NIOEC-SP-70-56(0)

DOCUMENT CODE NO. OF PAGES:4

PLAN/PRJ/SUB UNIT PHASE DISCIPLANE DOCUMENT TYPE SERIAL NO. REV. NO. DATE
NIOEC 000 EG IN SP 7056 A0 DECEMBER, 2017

NATIONAL IRANIAN OIL REFINING & DISTRIBUTION COMPANY

NATIONAL IRANIAN OIL ENGINEERING
& CONSTRUCTION COMPANY

NIOEC SPECIFICATION
FOR

LOCAL AREA NETWORK (LAN)

FIRST EDITION

DECEMBER, 2017

THIS STANDARD IS THE PROPERTY OF NATIONAL IRANIAN OIL ENGINEERING & CONSTRUCTION COMPANY. IT IS CONFIDENTIAL AND ALL
RIGHTS RESERVED TO THE OWNER. NEITHER WHOLE NOR ANY PART OF THIS DOCUMENT MAY BE DISCLOSED TO ANY THIRD PARTY,
REPRODUCTED, STORED IN ANY RETRIEVAL SYSTEM OR TRANSMITTED IN ANY FORM OR BY ANY MEANS WITHOUT THE PRIOR WRITTEN
CONSENT OF THE NATIONAL IRANIAN OIL ENGINEERING & CONSTRUCTION COMPANY.
 DECEMBER, 2017 NIOEC-SP-70-56(0)

IN THE NAME OF GOD

FOREWORD

By their very nature, technical Specifications are continuously subject to modifications and
revisions. To strengthen their merit and usefulness, continuous improvements, addendum, deletion
of disparate information and consequently provision of updated revisions are to be made in order
to ascertain that such Specifications meet the current requirements, inclusive of Iranian Petroleum
Standards (IPS) and the recognized and acceptable national and international Standards, as well as
the optimal codes and practices based on the accumulated in-house know-how and plant
knowledge and experiences.

However, in reality, due to several reasons, not to mention the complexity of the matter, the
ultimate goal of continuous direct embedment of the required changes on the relevant
Specifications may be far reaching. Therefore, in the interim periods between the officially issued
revisions, the required changes will appear in other documents related to the engineering and
design work of the ongoing projects.

In response to the initiative of the Design and Engineering Directorate, and considering that the
task of the execution of several important and mega projects for the realization of the new oil
refineries, pipelines and oil terminals as well as improvements of the existing facilities, has been
assigned to NIOEC, it was decided to update the NIOEC Specifications and to issue new official
revisions.

The Design and Engineering Directorate was itself entrusted to carry out this important task, and
as such by forming several special technical committees, working in close co-operation and
cohesion and sharing their expertise and knowledge, the updated and revised NIOEC
Specifications were successfully prepared and complied.

These Specifications are intended to be used for Oil Refineries, Distribution Depots, Oil
Terminals, Pipelines and Pump Stations within NIOEC's projects, and have been proven to be of
high value for such purposes. It must however be appreciated that these Specifications represent
the minimum requirements and should in no way be interpreted as a restriction on the use of better
procedures, engineering and design practices or materials.

We encourage and highly appreciate the users and other clear sighted and experts to send their
comments on the Specifications to the Design and Engineering Director of NIOEC for evaluation
and approval.
 DECEMBER, 2017 NIOEC-SP-70-56(0)

REVISION INDEX
REV. REV. REV. REV.
PAGE 1 2 3 4 5 PAGE
1 2 3 4 5 PAGE 1 2 3 4 5 PAGE 1 2 3 4 5
1 26 51 76
2 27 52 77
3 28 53 78
4 29 54 79
5 30 55 80
6 31 56 81
7 32 57 82
8 33 58 83
9 34 59 84
10 35 60 85
11 36 61 86
12 37 62 87
13 38 63 88
14 39 64 89
15 40 65 90
16 41 66 91
17 42 67 92
18 43 68 93
19 44 69 94
20 45 70 95
21 46 71 96
22 47 72 97
23 48 73 98
24 49 74 99
25 50 75 100

NOTES:
1) THIS SHEET IS A RECORD OF ALL REVISIONS TO THIS SPECIFICATION.
2) WHEN APPROVED EACH REVISION SHALL BE CONSIDERED AS A PART OF THE ORIGINAL DOCUMENT.
3) NUMBER OF PAGES EXCLUDES THIS SHEET AND THE COVER SHEET.

1
0 DECEMBER, 2017 F. FAZLI G.R. MOHSENI M.R. FARZAM M. KARGARNAJAFI
REV. DATE PREPARED CHECKED APPROVED AUTHORIZED
 DECEMBER, 2017 NIOEC-SP-70-56(0)

CONTENTS: PAGE NO.

INTRODUCTION.................................................................................................................................2
1. SCOPE .............................................................................................................................................2
2. REFERENCES................................................................................................................................2
3. UNITS ..............................................................................................................................................3
4. ABBREVIATIONS .........................................................................................................................3
5. ADDENDUM TO IOPTC INSTRUCTION MANUAL OF DESIGNING AND
INSTALLING LAN ........................................................................................................................4

1
 DECEMBER, 2017 NIOEC-SP-70-56(0)
INTRODUCTION
To satisfy the requirements of this NIOEC specification, Iranian Oil Pipelines and
Telecommunication Company Instruction Manual of Designing and Installing LAN (IOPTC (Rev.
001)) with the modifications as specified hereinafter shall be strictly followed.

1. SCOPE
This specification defines NIOEC’s minimum requirements for the design, material and construction
of Local Area Network (LAN).
Deviations from this specification will only be permitted on obtaining written approval from NIOEC.
Resolution on cases not explicitly stipulated in this Specification, or on cases where conflicts may
arise among the requirements of the referenced IOPTC (Iranian Oil Pipelines and Telecommunication
Company) Instruction Manual and the international standards, shall be made through written consent
and approval of NIOEC.

2. REFERENCES
The following standards, codes, and specifications, to the extent specified hereinafter, shall constitute
a part of this NIOEC Specification. Latest edition of the undated referenced documents and the cited
edition of the dated references shall apply. The applicability of changes made to the dated references,
after the cited date shall be mutually agreed upon between NIOEC and the Vendor /Contractor.

IEC (INTERNATIONAL ELECTRO-TECHNICAL COMMISSION)

IEC 60051 “Direct Acting Indicating Analogue Electrical Measuring
Instruments and Their Accessories”
IEC 62040 “Uninterruptible Power Systems (UPS)”
IEC 60228 “Conductors of Insulated Cables”
IEC 60947-1 “Low-Voltage Switchgear and Controlgear- Part 1: General
Rules”
IEC 60947-2 “Low-Voltage Switchgear and Controlgear- Part 2: Circuit-
Breakers”

IOPTC MAN (IRANIAN OIL PIPELINES AND TELECOMMUNICATION COMPANY

INSTRUCTION MANUAL)
IOPTC (Rev. 001) “Instruction Manual of Designing and Installing LAN”

ISO (INTERNATIONAL STANDARD ORGANISATION)

ISO9001 “Quality Management Systems- Requirements”
ISO14001 “Environmental Management Systems- Requirements with
Guidance for Use”

2
 DECEMBER, 2017 NIOEC-SP-70-56(0)
NIOEC SP (NIOEC SPECIFICATIONS)
NIOEC-SP-00-10 “Specification for Units”

TIA (TELECOMMUNICATIONS INDUSTRY ASSOCIATION)

ANSI/TIA/EIA-606-A “Administration Standard for Commercial Telecommunications
Infrastructure”
ANSI/TIA-607 “Generic Telecommunications Bonding and Grounding
(Earthing) for Customer Premises”
TIA-TSB-155 “Guidelines for the Assessment and Mitigation of Installed
Category 6 Cabling to Support 10GBASE-T”

3. UNITS
International System of Units (SI) shall be used in accordance with NIOEC-SP-00-10, unless
otherwise specified.

4. ABBREVIATIONS
ABS: American Bolt and Screw
DSL: Digital Subscriber Line
FTP: Foiled Twisted Pair
HDTDX: High Definition Time Domain Xtalk (Crosstalk)
IP: Ingress Protection
LAN: Local Area Network
LC: Lucent Connector
LSZH: Low Smoke Zero Halogen
OTRD: Optical Time Domain Reflector
PoE: Power over Ethernet
PVC: Poly Vinyl Chloride
RMS: Root Mean Square
SC: Subscriber Connector
SFTP: Shielded and Foiled Twisted Pair
SM: Single Mode
SNMP: Simple Network Management Protocol
THD: Total Harmonic Distortion
UPS: Uninterruptible Power Supply
UTP: Unshielded Twisted Pair
WAN: Wide Area Network

3
 DECEMBER, 2017 NIOEC-SP-70-56(0)
5. ADDENDUM TO IOPTC INSTRUCTION MANUAL OF DESIGNING AND
INSTALLING LAN
This addendum revises the below listed articles of the referenced document, other clauses remain
without any change.

Article 10: FIBER OPTIC PATCH PANELS (Modification)

Substitute the first sentence of second paragraph with the following sentence.
“The accepted brands of patch cord, patch panel and optical fiber pigtail are as follows or compatible
with the brand of other devices including cables.”

Article 16.9: Codes and Standards for Emergency Power Supply (Substitution)
Codes and standards for emergency power supply are listed in the following table:

Code Description
IEC 60051 Direct Acting Indicating Analogue Electrical Measuring Instruments
and Their Accessories
IEC 60947-1 Low-Voltage Switchgear and Controlgear- Part 1: General Rules
IEC 60947-2 Low-Voltage Switchgear and Controlgear- Part 2: Circuit- Breakers
IEC 60228 Conductors of Insulated Cables
IEC 62040 Uninterruptible Power Systems

Article 19.2: Fiber Optic Network Test (Modification)

Modify the first paragraph as follow:
o According to the TIA TSB-155 (Technical Service Bulletin) standard, for a fiber optic test, it is
necessary to use a device similar to the copper cable analyzer.

4
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INSTALLING LAN

Rev. (001) Page 1 of 25

Iranian Oil Pipelines and Telecommunication Company

Telecommunication Management

Instruction Manual of Designing and Installing

LAN
(Ver. 001)
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Table of Contents

1- IMPORTANCE OF THE BUILDINGS .............................................................................................................. 5

2- WORK NODE ....................................................................................................................................................... 7

3- COPPER NETWORK CABLE............................................................................................................................ 8

3-1- FTP Network Cable................................................................................................................................................ 8

3-2- SFTP Network Cable ............................................................................................................................................. 8

4- NETWORK PATCH CORDS ............................................................................................................................ 10

5- NETWORK KEYSTONE JACK ....................................................................................................................... 10

6- NETWORK OUTLET ........................................................................................................................................ 11

7- FIBER OPTIC NETWORK CABLE ................................................................................................................ 11

7-1- Outdoor Fiber Optic Cable.................................................................................................................................. 11

7-2- Indoor Fiber Optic Cable .................................................................................................................................... 11

8- FIBER OPTIC PATCH CORDS ....................................................................................................................... 12

9- PIGTAIL .............................................................................................................................................................. 12

10- FIBER OPTIC PATCH PANEL ................................................................................................................... 12

11- FIBER BOX ..................................................................................................................................................... 13

12- GALVANIZED CONDUITS ......................................................................................................................... 14

13- DUCT PIPE ..................................................................................................................................................... 15

14- CABLE TRAY FOR MOUNTING UNDER THE FALSE FLOOR .......................................................... 15

15- ELECTRICAL PANEL .................................................................................................................................. 15

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15-1- Assembly of Electrical Panel ............................................................................................................................. 15

15-2- Electrical Panel Fitting Position ........................................................................................................................ 16

16- SPECIFICATIONS AND CHARACTERISTICS OF THE UPS AND BATTERIES ............................. 16

16-1- UPS ...................................................................................................................................................................... 16

16-2- The UPS Requirements ...................................................................................................................................... 16

16-3- UPS Architecture ................................................................................................................................................ 16

16-4- Types of Consumers and UPS Power Calculations ......................................................................................... 17

16-5- Battery System Calculations .............................................................................................................................. 17

16-6- Battery Charging Method .................................................................................................................................. 17

16-7- UPS Maintenance and Management System ................................................................................................... 18

16-8- Specifications of Required UPSs ....................................................................................................................... 18

16-9- Codes and Standards for Emergency Power Supply ...................................................................................... 20

16-10- UPS Installation Procedure ............................................................................................................................. 20

17- NUMBERING AND INSTALLATION OF LABELS ................................................................................. 22

17-1- Port ...................................................................................................................................................................... 22

17-2- Patch Panel .......................................................................................................................................................... 22

17-3- Network Cable .................................................................................................................................................... 22

17-4- Rack ..................................................................................................................................................................... 22

17-5- Port ...................................................................................................................................................................... 22

17-6 Panel ...................................................................................................................................................................... 22

17-7 Manhole ................................................................................................................................................................ 22

17-8 Fiber Optic Box .................................................................................................................................................... 23

18- RACK TYPES ................................................................................................................................................. 23

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19- TEST METHODS ........................................................................................................................................... 24

19-1- Copper Networks Test ....................................................................................................................................... 24

19-2- Fiber optic Network Test ................................................................................................................................... 24

20- DOCUMENTATION ...................................................................................................................................... 24

20-1- As Built Drawings of Buildings LAN ................................................................................................................ 25

20-2- As Built Drawings of Campus LAN .................................................................................................................. 25

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1- IMPORTANCE OF THE BUILDINGS

The buildings are classified according to the importance of the use and availability of buildings as follows:
Type A: Buildings with high relevance and availability, in which the redundancy is reached as high as
possible. The connection between these buildings and network center is through fiber optics, usually with
two separate connections.
Moreover, the network center is usually located in administration/telecommunication buildings (where the
telecommunications routers are installed). Core switches are installed in these buildings. In order to install
the network servers, a separate location with the appropriate facilities (cooling system, UPS, fire fighting
system, and etc.) shall be available.

Figure 1- Type A Buildings

Type B: Buildings that take second place and in which no redundancy is considered. The connections
between these buildings and the network are made via a fiber optic link.

Figure 2- Type B Buildings

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Type C: Buildings which have telephone communications with the center and whose network
communications are DSL connections.

Figure 3- Type C Buildings

Type BW: Buildings whose connection to the network, such as type B, is via fiber optic and in which a
wireless service also is required.

Figure 4- Type BW Buildings

Type CW: Buildings whose connection to the network is such as type C and in which a wireless service also
is required.
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Figure 5- Type CW Buildings

It should be noted that the type of buildings will be determined by the district manager and
telecommunication management experts. However, a Type A link shall be established between all buildings
to connect buildings and network easily when the future use of the buildings is changed.
The following items shall be considered in projects:
 The design of the Active Network area shall be based on three layers: core, distribution and access.
 Network administrators and supervisors shall have enough information about structured cabling and
Network design concepts.

2- WORK NODE
A network node in the pipelines and the telecommunications network of The Iranian Telecommunication
Company from the perspective of the computer network is:
 Two network ports
 An UPS-powered power port Emergency power port supplied with UPS
 A public network electricity connection
 Two analogue telephone ports with the definition of telecommunication
A network outlet is displayed in Figure 6.

Figure 6- Two Ports Network Wall Outlet

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Moreover, industrial network outlets shall be used in the control buildings and near the control system
equipment (Marshall Rack). In Figure 7, a sample of these network outlets is shown.

Figure 7- Industrial Network Outlet

Each of these outlets has 2 ports for network communication. Two complete outlets (four ports in total) shall
be installed at each location. This means that four industrial ports per Marshall Rack shall be considered.
These outlets shall be industrial type and IP67 and shall be installed according to manufacturer’s
instructions.
The following items shall be considered for each work node:
 All network outlets shall be "Cat.6 FTP" in office buildings and "Cat.6SFTP" in industrial buildings.
 The height of the installation of outlets from the ground shall be based on building standards.
 Standard symbols for data network shall be used in documents.
 The location of the network nodes shall be according to the space and user layout. It should be
considered a network node per 4 square meters in work space according to the above definition.

3- COPPER NETWORK CABLE

As already mentioned, two types of copper network cables shall be used in the buildings.

3-1- FTP Network Cable

There is an aluminum foil layer under the PVC layer of this network cable. In addition, a metal wire is
pulled along the cable to compensate environmental noise (Drain Wire).This wire is the shield-connection
between two points and so the keystone in the enclosures shall be connected to the Shield keystone
according to the instructions.

3-2- SFTP Network Cable

Under the PVC layer of this cable, there are two metal layers, an aluminum foil layer and screen of tinned
copper braiding layer. In addition, a metal wire is pulled along the cable to compensate for environmental
noise (Drain Wire). This wire is the shield-connection between two points and so the keystone in the
enclosures must be connected to the Shield keystone according to the instructions.
Cat.6 FTP and Cat.6 SFTP network cables shall be one of the following brands. Otherwise, the necessary
tests shall be carried out before using cables.
 NEXANS
 R&M
 CONNECTIX
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 CAE
 AMP
 HUBBELL
 SIEMON
 Unicom
The following points shall be considered during installation of the copper network cable and Cat.6
keystones:
 Before termination the network cable, the additional cable for termination on the side of the outlet
shall be about 30 centimeters.
 On the side of the rack, the cable shall be kept sufficiently in a metal box of 40 x 60 and 20 cm
depth, which is called a service loop box.
 In order not to deteriorate the technical characteristics of the cables used, the load on the cables is
very important during installation in the conduit and shall not exceed 111 Newton (about 11 Kg). In
order to avoid the possibility of a stronger force on the cable, the following points shall be
considered:
o Conduits shall be straight as much as possible.
o More than two 90° bends in paths up to 30 meters length shall be avoided.
 For more than two bends in the path, the following shall be noted:
o The maximum length of the route shall be 10 meters.
o Conduit diameter shall be enlarged one size.
o One of the bends shall be installed 30 cm away from the cable inlet.
 The maximum conduit length without window should be 45 m.
 In order to pull several cables at the same time, a cable shall be considered as a guide cable. Connect
the two cables at a distance of 75 mm from the cable end to the guide cable; and in the same manner
and with the above spacing, all the cables divided into two categories will be connected to the guide
cable.
 To install the copper network cable, the minimum cable bending radius of 8 times the outer diameter
of the cable shall be considered.
 During the cabling, it is necessary to avoid falling cables under the feet.
 The keystone shall be sealed according to the Type-A standards.
 A PG29 Gland should be used to pass two cable strings and it is noteworthy that the PG13.5 Gland
is too small to pass two cable strings
 A minimum distance between the network cable and the conduits which contain unshielded
electrical cables shall be 10 cm.
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4- NETWORK PATCH CORDS

As mentioned in the standard, the connection between the network outlet and the network user and also
between the patch panel and the switch shall be via the patch cords. If both patch cords are selected as a
shielded type, a ground loop is generated in the system. For this reason, only one patch cord should be
shielded and the other should be the UTP type. In this regard, the installed patch cord on the patch panel
side shall be shielded and on the consumer side shall be UTP. The list of patch cords that are used is as
follows:
 1M SHIELDED CAT.6 PATCH CORD (FTP) LSZH (Using in Rack)
 2M SHIELDED CAT.6 PATCH CORD (FTP) LSZH (Using in Rack)
 2M UNSHIELDED CAT.6 PATCH CORD (UTP) LSZH (Using in Outlet)
 3M UNSHIELDED CAT.6 PATCH CORD (UTP) LSZH (Using in Outlet)
 5M UNSHIELDED CAT.6 PATCH CORD (UTP) LSZH (Using in Outlet)

5- NETWORK KEYSTONE JACK

Obviously the keystone shall be compatible with the flush mounted outlet frame installed on the wall during
the construction phase. For this reason, one suggestion is that if the French style is to be taken into account,
the keystone and the corresponding frame are selected to be able to be mounted within a framework of
45x45 mm French standard.
The keystone shall be CAT.6 shielded keystone jack for mounting in outlet or unloaded patch panels.
The approved brands for patch cord and keystone jack are either as follows or compatible with the brand of
other devices including cables.
 NEXANS
 R&M
 CONNECTIX
 CAE
 AMP
 HUBBELL
 SIEMON
 UNICOM
To install the keystone, the following points shall be considered:
 The keystones termination shell be Type A standard.
 To install the keystone, the copper cable cover shall be removed up to 50 mm.
 It is noted that the cable metal foil shall be pulled one centimeter on the cable and then connected to
the keystone metal part.
 The wires are individually inserted into the embedded junction box in the keystone and then
punched.
 The appropriate punching tool, punch 110, should be used for punching.
 Do not untwist the wires as far as possible until they reach the punch.
 Pitch of twist shall not be larger than what is manufactured during pulling
 After installing the keystone, the maximum jacket distance to termination shall be 13 mm.
 The drain wire shall be connected to the keystone shield and locked by the related bonding.
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6- NETWORK OUTLET
Network outlets shall be French style. The back box depth of network outlet shall be at least 5 centimeters.

7- FIBER OPTIC NETWORK CABLE

The following types of fiber optic network cables shall be used.

7-1- Outdoor Fiber Optic Cable

This type of cable has a corrugated steel armored layer that can be buried directly in the soil. However, in
the plant area, this cable shall be passed through the polyethylene pipes inside the trench. The following
items shall be considered for installation:
 The pulling tension shall not be greater than 350 Newton.
 The bending radius of this cable during the installation shall be at least 2 times the cable outer
diameter and, after installation, shall be less than 15 times the cable outer diameter.
 The length of cable loops in each manhole is at least 5 meters on each side and they are arranged
using the loop–cable tie hanger in the manholes.
 To install this type of cable, first a yarn shall be installed inside the conduit according to the Error!
Reference source not found..

Figure 8- Installation of the outdoor fiber optic cable

 This type of cable is terminated in two ways in the entrance of the building.
o The fiber optic cable is connected to the indoor cable in a special box.
o The cable is inserted directly into the rack and is terminated in the fiber optic patch panel.
 All fiber optic cables shall be selected SM and armored type regardless of the distance between
buildings. It is necessary to establish fiber-optic connection between the buildings and the
telecommunication center of the site (the radio room). Experts have announced the number of strings
which shall be minimum 6 strings and maximum 24 strings. The general specifications of the cables
are as follows:
 OUTDOOR SM, CENTRAL TUBE, GEL FILLED, FIBER OPTIC CABLE, 4000m PER REEL

7-2- Indoor Fiber Optic Cable

This type of cable has a LSZH cover that prevents smoke from burning during the fire. This type of cable is
used inside the building. To avoid damage caused by non-standard installation, the followings shall be
considered:
 The pulling force to install it inside the conduit shall not exceed 200 N (approximately 20 Kg).
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 The minimum bending angle for this type of cable at installation time is 15 and after installation 10
times the outer diameter of the cable.
 The yarn strings in the cable shall be used for pulling.
 The excess amount of fiber optic cable is kept in the service loop box alongside the rack.
 Use 6 to 12-strand fiber optic cables, depending on the requirements of each building.
The general specifications of the cables are as follows:
 INDOOR/OUTDOOR SM, LSZH, TB FIBER OPTIC CABLE, 2000m PER REEL
The approved brands of indoor and outdoor fiber optic cables are as follows; otherwise, the necessary tests
on the fiber shall be carried out before procurement.
 NEXANS
 R&M
 CONNECTIX
 AMP
 CAE
 SIEMON
 HUBBELL
 UNICOM

8- FIBER OPTIC PATCH CORDS

Fiber optic patch cords are used to communicate between switches and fiber optic patch panels. In addition,
the appropriate patch cord is used for communication between two switches. For this purpose, the following
three types of patch cords are proposed for the above communications:
 SC-LC 1M DUPLEX SM OPTICAL FIBER PATCH CORD
 SC-LC 2M DUPLEX SM OPTICAL FIBER PATCH CORD
 LC-LC 2M DUPLEX SM OPTICAL FIBER PATCH CORD

9- PIGTAIL
For terminating fiber optic cables in patch panels, a pigtail with the following specifications is required:
 1.5M, SC Simplex, SM, 900 Micron, Pigtail

10- FIBER OPTIC PATCH PANEL

All fiber optic cables are terminated in the fiber optic patch panels on both sides of line. Suitable cassette
shall be used in the patch panels. Depending on the number of fiber optic strands terminated in the patch
panel, this cassette can control the thermal crimp of 12 to 24 fiber optic strands. Fiber optic patch panel
specifications are as follows:
 6 SC PORTS (3 DUPLEX) SM FIBER OPTIC PATCH PANEL
 12 SC PORTS (6 DUPLEX) SM FIBER OPTIC PATCH PANEL
 24 SC PORTS (12 DUPLEX) SM FIBER OPTIC PATCH PANEL
The accepted brands of patch cord, patch panel and optical fiber pigtail are as follows:
 NEXANS
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 R&M
 CONNECTIX
 AMP
 CAE
 SIEMON
 HUBBELL
 UNICOM
The following arrangements shall be considered in the fiber optic network of the sites:
 The fiber optic connection of all buildings shall be connected to the WAN center of the site.
Obviously, this center can be a radio room, a control room or an office building. In any case, it is
necessary to foreseen the fiber optic link to connect the buildings to the WAN center to connect the
main switch and from there to the WAN.
 In order to connect the network between buildings, it is necessary to consider routes and execute
drilling, piping and installing manholes at distances of 50 m. Also, SM fiber optic cables shall be
used.

11- FIBER BOX

This box is installed at the entrance of the outdoor fiber optic cable to the building. In this box, the outdoor
fiber optic cable connects to indoor fiber optic cable. A typical optical fiber box is shown in the Figure 9.

Figure 9- Fiber Box

These boxes are installed as follows:
 This box has two separate physical parts.
 At the entrance, the outdoor cables come into the box after they have passed the gland and after
fixing at the entrance of the box, the cover is removed.
 After removing the cover, the tube containing the fibers is directed to the fiber optic cassette. This
shall be done taking into account the minimum bending radius.
 The tubes are attached to a fusion cassette and, after retention; their tubes are removed at a distance
of about 2 meters and prepared for the fusion process.
 This box will be installed on the wall with a suitable screw, washer and plug. The height of the
bottom level of the box from the ground is about 130cm.
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12- GALVANIZED CONDUITS

Galvanized conduits (Intermediate Metal Conduit) which are available in 3 meter branches are connected to
each other via coupling. A typical galvanized conduit is shown in Figure 10.

Figure 10- Galvanized Conduit

The following items shall be considered in installation of these conduits:
 To pull the cables, in every 20 meters of installed conduit, a metal junction box shall be installed. It
shall be noted that for the connection of the conduit with this box, the corresponding glands shall be
used so that there is no gap between the conduit head and the box.
 If the installer is forced to make the conduit short during installation, the end of conduit shall be
threaded. Therefore, new threads shall be created as standard when connecting the two conduits.
 For the installation of these conduits on the wall, double base brackets which used to attach gas pipes
to the wall with screw and plug shall be used.
 In situations where a part of the wall that comes into the path, makes the installation of conduits
difficult, the conduits can be bent very precisely.
 Where the conduit route is changed, bends with door shall be used.
 Where several conduits are installed close together, they shall be installed in a straight line and
parallel to each other.
 The number of cables per conduit shall be according to the following Table.
Inside Trade Cable Outside Diameter
Diameter Size mm (in)
(mm)
16 1/2 1 1 0 0 0 0 0 0
21 ¾ 6 5 4 3 2 2 1 0
27 1 8 8 7 6 3 3 2 1
35 1-1/4 16 14 12 10 6 4 3 1
41 1-1/2 20 18 16 15 7 6 4 2
53 2 30 26 22 20 14 12 7 4
63 2-1/2 45 40 36 30 17 14 12 6
78 3 70 60 50 40 20 20 17 7
91 3-1/2 - - - - - - 22 12
103 4 - - - - - - 30 14
 The following table shows the minimum bending radius for conduits.
If The Conduit Has An Internal Diameter of The Bend Radius Must Be At Least
50 mm (2 in) or less 6 times the internal conduit diameter.
More than 50 mm (2 in) 10 times the internal conduit diameter.
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13- DUCT PIPE

Duct pipes shall be coated and connected to the box or other parts with a gland which is suitable for the duct
pipe size. For this purpose, the box shall be drilled as much as the size of gland’s thread. Excessive pulling
of the duct pipe shall be avoided. A typical duct pipe is shown in Figure 11.

Figure 11- Duct Pipe

14- CABLE TRAY FOR MOUNTING UNDER THE FALSE FLOOR

In some cases, where the false floor is installed in the buildings, a cable tray could be used to lay the cables.
These trays are placed on metal supports which are mounted on the floor with the screw and plug. The
cables in these trays should be categorized in 6 cables groups. Each group shall be bonded to the tray with
straps. All groups shall be laid parallel. LAN tray shall be separated from power trays. Examples of these
trays are shown in Figure 12.

Figure 12- Cable Tray View under False Floor

15- ELECTRICAL PANEL

15-1- Assembly of Electrical Panel

Due to the importance of electrical panels for the control and protection of electrical equipment, many
points shall be taken into account during construction and installation of the electrical panel.
In addition, the relevant standards such as Tavanir low-voltage electrical panels’ standard and NIOC
specifications shall be used as far as possible. Due to the geographical diversity of the site, these panels are
located under almost all climatic conditions and shall consider all these aspects during installation and
termination. The protection level or IP protection level provided for the panels should be determined in
accordance with the recommendations of the consultant electrical engineer. Regarding the above problems,
the following points shall be considered:
 Using Taiwan wire shoes according to the size of the wire.
 Numbering the cables and wires according to the supplied map.
 Using the suitable duct for the cables entry.
 Considering the earthing system and its proper installation.
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 All wires and cables shall be connected to the earth shin as a star (TNS system).
 The earth of all devices connected to the UPS shall be independent from the UPS earth and shall be
connected directly to the earth shin.

15-2- Electrical Panel Fitting Position

The following points shall be considered for installation of an electrical panel:
 It shall be installed at a height of 130 cm from the ground.
 It shall be as far away as possible from the window.
 The maximum distance from the racks shall be 3 meters.
 All input and output cables and wires of the panel shall be concealed or installed in the appropriate
ducts.
 Suitable glands shall be used at the entrance of the cables to the panel.

16- SPECIFICATIONS AND CHARACTERISTICS OF THE UPS AND BATTERIES

16-1- UPS
The following terms are defined related to the UPS.
Computer equipment: equipment such as all types of computers, printers and scanners
Switch: Types of network switches that include non-PoE switches and PoE switches.
Node: Each node contains one power outlet and two network outlets and hereafter, the node refers to the
term "power outlet."
Network node: Each network node is equivalent to a two-port network outlet.
Active node: Consumers connected to the power grid and consuming energy.

16-2- The UPS Requirements

The UPS for the LAN network shall be specified as follows:
 The UPS shall support the switches at least two hours in Type B buildings (non-operational
buildings).
 The UPS shall support the switches at least four hours in Type A buildings (operational buildings
such as central building, control room and telecommunication administration buildings).
 The UPS shall support computer equipment for 15 minutes.
 The UPS shall have reliability of 99.999%.
 The efficiency of the UPS shall be more than 90%.
 All UPS and batteries shall have at least 3 years’ unconditional warranty and 10 year after sales
service.

16-3- UPS Architecture

The architecture of the UPS system for the LAN network of the Iranian Oil Pipelines and
Telecommunication Company shall be submitted as a part of the technical documentation.
UPS system architecture for the LAN shall be issued and submitted as a technical document. The following
shall be considered in the design:
 Calculation of power consumption and consumers type
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 Battery system and how to charge it
 UPS maintenance and management system
All of above items, along with the relevant calculations, shall be submitted in the consultant's plan. In
addition, the power consumption must be calculated and specified in a separate list for each rack, building
and station.

16-4- Types of Consumers and UPS Power Calculations

All consumers are of the type of digital equipment and are listed below:
 Computer equipment
 Switches
Due to different consumers and the importance of such devices, UPSs shall have a galvanic isolation at their
output. The UPS required power shall be calculated as follows:
 The power consumption of each network node shall be considered 500W.
 At least 50% of the nodes in each building shall be considered as active nodes.
 The power consumption of the switches is calculated based on the number of active ports.
 In the buildings with less than 6 active nodes, a UPS shall be used to power all electrical equipment
and switches. Depending on the building type and the number of switches, the size of a battery is
calculated.
 All calculations made to determine the power consumption of each building and the building
specifications shall be included in the consultant's plan.

16-5- Battery System Calculations

Due to the importance of consumers (especially switches), there will be a need for a relatively high support
time by the battery system (at least two hours for type B buildings and four hours for type A buildings). The
following requirements shall be fulfilled:
 12-Volt batteries shall be used.
 For a given characteristic of the battery manufacturer at full load, the required ampere-hour of
batteries shall be calculated regarding the manufacturer`s characteristic curve at full load.
 All calculations made to determine the required ampere-hour for each building, along with building
specifications, shall be included in the proposal.

16-6- Battery Charging Method

Due to the high ampere-hour demand, a lot of current is required to charge these batteries. Providing such a
high current can damage the internal parts of the UPS. The use of an external charger also makes the UPS’s
controller -lose the control of the battery's charge state, thus techniques for improving the battery life cannot
be used. Therefore, it is necessary to use a UPS capability of generating a high charging current.
Regarding the charger and the UPS, the following shall be considered:
 The charging current of the UPS shall be designed so that the batteries can be fully charged in less
than 12 hours.
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 Internal UPS components such as boosters and inverters, etc., shall not generate excessive heat and
can withstand the maximum charging current until the battery is fully charged and shall not be
damaged.
 For all UPSs, the minimum power of the charger float charging voltage, shall be more than 20% of
the apparent output power of the UPS (For each 1 kVA, the charging current is 4 amperes).
 In a typical administration environment (20 to 25 ° C), the life time of the UPS and batteries shall be
at least 10 years.

16-7- UPS Maintenance and Management System

Because of the number of UPS required and its distribution in the country, as well as the importance of
consumers, their maintenance and administration and the performance information availability in every time
are very important. So the proposed plan shall therefore provide a comprehensive report on the guarantee
provisions, the repair and maintenance system and the UPS management system. For this purpose, all UPS
devices should be produced by one manufacturer, and shall have an RS232 interface and the SNMP card
shall be able to be installed on them either internally or externally so that the corresponding central
management system could be able to monitor the status of the UPSs. In addition, a suitable solution for this
purpose shall be offered in the proposed plan.

16-8- Specifications of Required UPSs

The technical specifications of the UPS shall be checked and defined by electrical engineering and
instrumentation discipline. The minimum parameters to be determined shall be as following table:
CONSTRUCTION
MODEL RATING W/VA
DIMENSION W*D*H(APPROX.) mm
WEIGHT WITHOUT BATTERY (APPROX.) Kg
ENVIRONMENTAL
STORAGE TEMPERATURE Degree(Celsius)
OPERATING TEMPERATURE Degree (Celsius)
ALTITUDE m
RELATIVE HUMIDITY %
DEGREE OF PROTECTION IP
NORMAL MODE ACOUSTIC NOISE AT 1 M dba
STORED ENERGY MODE ACOUSTIC NOISE AT 1 M dba
ELECTRICAL INPUT CHARACTERISTICS
RATED INPUT VOLTAGE V
RATED INPUT FREQUENCY Hz
RATED INPUT CURRENT A r.m.s
MAXIMUM CONTINUOUS INPUT CURRENT (WORST-CASE) A r.m.s
INPUT CURRENT DISTORTION AT RATED INPUT CURRENT % THD
INPUT POWER FACTOR
NUMBER OF INPUT PHASES phase(s)
OUTPUT WAVEFORM
NORMAL MODE WAVEFORM
STORED ENERGY MODE WAVEFORM
TRANSFER-NORMAL MODE/STORED ENERGY
ELECTRICAL OUTPUT CHARACTERISTICS - STATIC CHARACTERISTICS - NORMAL MODE
RATED OUTPUT VOLTAGE V r.m.s
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OUTPUT VOLTAGE VARIATION (+/-) V r.m.s
NOMINAL OUTPUT FREQUENCY Hz
SYNCHRONIZED OUTPUT FREQUENCY VARIATION Hz
SYNCHRONIZED INPUT TO OUTPUT PHASE ERROR Degrees
RATED OUTPUT APPARENT POWER VA
LINEAR LOAD RATED ACTIVE POWER W
NON LINEAR LOAD RATED ACTIVE POWER W
LINEAR LOAD TOTAL VOLTAGE DISTORTION % THD
NON LINEAR LOAD TOTAL VOLTAGE DISTORTION % THD
OUTPUT SHORT-CIRCUIT CURRENT CAPABILITY %
STARTING OVERLOAD CAPABILITY %
30 SECEND OVERLOAD CAPABILITY %
RANGE OF LOAD POWER FACTOR PERMITTED
NUMBER OF OUTPUT PHASES phase(s)
ELECTRICAL OUTPUT CHARACTERISTICS - DYNAMIC CHARACTERISTICS - NORMAL MODE
MODE CHANGES DYNAMIC OUTPOT VOLTAGE VARIATION %
LOAD CHANGES DYNAMIC OUTPOT VOLTAGE VARIATION %
ELECTRICAL OUTPUT CHARACTERISTICS - STATIC CHARACTERISTICS - STORD ENERGY
MODE
RATED OUTPUT VOLTAGE V r.m.s
OUTPOUT VOLTAGE VARIATION (+/-) V r.m.s
RATED PEAK OUTPUT VOLTAGE V r.m.s
RATED PEAK OUTPUT VOLTAGE VARIATION V r.m.s
OUTPUT FEREQUENCY Hz
OUTPUT FEREQUENCY VARIATION (FREE RUNING) Hz
RATED OUTPUT APPARENT POWER VA
LINEAR LOAD RATED ACTIVE POWER W
NON LINEAR LOAD RATED ACTIVE POWER W
LINEAR LOAD TOTAL VOLTAGE DISTORTION % THD
NON LINEAR LOAD TOTAL VOLTAGE DISTORTION % THD
OUTPUT SHORT-CIRCUIT CURRENT CAPABILITY %
STARTING OVERLOAD CAPABILITY %
30 SECEND OVERLOAD CAPABILITY %
RANGE OF LOAD POWER FACTOR PERMITTED
ELECTRICAL OUTPUT CHARACTERISTICS - DYNAMIC CHARACTERISTICS - STORD ENERGY
MODE
MODE CHANGES DYNAMIC OUTPOT VOLTAGE VARIATION %
LOAD CHANGES DYNAMIC OUTPOT VOLTAGE VARIATION %
EFFICIENCY
EFFICIENCY INPUT/OUTPUT %
SYNCHRONIZATION
ACCEPTABLE VOLTAGE DEFERENCE %
RANGE OF FREQUENCY SYNCHRONIZATION Hz
MAXIMUM PHASE ERROR Degrees
STORED ENERGY MODE OF OPERATION
RATED LOAD MAXIMUM PERMITTED BACKUP TIME Min
BATTERY RECHARGE CHARACTERISTICS
CHARGING PROFILE
MAXIMUM CHARGING CURRENT A
AUTOMATIC BYPASS CHARACTERISTICS
CONTINUES CURRENT A
TRANSFER PROFILE
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CIRCUIT-BREAKER CURRENT RATING A
MANUAL BYPASS CHARACTERISTICS
CONTINUES CURRENT A
DELAY TIME
GALVANICE ISOLATION
GALVANICE
ELECTROMAGNETIC COMPATIBILITY
IMMUNITY & EMISSION
PROTECTIONS
BATTERY CONNECTION INRUSH CURRENT
BATTERY OVER / UNDER VOLTAGE
BATTERY REVERSE POLARITY
BATTERY DISCONNECTION
OUTPUT SHORT CIRCUIT
UPS TRANSFORMER AND POWERS OVERHEAT PROTECTION
EARTH FAULT
CHARGER SHORT CIRCUIT PROTECTION
SNMP MANAGEMENT CAPABILITY

16-9- Codes and Standards for Emergency Power Supply

Codes and standards for emergency power supply are listed in the following table:

Code Description
IEC 51 Recommendations for Direct Acting Indicating Electrical
Measuring Instruments and Their Accessories
IEC 144 Degree of Protection of Enclosures for Low Voltage Switchgear
and Control gear
IEC 157-1 Low Voltage Switchgear and Control Gear
IEC 60228 Conductors of Insulated Cables
IEC 62040 Uninterruptible Power Systems (UPS)

16-10- UPS Installation Procedure

When installing and starting the UPS, the following points shall be noted:
 Using UPS with above specified specifications.
 It is necessary that the UPS be installed in a fully horizontal position so that the mechanical strength
of the installation location and impossibility of its falling are ensured.
 If the UPS is installed in a location with transferable moisture from the ground (for example, in the
northern or southern regions of the country), it shall be installed at least 30 cm above the ground
(with a base).
 The physical operation of the installation (circuit boards, batteries, UPS and connections) should be
checked.
 The UPS input voltages shall be checked.
 Cables with suitable cross sectional area and quality shall be used at the inputs and outputs of the
UPS as shown in the drawings.
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 The earth cable shall be connected to the UPS device.
 Earth resistance shall be tested and it shall not exceed 2 ohms. Design and installation of
telecommunication grounding shall be according TIA-607.
 Suitable batteries shall be used in accordance with ISO9001 and ISO14001 standards.
 The battery pack shall be installed through battery terminals and stranded copper cables.
 The correct connections of the followings shall be checked:
o DC output of the rectifier (UPS DC links)
o The connection of the battery cables to the UPS input
o Investigation of connections strength of terminals, battery connectors, input and output terminals,
batteries and electrical panels
o Commissioning of the system (UPS and battery) without any output connection
o The output voltages shall be checked when the output switch is correctly connected.
o Checking the output voltages on the distribution panel and the neutral connection to the power
outlet and distribution panel. It shall be ensured that there are no two-phase on loads.
o Installation of battery circuit breaker for external batteries
o Checking the battery voltage during normal operation
o Checking the battery voltage during charging and the discharge current
o The state of health of all batteries shall be measured and relevant connections shall be checked to
ensure their accuracy.
Note: Before performing a two-phase test, it shall be ensured that no load is connected to the output of
the UPS panel to avoid the damages due to the two phases in the load outlets.
o The output switches shall be connected to the consumers and the voltage at various consumer
points shall be checked.
o The UPS software shall be installed and the charge current and the time it takes to cut off the
outputs when power is interrupted shall be set. The charge current shall be adjusted based on the
amp hours of the batteries. In buildings with one UPS, the outputs have different priorities, and
in the event of a power failure, the lower priority outputs turn off after 15 minutes. It is noted
that the network switch output has a higher priority.
o It shall be ensured that the UPS and the batteries work properly without connecting the loads
(bypass test, input power on and off, etc.).
o It shall be ensured that the UPS and the batteries work properly after connecting the loads
(bypass test, input power on and off, etc.).
o Finally, the UPS and battery rooms should be managed and cleaned up.
o Training including UPS software, UPS system and battery shall be considered.
o Completing the above steps shall be recorded and the values of the electrical parameters
including the voltage of the lines, the neutral and earth voltage, the current and their frequency at
the input and output of the UPS and the batteries shall be stated.
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17- NUMBERING AND INSTALLATION OF LABELS

The numbering shall conform to the latest version of the ANSI/TIA/EIA-606-A standard and the approval
of client. In this regard, three levels of network element labeling are considered.

17-1- Port
The following formulas are used to specify the network nodes in the wall outputs:
 {XDxx Data Patch panel}
 {(X+1)Txx Telephone Patch Panel}
 In this formula, X is the patch panel number. Since the data and telephone patch panels are installed
alternate (every other) in the rack, it is noted that the data patch panel number is always odd and the
phone patch panel number is always even. xx is the patch panel port number, which is always
between 1 and 24.

17-2- Patch Panel

To specify the patch panel in the rack, X shall be installed on it as the patch panel number. The port
number Dxx or Txx for the data or the telephone shall be written on the ports of the patch panel,
respectively.

17-3- Network Cable

The network cable, including copper and fiber, shall be numbered at two ends with the same port number.
Installed numbers shall be suitable for environmental conditions and shall be visible and readable for long
time.

17-4- Rack
The ASBFN formula is used to specify the rack. In this formula A is the area, S is the station code, B is the
building number, F is floor number and N is rack number.

17-5- Port
The XPFx formula is used to determine the output port of the UPS. In this formula, X is the number of the
main panel, P is the number of the secondary panel, F is the corresponding fuse number, and x is the node
number which is generally of 5 digits.

17-6 Panel
The ASBFXP formula is used to identify the panel. In this formula, A is the area, S is the station code, B is
the building number, F is floor number, X is the main panel number and P is the secondary panel number.

17-7 Manhole
The formula ASB1B2xx is used to identify manholes in the site. In this formula, A is the area, S is the
station code, B1 is the source building, B2 is the destination building, x is the manhole number, and x is the
total number of manholes.
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17-8 Fiber Optic Box

The formula ASB is used to code fiber optic boxes. In this formula, A is the area, S is the station code, and
B is the building number.

18- RACK TYPES

In buildings which have fewer than 15 network nodes, 27U or 28U racks with a depth of 60 cm shall be
used. For buildings with more than 15 nodes, a 40U rack with a depth of 80 cm shall be used.
General specifications of the racks are as follows:
 19 inches standard, the width of the racks is 60 centimeters.
 The body of the rack shall be metal and has a front door, a metal frame and a scratch-resistant glass.
 Three expandable panels on the other 3 sides, with the air ventilation system, with the ability to lock
from the inside.
 Electrostatic powder paint.
 4 adapters or movable vertical rails (two in the front and two in the back of the rack).
 The ability to ground the enclosure.
 With an intelligent circuit (Intelligent system facilities include: simultaneous display of temperature
and humidity, possibility to communicate with the computer through control software, keeping the
temperature inside the rack within a specified range by intelligent circuit or computer, a thermostat
for fan and possibility to control the fan function).
 Output equipped with earth.
 Installation of two high-quality fans on the ceiling.
 Possibility to replace the fans from above without opening the other equipments inside the rack.
 Having a changeable filter on the floor of the rack.
 Controlling and reducing the sound of fans.
 Use of the filter for fans.
 The possibility of cable entry from the ceiling and the floor.
 Rittal design High-quality locks for the front door.
 Possibility to easily open the rear and side doors.
 The existence of 4 wheels for the limited displacement of the rack and the possibility of replacing
them with adjustable legs.
 For 27U, 28U and 40U racks, one, one and two packages of bolts and nuts respectively shall be
provided (50 ABS bolt sets with related nuts and washers in each package).
It is also necessary to equip and install the following equipment in the racks:
 Tray with a depth of 20 cm to arrange the cables behind the patch panels (separate trays for each
patch panel).
 Tray with possibility of installation in four points for 60 cm depth rack for UPS installation (one).
 Tray with possibility of installation in four points for 80 cm depth rack for UPS installation (one).
 Cable holder for mounting in rack width with at least 5 hooks (in the total number of patch panels
and switches).
 1 U Blank Panel that has the same color with the rack to cover all empty spaces in the rack.
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 One power terminal with eight standard outlet that can be installed in a 19" rack with the following
specifications:
o 1 to 2 units
o 8 earthed socket outlets
o Possibility of easy installation of plugs
o High quality outlets
o 3m cable
o having status lights without switch

19- TEST METHODS

In the computer network projects, copper and fiber optic cables are installed which shall be tested after
installation. The structure and the test method shall be as follow.

19-1- Copper Networks Test

o Cable analyzer such as Fluke DTX-1800 will be used to test the copper ports according to the
standard.
o The test method should be based on the copper cable standard and supervised by a Third party.
o Permanent Link test method shall be done for all nodes.
o It should be noted that due to the use of a shielded cable, shield type shall be selected in the test
equipment to check the link between the two points.
o The HDTDX option shall be enabled for all tests, including Pass and Fail test, in the cable analyzer.
o If the test result is Fail, the tester should be used to identify and correct the problem.
o Setting relating to The Head Room size in the tester should be set to NEXT.
o It is obvious that the Head Room above the lowest standard level is an indication of the proper
performance of the contractor.

19-2- Fiber optic Network Test

o According to the TSB-155 (Technical Service Bulletin) standard, for a fiber optic test, it is necessary
to use a device similar to the copper cable analyzer.
o By connecting fiber optic modules to this device, fiber optic links can be tested in a standardized
manner based on the number of fusions and connectors on the pass.
o It is recommended to use the Power Meter to test the fiber optic links.
o If the test supervisor rejects the fiber optic base on the amount of loss which the tester detects, the
points which have caused high loss shall be indentified with a professional optical time domain
reflector (OTRD).

20- DOCUMENTATION
Documentation shall be based on the ANSI/TIA/EIA-606-A standard and the preparation of reports based
on the specifications of Division 17, which are included in the design documentation.
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20-1- As Built Drawings of Buildings LAN

Buildings LAN As Built drawings shall include:
o Trench and conduit routes
o Data and UPS power cable routes
o The final layout of the installed ports
o Rack position
o Schematic diagram of the installed patch panels in the rack
o Electrical panel position
o Electrical panel termination diagrams
o The position of the wall mounted fiber optic boxes

20-2- As Built Drawings of Campus LAN

Campus LAN As Built drawings include:
o Conduit routs
o Number and size of conduits in each route
o Location of existing or constructed manholes in the outdoors
o segregation of existing and constructed trenches
o Outdoor cable routs
Finally, it should be noted that the expert comments of telecommunications and instrumentation personnel
shall be used when needed.
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
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‫‪ -3‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻣﺴﻲ ‪8..............................................................................................................................................................................‬‬
‫‪-3-1‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ ‪8 ......................................................................................................................................................................... FTP‬‬
‫‪-3-2‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ ‪8 ..................................................................................................................................................................... SFTP‬‬
‫‪ -4‬ﭘﭻ ﻛﻮﺭﺩﻫﺎﻱ ﺷﺒﻜﻪ ‪10 .......................................................................................................................................................................‬‬
‫‪ -5‬ﻛﻴﺴﺘﻮﻥ ﺟﻚ ﺷﺒﻜﻪ ‪10 .....................................................................................................................................................................‬‬
‫‪ -6‬ﭘﺮﻳﺰ ﺷﺒﻜﻪ‪11................................................................................................................................................................................ .......‬‬
‫‪ -7‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻓﻴﺒﺮﻧﻮﺭﻱ ‪12 ...................................................................................................................................................................‬‬
‫‪ -7-1‬ﻛﺎﺑﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ ‪12................................................................................................................................................... Outdoor‬‬
‫‪ -7-2‬ﻛﺎﺑﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ ‪13........................................................................................................................................................Indoor‬‬
‫‪ -8‬ﭘﭻ ﻛﻮﺭﺩﻫﺎﻱ ﻓﻴﺒﺮ ﻧﻮﺭﻱ‪14...............................................................................................................................................................‬‬
‫‪ -9‬ﭘﻴﮕﺘﻴﻞ‪14................................................................................................................................................................................. ...........‬‬
‫‪ -10‬ﭘﭻ ﭘﻨﻞ ﻫﺎﻱ ﻓﻴﺒﺮ ﻧﻮﺭﻱ ‪14............................................................................................................................................................‬‬
‫‪ -11‬ﺟﻌﺒﻪ ﺩﻳﻮﺍﺭﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ‪15 .................................................................................................................................. Fiber Box‬‬
‫‪-12‬ﻟﻮﻟﻪ ﻫﺎﻱ ﮔﺎﻟﻮﺍﻧﻴﺰﻩ ‪17 ........................................................................................................................................................................‬‬
‫‪ -13‬ﻟﻮﻟﻪ ﺧﺮﻃﻮﻣﻲ ‪19..............................................................................................................................................................................‬‬
‫‪ -14‬ﺳﻴﻨﻲ ﻛﺎﺑﻞ ﺑﺮﺍﻱ ﻧﺼﺐ ﺩﺭ ﺯﻳﺮ ﻛﻒ ﻛﺎﺫﺏ ‪19............................................................................................................................‬‬
‫‪ -15‬ﺗﺎﺑﻠﻮ ﺑﺮﻕ ‪20‬‬
‫‪ -15-1‬ﻣﻮﻧﺘﺎژ ﺗﺎﺑﻠﻮ ﺑﺮﻕ ‪20 ......................................................................................................................................................................‬‬
‫‪ -15-2‬ﻣﺤﻞ ﻧﺼﺐ ﺗﺎﺑﻠﻮ ﺑﺮﻕ ‪20............................................................................................................................................................‬‬
‫‪ -16‬ﻣﺸﺨﺼﺎﺕ ﻭ ﺷﺮﺍﻳﻂ ‪ UPS‬ﻭ ﺑﺎﺗﺮﻱ ﻫﺎ ‪21 ..................................................................................................................................‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 3‬ﺍﺯ ‪36‬‬

‫‪ -1-16‬ﺗﻌﺎﺭﻳﻒ ﺑﺨﺶ ‪21............................................................................................................................................................. UPS‬‬

‫ﻧﻴﺎﺯﻣﻨﺪﻱﻫﺎﻱ ‪21............................................................................................................................................................ UPS‬‬
‫‌‬ ‫‪-2-16‬‬
‫‪ -3-16‬ﻣﻌﻤﺎﺭﻱ ‪22 ....................................................................................................................................................................... UPS‬‬
‫ﻛﻨﻨﺪﻩﻫﺎ ﻭ ﻣﺤﺎﺳﺒﺎﺕ ﺗﻮﺍﻥ ‪22.................................................................................................................. UPS‬‬
‫‌‬ ‫‪ -4-16‬ﻧﻮﻉ ﻣﺼﺮﻑ‌‬
‫‪ -5-16‬ﻣﺤﺎﺳﺒﺎﺕ ﺳﻴﺴﺘﻢ ﺑﺎﺗﺮﻱ ‪23......................................................................................................................................................‬‬
‫‪ -6-16‬ﻧﺤﻮﺓ ﺷﺎﺭژ ﺑﺎﺗﺮﻱ‌ﻫﺎ ‪23................................................................................................................................................................‬‬
‫‪ -7-16‬ﺳﻴﺴﺘﻢ ﻧﮕﻬﺪﺍﺭﻱ ﻭ ﻣﺪﻳﺮﻳﺖ ‪24 .................................................................................................................................. UPS‬‬
‫‪ -8-16‬ﻣﺸﺨﺼﺎﺕ ‪UPS‬ﻫﺎﻱ ﻣﻮﺭﺩ ﻧﻴﺎﺯ ‪24 .........................................................................................................................................‬‬
‫‪16-9‬ﻛﺪﻫﺎ ﻭ ﺍﺳﺘﺎﻧﺪﺍﺭﺩﻫﺎﻱ ﻣﺮﺑﻮﻁ ﺑﻪ ﺑﺨﺶ ﺑﺮﻕ ﺍﺿﻄﺮﺍﺭﻱ ‪29 .....................................................................................................‬‬
‫ﺭﻭﻳﻪﻫﺎﻱ ﻧﺼﺐ ‪29........................................................................................................................................................ UPS‬‬
‫‌‬ ‫‪-10-16‬‬
‫‪ -17‬ﺷﻤﺎﺭﻩ ﮔﺬﺍﺭﻱ ﻭ ﻧﺼﺐ ﻟﻴﺒﻞ ﻫﺎ ‪31................................................................................................................................................‬‬
‫‪ -17-1‬ﭘﻮﺭﺕ ‪31............................................................................................................................................................................... ......:‬‬
‫‪ -17-2‬ﭘﭻ ﭘﻨﻞ‪31 ............................................................................................................................................................................. ......:‬‬
‫‪ -17-3‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ‪31 ............................................................................................................................................................................ :‬‬
‫‪-17-4‬ﺭﻙ‪31 .....:‬‬
‫‪ -17-5‬ﭘﻮﺭﺕ‪32................................................................................................................................................................................. ......:‬‬
‫‪ -17-6‬ﺗﺎﺑﻠﻮ‪32........................................................................................................................................................................................ :‬‬
‫‪ -17-7‬ﺣﻮﺿﭽﻪ‪32.................................................................................................................................................................................. :‬‬
‫‪ -17-8‬ﺟﻌﺒﻪ ﻓﻴﺒﺮﻧﻮﺭﻱ‪32 .................................................................................................................................................................... :‬‬
‫‪ -18‬ﺍﻧﻮﺍﻉ ﺭﻛﻬﺎ ‪32.....................................................................................................................................................................................‬‬
‫‪ -19‬ﺭﻭﺵ ﻫﺎﻱ ﺗﺴﺖ ‪34 .........................................................................................................................................................................‬‬
‫‪ -19-1‬ﺗﺴﺖ ﺷﺒﻜﻪ ﻫﺎﻱ ﻣﺴﻲ‪34....................................................................................................................................................... :‬‬
‫‪ -19-2‬ﺗﺴﺖ ﺷﺒﻜﻪ ﻓﻴﺒﺮﻧﻮﺭﻱ‪35.........................................................................................................................................................:‬‬
‫‪ -20‬ﻣﺴﺘﻨﺪ ﺳﺎﺯﻱ‪35...............................................................................................................................................................................‬‬
‫‪ -20-1‬ﻧﻘﺸﻪ ﻫﺎﻱ ﭼﻮﻥ ﺳﺎﺧﺖ )‪ (As Built‬ﺩﺍﺧﻞ ﺳﺎﺧﺘﻤﺎﻥ )‪ (Buildings LAN‬ﺷﺎﻣﻞ‪35 ..................................... :‬‬
‫‪ -20-2‬ﻧﻘﺸﻪ ﻫﺎﻱ ﭼﻮﻥ ﺳﺎﺧﺖ )‪(As build‬ﻣﺤﻮﻃﻪ )‪ (Campus LAN‬ﺷﺎﻣﻞ‪36.......................................................... :‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 4‬ﺍﺯ ‪36‬‬

‫ﻫﺎ‬
‫‪- 1‬ﺍﻫﻤﻴﺖ ﺳﺎﺧﺘﻤﺎﻥ ‪:‬‬
‫ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻳﻲ ﻛﻪ ﺩﺭﺍﻳﻦ ﭘﺮﻭژﻩ ﺷﺒﻜﻪ ﻣﻲ ﺷﻮﻧﺪ‪،‬ﺑﺮﺍﺳﺎﺱ ﺍﻫﻤﻴﺖ ﻛﺎﺭﺑﺮﻱ ﻭﻣﻴﺰﺍﻥ ﺩﺳﺘﺮﺱ ﭘﺬﻳﺮﻱ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎ ﺑﻪ ﺷﺮﺡ ﺯﻳﺮ ﺩﺳﺘﻪ ﺑﻨﺪﻱ‬
‫ﺍﻧﺪ‬
‫ﺷﺪﻩ ‪:‬‬
‫ﺗﻴﭗ ‪ :A‬ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻳﻲ ﺑﺎ ﺍﻫﻤﻴﺖ ﻛﺎﺭﺑﺮﻱ ﻭ ﻣﻴﺰﺍﻥ ﺩﺳﺘﺮﺱ ﭘﺬﻳﺮﻱ ﺑﺎﻻ ﻛﻪ ﺩﺭﺁﻧﻬﺎ ﺍﻓﺰﻭﻧﮕﻲ ﺩﺭ ﺑﺎﻻﺗﺮﻳﻦ ﺣﺪ ﻣﻤﻜﻦ ﺭﻋﺎﻳﺖ ﮔﺮﺩﻳﺪﻩ ‪.‬ﺍﺳﺖ‬
‫ﻣﻲ ﺷﻮﺩ‬‫ﺍﺭﺗﺒﺎﻁ ﺍﻳﻦ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎ ﺑﺎ ﻣﺮﻛﺰ ﺷﺒﻜﻪ‪ ،‬ﺑﻮﺳﻴﻠﺔ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻭ ﻋﻤﻮﻣﺎً ﺑﺎ ﺩﻭ ﻟﻴﻨﻚ ﻣﺠﺰﺍ ﺑﺮﻗﺮﺍﺭ ‪.‬‬
‫ﻻﺯﻡ ﺑﻪ ﺫﻛﺮ ﺍﺳﺖ ﻣﺮﻛﺰ ﺷﺒﻜﻪ ﻣﻌﻤﻮﻻ ﺩﺭ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻱ ﺍﺩﺍﺭﻱ‪/‬ﻣﺨﺎﺑﺮﺍﺕ)ﻣﺤﻠﻲ ﻛﻪ ﺭﻭﺗﺮﻫﺎﻱ ﻣﺨﺎﺑﺮﺍﺕ ﻧﺼﺐ ﻣﻲ ﮔﺮﺩﺩ( ﺧﻮﺍﻫﺪ ﺑﻮﺩ ﻛﻪ‬
‫ﺳﻮﻳﻴﭻ ﻫﺎﻱ ‪ CORE‬ﺩﺭ ﺍﻳﻦ ﻣﺤﻞ ﻧﺼﺐ ﺧﻮﺍﻫﺪ ﮔﺮﺩﻳﺪ ﻭ ﺑﻪ ﻣﻨﻄﻮﺭ ﻧﺼﺐ ﺳﺮﻭﺭ ﻫﺎﻱ ﺷﺒﻜﻪ ﻣﻲ ﺑﺎﻳﺴﺖ ﻣﺤﻠﻲ ﺟﺪﺍﮔﺎﻧﻪ ﺑﺎ ﺍﻣﻜﺎﻧﺎﺕ‬
‫ﺷﻮﺩ‬
‫ﻣﻨﺎﺳﺐ)ﺳﻴﺴﺘﻢ ﺳﺮﻣﺎﻳﺶ ‪، UPS،‬ﺳﻴﺴﺘﻢ ﺍﻃﻔﺎﻱ ﺣﺮﻳﻖ ﻭ‪(...‬ﺩﺭ ﻧﻈﺮ ﮔﺮﻓﺘﻪ ‪.‬‬

‫ﺍﺭﺗﺒﺎﻁ ﺍﻳﻦ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎ‬

‫ﺗﻴﭗ ‪ :B‬ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻳﻲ ﻛﻪ ﺍﺯﻟﺤﺎﻅ ﺍﻫﻤﻴﺖ ﺩﺭ ﺩﺭﺟﻪ ﺩﻭﻡ ﻗﺮﺍﺭﻣﻲ ﮔﻴﺮﻧﺪ ﻭ ﺩﺭﺁﻧﻬﺎ ﺍﻓﺰﻭﻧﮕﻲ ﭘﻴﺶ ﺑﻴﻨﻲ ﻧﺸﺪﻩ ‪.‬ﺍﺳﺖ‬
‫ﭘﺬﻳﺮﺩ‬
‫ﺑﺎ ﺷﺒﻜﻪ ﺑﻮﺳﻴﻠﺔ ﻳﻚ ﻟﻴﻨﻚ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺻﻮﺭﺕ ﻣﻲ ‪.‬‬

‫‪Core Block‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 5‬ﺍﺯ ‪36‬‬

‫ﺍﺭﺗﺒﺎﻁ ﻣﻲ ﺑﺎﺷﺪ‪.‬‬
‫ﺗﻴﭗ ‪ :C‬ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻳﻲ ﻛﻪ ﺩﺍﺭﺍﻱ ﺍﺭﺗﺒﺎﻁ ﺗﻠﻔﻨﻲ ﺑﺎ ﻣﺮﻛﺰ ﺑﻮﺩﻩ ﻭ ﺍﺭﺗﺒﺎﻁ ﺷﺒﻜﻪ ﺁﻧﻬﺎ ﺑﻪ ﺻﻮﺭﺕ ‪DSL‬‬

‫‪ ،B‬ﺑﻮﺳﻴﻠﺔ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺑﻮﺩﻩ ﻭﻋﻼﻭﻩ ﺑﺮ ﺁﻥ ﺩﺭ ﺩﺍﺧﻞ ﺳﺎﺧﺘﻤﺎﻥ ﻧﻴﺎﺯ ﺑﻪ ﺳﺮﻭﻳﺲ‬

‫ﺗﻴﭗ ‪ :BW‬ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻳﻲ ﻛﻪ ﺍﺭﺗﺒﺎﻁ ﺁﻧﻬﺎ ﺑﺎ ﺷﺒﻜﻪ ﻣﺎﻧﻨﺪ ﺗﻴﭗ‬
‫ﺑﻲ ﺳﻴﻢ )‪ (Wireless‬ﺍﺳﺖ‪.‬‬

‫ﺗﻴﭗﺑﻮﺩﻩ ﻭ ﺩﺭ ﺩﺍﺧﻞ ﺁﻧﻬﺎ ﻧﻴﺎﺯ ﺑﻪ ﺳﺮﻭﻳﺲ ﺍﺭﺗﺒﺎﻁ ﺑﻲ ﺳﻴﻢ‬

‫ﺗﻴﭗ ‪ :CW‬ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻳﻲ ﻛﻪ ﻧﺨﻮﺓ ﺍﺭﺗﺒﺎﻁ ﺁﻧﻬﺎ ﺑﺎ ﺷﺒﻜﻪ ﻣﺎﻧﻨﺪ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻱ ‪C‬‬
‫)‪ (Wireless‬ﺍﺳﺖ‪.‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 6‬ﺍﺯ ‪36‬‬

‫ﺧﺎﻃﺮ ﻧﺸﺎﻥ ﻣﻲ ﮔﺮﺩﺩ ﺗﻴﭗ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎ ﻃﺒﻖ ﺗﺸﺨﻴﺺ ﻣﺪﻳﺮ ﻣﺤﺘﺮﻡ ﻣﻨﻄﻘﻪ ﻭﻛﺎﺭﺷﻨﺎﺳﺎﻥ ﻣﺪﻳﺮﻳﺖ ﻣﺤﺘﺮﻡ ﻣﺨﺎﺑﺮﺍﺕ ﺧﻮﺍﻫﺪ ﺑﻮﺩ‪ ،‬ﻟﻴﻜﻦ ﻻﺯﻡ‬
‫ﺍﺳﺖ ﺑﺴﺘﺮ ﻻﺯﻡ ﺟﻬﺖ ﺍﻳﺠﺎﺩ ﺍﺭﺗﺒﺎﻁ ﺑﻴﻦ ﺗﻤﺎﻡ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎ ﺍﺯ ﻧﻮﻉ ﺗﻴﭗ‪ A‬ﺑﺎﺷﺪ ﺗﺎ ﺩﺭﺻﻮﺭﺕ ﺗﻐﻴﻴﺮ ﻛﺎﺭﺑﺮﻱ ﺳﺎﺧﺘﻤﺎﻥ ﺩﺭ ﺁﻳﻨﺪﻩ ﺑﻪ ﺭﺍﺣﺘﻲ‬
‫ﮔﺮﺩﺩ‬
‫ﺧﺘﻤﺎﻥ ﻫﺎ ﺑﺎ ﻣﺮﻛﺰ ﺷﺒﻜﻪ ﺑﺮﻗﺮﺍﺭ ‪.‬‬ ‫ﺑﺘﻮﺍﻥ ﺍﺭﺗﺒﺎﻁ ﻻﺯﻡ ﺑﻴﻦ ﺳﺎ‬

‫ﺿﻤﻨﺄ ﺗﻮﺟﻪ ﻧﻜﺎﺕ ﺯﻳﺮ ﺩﺭ ﺍﺟﺮﺍﻱ ﭘﺮﻭژﻩ ﻫﺎﻱ ﺷﺮﻛﺖ ﺿﺮﻭﺭﻱ ﺍﺳﺖ ‪:‬‬

‫‪ ‬ﻃﺮﺍﺣﻲ ﺑﺨﺶ ‪ Active‬ﺷﺒﻜﻪ ﻫﺎ ﻣﻨﻄﺒﻖ ﺑﺮﺳﻪ ﻻﻳﻪ‪ Core,Distribution, Access‬ﻣﻲ ﺑﺎﺷﺪ‪.‬‬

‫ﺑﺎﺷﻨﺪ‬
‫‪.‬‬ ‫ﻃﺮﺍﺣﻲ‪ Structured،‬ﻭ ‪ Network +‬ﺩﺍﺷﺘﻪ‬ ‫‪ ‬ﻣﺠﺮﻳﺎﻥ ﻭ ﻧﺎﻇﺮﺍﻥ ﺑﺨﺶ ﺷﺒﻜﻪ ﺑﺎﻳﺪ ﺗﺴﻠﻂ ﻛﺎﻣﻞ ﺑﺮ ﻣﻔﺎﻫﻴﻢ‬
‫‪Cabling‬‬

‫‪- 2‬ﻧﻮﺩ ﻛﺎﺭﻱ‬

‫ﻳﻚ ﻧﻮﺩ ﻛﺎﺭﻱ ﺷﺒﻜﻪ ﺩﺭ ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ ﺍﺯ ﺩﻳﺪﮔﺎﻩ‬
‫ﺩﺭ ﺍﺑﺘﺪﺍ ﻻﺯﻡ ﺍﺳﺖ ﺗﻌﺮﻳﻔﻲ ﺍﺯ ﻫﺮ ﻭﺍﺣﺪ ﺗﺎ ﻧﻮﺩ ﻛﺎﺭﻱ ﺍﻧﺠﺎﻡ ‪.‬ﺷﻮﺩ‬
‫ﺷﺒﻜﻪ ﻛﺎﻣﭙﻴﻮﺗﺮﻱ ﻋﺒﺎﺭﺗﺴﺖ ‪:‬ﺍﺯ‬

‫ﺩﻭ ﭘﻮﺭﺕ ﺷﺒﻜﻪ‬ ‫‪‬‬

‫ﻳﻚ ﭘﻮﺭﺕ ﺑﺮﻕ ﺍﺿﻄﺮﺍﺭﻱ ﺑﺎ ﺗﻐﺬﻳﻪ‪UPS‬‬ ‫‪‬‬
‫ﻳﻚ ﭘﻮﺭﺕ ﺑﺮﻕ ﺷﻬﺮﻱ‬ ‫‪‬‬
‫ﺩﻭ ﭘﻮﺭﺕ ﺗﻠﻔﻦ ﺁﻧﺎﻟﻮگ ﺑﺎ ﺗﻌﺮﻳﻒ ﺍﺩﺍﺭﻩ ﻣﺨﺎﺑﺮﺍﺕ‬ ‫‪‬‬
‫ﺍﺳﺖ‬
‫ﺩﺭ ﺯﻳﺮ ﻧﻤﺎﻱ ﻳﻚ ﭘﺮﻳﺰ ﺷﺒﻜﻪ ﻧﺸﺎﻥ ﺩﺍﺩﻩ ﺷﺪﻩ ‪.‬‬
‫ﻧﻤﺎﻱ ﭘﺮﻳﺰ ﺭﻭﻛﺎﺭ ﺩﻭ ﭘﻮﺭﺕ ﺷﺒﻜﻪ‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 7‬ﺍﺯ ‪36‬‬

‫ﺷﻮﺩ ﺩﺭ ﺯﻳﺮ‬
‫ﻫﻤﭽﻨﻴﻦ ﺩﺭ ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻱ ﻛﻨﺘﺮﻝ ﻭ ﺩﺭ ﺟﻮﺍﺭ ﺗﺠﻬﻴﺰﺍﺕ ‪) PLC‬ﺭﻙ ﻣﺎﺭﺷﺎﻝ( ﻧﻴﺰ ﻻﺯﻡ ﺍﺳﺖ ﺍﺯ ﭘﺮﻳﺰ ﺷﺒﻜﻪ ﺻﻨﻌﺘﻲ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﺍﺳﺖ‬‫ﻧﻤﻮﻧﻪ ﺍﻱ ﺍﺯ ﺍﻳﻦ ﭘﺮﻳﺰﻫﺎ ﻧﺸﺎﻥ ﺩﺍﺩﻩ ﺷﺪﻩ ‪.‬‬

‫ﻧﻤﺎﻱ ﭘﺮﻳﺰﻫﺎﻱ ﺻﻨﻌﺘﻲ‬

‫ﻫﺮﻛﺪﺍﻡ ﺍﺯ ﺍﻳﻦ ﭘﺮﻳﺰﻫﺎ ﺩﺍﺭﺍﻱ‪ 2‬ﭘﻮﺭﺕ ﺑﻮﺩﻩ ﻛﻪ ﺑﺮﺍﻱ ﺍﺭﺗﺒﺎﻁ ﺷﺒﻜﻪ ﺍﺳﺘﻔﺎﺩﻩ ﺧﻮﺍﻫﺪ ‪.‬ﺷﺪﺩﺭﻫﺮ ﻣﻜﺎﻥ ﻻﺯﻡ ﺍﺳﺖ ﺩﻭ ﭘﺮﻳﺰ ﻛﺎﻣﻞ)ﻣﺠﻤﻮﻋﺎً ﭼﻬﺎﺭ‬
‫ﭘﻮﺭﺕ( ﻧﺼﺐ ﮔﺮﺩﺩ‪ .‬ﺍﻳﻦ ﺑﺪﺍﻥ ﻣﻌﻨﻲ ﺍﺳﺖ ﻛﻪ ﻻﺯﻡ ﺍﺳﺖ ﺩﺭ ﺯﻳﺮ ﻫﺮ ﺭﻙ ﻣﺎﺭﺷﺎﻝ ﭼﻬﺎﺭ ﭘﻮﺭﺕ ﺻﻨﻌﺘﻲ ﭘﻴﺶﺑﻴﻨﻲ ﺷﻮﺩ‪ .‬ﺍﻳﻦ ﭘﺮﻳﺰﻫﺎ ﺍﺯ ﻧﻮﻉ‬
‫ﺷﻮﻧﺪﻋﺪﻡ ﺭﻋﺎﻳﺖ ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ‬‫ﺑﻨﺪﻱ ﺍﺭﺍﺋﻪ ﺷﺪﻩ ﺍﺳﺖ ﻧﺼﺐ ‪.‬‬‫ﺻﻨﻌﺘﻲ ﻭ ﺑﺎ‪ IP-67‬ﺑﻮﺩﻩ ﻭ ﻻﺯﻡ ﺍﺳﺖ ﻣﻄﺎﺑﻖ ﺑﺎ ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻣﺮﺑﻮﻃﻪ ﻛﻪ ﺩﺭ ﺑﺴﺘﻪ‬
‫ﺧﻮﺍﻫﺪﺷﺪ‬
‫‪.‬‬ ‫ﻓﻮﻕ ﺑﺎﻋﺚ ﻋﺪﻡ ﻛﺎﺭﺍﻳﻲ ﺍﻳﻦ ﭘﺮﻳﺰﻫﺎ ﺩﺭﻣﻮﺭﺩ ﻣﻘﺎﻭﻣﺖ ﺩﺭﺑﺮﺍﺑﺮ ﻧﻔﻮﺫ ﮔﺮﺩ ﻭ ﺧﺎﻙ ﻭ ﻣﺎﻳﻌﺎﺕ‬
‫ﮔﺮﺩﺩ‬
‫ﺩﺭ ﺧﺼﻮﺹ ﻫﺮ ﻧﻮﺩ ﻛﺎﺭﻱ ﻻﺯﻡ ﺍﺳﺖ ﻣﻮﺍﺭﺩ ﺯﻳﺮ ﺭﻋﺎﻳﺖ ‪:‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 8‬ﺍﺯ ‪36‬‬

‫‪ Cat.6 FTP‬ﻭ ﺩﺭ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻱ ﻣﺤﺪﻭﺩﻩ ﺻﻨﻌﺘﻲ ‪Cat.6‬‬

‫ﻻﺯﻡ ﺍﺳﺖ ﻛﻠﻴﻪ ﭘﺮﻳﺰﻫﺎﻱ ﺷﺒﻜﻪ ﺩﺭ ﺩﺍﺧﻞ ﺳﺎﺧﺘﻤﺎﻥ ﻫﺎﻱ ﺍﺩﺍﺭﻱ ﺍﺯ ﻧﻮﻉ‬ ‫‪‬‬
‫‪ SFTP‬ﺑﺎﺷﻨﺪ‪.‬‬

‫ﺑﺎﺷﺪ‬
‫ﺯﻫﺎ ﺍﺯ ﺯﻣﻴﻦ ﺑﺮ ﺍﺳﺎﺱ ﺍﺳﺘﺎﻧﺪﺍﺭﺩﻫﺎﻱ ﺳﺎﺧﺘﻤﺎﻧﻲ ‪.‬‬
‫ﺍﺭﺗﻔﺎﻉ ﻧﺼﺐ ﭘﺮﻱ‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫ﻧﻘﺸﻪﻫﺎﻱ ﺍﺭﺍﺋﻪ ﺷﺪﻩ ‪ ،‬ﺍﺳﺘﺎﻧﺪﺍﺭﺩ ‪.‬‬
‫ﻧﻤﺎﺩ ﺷﺒﻜﻪ ﺩﻳﺘﺎ ﺩﺭ ‌‬ ‫‪‬‬
‫ﻣﻲﺑﺎﻳﺴﺖ ﺑﺎﺗﻮﺟﻪ ﺑﻪ ﺩﺭ ﻧﻈﺮ ﮔﺮﻓﺘﻦ ﻓﻀﺎ ﻭ ﻧﻮﻉ ﭼﻴﺪﻣﺎﻥ ﻛﺎﺭﺑﺮ ﺍﻧﺠﺎﻡ ﭘﺬﻳﺮﺩ ﺑﻬﺘﺮ ﺍﺳﺖ ﺑﺮﺍﻱ ﻫﺮ‬
‫ﻧﻘﺸﻪ ‌‬
‫ﻣﺤﻞ ﻗﺮﺍﺭﮔﻴﺮﻱ ﻧﻮﺩﻫﺎﻱ ﺷﺒﻜﻪ ﺩﺭ ‌ﻫﺎ‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﭘﻴﺶﺑﻴﻨﻲ ‪.‬‬‫ﺑﻜﻪ ﺑﺎ ﺗﻌﺮﻳﻒ ﻓﻮﻕ ‌‬
‫‪ 4‬ﻣﺘﺮ ﻣﺮﺑﻊ ﻓﻀﺎﻱ ﻛﺎﺭﻱ‪ ،‬ﻳﻚ ﻧﻮﺩ ﺵ‬

‫‪- 3‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻣﺴﻲ‬

‫ﺷﻮﺩ‬
‫ﺳﺎﺧﺘﻤﺎﻥﺍﺯ ﺩﻭﻧﻮﻉ ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻣﺴﻲ ﺍﺳﺘﻔﺎﺩﻩ ‪:‬‬
‫ﻫﺎ‬ ‫ﻫﻤﺎﻧﻄﻮﺭ ﻛﻪ ﻗﺒﻼً ﺍﺷﺎﺭﻩ ﺷﺪ‪ ،‬ﻻﺯﻡ ﺍﺳﺖ ﺩﺭ‬

‫‪ - -1 3‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ‪FTP‬‬
‫ﺍﺳﺖ ﺩﺭﺿﻤﻦ ﻳﻚ ﺳﻴﻢ ﻓﻠﺰﻱ ﺩﺭ ﻃﻮﻝ ﻛﺎﺑﻞ ﻛﺸﻴﺪﻩ ﺷﺪﻩ ﻛﻪ ﺑﺮﺍﻱ‬ ‫ﺍﻳﻦ ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﺩﺭﺯﻳﺮ ﻻﻳﻪ‪ PVC‬ﺩﺍﺭﺍﻱ ﻳﻚ ﻻﻳﻪ ﻓﻮﻳﻞ ﺁﻟﻮﻣﻴﻨﻴﻮﻣﻲ ‪.‬‬
‫ﺧﺮﻭﺝ ﺟﺮﻳﺎﻥ ﻧﺎﺷﻲ ﺍﺯ ﻧﻮﻳﺰ ﻣﺤﻴﻂ‪ ،‬ﻣﻮﺭﺩ ﺍﺳﺘﻔﺎﺩﻩ ﻗﺮﺍﺭ ﻣﻲ ﮔﻴﺮﺩ )‪ .(Drain Wire‬ﺍﻳﻦ ﺳﻴﻢ ﺍﺭﺗﺒﺎﻁ ﺷﻴﻠﺪ ﺑﻴﻦ ﺩﻭ ﻧﻘﻄﻪ ﺑﻮﺩﻩ ﻭ ﻟﺬﺍ ﺑﺎﻳﺪ‬
‫ﮔﺮﺩﺩ‬
‫ﻛﻴﺴﺘﻮﻥ ﻣﺘﺼﻞ ‪.‬‬ ‫ﺩﺭﺳﺮﺑﻨﺪﻱ ﻛﻴﺴﺘﻮﻥﻫﺎ ﺣﺘﻤﺎً ﻃﺒﻖ ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻣﺮﺑﻮﻃﻪ ﺑﻪ ﺷﻴﻠﺪ‬

‫‪ - 2- 3‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ‪SFTP‬‬
‫ﺩﺭﺿﻤﻦ ﻳﻚ ﺳﻴﻢ ﻓﻠﺰﻱ‬ ‫ﺩﺭ ﺯﻳﺮ ﻻﻳﻪ‪ PVC‬ﺍﻳﻦ ﻛﺎﺑﻞ‪ ،‬ﺩﻭ ﻻﻳﻪ ﻓﻠﺰﻱ ﺷﺎﻣﻞ ﻳﻚ ﻻﻳﻪ ﻓﻮﻳﻞ ﺁﻟﻮﻣﻴﻨﻴﻮﻣﻲ ﻭ ﻳﻚ ﻻﻳﻪ ﺳﻴﻢ ﺑﺎﻓﺘﻪ ﺷﺪﻩ ﻗﺮﺍﺭ ‪.‬ﺩﺍﺭﺩ‬
‫ﻟﺪ ﺑﻴﻦ ﺩﻭ ﻧﻘﻄﻪ ﺑﻮﺩﻩ ﻭ‬
‫ﮔﻴﺮﺩ )‪ .(Drain Wire‬ﺍﻳﻦ ﺳﻴﻢ ﺍﺭﺗﺒﺎﻁ ﺷﻲ‬
‫ﺩﺭ ﻃﻮﻝ ﻛﺎﺑﻞ ﻛﺸﻴﺪﻩ ﺷﺪﻩ ﻛﻪ ﺑﺮﺍﻱ ﺧﺮﻭﺝ ﺟﺮﻳﺎﻥ‪ ،‬ﻣﻮﺭﺩ ﺍﺳﺘﻔﺎﺩﻩ ﻗﺮﺍﺭ ﻣﻲ‬
‫ﺑﺎﻳﺪ ﺩﺭﺳﺮﺑﻨﺪﻱ ﻛﻴﺴﺘﻮﻥﻫﺎ ﺣﺘﻤﺎً ﻃﺒﻖ ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻣﺮﺑﻮﻃﻪ ﺑﻪ ﺷﻴﻠﺪ ﻛﻴﺴﺘﻮﻥ ﻣﺘﺼﻞ ‪.‬ﮔﺮﺩﺩ‬

‫ﻻﺯﻡ ﺍﺳﺖ ﻣﺎﺭﻙ ﻛﺎﺑﻞ ﻫﺎﻱ ﺷﺒﻜﺔ‪ Cat.6 FTP‬ﻭ‪ Cat.6 SFTP‬ﻳﻜﻲ ﺍﺯ ﻣﺎﺭﻙﻫﺎﻱ ﺯﻳﺮ ﺑﺎﺷﺪ‪ ،‬ﺩﺭ ﻏﻴﺮ ﺍﻳﻦ ﺻﻮﺭﺕ ﺑﺎﻳﺪ ﺁﺯﻣﺎﻳﺶ ﻫﺎﻱ ﻻﺯﻡ ﻗﺒﻞ‬
‫ﮔﺮﺩﺩ‬
‫ﺍﺯ ﺗﻬﻴﻪ ﺑﺮ ﺭﻭﻱ ﻛﺎﺑﻞ ﻫﺎ ﺍﻧﺠﺎﻡ ‪.‬‬

‫‪‬‬ ‫‪NEXANS‬‬
‫‪‬‬ ‫‪R&M‬‬
‫‪‬‬ ‫‪CONNECTIX‬‬
‫‪‬‬ ‫‪CAE‬‬
‫‪‬‬ ‫‪AMP‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 9‬ﺍﺯ ‪36‬‬

‫‪‬‬ ‫‪HUBBELL‬‬
‫‪‬‬ ‫‪SIEMON‬‬
‫‪‬‬ ‫‪Unicom‬‬

‫ﺍﺳﺖ‬
‫‪ Cat.6‬ﺭﻋﺎﻳﺖ ﻧﻤﻮﺩ ﺑﺸﺮﺡ ﺯﻳﺮ ‪:‬‬
‫ﻣﻮﺍﺭﺩﻱ ﻛﻪ ﺑﺎﻳﺪ ﺟﻬﺖ ﻧﺼﺐ ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻣﺴﻲ ﻭ ﻧﺼﺐ ﻛﻴﺴﺘﻮﻥ‬

‫ﺑﺎﺷﺪ‬
‫ﺣﺪﻭﺩﺳﺎﻧﺘﻤﻴﺘﺮ ‪.‬‬
‫ﻗﺒﻞ ﺍﺯ ﺳﺮﺑﻨﺪﻱ ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻣﻴﺰﺍﻥ ﺍﺿﺎﻓﻲ ﺑﺮﺍﻱ ﺳﺮﺑﻨﺪﻱ ﻃﺮﻑ ﺧﺮﻭﺟﻲ ‪30‬‬ ‫‪‬‬
‫ﺩﺭ ﺳﻤﺖ ﺭﻙ‪ ،‬ﺑﻪ ﺍﻧﺪﺍﺯﻩ ﻛﺎﻓﻲ ﻛﺎﺑﻞ ﺩﺭﻭﻥ ﻳﻚ ﺟﻌﺒﻪ ﻓﻠﺰﻱ ﺑﻪ ﺍﺑﻌﺎﺩ‪ 40‬ﺩﺭ ‪ 60‬ﻭ ﺑﻪ ﻋﻤﻖ ‪ 20‬ﺳﺎﻧﺘﻴﻤﺘﺮ ﺑﻪ ﻧﺎﻡ ‪Service Loop‬‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫‪ ،Box‬ﻧﮕﻬﺪﺍﺭﻱ ‪.‬‬

‫ﺑﺮﺍﻱ ﺟﻠﻮﮔﻴﺮﻱ ﺍﺯ ﺍﺧﺘﻼﻝ ﺩﺭ ﻣﺸﺨﺼﺎﺕ ﻓﻨﻲ ﻛﺎﺑﻞﻫﺎﻱ ﻣﻮﺭﺩ ﺍﺳﺘﻔﺎﺩﻩ‪ ،‬ﻧﻴﺮﻭﻱ ﻭﺍﺭﺩﻩ ﺑﺮ ﻛﺎﺑﻞ ﺩﺭ ﺯﻣﺎﻥ ﻧﺼﺐ ﺩﺭ ﻟﻮﻟﻪ)‪ (Conduit‬ﺍﺯ‬ ‫‪‬‬
‫ﺑﺎﺷﺪ ﺑﺮﺍﻱ ﺟﻠﻮﮔﻴﺮﻱ ﺍﺯ ﺍﺣﺘﻤﺎﻝ ﻭﺍﺭﺩ ﻛﺮﺩﻥ ﻧﻴﺮﻭﻱ‬
‫ﺍﻫﻤﻴﺖ ﺯﻳﺎﺩﻱ ﺑﺮﺧﻮﺭﺩﺍﺭ ﺍﺳﺖ ﻟﺬﺍ ﻧﺒﺎﻳﺪ ﺍﺯ‪ 111‬ﻧﻴﻮﺗﻦ )ﺣﺪﻭﺩ ‪ 11‬ﻛﻴﻠﻮﮔﺮﻡ( ﺑﻴﺸﺘﺮ ‪.‬‬
‫ﺑﻴﺸﺘﺮ ﺑﺮ ﺭﻭﻱ ﻛﺎﺑﻞ ﺑﺎﻳﺪ ﻣﻮﺍﺭﺩ ﺯﻳﺮ ﻣﻮﺭﺩ ﺗﻮﺟﻪ ﻗﺮﺍﺭ ‪:‬ﮔﻴﺮﺩ‬
‫ﺑﺎﺷﺪ‬
‫‪ o‬ﺗﺎ ﺣﺪ ﺍﻣﻜﺎﻥ ﻣﺴﻴﺮ ﻟﻮﻟﻪ ﺑﺼﻮﺭﺕ ﻣﺴﺘﻘﻴﻢ ‪.‬‬
‫ﺣﺪﺍﻙ‪30‬ﻣﺘﺮ‪.‬‬
‫ﺣﺪﺍﻛﺜﺮﺧﻢ ‪90‬ﺩﺭﺟﻪ ﺩﺭ ﻣﺴﻴﺮﻫﺎﻱ ﺛﺮ‬
‫‪2‬‬ ‫‪ o‬ﺩﺭ ﻣﻮﺍﺭﺩ ﻧﺼﺐ ﻟﻮﻟﻪ‪ ،‬ﺩﺍﺷﺘﻦ‬

‫ﮔﺮﺩﺩ‬
‫ﺩﺭﺻﻮﺭﺕ ﺩﺍﺷﺘﻦ ﺑﻴﺶ ﺍﺯ‪ 2‬ﺧﻢ ﺑﺎﻳﺪ ﺩﺭ ﻣﺴﻴﺮ ﻣﻮﺍﺭﺩ ﺯﻳﺮ ﺭﻋﺎﻳﺖ ‪:‬‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫‪ o‬ﺣﺪﺍﻛﺜﺮ ﻃﻮﻝ ﻣﺴﻴﺮ‪ 10‬ﻣﺘﺮ ‪.‬‬
‫ﻧﻤﺎﺋﻴﻢ‬
‫‪ o‬ﻗﻄﺮ ﻟﻮﻟﻪ ﺭﺍ ﻳﻚ ﺳﺎﻳﺰ ﺑﺰﺭﮔﺘﺮ ‪.‬‬
‫ﺑﺎﺷﺪ‬
‫‪ o‬ﻳﻜﻲ ﺍﺯ ﺧﻢﻫﺎ ﺩﺭﻓﺎﺻﻠﻪ‪ 30‬ﺳﺎﻧﺘﻴﻤﺘﺮﻱ ﻭﺭﻭﺩﻱ ﻛﺎﺑﻞ ﻗﺮﺍﺭ ﮔﺮﻓﺘﻪ ‪.‬‬

‫ﺷﻮﺩ‬
‫‪ 45‬ﻣﺘﺮ ﺩﺭﻧﻈﺮ ﮔﺮﻓﺘﻪ ‪.‬‬
‫ﺑﻬﺘﺮ ﺍﺳﺖ ﻛﻪ ﺣﺪﺍﻛﺜﺮ ﻃﻮﻝ ﻣﺴﻴﺮ ﻟﻮﻟﻪ ﺑﺪﻭﻥ ﺩﺭﻳﭽﻪ‪،‬‬ ‫‪‬‬
‫‪75‬ﻣﻴﻠﻴﻤﺘﺮﻱ ﺍﺯ ﺳﺮ ﻛﺎﺑﻞ ﺩﻭ ﻋﺪﺩ‬
‫ﺑﺮﺍﻱ ﻛﺸﻴﺪﻥ ﻫﻤﺰﻣﺎﻥ ﭼﻨﺪ ﻛﺎﺑﻞ ﺑﺎﻳﺪ ﻳﻚ ﻛﺎﺑﻞ ﺑﻌﻨﻮﺍﻥ ﻛﺎﺑﻞ ﺭﺍﻫﻨﻤﺎ ﺩﺭﻧﻈﺮ ﮔﺮﻓﺘﻪ ﺷﺪﻩ ﻭ ﺩﺭﻓﻮﺍﺻﻞ‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﺩﺭ ﺩﺳﺘﻪﻫﺎﻱ ﺩﻭ ﺗﺎﻳﻲ ﺑﻪ ﻛﺎﺑﻞ ﺭﺍﻫﻨﻤﺎ ﻣﺘﺼﻞ ‪.‬‬
‫ﻛﺎﺑﻞ‬
‫ﻛﺎﺑﻞ ﺑﻪ ﻛﺎﺑﻞ ﺭﺍﻫﻨﻤﺎ ﻣﺘﺼﻞ ﻭ ﺑﻪ ﻫﻤﻴﻦ ﺗﺮﺗﻴﺐ ﻭ ﺑﺎ ﺭﻋﺎﻳﺖ ﻓﺎﺻﻠﻪ ﻓﻮﻕ ﻫﺎ‬

‫ﺟﻬﺖ ﻧﺼﺐ ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻣﺴﻲ ﺑﺎﻳﺪ ﻋﺎﻣﻞ ﺣﺪﺍﻗﻞ ﺷﻌﺎﻉ ﺧﻤﺶ ﻛﺎﺑﻞ ﺭﻋﺎﻳﺖ ﮔﺮﺩﺩ‪ .‬ﺍﻳﻦ ﻣﻘﺪﺍﺭ ﺑﺮﺍﻱ ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻣﺴﻲ ‪ 8‬ﺑﺮﺍﺑﺮ ﻗﻄﺮ‬ ‫‪‬‬
‫ﺧﺎﺭﺟﻲ ﻛﺎﺑﻞ ﻣﻲﺑﺎﺷﺪ‪.‬‬

‫ﺩﺭ ﺯﻣﺎﻥ ﻛﺎﺑﻞ ﻛﺸﻲ ﻻﺯﻡ ﺍﺳﺖ ﺍﺯ ﺍﻓﺘﺎﺩﻥ ﻛﺎﺑﻞ ﺯﻳﺮ ﭘﺎ ﺧﻮﺩﺩﺍﺭﻱ ‪.‬ﺷﻮﺩ‬ ‫‪‬‬
‫ﺷﻮﻧﺪ‬
‫‪.‬‬ ‫ﺗﺎﻧﺪﺍﺭﺩ ‪ Type A‬ﺳﺮﺑﻨﺪﻱ‬
‫ﻻﺯﻡ ﺍﺳﺖ ﻛﻴﺴﺘﻮﻥﻫﺎ ﺑﺎ ﺍﺱ‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 10‬ﺍﺯ ‪36‬‬

‫ﺑﺮﺍﻱ ﻋﺒﻮﺭ ﺩﻭ ﺭﺷﺘﻪ ﻛﺎﺑﻞ ﺍﺯ ﻟﻮﻟﻪ‪ PG29‬ﺍﺳﺘﻔﺎﺩﻩ ﺷﻮﺩ ﻭ ﻗﺎﺑﻞ ﺫﻛﺮ ﺍﺳﺖ ﻛﻪ ﻟﻮﻟﻪ‪ PG13.5‬ﺑﺮﺍﻱ ﻋﺒﻮﺭ ﺩﻭ ﺭﺷﺘﻪ ﻛﺎﺑﻞ ﺑﺴﻴﺎﺭ ﻛﻮﭼﻚ‬ ‫‪‬‬
‫ﺍﺳﺖ‪.‬‬

‫ﻟﻮﻟﻪﺍﻱ ﻛﻪ ﺩﺭ ﺁﻥ ﻛﺎﺑﻞ ﺑﺮﻕ ﺑﺪﻭﻥ ﺷﻴﻠﺪ ﻗﺮﺍﺭ ﺩﺍﺭﺩ‪ ،‬ﻛﺎﻓﻲ ﺑﻮﺩﻩ ﭘﻴﺸﻨﻬﺎﺩﻣﻲﺷﻮﺩ‬
‫ﺳﺎﻧﺘﻲﻣﺘﺮﻱ ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﺍﺯ ‌‬
‫‌‬ ‫ﺭﻋﺎﻳﺖ ﺣﺪﺍﻗﻞ ﻓﺎﺻﻠﻪ ‪10‬‬ ‫‪‬‬
‫ﺷﻮﻧﺪ‬
‫‪.‬‬ ‫ﻛﺎﺑﻞﻫﺎﻱ ﺑﺮﻕ ﺳﺎﺧﺘﻤﺎﻥ ﻧﻴﺰ ﺍﺯ ﻧﻮﻉ‪ Shielded‬ﺍﻧﺘﺨﺎﺏ‬

‫‪‬‬
‫‪- 4‬ﭘﭻ ﻛﻮﺭﺩﻫﺎﻱ ﺷﺒﻜﻪ‬
‫ﻫﻤﺎﻧﻄﻮﺭ ﻛﻪ ﺩﺭ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ ﺍﺷﺎﺭﻩ ﺷﺪﻩ‪ ،‬ﻻﺯﻡ ﺍﺳﺖ ﺍﺭﺗﺒﺎﻁ ﺑﻴﻦ ﭘﺮﻳﺰ ﺷﺒﻜﻪ ﻭ ﺍﺳﺘﻔﺎﺩﻩ ﻛﻨﻨﺪﻩ ﺍﺯ ﺷﺒﻜﻪ ﻭ ﻫﻤﭽﻨﻴﻦ ﺍﺭﺗﺒﺎﻁ ﺑﻴﻦ ﭘﺞ ﭘﻨﻞ ﻭ ﺳﻮﺋﻴﭻ‪،‬‬
‫ﺑﻮﺳﻴﻠﻪ ﭘﭻ ﻛﻮﺭﺩ ﺍﻧﺠﺎﻡ ﺷﻮﺩ‪ .‬ﭼﻨﺎﻧﭽﻪ ﻫﺮﺩﻭ ﭘﭻ ﻛﻮﺭﺩ ﺍﺯ ﻥﻭﻉ ‪ Shielded‬ﺍﻧﺘﺨﺎﺏ ﺷﻮﺩ‪ ،‬ﺩﺭ ﺳﻴﺴﺘﻢ ﺍﺭﺕ ﻟﻮپ ﺑﻮﺟﻮﺩ ﻣﻲ ﺁﻳﺪ ﻛﻪ ﺍﺯ ﻧﻈﺮ‬
‫ﻛﺎﺭﺷﻨﺎﺳﻲ ﺗﻮﺻﻴﻪ ﻧﻤﻲﮔﺮﺩﺩ‪ .‬ﺑﻪ ﻫﻤﻴﻦ ﺩﻟﻴﻞ ﺻﺮﻓﺎً ﻳﻜﻲ ﺍﺯ ﭘﭻ ﻛﻮﺭﺩﻫﺎ‪ Shielded‬ﺑﻮﺩﻩ ﻭ ﭘﭻ ﻛﻮﺭﺩ ﺩﻳﮕﺮ‪ UTP‬ﺍﺳﺖ‪ .‬ﺩﺭ ﺍﻳﻦ ﺧﺼﻮﺹ ﻣﻘﺮﺭ‬
‫ﮔﺸﺘﻪ‪ ،‬ﭘﭻ ﻛﻮﺭﺩ ﺳﻤﺖ ﭘﭻ ﭘﻨﻞ ‪ Shielded‬ﻭ ﭘﭻ ﻛﻮﺭﺩ ﺳﻤﺖ ﻣﺼﺮﻑ ﻛﻨﻨﺪﻩ‪ UTP‬ﺑﺎﺷﺪ‪ .‬ﻟﻴﺴﺖ ﭘﭻ ﻛﻮﺭﺩ ﻫﺎﻳﻲ ﻛﻪ ﻣﻮﺭﺩ ﺍﺳﺘﻔﺎﺩﻩ ﻗﺮﺍﺭ ﻣﻲ‬
‫ﺍﺳﺖ‬
‫ﮔﻴﺮﺩ ﺑﻪ ﺷﺮﺡ ﺯﻳﺮ ‪:‬‬

‫‪‬‬ ‫)‪1M SHIELDED CAT.6 PATCH CORD (FTP) LSZH (Using in Rack‬‬
‫‪‬‬ ‫)‪2M SHIELDED CAT.6 PATCH CORD (FTP) LSZH (Using in Rack‬‬
‫‪‬‬ ‫)‪2M UNSHIELDED CAT.6 PATCH CORD (UTP) LSZH (Using in Outlet‬‬
‫‪‬‬ ‫)‪3M UNSHIELDED CAT.6 PATCH CORD (UTP) LSZH (Using in Outlet‬‬
‫‪‬‬ ‫)‪5M UNSHIELDED CAT.6 PATCH CORD (UTP) LSZH (Using in Outlet‬‬
‫‪‬‬
‫‪- 5‬ﻛﻴﺴﺘﻮﻥ ﺟﻚ ﺷﺒﻜﻪ‬
‫ﺑﺪﻳﻬﻲ ﺍﺳﺖ ﻛﻴﺴﺘﻮﻥ ﻣﻮﺭﺩ ﺍﺳﺘﻔﺎﺩﻩ ﺑﺎﻳﺪ ﺑﺎ ﻗﺎﺏ ﭘﺮﻳﺰ ﺗﻮﻛﺎﺭﻱ ﻛﻪ ﺩﺭ ﻋﻤﻠﻴﺎﺕ ﺳﺎﺧﺘﻤﺎﻧﻲ ﺑﺮ ﺭﻭﻱ ﺩﻳﻮﺍﺭﺩ ﻧﺼﺐ ﺧﻮﺍﻫﺪ ﺷﺪ‪ ،‬ﻫﻤﺨﻮﺍﻧﻲ ﺩﺍﺷﺘﻪ‬
‫ﻓﺮﺍﻧﺴﻮﻱ‪ (French Style‬ﻣﺪ ﻧﻈﺮ ﺍﺳﺖ‪ ،‬ﻛﻴﺴﺘﻮﻧﻲ ﻭ ﻗﺎﺏ ﻣﺮﺑﻮﻃﻪ‬
‫)‬ ‫ﺑﺎﺷﺪ‪ .‬ﺑﻪ ﻫﻤﻴﻦ ﺩﻟﻴﻞ ﻳﻜﻲ ﺍﺯﭘﻴﺸﻨﻬﺎﺩﺍﺕ ﺍﻳﻦ ﺍﺳﺖ ﻛﻪ ﭼﻨﺎﻧﭽﻪ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ‬
‫ﺑﺎﺷﺪ‬
‫‪ 45‬ﺩﺭ ‪ 45‬ﻣﻴﻠﻴﻤﺘﺮﻱ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ ﻓﺮﺍﻧﺴﻮﻱ ﻗﺎﺑﻞ ﺟﺎﮔﺬﺍﺭﻱ ‪.‬‬ ‫ﺑﻪ ﺗﺮﺗﻴﺒﻲ ﺍﻧﺘﺨﺎﺏ ﺷﻮﻧﺪ ﻛﻪ ﺩﺭ ﻓﺮﻳﻢ‬
‫ﺍﺳﺖ‬
‫ﻣﺸﺨﺼﺎﺕ ﻛﻴﺴﺘﻮﻥ ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ‪:‬‬
‫‪CAT.6 SHIELDED KEYSTONE JACK FOR MOUNTING IN OUTLET OR UNLOADED PATCH PANELS‬‬
‫ﻫﻤﺨﻮﺍﻧﻲ ﺑﺎﻣﺎﺭﻙ ﺳﺎﻳﺮ ﺗﺠﻬﻴﺰﺍ ﺕ ﺍﺯ ﺟﻤﻠﻪ ﻛﺎﺑﻞ ﺧﻮﺍﻫﺪ ‪.‬ﺑﻮﺩ‬
‫ﻣﺎﺭﻛﻬﺎﻱ ﻣﻮﺭﺩ ﺗﺄﻳﻴﺪ ﺑﺮﺍﻱ ﭘﭻ ﻛﻮﺭﺩ ﻭ ﻛﻴﺴﺘﻮﻥ ﺟﻚ ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ﻭ ﻳﺎ‬

‫‪‬‬ ‫‪NEXANS‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 11‬ﺍﺯ ‪36‬‬

‫‪‬‬ ‫‪R&M‬‬
‫‪‬‬ ‫‪CONNECTIX‬‬
‫‪‬‬ ‫‪CAE‬‬
‫‪‬‬ ‫‪AMP‬‬
‫‪‬‬ ‫‪HUBBELL‬‬
‫‪‬‬ ‫‪SIEMON‬‬
‫‪‬‬ ‫‪UNICOM‬‬

‫ﮔﺮﺩﺩ‬
‫ﺟﻬﺖ ﻧﺼﺐ ﻛﻴﺴﺘﻮﻥ ﻻﺯﻡ ﺍﺳﺖ ﻣﻮﺍﺭﺩ ﺯﻳﺮ ﺭﻋﺎﻳﺖ ‪:‬‬

‫ﺷﻮﻧﺪ‬
‫‪.‬‬ ‫ﻻﺯﻡ ﺍﺳﺖ ﻛﻴﺴﺘﻮﻥﻫﺎ ﺑﺎ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ‪ Type A‬ﺳﺮﺑﻨﺪﻱ‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫‪ 50‬ﻣﻴﻠﻴﻤﺘﺮ ﺑﺮﺩﺍﺷﺘﻪ ‪.‬‬
‫ﺑﺮﺍﻱ ﻧﺼﺐ ﻛﻴﺴﺘﻮﻥ ﺑﺎﻳﺪ ﭘﻮﺷﺶ ﻛﺎﺑﻞ ﻣﺴﻲ ﺗﺎ‬ ‫‪‬‬
‫ﺗﻮﺟﻪ ﺷﻮﺩ ﻛﻪ ﺭﻭﻛﺶ ﻓﻠﺰﻱ) ﻓﻮﻳﻞ ( ﻛﺎﺑﻞ ﺑﻪ ﺍﻧﺪﺍﺯﻩ ﻳﻚ ﺳﺎﻧﺘﻴﻤﺘﺮ ﺭﻭﻱ ﻛﺎﺑﻞ ﺑﺮﮔﺮﺩﺍﻧﺪﻩ ﺷﺪﻩ ﺑﻪ ﺑﺪﻧﻪ ﻓﻠﺰﻱ ﻛﻴﺴﺘﻮﻥ ﻣﺘﺼﻞ‪ .‬ﮔﺮﺩﺩ‬ ‫‪‬‬
‫ﺭﺷﺘﻪﻫﺎ ﻳﻚ ﺑﻪ ﻳﻚ ﺩﺭﻭﻥ ﻣﺤﻞ ﺍﺗﺼﺎﻝ ﺗﻌﺒﻴﻪ ﺷﺪﻩ ﺩﺭ ﻛﻴﺴﺘﻮﻥ ﻗﺮﺍﺭ ﺩﺍﺩﻩ ﻭ ﭘﺎﻧﭻ ‪.‬ﺷﻮﺩ‬ ‫‪‬‬
‫ﮔﺮﺩﺩ‬
‫‪.‬‬ ‫ﻣﺮﺑﻮﻃﻪﭘﺎﻧﭻ ‪ (110‬ﺍﺳﺘﻔﺎﺩﻩ‬
‫)‬ ‫ﺑﺮﺍﻱ ﭘﺎﻧﭻ ﺑﺎﻳﺪ ﺍﺯ ﺍﺑﺰﺍﺭ‬ ‫‪‬‬
‫ﺗﺎ ﺣﺪ ﺍﻣﻜﺎﻥ ﭘﻴﭽﺶ ﺳﻴﻢ ﻫﺎ ﺗﺎ ﻗﺒﻞ ﺍﺯ ﻭﺭﻭﺩ ﺑﻪ ﻣﺤﻞ ﭘﺎﻧﭻ ﺑﺎﺯ ‪.‬ﻧﺸﻮﺩ‬ ‫‪‬‬
‫ﻧﺒﺎﻳﺪ ﮔﺎﻡ ﭘﻴﭽﺶ ﺯﻭﺝ ﺳﻴﻢ ﻫﺎ ﺍﺯ ﭼﻴﺰﻱ ﻛﻪ ﻫﺴﺖ ﺑﻴﺸﺘﺮ ‪.‬ﺷﻮﺩ‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫‪ 13‬ﻣﻴﻠﻴﻤﺘﺮ ‪.‬‬
‫ﻭﻥ ﺣﺪﺍﻛﺜﺮ ﻓﺎﺻﻠﻪ ژﺍﻛﺖ ﺗﺎ ﻣﺤﻞ ﺳﺮﺑﻨﺪﻱ‬
‫ﭘﺲ ﺍﺯ ﻧﺼﺐ ﻛﻴﺴﺖ‬ ‫‪‬‬
‫ﮔﺮﺩﺩ‬
‫ﺳﻴﻢ ‪ Drain‬ﺑﺎﻳﺪ ﺑﻪ ﻣﺤﻞ ﺍﺗﺼﺎﻝ ﺑﻪ‪ Shield‬ﻛﻴﺴﺘﻮﻥ ﻣﺘﺼﻞ ﺷﺪﻩ ﻭ ﺗﻮﺳﻂ ﺿﺎﻣﻦ ﻣﺮﺑﻮﻃﻪ ﻣﺤﻜﻢ ‪.‬‬ ‫‪‬‬
‫‪‬‬
‫‪- 6‬ﭘﺮﻳﺰ ﺷﺒﻜﻪ‬
‫‪ French Style‬ﻛﻔﺎﻳﺖ ﻛﺮﺩﻩ ﻭ ﻣﺎﺭﻙ ﺁﻥ ﺑﺴﺘﻪ ﺑﻪﺳﻠﻴﻘﻪ ﻭ ﺗﻘﺎﺿﺎﻱ‬
‫ﺩﺭﺧﺼﻮﺹ ﭘﺮﻳﺰ ﻣﻮﺭﺩ ﺗﺄﻳﻴﺪ ﻫﻤﺎﻧﻄﻮﺭ ﻛﻪ ﻗﺒﻼً ﮔﻔﺘﻪ ﺷﺪ ﺻﺮﻓﺎً ﺭﻋﺎﻳﺖ ﻗﺎﺏ‬
‫ﺑﺎﺷﺪ‬
‫ﺣﺪﺍﻗﻞﺳﺎﻧﺘﻲﻣﺘﺮ ‪.‬‬‫ﺍﺳﺖﻻﺯﻡ ﺑﻪ ﺗﻮﺿﻴﺢ ﺍﺳﺖ ﻛﻪ ﻋﻤﻖ ﺟﻌﺒﻪ ﭘﺸﺖ ﭘﺮﻳﺰ ﺷﺒﻜﻪ ﺑﺎﻳﺪ ‪5‬‬ ‫ﻛﺎﺭﻓﺮﻣﺎ ﻭ ﻣﺸﺎﻭﺭ ﺳﺎﺧﺘﻤﺎﻥ ﻗﺎﺑﻞ ﺍﻧﺘﺨﺎﺏ ‪.‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 12‬ﺍﺯ ‪36‬‬

‫‪- 7‬ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻓﻴﺒﺮﻧﻮﺭﻱ‬

‫ﺩﺭ ﭘﺮﻭژﻩ ﻫﺎﻱ ﺷﺮﻛﺖ ﺍﺯ ﺩﻭﻧﻮﻉ ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺑﻨﺎﺑﺮﻛﺎﺭﺑﺮﺩ ﺍﺳﺘﻔﺎﺩﻩ ﺷﺪﻩ ‪ :‬ﺍﺳﺖ‬

‫‪ - -1 7‬ﻛﺎﺑﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ‪Outdoor‬‬
‫ﻓﻮﻻﺩﻱ‪ (Corrugated Steel Armored‬ﺑﻮﺩﻩ ﻛﻪ ﻣﻲﺗﻮﺍﻥ ﺁﻧﺮﺍ ﺑﺼﻮﺭﺕ ﻣﺴﺘﻘﻴﻢ ﺩﺭﻭﻥ ﺧﺎﻙ ﺩﻓﻦ‬‫)‬ ‫ﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ ﺩﺍﺭﺍﻱ ﻳﻚ ﻻﻳﻪ ﺻﻔﺤﻪ ﻣﻮﺍﺝ‬
‫ﻛﺮﺩ ﺭﺍﺑﻄﻪ ﺑﺎ‬
‫ﻫﺎﻱ ﭘﻠﻲﺍﺗﻴﻠﻦ ﻛﻪ ﺩﺭﻭﻥ ﻛﺎﻧﺎﻝ ﻗﺮﺍﺭ ﮔﺮﻓﺘﻪ ﺍﺳﺖ‪ ،‬ﻋﺒﻮﺭ ﺧﻮﺍﻫﺪ ‪ .‬ﺩﺭ‬
‫ﻛﺮﺩ ﻭﻟﻲ ﺩﺭ ﺳﺎﻳﺖﻫﺎﻱ ﻋﻤﻠﻴﺎﺗﻲ ﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ ﺭﺍ ﺍﺯ ﺩﺍﺧﻞ ﻟﻮﻟﻪ‬
‫ﺷﻮﺩ‬
‫ﻧﺼﺐ ﺍﻳﻦ ﻧﻮﻉﻛﺎﺑﻞ ﻻﺯﻡ ﺍﺳﺖ ﻣﻮﺍﺭﺩ ﻣﻮﺭﺩ ﺗﻮﺟﻪ ﻭﺍﻗﻊ ‪:‬‬

‫ﺑﺎﺷﺪ‬
‫‪ 350‬ﻧﻴﻮﺗﻦ ‪.‬‬
‫ﺑﺮﺍﻱ ﻛﺸﺶ ﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ ﺣﺪﺍﻛﺜﺮ ﻧﻴﺮﻭﻱ ﻭﺍﺭﺩﻩ ﺑﺎﻳﺪ‬ ‫‪‬‬
‫ﻧﺒﺎﺷﺪ‬
‫‪ 20‬ﺑﺮﺍﺑﺮ ﻭ ﭘﺲ ﺍﺯ ﻧﺼﺐ ﻧﻴﺰ ﻛﻤﺘﺮ ﺍﺯ‪ 15‬ﺑﺮﺍﺑﺮ ﻗﻄﺮ ﺧﺎﺭﺟﻲ ﻛﺎﺑﻞ ‪.‬‬
‫ﺷﻌﺎﻉ ﺧﻤﺶ ﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ ﺩﺭ ﺯﻣﺎﻥ ﻧﺼﺐ ﻛﻤﺘﺮ ﺍﺯ‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﺑﺎﺷﺪﻛﻪ ﺑﺎ ﻧﺼﺐ ﺁﻭﻳﺰ ﺩﺭ ﺩﺍﺧﻞ ﺣﻮﺿﭽﻪ ﻫﺎ ﻣﻨﻈﻢ ‪.‬‬
‫ﻣﻘﺪﺍﺭ ﺩﺳﺖ ﭘﻴﭻ)‪ (LOP‬ﻛﺎﺑﻞ ﺩﺍﺧﻞ ﺣﻮﺿﭽﻪﻫﺎ ﺣﺪﺍﻗﻞ‪ 5‬ﻣﺘﺮ ﺩﺭ ﻫﺮ ﺳﻤﺖ ‪.‬‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﺳﭙﺲ ﻣﻄﺎﺑﻖ ﺑﺎ ﺷﻜﻞ ﺯﻳﺮ ﻋﻤﻞ ‪.‬‬
‫ﺑﺮﺍﻱ ﻧﺼﺐ ﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ ﻻﺯﻡ ﺍﺳﺖ ﺍﺑﺘﺪﺍ ﺩﺭﻭﻥ ﻟﻮﻟﻪ ﻃﻨﺎﺏ ﻧﺼﺐ ‪.‬ﺷﻮﺩ‬ ‫‪‬‬
‫‪‬‬
‫‪‬‬
‫ﻧﻤﺎﻱ ﻧﺼﺐ ﻛﺎﺑﻞ ﻓﻴﺒﺮ ﻧﻮﺭﻱ‬
‫‪Outdoor‬‬

‫‪‬‬
‫ﺷﻮﺩ‪:‬‬
‫ﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ ﺩﺭ ﻣﻜﺎﻥﻫﺎﻱ ﻭﺭﻭﺩﻱ ﺳﺎﺧﺘﻤﺎﻥ ﺑﻪ ﺩﻭ ﺻﻮﺭﺕ ﺳﺮﺑﻨﺪﻱ ﻣﻲ‬ ‫‪‬‬
‫‪ Indoor‬ﻓﻴﻮژﻥ ﻣﻲﺷﻮﺩ‪.‬‬
‫‪ o‬ﻳﺎ ﺩﺭﻭﻥ ﻳﻚ ﺟﻌﺒﻪ ﻣﺨﺼﻮﺹ ﺑﻪ ﻛﺎﺑﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺑﻪ ﻛﺎﺑﻞ‬
‫ﮔﺮﺩﺩ‪.‬‬
‫‪ o‬ﻳﺎ ﻣﺴﺘﻘﻴﻤﺎً ﺑﺪﺍﺧﻞ ﺭﻙ ﺭﻓﺘﻪ ﻭ ﺩﺭ ﭘﭻ ﭘﻨﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺳﺮﺑﻨﺪﻱ ﻣﻲ‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 13‬ﺍﺯ ‪36‬‬

‫ﺳﺎﺧﺘﻤﺎﻥﻫﺎ ﺍﺯ ﻧﻮﻉ ‪ SM‬ﻭ ﻣﺼﻠﺢ )‪ (Armored‬ﺍﻧﺘﺨﺎﺏ ﺷﻮﻧﺪ‪ .‬ﻻﺯﻡ ﺍﺳﺖ ﺑﻪ ﺗﻌﺪﺍﺩ‬

‫‌‬ ‫ﻛﺎﺑﻞﻫﺎﻱ ﻓﻴﺒﺮ ﻧﻮﺭﻱ ﺑﺪﻭﻥ ﺗﻮﺟﻪ ﺑﻪ ﻓﺎﺻﻠﻪ ﺑﻴﻦ‬
‫ﺗﻤﺎﻣﻲ ‌‬
‫ﺳﺎﺧﺘﻤﺎﻥﻭ ﻣﺮﻛﺰ ﻣﺨﺎﺑﺮﺍﺕ ﺳﺎﻳﺖ)ﺍﻃﺎﻕ ﺭﺍﺩﻳﻮ( ﺑﺮﻗﺮﺍﺭ‬
‫ﻫﺎ‬ ‫ﺭﺷﺘﻪﺍﻱ ﻛﻪ ﻛﺎﺭﺷﻨﺎﺳﺎﻥ ﺍﻛﺘﻴﻮ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﺍﻋﻼﻡ ﻣﻲ ﻛﻨﻨﺪ ﺍﺭﺗﺒﺎﻁ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺑﻴﻦ‬
‫ﺍﺳﺖ‬
‫ﺍﺳﺖ ﻣﺸﺨﺼﺎﺕ ﻋﻤﻮﻣﻲ ﻛﺎﺑﻞﻫﺎ ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ‪:‬‬
‫ﺷﻮﺩ‪ .‬ﺍﻳﻦ ﺗﻌﺪﺍﺩ ﺣﺪﺍﻗﻞ‪ 6‬ﺭﺷﺘﻪ ﻭ ﺣﺪﺍﻛﺜﺮ‪ 24‬ﺭﺷﺘﻪ ‪.‬‬

‫‪‬‬ ‫‪OUTDOOR SM, CENTRAL TUBE, GEL FILLED, FIBER OPTIC CABLE, 4000m‬‬
‫‪PER REEL‬‬
‫‪‬‬
‫‪ - 2- 7‬ﻛﺎﺑﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ‪Indoor‬‬
‫ﻧﻤﺎﻳﺪ‪ .‬ﺍﺯﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ‬
‫ﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ ﺩﺍﺭﺍﻱ ﻳﻚ ﺭﻭﻛﺶ ﺿﺪ ﺁﺗﺶ)‪ (LSZH‬ﺍﺳﺖ ﻛﻪ ﺩﺭ ﺟﺮﻳﺎﻥ ﺁﺗﺶ ﺳﻮﺯﻱ ﺍﺯ ﺗﻮﻟﻴﺪ ﺩﻭﺩ ﻧﻴﺰ ﺟﻠﻮﮔﻴﺮﻱ ﻣﻲ‬
‫ﺷﻮﺩ‬
‫ﻣﻮﺍﺭﺩ ﺯﺗﻮﺟﻪ ‪:‬‬
‫ﺷﻮﺩ‪ .‬ﺑﺮﺍﻱ ﺟﻠﻮﮔﻴﺮﻱ ﺍﺯ ﺻﺪﻣﺎﺕ ﻧﺎﺷﻲ ﺍﺯ ﻧﺼﺐ ﻏﻴﺮﺍﺻﻮﻟﻲ ﺑﺎﻳﺪ ﺑﻪ ﻳﺮ‬
‫ﺩﺭﺩﺍﺧﻞ ﺳﺎﺧﺘﻤﺎﻥ ﺍﺳﺘﻔﺎﺩﻩ ﻣﻲ‬

‫ﻧﻤﺎﻳﺪ‬
‫‪.‬‬ ‫‪ 200‬ﻧﻴﻮﺗﻦ )ﺣﺪﻭﺩ ‪ 20‬ﻛﻴﻠﻮﮔﺮﻡ( ﺗﺠﺎﻭﺯ‬
‫ﻧﻴﺮﻭﻱ ﻛﺸﺶ ﺑﺮﺍﻱ ﻧﺼﺐ ﺁﻥ ﺩﺭ ﺩﺍﺧﻞ ﻟﻮﻟﻪ ﻧﺒﺎﻳﺪ ﺍﺯ‬ ‫‪‬‬
‫ﺍﺳﺖ‬
‫‪ 15‬ﺑﺮﺍﺑﺮ ﻭ ﭘﺲ ﺍﺯ ﻧﺼﺐ‪ 10‬ﺑﺮﺍﺑﺮ ﻗﻄﺮ ﺧﺎﺭﺟﻲ ﻛﺎﺑﻞ ‪.‬‬
‫ﺣﺪﺍﻗﻞ ﺯﺍﻭﻳﻪ ﺧﻤﺶ ﺑﺮﺍﻱ ﺍﻳﻦ ﻧﻮﻉ ﻛﺎﺑﻞ ﺩﺭ ﺯﻣﺎﻥ ﻧﺼﺐ‬ ‫‪‬‬
‫ﻛﺮﺩ‬
‫ﺑﺮﺍﻱ ﻛﺸﺶ ﻣﻲﺑﺎﻳﺪ ﺍﺯ ﺭﺷﺘﻪ ﻫﺎﻱ‪ yarn‬ﺩﺍﺧﻞ ﻛﺎﺑﻞ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﺍﺿﺎﻓﻲ ﻛﺎﺑﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺩﺭ‪ Service Loop Box‬ﻭ ﺩﺭ ﻛﻨﺎﺭ ﺭﻙ ﻧﮕﻬﺪﺍﺭﻱ ‪.‬‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﻧﻮﺭﻱﺗﺎ ‪ 12‬ﺭﺷﺘﻪ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﺑﺴﺘﻪ ﺑﻪ ﻧﻴﺎﺯ ﻫﺮ ﺳﺎﺧﺘﻤﺎﻥ ﺍﺯ ﻛﺎﺑﻞ ﻓﻴﺒﺮ ‪6‬‬ ‫‪‬‬
‫ﺍﺳﺖ‬
‫ﻣﺸﺨﺼﺎﺕ ﻋﻤﻮﻣﻲ ﻛﺎﺑﻞ ﻫﺎﻱ ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ‪:‬‬ ‫‪‬‬
‫‪‬‬ ‫‪INDOOR/OUTDOOR SM, LSZH, TB FIBER OPTIC CABLE, 2000m PER REEL‬‬
‫‪‬‬
‫ﻭﻝ ﻛﺎﺑﻞ ﻓﻴﺒﺮ ﻧﻮﺭﻱ ‪ IN DOOR‬ﻭ ‪ OUTDOOR‬ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ﻣﻲ ﺑﺎﺷﺪ ‪ ،‬ﺩﺭ ﻏﻴﺮ ﺍﻳﻦ ﺻﻮﺭﺕ ﻗﺒﻞ ﺍﺯ ﺗﻬﻴﻪ ﻣﻲ ﺑﺎﻳﺴﺖ‬
‫ﻣﺎﺭﻙ ﻫﺎﻱ ﻣﻮﺭﺩ ﻗﺐ‬
‫ﭘﺬﻳﺮﺩ‬
‫‪.‬‬ ‫ﺁﺯﻣﺎﻳﺶ ﻫﺎﻱ ﻻﺯﻡ ﺭﻭﻱ ﻓﻴﺒﺮ ﺻﻮﺭﺕ‬

‫‪‬‬ ‫‪NEXANS‬‬
‫‪‬‬ ‫‪R&M‬‬
‫‪‬‬ ‫‪CONNECTIX‬‬
‫‪‬‬ ‫‪AMP‬‬
‫‪‬‬ ‫‪CAE‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 14‬ﺍﺯ ‪36‬‬

‫‪‬‬ ‫‪SIEMON‬‬
‫‪‬‬ ‫‪HUBBELL‬‬
‫‪‬‬ ‫‪UNICOM‬‬
‫‪- 8‬ﭘﭻ ﻛﻮﺭﺩﻫﺎﻱ ﻓﻴﺒﺮ ﻧﻮﺭﻱ‬
‫ﺷﻮﺩﻫﻤﭽﻨﻴﻦ ﺟﻬﺖ ﺑﺮﻗﺮﺍﺭﻱ ﺍﺭﺗﺒﺎﻃﺎﺕ‬ ‫ﺟﻬﺖ ﺑﺮﻗﺮﺍﺭ ﺍﺭﺗﺒﺎﻁ ﺑﻴﻦ ﺳﻮﺋﻴﭻ ﻫﺎﻱ ﻭ ﭘﭻ ﭘﻨﻞ ﻫﺎﻱﻓﻴﺒﺮﻧﻮﺭﻱ ﺍﺯ ﭘﭻ ﻛﻮﺭﺩ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺍﺳﺘﻔﺎﺩﻩ ﻣﻲ ‪.‬‬
‫ﮔﺮﺩﺩﺑﻪ ﻫﻤﻴﻦ ﻣﻨﻈﻮﺭ ﺳﻪ ﻧﻮﻉ ﭘﭻ ﻛﻮﺭﺩ ﺯﻳﺮ ﺑﺮﺍﻱ ﺑﺮﻗﺮﺍﺭﻱ ﺍﺭﺗﺒﺎﻃﺎﺕ ﻓﻮﻕ‬
‫ﻣﻮﺭﺩ ﻧﻴﺎﺯ ﺑﻴﻦ ﺩﻭ ﺳﻮﺋﻴﭻ ﻧﻴﺰ ﺍﺯ ﭘﭻ ﻛﻮﺭﺩ ﻣﻨﺎﺳﺐ ﺁﻥ ﺍﺳﻔﺎﺩﻩ ﻣﻲ ‪.‬‬
‫ﺷﻮﺩ‬
‫ﺍﻟﺬﻛﺮ ﭘﻴﺸﻨﻬﺎﺩ ﻣﻲ ‪:‬‬

‫‪‬‬ ‫‪SC-LC 1M DUPLEX SM OPTICAL FIBER PATCH CORD‬‬

‫‪‬‬ ‫‪SC-LC 2M DUPLEX SM OPTICAL FIBER PATCH CORD‬‬
‫‪‬‬ ‫‪LC-LC 2M DUPLEX SM OPTICAL FIBER PATCH CORD‬‬
‫‪‬‬
‫‪‬‬
‫‪‬‬
‫‪‬‬
‫‪- 9‬ﭘﻴﮕﺘﻴﻞ‬
‫ﭘﻨﻞ ﻻﺯﻡ ﺍﺳﺖ ﺍﺯ ﭘﻴﮕﺘﻴﻞ ﺑﺎ ﻣﺸﺨﺼﺎﺕ ﺯﻳﺮ ﺍﺳﺘﻔﺎﺩﻩ ‪:‬ﺷﻮﺩ‬
‫ﺑﺮﺍﻱ ﺳﺮﺑﻨﺪﻱ ﻛﺎﺑﻠﻬﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺩﺭ ﭘﭻ ﻫﺎ‬

‫‪‬‬ ‫‪1.5M, SC Simplex, SM, 900 Micron, Pigtail‬‬

‫‪‬‬
‫ﭘﭻ ﭘﻨﻞ ﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ‬ ‫‪- 10‬‬
‫ﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺳﺮﺑﻨﺪﻱ ﻣﻲﺷﻮﻧﺪ‪ .‬ﻻﺯﻡ ﺍﺳﺖ ﺩﺭ ﺩﺍﺧﻞ ﭘﭻ ﭘﻨﻞ ﻫﺎ ﺍﺯ ﻛﺎﺳﺖ ﻣﻨﺎﺳﺐ‬
‫ﻛﻠﻴﻪ ﻛﺎﺑﻠﻬﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺩﺭ ﺩﻭ ﻃﺮﻑ ﻫﺮ ﺧﻂ ﺩﺭ ﭘﭻ ﭘﻨﻞ‬
‫ﺷﻮﺩ ﺍﻳﻦ ﻛﺎﺳﺖ ﺑﺴﺘﻪ ﺑﻪ ﺗﻌﺪﺍﺩ ﺭﺷﺘﻪﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻛﻪ ﺩﺭ ﭘﭻ ﭘﻨﻞ ﺳﺮﺑﻨﺪﻱ ﻣﻲﺷﻮﻧﺪ‪ ،‬ﻗﺎﺑﻠﻴﺖ ﻣﻬﺎﺭ ﻛﺮﻳﻤﭗ ﺣﺮﺍﺭﺗﻲ‪ 12‬ﺗﺎ ‪24‬‬
‫ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﺩﺍﺭﻧﺪ‬
‫ﺭﺷﺘﻪ ﺗﺎﺭ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺳﺮﺑﻨﺪﻱ ﺷﺪﻩ ﺭﺍ ‪.‬‬

‫ﺍﺳﺖ‬
‫ﻣﺸﺨﺼﺎﺕ ﭘﭻ ﭘﻨﻞﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻧﻴﺰ ﺑﻪ ﺷﺮﺡ ﺯﻳﺮ ‪:‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 15‬ﺍﺯ ‪36‬‬

‫‪‬‬ ‫‪6 SC PORTS (3 DUPLEX) SM FIBER OPTIC PATCH PANEL‬‬

‫‪‬‬ ‫‪12 SC PORTS (6 DUPLEX) SM FIBER OPTIC PATCH PANEL‬‬
‫‪‬‬ ‫‪24 SC PORTS (12 DUPLEX) SM FIBER OPTIC PATCH PANEL‬‬
‫‪‬‬
‫ﺍﺳﺖ‬
‫ﻣﺎﺭﻙﻫﺎﻱ ﻣﻮﺭﺩ ﻗﺒﻮﻝﭘﭻ ﻛﻮﺭﺩ ‪ ،‬ﭘﭻ ﭘﻨﻞ ﻭ ﭘﻴﮕﺘﻴﻞ ﻓﻴﺒﺮ ﻧﻮﺭﻱ ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ‪:‬‬ ‫‪‬‬
‫‪‬‬ ‫‪NEXANS‬‬
‫‪‬‬ ‫‪R&M‬‬
‫‪‬‬ ‫‪CONNECTIX‬‬
‫‪‬‬ ‫‪AMP‬‬
‫‪‬‬ ‫‪CAE‬‬
‫‪‬‬ ‫‪SIEMON‬‬
‫‪‬‬ ‫‪HUBBELL‬‬
‫‪‬‬ ‫‪UNICOM‬‬
‫ﮔﺮﺩﺩ‬
‫ﻻﺯﻡ ﺍﺳﺖ ﺗﻤﻬﻴﺪﺍﺕ ﺯﻳﺮ ﺩﺭ ﺷﺒﻜﻪ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺳﺎﻳﺖ ﻫﺎ ﺭﻋﺎﻳﺖ ‪:‬‬

‫ﺷﻮﺩ ﺑﺪﻳﻬﻲ ﺍﺳﺖ ﻣﻤﻜﻦ ﺍﺳﺖ ﺍﻳﻦ ﻣﺮﻛﺰ‪ ،‬ﺍﻃﺎﻕ ﺭﺍﺩﻳﻮ‪،‬ﺍﻃﺎﻕ ﻛﻨﺘﺮﻝ‬
‫ﻫﺎ ﺑﻪ ﻣﺮﻛﺰ ‪ WAN‬ﺳﺎﻳﺖ ﻣﺘﺼﻞ ‪.‬‬ ‫ﺳﺎﺧﺘﻤﺎﻥ‬
‫‌‬ ‫ﺍﺭﺗﺒﺎﻁ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺗﻤﺎﻡ‬ ‫‪‬‬
‫ﺳﺎﺧﺘﻤﺎﻥ ﺑﺎ ﺳﺎﺧﺘﻤﺎﻥ ﻣﻮﺭﺩ ﻧﻈﺮ ﺑﺼﻮﺭﺕ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺟﻬﺖ ﺍﺗﺼﺎﻝ ﺑﻪ ﺳﻮﺋﻴﭻ‬
‫‌ﻫﺎ‬ ‫ﺑﺎﺷﺪﺑﻪ ﻫﺮ ﺻﻮﺭﺕ ﻻﺯﻡ ﺍﺳﺖ ﺍﺭﺗﺒﺎﻁ‬
‫ﻭ ﻳﺎ ﺳﺎﺧﺘﻤﺎﻥ ﺍﺩﺍﺭﻱ ‪.‬‬
‫ﺷﻮﺩ‬
‫ﭘﻴﺶﺑﻴﻨﻲ ‪.‬‬
‫‌‬ ‫ﺍﺻﻠﻲ ﻭ ﺍﺯ ﺁﻧﺠﺎ ﺑﻪ‪WAN‬‬
‫ﺳﺎﺧﺘﻤﺎﻥﻫﺎ ﻻﺯﻡ ﺍﺳﺖ ﻣﺴﻴﺮﻫﺎﻱ ﻣﻮﺭﺩ ﻧﻴﺎﺯ ﭘﻴﺶﺑﻴﻨﻲ ﺷﺪﻩ ﻭ ﺑﺮﻭﺵ ﺣﻔﺎﺭﻱ ﻭ ﻟﻮﻟﻪﮔﺬﺍﺭﻱ ﻭ ﺍﻳﺠﺎﺩ‬
‫‌‬ ‫ﺟﻬﺖ ﺑﺮﻗﺮﺍﺭﻱ ﺍﺭﺗﺒﺎﻁ ﺷﺒﻜﻪ ﺑﻴﻦ‬ ‫‪‬‬
‫ﮔﺮﺩﺩ‬
‫‪.‬‬ ‫ﻣﻲﺑﺎﻳﺴﺖ ﺍﺯ ﻛﺎﺑﻞ ﻓﻴﺒﺮ ﻧﻮﺭﻱ‪ SM‬ﺍﺳﺘﻔﺎﺩﻩ‬
‫ﮔﺮﺩﺩ ﻫﻤﭽﻨﻴﻦ ‌‬
‫ﺣﻮﺿﭽﻪﻫﺎﻳﻲ ﺩﺭ ﻓﻮﺍﺻﻞ‪ 50‬ﻣﺘﺮﻱ ﺍﺟﺮﺍ ‪.‬‬
‫‌‬

‫ﺟﻌﺒﻪ ﺩﻳﻮﺍﺭﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ‪Fiber Box‬‬ ‫‪- 11‬‬

‫ﺷﺪﺩﺭﺍﻳﻦ ﺟﻌﺒﻪ ﻛﺎﺑﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ‪ Outdoor‬ﺑﻪ ﻛﺎﺑﻞ‬
‫ﺍﻳﻦ ﺟﻌﺒﻪ ﺩﺭﻣﺤﻞ ﻭﺭﻭﺩﻱ ﻛﺎﺑﻞ ﻓﻴﺒﺮﻧﻮﺭﻱ‪ Outdoor‬ﺑﻪ ﺩﺍﺧﻞ ﺳﺎﺧﺘﻤﺎﻥ ﻧﺼﺐ ﺧﻮﺍﻫﺪ ‪.‬‬
‫ﻓﻴﺒﺮﻧﻮﺭﻱ‪ Indoor‬ﻣﺘﺼﻞ ﻣﻲﺷﻮﺩ‪.‬‬
‫ﺍﺳﺖ‬
‫ﻧﺤﻮﻩ ﻧﺼﺐ ﺍﻳﻦ ﺟﻌﺒﻪ ﻫﺎ ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ‪:‬‬

‫ﺍﻳﻦ ﺟﻌﺒﻪ ﺩﺍﺭﺍﻱ ﺩﻭ ﻗﺴﻤﺖ ﻓﻴﺰﻳﻜﻲ ﻣﺠﺰﺍ ﺍﺳﺖ‬ ‫‪‬‬

 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 16‬ﺍﺯ ‪36‬‬

‫ﺩﺭ ﻗﺴﻤﺖ ﻭﺭﻭﺩﻱ‪ ،‬ﻛﺎﺑﻞﻫﺎﻱ ‪ Outdoor‬ﭘﺲ ﺍﺯﻋﺒﻮﺭ ﺍﺯ ﮔﻠﻨﺪ ﻭﺍﺭﺩ ﺍﻳﻦ ﻗﺴﻤﺖ ﺷﺪﻩ ﻭ ﭘﺲ ﺍﺯ ﻓﻴﻜﺲ ﺷﺪﻥ ﺑﻪ ﻭﺭﻭﺩﻱ ﺟﻌﺒﻪ ﺭﻭﻛﺶ ﺁﻧﻬﺎ‬ ‫‪‬‬
‫ﺷﺪ‬
‫ﺑﺮﺩﺍﺷﺘﻪ ﺧﻮﺍﻫﺪ ‪.‬‬

‫ﺷﻮﺩ‪ .‬ﺍﻳﻦ ﻛﺎﺭ ﺑﺎﻳﺪ ﺑﺎ ﺩﺭﻧﻈﺮ ﮔﺮﻓﺘﻦ ﺣﺪﺍﻗﻞ ﺷﻌﺎﻉ ﺧﻤﺶ‬

‫ﭘﺲ ﺍﺯ ﺟﺪﺍ ﻛﺮﺩﻥ ﺭﻭﻛﺶ‪ ،‬ﺗﻴﻮﺏ ﺣﺎﻭﻱ ﺭﺷﺘﻪﻫﺎ ﺑﻪ ﻛﺎﺳﺖ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻫﺪﺍﻳﺖ ﻣﻲ‬ ‫‪‬‬
‫ﮔﻴﺮﺩ‬
‫ﺍﻧﺠﺎﻡ ‪.‬‬

‫ﺣﺪﻭﺩﻱ ﻣﺘﺮ ﺗﻴﻮﺏ ﺁﻧﻬﺎ ﺑﺮﺩﺍﺷﺘﻪ ﺷﺪﻩ ﻭ ﺑﺮﺍﻱ ﻋﻤﻞ‬

‫‪2‬‬ ‫ﺗﻴﻮﺏﻫﺎ ﺑﻪ ﻛﺎﺳﺖ ﻣﺨﺼﻮﺹ ﻓﻴﻮژﻥ ﻣﺘﺼﻞ ﮔﺸﺘﻪ ﻭ ﭘﺲ ﺍﺯ ﻣﻬﺎﺭ ﺷﺪﻥ‪ ،‬ﺑﻪ ﻣﺘﺮﺍژ‬ ‫‪‬‬
‫ﻓﻴﻮژﻥ ﺁﻣﺎﺩﻩ ﺳﺎﺯﻱ ﻣﻲﺷﻮﻧﺪ‪.‬‬

‫ﺧﻮﺍﻫﺪﺷﺪﺍﺭﺗﻔﺎﻉ ﻧﺼﺐ ﺳﻄﺢ ﭘﺎﺋﻴﻦ ﺟﻌﺒﻪ ﺍﺯ ﺯﻣﻴﻦ ﺣﺪﻭﺩ‪130‬ﺳﺎﻧﺘﻴﻤﺘﺮ‬

‫‪.‬‬ ‫ﺍﻳﻦ ﺟﻌﺒﻪ ﺑﺎ ﭘﻴﭻ‪ ،‬ﻭﺍﺷﺮ ﻭ ﺭﻭﻝﭘﻼگ ﻣﻨﺎﺳﺐ ﺑﻪ ﺩﻳﻮﺍﺭ ﻣﺘﺼﻞ‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‪.‬‬
‫ﻧﻤﺎﻱ ﺟﻌﺒﻪ ﺩﻳﻮﺍﺭﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ‬
‫‪Fiber Box‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 17‬ﺍﺯ ‪36‬‬

‫ﻟﻮﻟﻪ ﻫﺎﻱ ﮔﺎﻟﻮﺍﻧﻴﺰﻩ‬ ‫‪- 12‬‬

‫ﻟﻮﻟﻪﻫﺎﻱ ﮔﺎﻟﻮﺍﻧﻴﺰﻩ)‪ (Intermediate Metal Conduit‬ﻛﻪ ﺩﺭ ﺷﺎﺧﻪﻫﺎﻱ ‪3‬ﻣﺘﺮﻱ ﺩﺭﺩﺳﺘﺮﺱ ﻣﻲﺑﺎﺷﻨﺪ ﻭ ﺑﺎ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﺑﻮﺷﻦ ﺑﻪ ﻳﻜﺪﻳﮕﺮ ﻣﺘﺼﻞ‬
‫ﻣﻲﺷﻮﻧﺪ‪.‬‬
‫ﻧﻤﺎﻱ ﻟﻮﻟﻪ ﻫﺎﻱ ﮔﺎﻟﻮﺍﻧﻴﺰﻩ‬

‫ﻣﻮﺍﺭﺩﻱ ﻛﻪ ﻻﺯﻡ ﺍﺳﺖ ﺩﺭ ﺯﻣﺎﻥ ﻧﺼﺐ ﺍﻳﻦ ﻟﻮﻟﻪ ﻫﺎ ﺭﻋﺎﻳﺖ ﺷﻮﻧﺪ ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ‪:‬ﺍﺳﺖ‬

‫ﺷﻮﺩﺑﺎﻳﺪ ﺗﻮﺟﻪ ﺩﺍﺷﺖ ﻛﻪ ﺑﺮﺍﻱ ﺍﺗﺼﺎﻝ ﻟﻮﻟﻪ ﺑﻪ‬

‫ﺑﺮﺍﻱ ﻛﺸﻴﺪﻥ ﻛﺎﺑﻞﻫﺎ ﺑﺎﻳﺪ ﺩﺭﻫﺮ ‪20‬ﻣﺘﺮ ﻟﻮﻟﻪ ﻧﺼﺐ ﺷﺪﻩ‪ ،‬ﻳﻚ ﺟﻌﺒﻪ ﺗﻘﺴﻴﻢ ﻓﻠﺰﻱ ﻧﺼﺐ ‪.‬‬ ‫‪‬‬
‫ﺑﻮﺟﻮﺩ ﻧﻴﺎﻳﺪ‬
‫‪.‬‬ ‫ﺍﻳﻦ ﺟﻌﺒﻪ ﻻﺯﻡ ﺍﺳﺖ ﺍﺯ ﮔﻠﻨﺪﻫﺎﻱ ﻣﺮﺑﻮﻃﻪ ﺍﺳﺘﻔﺎﺩﻩ ﻧﻤﻮﺩ ﺗﺎ ﻫﻴﭻ ﻓﻀﺎﻳﻲ ﺑﻴﻦ ﺳﺮ ﻟﻮﻟﻪ ﻭ ﺟﻌﺒﻪ‬

‫ﺷﻮﺩﻟﺬﺍ ﺑﺎﻳﺪ ﺭﺯﻭﻩ‪-‬‬

‫ﺩﺭﺍﻧﺘﻬﺎﻱ ﻟﻮﻟﻪ ﻧﺴﺒﺖ ﺑﻪ ﺍﻳﺠﺎﺩ ﺭﺯﻭﻩ ﺍﻗﺪﺍﻡ ‪.‬‬
‫ﺩﺭﺷﺮﺍﻳﻄﻲ ﻛﻪ ﻧﺼﺎﺏ ﺩﺭﺟﺮﻳﺎﻥ ﻧﺼﺐ ﻣﺠﺒﻮﺭ ﺑﻪ ﻛﻮﺗﺎﻩ ﻛﺮﺩﻥ ﻟﻮﻟﻪ ﺷﻮﺩ ﺑﺎﻳﺪ‬ ‫‪‬‬
‫ﭘﻴﺶ ﻧﻴﺎﻳﺪ‬
‫ﻫﺎﻱ ﺟﺪﻳﺪ ﺭﺍ ﺑﺼﻮﺭﺕ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ ﺑﺼﻮﺭﺗﻲ ﺍﻳﺠﺎﺩ ﻛﺮﺩ ﻛﻪ ﺩﺭﺟﺮﻳﺎﻥ ﺍﺗﺼﺎﻝ ﺩﻭ ﻟﻮﻟﻪ ﺑﻪ ﻳﻜﺪﻳﮕﺮ ﻣﺸﻜﻠﻲ ‪.‬‬

‫ﻛﺮﺩ‬
‫ﻣﺘﺼﻞﮔﺮﺩﻧﺪ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﺑﺮﺍﻱ ﻧﺼﺐ ﺍﻳﻦ ﻟﻮﻟﻪﻫﺎ ﺑﻪ ﺩﻳﻮﺍﺭ ﺑﺎﻳﺪ ﺍﺯ ﺑﺴﺖﻫﺎﻱ ﺩﻭ ﭘﺎﻳﻪ ﻟﻮﻟﻪ ﮔﺎﺯ ﻛﻪ ﺗﻮﺳﻂ ﭘﻴﭻ ﻭ ﺭﻭﻝ ﭘﻼگ ﺑﻪ ﺩﻳﻮﺍﺭ ﻣﻲ‬ ‫‪‬‬
‫ﺩﺭﺷﺮﺍﻳﻄﻲ ﻛﻪ ﭘﺎﺭﻩﺍﻱ ﺍﺯ ﺑﺮﺁﻣﺪﮔﻲﻫﺎﻱ ﺩﻳﻮﺍﺭ ﺩﺭﻣﺴﻴﺮ‪ ،‬ﻧﺼﺐ ﻟﻮﻟﻪ ﻫﺎ ﺭﺍ ﺑﺎ ﺍﺷﻜﺎﻝ ﺭﻭﺑﺮﻭ ﺳﺎﺯﺩ ﻣﻲ ﺗﻮﺍﻥ ﻟﻮﻟﻪ ﻫﺎﺭﺍ ﺑﺼﻮﺭﺕ ﻣﻨﺤﻨﻲ ﻭ ﺑﺴﻴﺎﺭ‬ ‫‪‬‬
‫ﻧﻤﻮﺩ‬
‫ﻣﺤﺪﻭﺩ ﺧﻢ ‪.‬‬

‫ﺑﺮﺍﻱ ﻧﻘﺎﻃﻲ ﻛﻪ ﻟﻮﻟﻪﻫﺎ ﻻﺯﻡ ﺍﺳﺖ ﺗﻐﻴﻴﺮ ﻣﺴﻴﺮﺩﻫﺪ ﺍﺯ ﺯﺍﻧﻮﻫﺎﻱ ﺩﺭﺏ ﺩﺍﺭ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬ﺷﻮﺩ‬ ‫‪‬‬
‫ﻟﻮﻟﻪﺩﺭﻳﻚ ﻣﺴﻴﺮ ﻣﺴﺘﻘﻴﻢ ﻭ ﺑﻪ ﻣﻮﺍﺯﺍﺕ ﻳﻜﺪﻳﮕﺮ‬
‫ﺩﺭ ﺻﻮﺭﺗﻲ ﻛﻪ ﻻﺯﻡ ﺍﺳﺖ ﭼﻨﺪ ﻟﻮﻟﻪ ﺩﺭ ﺍﻣﺘﺪﺍﺩ ﻳﮕﺪﻳﮕﺮ ﻧﺼﺐ ﺷﻮﺩ‪ ،‬ﺑﺎﻳﺪ ﺳﻌﻲ ﻛﺮﺩ ﻛﻪ ﻫﺎ‬ ‫‪‬‬
‫ﺷﻮﻧﺪ‬
‫‪.‬‬ ‫ﻧﺼﺐ‬

‫ﺍﺭﺗﻔﺎﻉ ﻧﺼﺐ ﻟﻮﻟﻪﻫﺎ ﻃﺒﻖ ﻧﻘﺸﻪﻫﺎﻱ ﻃﺮﺍﺣﻲ ﺷﺪﻩ ﺗﻮﺳﻂ ﻣﻬﻨﺪﺱ ﻣﺸﺎﻭﺭ ﺧﻮﺍﻫﺪ ‪.‬ﺑﻮﺩ‬ ‫‪‬‬
‫ﺍﺳﺖ‬
‫ﺩﺍﺧﻠﻲ ﺁﺍﺭﺍﺋﻪ ﮔﺮﺩﻳﺪﻩ ‪.‬‬
‫ﺩﺭﺟﺪﻭﻝ ﺯﻳﺮﺗﻌﺪﺍﺩ ﻛﺎﺑﻞﻫﺎﻱ ﻗﺎﺑﻞ ﻫﺪﺍﻳﺖ ﺍﺯﺩﺍﺧﻞ ﻟﻮﻟﻪ ﺑﺎ ﺩﺭﻧﻈﺮ ﮔﺮﻓﺘﻦ ﻓﻀﺎﻱ ﻥ‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 18‬ﺍﺯ ‪36‬‬

‫ﺟﺪﻭﻝ ﺗﻌﺪﺍﺩ ﻛﺎﺑﻞﻫﺎﻱ ﻗﺎﺑﻞ ﻫﺪﺍﻳﺖ ﺍﺯﺩﺍﺧﻞ ﻟﻮﻟﻪ ﮔﺎﻟﻮﺍﻧﻴﺰﻩ‬

‫ﺩﺭﺟﺪﻭﻝ ﺯﻳﺮ ﻣﻴﺰﺍﻥ ﺣﺪﺍﻗﻞ ﺷﻌﺎﻉ ﺧﻤﺶ ﻣﺠﺎﺯ ﺑﺮﺍﻱ ﻟﻮﻟﻪ ﻫﺎ ﺍﺭﺍﺋﻪ ﺷﺪﻩ ‪:‬ﺍﺳﺖ‬ ‫‪‬‬

‫ﺟﺪﻭﻝ ﻣﻴﺰﺍﻥ ﺣﺪﺍﻗﻞ ﺷﻌﺎﻉ ﺧﻤﺶ ﻣﺠﺎﺯ ﺑﺮﺍﻱ ﻟﻮﻟﻪ ﮔﺎﻟﻮﺍﻧﻴﺰﻩ‬

 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 19‬ﺍﺯ ‪36‬‬

‫ﻟﻮﻟﻪ ﺧﺮﻃﻮﻣﻲ‬ ‫‪- 13‬‬

‫ﻗﻄﻌﻪ ﺍﻱ‬
‫ﻟﻮﻟﻪ ﻫﺎﻱ ﺧﺮﻃﻮﻣﻲ ﻣﻮﺭﺩ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯﻧﻮﻉ ﺭﻭﻛﺶ ﺩﺍﺭ ﺑﻮﺩﻩ ﻛﻪ ﻻﺯﻡ ﺍﺳﺖ ﺑﺎ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﮔﻠﻨﺪ ﻣﺘﻨﺎﺳﺐ ﺑﺎ ﺍﻧﺪﺍﺯﻩ ﻟﻮﻟﻪ ﺑﻪ ﺟﻌﺒﻪ ﻳﺎ ﺑﻪ ﻛﻪ‬
‫ﮔﺮﺩﺩﺍﺯ ﻛﺸﻴﺪﻩ ﺷﺪﻥ ﺑﻴﺶ ﺍﺯ ﺣﺪ ﻟﻮﻟﻪ ﺧﺮﻃﻮﻣﻲ ﺟﻠﻮﮔﻴﺮﻱ‬ ‫ﮔﺮﺩﺩ ﺑﺮﺍﻱ ﺍﻳﻨﻜﺎﺭ ﺑﺎﻳﺪ ﺟﻌﺒﻪ ﺑﻪ ﺍﻧﺪﺍﺯﻩ ﺭﺯﻭﻩ ﮔﻠﻨﺪ‪ ،‬ﺳﻮﺭﺍﺥ ‪.‬‬
‫‪.‬‬ ‫ﻻﺯﻡ ﺍﺳﺖ‪ ،‬ﻣﺘﺼﻞ‬
‫ﺷﻮﺩ‪.‬‬
‫ﻧﻤﺎﻱ ﻟﻮﻟﻪ ﺧﺮﻃﻮﻣﻲ‬

‫ﺳﻴﻨﻲ ﻛﺎﺑﻞ ﺑﺮﺍﻱ ﻧﺼﺐ ﺩﺭ ﺯﻳﺮ ﻛﻒ ﻛﺎﺫﺏ‬ ‫‪- 14‬‬

‫ﻛﺮﺩ‬
‫ﻣﻲ ﺍﺯ ﺳﻴﻨﻲ ﻛﺎﺑﻞ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﺩﺭ ﭘﺎﺭﻩﺍﻱ ﺍﺯ ﻣﻮﺍﺭﺩ ﻛﻪ ﺩﺭ ﻣﺤﻴﻂ ﻛﻒ ﻛﺎﺫﺏ ﻧﺼﺐ ﺷﺪﻩ ﺍﺳﺖ ﺑﺮﺍﻱ ﻋﺒﻮﺭ ﻛﺎﺑﻠﻬﺎﺗﻮﺍﻥ‬
‫ﭘﻼگ ﻧﺼﺐ ﺧﻮﺍﻫﻨﺪ ﺷﺪ‪ ،‬ﻗﺮﺍﺭ ﻣﻲﮔﻲﺭﻧﺪ‪ .‬ﻻﺯﻡ ﺍﺳﺖ ﻛﺎﺑﻞ‪-‬‬ ‫ﺍﻳﻦ ﺳﻴﻨﻲﻫﺎ ﺑﺮﺭﻭﻱ ﺳﺎﭘﻮﺭﺕﻫﺎﻱ ﻓﻠﺰﻱ ﻛﻪ ﺑﺮﺭﻭﻱ ﻛﻒ ﻭ ﺑﺎ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﭘﻴﭻ ﻭ ﺭﻭﻝ‬
‫ﻫﺎﻱ ﺩﺭﻭﻥ ﺍﻳﻦ ﺳﻴﻨﻲﻫﺎ ﺑﺼﻮﺭﺕ ﺩﺳﺘﻪ ﻫﺎﻱ ‪ 6‬ﺗﺎﻳﻲ ﻗﺮﺍﺭ ﮔﻴﺮﻧﺪ‪ .‬ﺩﺳﺘﻪﻫﺎﻱ ﺍﻳﺠﺎﺩ ﺷﺪﻩ ﺑﺼﻮﺭﺕ ﻣﻮﺍﺯﻱ ﺑﺮﺭﻭﻱ ﺳﻴﻨﻲ ﺑﺎ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﺑﺴﺖ‬
‫ﮔﺮﺩﺩ‬
‫ﺷﻮﻧﺪﺑﺮﺍﻱ ﻣﺴﻴﺮ ﻛﺎﺑﻞﻫﺎﻱ ﺑﺮﻕ ﻭ ﺷﺒﻜﻪ ﺍﺯ ﺳﻴﻨﻲ ﻫﺎﻱ ﺟﺪﺍ ﮔﺎﻧﻪ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﻛﻤﺮﺑﻨﺪﻱ ﺑﻪ ﺳﻴﻨﻲ ﺑﺴﺘﻪ ‪.‬‬

‫ﺏ‬
‫ﻧﻤﺎﻱ ﺳﻴﻨﻲ ﻛﺎﺑﻞ ﺩﺭ ﺯﻳﺮ ﻛﻒ ﻛﺎﺫ‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 20‬ﺍﺯ ‪36‬‬

‫ﺗﺎﺑﻠﻮ ﺑﺮﻕ‬ ‫‪- 15‬‬

‫‪ - -1 15‬ﻣﻮﻧﺘﺎژ ﺗﺎﺑﻠﻮ ﺑﺮﻕ‬
‫ﺑﺎﺗﻮﺟﻪ ﺑﻪ ﺍﻫﻤﻴﺖ ﺗﺎﺑﻠﻮﻫﺎﻱ ﺑﺮﻕ ﺟﻬﺖ ﻛﻨﺘﺮﻝ ﻭ ﺣﻔﺎﻇﺖ ﺍﺯ ﻭﺳﺎﻳﻞ ﺍﻟﻜﺘﺮﻳﻜﻲ‪ ،‬ﺩﺭﺣﻴﻦ ﺳﺎﺧﺖ ﻭ ﻧﺼﺐ ﺗﺎﺑﻠﻮ ﻧﻜﺎﺕ ﺯﻳﺎﺩﻱ ﺭﺍ ﺑﺎﻳﺪ ﻣﻮﺭﺩ ﺗﻮﺟﻪ‬
‫ﺩﺍﺩ‬
‫ﻗﺮﺍﺭ ‪.‬‬
‫ﻋﻼﻭﻩ ﺑﺮ ﺁﻥ ﺑﺎﻳﺴﺘﻲ ﺗﺎ ﺣﺪ ﺍﻣﻜﺎﻥ ﺍﺯ ﺍﺳﺘﺎﻧﺪﺍﺭﺩﻫﺎﻱ ﻣﺮﺑﻮﻃﻪ ﺩﺭ ﺍﻳﻦ ﺯﻣﻴﻨﻪ ﻧﻈﻴﺮ ﺍﺳﺘﺎﻧﺪﺍﺭﺩﻫﺎﻱ ﻣﺮﺑﻮﻁ ﺑﻪ ﺗﺎﺑﻠﻮﻫﺎﻱ ﻓﺸﺎﺭ ﺿﻌﻴﻒ ﺗﻮﺍﻧﻴﺮ ﻭ‬
‫ﺍﻳﺴﺘﮕﺎﻩ ﺍﻳﻦ ﺗﺎﺑﻠﻮﻫﺎ ﺗﻘﺮﻳﺒﺎً ﺩﺭ ﺗﻤﺎﻣﻲ ﺷﺮﺍﻳﻂ ﺁﺏ ﻭ ﻫﻮﺍﻳﻲ ﻗﺮﺍﺭ‬
‫ﻧﻤﻮﺩﺍﺯ ﻃﺮﻑ ﺩﻳﮕﺮ ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﺗﻨﻮﻉ ﺟﻐﺮﺍﻓﻴﺎﻳﻲ ﻣﺤﻞ ‌ﻫﺎ‪،‬‬
‫ﺷﺮﻛﺖ ﻧﻔﺖ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﮔﺮﻓﺖﺩﺭﺟﺔ ﺣﻔﺎﻇﺘﻲ ﻳﺎ ‪ IP‬ﺩﺭﻧﻈﺮﮔﺮﻓﺘﻪ ﺷﺪﻩ ﺑﺮﺍﻱ ﺗﺎﺑﻠﻮﻫﺎ ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ‬
‫ﮔﺮﻓﺘﻪ ﻭ ﺑﺎﻳﺪ ﺩﺭ ﺳﺮﺑﻨﺪﻱ ﻭ ﻧﺼﺐ ﺁﻧﻬﺎ ﺗﻤﺎﻣﻲ ﺍﻳﻦ ﻣﺴﺎﺋﻞ ﺭﺍ ﺩﺭﻧﻈﺮ ‪.‬‬
‫ﻣﻮﺍﺭﺩ ﻓﻮﻕ ﻣﻄﺎﺑﻖ ﺑﺎ ﭘﻴﺸﻨﻬﺎﺩ ﻣﺸﺎﻭﺭ ﺑﺮﻕ ﻭ ﺗﺄﺳﻴﺴﺎﺕ ﺗﻌﻴﻴﻦ ‪.‬ﺷﻮﺩ‬
‫ﺭﻋﺎﻳﺖ ﺷﻮﺩ‬
‫‪:‬‬ ‫ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﻣﺴﺎﺋﻞ ﻣﺬﻛﻮﺭ ﺑﺎﻳﺪ ﻧﻜﺎﺕ ﺯﻳﺮ ﺭﺍ ﺩﺭ ﻫﻨﮕﺎﻡ ﻣﻮﻧﺘﺎژ ﺗﺎﺑﻠﻮﻫﺎﻱ ﺑﺮﻕ‬

‫ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﻭﺍﻳﺮﺷﻮﻫﺎﻱ ﺗﺎﻳﻮﺍﻧﻲ ﻣﻄﺎﺑﻖ ﺑﺎ ﺳﺎﻳﺰ ﺳﻴﻢ‬ ‫‪‬‬

‫ﻛﺎﺑﻞﻫﺎ ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﻧﻘﺸﺔ ﺍﺭﺍﺋﻪ ﺷﺪﻩ‬
‫ﺳﻴﻢﻫﺎ ﻭ ‌‬
‫ﻧﺎﻣﮕﺬﺍﺭﻱ ‌‬ ‫‪‬‬
‫ﻛﺎﺑﻞ‬
‫ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﺩﺍﻛﺖﻫﺎﻱ ﻣﻨﺎﺳﺐ ﺟﻬﺖ ﻣﺴﻴﺮ ﻭﺭﻭﺩﻱ ‌ﻫﺎ‬ ‫‪‬‬
‫ﺗﻮﺟﻪ ﺑﻪ ﺳﻴﺴﺘﻢ ﺍﺭﺕ ﻭ ﻧﺼﺐ ﻣﻨﺎﺳﺐ ﺁﻥ‬ ‫‪‬‬
‫ﺷﻮﻧﺪ)ﺳﻴﺴﺘﻢ ‪(TNS‬‬
‫ﻛﺎﺑﻞﻫﺎﻱ ﺍﺭﺕ ‌ﺑﻪﺻﻮﺭﺕ ﺳﺘﺎﺭﻩ ﺑﻪ ﺷﻴﻦ ﺍﺭﺕ ﻣﺘﺼﻞ ‪.‬‬
‫ﺳﻴﻢﻫﺎ ﻭ ‌‬
‫ﺗﻤﺎﻣﻲ ‌‬ ‫‪‬‬
‫ﺷﻮﻧﺪ‬
‫ﺍﺭﺕ ﻫﻤﺔ ﺗﺠﻬﻴﺰﺍﺕ ﻣﺘﺼﻞ ﺑﻪ‪ ،UPS‬ﻣﺴﺘﻘﻞ ﺍﺯ‪ UPS‬ﺑﻮﺩﻩ ﻭ ﻣﺴﺘﻘﻴﻤﺎً ﺑﻪ ﺷﻴﻦ ﺍﺭﺕ ﻣﺘﺼﻞ ‪.‬‬ ‫‪‬‬
‫‪ - 2- 15‬ﻣﺤﻞ ﻧﺼﺐ ﺗﺎﺑﻠﻮ ﺑﺮﻕ‬
‫ﻋﺒﺎﺭﺗﻨﺪ ﺍﺯ‬
‫‪:‬‬ ‫ﻣﻬﻤﺘﺮﻳﻦ ﻧﻜﺎﺗﻲ ﻛﻪ ﺩﺭ ﻫﻨﮕﺎﻡ ﻧﺼﺐ ﺗﺎﺑﻠﻮ ﺑﺮﻕ ﻻﺯﻡ ﺍﺳﺖ ﺭﻋﺎﻳﺖ ﺷﻮﻧﺪ‬

‫ﺷﻮﺩ‬
‫ﺩﺭ ﺍﺭﺗﻔﺎﻉ‪ 130‬ﺳﺎﻧﺘﻲﻣﺘﺮﻱ ﺍﺯ ﺳﻄﺢ ﺯﻣﻴﻦ ﻧﺼﺐ ‪.‬‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫ﺗﺎ ﺣﺪ ﺍﻣﻜﺎﻥ‪ ،‬ﺩﻭﺭ ﺍﺯ ﭘﻨﺠﺮﻩ ‪.‬‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫ﺑﻴﺸﺘﺮﻳﻦ ﻓﺎﺻﻠﺔ ﺁﻥ ﺍﺯ ﺭﻙﻫﺎ ‪ 3‬ﻣﺘﺮ ‪.‬‬ ‫‪‬‬
‫ﮔﻴﺮﻧﺪ‬
‫‪.‬‬ ‫ﻫﺎﻱ ﻣﻨﺎﺳﺐ ﻗﺮﺍﺭ‬
‫ﻛﺎﺑﻞﻫﺎﻱ ﻭﺭﻭﺩﻱ ﻭ ﺧﺮﻭﺟﻲ ﺗﺎﺑﻠﻮ‪ ،‬ﺗﻮﻛﺎﺭ ﻭ ﻳﺎ ﺩﺭ ﺩﺍﺧﻞ ﺩﺍﻛﺖ‬
‫ﺳﻴﻢﻫﺎ ﻭ ‌‬
‫ﺗﻤﺎﻣﻲ ‌‬ ‫‪‬‬
‫ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﮔﻠﻨﺪ ﻣﺘﻨﺎﺳﺐ ﺩﺭﻣﺤﻞ ﻭﺭﻭﺩﻱ ﻛﺎﺑﻠﻬﺎ ﺑﻪ ﺗﺎﺑﻠﻮ‪ ،‬ﺍﻟﺰﺍﻣﻲ ‪.‬ﺍﺳﺖ‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 21‬ﺍﺯ ‪36‬‬

‫ﻣﺸﺨﺼﺎﺕ ﻭ ﺷﺮﺍﻳﻂ‪ UPS‬ﻭ ﺑﺎﺗﺮﻱ ﻫﺎ‬ ‫‪- 16‬‬

‫‪ - -1 16‬ﺗﻌﺎﺭﻳﻒ ﺑﺨﺶ‪UPS‬‬
‫ﺩﺭ ﻛﻠﻴﺔ ﺑﺨﺸﻬﺎﻱ ﻣﺮﺑﻮﻁ ﺑﻪ‪ UPS‬ﺍﺯ ﻭﺍژﮔﺎﻥ ﺯﻳﺮ‪ ،‬ﻃﺒﻖ ﺗﻌﺎﺭﻳﻒ ﺍﺭﺍﺋﻪ ﺷﺪﻩ‪ ،‬ﺍﺳﺘﻔﺎﺩﻩ ﺷﺪﻩ ‪.‬ﺍﺳﺖ‬
‫ﮔﺮ ﻭ ﺍﺳﻜﻨﺮ‬
‫ﭼﺎپ‬‫ﻛﺎﻣﭙﻴﻮﺗﺮﻱﺗﺠﻬﻴﺰﺍﺗﻲ ﻧﻈﻴﺮ ﺍﻧﻮﺍﻉ ﻛﺎﻣﭙﻴﻮﺗﺮ‪‌ ،‬‬
‫‪:‬‬ ‫ﺗﺠﻬﻴﺰﺍﺕ‬
‫ﺳﻮﺋﻴﭻﻫﺎﻱ ﺩﺍﺭﺍﻱ‪ PoE‬ﻭ ﻓﺎﻗﺪ ‪ PoE‬ﺍﺳﺖ‪.‬‬
‫‌‬ ‫ﺳﻮﺋﻴﭻﻫﺎﻱ ﺷﺒﻜﻪ ﻛﻪ ﺷﺎﻣﻞ‬
‫‌‬ ‫ﺳﻮﺋﻴﭻ‪ :‬ﻣﻌﺎﺩﻝ ﺍﻧﻮﺍﻉ‬
‫ﻧﻮﺩ‪ :‬ﻫﺮ ﻧﻮﺩ ﺷﺎﻣﻞ ﻳﻚ ﭘﺮﻳﺰ ﺑﺮﻕ ﻭﺩﻭ ﭘﺮﻳﺰ ﺷﺒﻜﻪ ﺑﻮﺩﻩ ﻭ ﻟﺬﺍ ﺍﺯ ﺍﻳﻦ ﭘﺲ »‬
‫ﻛﻠﻤﺔﻧﻮﺩ« ﻣﻌﺎﺩﻝ ﻋﺒﺎﺭﺕ»ﭘﺮﻳﺰ ﺑﺮﻕ« ﺍﺳﺖ‪.‬‬
‫ﻧﻮﺩ ﺷﺒﻜﻪ‪ :‬ﻣﻌﺎﺩﻝ ﻳﻚ ﻗﺎﺏ ﺩﻭﭘﻮﺭﺕ ﺷﺒﻜﻪ ‪.‬‬
‫ﺍﺳﺖ‬
‫ﻣﺼﺮﻑﻛﻨﻨﺪﻩﺍﻱ ﻛﻪ ﺑﻪ ﺷﺒﻜﻪ ﺑﺮﻕ ﻣﺘﺼﻞ ﺑﻮﺩﻩ ﻭ ﺩﺭﺣﺎﻝ ﻣﺼﺮﻑ ﺍﻧﺮژﻱ ‪.‬ﺑﺎﺷﺪ‬
‫‌‬ ‫ﻧﻮﺩ ﻓﻌﺎﻝ‪:‬‬

‫ﻧﻴﺎﺯﻣﻨﺪﻱﻫﺎﻱ ‪UPS‬‬
‫‌‬ ‫‪- 2- 16‬‬
‫ﺍﺳﺖ‬
‫‪ ،LAN‬ﺷﺎﻣﻞ ﻣﻮﺍﺭﺩ ﺯﻳﺮ ‪:‬‬
‫ﻧﻴﺎﺯﻣﻨﺪﻱﻫﺎﻱ ‪ UPS‬ﺩﺭ ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ ﺑﺮﺍﻱ ﺷﺒﻜﺔ‬
‫‌‬

‫ﻋﻤﻠﻴﺎﺗﻲ‬
‫(‬ ‫ﻫﺎﻱ ﺗﻴﭗ ‪) B‬ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻱ ﻏﻴﺮ‬
‫ﺳﺎﺧﺘﻤﺎﻥ‬
‫‌‬ ‫ﺳﻮﺋﻴﭻﻫﺎ ﺑﺮﺍﻱ ﺣﺪﺍﻗﻞ ﺩﻭ ﺳﺎﻋﺖ ﺩﺭ‬
‫‌‬ ‫ﺯﻣﺎﻥ ﭘﺸﺘﻴﺒﺎﻧﻲ‬ ‫‪‬‬
‫ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻱ ﺗﻴﭗ ‌‪) A‬ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻱ ﻋﻤﻠﻴﺎﺗﻲ ﻣﺎﻧﻨﺪﺳﺎﺧﺘﻤﺎﻥ ﻣﺮﻛﺰﻱ‪ ،‬ﺍﻃﺎﻕ‬
‫‌‬ ‫ﺳﻮﺋﻴﭻﻫﺎ ﺑﺮﺍﻱ ﺣﺪﺍﻗﻞ ﭼﻬﺎﺭ ﺳﺎﻋﺖ ﺩﺭ‬
‫‌‬ ‫ﺯﻣﺎﻥ ﭘﺸﺘﻴﺒﺎﻧﻲ‬ ‫‪‬‬
‫ﻣﺨﺎﺑﺮﺍﺕ‬
‫(‬ ‫ﻛﻨﺘﺮﻝ ﻭ ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻱ ﺍﺩﺍﺭﻱ‬

‫ﺩﻗﻴﻘﻪﺍﻱ ﺑﺮﺍﻱ ﺗﺠﻬﻴﺰﺍﺕ ﻛﺎﻣﭙﻴﻮﺗﺮﻱ‬

‫‌‬ ‫ﺯﻣﺎﻧﻲ ﭘﺸﺘﻴﺒﺎﻧﻲ‪15‬‬ ‫‪‬‬
‫ﻗﺎﺑﻠﻴﺖ ﺍﻃﻤﻴﻨﺎﻥ‪ 99.999%‬ﺑﺮﺍﻱ ‪UPS‬ﻫﺎ‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫ﺭﺍﻧﺪﻣﺎﻥ ‪UPS‬ﻫﺎﻱ ﻣﻮﺭﺩ ﺍﺳﺘﻔﺎﺩﻩ ﺑﻴﺶ ﺍﺯ‪ 90‬ﺩﺭﺻﺪ ‪.‬‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫پ ﺁﻥ ‪ 10‬ﺳﺎﻝ ﺧﺪﻣﺎﺕ ﭘﺲ ﺍﺯ ﻓﺮﻭﺵ ﺩﺍﺷﺘﻪ ‪.‬‬
‫ﺱ ﺍﺯ‬
‫ﻛﻠﻴﻪ ‪ UPS‬ﻭ ﺑﺎﺗﺮﻱ ﻫﺎ ﺑﺎﻳﺪ ﺣﺪﺍﻗﻞ ﺳﻪ ﺳﺎﻝ ﮔﺎﺭﺍﻧﺘﻲ ﺑﺪﻭﻥ ﻗﻴﺪ ﻭ ﺷﺮﻁ ﻭ‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 22‬ﺍﺯ ‪36‬‬

‫‪ - 3- 16‬ﻣﻌﻤﺎﺭﻱ ‪UPS‬‬
‫ﻻﺯﻡ ﺍﺳﺖ ﻣﻌﻤﺎﺭﻱ ﺳﻴﺴﺘﻢ ‪ UPS‬ﺑﺮﺍﻱ ﺷﺒﻜﺔ ‪ LAN‬ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‪‌ ،‬ﺑﻪﻋﻨﻮﺍﻥ ﺑﺨﺸﻲ ﺍﺯ ﻣﺴﺘﻨﺪﺍﺕ ﻓﻨﻲ ﺍﺭﺍﺋﻪ‬
‫ﻋﺒﺎﺭﺗﻨﺪ ﺍﺯ‬
‫‪:‬‬ ‫ﮔﺮﺩﺩ‪ .‬ﻣﻮﺍﺭﺩﻱ ﻛﻪ ﺑﺎﻳﺪ ﺩﺭ ﻃﺮﺍﺣﻲ ﻣﺪﻧﻈﺮ ﻗﺮﺍﺭ ﮔﻴﺮﻧﺪ‬

‫ﻛﻨﻨﺪﻩﻫﺎ‪،‬‬
‫ﻣﺼﺮﻑ ‌‬
‫‌‬ ‫ﻣﺤﺎﺳﺒﺔ ﺗﻮﺍﻥ ﻣﺼﺮﻓﻲ ﻭ ﻧﻮﻉ‬ ‫‪‬‬
‫ﺳﻴﺴﺘﻢ ﺑﺎﺗﺮﻱ ﻭ ﻧﺤﻮﺓ ﺷﺎﺭژ ﺁﻧﻬﺎ‪،‬‬ ‫‪‬‬
‫ﺳﻴﺴﺘﻢ ﻧﮕﻬﺪﺍﺭﻱ ﻭ ﻣﺪﻳﺮﻳﺖ‪UPS‬‬ ‫‪‬‬
‫ﺷﻮﺩﻫﻤﭽﻨﻴﻦ ﺗﻮﺍﻥ ﻣﺼﺮﻓﻲ ﺩﺭ ﻳﻚ ﻓﻬﺮﺳﺖ ﺟﺪﺍﮔﺎﻧﻪ ﺑﺮﺍﻱ ﻫﺮ ﺭﻙ‪ ،‬ﻫﺮ‬
‫ﻛﻪ ﻛﻠﻴﺔ ﺁﻧﻬﺎ ‌ﺑﻪﻫﻤﺮﺍﻩ ﻣﺤﺎﺳﺒﺎﺕ ﻣﺮﺑﻮﻃﻪ ﺑﺎﻳﺪ ﺩﺭ ﻃﺮﺡ ﻣﺸﺎﻭﺭ ﺍﺭﺍﺋﻪ ‪.‬‬
‫ﺷﻮ‬
‫ﺳﺎﺧﺘﻤﺎﻥ ﻭ ﻫﺮ ﺍﻳﺴﺘﮕﺎﻩ‪ ،‬ﻣﺤﺎﺳﺒﻪ ﻭ ﺍﺭﺍﺋﻪ ﺩ‪.‬‬

‫ﻛﻨﻨﺪﻩﻫﺎ ﻭ ﻣﺤﺎﺳﺒﺎﺕ ﺗﻮﺍﻥ‪UPS‬‬

‫‌‬ ‫ﻣﺼﺮﻑ‬
‫‌‬ ‫‪ - 4- 16‬ﻧﻮﻉ‬
‫ﻋﺒﺎﺭﺗﻨﺪ ﺍﺯ‬
‫‪:‬‬ ‫ﻛﻨﻨﺪﻩﻫﺎ ﺍﺯ ﻧﻮﻉ ﺗﺠﻬﻴﺰﺍﺕ ﺩﻳﺠﻴﺘﺎﻟﻲ ﺑﻮﺩﻩ ﻭ‬
‫ﻣﺼﺮﻑ ‌‬‫‌‬ ‫ﺗﻤﺎﻣﻲ‬

‫ﺗﺠﻬﻴﺰﺍﺕ ﻛﺎﻣﭙﻴﻮﺗﺮﻱ‬ ‫‪‬‬

‫ﻫﺎ‬
‫ﺳﻮﺋﻴﭻ ‌‬
‫‌‬ ‫‪‬‬
‫ﺑﺎﺷﻨﺪ‬
‫‪UPS‬ﻫﺎ ﺩﺍﺭﺍﻱ ﺍﻳﺰﻭﻻﺳﻴﻮﻥ ﮔﺎﻟﻮﺍﻧﻴﻚ ﺩﺭ ﺧﺮﻭﺟﻲ ﺧﻮﺩ ‪.‬‬
‫ﻛﻨﻨﺪﻩﻫﺎ ﻭ ﺍﻫﻤﻴﺖ ﭼﻨﻴﻦ ﺗﺠﻬﻴﺰﺍﺗﻲ‪ ،‬ﻻﺯﻡ ﺍﺳﺖ‬
‫ﻣﺼﺮﻑ ‌‬‫‌‬ ‫ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﻧﻮﻉ‬
‫ﺷﻮﺩ‬
‫ﻣﺤﺎﺳﺒﺔ ﺗﻮﺍﻥ ﻣﻮﺭﺩ ﻧﻴﺎﺯ‪UPS‬ﻫﺎ ﺑﺎﻳﺪ ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﻣﻮﺍﺭﺩ ﺯﻳﺮ ﺍﻧﺠﺎﻡ ‪:‬‬

‫ﺷﻮﺩ‬
‫ﺗﻮﺍﻥ ﻣﺼﺮﻓﻲ ﻫﺮ ﻧﻮﺩ ﺷﺒﻜﻪ‪ ،‬ﺑﺮﺍﺑﺮ‪ 500 W‬ﺩﺭﻧﻈﺮ ﮔﺮﻓﺘﻪ ‪.‬‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﺑﻴﻨﻲ ‪.‬‬
‫ﺣﺪﺍﻗﻞ ‪ 50‬ﺩﺭﺻﺪ ﺍﺯ ﺗﻌﺪﺍﺩ ﻛﻞ ﻧﻮﺩﻫﺎ ﺩﺭ ﻫﺮ ﺳﺎﺧﺘﻤﺎﻥ‪ ،‬ﻧﻮﺩ ﻓﻌﺎﻝ ﭘﻴﺶ‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﺳﻮﺋﻴﭻﻫﺎ ﺑﺮ ﺍﺳﺎﺱ ﺗﻌﺪﺍﺩ ﭘﻮﺭﺕﻫﺎﻱ ﻓﻌﺎﻝ ﺁﻥ ﻣﺤﺎﺳﺒﻪ ‪.‬‬
‫‌‬ ‫ﺗﻮﺍﻥ ﻣﺼﺮﻓﻲ‬ ‫‪‬‬
‫ﺳﻮﺋﻴﭻﻫﺎ‬
‫‌‬ ‫ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻳﻲ ﻛﻪ ﺩﺍﺭﺍﻱ ﻛﻤﺘﺮ ﺍﺯ ‪ 6‬ﻧﻮﺩ ﻓﻌﺎﻝ ﻫﺴﺘﻨﺪ‪ ،‬ﺍﺯ ﻳﻚ ‪ UPS‬ﺟﻬﺖ ﺗﺎﻣﻴﻦ ﺑﺮﻕ ﺗﻤﺎﻣﻲ ﺗﺠﻬﻴﺰﺍﺕ ﻛﺎﻣﭙﻴﻮﺗﺮﻱ ﻭ‬
‫‌‬ ‫ﺩﺭ‬ ‫‪‬‬
‫ﮔﻴﺮﺩ‬
‫ﺳﻮﺋﻴﭻﺍﻧﺠﺎﻡ ‪.‬‬
‫ﺷﻮﺩ ﻣﺤﺎﺳﺒﺎﺕ ﺑﺎﺗﺮﻱ ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﻧﻮﻉ ﺳﺎﺧﺘﻤﺎﻥ ﻭ ﺗﻌﺪﺍﺩ ‌ﻫﺎ‬
‫ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬

‫ﺷﻮﺩ‬
‫ﻫﻤﺮﺍﻩ ﻣﺸﺨﺼﺎﺕ ﺳﺎﺧﺘﻤﺎﻥ‪ ،‬ﺑﺎﻳﺪ ﺩﺭ ﻃﺮﺡ ﻣﺸﺎﻭﺭ ﺁﻭﺭﺩﻩ ‪.‬‬
‫ﺳﺎﺧﺘﻤﺎﻥ ﺑﻪ‬
‫‌‬ ‫ﺗﻤﺎﻣﻲ ﻣﺤﺎﺳﺒﺎﺕ ﺍﻧﺠﺎﻡ ﺷﺪﻩ ﺑﺮﺍﻱ ﺗﻌﻴﻴﻦ ﺗﻮﺍﻥ ﻣﺼﺮﻓﻲ ﻫﺮ‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 23‬ﺍﺯ ‪36‬‬

‫‪ - 5- 16‬ﻣﺤﺎﺳﺒﺎﺕ ﺳﻴﺴﺘﻢ ﺑﺎﺗﺮﻱ‬

‫ﺣﺪﺍﻗﻞ ﺩﻭ‬ ‫ﺧﻮﺍﻫﺪﺑﻮﺩ‬
‫)‬ ‫ﺳﻮﺋﻴﭻﻫﺎ(‪ ،‬ﻧﻴﺎﺯ ﺑﻪ ﺯﻣﺎﻥ ﭘﺸﺘﻴﺒﺎﻧﻲ ﻧﺴﺒﺘﺎً ﺯﻳﺎﺩﻱ ﺗﻮﺳﻂ ﺳﻴﺴﺘﻢ ﺑﺎﺗﺮﻱ‬
‫‌‬ ‫ﺑﻪﺧﺼﻮﺹ‬ ‫ﻛﻨﻨﺪﻩﻫﺎ ) ‌‬
‫ﻣﺼﺮﻑ ‌‬‫‌‬ ‫ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﺍﻫﻤﻴﺖ‬
‫ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻱ ﺗﻴﭗ ‪ .(A‬ﻟﺬﺍ ﻣﺤﺎﺳﺒﺎﺕ ﺳﻴﺴﺘﻢ ﺑﺎﺗﺮﻱ ﺑﺎﻳﺪ ﺑﺎ ﺩﻗﺖ ﺯﻳﺎﺩﻱ ﺍﻧﺠﺎﻡ ‪.‬ﺷﻮﺩ‬
‫‌‬ ‫ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻱ ﺗﻴﭗ ‪ B‬ﻭ ﭼﻬﺎﺭ ﺳﺎﻋﺖ ﺑﺮﺍﻱ‬
‫‌‬ ‫ﺳﺎﻋﺖ ﺑﺮﺍﻱ‬
‫ﺧﺼﻮﺹ ﺭﻋﺎﻳﺖ ﺷﻮﻧﺪ‪ ،‬ﻋﺒﺎﺭﺗﻨﺪ ‪:‬ﺍﺯ‬ ‫ﻣﻮﺍﺭﺩﻱ ﻻﺯﻡ ﺍﺳﺖ ﻛﻪ ﺩﺭ ‌ﺍﻳﻦ‬

‫ﺑﺎﺗﺮﻱﻫﺎﻱ ‪ 12‬ﻭﻟﺘﻲ‪.‬‬
‫‌‬ ‫ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫)‪ (Full Load‬ﺍﻧﺠﺎﻡ ‪.‬‬
‫ﻣﺤﺎﺳﺒﺔ ﺁﻣﭙﺮﺳﺎﻋﺖ ﻣﻮﺭﺩ ﻧﻴﺎﺯ‪ ،‬ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﻣﻨﺤﻨﻲ ﻣﺸﺨﺼﺔ ﺍﺭﺍﺋﻪ ﺷﺪﻩ ﺗﻮﺳﻂ ﺳﺎﺯﻧﺪﺓ ﺑﺎﺗﺮﻱ ﻭ ﺩﺭ ﺑﺎﺭ ﻛﺎﻣﻞ‬ ‫‪‬‬
‫ﻫﻤﺮﺍﻩ ﻣﺸﺨﺼﺎﺕ ﺳﺎﺧﺘﻤﺎﻥ‪ ،‬ﺩﺭ ﻃﺮﺡ ﭘﻴﺸﻨﻬﺎﺩﻱ ﺁﻭﺭﺩﻩ‬
‫ﺳﺎﺧﺘﻤﺎﻥ ﺑﻪ‬
‫‌‬ ‫ﺗﻤﺎﻣﻲ ﻣﺤﺎﺳﺒﺎﺕ ﺍﻧﺠﺎﻡ ﺷﺪﻩ ﺑﺮﺍﻱ ﺗﻌﻴﻴﻦ ﺁﻣﭙﺮﺳﺎﻋﺖ ﻣﻮﺭﺩ ﻧﻴﺎﺯ ﻫﺮ‬ ‫‪‬‬
‫ﺷﻮﺩ‪.‬‬

‫ﺑﺎﺗﺮﻱﻫﺎ‬
‫‌‬ ‫‪ - 6- 16‬ﻧﺤﻮﺓ ﺷﺎﺭژ‬
‫ﺷﻮﺩ ﺗﺎﻣﻴﻦ ﭼﻨﻴﻦ ﺝﺭﻳﺎﻥ ﺯﻳﺎﺩﻱ‬
‫ﺑﺎﺗﺮﻱﺍﻳﺠﺎﺩ ‪.‬‬
‫ﺑﺎ ﺗﻮﺟﻪ ﺑﻪ ﺑﺎﻻ ﺑﻮﺩﻥ ﻣﻴﺰﺍﻥ ﺁﻣﭙﺮﺳﺎﻋﺖ ﻣﻮﺭﺩ ﻧﻴﺎﺯ‪ ،‬ﻻﺯﻡ ﺍﺳﺖ ﺟﺮﻳﺎﻥ ﺯﻳﺎﺩﻱ ﺑﺮﺍﻱ ﺷﺎﺭژ ﺍﻳﻦ ‌ﻫﺎ‬
‫‪ UPS‬ﺑﺮ ﻧﺤﻮﺓ‬‫ﻣﻲﺗﻮﺍﻧﺪ ﺳﺒﺐ ﺁﺳﻴﺐ ﺩﻳﺪﻥ ﻗﻄﻌﺎﺕ ﺩﺍﺧﻠﻲ‪ UPS‬ﮔﺮﺩﺩ‪ .‬ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﺷﺎﺭژﺭ ﺧﺎﺭﺟﻲ ﻧﻴﺰ ﺳﺒﺐ ﺍﺯ ﺩﺳﺖ ﺭﻓﺘﻦ ﻛﻨﺘﺮﻝ ﭘﺮﺩﺍﺯﻧﺪﺓ‬ ‫‌‬
‫ﻟﺬﺍ ﻻﺯﻡ ﺍﺳﺖ ﺍﺯ‪UPS‬ﻫﺎﻳﻲ ﻛﻪ ﺗﻮﺍﻧﺎﻳﻲ ﺍﻳﺠﺎﺩ‬
‫ﻫﺎﻱ ﺍﻓﺰﺍﻳﺶ ﻋﻤﺮ ﺑﺎﺗﺮﻱ ﻗﺎﺑﻞ ﺍﺳﺘﻔﺎﺩﻩ ﻧﺨﻮﺍﻫﻨﺪ ‪.‬ﺑﻮﺩ‬
‫ﺗﻜﻨﻴﻚ‬
‫‌‬ ‫ﺑﺎﺗﺮﻱﻫﺎ ﺧﻮﺍﻫﺪ ﺷﺪ ﻭ ﺑﻨﺎﺑﺮﺍﻳﻦ‬
‫‌‬ ‫ﺷﺎﺭژ‬
‫ﻧﻤﻮﺩ‬
‫ﺟﺮﻳﺎﻥ ﺷﺎﺭژ ﺑﺎﻻ ﺩﺍﺭﻧﺪ‪ ،‬ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﮔﺮﺩﺩ‬
‫ﻣﻮﺍﺭﺩ ﺯﻳﺮ ﺩﺭ ﺭﺍﺑﻄﻪ ﺑﺎ ﺷﺎﺭژﺭ ﻭ‪ UPS‬ﺑﺎﻳﺪ ﺭﻋﺎﻳﺖ ‪:‬‬

‫ﻛﻨﺪ‬
‫ﻫﺎ ﺭﺍ ﺩﺭﻛﻤﺘﺮ ﺍﺯ‪12‬ﺳﺎﻋﺖ ‌ﺑﻪﻃﻮﺭ ﻛﺎﻣﻞ ﺷﺎﺭژ ‪.‬‬
‫ﺍﻧﺪﺍﺯﻩﺍﻱ ﺑﺎﺷﺪ ﻛﻪ ﺑﺘﻮﺍﻧﺪ ﺑﺎﺗﺮﻱ‬
‫ﺟﺮﻳﺎﻥ ﺷﺎﺭژ‪ UPS‬ﺑﺎﻳﺪ ﺑﻪ ‌‬ ‫‪‬‬
‫ﻗﻄﻌﺎﺕ ﺩﺍﺧﻠﻲ ‪ UPS‬ﻧﻈﻴﺮ ‪ Booster‬ﻭ ‪ Inverter‬ﻧﺒﺎﻳﺪ ﮔﺮﻣﺎﻱ ﺯﻳﺎﺩﻱ ﺍﻳﺠﺎﺩ ﻛﺮﺩﻩﻭ ﺑﺎﻳﺪ ﻗﺎﺩﺭ ﺑﻪ ﺗﺤﻤﻞ ﺟﺮﻳﺎﻥ ﺷﺎﺭژ ﺑﻴﺸﻴﻨﻪ ﺗﺎ‬ ‫‪‬‬
‫ﻧﺸﻮﻧﺪ‬
‫‪.‬‬ ‫ﺁﺳﻴﺐﺩﻳﺪﮔﻲ‬
‫‌‬ ‫ﺑﺎﺗﺮﻱﻫﺎ ﺑﻮﺩﻩ ﻭ ﺩﭼﺎﺭ‬
‫‌‬ ‫ﺷﺎﺭژ ﻛﺎﻣﻞ‬

‫ﺩﺭ ﺗﻤﺎﻣﻲ ‪UPS‬ﻫﺎ‪ ،‬ﺣﺪﺍﻗﻞ ﺗﻮﺍﻥ ﺷﺎﺭژﺭ ﺩﺭ ﻭﻟﺘﺎژ ﺷﺎﺭژ ﻧﮕﻬﺪﺍﺭﻱ ﺑﺎﻳﺪ ﺑﻴﺶ ﺍﺯ‪20‬ﺩﺭﺻﺪ ﺗﻮﺍﻥ ﻇﺎﻫﺮﻱ ﺧﺮﻭﺟﻲ‪ UPS‬ﺑﺎﺷﺪ‪) .‬ﺑﺮﺍﻱ ﻫﺮ‬ ‫‪‬‬
‫‪ 1kVA‬ﺟﺮﻳﺎﻥ ﺷﺎﺭژﻱ ﻣﻌﺎﺩﻝ‪ 4‬ﺁﻣﭙﺮ(‪.‬‬

‫ﺑﺎﺷﺪ‬
‫ﺳﺎﻧﺘﻴﮕﺮﺍﺩ ﺑﺎﻳﺪ ﺣﺪﺍﻗﻞ‪ 10‬ﺳﺎﻝ ‪.‬‬
‫(‬ ‫ﺑﺎﺗﺮﻱﻫﺎ ﺩﺭ ﻣﺤﻴﻂ ﻣﻌﻤﻮﻟﻲ ﺍﺩﺍﺭﻱ)ﺑﻴﻦ ‪ 20‬ﺗﺎ ‪ 25‬ﺩﺭﺟﺔ‬
‫‌‬ ‫ﻋﻤﺮ ﻣﻔﻴﺪ‪ UPS‬ﻭ‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 24‬ﺍﺯ ‪36‬‬

‫‪ - 7- 16‬ﺳﻴﺴﺘﻢ ﻧﮕﻬﺪﺍﺭﻱ ﻭ ﻣﺪﻳﺮﻳﺖ‪UPS‬‬

‫ﻛﻨﻨﺪﻩﻫﺎ‪ ،‬ﻧﮕﻬﺪﺍﺭﻱ ﻭ ﻣﺪﻳﺮﻳﺖ ﺁﻧﻬﺎ ﻭ ﺩﺭ‬
‫ﻣﺼﺮﻑ ‌‬‫‌‬ ‫ﺍﻗﺼﻲﻧﻘﺎﻁ ﻛﺸﻮﺭ ﻭ ﺍﻫﻤﻴﺖ ﻓﺮﺍﻭﺍﻥ‬
‫‌‬ ‫ﻧﻈﺮ ﺑﻪ ﺗﻌﺪﺩ ‪UPS‬ﻫﺎﻱ ﻣﻮﺭﺩ ﻧﻴﺎﺯ ﻭ ﭘﺮﺍﻛﻨﺪﮔﻲ ﺁﻧﻬﺎ ﺩﺭ‬
‫ﻣﻲﺑﺎﺷﺪ‪ .‬ﺑﻨﺎﺑﺮﺍﻳﻦ ﺑﺎﻳﺴﺘﻲ ﮔﺰﺍﺭﺵ ﻛﺎﻣﻠﻲ ﺍﺯ ﻧﺤﻮﺓ‬
‫ﺍﻟﻌﺎﺩﻩﺍﻱ ﺑﺮﺧﻮﺭﺩﺍﺭ ‌‬
‫ﻓﻮﻕ ‌‬ ‫ﺩﺳﺖ ﺩﺍﺷﺘﻦ ﺍﻃﻼﻋﺎﺕ ﻋﻤﻠﻜﺮﺩ ﻫﺮﻳﻚ ﺩﺭ ﻫﺮ ﻟﺤﻈﻪ‪ ،‬ﺍﺯ ﺍﻫﻤﻴﺖ ‌‬
‫ﺷﻮﺩ ﺑﺮﺍﻱ ﺍﻳﻦ ﻣﻨﻈﻮﺭ ﺑﺎﻳﺴﺘﻲ ﻛﻠﻴﻪ‪UPS‬ﻫﺎ ﻫﻤﻪ‬‫ﻳﺴﺘﻢ ﻣﺪﻳﺮﻳﺖ ‪ UPS‬ﺩﺭ ﻃﺮﺡ ﭘﻴﺸﻨﻬﺎﺩﻱ ﺍﺭﺍﺋﻪ ‪.‬‬ ‫ﺿﻤﺎﻧﺖ‪ ،‬ﺳﻴﺴﺘﻢ ﺗﻌﻤﻴﺮ ﻭ ﻧﮕﻬﺪﺍﺭﻱ ﻭ ﺱ‬
‫‪ RS232‬ﻭ ﻗﺎﺑﻠﻴﺖ ﻧﺼﺐ ﻛﺎﺭﺕ‪ SNMP‬ﺭﺍ ‌ﺑﻪﺻﻮﺭﺕ ﺩﺍﺧﻠﻲ ﻳﺎ ﺧﺎﺭﺟﻲ ﺩﺍﺭﺍ ﺑﺎﺷﻨﺪ ﺗﺎ‬ ‫ﻣﺤﺼﻮﻝ ﻳﻚ ﺷﺮﻛﺖ ﺗﻮﻟﻴﺪ ﻛﻨﻨﺪﻩ ﺑﻮﺩﻩ ‪ ،‬ﺩﺍﺭﺍﻱ ﺧﺮﻭﺟﻲ‬
‫ﺭﺍﻩﻛﺎﺭ ﻣﻨﺎﺳﺒﻲ ﺑﺮﺍﻱ ﺍﻳﻦ ﻣﻨﻈﻮﺭ ﺩﺭ‬
‫ﺑﺘﻮﺍﻥ ﺳﻴﺴﺘﻢ ﻣﺪﻳﺮﻳﺖ ﻣﺮﻛﺰﻱ ﻣﻨﺎﺳﺒﻲ ﺑﺮﺍﻱ ﻣﺸﺎﻫﺪﺓ ﻭﺿﻌﻴﺖ‪UPS‬ﻫﺎ ﻃﺮﺍﺣﻲ ﻧﻤﻮﺩ‪ .‬ﺿﻤﻨﺎً ﺑﺎﻳﺴﺘﻲ ‌‬
‫ﻃﺮﺡ ﭘﻴﺸﻨﻬﺎﺩﻱ ﺍﺭﺍﺋﻪﺷﻮﺩ ‪.‬‬

‫‪ - 8- 16‬ﻣﺸﺨﺼﺎﺕ ‪UPS‬ﻫﺎﻱ ﻣﻮﺭﺩ ﻧﻴﺎﺯ‬

‫ﻻﺯﻡ ﺍﺳﺖ ﻣﺸﺨﺼﺎﺕ ﻓﻨﻲ‪UPS‬ﻫﺎ ﺗﻮﺳﻂ ﻫﻤﻜﺎﺭﺍﻥ ﻣﺤﺘﺮﻡ ﻣﻬﻨﺪﺳﻲ ﺑﺮﻕ ﻭ ﺍﺑﺰﺍﺭ ﺩﻗﻴﻖ ﺑﺮﺭﺳﻲ ﻭ ﺗﻌﻴﻴﻦ ﮔﺮﺩﺩ ﻭ ﺣﺪﺍﻗﻞ ﭘﺎﺭﺍﻣﺘﺮﻫﺎﻳﻲ ﻛﻪ ﺑﺎﻳﺪ‬
‫ﺗﻌﻴﻴﻦ ﺷﻮﺩ ﻣﻄﺎﺑﻖ ﺟﺪﻭﻝ ﺯﻳﺮ ﺑﺎﺷﺪ‬
‫ﺟﺪﻭﻝ ﻣﺸﺨﺼﺎﺕ‪UPS‬‬

‫‪construction‬‬

‫‪model rating‬‬ ‫‪W/VA‬‬

‫)‪Dimension W*D*H(approx‬‬ ‫‪mm‬‬

‫)‪Weight without battery (approx‬‬ ‫‪kg‬‬

‫‪environmental‬‬

‫‪storage temperature‬‬ ‫)‪degree celsius‬‬

‫‪operating temperature‬‬ ‫)‪degree(celsius‬‬

‫‪altitude‬‬ ‫‪m‬‬

‫‪relative humidity‬‬ ‫‪%‬‬

‫‪degree of protection‬‬ ‫‪IP‬‬

‫‪normal mode acoustic noise at 1 m‬‬ ‫‪dba‬‬

‫‪stored energy mode acoustic noise at 1 m‬‬ ‫‪dba‬‬

 : ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

(001) ‫ﻧﺴﺨﻪ‬ 36 ‫ ﺍﺯ‬25 ‫ﺻﻔﺤﻪ‬

electrical input characteristics

rated input voltage V

rated input frequency Hz

rated input current A r.m.s

maximum continuous input current (worst-case) A r.m.s

input current distortion at rated input current % THD

input power factor

number of input phases phase(s)

output waveform

normal mode waveform

stored energy mode waveform

transfer-normal mode/stored energy

electrical output characteristics - static characteristics - normal mode

rated output voltage V r.m.s

output voltage variation (+/-) V r.m.s

nominal output frequency Hz

synchronized output frequency variation Hz

synchronized input to output phase error degrees

rated output apparent power VA

linear load rated active power W

non linear load rated active power W

linear load total voltage distortion % THD

non linear load total voltage distortion % THD

 : ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

(001) ‫ﻧﺴﺨﻪ‬ 36 ‫ ﺍﺯ‬26 ‫ﺻﻔﺤﻪ‬

output short-circuit current capability %

starting overload capability %

30 secend overload capability %

range of load power factor permitted

number of output phases phase(s)

electrical output characteristics - dynamic characteristics - normal mode

mode changes dynamic outpot voltage variation %

load changes dynamic outpot voltage variation %

electrical output characteristics - static characteristics - stord energy mode

rated output voltage V r.m.s

outpout voltage variation (+/-) V r.m.s

rated peak Output voltage V r.m.s

rated peak Output voltage variation V r.m.s

output ferequency Hz

output ferequency variation (free runing) Hz

rated output apparent power VA

linear load rated active power W

non linear load rated active power W

linear load total voltage distortion % THD

non linear load total voltage distortion % THD

output short-circuit current capability %

starting overload capability %

30 secend overload capability %

 : ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

(001) ‫ﻧﺴﺨﻪ‬ 36 ‫ ﺍﺯ‬27 ‫ﺻﻔﺤﻪ‬

range of load power factor permitted

electrical output characteristics - dynamic characteristics - stord energy mode

mode changes dynamic outpot voltage variation %

load changes dynamic outpot voltage variation %

efficiency

efficiency input/output %

synchronization

acceptable voltage deference %

range of frequency synchronization Hz

maximum phase error degrees

stored energy mode of operation

rated load maximum permitted backup time min

battery recharge characteristics

charging profile

maximum charging current A

automatic bypass characteristics

continues current A

transfer profile

circuit-breaker current rating A

manual bypass characteristics

continues current A

delay time

galvanice isolation
 : ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

(001) ‫ﻧﺴﺨﻪ‬ 36 ‫ ﺍﺯ‬28 ‫ﺻﻔﺤﻪ‬

galvanice

electromagnetic compatibility

immunity & emission

protections:

battery connection inrush current

battery over / under voltage

battery reverse polarity

battery disconnection

output short circuit

UPS transformer and powers overheat protection

earth fault

charger short circuit protection

SNMP management capability

 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 29‬ﺍﺯ ‪36‬‬

‫‪ - 9- 16‬ﻛﺪﻫﺎ ﻭ ﺍﺳﺘﺎﻧﺪﺍﺭﺩﻫﺎﻱ ﻣﺮﺑﻮﻁ ﺑﻪﺑﺨﺶ ﺑﺮﻕ ﺍﺿﻄﺮﺍﺭﻱ‬

‫ﻛﺪﻫﺎ ﻭ ﺍﺳﺘﺎﻧﺪﺍﺭﺩﻫﺎﻱ ﻣﺮﺑﻮﻁ ﺑﻪﺑﺮﻕ ﺍﺿﻄﺮﺍﺭﻱ‬
‫‪Code‬‬ ‫‪Description‬‬
‫‪IEC 51‬‬ ‫‪Recommendations for Direct Acting Indicating electrical Measuring‬‬
‫‪Instruments and Their Accessories‬‬
‫‪IEC 144‬‬ ‫‪Degree of Protection of Enclosures for Low Voltage Switchgear and‬‬
‫‪Control gear‬‬
‫‪IEC 157-1‬‬ ‫‪Low Voltage Switchgear and Control gear‬‬

‫‪IEC 228‬‬ ‫‪Conductors of Insulated Cables‬‬

‫‪IEC 62040‬‬ ‫‪Uninterruptible Power Systems‬‬

‫ﺭﻭﻳﻪﻫﺎﻱ ﻧﺼﺐ‪UPS‬‬
‫‪‌ - 10- 16‬‬
‫ﺍﺳﺖ‬
‫ﺍﻧﺪﺍﺯﻱ ‪UPS‬ﻫﺎ ﺭﻋﺎﻳﺖ ﺷﻮﻧﺪ‪ ،‬ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ‪:‬‬
‫ﻣﻮﺍﺭﺩﻱ ﻛﻪ ﺑﺎﻳﺪ ﺩﺭ ﻫﻨﮕﺎﻡ ﻧﺼﺐ ﻭ ‌ﺭﺍﻩ‬

‫ﺑﺎﺷﻨﺪ‬
‫ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ‪UPS‬ﻫﺎﻳﻲ ﻛﻪ ﺩﺍﺭﺍﻱ ﻣﺸﺨﺼﺎﺕ ﺫﻛﺮﺷﺪﻩ ‪.‬‬ ‫‪‬‬
‫ﻻﺯﻡ ﺍﺳﺖ ‪ UPS‬ﺩﺭ ﻣﺤﻠﻲ ﻛﺎﻣﻼً ﺍﻓﻘﻲ ﻭ ﻫﻤﭽﻨﻴﻦ ﺑﺎ ﺣﺼﻮﻝ ﺍﻃﻤﻴﻨﺎﻥ ﺍﺯ ﺍﺳﺘﺤﻜﺎﻡ ﻣﻜﺎﻧﻴﻜﻲ ﻣﺤﻞ ﻧﺼﺐ ﻭ ﻋﺪﻡ ﺍﺣﺘﻤﺎﻝ ﺳﻘﻮﻁ ﺁﻥ‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﻧﺼﺐ ‪.‬‬

‫ﻛﺸﻮﺭ‪ ،‬ﻣﺤﻞ ﻧﺼﺐ ﺑﺎﻳﺪ ﺩﺍﺭﺍﻱ‬

‫(‬ ‫ﻣﻲﺷﻮﺩ )ﻧﻈﻴﺮ ﻣﻨﺎﻃﻖ ﺷﻤﺎﻟﻲ ﻭ ﻳﺎ ﺟﻨﻮﺑﻲ‬
‫ﺍﮔﺮ ‪ UPS‬ﺩﺭ ﻣﺤﻴﻂ ﺩﺍﺭﺍﻱ ﺭﻃﻮﺑﺖ ﺍﻧﺘﻘﺎﻟﻲ ﺍﺯ ﺯﻣﻴﻦ ﻧﺼﺐ ‌‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫ﺣﺪﺍﻗﻞ ‪ 30cm‬ﺍﺭﺗﻔﺎﻉ )ﺩﺍﺭﺍﻱ ﭘﺎﻳﻪ( ﺍﺯ ﺳﻄﺢ ﺯﻣﻴﻦ ‪.‬‬

‫ﺷﻮﺩ‬
‫ﻋﻤﻠﻴﺎﺕ ﻓﻴﺰﻳﻜﻲ ﻧﺼﺐ)ﺗﺎﺑﻠﻮﻫﺎ‪ ،‬ﺑﺎﺗﺮﻱﻫﺎ‪ UPS ،‬ﻭ ﺍﺗﺼﺎﻻﺕ( ﺑﺮﺭﺳﻲ ‪.‬‬ ‫‪‬‬
‫ﻭﻟﺘﺎژﻫﺎﻱ ﻭﺭﻭﺩﻱ‪ UPS‬ﭼﻚ ﺷﻮﺩ‪.‬‬ ‫‪‬‬
‫ﺷﻮﺩ‬
‫ﻧﻘﺸﻪﻫﺎﻱ ﺩﺍﺩﻩ ﺷﺪﻩ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫‪UPS‬ﻫﺎ‪ ،‬ﻃﺒﻖ ‌‬
‫ﺍﺯ ﻛﺎﺑﻞﻫﺎﻱ ﺑﺎ ﺳﻄﺢ ﻣﻘﻄﻊ ﻭ ﻛﻴﻔﻴﺖ ﻣﻨﺎﺳﺐ ﺩﺭ ﻭﺭﻭﺩﻱ ﻭ ﺧﺮﻭﺟﻲ‬ ‫‪‬‬
‫ﻛﺎﺑﻞ ﺍﺭﺕ ﺑﻪ ﺩﺳﺘﮕﺎﻩ‪ UPS‬ﻭﺻﻞ ﺷﻮﺩ‪.‬‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫ﺗﺴﺖ ﺍﺭﺕ ﻛﻪ ﺣﺪﺍﻛﺜﺮ‪ 2‬ﺍﻫﻢ ﺑﻮﺩﻩ ﻭ ﻃﺒﻖ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ‪ TIA 607‬ﻧﺼﺐ ﺷﺪﻩ ‪.‬‬ ‫‪‬‬
‫ﺑﺎﺷﺪ‬
‫ﺍﺯ ﺑﺎﺗﺮﻱﻫﺎﻱ ﻣﻨﺎﺳﺐ ﻣﻄﺎﺑﻖ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ‪ ISO9001‬ﻭ ‪ ISO14001‬ﺍﺳﺘﻔﺎﺩﻩ ﺷﺪﻩ ‪.‬‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 30‬ﺍﺯ ‪36‬‬

‫ﺑﺎﺷﺪ‬
‫ﻫﺎﻱ ﺍﻓﺸﺎﻥ ﻧﺼﺐ ﺷﺪﻩ ‪.‬‬
‫ﻣﺠﻤﻮﻋﺔ ﺑﺎﺗﺮﻱ ﺗﻮﺳﻂ ﺍﺗﺼﺎﻻﺕ ﺑﺎﺗﺮﻱ ﻭ ﺑﺎ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﻛﺎﺑﻞ‬ ‫‪‬‬
‫ﮔﺮﺩﺩ‬
‫ﺍﺯ ﺻﺤﺖ ﺍﺗﺼﺎﻻﺕ ﻣﻮﺍﺭﺩ ﺯﻳﺮ ﺍﻃﻤﻴﻨﺎﻥ ﺣﺎﺻﻞ ‪:‬‬ ‫‪‬‬
‫‪ o‬ﭼﻚ ﻛﺮﺩﻥ ﺳﺮﻫﺎﻱ ﻣﺜﺒﺖ ﻭ ﻣﻨﻔﻲ ﺑﺮﺭﻭﻱ ﺗﺮﻣﻴﻨﺎﻝ ﺩﺳﺘﮕﺎﻩ‬
‫‪UPS‬‬
‫‪ o‬ﺍﺗﺼﺎﻝ ﻛﺎﺑﻞﻫﺎﻱ ﺑﺎﺗﺮﻱ ﺑﻪ ﻭﺭﻭﺩﻱ‪UPS‬‬
‫ﺳﺮﺑﺎﺕﻫﺎ‪ ،‬ﺗﺮﻣﻴﻨﺎﻝﻫﺎﻱ ﻭﺭﻭﺩﻱ ﻭ ﺧﺮﻭﺟﻲ‪ ،‬ﺑﺎﺗﺮﻱ ﻭ ﺗﺎﺑﻠﻮﻫﺎﻱ ﺑﺮﻕ‬
‫‪ o‬ﺑﺮﺭﺳﻲ ﺍﺳﺘﺤﻜﺎﻡ ﺍﺗﺼﺎﻻﺕ‪ ،‬ﺭﻱ‬
‫ﺭﺍﻩﺍﻧﺪﺍﺯﻱ ﺩﺳﺘﮕﺎﻩ)‪ UPS‬ﻭ ﺑﺎﺗﺮﻱ( ﺑﺪﻭﻥ ﺍﺗﺼﺎﻝ ﺧﺮﻭﺟﻲ‬
‫‪‌ o‬‬
‫‪ o‬ﭼﻚ ﻛﺮﺩﻥ ﻭﻟﺘﺎژﻫﺎﻱ ﺧﺮﻭﺟﻲ ﺩﺭﺻﻮﺭﺕ ﺻﺤﺖ ﺍﺗﺼﺎﻝ ﻛﻠﻴﺪ ﺧﺮﻭﺟﻲ‬
‫‪ o‬ﭼﻚ ﻛﺮﺩﻥ ﻭﻟﺘﺎژﻫﺎﻱ ﺧﺮﻭﺟﻲ ﺭﻭﻱ ﺗﺎﺑﻠﻮ ﻭ ﺍﺗﺼﺎﻝ ﺳﻴﻢ ﻧﻮﻝ ﺩﺭ ﺧﺮﻭﺟﻲ ﻭ ﺗﺎﺑﻠﻮ ﻭ ﺍﻃﻤﻴﻨﺎﻥ ﺍﺯ ﻋﺪﻡ ﻭﺟﻮﺩ ﺩﻭﻓﺎﺯ ﺑﺮﺭﻭﻱ‬
‫ﻛﻨﻨﺪﻩﻫﺎ‬
‫‌‬ ‫ﺻﺮﻑ‬
‫ﻡ ‌‬
‫ﻫﺎﻱ ‪External‬‬
‫‪ o‬ﻧﺼﺐ ﻛﻠﻴﺪ ﺑﺎﺗﺮﻱ ﺑﺮﺍﻱ ﺑﺎﺗﺮﻱ‬
‫‪ o‬ﭼﻚ ﻛﺮﺩﻥ ﻭﻟﺘﺎژ ﺑﺎﺗﺮﻱ ﺩﺭ ﺣﺎﻟﺖ ﻛﺎﺭ ﻣﻌﻤﻮﻟﻲ‬
‫‪ o‬ﭼﻚ ﻛﺮﺩﻥ ﻭﻟﺘﺎژ ﺑﺎﺗﺮﻱ ﺩﺭﺣﺎﻟﺖ ﺷﺎﺭژ ﻭ ﭼﻚ ﻛﺮﺩﻥ ﺟﺮﻳﺎﻥ ﺩﺷﺎﺭژ‬
‫‪ o‬ﺗﺴﺖ ﺳﻼﻣﺖ ﺗﻤﺎﻣﻲ ﺑﺎﺗﺮﻱﻫﺎ ﻭ ﺍﺗﺼﺎﻻﺕ ﻣﺮﺑﻮﻃﻪ ﻭ ﺍﻃﻤﻴﻨﺎﻥ ﺍﺯ ﺻﺤﺖ ﺁﻧﻬﺎ‬
‫ﻛﻨﻨﺪﻩﺍﻱ ﺑﻪ ﺧﺮﻭﺟﻲ ﺗﺎﺑﻠﻮﻱ‪ UPS‬ﻣﺘﺼﻞ ﻧﺒﺎﺷﺪ ﺗﺎ ﺩﺭﺻﻮﺭﺕ ﻭﺟﻮﺩ ﺩﻭ ﻓﺎﺯ ﺑﺮﺭﻭﻱ‬
‫‌‬ ‫ﻣﺼﺮﻑ‬
‫‌‬ ‫ﻫﻲ‬‫ﺗﻮﺟﻪ‪ :‬ﻗﺒﻞ ﺍﺯ ﺍﻧﺠﺎﻡ ﺗﺴﺖ ﺩﻭﻓﺎﺯ‪ ،‬ﺩﻗﺖ ﺷﻮﺩ ﻛﻪ چ‬
‫ﻧﺸﻮﺩ‬
‫ﻛﻨﻨﺪﻩﻫﺎ‪ ،‬ﺁﺳﻴﺒﻲ ﺑﻪ ﺁﻧﻬﺎ ﻭﺍﺭﺩ ‪.‬‬
‫ﻣﺼﺮﻑ ‌‬‫‌‬ ‫ﭘﺮﻳﺰﻫﺎﻱ‬
‫ﻛﻨﻨﺪﻩﻫﺎ‬
‫ﻣﺼﺮﻑ ‌‬‫ﻛﻨﻨﺪﻩﻫﺎ ﻭ ﭼﻚ ﻭﻟﺘﺎژ ﺩﺭ ﻧﻘﺎﻁ ﻣﺨﺘﻠﻒ ﺑﺮﺭﻭﻱ ‌‬
‫ﻣﺼﺮﻑ ‌‬‫‪ o‬ﺍﺗﺼﺎﻝ ﻛﻠﻴﺪﻫﺎﻱ ﺧﺮﻭﺟﻲ ﺗﺎﺑﻠﻮ ﺑﻪ ‌‬
‫ﺧﺮﻭﺟﻲ ﺩﺭ ﻫﻨﮕﺎﻡ ﻗﻄﻊ ﺑﺮﻕ‬
‫ﻫﺎ‬ ‫ﻣﻬﻤﺘﺮﻱﺁﻧﻬﺎ ﺗﻨﻈﻴﻢ ﺟﺮﻳﺎﻥ ﺷﺎﺭژ ﻭ ﺯﻣﺎﻥ ﻗﻄﻊ‬
‫ﻥ‬ ‫ﻧﺮﻡﺍﻓﺰﺍﺭ ‪ UPS‬ﻭ ﺗﻨﻈﻴﻢ ﻣﻨﺎﺳﺐ ﺁﻥ ﻛﻪ‬
‫‪ o‬ﻧﺼﺐ ‌‬
‫ﺍﺳﺖ‪ .‬ﺗﻨﻈﻴﻢ ﺟﺮﻳﺎﻥ ﺷﺎﺭژ ﺑﺮ ﺍﺳﺎﺱ ﺁﻣﭙﺮﺳﺎﻋﺖ ﺑﺎﺗﺮﻱﻫﺎ ﺍﻧﺠﺎﻡ ﺷﻮﺩ‪ .‬ﺩﺭ ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻳﻲ ﻛﻪ ﺩﺍﺭﺍﻱ ﻳﻚ ‪ UPS‬ﻫﺴﺘﻨﺪ‪،‬‬
‫ﺧﺮﻭﺟﻲﻫﺎ ﺩﺍﺭﺍﻱ ﺍﻭﻟﻮﻳﺖﻫﺎﻱ ﻣﺘﻔﺎﻭﺗﻲ ﺑﻮﺩﻩ ﻭ ﺩﺭ ﻫﻨﮕﺎﻡ ﻗﻄﻊ ﺑﺮﻕ‪ ،‬ﺧﺮﻭﺟﻲ ﺩﺍﺭﺍﻱ ﺍﻭﻟﻮﻳﺖ ﻛﻤﺘﺮ ﭘﺲ‪15‬ﺍﺯ ﺩﻗﻴﻘﻪ ﻗﻄﻊ ﺷﻮﺩ‪.‬‬
‫‌‬
‫ﻻﺯﻡ ﺑﻪ ﺗﻮﺿﻴﺢ ﺍﺳﺖ ﻛﻪ ﺧﺮﻭﺟﻲ ﺳﻮﺋﻴﭻ ﺍﺯ ﺍﻭﻟﻮﻳﺖ ﺑﺎﻻﺗﺮﻱ ﺑﺮﺧﻮﺭﺩﺍﺭ ‪.‬ﺍﺳﺖ‬
‫ﻛﻨﻨﺪﻩﻫﺎ )ﺗﺴﺖ ﻣﺴﻴﺮ ‪ ،BY PASS‬ﻗﻄﻊ ﻭ ﻭﺻﻞ ﺑﺮﻕ‬
‫ﻣﺼﺮﻑ ‌‬‫‌‬ ‫‪ o‬ﺍﻃﻤﻴﻨﺎﻥ ﺍﺯ ﻋﻤﻠﻜﺮﺩ ﺻﺤﻴﺢ‪ UPS‬ﻭ ﺑﺎﺗﺮﻱﻫﺎ ﺑﺪﻭﻥ ﺍﺗﺼﺎﻝ‬
‫ﻭﺭﻭﺩﻱ ﻭ ‪(...‬‬
‫ﻛﻨﻨﺪﻩﻫﺎ )ﺗﺴﺖ ﻡﺳﻴﺮ ‪ ،BY PASS‬ﻗﻄﻊ ﻭ ﻭﺻﻞ ﺑﺮﻕ‬
‫ﻣﺼﺮﻑ ‌‬‫‌‬ ‫‪ o‬ﺍﻃﻤﻴﻨﺎﻥ ﺍﺯ ﻋﻤﻠﻜﺮﺩ ﺻﺤﻴﺢ‪ UPS‬ﻭ ﺑﺎﺗﺮﻱﻫﺎ ﭘﺲ ﺍﺯ ﺍﺗﺼﺎﻝ‬
‫ﻭﺭﻭﺩﻱ ﻭ ‪(...‬‬
‫‪ o‬ﻣﺪﻳﺮﻳﺖ ﻭ ﻧﻈﺎﻓﺖ ﻣﺤﻞ‪ ،‬ﭘﺲ ﺍﺯ ﺍﻧﺠﺎﻡ ﻛﺎﺭ‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 31‬ﺍﺯ ‪36‬‬

‫ﻧﺮﻡﺍﻓﺰﺍﺭ ‪ UPS‬ﻭ ﺍﺗﺼﺎﻻﺕ‪ UPS‬ﻭ ﺑﺎﺗﺮﻱ ﺑﻪ ﺍﻓﺮﺍﺩ ﻣﺸﺨﺺ ﺷﺪﻩ ﺗﻮﺳﻂ ﻛﺎﺭﻓﺮﻣﺎ‬
‫‪ o‬ﺁﻣﻮﺯﺵ ‌‬
‫ﺻﻮﺭﺕﺟﻠﺴﺔ ﺍﻧﺠﺎﻡ ﻣﺮﺍﺣﻞ ﻓﻮﻕ ﻭ ﻗﻴﺪ ﻧﻤﻮﺩﻥ ﻣﻘﺎﺩﻳﺮ ﭘﺎﺭﺍﻣﺘﺮﻫﺎﻱ ﺍﻟﻜﺘﺮﻳﻜﻲ ﺷﺎﻣﻞ ﻭﻟﺘﺎژ ﺧﻄﻮﻁ‪ ،‬ﻧﻮﻝ ﻭ ﺍﺭﺕ‪ ،‬ﺟﺮﻳﺎﻥ ﻭ‬
‫‌‬ ‫‪ o‬ﺗﻨﻈﻴﻢ‬
‫ﺻﻮﺭﺕﺟﻠﺴﻪ‪.‬‬
‫‌‬ ‫ﻓﺮﻛﺎﻧﺲ ﺁﻧﻬﺎ ﺩﺭ ﻭﺭﻭﺩﻱ ﻭ ﺧﺮﻭﺟﻲ‪ UPS‬ﻭ ﺑﺎﺗﺮﻳﻬﺎ ﺩﺭ ﻣﺘﻦ‬

‫ﺷﻤﺎﺭﻩﮔﺬﺍﺭﻱ ﻭ ﻧﺼﺐ ﻟﻴﺒﻞﻫﺎ‬ ‫‪- 17‬‬

‫ﺷﻮﺩﺩﺭ‬
‫ﺷﻤﺎﺭﻩﮔﺬﺍﺭﻱﻫﺎ ﺑﺎﻳﺪ ﺑﺮ ﺍﺳﺎﺱ ﺁﺧﺮﻳﻦ ﻧﮕﺎﺭﺵ ﺍﺯ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ‪ ANSI/TIA/EIA- 606-A‬ﻭ ﻫﻤﭽﻨﻴﻦ ﺑﺎ ﺗﺎﻳﻴﺪ ﺩﺳﺘﮕﺎﻩ ﻧﻈﺎﺭﺕ‪ ،‬ﺍﻧﺠﺎﻡ ‪.‬‬
‫ﺍﻳﻦ ﺭﺍﺑﻄﻪ ﺑﺮﺍﻱ ﻟﻴﺒﻞ ﮔﺬﺍﺭﻱ ﺍﻗﻼﻡ ﺷﺒﻜﻪ‪ ،‬ﺳﻪ ﺳﻄﺢ ﺩﻳﺪﻩ ﺷﺪﻩ ‪.‬ﺍﺳﺖ‬

‫‪ - -1 17‬ﭘﻮﺭﺕ ‪:‬‬
‫ﻫﺎﻱ ﺩﻳﻮﺍﺭ ﺍﺯ ﻓﺮﻣﻮﻝﻫﺎﻱ ﺯﻳﺮ ﺍﺳﺘﻔﺎﺩﻩ ﻣﻲﺷﻮﺩ‪:‬‬
‫ﺑﺮﺍﻱ ﻣﺸﺨﺺ ﻛﺮﺩﻥ ﻧﻮﺩﻫﺎﻱ ﺷﺒﻜﻪ ﺑﺮ ﺭﻭﻱ ﺧﺮﻭﺟﻲ‬

‫}‪{XDxx Data Patch panel‬‬ ‫‪‬‬

‫}‪{(X+1)Txx Telephon Patch Panel‬‬ ‫‪‬‬
‫ﺩﺭﺍﻳﻦ ﻓﺮﻣﻮﻝ ‪ X‬ﺷﻤﺎﺭﻩ ﭘﭻ ﭘﻨﻞ ﻣﻲﺑﺎﺷﺪ‪ .‬ﭼﻮﻥ ﺩﺭ ﺭﻙ ﭘﭻ ﭘﻨﻞﻫﺎﻱ ﺩﻳﺘﺎ ﻭ ﺗﻠﻔﻦ ﺑﻪ ﺗﺮﺗﻴﺐ ﻳﻚ ﺩﺭ ﻣﻴﺎﻥ ﻧﺼﺐ ﺧﻮﺍﻫﻨﺪ ﺷﺪ ﻟﺬﺍ ﺑﺎﻳﺪ‬ ‫‪‬‬
‫ﺑﻴﻦ‬
‫‪ xx‬ﺷﻤﺎﺭﻩ ﭘﻮﺭﺕ ﭘﭻ ﭘﻨﻞ ﺑﻮﺩﻩ ﻛﻪ ﻫﻤﻴﺸﻪ ‪1‬‬
‫ﺗﻮﺟﻪ ﺩﺍﺷﺖ ﻛﻪ ﺷﻤﺎﺭﻩ ﭘﭻ ﭘﻨﻞﻫﺎﻱ ﺩﻳﺘﺎ ﻫﻤﻴﺸﻪ ﻓﺮﺩ ﻭ ﺗﻠﻔﻦ ﻫﻤﻴﺸﻪ ﺯﻭﺝ ﺧﻮﺍﻫﺪ ‪.‬ﺑﻮﺩ‬
‫ﺗﺎ ‪ 24‬ﺧﻮﺍﻫﺪ ﺑﻮﺩ‪.‬‬

‫‪ - 2- 17‬ﭘﭻ ﭘﻨﻞ‪:‬‬
‫ﻫﺎﻱ ﭘﭻ ﭘﻨﻞ ﺷﻤﺎﺭﻩ ﭘﻮﺭﺕ‬
‫ﺑﺮﺍﻱ ﻣﺸﺨﺺ ﻛﺮﺩﻥ ﭘﭻ ﭘﻨﻞ ﺩﺭ ﺭﻙ‪ X ،‬ﺑﻌﻨﻮﺍﻥ ﺷﻤﺎﺭﻩ ﭘﭻ ﭘﻨﻞ ﺑﺮﺭﻭﻱ ﺁﻥ ﻧﺼﺐ ﺧﻮﺍﻫﺪ ﮔﺮﺩﻳﺪ ﺑﺮﺭﻭﻱ ﭘﻮﺭﺕ‬
‫ﺑﺼﻮﺭﺕ ‪ Dxx‬ﻳﺎ ‪ Txx‬ﺑﻪ ﺗﺮﺗﻴﺐ ﺑﺮﺍﻱ ﺩﻳﺘﺎ ﻭ ﺗﻠﻔﻦ ﻧﻮﺷﺘﻪ ﺧﻮﺍﻫﻨﺪ ‪.‬ﺷﺪ‬

‫ﺷﺒﻜﻪ‬
‫‪:‬‬ ‫‪ - 3- 17‬ﻛﺎﺑﻞ‬
‫ﻛﺎﺑﻞ ﺷﺒﻜﻪ ﺍﻋﻢ ﺍﺯ ﻣﺴﻲ ﻭ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻣﻲﺑﺎﻳﺪ ﺩﺭ ﺩﻭ ﺳﺮ ﺑﺎ ﻫﻤﺎﻥ ﺷﻤﺎﺭﻩ ﭘﻮﺭﺕ ﺷﻤﺎﺭﻩﮔﺬﺍﺭﻱ ﮔﺮﺩﺩ‪ .‬ﺷﻤﺎﺭﻩﻫﺎﻱ ﻧﺼﺐ ﺷﺪﻩ ﺑﺎﻳﺪ ﺩﺭ ﻣﻘﺎﺑﻞ‬
‫ﻣﻮﺍﺭﺩ ﻣﺤﻴﻄﻲ ﻣﻘﺎﻭﻡ ﺑﻮﺩﻩ ﻭ ﺑﻤﺪﺕ ﻃﻮﻻﻧﻲ ﻗﺎﺑﻞ ﺭﻭﻳﺖ ﻭ ﺧﻮﺍﻧﺪﻥ ‪.‬ﺑﺎﺷﺪ‬

‫‪ - 4- 17‬ﺭﻙ‪:‬‬
‫ﺷﺪ ﺩﺭ ﺍﻳﻦ ﻓﺮﻣﻮﻝ‪ A‬ﻣﻨﻄﻘﻪ‪ S ،‬ﻛﺪ ﺍﻳﺴﺘﮕﺎﻩ‪ B،‬ﺷﻤﺎﺭﻩ ﺳﺎﺧﺘﻤﺎﻥ‪ F،‬ﻃﺒﻘﻪ ﻭ‬
‫ﺑﺮﺍﻱ ﻣﺸﺨﺺ ﻛﺮﺩﻥ ﺭﻙ ﺍﺯ ﻓﺮﻣﻮﻝ‪ ASBFN‬ﺍﺳﺘﻔﺎﺩﻩ ﺧﻮﺍﻫﺪ ‪.‬‬
‫ﺭﻙ‬
‫‪ N‬ﺷﻤﺎﺭﻩ ‪.‬‬

‫ﺧﻮﺍﻫﺪ ﺷﺪ‬
‫‪:‬‬ ‫ﺩﺭﺭﺍﺑﻄﻪ ﺑﺎ ﺳﻴﺴﺘﻢ ﺑﺮﻕ‪ UPS‬ﺑﺮﺍﻱ ﺗﺎﺑﻠﻮﻫﺎﻱ ﺑﺮﻕ ﻭ ﭘﻮﺭﺗﻬﺎﻱ ﺩﻳﻮﺍﺭﻱ ﺍﺯ ﻓﺮﻣﻮﻝ ﺯﻳﺮ ﺍﺳﺘﻔﺎﺩﻩ‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 32‬ﺍﺯ ‪36‬‬

‫‪ - 5- 17‬ﭘﻮﺭﺕ‪:‬‬
‫ﺷﺪ ﺩﺭ ﺍﻳﻦ ﻓﺮﻣﻮﻝ ‪ X‬ﺷﻤﺎﺭﻩ ﺗﺎﺑﻠﻮﻱ ﺍﺻﻠﻲ‪ P،‬ﺷﻤﺎﺭﻩ ﺗﺎﺑﻠﻮﻱ‬
‫ﺑﺮﺍﻱ ﻣﺸﺨﺺ ﻛﺮﺩﻥ ﭘﻮﺭﺕ ﺧﺮﻭﺟﻲ‪ UPS‬ﺍﺯ ﻓﺮﻣﻮﻝ ‪ XPFx‬ﺍﺳﺘﻔﺎﺩﻩ ﺧﻮﺍﻫﺪ ‪.‬‬
‫ﺧﻮﺍﻫﺪﺑﻮﺩ‬
‫‪.‬‬ ‫ﻓﺮﻋﻲ‪ F ،‬ﺷﻤﺎﺭﻩ ﻓﻴﻮﺯ ﻣﺮﺑﻮﻃﻪ‪ x،‬ﺷﻤﺎﺭﻩ ﻧﻮﺩ ﻛﻪ ﻋﻤﻮﻣﺎًﺍﺯ ‪ 5‬ﻋﺪﺩ‬

‫‪ - 6- 17‬ﺗﺎﺑﻠﻮ‪:‬‬
‫‪X‬‬ ‫ﺧﻮﺍﻫﺪﺷﺪ ﺩﺭﺍﻳﻦ ﻓﺮﻣﻮﻝ‪ A‬ﻣﻨﻄﻘﻪ‪ S ،‬ﺍﻳﺴﺘﮕﺎﻩ‪ B ،‬ﺷﻤﺎﺭﻩ ﺳﺎﺧﺘﻤﺎﻥ‪ F ،‬ﻃﺒﻘﻪ‪،‬‬
‫‪.‬‬ ‫ﺑﺮﺍﻱ ﻣﺸﺨﺺ ﻛﺮﺩﻥ ﺗﺎﺑﻠﻮ ﺍﺯ ﻓﺮﻣﻮﻝ‪ ASBFXP‬ﺍﺳﺘﻔﺎﺩﻩ‬
‫ﺷﻤﺎﺭﻩ ﺗﺎﺑﻠﻮ ﺍﺻﻠﻲ‪ P،‬ﺷﻤﺎﺭﻩ ﺗﺎﺑﻠﻮ ‪.‬‬
‫ﻓﺮﻋﻲ‬

‫‪ - 7- 17‬ﺣﻮﺿﭽﻪ‪:‬‬
‫)‪ (Manhole‬ﺩﺭ ﻣﺤﻴﻂ ﺳﺎﻳﺖ ﺍﺯ ﻓﺮﻣﻮﻝ ‪ ASB1B2xx‬ﺍﺳﺘﻔﺎﺩﻩ ﺧﻮﺍﻫﺪ ﺷﺪ ﻛﻪ ﺩﺭ ﺍﻳﻦ ﻓﺮﻣﻮﻝ ‪A‬‬ ‫ﺩﺭ ﺭﺍﺑﻄﻪ ﺑﺎ ﻣﺸﺨﺺ ﻛﺮﺩﻥ ﺣﻮﺿﭽﻪﻫﺎ‬
‫ﺧﻮﺍﻫﺪﺑﻮﺩ‬
‫‪.‬‬ ‫ﻣﻨﻄﻘﻪ‪ S ،‬ﺍﻳﺴﺘﮕﺎﻩ‪ B1،‬ﺳﺎﺧﺘﻤﺎﻥ ﻣﺒﺪﺍ‪ B2،‬ﺳﺎﺧﺘﻤﺎﻥ ﻣﻘﺼﺪ‪ x،‬ﺷﻤﺎﺭﻩ ﺣﻮﺿﭽﻪ‪ x،‬ﺗﻌﺪﺍﺩ ﻛﻞ ﺣﻮﺿﭽﻪﻫﺎ ﺩﺭ ﺍﻳﻦ ﺍﻳﺴﺘﮕﺎﻩ‬

‫ﻓﻴﺒﺮﻧﻮﺭﻱ‬
‫‪:‬‬ ‫‪ - 8- 17‬ﺟﻌﺒﻪ‬
‫ﺩﺭ ﺁﻥ ‪ A‬ﻣﻨﻄﻘﻪ‪ S ،‬ﺍﻳﺴﺘﮕﺎﻩ ﻭ ‪B‬‬ ‫ﺩﺭﺧﺼﻮﺹ ﺷﻤﺎﺭﻩ ﻳﺎ ﻛﺪﮔﺬﺍﺭﻱ ﺟﻌﺒﻪﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻧﺼﺐ ﺷﺪﻩ ﺍﺯ ﻓﺮﻣﻮﻝ‪ ASB‬ﺍﺳﺘﻔﺎﺩﻩ ﻣﻲﺷﻮﺩ ﻛﻪ‬
‫ﺷﻤﺎﺭﻩ ﺳﺎﺧﺘﻤﺎﻥ ﻣﻲﺑﺎﺷﺪ‪.‬‬

‫ﺍﻧﻮﺍﻉ ﺭﻛﻬﺎ‬ ‫‪- 18‬‬

‫ﺩﺭ ﺳﺎﺧﺘﻤﺎﻧﻬﺎﻳﻲ ﻛﻪ ﻛﻤﺘﺮ ﺍﺯ‪ 15‬ﻧﻮﺩ ﺷﺒﻜﻪ ﺩﺍﺷﺘﻪ ﺑﺎﺷﻨﺪ ﺍﺯ ﺭﻙﻫﺎﻱ ‪ 27U‬ﻳﺎ ‪ 28U‬ﺑﻪ ﻋﻤﻖ ‪ 60‬ﺳﺎﻧﺘﻲ ﻣﺘﺮ ﻭ ﺑﺮﺍﻱ ﺳﺎﺧﺘﻤﺎﻥﻫﺎﻱ ﺑﻴﺸﺘﺮ ﺍﺯ‬
‫ﺷﻮﺩ‬
‫‪ 15‬ﻧﻮﺩ‪ ،‬ﺍﺯ ﺭﻙ ﺑﺎ ﻋﻤﻖ‪ 80‬ﺳﺎﻧﺘﻲ ﻣﺘﺮ ﻭ‪ 40U‬ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫ﺍﺳﺖ‬
‫ﻣﺸﺨﺼﺎﺕ ﻋﻤﻮﻣﻲ ﺭﻙﻫﺎ ﺑﻪ ﻗﺮﺍﺭ ﺯﻳﺮ ‪:‬‬

‫‪ 19‬ﺍﻳﻨﭻ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ‪ ،‬ﻋﺮﺽ ﺭﻛﻬﺎ‪ 60‬ﺳﺎﻧﺘﻴﻤﺘﺮ‪،‬‬ ‫‪‬‬

‫ﺟﻨﺲ ﺑﺪﻧﺔ ﺭﻙ ﺍﺯ ﻓﻠﺰ ﻭ ﺩﺍﺭﺍﻱ ﻳﻚ ﺩﺭﺏ ﺩﺭ ﺟﻠﻮﻱ ﺁﻥ ﺑﺎ ﻓﺮﻳﻢ ﻓﻠﺰﻱ ﻭ ﺷﻴﺸﻪ ﺿﺪﺧﺶ‪،‬‬ ‫‪‬‬
‫ﺳﻪ ﻋﺪﺩ ﭘﺎﻧﻞ ﺑﺎﺯﺷﻮ ﺩﺭ‪ 3‬ﻃﺮﻑ ﺩﻳﮕﺮ ﺑﺎ ﻭﺟﻮﺩ ﺷﺒﻜﺔ ﺗﻬﻮﻳﻪ ﻫﻮﺍ‪ ،‬ﻗﺎﺑﻠﻴﺖ ﻗﻔﻞ ﺷﺪﻥ ﺍﺯﺩﺍﺧﻞ‪،‬‬ ‫‪‬‬
‫ﺭﻧﮓ ﭘﻮﺩﺭﻱ ﺍﻟﻜﺘﺮﻭﺍﺳﺘﺎﺗﻴﻚ‪،‬‬ ‫‪‬‬
‫ﺭﻙ‬
‫ﺭﻱﻋﻤﻮﺩﻱ ﻗﺎﺑﻞ ﺣﺮﻛﺖ)ﺩﻭ ﻋﺪﺩ ﺩﺭ ﺟﻠﻮ ﻭ ﺩﻭ ﻋﺪﺩ ﺩﺭ ﻋﻘﺐ (‪،‬‬
‫‪ 4‬ﻋﺪﺩ ﺁﺩﺍﭘﺘﻮﺭ ﻳﺎ ﻝ‬ ‫‪‬‬
‫ﺍﻣﻜﺎﻥ ﺍﺭﺕ ﺑﺪﻧﻪ‪،‬‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 33‬ﺍﺯ ‪36‬‬

‫ﺩﺍﺭﺍﻱ ﻣﺪﺍﺭ ﻫﻮﺷﻤﻨﺪ )ﺍﻣﻜﺎﻧﺎﺕ ﺳﻴﺴﺘﻢ ﻫﻮﺷﻤﻨﺪ ﻋﺒﺎﺭﺗﺴﺖ ‪:‬ﺍﺯ ﻧﻤﺎﻳﺶ ﻫﻤﺰﻣﺎﻥ ﺩﻣﺎ ﻭ ﺭﻃﻮﺑﺖ‪ ،‬ﺍﻣﻜﺎﻥ ﺍﺭﺗﺒﺎﻁ ﺑﺎ ﻛﺎﻣﭙﻴﻮﺗﺮ ﺑﺎ ﻧﺮﻡ ﺍﻓﺰﺍﺭ‬ ‫‪‬‬
‫ﻓﻦ‬
‫ﺭﻣﻮﺳﺘﺎﺕ ﻓﻦ‪ ،‬ﺍﻣﻜﺎﻥ ﻛﻨﺘﺮﻝ ﻋﻤﻠﻜﺮﺩ (‪،‬‬
‫ﻛﻨﺘﺮﻟﻲ‪ ،‬ﺗﻨﻈﻴﻢ ﺩﻣﺎﻱ ﺩﺍﺧﻞ ﺭﻙ ﺑﻮﺳﻴﻠﺔ ﻣﺪﺍﺭ ﻫﻮﺷﻤﻨﺪ ﻭ ﻳﺎ ﻛﺎﻣﭙﻴﻮﺗﺮ‪ ،‬ﺩﺍﺭﺍﻱ ﺕ‬

‫ﺧﺮﻭﺟﻲ ﻣﺠﻬﺰ ﺑﻪ‪،Earth‬‬ ‫‪‬‬

‫ﻧﺼﺐ ﺩﻭ ﻋﺪﺩ ﻓﻦ ﺑﺎ ﻛﻴﻔﻴﺖ ﻋﺎﻟﻲ ﺩﺭ ﺳﻘﻒ‪،‬‬ ‫‪‬‬
‫ﺍﻣﻜﺎﻥ ﺗﻌﻮﻳﺾ ﻓﻦﻫﺎ ﺍﺯ ﺑﺎﻻ ﺑﺪﻭﻥ ﺑﺎﺯ ﻛﺮﺩﻥ ﺗﺠﻬﻴﺰﺍﺕ ﺩﺍﺧﻞ ﺭﻙ‪،‬‬ ‫‪‬‬
‫ﺩﺍﺭﺍﻱ ﻓﻴﻠﺘﺮ ﻗﺎﺑﻞ ﺗﻌﻮﻳﺾ ﺩﺭ ﻛﻒ ﺭﻙ‪،‬‬ ‫‪‬‬
‫ﻫﺎ‪،‬‬
‫ﻛﻨﺘﺮﻝ ﻭ ﺟﻠﻮﮔﻴﺮﻱ ﺍﺯ ﺻﺪﺍﻱ ﻓﻦ‬ ‫‪‬‬
‫ﻫﺎ‪،‬‬
‫ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﻓﻴﻠﺘﺮ ﺑﺮﺍﻱ ﻓﻦ‬ ‫‪‬‬
‫ﺍﻣﻜﺎﻥ ﻭﺭﻭﺩ ﻛﺎﺑﻞ ﺍﺯ ﺳﻘﻒ ﻭ ﻛﻒ ﺭﻙ‪،‬‬ ‫‪‬‬
‫ﻗﻔﻞ ﺑﺎ ﻛﻴﻔﻴﺖ ﺑﺎﻻ ﻃﺮﺡ ﺭﻳﺘﺎﻝ ﺑﺮﺍﻱ ﺩﺭﺏ ﺟﻠﻮﻳﻲ‪،‬‬ ‫‪‬‬
‫ﺍﻣﻜﺎﻥ ﺑﺎﺯ ﻛﺮﺩﻥ ﺳﻬﻞ ﻭ ﺁﺳﺎﻥ ﺩﺭﻫﺎﻱ ﭘﺸﺖ ﻭ ﺑﻘﻞ ﺭﻙ ﻫﺎ‪،‬‬ ‫‪‬‬
‫ﻭﺟﻮﺩ ‪ 4‬ﻋﺪﺩ ﭼﺮﺥ ﺟﻬﺖ ﺟﺎﺑﺠﺎﻳﻲ ﻣﺤﺪﻭﺩ ﺭﻙ ﻭ ﺍﻣﻜﺎﻥ ﺟﺎﻳﮕﺰﻳﻨﻲ ﺁﻧﻬﺎ ﺑﺎ ﭘﺎﻳﻪ ﻫﺎﻱ ﻗﺎﺑﻞ ‪.‬ﺗﻨﻈﻴﻢ‬ ‫‪‬‬
‫‪ 40U‬ﺩﻭ ﺑﺴﺘﻪ )‪ 50‬ﺳﺖ ﻛﺎﻣﻞ ﺩﺭ ﻫﺮ ﺑﺴﺘﻪ ﺷﺎﻣﻞ‬
‫ﺑﺮﺍﻱ ﺭﻛﻬﺎﻱ‪ 27U‬ﻭ ‪ 28U‬ﻳﻚ ﺑﺴﺘﻪ ﭘﻴﭻ ﻭ ﻣﻬﺮﺓ ﻣﺮﺑﻮﻁ ﺑﻪ ﺭﻙ ﻭ ﺑﺮﺍﻱ ﺭﻙ ﻫﺎﻱ‬ ‫‪‬‬
‫ﭘﻴﭻ ﻭ ﻣﻬﺮﻩ ﻭ ﻭﺍﺷﺮ ﻣﺨﺼﻮﺹ ﺍﺯ ﺟﻨﺲ‪،(ABS‬‬

‫ﮔﺮﺩﺩ‬
‫ﺭﻙﭘﻴﺸﺒﻴﻨﻲ ﻭ ﺗﻌﺒﻴﻪ ‪:‬‬
‫ﻫﻤﭽﻨﻴﻦ ﻻﺯﻡ ﺍﺳﺖ ﺗﺠﻬﻴﺰﺍﺕ ﺯﻳﺮ ﻫﻤﺮﺍﻩ ﻭ ﺩﺭﺩﺍﺧﻞ ﻫﺎ‬

‫ﺳﻴﻨﻲ ﺭﻙ ﺑﺎ ﻋﻤﻖ‪ 20‬ﺳﺎﻧﺘﻴﻤﺘﺮ ﺟﻬﺖ ﺁﺭﺍﻳﺶ ﻛﺎﺑﻞﻫﺎ ﭘﺸﺖ ﭘﭻ ﭘﻨﻞﻫﺎ )ﺑﻪ ﺗﻌﺪﺍﺩ ﭘﭻﭘﻨﻞﻫﺎ(‬ ‫‪‬‬
‫ﻫﺎﻱ ﻋﻤﻖ‪ 60‬ﺟﻬﺖ ﻧﺼﺐ ‪) UPS‬ﻳﻚ ﻋﺪﺩ(‬
‫ﺳﻴﻨﻲ ﺑﺎ ﺍﻣﻜﺎﻥ ﻧﺼﺐ ﺩﺭ ﭼﻬﺎﺭ ﻧﻘﻄﻪ‪ ،‬ﺑﺮﺍﻱ ﺭﻙ‬ ‫‪‬‬
‫ﻫﺎﻱ ﻋﻤﻖ‪ 80‬ﺟﻬﺖ ﻧﺼﺐ ‪) UPS‬ﻳﻚ ﻋﺪﺩ(‬
‫ﺳﻴﻨﻲ ﺑﺎ ﺍﻣﻜﺎﻥ ﻧﺼﺐ ﺩﺭ ﭼﻬﺎﺭ ﻧﻘﻄﻪ‪ ،‬ﺑﺮﺍﻱ ﺭﻙ‬ ‫‪‬‬
‫ﺭﻙ ﺩﺍﺭﺍﻱ ﺣﺪﺍﻗﻞ‪ 5‬ﻗﻼﺏ )ﺑﻪ ﺗﻌﺪﺍﺩ ﻣﺠﻤﻮﻉ ﭘﭻ ﭘﻨﻞﻭ ﺳﻮﺋﻴﭻﻫﺎ(‬
‫ﻧﮕﻬﺪﺍﺭﻧﺪﺓ ﻛﺎﺑﻞ ﺟﻬﺖ ﻧﺼﺐ ﺩﺭ ﻋﺮﺽ ﻫﺎ‬ ‫‪‬‬
‫‪ Blank Panel 1U‬ﺟﻬﺖ ﭘﻮﺷﺎﻧﺪﻥ ﻛﻠﻴﻪ ﻓﻀﺎﻫﺎﻱ ﺧﺎﻟﻲ ﺩﺭ ﺭﻙ ﻭ ﺍﻟﺒﺘﻪ ﻫﻤﺮﻧﮓ ﺑﺎ ﺭﻙ‬ ‫‪‬‬
‫ﺯﻳﺮ‬
‫‪ 19‬ﺍﻳﻨﭻ ﻭ ﺑﺎ ﻣﺸﺨﺼﺎﺕ ‪:‬‬
‫ﻳﻚ ﻋﺪﺩ ﺗﺮﻣﻴﻨﺎﻝ ﺑﺮﻕ ﺑﺎ‪ 8‬ﭘﺮﻳﺰ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ ﻭ ﻗﺎﺑﻞ ﻧﺼﺐ ﺩﺭ ﺭﻙ ﺑﺎ ﻋﺮﺽ‬ ‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 34‬ﺍﺯ ‪36‬‬

‫‪ 1 o‬ﺗﺎ ‪ 2‬ﻳﻮﻧﻴﺖ‪،‬‬
‫‪ 8 o‬ﭘﺮﻳﺰ ﺍﺭﺕ ﺩﺍﺭ‪،‬‬
‫‪ o‬ﺍﻣﻜﺎﻥ ﻧﺼﺐ ﺁﺳﺎﻥ ﺩﻭﺷﺎﺧﻪﻫﺎ‪،‬‬
‫‪ o‬ﭘﺮﻳﺰﻫﺎ ﺑﺎﻛﻴﻔﻴﺖ ﻋﺎﻟﻲ‪،‬‬
‫‪ o‬ﻛﺎﺑﻞ ‪3‬ﻣﺘﺮﻱ‪،‬‬
‫‪ o‬ﺩﺍﺭﺍﻱ ﭼﺮﺍﻍ ﻭﺿﻌﻴﺖ ﻭ ﺑﺪﻭﻥ ﻛﻠﻴﺪ‪،‬‬

‫ﺭﻭﺵ ﻫﺎﻱ ﺗﺴﺖ‬ ‫‪- 19‬‬

‫ﺷﻮﺩ‪ .‬ﺑﺪﻳﻬﻲ ﺍﺳﺖ ﻻﺯﻡ ﺍﺳﺖ ﭘﺲ ﺍﺯ ﻧﺼﺐ ﻫﺮ ﺑﺴﺘﺮ‪ ،‬ﻧﺴﺒﺖ ﺑﻪ ﺗﺴﺖ‬
‫ﺩﺭ ﭘﺮﻭژﻩﻫﺎﻱ ﺷﺒﻜﻪ ﻛﺎﻣﭙﻴﻮﺗﺮﻱ ﺩﻭ ﺑﺴﺘﺮ ﻣﺴﻲ ﻭ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻧﺼﺐ ﻣﻲ‬
‫ﺍﺳﺖ‬
‫ﺷﻮﺩﺩﺭ ﺍﺩﺍﻣﻪ ﺳﺎﺧﺘﺎﺭ ﻭ ﺭﻭﺵ ﺗﺴﺖ ﺑﻴﺎﻥ ﺷﺪﻩ ‪.‬‬
‫ﺻﺤﺖ ﻋﻤﻠﻜﺮﺩ ﻫﺮ ﻟﻴﻨﻚ‪ ،‬ﺍﻗﺪﺍﻡ ‪.‬‬

‫‪ - -1 19‬ﺗﺴﺖ ﺷﺒﻜﻪﻫﺎﻱ ﻣﺴﻲ‪:‬‬

‫‪ o‬ﺑﺮﺍﻱ ﺗﺴﺖ ﭘﻮﺭﺕﻫﺎﻱ ﻣﺴﻲ ﻧﺼﺐ ﺷﺪﻩ ﻃﺒﻖ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ ﺍﺯ ﺩﺳﺘﮕﺎﻩ‪ Cable Analyzer‬ﻣﺎﻧﻨﺪ‪Fluke DTX-1800 :‬‬
‫ﺷﺪ‬
‫ﺍﺳﺘﻔﺎﺩﻩ ﺧﻮﺍﻫﺪ ‪.‬‬
‫‪ o‬ﺭﻭﺵ ﺗﺴﺖ ﺑﺎﻳﺪ ﺑﺮﺍﺳﺎﺱ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ ﻣﻮﺟﻮﺩ ﺑﺮﺍﻱ ﻛﺎﺑﻞ ﻣﺴﻲ ﻭ ﺗﺤﺖ ﻧﻈﺎﺭﺕ ﺩﺳﺘﮕﺎﻩ ﻧﻈﺎﺭﺕ ﺍﻧﺠﺎﻡ ‪.‬ﭘﺬﻳﺮﺩ‬
‫ﺷﻮﺩ‬
‫ﺭﺍﻱ ﺗﻤﺎﻡ ﻧﻮﺩﻫﺎ ﺍﻧﺠﺎﻡ ‪.‬‬
‫‪ o‬ﺑﻬﺘﺮﻳﻦ ﺭﻭﺵ ﺗﺴﺖ ﺑﺼﻮﺭﺕ‪ Permanent Link‬ﺑﻮﺩﻩ ﻭ ﻻﺯﻡ ﺍﺳﺖ ﺗﺴﺖ ﺏ‬
‫‪ o‬ﺑﺎﻳﺪ ﺗﻮﺟﻪ ﺩﺍﺷﺖ ﻛﻪ ﺑﻌﻠﺖ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﻛﺎﺑﻞ‪ Shielded‬ﺑﺎﻳﺪ ﺩﺭ ‪ Setup‬ﺩﺳﺘﮕﺎﻩ ﺗﺴﺖ ﺣﺘﻤﺎ ﻧﻮﻉ ﺷﻴﻠﺪ ﺍﻧﺘﺨﺎﺏ ﮔﺮﺩﺩ ﺗﺎ‬
‫ﮔﺮﺩﺩ‬
‫ﺍﺭﺗﺒﺎﻁ ﺷﻴﻠﺪ ﺑﻴﻦ ﺩﻭ ﻧﻘﻄﻪ ﻧﻴﺰ ﺗﺴﺖ ‪.‬‬
‫ﺷﻮﺩ‬
‫‪ HDTDX‬ﺑﺮﺍﻱ ﻛﻠﻴﻪ ﺗﺴﺖﻫﺎ ﺍﻋﻢ ﺍﺯ‪ Pass‬ﺷﺪﻩ ﻳﺎ ‪ Fail‬ﻓﻌﺎﻝ ‪.‬‬
‫‪ o‬ﻫﻤﭽﻨﻴﻦ ﻻﺯﻡ ﺍﺳﺖ ﺩﺭ ﺩﺳﺘﮕﺎﻩ ﺁﻧﺎﻻﻳﺰﺭ‪ ،‬ﮔﺰﻳﻨﻪ‬
‫‪ o‬ﺩﺭ ﺻﻮﺭﺕ ‪ Fail‬ﺑﻮﺩﻥ ﻧﺘﻴﺠﻪ‪ ،‬ﺑﺎ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﺩﺳﺘﮕﺎﻩ ﺗﺴﺘﺮ ﻧﺴﺒﺖ ﺑﻪ ﻣﺸﺨﺺ ﻧﻤﻮﺩﻥ ﻧﻘﻄﻪ ﺍﺷﻜﺎﻝ ﻭ ﺭﻓﻊ ﺁﻥ ﺍﻗﺪﺍﻡ‪ .‬ﮔﺮﺩﺩ‬
‫ﺑﺎﺷﺪ‬
‫‪ o‬ﺗﻨﻈﻴﻤﺎﺕ ﺩﺳﺘﮕﺎﻩ ﺩﺭﺧﺼﻮﺹ ﺍﻧﺪﺍﺯﻩ‪ ،Head Room‬ﺑﺮ ﺭﻭﻱ‪ NEXT‬ﺳﺖ ﺷﺪﻩ ‪.‬‬
‫ﻋﻤﻠﻜﺮ ﻣﻨﺎﺳﺐ ﭘﻴﻤﺎﻧﻜﺎﺭ ﺧﻮﺍﻫﺪ‬
‫ﺩ‬ ‫‪ o‬ﺑﺪﻳﻬﻲ ﺍﺳﺖ ﺑﺎﻻ ﺑﻮﺩﻥ ‪ Head Room‬ﺑﻪ ﻧﺴﺒﺖ ﻛﻤﺘﺮﻳﻦ ﺣﺪ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ‪ ،‬ﻧﺸﺎﻥ ﺩﻫﻨﺪﻩ‬
‫ﺑﻮﺩ‪.‬‬

‫‪‬‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 35‬ﺍﺯ ‪36‬‬

‫ﻓﻴﺒﺮﻧﻮﺭﻱ‬
‫‪:‬‬ ‫‪ - 2- 19‬ﺗﺴﺖ ﺷﺒﻜﻪ‬
‫‪ o‬ﻃﺒﻖ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ )‪ TSB-155 (Technical Standard Bulletin‬ﺑﺮﺍﻱ ﺗﺴﺖ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻻﺯﻡ ﺍﺳﺖ ﺍﺯ ﺩﺳﺘﮕﺎﻫﻲ‬
‫ﺷﻮﺩ‬
‫ﻣﺸﺎﺑﻪ ﺩﺳﺘﮕﺎﻩ‪ Cable Analyzer‬ﻣﺴﻲ ﺍﺳﺘﻔﺎﺩﻩ ‪.‬‬
‫‪ o‬ﺑﺎ ﺍﻟﺤﺎﻕ ﻣﺎژﻭﻝﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺑﻪ ﺍﻳﻦ ﺩﺳﺘﮕﺎﻩ ﻣﻲﺗﻮﺍﻥ ﻟﻴﻨﻚﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺭﺍ ﺑﻪ ﺭﻭﺵ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ ﺑﺮ ﻣﺒﻨﺎﻱ ﺗﻌﺪﺍﺩ ﻓﻴﻮژﻥ ﻭ‬
‫ﻛﺮﺩ‬
‫ﻛﺎﻧﻜﺘﻮﺭ ﺳﺮ ﺭﺍﻩ ﺗﺴﺖ ‪.‬‬
‫ﺍﺳﺖ‬
‫‪ Power Meter‬ﺗﻮﺻﻴﻪ ﺷﺪﻩ ‪.‬‬
‫‪ o‬ﺑﺮﺍﻱ ﺗﺴﺖ ﻟﻴﻨﻚﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺩﺭ ﺍﻳﻦ ﭘﺮﻭژﻩ‪ ،‬ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﺩﺳﺘﮕﺎﻩ‬
‫ﺍﻱ ﺗﺴﺖ‬
‫‪ Fail‬ﺑﺎﺷﺪ‪ ،‬ﺑﺎﻳﺪ ﺑﺎ ﺍﺳﺘﻔﺎﺩﻩ ﺍﺯ ﺩﺳﺘﮕﺎﻩ ﺣﺮﻓﻪ‬
‫‪ o‬ﺩﺭﺷﺮﺍﻳﻄﻲ ﻛﻪ ﻋﺪﺩ ﺍﻓﺖ ﺍﻋﻼﻡ ﺷﺪﻩ ﺗﻮﺳﻂ ﺗﺴﺘﺮ ﻓﻴﺒﺮﻧﻮﺭﻱ ﺍﺯ ﻧﻈﺮ ﻧﺎﻇﺮ‬
‫ﻓﻴﺒﺮﻧﻮﺭﻱ )‪ OTDR (Optical Time Domain Reflectometer‬ﻧﻘﺎﻃﻲ ﺭﺍ ﻛﻪ ﺑﺎﻋﺚ ﺑﻮﺟﻮﺩ ﺁﻣﺪﻥ ﺍﻓﺖ ﺯﻳﺎﺩ‬
‫ﻧﻤﻮﺩ‬
‫ﺷﺪﻩﺍﻧﺪ ﻣﺸﺨﺺ ﻭ ﻧﺴﺒﺖ ﺑﻪ ﺭﻓﻊ ﻣﺸﻜﻞ ﺍﻗﺪﺍﻡ ‪.‬‬

‫ﻣﺴﺘﻨﺪ ﺳﺎﺯﻱ‬ ‫‪- 20‬‬

‫ﻫﺎ ﻭ ﻣﺴﺘﻨﺪﺍﺕ ﺍﻳﻦ ﭘﺮﻭژﻩ ﺍﺯ ﺍﻟﻮﻳﺖﻫﺎﻱ ﺁﻥ ﻣﺤﺴﻮﺏ ﻣﻲﮔﺮﺩﻧﺪ ﻟﺬﺍ ﻡﺳﺘﻨﺪ ﺳﺎﺯﻱ ﺍﻳﻦ‬
‫ﺑﻌﻠﺖ ﺍﻫﻤﻴﺖ ﭘﺮﻭژﻩ ﻭ ﻣﺪﺍﺭﻙ ﻣﺮﺑﻮﻃﻪ‪ ،‬ﺗﻮﻟﻴﺪ ﮔﺰﺍﺭﺵ‬
‫ﭘﺮﻭژﻩ ﻧﻴﺰ ﺑﺮ ﺍﺳﺎﺱ ﺍﺳﺘﺎﻧﺪﺍﺭﺩ‪ ANSI/TIA/EIA- 606-A‬ﻭ ﺗﻮﻟﻴﺪ ﮔﺰﺍﺭﺷﺎﺕ ﺑﺮ ﺍﺳﺎﺱ ﻧﮕﺎﺭﺵ ﺧﺎﺹ ﺭﻭﺵ‪ Division 17‬ﻛﻪ ﺩﺭ ﻣﺴﺘﻨﺪﺍﺕ‬
‫ﺷﻮﺩﺑﻪ ﻫﺮﻋﻨﻮﺍﻥ ﻣﻮﺍﺭﺩ ﻣﺮﺑﻮﻁ ﺑﻪ ﻣﺴﺘﻨﺪ ﺳﺎﺯﻱ ﺷﺎﻣﻞ ﻣﻮﺍﺭﺩ ﺯﻳﺮ‬
‫ﻃﺮﺍﺣﻲ ﺍﺭﺍﺋﻪ ﺷﺪﻩ ﺍﺳﺖ ﺗﻬﻴﻪ ﻭ ﻫﻤﭽﻨﻴﻦ ﺑﺎ ﻧﻈﺮ ﺩﺳﺘﮕﺎﻩ ﻧﻈﺎﺭﺕ ﺍﻧﺠﺎﻡ ‪.‬‬
‫ﺑﻮﺩ‬
‫ﺧﻮﺍﻫﺪ ‪:‬‬

‫‪ - -1 20‬ﻥﻗﺸﻪﻫﺎﻱ ﭼﻮﻥ ﺳﺎﺧﺖ)‪ (As Built‬ﺩﺍﺧﻞ ﺳﺎﺧﺘﻤﺎﻥ)‪ (Buildings LAN‬ﺷﺎﻣﻞ‪:‬‬

‫‪ o‬ﻣﺴﻴﺮ ﻛﺎﻧﺎﻝﻫﺎ ﻭ ﻟﻮﻟﻪﻫﺎ‬
‫‪ o‬ﻣﺴﻴﺮ ﻛﺎﺑﻞﻫﺎﻱ ﺑﺮﻕ ‪ UPS‬ﻭ ﺩﻳﺘﺎ‬
‫‪ o‬ﻣﻮﻗﻌﻴﺖ ﻧﻬﺎﻳﻲ ﭘﻮﺭﺕﻫﺎﻱ ﻧﺼﺐ ﺷﺪﻩ‬
‫‪ o‬ﻣﻮﻗﻌﻴﺖ ﺭﻙ‬
‫‪ o‬ﺷﻤﺎﺗﻴﻚ ﭘﭻ ﭘﻨﻞﻫﺎﻱ ﻧﺼﺐ ﺷﺪﻩ ﺩﺭ ﺭﻙ‬
‫‪ o‬ﻣﻮﻗﻌﻴﺖ ﺗﺎﺑﻠﻮ ﺑﺮﻕ‬
‫‪ o‬ﻣﺴﺘﻨﺪ ﻧﺼﺐ ﻛﺎﺑﻞﻫﺎﻱ ﺑﺮﻕ ﺑﻪ ﻓﻴﻮﺯﻫﺎﻱ ﺗﺎﺑﻠﻮ ﺑﺮﻕ‬
‫‪ o‬ﻣﻮﻗﻌﻴﺖ ﺟﻌﺒﻪﻫﺎﻱ ﻓﻴﺒﺮﻧﻮﺭﻱ ﻧﺼﺐ ﺷﺪﻩ ﺑﺮ ﺭﻭﻱ ﺩﻳﻮﺍﺭ‬
 ‫ﺗﻬﻴﻪ ﻛﻨﻨﺪﻩ ‪:‬‬
‫ﺩﺳﺘﻮﺭﺍﻟﻌﻤﻞ ﻃﺮﺍﺣﻲ ﻭ ﻧﺼﺐ ﭘ ﺴﻴﻮ ﺷﺒﻜﻪ‬ ‫ﺷﺮﻛﺖ ﺧﻄﻮﻁ ﻟﻮﻟﻪ ﻭ ﻣﺨﺎﺑﺮﺍﺕ ﻧﻔﺖ ﺍﻳﺮﺍﻥ‬
‫ﻣﺪﻳﺮﻳﺖ ﻣﺨﺎﺑﺮﺍﺕ‬

‫ﻧﺴﺨﻪ )‪(001‬‬ ‫ﺻﻔﺤﻪ ‪ 36‬ﺍﺯ ‪36‬‬

‫‪ - 2- 20‬ﻧﻘﺸﻪﻫﺎﻱ ﭼﻮﻥ ﺳﺎﺧﺖ)‪(As build‬ﻣﺤﻮﻃﻪ )‪ (Campus LAN‬ﺷﺎﻣﻞ‪:‬‬

‫‪ o‬ﻣﺴﻴﺮ ﻛﺎﻧﺎﻝﻫﺎﻱ ﻋﺒﻮﺭ ﻛﺎﺑﻞ‬
‫‪ o‬ﺗﻌﺪﺍﺩ ﻭ ﺳﺎﻳﺰ ﻟﻮﻟﻪﻫﺎ ﺩﺭ ﻫﺮ ﻣﺴﻴﺮ‬
‫‪ o‬ﻣﻮﻗﻌﻴﺖ ﺣﻮﺿﭽﻪﻫﺎﻱ ﻣﻮﺟﻮﺩ ﻳﺎ ﺍﺣﺪﺍﺙ ﺷﺪﻩ ﺩﺭ ﻣﺤﻴﻂ ﺑﻴﺮﻭﻥ‬
‫‪ o‬ﺗﻔﻜﻴﻚ ﻛﺎﻧﺎﻝﻫﺎﻱ ﻣﻮﺟﻮﺩ ﻭ ﺍﺣﺪﺍﺙ ﺷﺪﻩ‬
‫‪ o‬ﻣﻮﻗﻌﻴﺖ ﻛﺎﺑﻞ ﻛﺸﻲﻫﺎﻱ ‪ Outdoor‬ﺍﻧﺠﺎﻡ ﺷﺪﻩ‬

‫ﺍﺳﺘﻔﺎﺩﻩ ﺷﻮﺩ‬
‫‪.‬‬ ‫ﺩﺭ ﺧﺎﺗﻤﻪ ﺗﺄﻛﻴﺪ ﻣﻲ ﮔﺮﺩﺩ ﺣﺘﻤﺎً ﺍﺯ ﻧﻈﺮﺍﺕ ﻛﺎﺭﺷﻨﺎﺳﻲ ﻫﻤﻜﺎﺭﺍﻥ ﻣﺤﺘﺮﻡ ﺑﺮﻕ ﻣﺨﺎﺑﺮﺍﺕ ﻭ ﺍﺑﺰﺍﺭ ﺩﻗﻴﻖ ﺩﺭ ﻣﻮﺍﻗﻊ ﻻﺯﻡ‬ ‫‪‬‬