 14      Start VN>>
                 15      Start VN>>>
                 16      Start f1 (A)
                 17      Start f2 (A)
                 18      Start f3 (A)
                 19      Start f4 (A)
                 20      Start f5 (A)
                 21      Start f6 (A)
                 22      AUX1 (NA)
CM
                 23      AUX2 (NA)
                 24      AUX3 (A)
                 25      AUX4 (A)
                 26      AUX5 (A)
                 27      tV>
                 28      tV>>
                 29      tV>>>
                 30      tV<
                 31      tV<<
                 32      tV<<<
                 33      tV1< (A)
                 34      tV1<< (A)
                 35      tV2> (NA)
                 36      tV2>> (NA)
                 37      CB Alarm (AE)
                 38      tVN>
Commissioning                                                              V11V/EN CM v1.0
                                     LEDs CONFIGURATION G1
           SETTING GROUP 1/
                                              LED2   LED3    LED4   LED5   LED6     LED7
           LEDs CONFIGURATION G1
           39      tVN>>
           40      tVN>>>
           41      tf1 (A)
           42      tf2 (A)
           43      tf3 (A)
           44      tf4 (A)
           45      tf5 (A)
           46      tf6 (A)
           47      tAUX1 (NA)
           48      tAUX2 (NA)
           49      tAUX3 (A)
           50      CB Alarm (A)
           51      tCB FLT Ext.Sign (A)
           52      Setting Group 1 (NA)
           53      tVTS (A)
           54      fout (A)
                                                                                              CM
     V11V/EN CM v1.0                                                          Commissioning
                                            OVERVOLTAGE G2
                 SETTING GROUP 2/ PROTECTION G2/
                                                                        Settings
                 PHASE O/V [59] G2
                                                              0: Disabled
                                                              1: OR Trip
                                                              2: OR Alarm
                                                              3: AND Trip
                 1                      V> ?                  4: AND Alarm
                                                              5: OR Trip/52a
                                                              6: OR Alarm/52a
                                                              7: AND Trip/52a
                                                              8: AND Alarm/52a
                 2                      V> Threshold                V
                 3                      V> Delay Type
                 4                      tV>/TMS/TD                  s
                                                              0: DMT
                 5                      V> Reset Delay Type
                                                              1: IDMT
                 6                      V> DMT tReset               s
                                                              0: Disabled
                                                              1: OR Trip
                                                              2: OR Alarm
                                                              3: AND Trip
                 7                      V>> ?                 4: AND Alarm
                                                              5: OR Trip/52a
                                                              6: OR Alarm/52a
                                                              7: AND Trip/52a
                                                              8: AND Alarm/52a
                 8                      V>> Threshold               V
CM               9                      tV>>                        s
                                                              0: Disabled
                                                              1: OR Trip
                                                              2: OR Alarm
                                                              3: AND Trip
                 10                     V>>> ?                4: AND Alarm
                                                              5: OR Trip/52a
                                                              6: OR Alarm/52a
                                                              7: AND Trip/52a
                                                              8: AND Alarm/52a
                 11                     V>>> Threshold              V
                 12                     tV>>>                       s
Commissioning                                                         V11V/EN CM v1.0
                                     UNDERVOLTAGE G2
           SETTING GROUP 2/ PROTECTION G2/
                                                                  Settings
           PHASE U/V [27] G2
                                                        0: Disabled
                                                        1: OR Trip
                                                        2: OR Alarm
                                                        3: AND Trip
           1                      V< ?                  4: AND Alarm
                                                        5: OR Trip/52a
                                                        6: OR Alarm/52a
                                                        7: AND Trip/52a
                                                        8: AND Alarm/52a
           2                      V< Threshold                V
           3                      V< Delay Type
           4                      tV</TMS/TD                  s
                                                        0: DMT
           5                      V< Reset Delay Type
                                                        1: IDMT
           6                      V< DMT tReset               s
                                                        0: Disabled
                                                        1: OR Trip
                                                        2: OR Alarm
                                                        3: AND Trip
           7                      V<< ?                 4: AND Alarm
                                                        5: OR Trip/52a
                                                        6: OR Alarm/52a
                                                        7: AND Trip/52a
                                                        8: AND Alarm/52a
           8                      V<< Threshold               V
           9                      tV<<                        s                          CM
                                                        0: Disabled
                                                        1: OR Trip
                                                        2: OR Alarm
                                                        3: AND Trip
           10                     V<<< ?                4: AND Alarm
                                                        5: OR Trip/52a
                                                        6: OR Alarm/52a
                                                        7: AND Trip/52a
                                                        8: AND Alarm/52a
           11                     V<<< Threshold              V
           12                     tV<<<                       s
     V11V/EN CM v1.0                                                           Commissioning
CM
Commissioning                                                           V11V/EN CM v1.0
                                                                                          CM
     V11V/EN CM v1.0                                                           Commissioning
1 Latched outputs
                      Reverse outp.
                 2
                      logic
                 3    Protect. Trip
                 4    Prot.Trip pulse
                      Trip CB Order
                 5
                      (A)
                      Close CB Order
                 6
                      (A)
                 7    Alarm
                 8    Start V>
                 9    Start V>>
                 10   Start V>>>
                 11   Start V<
                 12   Start V<<
                 13   Start V<<<
                 14   Start V1< (A)
                 15   Start V1<< (A)
   33      tV>>
   34      tV>>>
   35      tV<
   36      tV<<
   37      tV<<<
   38      tV1< (A)
   39      tV1<< (A)
   40      tV2> (NA)
   41      tV2>> (NA)
   42      CB Alarm (A)
   43      tVN>
   44      tVN>>
   45      tVN>>>
   46      tf1 (A)
   47      tf2 (A)
   48      tf3 (A)
   49      tf4 (A)
   50      tf5 (A)
   51      tf6 (A)
   52      tAUX1 (NA)
   53      tAUX2 (NA)
   54      tAUX3 (A)
   55      CB Alarm (A)
           tCB FLT Ext.Sign
   56
           (A)
                                                CM
           Setting Group 1
   57
           (NA)
   58      tVTS (A)
   59      fout (A)
     V11V/EN CM v1.0                                                              Commissioning
                                           LEDs CONFIGURATION G2
                 SETTING GROUP 2/
                                                    LED2   LED3    LED4   LED5   LED6    LED7
                 LEDs CONFIGURATION G2
                 1       Latched LEDs
                 2       Alarm
                 3       Start V>
                 4       Start V>>
                 5       Start V>>>
                 6       Start V<
                 7       Start V<<
                 8       Start V<<<
                 9       Start V1< (A)
                 10      Start V1<< (A)
                 11      Start V2> (NA)
                 12      Start V2>> (NA)
                 13      Start VN>
                 14      Start VN>>
                 15      Start VN>>>
                 16      Start f1 (A)
                 17      Start f2 (A)
                 18      Start f3 (A)
                 19      Start f4 (A)
                 20      Start f5 (A)
                 21      Start f6 (A)
                 22      AUX1 (A)
CM
                 23      AUX2 (A)
                 24      AUX3 (A)
                 25      AUX4 (A)
                 26      AUX5 (A)
                 27      tV>
                 28      tV>>
                 29      tV>>>
                 30      tV<
                 31      tV<<
                 32      tV<<<
                 33      tV1< (A)
                 34      tV1<< (A)
                 35      tV2> (NA)
                 36      tV2>> (NA)
                 37      CB Alarm (A)
                 38      tVN>
Commissioning                                                                 V11V/EN CM v1.0
                                      LEDs CONFIGURATION G2
           SETTING GROUP 2/
                                               LED2     LED3    LED4   LED5   LED6     LED7
           LEDs CONFIGURATION G2
           39       tVN>>
           40       tVN>>>
           41       tf1 (A)
           42       tf2 (A)
           43       tf3 (A)
           44       tf4 (A)
           45       tf5 (A)
           46       tf6 (A)
           47       tAUX1 (A)
           48       tAUX2 (A)
           49       tAUX3 (A)
           50       CB Alarm (A)
           51       tCB FLT Ext.Sign (A)
           52       Setting Group 1 (NA)
           53       tVTS (A)
           54       fout (A)
CM
 Date:                                          Date:
Maintenance                                 V11V/EN MT v1.0
MAINTENANCE
MT
CONTENTS
MT
Maintenance                                                                                    V11V/EN MT v1.0
Maintenance
1.1        Maintenance period
           It is recommended that products supplied by SCHNEIDER ELECTRIC ENERGY receive
           periodic monitoring after installation. In view of the critical nature of protective relays and
           their infrequent operation, it is desirable to confirm that they are operating correctly, at
           regular intervals.
           SCHNEIDER ELECTRIC ENERGY protective relays are designed for a life in excess of 20
           years.
           VAMP 11x relays are self-monitoring and so require less maintenance than earlier designs of
           relay. Most problems will set off an alarm so that remedial action can be taken. However,
           some periodic tests should be carried out to ensure that the relay is functioning correctly and
           that the external wiring is intact.
1.2        Maintenance checks
           Although some functionality checks can be performed from a remote location by utilizing the
           communications ability of the relays, these are predominantly restricted to checking that the
           relay is measuring the applied voltages accurately. Therefore it is recommended that
           maintenance checks are performed locally (i.e. at the substation itself).
                              Before carrying out any work on the equipment, the user should be
                              familiar with the contents of the Safety Guide SFTY/4L M/E11 or later
                              issue, OR the safety and technical data section of the technical
                              manual and also the ratings on the equipment rating label.
                               For safety reasons, no work must be carried out on the V11V until
                               all power sources to the unit have been disconnected.
                                   For safety reasons, no work must be carried out on the V11V until
                                   all power sources to the unit have been disconnected.
     1.4        Cleaning
                Before cleaning the equipment ensure that all current transformers and voltage input
                connections are isolated to prevent any possibility of an electric shock whilst cleaning.
                The equipment may be cleaned using a lint-free cloth moistened with clean water. The
                use of detergents, solvents or abrasive cleaners is not recommended as they may
                damage the relay’s surface and leave a conductive residue.
MT
Troubleshooting                             V11V/EN TS v1.0
VAMP V11V
TROUBLESHOOTING
TS
VAMP V11V
TS
Troubleshooting                                        V11V/EN TS v1.0
CONTENTS
1.          INTRODUCTION                                            2
2.          INITIAL PROBLEM IDENTIFICATION                          2
3.          POWER UP ERRORS                                         3
4.          MALOPERATION OF THE RELAY DURING TESTING                4
4.1         Failure of Binary Inputs (N, A only)                    4
4.2         Failure of Output Contacts                              4
                                                                         TS
     V11V/EN TS v1.0                                                                          Troubleshooting
     1.          INTRODUCTION
                                   BEFORE CARRYING OUT ANY WORK ON THE EQUIPMENT, THE
                                   USER SHOULD BE FAMILIAR WITH THE CONTENTS OF THE
                                   SAFETY GUIDE SFTY/4L M/E11 OR LATER ISSUE, or THE SAFETY
                                   AND TECHNICAL DATA SECTION OF THE TECHNICAL MANUAL
                                   AND ALSO THE RATINGS ON THE EQUIPMENT RATING LABEL.
                                   For safety reasons, no work must be carried out on the V11V until
                                   all power sources to the unit have been disconnected.
                 The purpose of this section of the service manual is to allow an error condition on the relay
                 to be identified so that appropriate corrective action can be taken.
                 In cases where a faulty relay is being returned to the manufacturer or one of their approved
                 service centers, a completed copy of the Repair/Modification Return Authorization Form
                 located at the end of this section should be included.
                 Symptom                                                                   Refer To
                 Relay fails to power up                                                   Section 3
                 Maloperation of the relay during testing                                  Section 4
TS
Troubleshooting                                                                                V11V/EN TS v1.0
3.          POWER UP ERRORS
            V11V can be powered up using the following power sources:
                                                                                                                  TS
     V11V/EN TS v1.0                                                                                 Troubleshooting
                                                                      TS
     V11V/EN TS v1.0                                                                              Troubleshooting
TS                       Address the shipment to the repair center specified by your local contact
                         Ensure all items are protected by appropriate packaging: anti-static bag and foam
                         protection
                         Ensure a copy of the import invoice is enclosed with the unit being returned
                         Ensure a copy of the RMA form is enclosed with the unit being returned
                         E-mail or fax a copy of the import invoice and air waybill to your local contact.
Symbols and Glossary                        V11V/EN SG v1.0
VAMP 11V
VAMP 11V
SG
Symbols and Glossary                                                                       V11V/EN SG v1.0
Logic Symbols
Symbols Explanation
Symbols Explanation
Symbols Explanation
 T           A time delay.
 TE          A standard for measuring the width of a relay case:
             One inch = 5TE units.
 TMS         The time multiplier setting applied to IEC or UK inverse-time curves
 TD          The time multiplier setting applied to IEEE or US inverse-time curves
 Tx          Abbreviation of “Transmit”:
             Typically used to indicate a communication transmit line/pin.
Retardation time
Retardation time is the time which protection relay needs to notice, that a fault has
been cleared during the operation time delay. This parameter is important when
grading the operation time delay settings between protection relays.
Example - when there is a big fault in an outgoing feeder, it might start i.e. pick-up
both the incoming and outgoing feeder relay. However the fault must be cleared by
the outgoing feeder relay and the incoming feeder relay must not trip. Although the
operating delay setting of the incoming feeder is more than at the outgoing feeder,
the incoming feeder might still trip, if the operation time difference is not big enough.
The difference must be more than the retardation time of the incoming feeder relay
plus the operating time of the outgoing feeder circuit breaker. Figure 1 shows
overvoltage fault see from the incoming feeder, when the outgoing feeder does clear
the fault. If the operation delay setting would be slightly shorter or if the fault duration           SG
would be slightly longer than in the figure, an unselective trip might happen (dotted
pulse in the above figure). In VAMP 11x devices the retardation time is less than 40
ms.
Installation                                V11V/EN IN v1.0
VAMP 11V
INSTALLATION
V11V
IN
Installation                                                        V11V/EN IN v1.0
CONTENTS
1.         RECEIPT OF RELAYS                                                     3
2.         HANDLING OF ELECTRONIC EQUIPMENT                                      3
3.         STORAGE                                                               3
4.         UNPACKING                                                             4
5.         RELAY MOUNTING                                                        4
6.         RELAY WIRING                                                          4
6.1        Terminal Block Connections                                            5
6.2        USB Port                                                              5
6.3        Rear Communications Port (in Model L optional)                        5
FIGURES
           Figure 1:   Dimensions. V11V flush mounting basic case           7
           Figure 2:   Dimensions. Wall mounting case adaptor               8
           Figure 3:   Model A                                              9
           Figure 4:   Model N                                              10
           Figure 5:   Model L                                              11
           Figure 6:   Model A – application example 2Upp and UN            12
           Figure 7:   Model A – application example 3Upp and UN            13
                                                                                      IN
     Installation   V11V/EN IN v1.0
IN
Installation                                                                              V11V/EN IN v1.0
1.         RECEIPT OF RELAYS
           Upon receipt, relays should be examined immediately to ensure no external damage has
           been sustained in transit. If damage has been sustained, a claim should be made to the
           transport contractor and Schneider Electric Energy should be promptly notified.
           Relays that are supplied unmounted and not intended for immediate installation should be
           returned to their protective polythene bags and delivery carton. Section 3 of V11V/EN IN
           gives more information about the storage of relays.
3.         STORAGE
           If relays are not to be installed immediately upon receipt, they should be stored in a place
           free from dust and moisture in their original cartons. Where de-humidifier bags have been
           included in the packing they should be retained.
                                                                                                             IN
           Care should be taken on subsequent unpacking that any dust, which has collected on the
           carton, does not fall inside. In locations of high humidity the carton and packing may
           become impregnated with moisture and the de-humidifier crystals will lose their efficiency.
           Prior to installation, relays should be stored at a temperature of between –40°C to +70°C
           (-40°F to +158°F).
     Installation                                                                                 V11V/EN IN v1.0
     4.          UNPACKING
                 Care must be taken when unpacking and installing the relays so that none of the parts are
                 damaged and additional components are not accidentally left in the packing or lost. Ensure
                 that any User’s CD ROM or technical documentation is NOT discarded – this should
                 accompany the relay to its destination substation.
                 Relays must only be handled by qualified persons.
                 The site should be well lit to facilitate inspection, clean, dry and reasonably free from dust
                 and excessive vibration.
     5.          RELAY MOUNTING
                 Individual relays are normally supplied with an outline diagram showing the dimensions. This
                 information can also be found in the product publication.
                 Flush mounted version:
                 Make a cut-out in mounting plate according to fig. 1. Then insert the relay into it. Fit fastening
                 elements (see fig. 1) into the slots in the sides of the housing, and keep turning the fastening
                 screws until the relay is securely fixed to the plate. To remove the relay undo the screws, so
                 that the fastening element could be taken out, and then the relay could be withdrawn from
                 the cut-out in the mounting plate.
                 Mounting on the wall:
                 Flush mounting case of V11V can be mounted on the wall by using optional Wall Mounting
                 Case Adaptor (ordering number: REL10030)
                 Insert the relay into wall mounting adaptor according to fig. 2. Fit fastening elements (see fig.
                 2) into the slots in the sides of the housing, and keep turning the fastening screws until the
                 relay is securely fixed to the wall mounting adaptor. To remove the relay undo the screws, so
                 that the fastening element could be taken out, and then the relay could be withdrawn from
                 the wall mounting adaptor.
     6.          RELAY WIRING
                                   BEFORE CARRYING OUT ANY WORK ON THE EQUIPMENT, THE
                                   USER SHOULD BE FAMILIAR WITH THE CONTENTS OF THE SAFETY
                                   GUIDE SFTY/4L M/E11 OR LATER ISSUE, OR THE SAFETY AND
                                   TECHNICAL DATA SECTION OF THE TECHNICAL MANUAL AND
                                   ALSO THE RATINGS ON THE EQUIPMENT RATING LABEL.
                                   For safety reasons, no work must be carried out on the V11V until all
                                   power sources to the unit have been disconnected.
                 The measuring voltage inputs of the V11V should be connected to the secondary wires of
                 the power system VTs as shown in the connection diagrams in section 8. ”External
                 Connection Diagram” of this chapter V11V/EN IN.
IN
                 The VT types which can be connected to the V11V’s voltage input terminals are shown in
                 section 3 of the Applications chapter V11V/EN AP.
Installation                                                                             V11V/EN IN v1.0
IN
Installation                                                        V11V/EN IN v1.0
101.5
                                                                                      IN
     Installation                                                     V11V/EN IN v1.0
Figure 3: Model A
                                                            IN
     Installation                   V11V/EN IN v1.0
Figure 4: Model N
IN
Installation                                                        V11V/EN IN v1.0
                                 U1
                                 U2    U1
                                 U3
                                                                  A1    Auxiliary
                                                                        Voltage
                                                                  A2       Vx
                                  U2        U3
                                                                  A3
                                                                        Watchdog
                                                                  A4
                                                                          WD
                                                             WD
                                                 C9               A5
                                                       U1
                                                 C10              A6
                                                                        Output
                                                 C11              A7    Contact
                                                       U2   RL1          RL1
                                                 C12              A8
                                                 C13              A9
                                                       U3               Output
                                                 C14              A10   Contact
                                                            RL2           RL2
                                                                  A11
                                                                  A12   Output
                                                            RL3         Contact
                                                                  A13    RL3
Figure 5: Model L
                                                                                      IN
     Installation                                                     V11V/EN IN v1.0
IN
Installation                                                       V11V/EN IN v1.0
                                                                                     IN
Communication Database                       V11V/EN CT v1.0
VAMP 11V
COMMUNICATION DATABASE
VAMP 11V
CT
Communication Database                                                         V11V/EN CT v1.0
CONTENT
1.         INTRODUCTION                                                                     3
1.1        Purpose of this document                                                         3
1.2        Glossary                                                                         3
2.         MODBUS PROTOCOL                                                                  4
2.1        Technical characteristics of the MODBUS connection                               4
2.1.1      Parameters of the MODBUS connection                                              4
2.1.2      Synchronisation of exchanges messages                                            4
2.1.3      Message validity check                                                           4
2.2        MODBUS functions of the V11V relays                                              5
2.3        Presentation of the MODBUS protocol                                              5
2.3.1      Format of frames sent by the VAMP 11V relay                                      5
2.3.2      Messages validity check                                                          6
2.4        VAMP 11V relay database organisation                                             7
2.4.1      Description of the application mapping                                           7
2.4.2      Page 0h : Product information, remote signalling, measurements                   9
2.4.3      Page 1h, VAMP 11V : general remote parameters                                   12
2.4.4      Page 2h : setting Group 1                                                       15
2.4.5      Page 3h : setting Group 2                                                       22
2.4.6      Page 4h : remote controls                                                       29
2.4.7      Pages 5h/6h                                                                     29
2.4.8      Page 7h                                                                         29
2.4.9      Page 8h : time synchronisation                                                  29
2.4.10     Mapping access characteristics                                                  30
2.4.11     Page 9h to 21h: disturbance record data (25 pages)                              31
2.4.12     Page 22h: disturbance record index frame                                        33
2.4.13     Page 35h (addresses 3500h to 354Ah) : event record data (9 words)               33
2.4.14     Page 36h                                                                        38
2.4.15     Page 37h : fault record value data                                              38
2.4.16     Page 3Eh : most older Fault record value data                                   41
2.4.17     Page 38h to 3Ch: Disturbance recorder                                           41    CT
2.4.18     Pages 3Dh : number of disturbance records available                             43
2.4.19     Description of the mapping format, VAMP 11V                                     44
2.4.20     Request to retrieve the oldest non-acknowledge event                            52
2.4.21     Request to retrieve a dedicated event                                           52
2.4.22     Modbus request definition used to retrieve the fault records                    52
3.         IEC60870-5-103 INTERFACE                                                        54
     V11V/EN CT v1.0     Communication Database
CT
Communication Database                                                            V11V/EN CT v1.0
1.         INTRODUCTION
1.1        Purpose of this document
           This document describes the characteristics of the different communication protocol of
           VAMP 11V relay.
           The available communication protocols of VAMP 11V only model N and A relays are
           as follows:
• MODBUS.
           •    IEC 60870-5-103.
           NOTE:
           V11V has hardware options which are called Models: Model N, Model A, which has
           different functions.
           This document shows all available functions in V11V. To see which function are
           available in model refer to the rest chapters/sections of this manual.
           For example: disturbance recorder is available in model A only, etc.
1.2        Glossary
           VA, VB, VC     : voltage measured on the concerned phases (A, B, C)
           VN             : residual voltage measured by earth input
           pf             : soft weight of a word of 16 bits
           PF             : heavy weight of a word of 16 bits.
                                                                                                    CT
     V11V/EN CT v1.0                                                                  Communication Database
     2.       MODBUS PROTOCOL
              VAMP 11V relay can communicate by a RS 485 link behind the unit following the
              MODBUS MODICON RTU protocol.
     2.1      Technical characteristics of the MODBUS connection
     2.1.1    Parameters of the MODBUS connection
              The different parameters of the MODBUS connection are as follows :
              •     Communication speed can be configured by an operator dialog in the front panel of the
                    relay :
                       Baud rate
                           4800
                           9600
                           38400
                           57600
                          115200
                  Mode
                  1 start / 8 bits / 1 stop : total 10 bits
                  1 start / 8 bits / even parity / 1 stop : total 11 bits
                  1 start / 8 bits / odd parity / 1 stop : total 11 bits
                  1 start / 8 bits / 2 stop : total 11 bits
           Slave number:
           The slave number is situated between 1 and 247.
           A frame transmitted with a slave number 0 is globally addressed to all pieces of equipment
           (broadcast frame )
           Function code:
           Requested MODBUS function (1 to 16)
           Information:
           Contains the parameters of the selected function.
           CRC16:
           Value of the CRC16 calculated by the master.
                      Note:      The VAMP 11V relay does not respond to globally broadcast frames
                                 sent out by the master.
2.3.1      Format of frames sent by the VAMP 11V relay
           Frame sent by the VAMP 11V relay ( response)
           Slave number :
           The slave number is situated between 1 and 247.
           Function code :
           Processed MODBUS function (1 to 16) .
     V11V/EN CT v1.0                                                                     Communication Database
              Data :
              Contains reply data to master query .
              CRC 16:
              Value of the CRC 16 calculated by the slave.
     2.3.2    Messages validity check
When VAMP 11V relay receive a master query, it validates the frame :
              •    If the CRC is false, the frame is invalid. VAMP 11V relay do not reply to the query. The
                   master must retransmit its query. Excepting a broadcast message, this is the only case
                   of non-reply by VAMP 11V relay to a master query.
              •    If the CRC is good but the VAMP relay can not process the query, it sends an exception
                   response.
              Warning frame sent by the VAMP relay (response)
              Slave number :
              The slave number is situated between 1 and 247.
              Function code :
              The function code returned by the VAMP relay in the warning frame is the code in which the
              most significant bit (b7) is forced to 1.
              Warning code :
              On the 8 warning codes of the MODBUS protocol, the VAMP relay manages two of them :
• Phase VT ratio
• Earth VT ratio
Page 35h: Request to upload an event record without acknowledge of this event.
               Used addresses:
               3500h : EVENT 1
               .....
               3563h : EVENT 100
Page 36h: Request to upload the non-acknowledged oldest stored event record.
               Two modes are available for the acknowledgement: automatic acknowledgement or manual
               acknowledgement
               The mode depends of the state of bit 12 of telecommand word (address 400 h).
               If this bit is set, then the acknowledgement is manual else the acknowledgement is
               automatic.
               In automatic mode, the reading of the event acknowledges the event.
               In manual mode, it is necessary to write a specific command to acknowledge the oldest
               event
               (set the bit 13 of control word 400 h)
     2.4.1.4   Fault records
               Page 37h: Page dedicated to upload fault record
               Used addresses:
               3700h : FAULT 1
               3701h : FAULT 2
               .....
               3704h : FAULT 5
Page 3Eh: Request to upload the non-acknowledged oldest stored fault record.
               Two modes are available for the acknowledgement: automatic acknowledgement or manual
               acknowledgement
               The mode depends of the state of bit 12 of telecommand word (address 400 h).
               If this bit is set, then the acknowledgement is manual else the acknowledgement is
               automatic.
               In automatic mode, the reading of the fault acknowledges automatically the event.
               In manual mode, it is necessary to write a specific command to acknowledge the oldest fault.
               (set the bit 14 of control word 400 h)
CT
     2.4.1.5   Characteristics
               Page 0h can only be read through communication.
               Pages 1h, 2h, 3h and 4h can be read and write.
               Page 7h can be access in quick reading only.
               Page 8h can be write.
               They are describe more precisely in the following chapters.
   Communication Database                                                                       V11V/EN CT v1.0
                                                                                                                     CT
       V11V/EN CT v1.0                                                                      Communication Database
                                                                  Values                                      Default
     Address            Group              Description                           Step       Unit    Format
                                                                  range                                        Value
    0100          Remote          Address                       1 to 127     1          -           F1       1
                  parameters
    0101                          Protocol for RS485            0 to 1       1                      F56      0
    0102                          Baud Rate                     0 to 5       1                      F19      2
    0103                          Parity                        0 to 2       1                      F20      0
    0104                          Stop bits                     0 to 1       1                      F22      0
    0105-010F                     Reserved
    0110          Counters        Trips Number                  0 to 65535   1          -           F1       0
                                                    GLOBAL SETTINGS
    0140          LOC             Language                      0 to 6       1          -           F52      0
                                                             Values                                        Default
 Address          Group               Description                           Step       Unit    Format
                                                             range                                          Value
0146                           Nominal frequency           0 to 1       1          -           F57         0
0147                           Control Keys Confirmation   0 to 1       1          -           F82         0
0148-014F                      Reserved
0150          SETTING GROUP Number of Setting              0 to 1       1          -           F71         0
              SELECT        Groups
0151                           Setting group change        0 to 1       1          -           F32         0
0152                           t Change Setting            0 to 20000   1          [s]/100     F1          0
                               G1->G2
0153-015F                      Reserved
0160          VT Supervision   VTS Supervision             0 to 1       1          -           F66
0175                           Reserved
0176                           Meas. Validation NB         1 to 10      1          -           F1          4
                               (halfcycles)
0176 – 017F                    Reserved
0180          CIRCUIT          tOpen pulse min             10 to 1000   1          [s]/100     F1          50
              BREAKER
0181                           tClose Pulse                10 to 1000   1          [s]/100     F1          50
0182                           Time Delay for close        0 to 20000   1          [s]/100     F1          0
                               Command
0183                           Reserved
0184                           tCB FLT ext.sign.           1 to 200     1          [s]         F1          16     CT
0185                           Remote Mode                 0 to 1       1          -           F73
0186 - 0188                    Reserved
0189                           CB Supervision?             0 to 1       1          -           F63         0
018A                           Max CB Open Time            10 to 1000   1          [s]/100     F1          10
018B                           Max CB Close Time           10 to 1000   1          [s]/100     F1          10
018C - 0199                    Reserved
                                                          Values                                       Default
     Address          Group           Description                         Step       Unit    Format
                                                          range                                         Value
                 RECORDER
019E-01A4 Reserved
01A8 Reserved
01AC-01FF Reserved
CT
   Communication Database                                                                V11V/EN CT v1.0
CT 02ED
   02EE
                           tf3
                           tf4
                                                    0 to 5
                                                    0 to 5
                                                               1
                                                               1
                                                                          [-]
                                                                          [-]
                                                                                      F39
                                                                                      F39
   02EF                    tf5                      0 to 5     1          [-]         F39
   02F0                    tf6                      0 to 5     1          [-]         F39
   02F4                    tAUX1                    0 to 5     1          [-]         F39
   02F5                    tAUX2                    0 to 5     1          [-]         F39
   02F6                    tAUX3                    0 to 5     1          [-]         F39
   02F7                    Local Mode               0 to 5     1          [-]         F39
   02F8                    CB Alarm                 0 to 5     1          [-]         F39
   Communication Database                                                       V11V/EN CT v1.0
                                                                                                     CT
        V11V/EN CT v1.0                                                               Communication Database
CT
   Communication Database                                                                             V11V/EN CT v1.0
                               Address       Nb        Mask
              Timer                                                      Values range                   Unit
                                (hex)       bytes      (hex)
                                             1 (Hi)
                                 0800                                        0 – 99
                Year                        1 (Lo)      7F                                              Year
                                                                          (2000-2093)
               Month                         1 (Hi)     0F                   1 - 12                     month
                                                                          1–7
           Day of week           0801       1 (Lo)      E0                                               Day
                                                                    (Monday – Sunday)
           day of month                     1 (Lo)      1F                   1 – 31                      Day
                                                                             0–1
              Season                         1 (Hi)     80               (summer-winter)
                                                                            Not used
                Hour             0802        1 (Hi)     1F                    0-23                      Hour                CT
              Invalidity                    1 (Lo)      80          0 -1 (valid – invalid)
               Minute                       1 (Lo)      3F                    0-59                      Minute
       Millisecond pF+pf         0803           2      FFFF                0 – 59999                        ms
     V11V/EN CT v1.0                                                                      Communication Database
CT
Communication Database                                                            V11V/EN CT v1.0
                           Address                                     Contents
            0900h to 09FAh                          250 disturbance data words
            0A00h to 0AFAh                          250 disturbance data words
            0B00h to 0BFAh                          250 disturbance data words
            0C00h to 0CFAh                          250 disturbance data words
            0D00h to 0DFAh                          250 disturbance data words
            0E00h to 0DFAh                          250 disturbance data words
            0F00h to 0FFAh                          250 disturbance data words
            1000h to 10FAh                          250 disturbance data words
            1100h to 11FAh                          250 disturbance data words
            1200h to 12FAh                          250 disturbance data words
            1300h to 13FAh                          250 disturbance data words
            1400h to 14FAh                          250 disturbance data words
            1500h to 15FAh                          250 disturbance data words
            1600h to 16FAh                          250 disturbance data words
            1700h to 17FAh                          250 disturbance data words
            1800h to 18FAh                          250 disturbance data words
            1900h to 19FAh                          250 disturbance data words
            1A00h to 1AFAh                          250 disturbance data words
            1B00h to 1BFAh                          250 disturbance data words
            1C00h to 1CFAh                          250 disturbance data words
            1D00h to 1DFAh                          250 disturbance data words
            1E00h to 1EFAh                          250 disturbance data words
            1F00h to 1FFAh                          250 disturbance data words
            2000h to 20FAh                          250 disturbance data words
            2100h to 21FAh                          250 disturbance data words
                    NB:         The disturbance data pages contain values of one channel from one
                                given disturbance record.
                                                                                                    CT
     V11V/EN CT v1.0                                                                    Communication Database
        • Frequency channel:
     Time between two samples in microseconds
• Logic channels:
                               Address                                            Contents
              2200h                                         Disturbance data index frame
                     Disturbance record index frame
                                Word                                              Contents
              n° 1                                          Disturbance record number
              n° 2                                          Disturbance record finish date (second)
              n° 3                                          Disturbance record finish date (second)
              n° 4                                          Disturbance record finish date (millisecond)
              n° 5                                          Disturbance record finish date (millisecond)
              n° 6                                          Disturbance record starting condition :
                                                            1 : tripping
                                                            2 : instantaneous
                                                            3 : remote command
                                                            4 : logic input
2.4.13       Page 35h (addresses 3500h to 354Ah) : event record data (9 words)
             Word n° 1:     Event meaning
             Word n° 2:     MODBUS associated value
             Word n° 3:     MODBUS address
             Word n° 4:     Reserved
             Words n° 5 & 6 & 7 & 8:         Event date is Inverted IEC 870-5-4 CP56Time2a:
                                             See format Page 8h
             Word n° 9:     Acknowledge
                            0=event non acknowledged
                            1= event acknowledged)
                                                                                                 MODBUS
      Code                     Meaning of the event                           Type
                                                                                                 address
 00              No event                                                -
 01              CB closing (Remote/menu HMI)                            F38 ↑               0400h (bit 15)
                                                                                                                    CT
 02              CB tripping (Remote/menu HMI)                           F38 ↑               0400h (bit 7)
 03              Reset latched outputs (Remote)                          F38 ↑               0400h (bit 2)
 04              Reset signaling (Remote)                                F38 ↑               0400h (bit 1)
 05              Reset signaling and latched outputs (Remote)            F38 ↑               0400h (bit 3)
 06              Clear fault and disturbance recorder                    F38A ↑              0401h (bit 0)
 07              Clear event recorder                                    F38A ↑              0401h (bit 1)
 08              Reserved
     V11V/EN CT v1.0                                                   Communication Database
                                                                              MODBUS
           Code                   Meaning of the event          Type
                                                                              address
      09           Warm restart                          ↑               -
      10           START V>                              F37↑↓           0021h (bit 0)
      11           START V>>                             F37↑↓           0022h (bit 0)
      12           START V>>>                            F37↑↓           0023h (bit 0)
      13           START V<                              F37↑↓           0024h (bit 0)
      14           START V<<                             F37↑↓           0025h (bit 0)
      15           START V<<<                            F37↑↓           0026h (bit 0)
      16           START VN>                             F37↑↓           0027h (bit 0)
      17           START VN>>                            F37↑↓           0028h (bit 0)
      18           START VN>>>                           F37↑↓           0029h (bit 0)
      19           START V1<                             F37↑↓           002Ch (bit 0)
      20           START V1<<                            F37↑↓           002Dh (bit 0)
      21           START V2>                             F37↑↓           002Ch (bit 0)
      22           START V2>>                            F37↑↓           002Dh (bit 0)
      23           START f1                              F37↑↓           002Dh (bit 0)
      24           START f2                              F30 ↑           001Bh (value 4)
      25           START f3                              F31A ↑          001Ah (bit 10)
      26           START f4                              F51 ↑↓          002Ah (bit 0)
      27           START f5                              F11 ↑↓          0010h
      28           START f6                              F24 ↑↓          0013h
      29           Reserved                              F37↑↓           0023h (bit 0)
      30           Reserved                              F37↑↓           0023h (bit 6)
      31           Reserved                              F50 ↑↓          002Dh (bit 0)
      32           Start Aux1                            F50 ↑↓          002Dh (bit 6)
      33           Start Aux2                            F51 ↑↓          0028 (bit 6)
      34           Start Aux3                            F51 ↑↓          0029h (bit 6)
      35           CB Fail Ext.                          F32↑            0009h (bit 0)
      36           CB status: opened                     F30 ↑           001Bh (value 0)
      37           CB status: closed                     F30 ↑           001Bh (value 1)
      38           CB status: faulty                     F30 ↑           001Bh (value 3)
      39           CB status: undefined                  F30 ↑           001Bh (value 4)
CT    40           tV>                                   F31 ↑↓          0019h (bit 4)
      41           tV>>                                  F31 ↑↓          0019h (bit 5)
      42           tV>>>                                 F31A ↑↓         0020h (bit 5)
      43           tV<                                   F31A ↑↓         0020h (bit 6)
      44           tV<<                                  F31 ↑↓          0019h (bit 8)
      45           tV<<<                                 F31 ↑↓          0019h (bit 10)
      46           tVN>                                  F51 ↑↓          0027h (bit 0)
      47           tVN>>                                 F51 ↑↓          0028h (bit 0)
Communication Database                                               V11V/EN CT v1.0
                                                                     MODBUS
      Code                  Meaning of the event          Type
                                                                     address
                                                                               MODBUS
           Code                  Meaning of the event            Type
                                                                               address
      87           tf5 Alarm
      88           tf6 Alarm
      89-91        Reserved
      92           tAUX1 Alarm
      93           tAUX2 Alarm
      94           tAUX3 Alarm
      95           Reserved
      96          Local CTRL mode                         F61↑            001Eh (value: 2)
      97          Remote CTRL mode                        F61↑            001Eh (value: 1)
      98          Local and remote CTRL mode              F61↑            001Eh (value: 0)
      99          Setting change to Group 1 (Remote)      F38↑            0400h (bit 6)
      100         Setting change to Group 2 (Remote)      F38↑            0400h (bit 11)
      101         Reserved
      102         Setting Group 2 set via Input           F104↑↓          0035h (bit 8)
      103         Relays Test (Commissiong Test) active   ↑               -
      104         Functional test V> ON                   ↑               -
      105         Functional test V> OFF                  ↑               -
      106         Functional test V>> ON                  ↑               -
      107         Functional test V>> OFF                 ↑               -
      108         Functional test V>>> ON                 ↑               -
      109         Functional test V>>> OFF                ↑               -
      110         Functional test V< ON                   ↑               -
      111         Functional test V< OFF                  ↑               -
      112         Functional test V<< ON                  ↑               -
      113         Functional test V<< OFF                 ↑               -
      114         Functional test V<<< ON                 ↑               -
      115         Functional test V<<< OFF                ↑               -
      116         Functional test VN> ON                  ↑               -
      117         Functional test VN> OFF                 ↑               -
      118         Functional test VN>> ON                 ↑               -
      119         Functional test VN>> OFF                ↑               -
CT    120         Functional test VN>>> ON                ↑               -
      121         Functional test VN>>> OFF               ↑               -
      122         Functional test V2> ON                  ↑               -
      123         Functional test V2> OFF                 ↑               -
      124         Functional test V2>> ON                 ↑               -
     125          Functional test V2>> OFF                ↑               -
     126          Functional test V1< ON                  ↑               -
     127          Functional test V1< OFF                 ↑               -
Communication Database                                                             V11V/EN CT v1.0
                                                                                   MODBUS
   Code                     Meaning of the event                        Type
                                                                                   address
                                                                                                  MODBUS
        Code                      Meaning of the event                          Type
                                                                                                  address
Address Contents
Address Contents
Address Contents
                                              Nb
                            Address                   Mask
           Timer                             byte                  Values range                 Unit
                             (hex)                    (hex)
                                               s
                                             1 (Hi)
                           Word n° 2                                    0 – 99
             Year                            1 (Lo)    7F                                        Year
                                                                     (2000-2093)
            Month                            1 (Hi)    0F               1 - 12                  month
                                                                       1–7
      Day of week          Word n° 3         1 (Lo)    E0
                                                                      Not used
                                                                                                 Day
            Word n° 6 :       Reserved
            Word n° 7 :       Active setting group during the fault (1 or 2)
            Word n° 8 :       Fault origin
                              0= none
                              1= phase A
     V11V/EN CT v1.0                                                                Communication Database
                                 2= phase B
                                 3= phase C
                                 4= phases A-B
                                 5= phases A-C
                                 6= phases B-C
                                 7= phases A-B-C
                                 8= earth
              Word n° 9:         Fault recording starting origin
              Fault nature code meaning
               00                                         Null event
               01                                         Reserved
               03                                         tV> trip
               04                                         tV>> trip
               05                                         tV>>> trip
               06                                         tVN> trip
               07                                         tVN>> trip
               08                                         tVN>>> trip
               09                                         Reserved
               10
               11                                         t Aux 1 trip
               12                                         t Aux 2 trip
               13                                         tU2> trip
               14                                         Reserved
               15                                         t Aux 3 trip
               16                                         t Aux 4 trip
               17                                         CB Fail trip
               18
               19                                         Reserved
               20                                         CBext trip
Address Contents
                   3C01h                1                                VB
                   3C02h                1                                VC
                   3C03h                1                                VN
                   3C04h                1                                Frequency
                   3C05h                1                                Logic input and outputs
     1)
          Float – 4 bytes floating point number
     2.4.17.1 Calculation formula for phase voltage values
CT
Communication Database                                                                    V11V/EN CT v1.0
                              Address                                        Contents
            3D00h                                        Number of disturbance records available
               CODE             DESCRIPTION
               F1               Unsigned integer – numerical data : 0 – 65535
               F10              Characters ASCII
                                byte 1: ASCII character 32-127
                                byte 2: ASCII character 32-127
               F11              Unsigned integer -Binary input status
                                bit 0: logic input 1
                                bit 1: logic input 2
                                bit 2: logic input 3
                                bit 3: logic input 4
                                bit 4: logic input 5
                                bit 5: logic input 6
                                bit 6-15: reserved
               F12              Unsigned integer – Voltage Protection disable status
                                bit 0: V> disabled
                                bit 1: V>> disabled
                                bit 2: V>>> disabled
                                bit 3: V< disabled
                                bit 4: V<< disabled
                                bit 5: V<<< disabled
                                bit 6: VN> disabled
                                bit 7: VN>> disabled
                                bit 8: VN>>> disabled
                                bit 9: V2> disabled (AN)
                                bit 10: V2>> disabled (AN)
                                bit 11: V1< disabled (A)
                                bit 12: V1<< disabled (A)
                                bit 13 to 15: reserved
               F12A             Unsigned integer – Protection Function disable status
                                bit 0: f1 disabled (A)
                                bit 1: f2 disabled (A)
                                bit 2: f3 disabled (A)
                                bit 3: f4 disabled (A)
                                bit 4: f5 disabled (A)
                                bit 5: f6 disabled (A)
                                bit 6: reserved
                                bit 7: reserved
                                bit 8: reserved
                                bit 9: AUX 1 disabled (A)
                                bit 10: AUX 2 disabled (A)
                                bit 11: AUX 3 disabled (A)
                                bit 12 to 15: reserved
               F15              Two-digit decimal number - Firmware version
                                1st digit - major version
                                2nd digit - minor version
                                10: 1A
                                11: 1B
                                12: 1C
                                13: 1D
CT                              etc.
                                Unsigned integer – Configuration
               F16
                                0: disabled
                                1: enable OR Trip
                                2: enable OR Alarm
                                3: enable AND Trip
                                4: enable AND Alarm
                                5: enable OR Trip/52a (AN)
                                6: enable OR Alarm/52a (AN)
                                7: enable AND Trip/52a (AN)
                                8: enable AND Alarm/52a (AN)
               F17              Unsigned integer - Hardware version
                                00: 4BO, no RS485 (Model L)
                                01: 4BO, RS485 (model L with RS485)
Communication Database                                              V11V/EN CT v1.0
           CODE          DESCRIPTION
                         10: 2BI, 4BO, no RS485 (Model N)
                         11: 6BI, 8BO, RS485 (model A)
           F18           Unsigned integer – curves type
                         0: DT
                         1: SI IEC
                         2: VI IEC
                         3: EI IEC
                         4: LTI (IEC)
                         5: STI (IEC)
                         6: RC Rectifier curve
                         7: RI curve
                         8: MI IEEE
                         9: VI IEEE
                         10: EI IEEE
                         11: STI (US C02-P20)
                         12: LTI (US CO8)
                         13: RXIDG
                         14: BPN EDF
                         15: STI (US C02-P40)
           F19           Unsigned integer - Baud rate value
                         0: 4800 baud
                         1: 9600 baud
                         2: 19200 baud
                         3: 38400 baud
                         4: 57600 baud
                         5: 115200 baud
           F20           Unsigned integer – Parity
                         0: none
                         1: even
                         2: odd
           F21           Unsigned integer – VT secondary
                         1: 57-130V
                         2: 220-480V
           F22           Unsigned integer – Stop
                         0: 1 stop
                         1: 2 stop
           F23           Unsigned integer – VT secondary E/Gnd
                         0: none
                         1: 57-130V
           F24           Unsigned integer - Logical output status
                         bit 0: logic output RL1
                         bit 1: logic output RL2
                         bit 2: logic output RL3
                         bit 3: logic output RL4
                         bit 4: logic output RL5
                         bit 5: logic output RL6
                         bit 6: logic output RL7
                         bit 7 to 15: reserved
           F25           Unsigned integer - Logical LED status
                         bit 0: Trip
                                                                                      CT
                         bit 1: LED2 (Alarm)
                         bit 2: LED3
                         bit 3: LED4
                         bit 4: LED5
                         bit 5: LED6
                         bit 6: LED7
                         bit 7: Healthy
                         bit 8-15: reserved
           F26           Unsigned integer - Logical heathy status
                         bit 0 to 3: reserved
                         bit 4: Healthy
                         bit 10-15: reserved
     V11V/EN CT v1.0                                                           Communication Database
               CODE       DESCRIPTION
               F28        Unsigned integer - Protection start status
                          bit 0: V>
                          bit 1: V>>
                          bit 2: V>>>
                          bit 3: V<
                          bit 4: V<<
                          bit 5: V<<<
                          bit 6: VN>
                          bit 7: VN>>
                          bit 8: VN>>>
                          bit 9: V2> (AN)
                          bit 10: V2>> (AN)
                          bit 11: V1< (A)
                          bit 12: V1<< (A)
                          bit 13: starting in phase A
                          bit 14: starting in phase B
                          bit 15: starting in phase C
               F28A       Unsigned integer - Protection start status
                          bit 0: f1 (A)
                          bit 1: f2 (A)
                          bit 2: f3 (A)
                          bit 3: f4 (A)
                          bit 4: f5 (A)
                          bit 5: f6 (A)
                          bit 6: reserved
                          bit 7: reserved
                          bit 8 : reserved
                          bit 9: AUX1 (A)
                          bit 10: AUX2 (A)
                          bit 11: AUX3 (A)
                          bit 12 to 15: reserved
               F29        Unsigned integer – Protection Function trip status
                          bit 0: tV> trip
                          bit 1: tV>> trip
                          bit 2: tV>>> trip
                          bit 3: tV< trip
                          bit 4: tV<< trip
                          bit 5: tV<<< trip
                          bit 6: tVN> trip
                          bit 7: tVN>> trip
                          bit 8: tVN>>> trip
                          bit 9: tV2> trip (AN)
                          bit 10: tV2>> trip (AN)
                          bit 11: tV1< trip (A)
                          bit 12: tV1<< trip (A)
                          bit 13: trip phase A
                          bit 14: trip phase B
                          bit 15: trip phase C
               F29A       Unsigned integer - Protection Function trip status
                          bit 0: tf1 trip (A)
                          bit 1: tf2 trip (A)
CT                        bit 2: tf3 trip (A)
                          bit 3: tf4 trip (A)
                          bit 4: tf5 trip (A)
                          bit 5: tf6 trip (A)
                          bit 6: reserved
                          bit 7: reserved
                          bit 8: reserved
                          bit 9: tAUX1 trip (A)
                          bit 10: tAUX2 trip (A)
                          bit 11: tAUX3 trip (A)
                          bit 12 to 15: reserved
Communication Database                                                     V11V/EN CT v1.0
           CODE          DESCRIPTION
           F30           Unsigned integer - CB status
                         0: CB opened
                         1: CB closed
                         2: reserved
                         3: CB position faulty
                         4: CB position undefined
           F31           Unsigned integer (bit)- Protection Alarm status
                         bit 0: tV> alarm
                         bit 1: tV>> alarm
                         bit 2: tV>>> alarm
                         bit 3: tV< alarm
                         bit 4: tV<< alarm
                         bit 5: tV<<< alarm
                         bit 6: tVN> alarm
                         bit 7: tVN>> alarm
                         bit 8: tVN>>> alarm
                         bit 9: tV2> alarm (AN)
                         bit 10: tV2>> alarm (AN)
                         bit 11: tV1< alarm (A)
                         bit 12: tV1<< alarm (A)
                         bit 13: alarm phase A
                         bit 14: alarm phase B
                         bit 15: alarm phase C
           F31A          Unsigned integer - Alarm Function status
                         bit 0: tf1 alarm (A)
                         bit 1: tf2 alarm (A)
                         bit 2: tf3 alarm (A)
                         bit 3: tf4 alarm (A)
                         bit 4: tf5 alarm (A)
                         bit 5: tf6 alarm (A)
                         bit 6: reserved
                         bit 7: reserved
                         bit 8: reserved
                         bit 9: tAUX1 alarm (A)
                         bit 10: tAUX2 alarm (A)
                         bit 11: tAUX3 alarm (A)
                         bit 12: alarm t CB not healthy (AN)
                         bit 13: alarm CB (AN)
                         bit 14: alarm tVTS (AN)
                         bit 15: alarm VT Supervision (AN)
           F32           Unsigned integer - Setting group
                         0: Setting group 1
                         1: Setting group 2
           F35           Unsigned integer -Input configuration
                         bit 0: Input L1
                         bit 1: Input L2
                         bit 2: Input L3
                         bit 3: Input L4
                         bit 4: Input L5
                         bit 5: Input L6
                         bit 6-15: reserved
           F36           Unsigned integer -Output configuration
                                                                                             CT
                         bit 0: RL1
                         bit 1: RL2
                         bit 2: RL3
                         bit 3: RL4
                         bit 4: RL5
                         bit 5: RL6
                         bit 6: RL7
                         bit 7-15: reserved
     V11V/EN CT v1.0                                                             Communication Database
               CODE       DESCRIPTION
               F37        Unsigned integer: threshold phase information status:
                          bit 0: information thresold exceeded (V>, V>>, V>>>, V<, V<<, V<<<)
                          bit 1: Instantaneous VA
                          bit 2: Instantaneous VB
                          bit 3: Instantaneous VC
                          bit 4: reserved
                          bit 5: Instantaneous information (V>, V>>, V>>>, V<, V<<, V<<<)(after blocking)
                          bit 6: Triping information (V>, V>>, V>>>, V<, V<<, V<<<)
                          bit 7 to 15: reserved
               F38        Unsigned integer - Remote control word 1
                          bit 0: Warm restart (AN)
                          bit 1: Reset LEDs (AN)
                          bit 2: Reset Outputs (AN)
                          bit 3: Reset LEDs and Outputs (AN)
                          bit 4: Local Mode (A)
                          bit 5: Reset latched Alarms (AN)
                          bit 6: Setting change to Group 1 (AN)
                          bit 7: Remote or HMI CB open order (AN)
                          bit 8: f<> Remote blocking (A)
                          bit 9: f<> Remote unblocking (A)
                          bit 10: Remote Mode (A)
                          bit 11: Setting change to Group 2 (AN)
                          bit 12: Disable automatic acknowledgement of events (AN)
                          bit 13: Oldest event acknowledge (AN)
                          bit 14: Oldest fault acknowledge (AN)
                          bit 15: Remote or via HMI CB close order (AN)
               F38A       Unsigned integer - Remote control word 2
                          bit 0: Clear Recorders (AN)
                          bit 1: Clear Events (AN)
                          bit 2: reserved
                          bit 3: reserved
                          bit 4: Peak value reset (AN)
                          bit 5: Disturbance record remote start (A)
                          bit 6: Maintenance mode (A)
                          bit 7: End of maintenance mode (A)
                          bit 8: Acknowledgement of the oldest disturbance record (A)
                          bit 9: reserved
                          bit 10: reserved
                          bit 11: reserved
                          bit 12: Reset Fault counters (AN)
                          bit 13: Reset control counters (AN)
                          bit 14: reserved
                          bit 15: reserved
               F38B       Unsigned integer – Remote control word 3
                          bit 0: reserved
                          bit 1: Enable automatic acknowledgement of events (AN)
                          bit 2-15: reserved
               F39        Unsigned integer - LED function
                          bit 0: LED2 (Alarm)
                          bit 1: LED3
                          bit 2: LED4
CT                        bit 3: LED5
                          bit 4: LED6
                          bit 5: LED7
                          bit 6-15: reserved
               F41        Unsigned integer - Curve Type
                          0: DT
                          1: IDMT
Communication Database                                                                    V11V/EN CT v1.0
           CODE          DESCRIPTION
           F49           Unsigned integer - relay status
                         bit 0: Relay status (major alarms)
                         bit 1: Minor hardware alarm
                         bit 2: Presence of non-acknowledged event
                         bit 3: Synchronisation state
                         bit 4: reserved
                         bit 5: Presence of non-acknowledged fault record
                         bit 6-15: reserved
           F50           Unsigned integer: threshold V2, VN, V1, f, AUXx information status:
                         bit 0: information threshold exceeded
                         bit 1: reserved
                         bit 2: reserved
                         bit 3: reserved
                         bit 4: reserved
                         bit 5: Instantaneous information (V2, V1, VN, f, AUXx)(after blockig)
                         bit 6: Tripping information (V2, VN, V1, f, AUXx)
                         bit 7 to 15: reserved
           F52           Unsigned integer: information about language in menu
                         0: English
                         1: German
                         2: French
                         3: Spanish
                         4: Russian
                         5: Turkish
                         6: Regional
           F53           Unsigned integer: information about default window in menu
                         0: Measurements P- P [V]
                         1: Measurements P-P [Un]
                         2: Measurements P-N [V]
                         3: Measurements P-N [Un]
                         4: Control CB
                         5: Local mode
           F54           Unsigned integer
                         0: Manual only
                         1: Protection start
                         2: Close command
           F55           Unsigned integer - Alarm Display Reset
                         0: Self-Reset
                         1: Manual Reset
           F56           Unsigned integer - Protocol
                         0: Modbus
                         1: IEC103
           F57           Unsigned integer – Nominal Frequency
                         0: 50Hz
                         1: 60Hz
           F58           Unsigned integer – Hardware version
                         0: Standard
                         1: Model L
                         2: Model L+RS485
                         3: Model N
                         4: Model A
                                                                                                              CT
           F60           Inverted CP56Time2a Format
           F61           Unsigned integer - Local/Remote Mode
                         0: Local and Remote
                         1: Remote only
                         2: Local only
           F62           Unsigned integer – Maintenance Mode. Read only (remote modification has no
                         effect)
                         0: No
                         1: Yes – output trips
                         2: Yes – output blocking
     V11V/EN CT v1.0                                                              Communication Database
               CODE       DESCRIPTION
               F63        Unsigned integer – Configuration
                          0: No
                          1: Yes
               F64        Unsigned integer – Configuration
                          0: Protection reset
                          1: CB Reset
               F65        Unsigned integer – Disturbance recorder configuration
                          0: On Instantenous
                          1: On Trip
               F66        Unsigned integer – Configuration
                          0: Disabled
                          1: Enabled
               F71        Unsigned integer - Number of setting groups:
                          0: One Group
                          1:Two Groups
               F73        Unsigned integer - Remote Mode configuration
                          0: Remote Only
                          1:Remote + Local
               F76        Unsigned integer – Functional test pattern
                          0: V>
                          1: V>>
                          2: V>>>
                          3: V<
                          4: V<<
                          5: V<<<
                          6: VN>
                          7: VN>>
                          8: VN>>>
                          9: V2>
                          10: V2>>
                          11: V1<
                          12: V1<<
                          13: f1
                          14: f2
                          15: f3
                          16: f4
                          17: f5
                          18: f6
               F77        Unsigned integer - Functional Test End
                          0: CB Trip
                          1: Time elapsed
               F82        Unsigned integer – Control key confirmation
                          0: without confirmation
                          1: with confirmation
               F84        Unsigned integer - Configuration:
                          0: disable
                          1: f> Trip
                          2: f> Alarm
CT                        3: f< Trip
                          4: f< Alarm
               F88        Unsigned integer – IDMT Interlock by DMT
                          0: No
                          1: Yes
               F90        Unsigned Integer - VT connection
                          0: 3Upn
                          1: 3Upn+UN
                          2: 2Upp+UN
                          3: 3Upp+UN
Communication Database                                                 V11V/EN CT v1.0
           CODE          DESCRIPTION
           F91           Unsigned integer – Protection configuration
                         0: P-N
                         1: P-P
           F92           Unsigned integer – VTS input
                         0: VTS input
                         1: Delta Vr=VN-3Vo
                         2: Delta Vr=VN-3Vo and VTS input
           F94           Unsigned integer - Configuration
                         0: disabled
                         1: Trip
                         2: Alarm
           F95           Unsigned integer - Configuration
                         0: disable
                         1: Trip (measured)
                         2: Alarm (measured)
                         3: Trip (Ua+Ub+Uc)
                         4: Alarm (Ua+Ub+Uc)
                                                                                         CT
     V11V/EN CT v1.0                                                                        Communication Database
              This event request may be answered an error message with the error code :
                         EVT_EN_COURS_ECRIT (5) :            An event is being written into the saved FRAM.
                            Note :        On event retrieval, two possibilities exist regarding the event
                                          record acknowledgement :
                                          a) Automatic event record acknowledgement on event retrieval.
                                          b) Non automatic event record acknowledgement on event
                                             retrieval.
              This event request may be answered an error message with the error code :
                         EVT_EN_COURS_ECRIT (5) :            An event is being written into the saved FRAM.
                            Note :        This event retrieval does not acknowledge this event.
     2.4.22   Modbus request definition used to retrieve the fault records
              Two ways can be followed to retrieve a fault record :
           To acknowledge this fault, an other remote order shall be sent to the relay. The bit 14 of this
           frame (format F38 – mapping address 0400h) shall be set to 1.
2.4.22.2 Request to retrieve a dedicated fault record
Note : This fault value retrieval does not acknowledge this fault record.
                                                                                                             CT
     V11V/EN CT v1.0                                                                 Communication Database
3. IEC60870-5-103 INTERFACE
              The IEC60870-5-103 interface is a master/slave interface with the relay as the slave device.
              This protocol is based on the VDEW communication protocol. The relay conforms to
              compatibility level 2, compatibility level 3 is not supported.
              The following IEC60870-5-103 facilities are supported by this interface:
              Initialisation (Reset)
              Time Synchronisation
              Event Record Extraction
              General Interrogation
              Cyclic Measurements
              General Commands
              Physical connection and link layer
              Connection is available for IEC60870-5-103 through the rear RS485 port. It is possible to
              select both the relay address and baud rate using the front panel interface. Following a
              change, a reset command is required to re-establish communications.
              The parameters of the communication are the following:
              Even Parity
              8 Data bits
              1 stop bit
              Data rate 9600 or 19200 bauds
              Initialisation
              Initialisation is implemented according to clause 7.4.1 of IEC 60870-5-103.
              Whenever the relay has been powered up, or if the communication parameters have been
              changed a reset command is required to initialise the communications. The relay will
              respond to either of the two reset commands (Reset CU or Reset FCB), the difference being
              that the Reset CU will clear any unsent messages in the relay's transmit buffer.
              The relay will respond to the reset command with an identification message
              ASDU 5, the Cause Of Transmission COT of this response will be either Reset CU or Reset
              FCB depending on the nature of the reset command. The following information will be
              contained in the data section of this ASDU:
              Manufacturer Name: SE VAMP
              According to the specification “Communication Architecture (ACA), Part 4: Communication
              based on IEC 60870-5-103” (Issue H, April 2010) the Software Identification Section will
CT            contain the relay model number and the version number to identify the type of relay.
              Software Identification Section, Byte 0:       Numerical part of device type, hex, low
              Software Identification Section, Byte 1:       Numerical part of device type, hex, low
              Software Identification Section, Byte 2:       Software version, hex, low
              Software Identification Section, Byte 3:       Software version, hex, high
              Letters in the software version are converted to numerical values according to the following
              rule: A=0, B=1, C=2, D=3 etc.
              The Software Identification Section of V11V, version 1A, will then contain ‘111’ and ‘10’ as
              hexadecimal coded values:
Communication Database                                                                    V11V/EN CT v1.0
           Byte 0:         74H
           Byte 1:         00H
           Byte 2:         10H
           Byte 3:         00H
           In addition to the above identification message, if the relay has been powered up it will also
           produce a power up event.
           Time synchronisation
           Time synchronisation is implemented according to clause 7.4.2 of IEC 60870-5-103.
           The relay time and date can be set using the time synchronisation feature of the IEC60870-
           5-103 protocol. The relay will correct for the transmission delay as specified in IEC60870-5-
           103. If the time synchronisation message is sent as a send/confirm message then the relay
           will respond with a confirm. Whether the time synchronisation message is sent as a send
           confirm or a broadcast (send/no reply) message, a time synchronisation message will be
           returned as Class 1 data.
           Spontaneous events
           The events created by the relay will be passed to the master station using the compatible
           range and the private range of IEC 60870-5-103 function types and information numbers.
           Events are categorised using the following information:
           Common Address
           Function Type
           Information number
           3.10-3.14 contains a complete listing of all events produced by the relay.
           General interrogation
           General interrogation is implemented according to clause 7.4.3 of IEC 60870-5-103.
           The GI request can be used to read the status of the relay, the function numbers, information
           numbers and common address offsets that will be returned during the GI cycle are indicated
           in 3.10-3.14.
           Cyclic measurements
           The relay will produce measured values using ASDU 3 and ASDU 9 on a cyclical basis.
           They can be read from the relay using a Class 2 poll.
           It should be noted that the measurands transmitted by the relay are sent as a proportion of
           2.4 times the rated value of the analogue value. The selection of 2.4 for a particular value is
           indicated in 3.10-3.14.
           Commands
           Command transmission is implemented according to clause 7.4.4 of IEC 60870-5-103.
                                                                                                             CT
           A list of the supported commands is contained in 3.10-3.14. The relay will respond to all
           other commands with an ASDU 1, with a cause of transmission (COT) of negative
           acknowledgement of a command
           Blocking of monitor direction
           The relay does not support a facility to block messages in the Monitor direction.
     V11V/EN CT v1.0                                                                      Communication Database
CT
Communication Database                                                                   V11V/EN CT v1.0
                                                                    VH
     V11V/EN VH v1.0   Firmware and Service Manual
                                   Version History
                                          VAMP 11V
VH
                                                                                                                   VAMP 11V
                                                                                                                               V11V/EN VH v1.0
                                                                                                                   (VH) 14-1
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