<aside> đź’ˇ Applicable to APP versions: >= 1.1.0
</aside>
| Register | Size (bytes) | Base | Description | Default Value | Range (Min-Max) | Comments |
|---|---|---|---|---|---|---|
| 304 | 2 | 10 | PIN code | 0 | ||
| (deactivated) | ||||||
| 0 - 9999 | PIN code used with ATPIN command. Value 0 disables the PIN code. | |||||
| 306 | 1 | 10 | Product mode | |||
| 0 | 0: PARK | |||||
| 1: RUN | In PARK mode, product is not using Radio. | |||||
| In RUN mode, product will send/receive RF uplinks/downlinks. |
| Register | Size (bytes) | Base | Description | Default value | Min-Max Value | Comments |
|---|---|---|---|---|---|---|
| 300 | 2 | 10 | Keep alive period | 8640 (24h) | 2 ... 65535 | X 10 seconds |
| 301 | 2 | 10 | Transmit period of data |
1 |  0 ... 65535 | Number of backups (history logs) to be done before sending a frame (thus defining the sending period). The value 0 is equivalent to disabling the periodic mode. | | 315 | 1 | 10 | Time zone offset | 0 | -12 … 14 | Defines the Time Zone offset from UTC (in hours). Must be defined for Daylight Saving Time management. | | 316 | 1 | 10 | Daylight Saving Time management | 0 | 0 … 1 | Only applicable for European countries. 0 : disabled 1 : enabled | | 318 | 1 | 10 | Time stamping | 0 | 0 … 1 | LoRaWAN only If enabled, adds a time stamp in data frames. 0 : disabled 1 : enabled | | 319 | 1 | 10 | RTCcalibration value | 0 | -100 … 100 | Allows correcting a possible drift of the clock. In tenths of a second per day. | | 320 | 2 | 10 | History period | 1 | 1 ... 65535 | Number of readings to be performed before saving in the history logs The value 1 is equivalent to 1 backup per reading | | 321 | 2 | 10 | Sampling period | 1800 (1h) | 0 ... 65535 | 0: no sampling X 2 seconds | | 322 | 2 | 10 | Alarm repetition period |  0 |  0 ... 65535 | If an alarm is active, this register allows the product to send periodically a reminder.  0 : no repetition X sampling period (S321) | | 323 | 1 | 10 | Number of additional (redundant) samples per frame |  0 |  0 ... 15 | Number of samples to be repeated in the next frame |
| Register | Size (bytes) | Base | Description | Default value | Min-Max value | Comments |
|---|---|---|---|---|---|---|
| 330 | 1 | 10 | Alarm type | 0(inactive) | 0: Inactive | |
| 1: Low threshold | ||||||
| 2: High threshold | ||||||
| 3: Both thresholds | ||||||
| 331 | 2 | 10 | High threshold value | 0 | -200 … 600 | |
| (-20°C to +60°C) | tenth of °C | |||||
| 332 | 1 | 10 | High threshold hysteresis | 0 | 0…255 | tenth of °C |
| 333 | 2 | 10 | Low threshold value | 0 | -200 … 600 | |
| (-20°C to +60°C) | tenth of °C | |||||
| 334 | 1 | 10 | Low threshold hysteresis | 0 | 0… 255 | tenth of °C |
| Register | Size (bytes) | Base | Description | Default value | Min-Max value | Comments |
|---|---|---|---|---|---|---|
| 340 | 1 | 10 | Alarm type | 0(inactive) | 0: Inactive | |
| 1: Low threshold | ||||||
| 2: High threshold | ||||||
| 3: Both thresholds | ||||||
| 341 | 1 | 10 | High threshold value | 0 | 0 … 100 | |
| 342 | 1 | 10 | High threshold hysteresis | 0 | 0 … 255 | |
| 343 | 1 | 10 | Low threshold value | 0 | 0 … 100 | |
| 344 | 1 | 10 | Low threshold hysteresis | 0 | 0 … 255 |
| Register | Size (bytes) | Base | Description | Default value | Min-Max Value | Comments |
|---|---|---|---|---|---|---|
| 380 | 1 | 16 | Configuration digital input 1 (button) |
0x41 | <7:4> Debounce duration 0: no debounce 1: 10 ms 2: 20 ms 3: 50 ms 4: 100 ms 5: 200 ms 6: 500 ms 7: 1 s 8: 2 s 9: 5 s A: 10 s B: 20 s C: 40 s D: 60 s E: 5 minutes F: 10 minutes  <3:0> Type 0 = Deactivated 1 = Event ON 2 = Event OFF 3 = Event ON/OFF | | | 381 | 2 | 10 | Digital input 1 threshold |  1 |  1 ... 65535 | Number of detections When the number of detected events becomes above this threshold, an alarm is triggered | | 382 | 1 | 16 | Configuration digital input 2 |          0x0 (deactivated) | <7:4> Debounce duration 0: no debounce 1: 10 ms 2: 20 ms 3: 50 ms 4: 100 ms 5: 200 ms 6: 500 ms 7: 1 s 8: 2 s 9: 5 s A: 10 s B: 20 s C: 40 s D: 60 s E: 5 minutes F: 10 minutes  <3:0> Type 0 = Deactivated 1 = Event ON 2 = Event OFF 3 = Event ON/OFF | | | 383 | 2 | 10 | Digital input 2 threshold |  1 |  1 ... 65535 | Number of detections When the number of detected events becomes above this threshold, an alarm is triggered | | 390 | 4 | 10 | Global counter for channel 1 | 0 | 0 – 4294967295 | In-RAM counter that accumulates the duration in seconds of the detected events on the channel  This register is not saved in EEPROM. Its value is therefore set to 0 if the product is not powered anymore | | 391 | 4 | 10 | Global counter for channel 2 |   0 |   0 – 4294967295 | In-RAM counter that accumulates the duration in seconds of the detected events on the channel  This register is not saved in EEPROM. Its value is therefore set to 0 if the product is not powered anymore |
| Register | Description | Encoding | Details |
|---|---|---|---|
| 201 | Spreading Factor (SF) by default (Read Only) | Decimal | Default: 12 |
| Min/max: 7 to 12 | |||
| Unit: None | |||
| 214 | LORA APP-EUI (first part – MSB) | Hexadecimal | Default: 0 |
| Key encoded on 16 characters. Each register contains a part of | |||
| the key. | |||
| Used during the JOIN phase in OTAA mode | |||
| E.g.: | |||
| APP-EUI = 0018B244 41524632 | |||
| • S214 = 0018B244 | |||
| • S215 = 41524632 | |||
| 215 | LORA APP-EUI (second part – MSB) | Hexadecimal | Default: 0 |
| Key encoded on 16 characters. Each register contains a part of | |||
| the key. | |||
| Used during the JOIN phase in OTAA mode | |||
| E.g.: | |||
| APP-EUI = 0018B244 41524632 | |||
| • S214 = 0018B244 | |||
| • S215 = 41524632 | |||
| 216 | LORA APP-KEY (firstpart – MSB) | Hexadecimal | Default: 0 |
| Key encoded on 32-byte characters. Each of the 4 registers contains 8 characters. | |||
| Used during the JOIN phase in OTAA mode | |||
| E.g.: | |||
| APP-KEY = 0018B244 41524632 0018B200 00000912 | |||
| • S216 = 0018B244 | |||
| • S217= 41524632 | |||
| • S218=0018B200 | |||
| • S219= 00000912 | |||
| 217 | LORA APP-KEY (second part – MID MSB) | Hexadecimal | Default: 0 |
| Key encoded on 32-byte characters. Each of the 4 registers contains 8 characters. | |||
| Used during the JOIN phase in OTAA mode | |||
| E.g.: | |||
| APP-KEY = 0018B244 41524632 0018B200 00000912 | |||
| • S216 = 0018B244 | |||
| • S217= 41524632 | |||
| • S218=0018B200 | |||
| • S219= 00000912 | |||
| 218 | LORA APP-KEY (thirdpart – MID LSB) | Hexadecimal | Default: 0 |
| Key encoded on 32-byte characters. Each of the 4 registers contains 8 characters. | |||
| Used during the JOIN phase in OTAA mode | |||
| E.g.: | |||
| APP-KEY = 0018B244 41524632 0018B200 00000912 | |||
| • S216 = 0018B244 | |||
| • S217= 41524632 | |||
| • S218=0018B200 | |||
| • S219= 00000912 | |||
| 219 | LORA APP-KEY (fourth part – LSB) | Hexadecimal | Default: 0 |
| Key encoded on 32-byte characters. Each of the 4 registers contains 8 characters. | |||
| Used during the JOIN phase in OTAA mode | |||
| E.g.: | |||
| APP-KEY = 0018B244 41524632 0018B200 00000912 | |||
| • S216 = 0018B244 | |||
| • S217= 41524632 | |||
| • S218=0018B200 | |||
| • S219= 00000912 | |||
| 220 | LoRaWAN Options | Hexadecimal | Default: 5 |
| Bit 0: Activation of the ADR ON(1)/OFF(0) | |||
| Bit 1: Reserved | |||
| Bit 2: DUTY CYCLE ON(1)/DUTY CYCLE OFF(0) | |||
| Bits 3 to 7: Reserved | |||
| CAUTION: | |||
| Deactivation of the Duty cycle may result in a violation of the | |||
| conditions of use of the frequency band, depending on the use of the device, thus violating the regulations in force. | |||
| In the case of disabling the Duty cycle, liability is transferred to | |||
| the user. | |||
| 221 | Mode of activation | Decimal | Default: 1 |
| Choice: (see NOTE 1 after the table) | |||
| • 0: ABP | |||
| • 1: OTAA | |||
| 222 | LORA NWK_SKEY (first part – MSB) | Hexadecimal | Default: 0 |
| Parameter encoded on 16 bytes. 4 registers contains 4 bytes. | |||
| 223 | LORA NWK_SKEY(second part - MID MSB) | Hexadecimal | |
| 224 | LORA NWK_SKEY (third part - MID LSB) | Hexadecimal | |
| 225 | LORA NWK_SKEY(fourth part – LSB) | Hexadecimal | |
| 226 | LORA APP_SKEY (first part – MSB) | Hexadecimal | Default: 0 |
| Parameter encoded on 16 bytes, each register with 4 bytes. | |||
| 227 | LORA APP_SKEY(second part - MID MSB) | Hexadecimal | |
| 228 | LORA APP_SKEY (third part - MID LSB) | Hexadecimal | |
| 229 | LORA APP_SKEY(fourth part – LSB) | Hexadecimal | |
| 259 | Channels Plan (US/AU 915 only) | Decimal | Default: 0 |
| Min/max: 0 to 8 | |||
| Select the Sub Band to use by the device during the Join phase (the same Sub Band supported by the GW). | |||
| 0: the device uses all the supported channels: [0-63] in 125 kHz and [64-71] in 500 kHz | |||
| 1: the device will use only Sub Band n°1. Use the channels [0-7] in 125 kHz and a channel [65] in 500 kHz. | |||
| … | |||
| 8: the device will use only Sub Band n°8. Use the channels [56-63] in 125 kHz and 71 in 500 kHz. | |||
| CAUTION: | |||
| Using one Sub Band may result in a violation of the conditions of use of the frequency band, depending on the use of the device, thus violating the regulations in force. | |||
| In the case of using a value different to “0”, liability is trans-ferred to the user. | |||
| 280 | NETWORK ID | Hexadecimal | Default: 0 Read only |
| 281 | DEVICE ADDRESS | Hexadecimal | Default: 0 |
NOTE 1: The “Over The Air Activation” (OTAA) mode uses a JOIN phase before being able to transmit on the network. This mode uses the APP_ EUI (S214 and S215) and APP_KEY (S216 to S219) codes during this phase to create the keys for network communication.
Once this phase is completed, the codes APP_sKEY, NWK_sKEY and DEVICE ADDRESS will be present in the corresponding registers. A new JOIN phase is started every time the device exits Command mode, a reset is performed, or the device is turned on.
Codes:
The “Activation by personalization” (ABP) mode has no JOIN phase; it transmits directly on the network using the codes NWK_sKEY (S222 to S225), APP_sKEY (S226 to S229) and DEVICE ADDRESS (S281) to communicate.
Codes:
| Register | Size (bytes) | Base | Description | Default Value | Range (Min- Max) | Comments |
|---|---|---|---|---|---|---|
| 303 | 1 | 10 | LoRaWAN Confirmed mode | |||
| 0 | ||||||
| 0-1 | 0: deactivation | |||||
| 1: activation | ||||||
| 312 | 4 | 10 | Maximum delay between 2 authentication attempts | |||
| 43200 (12h) | ||||||
| 60- | ||||||
| 2592000 | ||||||
| X 1 second | ||||||
| Period: 1 minute | ||||||
| to 30 days | ||||||
| 313 | 2 | 10 | Weighting factor for initial authentication attempts | 1 | 1-65535 | |
| 314 | 1 | 10 | Number of tries for each authentication attempt | 10 (EU) | ||
| 72 (US/AU) | 1-255 |
| Register | Size (bytes) | Base | Description | Default Value | Range (Min- Max) | Comments |
|---|---|---|---|---|---|---|
| 307 | 2 | 10 | Sigfox Downlink period | 1440 (24h) | 0-65535 | X 1 minute |
| ⇒ Period : 1 min to 45 days | ||||||
| 317 | 1 | 10 | Sigfox Duty cycle (RC1 only) | 1 | 0-1 | 0: Duty cycle deactivated |
| 1: Duty cycle activated |
A configuration coherency check is made at the time of the backup. Cases where backups are refused because considered as inconsistent:
| Cases refused | Description |
|---|---|
| (S330 = 3) && (S333 > S331) | TEMPERATUREÂ : Low threshold > High threshold |
| (S330 = 3) && ((S333 + S334) > (S331 - S332)) | TEMPERATUREÂ : (Low threshold + Low hysteresis) > (High threshold - High hysteresis) |
| (S340 = 3) && (S343 > S341) | HUMIDITYÂ : Low threshold > High threshold |
| (S340 = 3) && ((S343 + S344) > (S341 - S342)) | HUMIDITYÂ : (Low threshold + Low hysteresis) > (High threshold - High hysteresis) |
| (S340 = 1) && ((S344 + S343)Â > 100) | HUMIDITYÂ : (Low threshold + Low hysteresis) > 100 |
| (S340 = 2) && (S342Â > S341) | HUMIDITYÂ : High hysteresis > High threshold |
Data with size greater than 1 byte will be transmitted MSB first. In LoRaWAN, frames are sent on port 1.
All frames sent by the product contain a status byte. Its format is identical for all IoT Adeunis products.
| --- | --- | --- | --- | --- | --- | --- |
The status byte provides two bits reserved for a specific use of each product (AppFlag1 and AppFlag2). For this product: