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Summary of Contents for Adeunis RF EU868 LoRaWAN
- Page 1 Page 1 / 22 COMFORT - CO2 Technical Reference Manual EU868 LoRaWAN / Sigfox RC1 Applicable aux versions >= 2.3.x ® adeunis Manage & optimize your assets & services 283, rue louis Néel 38920 CROLLES, France Tél : +33 (0)4 76 92 07 77 E-mail : sales@adeunis.com...
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Page 2: New Documentation / Nouvelle Documentation
Page 2 / 22 EW DOCUMENTATION OUVELLE DOCUMENTATION ENGLISH FRANCAIS • • Dedicated to a product Dédié à un produit • • Cautions & electrical warnings Recommandations et avertissements • électriques Declaration of conformity • • Déclaration de conformité Product functionalities and modes •... -
Page 3: Table Of Contents
Page 3 / 22 ABLE OF ONTENTS NEW DOCUMENTATION / NOUVELLE DOCUMENTATION ......................2 TABLE OF CONTENTS .................................. 3 REGISTERS ..................................4 .................................. 4 ENERIC REGISTERS ................................4 PPLICATIVE REGISTERS 1.2.1 Black-out period ................................5 ..................................5 LARM REGISTERS 1.3.1 Temperature ................................ -
Page 4: Registers
Page 4 / 22 EGISTERS 1.1 Generic registers Size Range Register Base Description Default Value Comments (bytes) (Min-Max) PIN code used with ATPIN command. PIN code 0 - 9999 Value 0 disables the PIN code. (deactivated) In PARK mode, product is not using Radio. Product 0: PARK In RUN mode, product will send/receive RF... -
Page 5: Black-Out Period
Page 5 / 22 Min-Max Size Register Base Description Default value Comments Value (bytes) Number of additional Number of samples to be repeated in the (redundant) 0 ... 15 next frame samples per frame 0 ➔ blackout feature disable ≠ 0 ➔ blackout active, duration of daily Black out 0 –... -
Page 6: Humidity
Page 6 / 22 1.3.2 Humidity Size Default Register Base Description Min-Max value Comments (bytes) value 0: Inactive 1: Low threshold Alarm type (inactive) 2: High threshold 3: Both thresholds High threshold 0 … 100 value High threshold 0 … 255 hysteresis Low threshold 0 …... -
Page 7: Digital Inputs
Page 7 / 22 1.4 Digital inputs Size Default Register Base Description Min-Max Value Comments (bytes) value Only short press (<500ms) Button 0 = Alarm OFF on the button is considered configuration 1 = Alarm ON as an event Alarm. Number of detections before Button threshold 1 ... -
Page 8: Radio Registers
Page 8 / 22 1.5 Radio registers 1.5.1 LoRaWAN Network Registers Register Description Encoding Details Spreading Factor (SF) Decimal Default: 12 by default (Read Only) Min/max: 4 to 12 Unit: None Reserved Hexadecimal Do not use LORA APP-EUI (first Hexadecimal Default: 0 part –... - Page 9 Page 9 / 22 LORA APP_SKEY (third Hexadecimal part - MID LSB) LORA APP_SKEY Hexadecimal (fourth part – LSB) NETWORK ID Hexadecimal Default: 0 Read only 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.
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Page 10: Sigfox Network Registers
Page 10 / 22 1.5.2 Sigfox Network Registers Minimum Range Size Default required Register Base Description (Min- Comments (bytes) Value Application Max) version Sigfox 1440 X 1 minute Downlink 0-65535 >= V2.0.0 Period : 1 min to 45 days (24h) period 0 : dutycycle activated... -
Page 11: Radio Protocol
Page 11 / 22 ADIO PROTOCOL Data with size greater than 1 byte will be transmitted MSB first. In LoRaWAN, frames are sent on port 1. 2.1 Status byte All frames sent by the product contain a status byte. Its format is identical for all IoT Adeunis products. Alarm Status Bit 7 Bit 6... -
Page 12: Digital Input Configuration (0X1F)
Page 12 / 22 0x00 No redundancy 2.2.2 Digital input configuration (0x1F) This frame is sent following the start of the product (except when it is a reboot after a downlink). Offset Data Description (in byte) 0x1F Frame code Status Status byte S380 Configuration Button... -
Page 13: Software Version (0X37)
Page 13 / 22 2.2.3.2 Sigfox RC1 Offset Data Description (in byte) 0x20 Frame code Status Status byte S202 Retry count S307 Downlink period Decoding example: Offset Data Description (in byte) 0x20 Frame code Frame counter: 1 0x20 Bit1@0: no LowBat 0x02 2 retries 0x05A0... -
Page 14: Daily Frame (0X30)
Page 14 / 22 2.2.5 Daily frame (0x30) This frame is sent every 24 hours or following the reception of a frame with code 0x05 In this frame, all information based on sensor acquisition are evaluated on measurements (samples) done over the past 24h. -
Page 15: Periodic Data Frame (0X6A)
Page 15 / 22 2.2.6 Periodic data frame (0x6A) The measure frequency is defined by: S321 * S320 The sending frequency is defined by: S321 * S320 * S301 The number of samples per channel is defined by: (S301 + S323) Maximum number of samples per frame: •... -
Page 16: Alarms (0X6B)
Page 16 / 22 2.2.7 Alarms (0x6B) This frame is sent during the appearance, or disappearance, of a threshold exceeding alarm. Offset Data Description (in byte) 0x6B Frame code Status (AppFlag2 = 0) Status byte Bit 5: CO2 0: alarm is not active 1: alarm is active Bit 4: Temperature Alarm status... -
Page 17: Button Alarm (0X51)
Page 17 / 22 2.2.8 Button alarm (0x51) This frame is sent when the number of detected events exceeds the threshold. Offset Data Description (in byte) 0x51 Frame code for button Status Status byte Precisely define the input state. Alarm state <0>... -
Page 18: Ack (0X2F)
Page 18 / 22 2.2.10 ACK (0x2F) This uplink is sent when a downlink 0x1A (calibration) or 0x48 (reboot) or 0x49 (set time) is received. Offset Data Description (in byte) 0x2F Frame code Status Status byte Downlink Framecode Indicate which downlink has generated this uplink Request status 0x00: N/A 0x01: success... -
Page 19: Response To Set Register Request (0X33)
Page 19 / 22 2.2.12 Response to Set register request (0x33) Following reception of a downlink frame with the code 0x41, the frame 0x33 is transmitted. It shows whether the downlink frame (0x41) has been received and gives information on the support status of the latter. Offset Data Description... -
Page 20: Downlink Frame Format
Page 20 / 22 2.3 Downlink Frame format 2.3.1 Get applicative configuration (0x01) Offset Data Description (in byte) 0x01 Frame code When the device receives the downlink, it will generate a product configuration frame (0x10). 2.3.2 Get network configuration (0x02) Offset Data Description... -
Page 21: Get Registers (0X40)
Page 21 / 22 2.3.5 Get registers (0x40) This frame (0x40) allows you to inform the device through the network that it must send the values of specific S3XX registers in an uplink frame (0x31). Offset Data Description (in byte) 0x40 Frame code CONFID1... -
Page 22: Reboot (0X48)
Page 22 / 22 2.3.7 Reboot (0x48) This frame (0x48) allows you to reboot the device. Offset Data Description (in byte) 0x48 Frame code delay Delay before reboot in minutes (from 1 to 65535) Following the sending of the downlink 0x48, an uplink ACK (0x2F) is sent. After the specified delay, the device will then begin its restart procedure.
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