Frames Of Information On The Product Configuration - ADEUNIS ARF8230CA Guide Utilisateur

LoRaWAN 863-870 PULSE - Guide utilisateur / User guide version V3.0.0
4.1.2

Frames of information on the product configuration

Following reception of a downlink frame with the code 0x01 or on switching to the operating mode
(from the Park or Command Mode), the next frame (0x10) representing the application configuration of
the product is transmitted:
0 1
FR
Code Status
0x10 Cf
Status
0x10 0xA3
15 et 16 17 et 18 19 et 20
EN
S328 S329
0x000A 0x0000
Frame size of 27 bytes.
Description of the frame:
• Byte 2 : S306, product mode (PARK, PRODUCTION)
• Bytes 3 et 4 : S301, transmission frequency, expressed in number of historisations
• Byte 5 : S320, input configuration (Channels A et B)
• Byte 6 et 7 : S321, historisation period (x2 seconds)
• Byte 8 : S322, anti-bounce filter period (channels A and B)
• Bytes 9 et 10 : S325, flow calculation period (minute)
• Bytes 11 et 12 : S326, flow threshold (channel A)
• Bytes 13 et 14 : S327, flow threshold (channel B)
• Bytes 15 et 16 : S328, leak threshold (channel A)
• Bytes 17 et 18 : S329, leak threshold (channel B)
• Bytes 19 et 20 : S330, number of daily periods under leak threshold (channel A)
• Bytes 21 et 22 : S331, number of daily periods under leak threshold (channel B)
• Byte 23 : S332, sampling period for tamper 1
• Byte 24 : S333, number of sampling necessary before sending the tamper alarm for tamper 1
• Byte 25 : S334, sampling period for tamper 2
• Byte 26 : S335, number of sampling necessary before sending the tamper alarm for tamper 2
• Byte 27 : S340, number of redundant samples per frame
In the gray example it gives:
• Byte 2: S306=0x01: mode PRODUCTION activated
• Bytes 3 and 4: S301=0x0002 = 2 (decimal): 1 sending every 2 historisations/savings.
• Byte 5: S320 = 0x39: input configuration (Channels A and B):
• Channel A: activated, meter different than gas, tamper input activated
• Channel B: activated, gas meter and tamper input deactivated
• Byte 6 and 7: S321=0x012C=300 (decimal), so 1 historisation every 10 minutes (300x2sec=600)
• Byte 8: S322=0x57, anti-bounce filter Channel A = 500ms and Channel B = 100ms
• Bytes 9 and 10: S325=0x003C=60 decimal, flow calculation period is set to 60min
• Bytes 11 and 12: S326=0x2710=10 000 decimal, over-flow threshold detection on channel A set to
10 000 impulses per hour
• Bytes 13 and 14: S327=0x7530=30 000 decimal, over-flow threshold detection on channel B set to
30 000 impulses per hour
• Bytes 15 and 16: S328=0x000A=10 decimal, threshold tamper detection Channel A set to 10 im-
pulses per hour
• Bytes 17 and 18: S329=0x0000, threshold tamper detection Channel B set to 0 impulse per hour
• Bytes 19 and 20: S330=0x0003, number of daily period under tamper threshold (Channel A) set to 3
• Bytes 21 and 22: S331=0x0005, number of daily period under tamper threshold (Channel B) set to 5
• Octet 23 : S332, sampling period of tamper 1 set to 1
• Octet 24 : S333, number of sampling necessary before tamper alarm for tamper 1 set to 3
• Octet 25 : S334, sampling period of tamper 2 set to 6
2 3 et 4 5
S306 S301 S320
0x01 0x003C 0x39
21 et 22 23
...PAYLOAD
S330 S331 S332
0x01
0x0003 0x0005
6 et 7 8 9 et 10
PAYLOAD...
S321 S322 S325
0x012C 0x57 0x003C
24 25
S333 S334 S335
0x03 0x06 0x0A
11 et 12 13 et 14
S326 S327
0x2710 0x7530
26 27
S340
0x0D
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