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Learn how to configure products in proprietary LoRa mode
Whether for use with a Modbus receiver or with a BACnet receiver , the product configuration principle is identical. You will find on the left of this document the details of the steps to follow.
We recommend following the setup steps one by one.
We know that when you work on site you do not always have access to the internet. For your on-site installations we recommend that you export this installation guide in pdf format. To do this please click on the three action buttons on the top right corner of this page, then click on Export to PDF.
If this is your first time using Enless products, we recommend carrying out a test setup/installation in your office before moving on to the final on-site installation. This will no longer be necessary once you are familiar with the installation procedure.
Update your receiver to the latest available firmware version (optional)
We invite you to update your receiver to the latest available firmware version before proceeding to the following steps (optional).
Below are the latest firmware files available and the update procedure.
Please be sure to use the correct type of firmware file to update your receiver or you may damage your product. The RX MODBUS firmware is not compatible with an RX BACNET, and vice versa. The EU 868 version is not compatible with the US 915 version and vice versa.
Declare and configure sensors from the CONFIG TX tab
If you wish to configure a TX IO or a TX MODBUS , please refer to the specific installation procedure for these products (see left menu).
Only those receivers with firmware version X.X.8864 and above can manage 50 sensors. Previous versions can manage 40 sensors.
As shown in the above video, once we have accessed the configuration server, the declaration of sensors is done from the tab CONFIG TX by clicking on the button +Add Sensor.
Below are the details of the configuration parameters:
Repeat for all sensors to configure.
The list of sensors you have declared is displayed on the CONFIG TX page.
You can resume the configuration of a sensor at any time or delete it using the edit or delete buttons.
We recommend exporting your configuration file in CSV format to preserve your configuration.
Reminder regarding proprietary LoRa mode
In proprietary LoRa, the sensors communicate with an Enless receiver (Modbus or BACnet). The receiver stores the sensor data and makes it available to a PLC/BMS.
One receiver can manage up to 50 Enless sensors
If you wish to use the sensors in LoRaWAN mode, please refer to the LoRaWAN mode installation help guide.
Validate that messages are correctly received from the NETWORK tab.
The sensor frames that you have just activated should go up in the NETWORK tab at the periodicity that has been configured. This tab allows you to validate the correct reception of sensor frames.
We recommend using this page as an on-site audit tool, to validate that the RSSI levels for receiving sensors are good.
Position the transmitters where they will be installed on site. We invite you to use the push button located on the electronic boards of the sensors to force the sending of test frames.
The LED L2 flashes when you press the push button. This means that a frame has been sent by the transmitter. You should see in the NETWORK tab that the test frame has been received correctly.
In case of weak RSSI, we recommend installing a signal repeater. To learn more about signal repeater installation, please visit this page .
Configure the Modbus receiver communication parameters from the CONFIG RX tab
Configuration of the Modbus receiver parameters is done from the CONFIG RX tab
Once the receiver configuration is complete, you can click on the MODBUS tab to access the receiver table. When you select a transmitter on the left of the screen, the registers in which its information is stored are displayed in the Modbus Table. You can save this Modbus table with the “Export CSV»
The Excel file detailing the receiver's Modbus table is available below.
We recommend that the Modbus request frequency on our Modbus receivers falls no lower than 5 seconds between each request.
Configure the communication parameters of your receiver from the CONFIG RX tab
Once the configuration and activation of the sensors is complete, the last phase consists of determining the communication parameters of the receiver before connecting it to the BMS.
The configuration options will therefore be different depending on the type of receiver you are using (Modbus or BACnet). Choose the receiver you want to configure below.
Position and secure the devices in their final locations
Once you have paired the sensors to the receiver and validated that they are communicating correctly with the receiver, you can move on to installing them.
The correct positioning of sensors is very important and significantly influences the quality of radio wave propagation. If your sensor is poorly positioned, you will reduce the radio coverage distance. To maximize transmitter performance, please follow the points described below:
Position the sensors as high as possible
We recommend positioning the transmitters at a minimum height of 1.50m
Make sure the transmitter antenna is always pointing upwards
The sensors are fixed using wall mounting lugs. These lugs are intended for fixing by screw. The lugs of the room sensors (white boxes) are located inside the sensors. For rugged sensors and receivers (grey housings), you can also use the mounting collar passages on the sides of the housing.
Rappel concernant les possibilités d'utilisation du TX IO 600-040
The TX IO offers Enless integrators different control possibilities. As a reminder, the TX IO has 2 contact-dry inputs and 4 controllable relay outputs. It can be used in 3 distinct modes which will be configurable from the server embedded in the transmitter.
By default, the TX IO is delivered ready to be used in remote control mode.
To change the mode of use of the TX IO, please access its configuration server (same procedure as for ).
Control of relay outputs based on TX IO input status
Open the TX IO case by unscrewing the 4 cover screws.
Externally power your TX IO (between 7.5 and 24VDC). If you use our 12V power supply, connect your power supply to the POWER terminal of the receiver.
•Red wire connected to the V+ terminal block
•Black wire connected to the 0V terminal block
for accessing the TX IO configuration server is identical to that of the receiver. The default address for accessing the TX IO server is 192.168.77.77 (please avoid use on Microsoft Edge and favor use on Google Chrome).
Select the Local Control operating mode from the TX IO config tab . Once selected, restart your TX IO so that the mode change is taken into account using the Reboot button from the TX IO server Admin tab.
In the CONFIG TX IO tab , configure your relays by selecting for each relay:
• Input: input 1 or input 2
• The relay mode: normally closed or normally open
Normally closed : corresponds to a closed rest state. When the status is 0, the relay is closed. When the status is 1, the relay is open.
Normally open : corresponds to an open rest state. When the status is 0, the relay is open. When the status is 1, the relay is closed.
• The delay: 1 sec, 5 sec, 10 sec, 30 sec, 60 sec or 120 sec.
Click Save to save your configuration.
In the STATUS tab you can see the status display of the digital inputs and relays, as well as the number of status changes since power-up. You can test the status of the relays by clicking on the Toggle Relay button. The selected relay activates for one second. The TX IO is now configured, you can power it off.
In the CONFIG TX tab, refresh your browser page. A validation sticker should appear in front of the TX IO that you have just activated.
A red dot means that the configuration is being recovered. Do not hesitate to wait a few moments and refresh your page if the green dot does not appear.
In the NETWORK tab, the TX IO frames that you have just powered must be sent at the periodicity that has been configured. This tab allows you to validate the correct reception of the TX IO frames.
The TX IO relays are contact type, electronic mosfet relays without polarity. The maximum voltage between the two relay terminals is 48 VDC and the maximum current is 500 mA.
| Field | Meaning |
|---|---|
| Field | Meaning |
|---|---|
declaration of the TX IO is the same as for other transmitters.
To decode the status of the TX IO inputs from the receiver's Modbus table, please refer to .
With the Modbus receiver
RX MODBUS
Enless sensors send their information to the receiver. The latter stores the data received in a Modbus Table. It is then connected to the BMS via Modbus TCP/IP or RTU.
With the BACnet receiver
RX BACNET
Enless sensors send their information to the receiver. The latter converts the data into BACnet objects. It is then connected to the BMS via BACnet IP or MSTP.
Strong signal 🙂
Up to -105 dBm
Medium signal 😐
from -106 to -112 dBm
Weak Signal 🙁
beyond -112 dBm
This guide is applicable to devices listed below.
TX T&H AMB 600-021
TX CO2/VOC/T&H AMB 600-023
TX TEMP INS 600-031
TX TEMP CONT1 600-032
TX TEMP CONT2 600-232
TX T&H EXT 600-034
TX 4/20 mA 600-035
TX PULSE 600-036
TX PULSE ATEX 600-037
TX PULSE LED 600-038
TX CONTACT 600-039
TX IO 600-040
TX MODBUS 600-041
RX MODBUS 500-302
RX BACNET 500-312
RX REPEATER 600-301
TX T&H AMB 600-121
TX CO2/T&H AMB 600-123
TX TEMP INS 600-131
TX TEMP CONT1 600-132
TX TEMP CONT2 600-332
TX T&H EXT 600-134
TX 4/20 mA 600-135
TX PULSE 600-136
TX PULSE LED 600-138
TX CONTACT 600-139
TX MODBUS 600-141
RX MODBUS 500-502
RX BACNET 500-512
RX REPEATER 600-501
Choose the sensor type
Indicate the location of the sensor (e.g. office)
Enter the LoRa ID (provided on the sensor label).
Choose the transmission periodicity.
The transmission periodicity directly influences the battery autonomy of the products.
Show advanced settings.
Match the receiver's communication settings with those of your controller.
Modbus ID of the receiver.
Register number from which the sensor information will be incremented in the Modbus table.
Determine the receiver's communication interface when you want to communicate via Modbus RTU: RS232 or RS485
IP parameters for Modbus TCP/IP communication
Step 1
Power the TX IO (7.5 à 24VDC)
Step 2
Validate the TX IO LEDs behavior
Once your TX IO is powered and connected to your PC, you can validate the correct behavior of the product using its LEDs.
Installing the optical read head on the meter
The pulse optical reader records 1 pulse every 5 flashes.
Calculation formula = (A x 5) x B x C x D
A = Number of pulses measured
B = Pulse weight Blue tariff: 0.1W/pulse. In this case, enter 0.1 for B value in the calculation below. Other tariffs: Shown on the meter’s interface (label or screen)
C = TC ratio (Current transformation) Blue tariff: 1
Yellow tariff: 20, 40 or 100 (shown on the meter’s interface)
D = TT ratio (Tension transformer)
Blue tariff: 1
Yellow tariff: 1 Green tariff: Shown on the meter’s interface.
The calculation formula above is a calculation of consumption in Watt-hour (Wh). To get a value in Kilowatt-hour (kWh), you just need to divide the value by 1,000
Rappel concernant l'utilisation du TX MODBUS 600-041
Configure the slaves that the TX MODBUS must read from the receiver server
Go to the receiver configuration server . On the receiver configuration server, the Config TX tab allows the declaration and configuration of the TX MODBUS which will be paired with the receiver. To configure your TX MODBUS, click on the button +Add Sensor. A new window appears.
Below is the list of fields to configure:
When you click Save, a message appears
If you wish to declare other slaves on this same TX MODBUS , you can click OK and continue editing by indicating a new slave number.
Once your configuration is complete, you can click Save Changes, then Cancel to finish and exit.
The RX MODBUS receiver supports up to 50 transmitters. Each slave configured on a MODBUS TX is equivalent to a transmitter in the receiver's Modbus table.
It is possible to configure several slaves with the same Modbus ID in order to read or write in more than 6 registers on this slave. For more details, please see this article.
This step allows you to validate the configuration of the registers and the values of the slave registers from the Modbus TX server.
The for accessing the TX MODBUS configuration server is identical to that of the receiver. The default address for accessing the TX MODBUS server is 192.168.77.77 .
The SLAVE SETUP tab of the TX Modbus server will show you how slave reading has been configured from the receiver.
The SLAVE STATUS tab will show you the data read by the TX MODBUS on the slaves. You can confirm the reporting of the same data and register values as in the Modbus table of the receiver.
To avoid any problems please maintain 1A 12V on the TX Modbus power terminal block
In the CONFIG TX tab , refresh your browser page. A green validation dot should appear in front of the TX Modbus slaves that you have just activated. A red dot means that the configuration is being recovered. Do not hesitate to wait a few moments and refresh your page if the green dots do not appear.
In the “NETWORK” tab, the frames containing the contents of the slave registers read by the Modbus TX that you have just activated must be sent at the periodicity that has been configured. This tab allows you to validate the correct reception of Modbus TX frames
Click on the “MODBUS” tab. When you select a slave on the left of the screen, the registers in which its information is stored are displayed in the Modbus Table. You can save this Modbus table with the “Export CSV” button.
It is possible to write to the Modbus table registers for each slave.
Writing can only be done on “Hold” or “Coil” type registers.
The safety of Enless products can only be guaranteed if they are used for their intended purpose. They must only be serviced by qualified persons
Risk of explosion if sensor batteries are replaced with an incorrect reference. Please refer to the for replacing sensor batteries.
The sensors must be installed in an adequately ventilated environments to ensure there is no danger of internal overheating. They must not be covered with things such as newspapers, cloth, curtains, etc
Sensors must never be exposed to high temperature sources (E.g.: attached to heating equipment, etc.)
Do not place the sensors near objects that generate flames (E.g.: candles, blowpipes, etc.)
The sensors must not be exposed to aggressive chemical agents or solvents that may damage plastic or corrode metal parts
The ANT-REN-SMA LR 915 MHz 1000-101 used with LoRa receivers, repeater, TX MODBUS should be installed indoor only.
As required by the ATEX 1999/92/EC Directive, only persons trained for working in hazardous areas are authorised to install the TX PULSE ATEX 600-037 transmitter. The TX PULSE ATEX 600-037 transmitter must not be modified in any way
Special conditions for safe operation
When used with a gas meter, the output wires of the TX PULSE ATEX 600-037 transmitter must be connected to certified intrinsically safe equipment. This combination must be compatible with the Uo, Io, Po, Co, Lo intrinsic safety regulations specified on the label attached to the transmitter.
Certification
The TX PULSE ATEX 600-037 transmitter is ATEX certified:
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 TX PULSE ATEX 600-037 transmitter is delivered with a RAMWAY ER34615 model battery. Only the RAMWAY ER34615 battery can be used with the TX PULSE ATEX 600-037 transmitter. These batteries can be obtained from Enless Wireless - 45 ter avenue de Verdun 33520, Bruges (France). Telephone: 05 56 35 97 47 – email: contact@enless.fr
WARNING - POTENTIAL RISK OF STATIC DISCHARGE
The TX PULSE ATEX 600-037 transmitter must only be cleaned using a damp cloth.
This device complies with part 15 of the FCC Rules and with Innovation, Science and Economic Development Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) This device must accept any interference received, including interference that may cause undesired operation.
NOTE: The grantee is not responsible for any changes or modifications not expressly approved by the party responsible for compliance. Such modifications could void the user’s authority to operate the equipment.
NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
CAN ICES-003(B) / NMB-003(B)
LEDs behavior of Enless sensors
| LED | Behavior |
|---|
| Installation status | Behavior of L1 | Behavior of L2 | Behavior of L3 |
|---|
| LED | Behavior |
|---|
Do not power the sensors simultaneously. Power them one by one and wait for the previous one to be correctly activated before powering the next one.
In D2D mode, the TX IO communicates with LoRa Enless sensors (4 maximum) and controls its outputs according to the alarm thresholds configured on the sensors
Open the TX IO case by unscrewing the 4 cover screws.
Externally power your TX IO (between 7.5 and 24VDC). If you use our 12V power supply, connect your power supply to the POWER terminal of the receiver.
•Red wire connected to the V+ terminal block
•Black wire connected to the 0V terminal block
for accessing the TX IO configuration server is identical to that of the receiver. The default address for accessing the TX IO server is 192.168.77.77 (please avoid use on Microsoft Edge and favor use on Google Chrome).
Select the D2D operating mode from the CONFIG TX IO tab . Once selected, restart your TX IO so that the mode change is taken into account using the Reboot button from the TX IO server Admin tab
In the CONFIG D2D tab, you must declare the sensors you want to pair to the TX IO. is the same as when you declare sensors on a receiver
Configuring alarm thresholds is done from the advanced options
In the CONFIG TX IO tab, the relays can be associated with the alarm thresholds of the sensors that we have just configured.
To do this, for each relay select:
• The LoRa ID of the configured sensor
• The relay mode: normally closed or normally open
Normally closed : corresponds to a closed rest state. When the status is 0, the relay is closed. When the status is 1, the relay is open.
Normally open : corresponds to an open rest state. When the status is 0, the relay is open. When the status is 1, the relay is closed.
• The type of alarm to trigger a relay.
Click Save to save your configuration.
In the STATUS tab in the Outputs section you can see the relay status display ON or OFF and the number of times the status has been switched from the TX IO power supply. You can test the relay status by clicking the Toggle Relay button. The relay activates for one second.
The TX IO relays are contact type, electronic mosfet relays without polarity. The maximum voltage between the two relay terminals is 48 VDC and the maximum current is 500 mA.
The description of the LED behavior for Enless products is given below
Control of relay outputs on receiver commands
The configuration of the TX IO will be done from the receiver server with which the TX IO will communicate.
Below are the steps for configuring the TX IO.
Once declared on the receiver server and configured, you will need to activate the TX IO to pair it with the receiver. Below are the steps for activating the TX IO.
Validate that the TX IO communicates with the receiver.
The minimum delay between sending two commands to the TX IO is 2 seconds. If you send a second command before this 2 second delay, it will not be taken into account by the TX IO.
In the STATUS tab you can see the status display of the digital inputs and the counts since power-up. At the bottom of the tab you can see the relay status display ON or OFF and the number of times the status has been switched from the TX IO power supply.
You can test the relay status by clicking the Toggle Relay button. The relay activates for one second.
The TX IO relays are contact type, electronic mosfet relays without polarity. The maximum voltage between the two relay terminals is 48 VDC and the maximum current is 500 mA.
Power the sensors so they pair with the receiver.
Open the sensor boxes that you have just declared and that you wish to activate.
Power the first sensor (of your choice) by connecting the Molex connector.
In the CONFIG TX tab, refresh the page in your browser.
A validation sticker should appear in front of the sensor(s) you have just activated. A red dot means that the configuration is being recovered. Do not hesitate to wait a few moments and refresh your page if the green dots do not appear.
Type TX
Location
LoRa ID
Periodicity
+ Advanced
Baud rate, Data and stop bits, Parity
Modbus ID
1st register
RS232 / RS485
Advanced settings
Open the TX IO case by unscrewing the 4 screws on the cover then supply your receiver externally (between 7.5 to 24VDC).
| Field | |
|---|---|
We recommend using this page as an on-site audit tool, to validate that levels for receiving frames are good
You can check if the slave registers have been read and written by consulting this article:
The activation of the sensors is done in the same when pairing the sensors to the receiver.
In the STATUS tab , in the Transmitter Network section, the frames from the sensors that you have just activated must be sent at the periodicity that has been configured. This tab allows you to validate the correct reception of sensor frames. We recommend using this page as an on-site audit tool, to validate that levels for receiving probes are good.
| Field | Meaning |
|---|
Once your TX IO is powered and connected to your PC, you can validate the correct behavior of the product using its LEDs.
To decode the status of the TX IO inputs from the receiver's Modbus table, please refer to .
for accessing the TX IO configuration server is identical to that of the receiver. The default address for accessing the TX IO server is 192.168.77.77 (please avoid use on Microsoft Edge and favor use on Google Chrome).
Check that the sensors are in proprietary LoRa mode. Validate that the jumper of each sensor is correctly positioned on the two pins and that it is in proprietary LoRa mode ( ). If this is not the case, please position the jumper correctly before proceeding to activate the products.
Monitor the sensor . A LED L3 fixed will confirm that the sensor is correctly paired to the receiver. Repeat for all sensors to activate.
L1 | Flash every 5s |
L2 | Flash when the sensor sends a message |
L3 | Flash when the receiver responds |
L1 | L2 | L3 |
Success strong signal | OFF | OFF | ON (30s) |
Success weak signal | OFF | ON (30s) | OFF |
Installation failed | ON (30s) | OFF | OFF |
L1 | Flash every 1 minute in the event of an alarm |
L2 | Flash on each frame send |
L3 | Flash every 1 minute |
L1 | Always ON | Powered sensor |
L2 | ON | Installation failed |
L3 | ON | Successful installation but weak radio signal |
L4 | ON | Successful installation and good signal |
A | Flash | The receiver has received a message |
B | Flash | The receiver has sent a message |
C | ON | The receiver is correctly powered |
D | Flash | Communication message transmitted |
E | Flash | Communication message received |
F | OFF | LED not used |
Exterior red | Flash Every 1 minute | The receiver is in operation |
Green Ethernet port | Flash | The receiver connects to the Ethernet network |
Orange Ethernet port | Flash | The receiver sends information to the Ethernet network |
Battery autonomy based on transmission periodicities
Battery autonomy is given by the link below:
https://enless-wireless.com/battery-life-calculations/
Product storage before use = 6 months maximum
Choose the transmitter type
Indicate the transmitter location
Enter the LoRa ID (provided on the transmitter label)
Choose the transmission periodicity
Click the +Advanced button to configure the registers to read/write on the slave
Select a slave number between 1 and 10
Enter a Modbus ID for the slave (from 1 to 254)
Communication settings
Provide the addresses of the registers to read/write on the slave (maximum 6 registers per slave). Select the size and type of each register
Match the receiver's communication parameters with those of your PLC (valid for BACnet MSTP communication). |
Select the desired communication protocol:
|
You can enable (or not) DHCP |
Additional parameters (IP address, subnet mask, gateway, UDP port...) |
TX PULSE sensors can be wired in three ways:
The TX PULSE and TX PULSE ATEX sensors are compatible with meters with pulse outputs in dry contact or open collector.
Pulse duration = 50ms minimum Pulse frequency = 10Hz maximum
Raccordement de votre sonde 4/20mA au transmetteur TX 4-20 600-035
The TX 4/20 transmitter is delivered without analog probe.
To connect your 4/20mA probe to the sensor, open the sensor housing and refer to the label located inside the transmitter under the terminal block for connection.
Powering your 4/20mA probe by the sensor is only possible if your probe can be powered with less than 3V.
Labels description
Configure your PC's IP settings to access the receiver's configuration server
The configuration of the sensors will be done from the server embedded in the receiver. It will therefore be necessary for you to be able to access the configuration interface of your RX MOBDUS or RX BACNET. The receiver configuration server is accessible at the address 192.168.77.77
On your PC, configure the IP settings so that the configuration server is accessible.
• IP address: 192.168.77.2
• Subnet prefix length: 24
• Default gateway: 192.168.77.1
• Preferred DNS: 8.8.8.8
• Subnet mask (if available): 255.255.255.0
Once these settings are configured, the configuration server IP should be accessible from your browser at 192.168.77.77 (please avoid use on Microsoft Edge and favor use on Google Chrome).
You can now move on to the next step.
This configuration is also valid for access to the configuration servers of the TX IO and TX MODBUS .
TX CO2 COV T&H AMB 600-023/ TX CO2 T&H AMB 600-123
The TX CO2 VOC T&H AMB 600-023 and TX CO2 T&H AMB 600-123 sensors are delivered pre-calibrated.
You can re-calibrate them manually on a “fresh-air” basis if you notice a shift in the CO2 values measured over time. To ensure the best possible calibration, we recommend that you calibrate the products by following the procedure below:
We recommend that you press the push button using a screwdriver or pen so as not to damage the CO2 sensor with your finger.
Prepare your receiver and access the configuration server
Once your receiver is powered and connected to your PC, you will be able to access its configuration server. From your browser, enter the address 192.168.77.77 to access the server.
If you want to change the receiver IP address, please see this article.
Type TX
Location
LoRa ID
Periodicity
+ Advanced
Slave number
Modbus ID
Baud rate, Data and stop bits, Parity
Configuration of registers
Baud rate, Data and stop bits, Parity
Device mode
Each sensor paired to the receiver will appear as a BACnet device on the network during discover. Only objects from sensors paired to the receiver will be accessible after the .
Object mode
The receiver will display any BACnet objects it may contain during .
Protocole
DHCP
Other settings
Choose to use Google Chrome for access to the configuration server
A
OFF
B
OFF
C
Flash every 5 seconds
D
Flash when a message is sent
ON for 30 secs if installation successful but weak signal
E
Flash when a message is received
ON for 30 secs if installation successful
F
OFF during installation sequence
ON for 30 secs if installation fails
A
Flash when message is sent on Comms
B
Flash when a message is received on Comms
C
ON
D
Flash when message is sent over RF
E
Flash when message is received over RF
F
OFF
A
Flash
The repeater has received a message
B
Flash
The repeater has transmitted a message
C
ON
The repeater is correctly powered
Exterior red
Flash Every 1 minute
The repeater is in operation
RESET procedure to factory settings of products
Only products with a configuration server can be reset to factory settings. Reset procedure no. 1 is valid for the , procedure no. 2 only applies to the TX IO .
Below are the RESET procedures:
Guide to good practices regarding the communication of Enless receivers with BMS
We recommend maintaining a delay of at least two seconds between two consecutive sendings of Modbus requests to the receiver. As a reminder, the minimum periodicity with which Enless transmitters can be configured is one minute. It is therefore not necessary to configure very high polling frequencies.
In order to optimize the polling process, we recommend that you read consecutive Modbus points in bulk. This helps reduce the number of Modbus requests sent to the receiver.
When reading Modbus points in bulk, we recommend that you do not exceed 64 points at a time.
The Enless receiver behaves like a server and can only accept one TCP client at a time. Being requested by another Modbus device can disrupt Modbus communication with the connected TCP client.
If you are not using COV, we recommend maintaining a delay of at least two seconds between two consecutive sending of BACnet requests to the receiver. As a reminder, the minimum periodicity with which Enless transmitters can be configured is one minute. It is therefore not necessary to configure very high polling frequencies.
The number of COV (Change of Value) subscriptions must not exceed 80.
Below is a table showing the battery reference to use for each sensor.
| Type | Battery C | Battery D | Battery D | Battery D |
|---|---|---|---|---|
Risk of explosion if sensor batteries are replaced with an incorrect reference.
Disconnect the Molex connector of the used battery from the PCB connector
Remove the used battery from its slot
Insert the new battery in the slot
Reconnect the new battery Molex connector to the PCB connector
The sensor restarts.
Disconnect the used battery Molex connector from the PCB connector
Unscrew the screws on the battery clip
Remove the battery clip
Remove the used battery from its slot
Insert the new battery in the slot
Replace the battery clip
Secure the battery clip with the two screws provided
Reconnect the new battery Molex connector to the PCB connector
The sensor restarts.
Do not throw the battery into the fire.
Do not short-circuit the battery.
Do not crush the battery.
Sensor
1000-028 (ER26500)
1000-029 (ER34615)
1000-030 (ER34615)
1000-031 (ER34615)
TX T&H AMB
600-021/600-121
X
TX CO2 VOC T&H AMB
600-023/600-123
X
TX TEMP INS
600-031/600-131
X
TX TEMP CONT1
600-032/600-132
X
TX TEMP CONT2
600-232/600-332
X
TX T&H EXT
600-034/600-134
X
TX 4/20
600-035/600-135
X
TX PULSE
600-036/600-136
X
TX PULSE ATEX
600-037
X
TX PULSE LED
600-038/600-138
X
TX CONTACT
600-039/600-139
X
Remote control mode
The TX IO outputs are controlled by commands from the receiver. The TX IO also reports the status of its inputs to the receiver. In remote control mode, the TX IO behaves like any other Enless transmitter (sending periodic messages) while having the possibility of receiving commands from the receiver to control its 4 relay outputs
Local control mode
The TX IO controls its relay outputs according to the status of its inputs. It can send reporting messages to the receiver. The TX IO can be configured to synchronize inputs to relay outputs with a configurable delay (to ensure that the relay does not instantaneously match if there is a momentary change in the input state).
D2D (Device To Device) mode
The TX IO communicates with LoRa Enless sensors (4 maximum) and controls its outputs according to the alarm thresholds configured on the sensors
Ambient sensors
The sensors are fixed using wall mounting lugs. These lugs are intended for screw fixing and are located inside the sensors
Rugged sensors and receivers
The product can be fixed using clamps, lugs for screws, or on a DIN rail using mountings sold separately (ref. 1000-005).
Use the RJ45 Ethernet port on the receiver to connect via TCP/IP
IP
Use the RJ45 Ethernet port on the receiver to connect via IP
MSTP
Viewfinder attachment
Locate the flashing diode on the meter and stick the viewfinder aiming the diode through the hole.
Locking the reader
Clip the reader into the viewfinder. Exert a uniform force over the entire surface of the sensor.
Fixation
Use the black screw to tighten the optical head to the viewfinder
Checking
Validate the correct positioning of the optical read head before powering the sensor
Step 1
Power the TX Modbus (7.5 to 24VDC)
Step 2
Validate the TX Modbus LEDs behavior
PC with ethernet port
Use an ethernet/USB adapter if your PC does not have an ethernet port
Long range antenna for the receiver
Use the Enless Long Range Antenna
Power supply for the receiver
Power the receiver with 7.5 to 24VDC.
Enless 12V power supply available
Screwdriver
1x Phillips screwdriver
1x flat screwdriver (ø 2.5mm)
When the sensor is powered, position it on a table near a window, the window must be open so that the air in which the transmitter will calibrate is healthy.
Press the push button located on the transmitter electronic board for 15 seconds. Only release the pressure when LEDs L1, L2, L3 light up. This means that the calibration process has been activated.
Walk away from the sensor and let the calibration take place. The process takes approximately 3 minutes.
When the LEDs stop flashing, this means that the calibration is complete. You can take the sensor and install it in its final location.
Open the TX Modbus case by unscrewing the 4 cover screws then externally power your TX Modbus (between 7.5 to 24VDC).
When you power it, the TX Modbus tries to communicate with the receiver. You can refer to the TX Modbus LEDs to learn more about the installation status.
Proprietary LoRa vs LoRaWAN
This documentation describes the procedure for installing sensors in proprietary LoRa mode. Therefore, it is imperative that the sensors you use communicate in proprietary LoRa mode. The selection of the communication mode is done using a jumper present on the electronic card of each sensor.
Example below :
The mode change will only be taken into account if the jumper switching is carried out when the sensor is depowered.
Connecting smart metering sensors to meters
RX REPEATER 600-301
One or more sensors remain out of range of the receiver: you will have to install a repeater. The repeater requires no configuration.
We recommend positioning your repeater halfway between the transmitters and the Modbus receiver. The repeater comes with a 1/4 wave antenna but you can also use a long range antenna to maximize the performance of the repeater. You can chain several repeaters together.
Once positioned, power the repeater. The repeater can be powered either:
• By a 12V power box
• By a main power supply of 7.5 to 24VDC.
Current characteristic for powering the repeater at 12Vdc: 1A max. Use only CE certified 12V power supply
In both cases, the wires will be connected to the POWER terminal block of the repeater:
• Black wire connected to the 0V terminal block
• Red wire connected to the V+ terminal block
The repeater LED behavior is documented here
On the configuration server, frames passing through a repeater indicate (R) next to the RSSI signal value.
