Lobaro Pressure or Lobaro Pressure and Temperature Sensor
Lobaro Platform Device Type: lobaro-pegelsonde-hybrid
Select the correct sensor by checking the cable flag. The Pressure and Temperature sensor got a "P+T" marking.
Lobaro Pressure and Temperature Sensor | Lobaro Pressure Sensor | KELLER Series 26X |
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Lobaro article: #3000625 | Lobaro article: | |
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| Keller Website |
Lobaro Pressure and Temperature Sensor
To read out the pressure & temperature probe, the Hybrid Modbus Gateway must be configured as follows:
Parameter | Value | Comment |
---|---|---|
WAN | lorawan | For LoRaWAN OTAA usage. |
PlFmt | 5 | Sets the payload to a short format. |
MbCmd | 0 0/5 * * * *:R,9600,8N1:010300160002,010300260002,fa0400050001 |
The CRON Expressions can be adjusted to set time of sensor reading. |
PowerOnDelay | 3000 | Battery variant only. Sets time (in ms) between activating sensor power and reading value (time for sensor to be ready). |
Modbus Register Mapping
The probe is a Modbus slave with the following registers:
Modbus Command: <Slave Address (1)><Function (1)><Address (2)><Length (2)>
- Length = Register count -> 1 Register = 2 Bytes
Function
- 0x03 = Read Holding Register
- 0x04 = Read Input Register
- 0x06 = Write Holding Register
Address | Function | Bytes | Data Scope | Description |
---|---|---|---|---|
0x0000 | 0x03, 0x06 | 2 | 1-255 | Slave Address |
0x0001 | 0x03, 0x06 | 2 |
| Baud rate |
0x0002 | 0x03, 0x06 | 2 |
|
|
0x0003 | 0x03 | 2 |
| Pressure unit |
0x0004 | 0x03 | 2 |
| Decimal point stands for 0-4 digits |
0x0005 | 0x03 | 2 | 0-30 | Filtering Coefficient |
0x0016-0017 | 0x03 | 4 | 4 byte float | Measurement Pressure output value |
0x0018-0019 | 0x03, 0x06 | 4 | 4 byte float | Master variable of Pressure offset |
0x001A-001B | 0x03 | 4 | 4 byte float | Range minimum of Pressure Transmitter |
0x001C-001D | 0x03 | 4 | 4 byte float | Range maximum of Pressure Transmitter |
0x001E-001F | 0x03 | 4 | 4 byte float | Range minimum of Pressure Sensor |
0x0020-0021 | 0x03 | 4 | 4 byte float | Range maximum of Pressure Sensor |
0x0026-0027 | 0x03 | 4 | 4 byte float | Measurement Temperature output value |
0x00A6-00A7 | 0x06 | 4 | 4 byte float | Zero Clearing value of Pressure Transmitter |
0xFFFF | 0x06 | 2 |
| Save data to user area |
0xFFFC | 0x06 | 2 |
| Restore to factory status (user settings and calibration data) |
Data Uplink (Port 20)
Bytes | 0 . | 1 . 2 . 3 . 4 . | 5 . 6 . 7 . 8 . | 9 . 10 . | ------+--------+-----------------+-----------------+----------+ Field | Header | Pressure | Temperature | Voltage |
All values are encoded big-endian
Field | Type | Value |
---|---|---|
Header | uint8 | 0x00 on success, 0x80 if an error occurred |
Pressure | float32 | Pressure in mH2O , ffffffff on error. |
Temperature | float32 | Temperature in |
Voltage | uint16 | Voltage in mV, ffff on error |
010300160002
Example
# Example of a successful measurement '003d94ce4541b7a5120e2a' '00' -> Successful readout '3d94ce45' -> 0.073 mH2O '41b7a512' -> 22.96 °C '0e2a' -> 3626 mV / 3.626 V # Example '80ffffffffffffffff' '80' -> An error occurred. 'ffffffff' -> Pressure could not be read. 'ffffffff' -> Temperature could not be read. 'ffff' -> Voltage could not be read.
Reference Parser
see below
Lobaro Pressure Sensor
Reading from the Lobaro Pressure Sensor using the Hybrid Gateway can be done by setting the following parameters in the configuration:
Parameter | Value | Comment |
---|---|---|
WAN | lorawan | For LoRaWAN OTAA usage. |
PlFmt | 5 | Sets the payload to a short format. |
MbCmd | 0 0/5 * * * *:R,9600,8N1:010300040001,fa0400040001,fa0400050001 |
The CRON Expressions can be adjusted to set time of sensor reading. |
PowerOnDelay | 3000 | Battery variant only. Sets time (in ms) between activating sensor power and reading value (time for sensor to be ready). |
Modbus Register Mapping
The probe is a Modbus slave with the following registers:
Modbus Command: <Slave Address (1)><Function (1)><Address (2)><Length (2)>
- Length = Register count -> 1 Register = 2 Bytes
Function
- 0x03 = Read Holding Register
- 0x06 = Write Holding Register
Address | Function | Bytes | Data Scope | Description |
---|---|---|---|---|
0x0000 | 0x03, 0x06 | 2 | 1-255 | Slave Address |
0x0001 | 0x03, 0x06 | 2 |
| Baud rate |
0x0003 | 0x03 | 2 |
| Decimal point stands for 0-3 digits |
0x0002 | 0x03 | 2 |
| Pressure unit |
0x0004 | 0x03 | 2 | -32768-32767 | Measurement output value |
0x0005 | 0x03 | 2 | -32768-32767 | Zero point of transmitter range |
0x0006 | 0x03 | 2 | -32768-32767 | Full point of transmitter range |
0x000c | 0x03, 0x06 | 2 | -32768-32767 | Zero point offset value, generally factory sets as 0 |
0x000F | 0x06 | 2 |
| |
0x0010 | 0x06 | 2 |
|
Data Uplink LoRaWAN (Port 20)
Bytes | 0 . | 1 . 2 . | 3 . 4 . | 5 . 6 . | ------+--------+----------+-------------+---------| Field | Header | Pressure | Temperature | Voltage |
All values are encoded big-endian
Field | Type | Value |
---|---|---|
Header | uint8 | 0x00 on success, 0x80 if an error occurred |
Pressure | int16BE | Pressure in mmH2O |
Temperature | int16BE | Temperature in °C inside Bridge |
Voltage | uint16BE | Voltage in mV, ffff on error |
Example
# Example of a successful measurement '000211001a0e2a' '00' -> Successful readout '0211' -> 529 -> 0.529 mH2O '001a' -> 26 -> 26°C (inside Box) '0e2a' -> 3626 -> 3626 mV / 3.626 V
Keller PR26X
Configuration
Connected pressure sensor probe from Keller Druckmesstechnik PR26X series.
Parameter | Value | Comment |
---|---|---|
WAN | lorawan | For LoRaWAN OTAA usage. |
PlFmt | 5 | Sets the payload to a short format. |
MbCmd | 0 0 * * * *:R,9600,8N1:010300020002,010300080002,FA0400050001 | Reads four Registers: 2 + 3 (Float, Pressure in Bar) and 8 + 9 (Float, Probe Temperature) + Device battery voltage |
PowerOnDelay | 1500 | Battery variant only. Sets time (in ms) between activating sensor power and reading value (time for sensor to be ready). |
Example Modbus response
Hex to float converter: https://gregstoll.com/~gregstoll/floattohex/
Pressure (0x3f75f07b):
Temperature (0x41b5c079):
Data Uplink (Port 20)
Bytes | 0 . | 1 . 2 . 3 . 4 . | 5 . 6 . 7 . 8 . | 9 . 10 . | ------+--------+-----------------+-----------------+----------+ Field | Header | Pressure | Temperature | Voltage |
All values are encoded big-endian
Field | Type | Value |
---|---|---|
Header | uint8 | 0x00 on success, 0x80 if an error occurred |
Pressure | float32 | Pressure in Bar , ffffffff on error. |
Temperature | float32 | Temperature in |
Voltage | uint16 | Voltage in mV, ffff on error |
Reference Parser (All variants)
/** * Parser for Lobaro Pressure Probe via LoRaWAN (hybrid gateway). * Usable for Pressure Probe as or with Presure+Temperature Probe. * Works with TTN, ChirpStack, or the Lobaro Platform. */ function signed(val, bits) { // max positive value possible for signed int with bits: var mx = Math.pow(2, bits-1); if (val < mx) { // is positive value, just return return val; } else { // is negative value, convert to neg: return val - (2 * mx); } } function int16_BE(bytes, idx) { bytes = bytes.slice(idx || 0); return signed(bytes[0] << 8 | bytes[1] << 0, 2*8); } function uint16_BE(bytes, idx) { bytes = bytes.slice(idx || 0); return bytes[0] << 8 | bytes[1] << 0; } function uint32_BE(bytes, idx) { bytes = bytes.slice(idx || 0); return bytes[0] << 24 | bytes[1] << 16 | bytes[2] << 8 | bytes[3] << 0; } function float32FromInt(asInt) { var sign = (asInt & 0x80000000) ? -1 : 1; var exponent = ((asInt >> 23) & 0xFF) - 127; var significand = (asInt & ~(-1 << 23)); if (exponent === 128) return null; // return sign * ((significand) ? Number.NaN : Number.POSITIVE_INFINITY); if (exponent === -127) { if (significand === 0) return sign * 0.0; exponent = -126; significand /= (1 << 22); } else { significand = (significand | (1 << 23)) / (1 << 23); } return sign * significand * Math.pow(2, exponent); } function float32_BE(bytes, idx) { return float32FromInt(uint32_BE(bytes, idx)); } /** * TTN decoder function. */ function Decoder(bytes, port) { var vals = {}; if( port == 20 ){ if (bytes.length==5) { // Pressure Probe without temperature sensor and Bridges internal Temperature vals["error"] = !!(bytes[0]&0x80); vals["pressure"] = int16_BE(bytes, 1)/1000; vals["temperature"] = int16_BE(bytes, 3); } else if (bytes.length==7) { vals["error"] = !!(bytes[0]&0x80); vals["pressure"] = int16_BE(bytes, 1)/1000; vals["temperature"] = int16_BE(bytes, 3); vals["voltage"] = uint16_BE(bytes, 5) / 1000; } else if (bytes.length==9) { vals["error"] = !!(bytes[0]&0x80); // pressure in mH2O vals["pressure"] = float32_BE(bytes, 1); // temperature in Degree Celsius vals["temperature"] = float32_BE(bytes, 5); } else if (bytes.length==11) { vals["error"] = !!(bytes[0]&0x80); // pressure in mH2O vals["pressure"] = float32_BE(bytes, 1); // temperature in Degree Celsius vals["temperature"] = float32_BE(bytes, 5); vals["voltage"] = uint16_BE(bytes, 9) / 1000; } } if (port === 64 && bytes.length == 13) { // status packet vals["Firmware Identifier"] = String.fromCharCode(bytes[0]) + String.fromCharCode(bytes[1]) + String.fromCharCode(bytes[2]); vals["FirmwareVersion"] = bytes[3] + '.' + bytes[4] + '.' + bytes[5]; vals["status"] = bytes[6]; vals["reboot reason"] = bytes[7]; vals["final words"] = bytes[8]; vals["voltage"] = uint16_BE(bytes,9)/1000.0 vals["temperature"] = int16_BE(bytes,11)/10.0; } return vals; } /** * TTN V3 Wrapper */ function decodeUplink(input) { return { data: { values: Decoder(input.bytes, input.fPort) }, warnings: [], errors: [] }; } /** * ChirpStack decoder function. */ function Decode(fPort, bytes) { // wrap TTN Decoder: return Decoder(bytes, fPort); } /** * Lobaro Platform decoder function. */ function Parse(input) { var data = bytes(atob(input.data)); var port = input.fPort; return Decoder(data, port); }