2 x Digital Input
2 x Digital Output
1200~38.4K bps with Star function
Output power 20 dBm
Distance up to 5 km
LoRa is ideal for transmission in a long distance with small data packet less than 200 bytes such as sensor’s data of which packet size is usually 30~40 bytes.
Modbus TCP to Digital I/O
Modbus RTU to Digital I/O
Power off LR200DM and open the casing.
Carefully finger pinch the LoRa board to lift it up slowly till off the main board.
A LR200S main board is needed to set up the LoRa settings.
Power off LR200S and open casing.
Replace the original LoRa board on LR200S main board with LR200DM LoRa board.
Adjust LR200DM LoRa board dip switch to enter into SETUP mode (refer to manual to see how)
Connect the LR200S to PC with a RS232 crosslink cable (NOT Pin to Pin parallel cable)
Power on LR200S
Run LoRa setup tool from PC (see below image)
Click to choose the COM port where the LR200S main board is connected with.
Click “Read” to read out current settings of the LoRa module.
Set up “Pass Mode” as 1, “Device ID” as a number other than 0, “Interface” as RS485.
“Encryption Key” must be 32 digits.
Ignore “Channel Scan” at the bottom.
Make necessary adjustments for the rest of settings and click “Write” to save settings to LoRa module when done.
Power off LR200S.
Restore LR200DM LoRa board dip switch back to OPERATION mode.
Remove LR200DM LoRa board from LR200S and Restore the original LoRa board back to LR200S main board.
Restore LR200S casing.
Restore LR200DM LoRa board back to LR200DM main board.
Restore LR200DM casing.
LoRa converters with the same Encryption key and same Frequency will be automatically grouped together when they are powered on and able to broadcast to all grouped LoRa converters.
Any two LoRa converters with different Encryption Key and/or different Frequency will not be grouped together.
Assuming Group A is 920 MHz and Group B is 920.1 MHz, both A and B have the same key, in theory, Group A and B will not be grouped together due to different frequency, however 920.1 MHz is so close to 920 MHz that A and B could be mistakenly grouped together because A and B have the same key. So it is suggested to have at least 5 MHz difference between any two groups in order not to interfere with each other group. For example assuming 3 groups are needed, then each group LoRa frequency can be 915 MHz, 920 MHz, and 925 MHz.
LoRa transmission distance can be extended using high gain antennas
|LoRa antenna types||Distance in free open space|
|Omni 2 dBi to 2 dBi||Up to 1 km|
|Omni 3 dBi to 3 dBi||Up to 1-3 km|
|Panel 6 dBi to Omni 3 dBi||Up to 3-5 km|
Modbus RTU Digital I/O over LoRa
LoRaWAN NOT supported
Unable to communicate with third party LoRa device
CPU : 32 bits MCU , 40 MHz , 16KB SRAM , 128KB Flash ROM
LoRa : Semtech SX1272
Frequency : ISM band 862 ~ 936MHz
Receiver Sensitivity : -137 dBm
Transmit Output Power : 20 dBm
Sleep Current : 3uA (at power down state)
TX current < 140 mA@20 dbm , RX current < 10 mA
Security processor ( 128/192/256 bits AES )
Packet engine up to 256 bytes with CRC
Antenna : SMA Type , 2 dBi , changeable
Distance : Up To 5000 Meters in free space
Data Rate : 0.244 ~ 18.2 kbits/sec. (LoRa) / 300 K bps (FSK)
Application mode : Star
Digital Input x 2
3000VDC Isolation Protect ( Active High /Active Low Selectable )
Dry contact : Logic level 0 : close to GND , Logic level 1 : open
Wet contact : Logic level 0 : 0~3 V , Logic level 1 : 10 ~ 30 V
Digital Output x 2
Relay ( Active High /Active Low Selectable )
120V AC@10A , 240V AC@7A , 24V DC@10A
Setup Tool : Windows Utility
Power : DC 9 ~ 24V / 150ma @ 9V , 60ma @ 24V
Led Lamp : SYS (red) , Pairing (green) , Rx(red) , Tx(green)
Operating Temperature : -10℃〜70℃
Storage Temperature : -20℃〜85℃
l Dimensions : 160 x 90 x 25 mm ( W x D x H )
Weight : 350 g ( not include power )