DTM12_i

PRODUCTS
COVERED

AMBIENT TEMPERATURE
TRANSMITTERS TRANSMITTERS
• TX T&H AMB 600-021 • TX TEMP INS 600-031
• TX VOC / T&H AMB 600-022 • TX TEMP CONT1 600-032
• TX CO2 / VOC / T&H AMB 600-023 • TX TEMP CONT2 600-232
• TX T&H EXT 600-034

SMART METERING ANALOGUE AND CONTACT

TRANSMITTERS TRANSMITTERS
• TX PULSE 600-036 • TX 4/20mA 600-035
• TX PULSE ATEX 600-037 • TX CONTACT 600-039
• TX PULSE LED 600-038

REPEATER RECEIVERS
• RX REPEATER 600-301 • RX MODBUS 500-302
• RX BACNET 500-312

Page 2
 SUMMARY

PRODUCT DESCRIPTION
AMBIENT TRANSMITTERS ................................................................................................................................................. 4
TEMPERATURE TRANSMITTERS ....................................................................................................................................... 4
SMART METERING AND CONTACT TRANSMITTERS ...................................................................................................... 5
ANALOGUE TRANSMITTER ............................................................................................................................................... 5
RECEIVERS & REPEATER ................................................................................................................................................... 6

TECHNICAL REMINDER REGARDING THE USE OF LORA/LORAWAN PRODUCTS

TECHNICAL REMINDER REGARDING THE USE OF LORA / LORAWAN PRODUCTS ......................................................... 7

USE IN LORA PROPRIETARY PRIVATE MODE

LORA PROPRIETARY PRIVATE MODE ............................................................................................................................... 8
CONFIGURATION OF ETHERNET PARAMETERS ON YOUR PC ........................................................................................ 9
ACCESS TO THE IP CONFIGURATION SERVER ................................................................................................................. 10
1. WITH THE MODBUS RECEIVER
GETTING STARTED ............................................................................................................................................................ 11
DESCRIPTION OF THE MODBUS RECEIVER CONFIGURATION SERVER INTERFACE ................................................... 12
CONFIGURATION OF TRANSMITTERS ............................................................................................................................. 13
ACTIVATION OF TRANSMITTERS ..................................................................................................................................... 14
CONFIRM RECEPTION OF TRANSMITTER INFORMATION .............................................................................................. 15
CONFIGURE YOUR RECEIVER AND VIEW THE MODBUS TABLE ..................................................................................... 16
RECEIVER INSTALLATION ................................................................................................................................................ 17
2. WITH THE BACNET RECEIVER
GETTING STARTED ............................................................................................................................................................ 18
DESCRIPTION OF THE BACNET RECEIVER CONFIGURATION SERVER INTERFACE ....................................................... 19
PRODUCT CONFIGURATION ON THE BACNET RECEIVER ............................................................................................... 20 to 22
EXAMPLES OF DISCOVER IN DEVICE MODE OR OBJECT MODE ..................................................................................... 23

USE IN LORAWAN MODE

LORAWAN MODE ................................................................................................................................................................ 24
GETTING STARTED ............................................................................................................................................................ 25
USE OF LORAWAN TRANSMITTERS .................................................................................................................................. 26 to 28

APPENDICES (PAGE 29)

SELECTION OF COMMUNICATION MODE LORA PROPRIETARY VS LORAWAN .......................................... Appendix 1
POSITIONING AND FIXING PRODUCTS ......................................................................................................... Appendix 2
CONNECTING PRODUCTS .............................................................................................................................. Appendices 3 to 5
REPEATER INSTALLATION ............................................................................................................................. Appendix 6
CALIBRATION PROCEDURE FOR CO2 VOC TEMP HUM TRANSMITTERS .................................................... Appendix 7
OPERATING MODES AND BiBBS SUPORTED BY THE BACNET RECEIVER.................................................... Appendices 8 to 9
ADVANCED TRANSMITTER FUNCTIONALITIES ............................................................................................. Appendix 10
Page 3
 PRODUCT DESCRIPTION

AMBIENT
TRANSMITTERS
Références CASING CLOSED
• TX T&H AMB 600-021
1) ID label
• TX VOC / T&H AMB 600-022
2) Hood closing screw
• TX CO2 / VOC / T&H AMB
3) Closing tab for housing
600-023

Weight
125g
1 2 3
Battery
C type 3.6V Lithium
(600-021 & 600-022) 4 5
D type 3.6V Lithium
(600-023)

6
CASING OPENED
Transmission power 4) Push button to test the sending of data frames
25mW 5) Hole for wall fixing
6) Antenna
ID 7) Replaceable battery
DEVEUI (LoRaWAN) / 8) Connector for battery plug
LoRa ID (LoRa proprietary) 9 9) LED lights (L1, L2, L3)

8 7

TEMPERATURE
TRANSMITTERS 5
4
References 3
CASING CLOSED
• TX TEMP INS 600-031 1) ID label
• TX TEMP CONT1 600-032 2 2) Loop for fixing collar
• TX TEMP CONT2 600-232 3) Hood closing screw
• TX T&H EXT 600-034 4) Hole for wall fixing
5) Antenna
Weight
196g 1

Battery
D type 3.6V Lithium
6 7
Transmission power
25mW
CASING OPENED
6) Connector for battery plug
ID 7) Push button to test the sending of data frames
DEVEUI (LoRaWAN) / 8) LED lights (L1, L2, L3)
LoRa ID (LoRa proprietary) 9) Cable gland for contact and external probes
(temperature / humidity)
8
10) Replaceable battery

9
10

Page 4
 PRODUCT DESCRIPTION

SMART METERING
AND CONTACT CASING CLOSED
4 5
TRANSMITTERS 3 1) ID label
References 2) Loop for fixing collar
• TX PULSE 600-036 2 3) Hood closing screw
• TX PULSE ATEX 600-037 4) Hole for wall fixing
• TX PULSE LED 600-038 1 5) Antenna
• TX CONTACT 600-039 6) Meter connection cable / contact cable

Weight
196g
6
Battery
D type 3.6V Lithium CASING OPENED
D type 3.6V Lithium ATEX 7 8 9 7) Switchable battery
(600-037) Replaceable batteries can be supplied by Enless
Wireless (contact@enless.fr)
Transmission power Warning : There is a risk of explosion if the replacement battery is incor-
rect, so please do not hesitate to contact us. Dispose of used batteries
25mW according to the instructions.
8) Connector for battery plug
ID 9) Push button to test the sending of data frames
DEVEUI (LoRaWAN) / 10) Cable gland for meter and contact connection
LoRa ID (LoRa proprietary) cables
11 10 11) LED lights (L1, L2, L3)

ANALOGUE
TRANSMITTER 4
5 CASING CLOSED
3 1) ID label
Reference
• TX 4/20 mA 600-035 2) Loop for fixing collar
2 3) Hood closing screw
Weight 4) Hole for wall fixing
196g 1 5) Antenna

Battery
D type 3.6V Lithium

Transmission power
25mW
6 7 8
ID CASING OPENED
DEVEUI (LoRaWAN) / 6) Replaceable battery
LoRa ID (LoRa proprietary) 7) Connector for battery plug
8) Push button to test the sending of data frames
9) Cable gland for analogue probe 4/20mA
10) LED lights (L1, L2, L3)

10
9
Page 5
 PRODUCT DESCRIPTION

RECEIVERS 3

References
CASING CLOSED
• RX MODBUS 500-302 1) ID label
2
• RX BACNET 500-312 2) Loop for fixing collar
3) Hood closing screw
Weight 4) Hole for wall fixing
196g 1

Power supply
from 7.5 to 24Vdc
5 6 7
Serial number
8 numbers under the barcode
CASING OPENED
ID 5) Ethernet connector for access to embedded
DEVEUI (LoRaWAN) / IP server and communication via Modbus IP or
LoRa ID (LoRa proprietary) BACnet IP
6) LED lights (A,B,C,D,E,F)
7) SMA connector for antenna
8) Communication cable terminal block (RS232/
RS485)
9 8 9) Power supply terminal block

4 5
REPEATER
Reference 3 CASING CLOSED
• RX REPEATER 600-301 1) ID label
2) Loop for fixing collar
Weight 3) Hood closing screw
196g 2 4) Hole for wall fixing
5) Antenna
Power supply
from 7.5 to 24Vdc 1
Transmission power
6 7 8
25mW

ID
8 numbers under the barcode CASING OPENED
6) Ethernet cable (only for firmware update)
7) LED lights (A,B,C,D,E,F)
8) SMA connector for antenna
9) Power supply cable gland

Page 6
 TECHNICAL REMINDER REGARDING
THE USE OF LoRa PROPRIETARY/
LoRaWAN PRODUCTS
Our transmitters integrate both LoRa private
proprietary Enless and LoRaWAN modes.
LoRaWAN operated and private
modes
Here, we explain the differences between these two Operated mode : The transmitters are positioned in an
communication protocols. area covered by a LoRaWAN operator’s network. They
are provided with a subscription from that operator.
They send their information directly to the operator’s
Select the communication mode cloud.
using the jumper supplied and located
on the electronic card of the
transmitters. See Appendix #1

LoRa 100% Enless proprietary

private mode
The transmitters communicate with a receiver (either
Modbus or BACnet).
When used with the Modbus receiver, the transmitters
send their information to the receiver. The receiver
collects the information from the transmitters in its
Modbus table. It is then connected to a PLC via
Modbus RTU RS232 / RS485 or to an IP network.
Private mode : The transmitters communicate to a
When used with the BACnet receiver, the receiver can LoRaWAN gateway based on the principle of a private
be connected to the BACnet network or to the PLC in network. The LoRaWAN gateway usually pushes
several modes (BACnet IP / BACnet MSTP). information to a server.
NB : Enless Wireless does not supply the LoRaWAN
gateway.

Page 7
USE IN LORA
PROPRIETARY
PRIVATE MODE

Page 8
 CONFIGURATION OF ETHERNET
PARAMETERS ON YOUR PC

On your PC, enter the IP address of the configuration

server.

Access path :
Settings/ Network and internet/ Ethernet/ Change
adapter options/ Ethernet/ Properties/ Internet
Protocol version 4 (TCP/Ipv4)
Use the following IP address:

Enter the parameters below :

IP address : 192.168.77.2

Default gateway : 192.168.77.1

Once these parameters have been entered, the

configuration IP server is accessible from your
browser.

We answer the most common technical

questions on our help desk:
enless-wireless.freshdesk.com/en/support/
home
Do take a look if you have a question and use
the search bar if necessary.

Page 9
 ACCESS TO THE IP
CONFIGURATION SERVER
(For Modbus and BACnet receivers)

Externally power the receiver Validate the operation of

It is imperative that you supply external power to your
the receiver LEDs
receiver during the configuration phase. LEDs inside the casing :
Can be powered by a 7.5 to 24V main power supply. LA Flash The receiver receives a message.
LB Flash The receiver transmits a message.
We recommend that you use our 12V power box
(Ref.: POWER 1000-002). LC ON The receiver is properly powered.

Connect your power supply to the receiver’s POWER

LEDs outside the casing :
terminal.
External LED flashes The receiver is fully
• Black wire connected to 0V terminal
every minute operational.
• Red wire connected to V+ terminal
Ethernet LED The receiver connects to
Flashes the Ethernet network.
Connect the receiver to the PC
Ethernet LED The receiver sends
The receiver is supplied without a RJ45 Ethernet cable. Flashes information to the
Ethernet network.
You will need a RJ45 cable to continue the product
installation.
Connect the long-range
Connect the RJ45 cable to your receiver port and also
to the Ethernet jack on your PC. antenna to the receiver
Remember to connect the long-range antenna
(Ref : ANT REN SMA LR 868MHz 1000-008) to the
receiver SMA connector.

Access to the IP configuration

server
From your browser, enter the following address :
192.168.77.77
Access the IP server interface.

RJ45 Ethernet If the receiver’s default address is not

accessible (because it was previously
modified), you have the option of resetting the
receiver to the factory settings.
The reset procedure is explained on our Help
Desk: enless-wireless.freshdesk.com/en/
support/home
Type «reset» in the search bar.

Page 10
USE IN LORA PRIVATE
MODE
WITH THE MODBUS RECEIVER

Getting started Installation steps

Before starting the configuration of LoRa Configuring and installing the
devices, you will need to check that your transmitters
computer recognises the receiver configuration
On the IP server, declare your transmitters and
IP server address.
apply their configuration settings.
The configuration of Ethernet parameters is Power the transmitters and confirm that they
explained on page 9. have taken their configuration settings.

It is from this server that you will configure the Receiver configuration
products.
Set the receiver communication settings.

Requirements checklist Validate the Modbus table

Vew the Modbus table registers in which the
Transmitters and receiver to install transmitters information appear.

Long-range antenna for the receiver

Connect your receiver
Crosshead screwdriver Connect your receiver to the PLC in Modbus
RS232 / RS485 or over IP.
RJ45 Ethernet cable

Page 11
 DESCRIPTION OF THE MODBUS
RECEIVER CONFIGURATION SERVER
INTERFACE
01. « TX CONFIG » TAB 02. « RX CONFIG » TAB

Tab for declaring and configuring the sensors that will Receiver communication parameters configuration
be associated with the receiver. You can configure the tab. Set the RTU or IP communication settings of your
following parameters: receiver.
Periodicity of transmission
Alarm thresholds
Remote configuration function

03. « NETWORK » TAB 04. « MODBUS » TAB

Tab for viewing the frames sent by the transmitters. Tab for viewing the Modbus table of the receiver.
You can evaluate the RSSI signal levels of your The registers to be addressed to collect information
sensors and control the correct reception of the data. from our transmitters are displayed.

Page 12
 CONFIGURATION OF
TRANSMITTERS

You must declare the transmitters you want to pair to the receiver.

Go to the « TX CONFIG » tab

To declare a sensor, click the following button

Fill in the configuration information.

Choose the type of transmitter

Enter the transmitter location (eg : office)

Enter the LoRa ID (available on the product

label)

Choose the periodicity of data transmission

Bring up the additional options

The advanced functionalities are explained in
appendix #10 of this document

Save settings button

Repeat for all sensors to be configured.

The list of sensors you have declared is displayed on the page.

You can resume the configuration of a transmitter at any time or delete it using the following buttons
highlighted in the red box.

The configuration phase is completed, we can now proceed to the transmitter activation.

Page 13
 ACTIVATION
OF TRANSMITTERS

Check that the transmitters Step 4 : regular mode

are in LoRa proprietary mode L1 L2 L3

Confirm that the jumper of each transmitter is Flashes every Flashes for each Flashes every
properly positioned in LoRa proprietary mode on the 1min when an data frame sent 1min
electronic board (see Appendix #1). alert threshold is
If not, please position the jumpers correctly before exceeded
proceeding with product
Repeat for all other transmitters.

Activate the first transmitter

(to be chosen)

Connect the battery of one of your transmitters and

Validate the activation of
validate its LED set (see below). transmitters from the server
In the « TX CONFIG » tab, refresh your browser page.
Validate the LED set of your
transmitter A validation pad should appear in front of the transmit-
ters you have just activated (see the screenshot below).
Step 1 : starting the transmitter A red pad means the configuration is being recovered.
L1 L2 L3 flash successively
Feel free to wait a few moments and refresh your page
if the green pad does not appear.
Step 2 : the transmitter tries to dialogue with
the receiver

L1 L2 L3
Flashes every Flashes when the Flashes when
5s transmitter sends a the receiver
message answers

Step 3 : installation status

L1 L2 L3
ON during OFF OFF
Failure 30sec
Success ON during OFF
OFF
Low signal 30sec
Success ON during
OFF OFF
Good signal 30sec

Page 14
 CONFIRM RECEPTION
OF TRANSMITTERS
INFORMATION

In the « NETWORK » tab, the frames of the transmitters By controlling the RSSI signal levels, you can deter-
that you have just supplied must appear according to mine if repeaters need to be installed.
the periodicity that has been configured.

This tab allows you to validate the correct reception of Up to -105 dBm
the frames of the transmitters. Good signal

From -106 to -112 dBm

Signal ok

Above -112 dBm

Low signal -
(installation of a repeater required)

The procedure for installing repeaters is explained in

Appendix #6.

We recommend that you use this page as an on-site

audit tool to validate that the RSSI signal levels for
transmitter data reception are good. Positioning and
Position the transmitters where they will be installed
connections for the sensors
on site.
Please refer to the Appendices for more details on
installing our sensors:
You have the option to force send test frames via the
push button on the electronic boards of the transmit-
- Positioning and attaching the equipment
ters (see below).
- Sensor connections
- Calibrating the CO2 sensor

We answer the most common technical

questions on our help desk:
enless-wireless.freshdesk.com/en/support/
LED L2 (orange) flashes
home
when you push the button.
Do take a look if you have a question and use
This confirms a frame has
the search bar if necessary.
successfully been sent
from the transmitter.

Page 15
 CONFIGURE YOUR RECEIVER
AND VIEW THE MODBUS TABLE
Set up your receiver
Go to the « RX CONFIG » tab and fill in the receiver configuration parameters.
The receiver can communicate in Modbus IP and Modbus RTU RS232 / RS485 simultaneously.
The communication in Modbus IP is continuously activated.
The configuration settings below are mainly related to RTU communication.
For IP settings, please click on the advanced settings button.

Modbus ID of the receiver

First register from which the information
of the transmitters will increase in
the Modbus table

Choose the receiver communication

interface:
- RS232
- RS485

IP settings for communication in

Modbus IP.

Match the receiver communication parameters

with those of your PLC.

View the Modbus table

Click on the « MODBUS » tab.
When you select a transmitter on the left side
of the screen, the registers in which its
information appears are displayed in the
Modbus Table.
You can save this Modbus table with the
following button « Download »

Page 16
 RECEIVER INSTALLATION

The configuration is complete.

Power supply to the receiver
You can disconnect your receiver from its power The Modbus receiver can be powered either :
supply and from the Ethernet port of the PC. • by an Enless 12V power supply Ref : POWER
1000-002 - Recommended
Connection of the receiver • by a 7.5 to 24V main power supply.

RS232 RTU connection to the PLC Electrical power characteristic for 12Vdc receiver
power supply : 1A max
Receiver Use only CE certified 12V power supply.
Connection
terminal Description
to the PLC In both cases, the wires will be connected to the POWER
block
terminal block of the Modbus receiver.
Tx Transmission output Rx
Rx Reception input Tx • Black wire connected to 0V terminal
GND GND signal GND signal • Red wire connected to V+ terminal

RS485 RTU connection to the PLC

Receiver
LED combinations of the
terminal Description
Connection
to the PLC
receiver
block Please refer to the LED combinations of the Modbus
A RS485 - A RS485 - A receiver.
B RS485 - B RS485 - B LEDs inside the casing :
GND GND signal GND signal
LA Flash The receiver got a message.
LB Flash The receiver transmitted a message.
IP connection
Connect the receiver over IP via the Ethernet LC ON The receiver is properly powered.
connector. LD Flash Communication message transmitted.
LE Flash Communication message received.
LF OFF Functionality not defined.

LEDs outside the casing :

External LED The receiver is fully

flashes every minute operational.
RJ45 Ethernet
The Modbus receiver is operational.
It receives data from all the transmitters associated
with it.

We recommend that you do not go below

* The receiver only supports one TCP client
at a time 5 seconds between each Modbus request.

Page 17
 USE IN LORA PRIVATE
MODE
WITH THE BACNET RECEIVER

The BACnet receiver meets the B-ASC profile. Setting the discover mode
The BACnet receiver can be used in 4 different modes: From the receiver configuration interface, you will be
1. BACnet over IP able to select the discover mode of the receiver
2. BACnet MSTP (Device mode or Object mode).
3. BACnet MSTP with BBMD In Device mode, only the transmitters that you
4. Both BACnet IP and BACnet MSTP have paired with the receiver will display their
BACnet objects during the discover
The different possible modes of use and the BiBBs
supported by the BACnet receiver are documented in
In Object mode, all BACnet objects that may be
Appendices #8 and #9.
contained in the receiver will be displayed during
the discover
Getting started
Communication protocol setup
You must access the BACnet receiver configuration IP
server in order to select the receiver operating mode Also from the configuration interface of the receiver,
(see above). you have to determine the communication protocol
of the BACnet receiver:
Access to the configuration server is explained on - IP only
pages 9 and 10 of this document. - MSTP only
- IP and MSTP simultaneously
- MSTP with BBMD
Requirements checklist
Transmitters and receiver to install Configuring the transmitters
Long-range antenna for the receiver The transmitters can be configured from the TX
CONFIG page of the receiver server.
Crossheaded screwdriver Once the sensors have been declared and powered,
you can validate from the configuration server that
RJ45 Ethernet Cable the data has been received.
Page 18
 DESCRIPTION OF THE BACNET
RECEIVER CONFIGURATION
SERVER INTERFACE

01. « TX CONFIG » TAB 02. « RX CONFIG » TAB

Tab for declaring and configuring the sensors Receiver communication parameters configuration tab.
that will be associated with the receiver. You can For MSTP use you can configure the communication
configure the following parameters: settings of the receiver. The configuration of IP settings
Periodicity of transmission is also available.
Alarm thresholds
Remote configuration function

03. « NETWORK » TAB

Tab for viewing the frames sent by the transmitters. You can
evaluate the RSSI signal levels of your sensors and control the
correct reception of the data.

Page 19
 PRODUCT CONFIGURATION ON
THE BACNET RECEIVER

As mentioned earlier, the receiver can be used in two discover modes:

In Device mode, only the transmitters that you have paired with the receiver will display their BACnet objects
during the discover
In Object mode, all BACnet objects that may be contained in the receiver will be displayed during the discover

On the following pages, we will show you how the receiver works in both modes.

Determine the Discover mode and the communication

protocol of the receiver
These parameters are configured from the « RX CONFIG »
interface of the server. As a reminder, access to the
configuration server is explained on pages 9 and 10 of this
document.
Select the desired configuration settings and save the changes.

When switching from Device mode to Object mode

(or the other way around), please click on the
REBOOT button in the ADMIN tab of the RX CONFIG
page for the change to take effect.

Configuration of the transmitters on the configuration server

You must declare the transmitters you wish to pair with the receiver.
Select the « TX CONFIG » tab. To declare a sensor, click on the button
Fill in the configuration information.

Choose the type of sensor

Indicate the location of the sensor (e.g. office)

Fill in the LoRa ID (provided on the transmitter label)

Choose the periodicity of transmission

Bring up the additional options

The advanced functionalities are explained in appendix #10
of this document

Save settings button

Repeat for all sensors to be configured.

The configuration phase is complete, we can move on to activating the transmitters.

Page 20
 PRODUCT CONFIGURATION ON
THE BACNET RECEIVER

Sensor power supply Step 4 : regular mode

Check that the transmitters are in L1 L2 L3

LoRa mode Flashes every Flashes for each Flashes
1min when an data frame sent every 1min
Confirm that the jumper of each transmitter is properly
alert threshold is
positioned in LoRa mode on the electronic board
exceeded
(see appendix #1). If not, please position the jumpers
correctly before proceeding to product activation. Repeat for all other transmitters.

Activate the first transmitter

(to be chosen)
Connect the battery of one of your transmitters and
Validate the activation of
validate its LED set (see below). transmitters from the server
In the « TX CONFIG » tab, refresh your browser page.
Validate the LED set of your transmitter
A validation pad should appear in front of the transmit-
Step 1 : starting the transmitter
ters you have just activated (see the screenshot below).
L1 L2 L3 flashes successively
A red pad means the configuration is being recovered.
Step 2 : the transmitter tries to dialogue with
Feel free to wait a few moments and refresh your page if
the receiver the green pad does not appear.
L1 L2 L3

Flashes every Flashes when the Flashes when

5s transmitter sends a the receiver
message answers

Step 3 : installation status

L1 L2 L3
ON during
Failure OFF OFF
30sec
Success ON during
OFF OFF
Low signal 30sec
Success ON during
OFF OFF
Good signal 30sec

Page 21
 PRODUCT CONFIGURATION ON
THE BACNET RECEIVER

Validate the data reception of By controlling the RSSI signal levels, you can
determine if repeaters need to be installed.
the transmitters
In the « NETWORK » tab, the frames of the transmitters Up to -105 dBm
that you have just supplied must appear according to Good signal
the periodicity that has been configured.

This tab allows you to validate the correct reception of

the frames of the transmitters. From -106 to -112 dBm
Signal ok

Above -112 dBm

Low signal -
(installation of a repeater required)

The procedure for installing repeaters is explained in

Appendix #6.

Positioning and
We recommend that you use this page as an on-site
audit tool to validate that the RSSI signal levels for connections for the sensors
transmitter data reception are good.
Refer to the Appendices for more details on installing
our sensors:
Position the transmitters where they will be installed
on site.
- Positioning and attaching the equipment
- Sensor connections
You have the option to force send test frames via the - Calibrating the CO2 sensor
push button on the electronic boards of the transmit-
ters (see below).

We answer the most common technical

questions on our help desk:
LED L2 (orange) flashes enless-wireless.freshdesk.com/en/support/
when you push the button. home
This confirms a frame has Do take a look if you have a question and use
successfully been sent the search bar if necessary.
from the transmitter.

Page 22
 EXAMPLES OF DISCOVER IN
DEVICE MODE OR OBJECT MODE

Once you have completed the configuration of the receiver and it is connected to your BACnet network according
to the chosen communication protocol, you can initiate the discovery of BACnet objects.

Below is an example of the feedback from BACnet objects depending on the selected mode.

Device mode
Only the BACnet objects of the sensors previously declared on the configuration server are returned.

In blue BACnet objects related to the receiver

In green BACnet objects related to two sensors previously declared on the
configuration server

Object mode
All BACnet objects that can be contained in the receiver are displayed.

Page 23
USE IN
LORAWAN MODE

Page 24
USE IN
LORAWAN MODE

Getting started As a reminder

Before you start using our transmitters in The multiplicity of modes of use of our LoRaWAN
LoRaWAN mode, you must first have positioned transmitters (either in operator cloud mode or in
the jumper (supplied with each product) on the private mode via gateways) makes it difficult to
electronic board of your transmitters. set up a standard installation procedure.

See Appendix #1 for explanations. LoRaWAN sensor activation methods are specific
to each LoRaWAN operator or gateway
manufacturer. The installation of our sensors
Requirements checklist cannot therefore be standardised.

Subscriptions and cloud access from a On the following pages, we will document the
LoRaWAN operator (if used in operated elements that will be necessary for you to declare
mode) and configure our transmitters, either in operated
mode or in private mode.
LoRaWAN gateway (if use in private mode)
Please refer to the procedures of the gateway
Keys (DEV EUI, APP EUI, APP KEY) operators or manufacturers for activating
displayed on each transmitter label LoRaWAN transmitters on their hardware.

Page 25
 USE OF LORAWAN
TRANSMITTERS

Declaration of the LoRaWAN Class A allows transmitters to receive network infor-

mation (downlink) by opening a listening window after
transmitters each rising frame (uplink).
Our transmitters use the OTAA (Over The Air Activa-
tion) mode.

This mode uses a JOIN phase before being able to Activation of the transmitters
transmit on the LoRaWAN network. Once reported on a cloud or gateway, LoRaWAN
transmitters must be powered to start communicating
For OTAA activation, we provide the codes below : with the network.

DEVEUI : Transmitter ID
1) Open the transmitter casing
APPEUI : Global application ID
2) Connect the transmitter battery
APPKEY : Transmitter Application Key
3) Validate the transmitter LED set
(see table on next page)
These activation keys are available on the labels on
the back of each transmitter but also by flashing the
QR codes pasted on each transmitter.

Reminder on the LoRaWAN

protocol
LoRaWAN technology is bi-directional and enables :

• Transmission of sensor frames to network (uplink)

• Transmission of information from the network to the

sensor (downlink)

Our transmitters are operating under Class A

LoRaWAN.

Page 26
 USE OF LORAWAN
TRANSMITTERS

Validate the LED set of the Behaviour of LoRaWAN

transmitter transmitters
Transmitter Power Supply 1) When they are powered, the transmitters send a
JOIN *.
L3 L2 L1 + WAN flashing successively
2) After 24 hours, they send a LinkCheckReq message
which should be confirmed by a LinkCheckAck. And so
Installation of the transmitter
on every 24 hours.
As long as the LinkCheckReq are confirmed by a
L1 L2 L3 LinkCheckAck, the transmitter will not send a new JOIN.

Flashes when the 3) If the LinkCheckReq message does not receive a

OFF transmitter sends a OFF
message
LinkCheckAck response, then new LinkCheckReq will
be sent in the process.
ON during
Failure OFF OFF If 6x LinkCheckReq does not get a response, then the
30sec
transmitter initiates a new JOIN procedure.
Success
Low signal
OFF ON during 30sec OFF

*JOIN: This is a network access phase LoRaWAN

Success ON during network that allows the network parameters to be
OFF OFF
Good signal 30sec dynamically renewed between the end-device and the
LoRa Server.

Standard communication mode

L1 L2 L3
Flashes every Flashes when Flashes
1m when an alarm a data frame every
is detected is sent 1m

If the transmitter does not communicate,

check that the jumper on the electronic
board is in the LoRaWAN position.
(See Appendix #1)

Page 27
 USE OF LORAWAN
TRANSMITTERS

Decoding the uplinks Validation of the information

Once the sensor is declared and powered, the first reception
data frames (uplinks) begin to arrive on the Cloud or
gateway. Before moving to the final installation of the products,
we recommend you validate :
In order to interpret the raw frames sent by our
transmitters, we can provide you with either : • The quality of data reception on the cloud or on your
gateway.
• Documentation to help you decode our LoRaWAN
frames You have the option to force send test frames via the
push button on the electronic boards of the
• Decoding CODECs in JavaScript format transmitters (see below).

These elements are available on our online help desk:

enless-wireless.freshdesk.com/en/support/home
Type «Codecs» or «Payload» in the search bar for the LED L2 (orange) flashes
files to appear. when you press the push
button. This confirms a
frame has successfully
been sent from the
Downlinks configuration transmitter.

Downlinks are used to send information to the

transmitters from the LoRaWAN network. This
allows the configuration of the transmitters
(frequency of transmission, retransmission of data,
alarm thresholds, etc.).

As explained before, our transmitters listen for a

downlink after sending each rising frame (uplink). Our LoRaWAN transmitters have
Duty Cycle constraints.
If you configure a downlink from the cloud or gateway, Do not press the push button more than
the transmitter should retrieve it immediately after once every 5 minutes.
sending an uplink and change its settings accordingly.

The documentation to help decode our LoRaWAN

frames mentioned above also includes a configuration Also confirm that the configuration parameters have
downlink generator. been successfully retrieved by the transmitter and that
it is transmitting at the correct frequency.
The frame decoding file and downlink generator is
available on our help desk:
enless-wireless.freshdesk.com/en/support/home Product positioning and
Type «payload» in the search bar.
connection
The positioning and connection of our products are
The configuration downlinks are to be sent
explained in our Appendices.
on Port #1

Page 28
 APPENDICES

Selection of communication mode Connecting products

LoRa vs LoRaWAN Appendices 3 to 5

Appendix 1 • Connecting pulse transmitters to pulse

counters
• LoRa mode
• PULSE LED transmitter connection and
• LoRaWAN mode
installation
• Connect the 4/20 mA probe to the analogue
Positioning and transmitter
• Connect the digital input transmitter to the
fixing products contact interfaces
Appendix 2
Repeater installation
• Positioning of transmitters
• Fixing the transmitters Appendix 6

Calibration CO2
Appendix 7

BACnet receiver
Appendices 8 to 9
• Operating modes of the BACnet receiver
• BiBBS supported by the BACnet receiver

Page 29
 SELECTION OF COMMUNICATION MODE
LORA PROPRIETARY VS LORAWAN

Each transmitter can communicate either in LoRa proprietary mode or in LoRaWAN mode (see page 7).

Mode selection is made via a jumper installed on the transmitter PCB.

LoRaWAN mode LoRa proprietary mode

Jumper positioned on a single pin. Jumper positioned on the two pins.

NB : The jumper is supplied with every transmitter.

It is imperative that you change the jumper position to select the communication mode (LoRa or LoRaWAN)
when the transmitter is de-energised.

The jumper positions are reversed for transmitter versions prior to ENV 1.01.05
(Check the label on the transmitters).

Appendix 1
 POSITIONING AND
FIXING PRODUCTS

Positioning
The correct positioning of transmitters is very important and has a significant influence on the quality of transmis-
sion of radio waves. If your transmitter is incorrectly positioned you will reduce the radio coverage distance.

To maximise the transmitters’ performance, please follow the instructions described below:

Ensure that the transmitter

antenna is always up

Position the transmitters as high

as possible
We recommend positioning the
transmitters at least 1.50m high

Fixing
The transmitters are fixed using the wall fixing lugs.
These lugs are provided for fixing with screws.
The lugs of the ambient transmitters are inside the transmitters.
For rugged transmitters you can also use the clamp collar loop on the side of the case.

Appendix 2
 CONNECTION OF THE
TX PULSE TO THE METERS

Reminder concerning the use of the transmitter TX PULSE ATEX 600-037

According to ATEX Directive 1999/92/EC, only workers trained to work in risk areas are allowed to install the transmitter TX PULSE ATEX 600-037.
No changes can be made to the transmitter TX PULSE ATEX 600-037.

Special conditions for safe use

In the case of an installation with a gas meter, the output wires of the transmitter TX PULSE ATEX 600-037 must be connected to certified intrinsic
safety equipment. This combination must be compatible with the intrinsic safety rules Uo, lo , Po, Co, Lo specified on the label on the transmitter.

Certifications
The transmitter TX PULSE ATEX 600-037 is certified ATEX :

II 1 G
Ex ia IIC T3 Ga
LCIE 14 ATEX 3013 X
-20°C ≤ Tamb ≤ +55°C
Battery : 3,6 V Ramway ER34615 only.
Uo: 3,9 V ; Io : 11,47 mA ; Po : 11,18 mW ; Co : 617 μF : Lo : 270 mH.

Battery
The transmitter TX PULSE ATEX 600-037 comes with a RAMWAY ER34615 battery.
Only this model of RAMWAY ER34615 battery can be used with the transmitter TX PULSE ATEX 600-037.
These batteries are available from Enless Wireless – 45 ter avenue de Verdu
33520 Bruges (France). Phone : +33 (0)5 56 37 97 47 – email : contact@enless.fr

WARNING – POTENTIAL ELECTROSTATIC CHARGE HAZARD

The transmitter TX PULSE ATEX 600-037 should only be cleaned with a damp cloth.

The PULSE transmitters are supplied with 4 wires and have 2 pulse inputs that can be used at the same time.
Several combinations are possible.

Compatibility with the meters

• Dry contact interface (50 mseconds minimum / 10 Hz max)
• Transistor interface, open collector

Connection to the pulse meter

Input 1 : Dry contact Input 2 : Dry contact Input 3 : open collector
Green wire + brown wire Green wire + white wire Green wire + yellow wire

For more details on the different wiring possibilities, do not hesitate to consult our Help Desk:
enless-wireless.freshdesk.com/en/support/home
Type «wiring» in the search bar

Appendix 3
 CONNECTION AND INSTALLATION
OF PULSE LED TRANSMITTER

1 KNOW YOUR METER

Indicator light
Find the flashing diode on the meter. The optical reader is positioned on this diode.
The optical reader can only interpret LED flashes with a minimum flash duration of 3ms
and a maximum of 100ms.

Parameters

If it is a tariff meter higher than 36 kVA, it is necessary to know the transformation

ratio of your meter. Use the buttons next to the digital display to read the value
corresponding to the TC ratio (parameter n°6 or n°16 or n°64)

2 SETTING UP THE SENSOR

Fixing the viewfinder

Clean the meter around the flashing diode. Affix the viewfinder by pointing the diode through
the hole (the viewfinder is supplied with an adhesive).

Locking the reader

Clip the reader into the viewfinder and exert equal force across the entire surface of the sensor.

Checking

Once you power up your transmitter, the red LED will light up periodically for 20 seconds and
then the green diode will take over.

3 CONSUMPTION CALCULATION
The pulse optical reader records 1 pulse every 5 flashes.

Calculation method = (A x 5) x B x C x D

A : Number of pulses
The calculation formula
B : Pulse weight below allows a calculation of
Example : 0.1W/pulse. In this case, indicate 0.1 for B value in the below calculation. consumption in Watt-hour (Wh).

C : TC ratio – Current transformation ratio To get a value in Kilowatt-hour

In general 1 for residential meters. (kWh), you just need to divide
the value per 1000.
Can be another value for industrial meters (check this parameter on the meter’s set-
tings).

D : TT ratio – Tension transformation ratio

In general 1 for residential meters.
Can be another value for industrial meter (check this parameter on the meter’s settings).

Appendix 4
 CONNECTION OF THE ANALOGUE
PROBE 4/20 MA AND CONNECTION
OF THE CONTACT TRANSMITTER
Connection of the analogue probe 4/20 mA to the analogue transmitter
When installing analogue transmitters, you must first connect the 4/20mA sensor to the transmitter.
Open the transmitter casing and connect the analogue sensor to the transmitter terminal.
Refer to the label inside the transmitter under the terminal block for connection.

Connecting the probe

Transmitter Connection from / to the
terminal block Description
probe
Use SP and 0V to
SP Power (+V)
power the probe
Use SI and 0V for
SI 4/20mA (+l)
loop 4/20 mA
0V Common 0-V

Once the probe is connected to the transmitter, you can start configuring the transmitter.

Cabling for the 4/20mA sensor to the TX 4/20mA 600-035 transmitter

Connection of the digital input transmitter to the contact interfaces

The CONTACT transmitters are supplied with 4 wires and have 2 inputs that can be used at the same time.
Several combinations are possible.

Connection to the contact interfaces

Input 1 : Dry contact Input 2 : Dry contact Input 3 : open collector
Green wire + brown wire Green wire + white wire Green wire + yellow wire
Appendix 5
 INSTALLATION OF THE
REPEATER 600-301

If one or more transmitters remain out of range of the Modbus receiver,

you will need to install a repeater.

The repeater does not need to be configured !

Position your repeater

We recommend that you position your repeater halfway between the transmitters and the receiver.
Preferably use a long-range antenna and install as high as possible.
You have the option to chain several repeaters together.

Power your repeater

Once positioned, power the repeater. The repeater can be powered either :

• Via 12V Power Charger Ref: POWER 1000-002 - Recommended

• Via 7.5 to 24V main power supply

Electrical power characteristic for the 12Vdc power supply : 1A max

Use only CE certified 12V power supply

In both cases, the wires will be connected to the repeater POWER terminal :
• Black wire connected to 0V terminal • Red wire connected to V+ terminal

Interpret the LED sets

LEDs inside the casing :
On the configuration server,
LA Flash The repeater received a message. frames that pass through a
repeater indicate (R) next to
LB Flash The repeater transmitted a message. the RSSI signal value.
LC ON The repeater is properly powered.

LED outside the casing :

External LED Repeater is working fine.

flashes every minute

Appendix 6
 CALIBRATION PROCEDURE FOR
CO2 VOC TEMP HUM
TRANSMITTERS

So you can be certain that the ppm values returned by our CO2 VOC TEMP HUM 600-023
transmitters are consistent, they can be manually recalibrated.

To guarantee the best possible calibration, we recommend that the equipment is calibrated in
“fresh air” mode. The calibration process for the transmitters takes just 3 minutes. Please follow
the procedure described below:

1 4

With the transmitter powered up, place it on a table The LEDs will stop blinking when the calibration
near a window, with the window open to ensure that has been completed.
the air in which the transmitter will be calibrated is You can now take the transmitter and install it in its
fresh. final position.

2
Hold down the button located on the transmitter
circuit board for 15 seconds. Do not release the
button until the L1 L2 L3 LEDs come on. This
indicates that the calibration process is active.

We recommend pressing the push

button with a screwdriver or pen to
avoid damaging the CO2 sensor with
your finger!

3
Move away from the transmitter and allow the
calibration to complete. This process takes around
3 minutes.

Appendix 7
 BACNET RECEIVER
OPERATING MODES

BACnet IP only BACnet/MSTP

BACnet/IP and BACnet/MSTP BACnet/MSTP + BBMD

Appendix 8
 BiBBS SUPPORTED BY THE
BACNET RECEIVER

The BACnet receiver meets the B-ASC profile.

BACnet BACnet
Bacnet Bacnet
Advanced Application BACnet Smart BACnet Smart
Operator Building
Application Specific Acuator Sensor
Work Station Controllers
Controller Controller

B-OWS B-BC B-AAC B-ASC B-SA B-SS

Data Sharing DS-RP-A,B DS-RP-A,B DS-RP-B DS-RP-B DS-RP-B DS-RP-B
DS-RPM-A DS-RPM-A,B DS-RPM-B DS-WP-B DS-WP-B
DS-WP-A DS-WP-A,B DS-WP-B
DS-WPM-A DS-WPM-B DS-WPM-B
DS-COVU-A,B

Alarm, Event AE-N-A AE-N-B AE-N-B

Management AE-ACK-A AE-ACK-B AE-ACK-B
AE-INFO-A AE-INFO-B AE-INFO-B
AE-ESUM-A AE-ESUM-B

Scheduling SCHD-A SCHED-E-B SCHED-I-B

Trending T-VMT-A T-VMT-I-B

T-ATR-A T-ATR-B

Device & DM-DDB-A,B DM-DDB-A,B DM-DDB-B DM-DDB-B DM-DDB-B DM-DDB-B

Network DM-DDB-B DM-DDB-B DM-DOB-B DM-DOB-B DM-DOB-B DM-DOB-B
Management DM-DCC-A DM-DCC-B DM-DCC-B DM-DCC-B
DM-TS-A DM-TS-B DM-TS-B
DM-UTC-A DM-RD-B DM-RD-B
DM-RD-A DM-BR-B
DM-BR-A NM-CE-A
NM-CE-A

* in Green: the supported BiBBs

* in Red: the unsupported BiBBS

Appendix 9
 ADVANCED TRANSMITTER
FUNCTIONALITIES

The advanced functionalities are displayed when you click the button on the Add Sensor window.

Two types of advanced functionalities are available.

A remote reconfiguration function

(see explanation below)

Alarm thresholds when thresholds

are exceeded
(see explanation below)

New remote configuration

When you activate this function, every 24 hours the transmitter will ask the receiver if a new configuration is
available. If you have changed the configuration of the transmitter in question from the Modbus table of the
receiver, then the transmitter will take its new periodicity without you having to reset the sensor manually after
24 hours.

It is possible to (re)configure the transmitters from the Modbus table of the receiver. To know
more, do not hesitate to consult our Help Desk: enless-wireless.freshdesk.com/en/support/
home. Type «modbus table setup» in the search bar.

Alarm thresholds
Different alarm thresholds are available for each type of transmitter. If you do not want to use this feature, do
not fill in the fields for the alarm thresholds.Otherwise, fill in the fields with the high/low values of the selected
thresholds. If the threshold is exceeded, the status byte in the Modbus table will indicate an alarm.
(see Modbus table document).

Appendix 10
))\ Enless Wireless DECLARATION UE DE CONFORMITE
� Expert Wireless M2M
EU DECLARATION OF CONFORMITY

We Enless Wireless
45 ter avenue de Verdun
33520 Bruges
France

Declare under our sole responsibility that the product

Designation: Radio transmitters
Product Name(s) & References TX PULSE HPATEX 400-006
TX PULSE ATEX 800-010
TX PULSEATEX SIGFOX 300-010
TX PULSEATEX SIGFOX HP 100-010
TX PULSE HPATEX 400-007
TX PULSEATEX SIGFOX HP 100-017
TX PULSEATEX 600-037

Attestation LCIE 14 ATEX 3013 X

Notifiée par le LCIE 33 avenue du Général Leclerc - 92260 Fontenay aux Roses (France)
Numéro LCIE: 0081

To which this declaration relates satisfy the provision of2014/34/UE of the

European parliament and the council of 29 March 2014

► is in conformity
, with the following standard(s) or other normative document(s)

• EN IEC 60079-0 : 2018, EN60079-11 : 2012

The marking is:

(G II 1 G Ex ia IIC T3 Ga

► Fulfill the directives & standards

• 2014/53/UE April 2014

• 2014/30/UE February 2014
• RoHS 2011/65/EU of 1 July 2011
• EN300 220-1&2 V3.1.1 (2017-02)
• EN301 489-1 V2.2.0 (2017)/ EN 301 489-3 V2.1.1 (2017)
• EN 60950-1: 2006 + Amll:2009 + Aml:2010 + Am12 2011 + A2: 2013
• EN 62479 :2010

Date: 23/06/2021 Bruno Petit (Gérant)

Version 6.0