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Adeunis RF MOTION V2 Technical Reference Manual

868 eu - lorawan/sigfox
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Date: 02/12/2019
Page 1 / 15
MOTION V2
Technical Reference Manual
868 EU - LoRaWAN / Sigfox
Applicable for APP versions >= 2.0.0
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
www.adeunis.com

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Summary of Contents for Adeunis RF MOTION V2

  • Page 1 Date: 02/12/2019 Page 1 / 15 MOTION V2 Technical Reference Manual 868 EU - LoRaWAN / Sigfox Applicable for APP versions >= 2.0.0 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...

  • Page 2: New Documentation / Nouvelle Documentation

    Date: 02/12/2019 Page 2 / 15 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 • •...

  • Page 3: Table Of Contents

    Date: 02/12/2019 Page 3 / 15 Table of Contents NEW DOCUMENTATION / NOUVELLE DOCUMENTATION ......................2 REGISTERS ..................................4 .................................. 4 ENERIC REGISTERS ................................4 PPLICATIVE REGISTERS ..................................6 ADIO REGISTERS 1.3.1 LoRaWAN Network Registers ............................6 1.3.2 Sigfox Network Registers ............................8 ...................................

  • Page 4: Registers

    Date: 02/12/2019 Page 4 / 15 EGISTERS 1.1 Generic registers Size Default Range Register Base Description Comments (bytes) Value (Min-Max) PIN code used with ATPIN command. PIN code (deactivat 0 - 9999 Value 0 disables the PIN code. In PARK mode, product is not using Product 0: PARK Radio.
  • Page 5 Date: 02/12/2019 Page 5 / 15 Low threshold 0 … 100 hysteresis <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 Configuration 0x41 9: 5 s...

  • Page 6: Radio Registers

    Date: 02/12/2019 Page 6 / 15 In-RAM counter that accumulates the duration in Global counter 0 – 4294967295 seconds of the detected for channel 1 events on the channel This register is not saved in EEPROM. Its value is Global counter 0 –...
  • Page 7 Date: 02/12/2019 Page 7 / 15 LORAWAN Default: 0 NWK_SKEY (first part Hexadecimal Parameter encoded on 16 bytes. Each of the 4 registers – MSB) contains 4 bytes. LORAWAN NWK_SKEY (second Hexadecimal part - MID MSB) LORAWAN NWK_SKEY (third part Hexadecimal - MID LSB) LORAWAN...

  • Page 8: Sigfox Network Registers

    Date: 02/12/2019 Page 8 / 15 1.3.2 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 (24h)  Period: 1 min to 45 days period 0: duty cycle activated 1: duty cycle deactivated...

  • Page 9: Uplink Frame Format

    Date: 02/12/2019 Page 9 / 15 2.2 Uplink Frame format 2.2.1 Product configuration (0x10) This frame is sent following the reception of a frame with code 0x01, or at the start of the product. Offset Data Description (in byte) 0x10 Frame code Status Status byte...

  • Page 10: Network Configuration (0X20)

    Date: 02/12/2019 Page 10 / 15 2.2.3 Network configuration (0x20) This frame is sent following the reception of a frame with code 0x02, or at the start of the product. 2.2.3.1 LoRaWAN 868 Offset (in byte) Data Description 0x20 Frame code Status Status byte LoRaWAN options...

  • Page 11: Presence Alarm (0X5D)

    Date: 02/12/2019 Page 11 / 15 Each sample is coded on 2 bytes: 1 for presence: 8 unsigned bits. Represents occupancy rate (in %) during the concerned period. • Example: 50% = a presence detected half the time. 1 for brightness: 8 bits unsigned in %. Example: 50 => 50% brightness •...

  • Page 12: Luminosity Alarm (0X50)

    Date: 02/12/2019 Page 12 / 15 2.2.7 Luminosity alarm (0x50) If the luminosity alarm is activated, this frame is sent when an alarm of exceeding threshold appears or disappears. Offset Data Description (in byte) 0x50 Frame code Status Status byte 0: inactive alarm Alarm state 1: active alarm (threshold exceeded)

  • Page 13: Response To Get Register Request (0X31)

    Date: 02/12/2019 Page 13 / 15 2.2.9 Response to Get register request (0x31) Following reception of a downlink frame with the code 0x40, the frame 0x31 is transmitted. It contains all the values of the registers requested in the downlink frame 0x40. Offset Data Description...

  • Page 14: Transmit Conditions

    Date: 02/12/2019 Page 14 / 15 Decoding example: Offset Data Description (in byte) 0x33 Frame code Frame counter: 4 0x80 Bit1@0: LowBat not detected 0x04 invalid register 0x0020 32: register S032 does not exist (should be S3XX) 2.2.11 Transmit conditions Frame Description Sending conditions...

  • Page 15: Set Registers (0X41)

    Date: 02/12/2019 Page 15 / 15 Offset Data Description (in byte) 0x40 Frame code CONFID1 Index of the register to be sent. The corresponding register is CONFID2 300 + CONFIDX value. CONFID3 IMPORTANT: the user can specify several CONF IDs in the downlink frame but it is up to the user’s responsibility to verify that according to the protocol, the size of the data available in a downlink will be large enough to contain all the desired data.

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