rtl_433
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merbanan
Adding temp sensor: LaCrosse / technoline / Mobile alerts
Hello,
I am trying to add this new set of sensors... They go by different names/companies LaCrosse technology, or Technoline, etc and are part of the MAxxxx system (example MA10001). The main receiver indicates that it is working on 868.3Mhz and I've actually scanned it to be more around 868.208e6
What I don't know how to do, is to decode it and add it to this database :-) could someone help me?
Running rtl_433 -f 868.225e6 -a 4 I get :
`*** signal_start = 16538003, signal_end = 19388054, signal_len = 2850051, pulses_found = 1
Iteration 1. t: 1415025 min: 0 (0) max: 2830050 (1) delta 3567587328
Iteration 2. t: 1415025 min: 0 (0) max: 2830050 (1) delta 0
Distance coding: Pulse length 1415025
Short distance: 1000000, long distance: 0, packet distance: 0
p_limit: 1415025
bitbuffer:: Number of rows: 0
*** signal_start = 25563970, signal_end = 26255349, signal_len = 691379, pulses_found = 644
Iteration 1. t: 223865 min: 166 (643) max: 447565 (1) delta 25921
Iteration 2. t: 223865 min: 166 (643) max: 447565 (1) delta 0
Pulse coding: Short pulse length 166 - Long pulse length 447565
Short distance: 2, long distance: 56, packet distance: 40286
p_limit: 223865
bitbuffer:: Number of rows: 3
[00] { 1} 80 : 1
[01] {322} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[02] {321} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
*** signal_start = 26677840, signal_end = 27369251, signal_len = 691411, pulses_found = 643
Iteration 1. t: 223898 min: 166 (642) max: 447630 (1) delta 4489
Iteration 2. t: 223898 min: 166 (642) max: 447630 (1) delta 0
Pulse coding: Short pulse length 166 - Long pulse length 447630
Short distance: 52, long distance: 56, packet distance: 40263`
Don't hit the frequency dead-on, use -f 868.1M. Don't use -a but use -A.
Don't hit the frequency dead-on, use
-f 868.1M. Don't use-abut use-A.
Will try, would you mind explaining me why should we not hit the frequency dead-on? and why use 868.1M instead of 868.2M (as the frequency I was hitting is 868.225e6 and the stated by the product is 868.3M ? (just trying to understand and learn :) )
868.3M would be fine too. Match the frequency exactly and you get no frequency at all, there is no "wave" at the center (0 Hz), DC is blocked.
868.3M would be fine too. Match the frequency exactly and you get no frequency at all, there is no "wave" at the center (0 Hz), DC is blocked.
Got ya!, thanks. So i run it with the modifications you stated and wow the logs are huge and incoming!!! ( I do have 3 temp sensors reporting in this channel and 1 receiver).
emilic@Emilics-MBP ~ % rtl_433 -f 868.3M -A
rtl_433 version 21.12 branch at 202112141644 inputs file rtl_tcp RTL-SDR
Use -h for usage help and see https://triq.org/ for documentation.
Trying conf file at "rtl_433.conf"...
Trying conf file at "/Users/emilic/.config/rtl_433/rtl_433.conf"...
Trying conf file at "/usr/local/etc/rtl_433/rtl_433.conf"...
Trying conf file at "/etc/rtl_433/rtl_433.conf"...
New defaults active, use "-Y classic -s 250k" for the old defaults!
Registered 176 out of 207 device decoding protocols [ 1-4 8 11-12 15-17 19-23 25-26 29-36 38-60 63 67-71 73-100 102-105 108-116 119 121 124-128 130-149 151-161 163-168 170-175 177-197 199 201-207 ]
Found Rafael Micro R820T tuner
Exact sample rate is: 1000000.026491 Hz
[R82XX] PLL not locked!
Sample rate set to 1000000 S/s.
Tuner gain set to Auto.
Tuned to 868.300MHz.
baseband_demod_FM: low pass filter for 1000000 Hz at cutoff 200000 Hz, 5.0 us
Detected FSK package 2022-06-01 20:41:59
Analyzing pulses...
Total count: 268, width: 4.58 ms ( 4585 S)
Pulse width distribution:
[ 0] count: 1, width: 0 us [0;0] ( 0 S)
[ 1] count: 33, width: 3 us [3;3] ( 3 S)
[ 2] count: 21, width: 24 us [19;31] ( 24 S)
[ 3] count: 13, width: 5 us [5;6] ( 5 S)
[ 4] count: 54, width: 1 us [1;1] ( 1 S)
[ 5] count: 42, width: 2 us [2;2] ( 2 S)
[ 6] count: 18, width: 7 us [7;8] ( 7 S)
[ 7] count: 32, width: 13 us [12;16] ( 13 S)
[ 8] count: 27, width: 4 us [4;4] ( 4 S)
[ 9] count: 3, width: 18 us [18;19] ( 18 S)
[10] count: 11, width: 9 us [9;10] ( 9 S)
[11] count: 5, width: 70 us [62;76] ( 70 S)
[12] count: 1, width: 113 us [113;113] ( 113 S)
[13] count: 3, width: 43 us [40;45] ( 43 S)
[14] count: 2, width: 33 us [33;33] ( 33 S)
Gap width distribution:
[ 0] count: 12, width: 9 us [8;12] ( 9 S)
[ 1] count: 81, width: 1 us [1;1] ( 1 S)
[ 2] count: 8, width: 7 us [6;8] ( 7 S)
[ 3] count: 61, width: 2 us [2;2] ( 2 S)
[ 4] count: 30, width: 3 us [3;3] ( 3 S)
[ 5] count: 17, width: 4 us [4;4] ( 4 S)
[ 6] count: 23, width: 26 us [22;30] ( 26 S)
[ 7] count: 11, width: 18 us [15;20] ( 18 S)
[ 8] count: 3, width: 5 us [5;5] ( 5 S)
[ 9] count: 8, width: 45 us [40;54] ( 45 S)
[10] count: 8, width: 13 us [13;14] ( 13 S)
[11] count: 1, width: 33 us [33;33] ( 33 S)
[12] count: 3, width: 66 us [61;72] ( 66 S)
[13] count: 1, width: 100 us [100;100] ( 100 S)
Pulse period distribution:
[ 0] count: 39, width: 10 us [9;12] ( 10 S)
[ 1] count: 24, width: 4 us [4;4] ( 4 S)
[ 2] count: 42, width: 27 us [22;34] ( 27 S)
[ 3] count: 44, width: 15 us [13;19] ( 15 S)
[ 4] count: 60, width: 5 us [5;6] ( 5 S)
[ 5] count: 12, width: 20 us [20;21] ( 20 S)
[ 6] count: 12, width: 7 us [7;8] ( 7 S)
[ 7] count: 5, width: 3 us [3;3] ( 3 S)
[ 8] count: 9, width: 68 us [57;78] ( 68 S)
[ 9] count: 12, width: 48 us [41;56] ( 48 S)
[10] count: 2, width: 2 us [2;2] ( 2 S)
[11] count: 2, width: 108 us [102;114] ( 108 S)
[12] count: 4, width: 34 us [34;36] ( 34 S)
Pulse timing distribution:
[ 0] count: 1, width: 0 us [0;0] ( 0 S)
[ 1] count: 63, width: 3 us [3;3] ( 3 S)
[ 2] count: 35, width: 26 us [22;31] ( 26 S)
[ 3] count: 18, width: 5 us [5;6] ( 5 S)
[ 4] count: 136, width: 1 us [1;1] ( 1 S)
[ 5] count: 20, width: 19 us [17;24] ( 19 S)
[ 6] count: 103, width: 2 us [2;2] ( 2 S)
[ 7] count: 25, width: 7 us [7;8] ( 7 S)
[ 8] count: 46, width: 13 us [11;16] ( 13 S)
[ 9] count: 44, width: 4 us [4;4] ( 4 S)
[10] count: 19, width: 9 us [9;10] ( 9 S)
[11] count: 8, width: 68 us [61;76] ( 68 S)
[12] count: 2, width: 106 us [100;113] ( 106 S)
[13] count: 10, width: 43 us [40;50] ( 43 S)
[14] count: 3, width: 33 us [33;33] ( 33 S)
Level estimates [high, low]: 12972, 178
RSSI: -1.0 dB SNR: 18.6 dB Noise: -19.6 dB
Frequency offsets [F1, F2]: -7707, -5413 (-117.6 kHz, -82.6 kHz)
Guessing modulation: Pulse Code Modulation (Not Return to Zero)
Attempting demodulation... short_width: 1, long_width: 1, reset_limit: 1024, sync_width: 0
Use a flex decoder with -X 'n=name,m=FSK_PCM,s=1,l=1,r=1024'
pulse_demod_pcm(): Analyzer Device
bitbuffer:: Number of rows: 1
[00] {4586} 00 1d ff ff ff fd f8 00 40 39 ff ff fe 30 c0 11 fe ff f2 10 00 00 00 7b fc fc 20 00 00 1f ff 3c f0 00 00 1f e7 ff c6 30 00 03 1f ff fd c8 00 00 01 fe ff fc 41 00 43 39 ff f9 c2 00 00 03 bf f7 be 00 00 00 7f 9f cf c1 00 00 1d 27 ff cf 80 00 00 e7 ff fe 60 00 00 01 ff ff fc 78 00 00 7b bf fe 30 00 00 c6 7b ff ff ff ef f0 c0 00 00 01 df f7 1c 00 00 04 00 00 00 0d ff ff ff ff ff ff ff ff f9 8c 00 00 00 00 00 0f 9f ff e7 30 00 00 00 00 08 60 04 00 0f ff ff ff ff ff ff ff ff 9e 78 08 00 1f ff ff e3 00 00 00 00 00 00 3e 3f ff ff ff ff ff ff ff 7b e0 00 00 01 00 11 16 7f fc f7 c0 01 00 42 00 00 00 00 00 1f cf ff ff ff ff ff ff ff ff ff ff ff ff ff fb de 00 00 00 3b df ff 8c 00 00 01 00 00 00 02 00 06 1f df ff ee 00 00 8b 3f ff f7 80 00 00 3f fe f7 f0 00 00 00 00 04 01 ff ff ff e0 20 04 00 04 00 80 01 00 00 00 04 00 00 00 01 1f cf ff ff ff ff ff bf ff ff ff ff ff ff ff ff f8 c0 00 00 73 ff f7 9e 00 00 31 ff ff fd c6 80 c3 3f ff ff df e7 bf ef ff cf 7f ff ff ff ff bd ff 7d fe 7f fc ff fd ef fd ff ef ff cf ff 80 40 00 07 fd ff fb ff ff ff 44 00 03 3f ff ff cf 30 00 39 8f ff 9c 60 00 00 00 00 00 00 67 fe fe 00 00 00 00 00 40 1c ff ff fe ff ff 7f 60 00 01 0f ff ff e3 30 00 20 00 00 01 df ff fd c2 00 00 00 00 00 00 00 0c 03 9f ff ff ff ff ff ff ff ff fe ff ff ff ff bf cf 7f ff ff ff ff ff fe 40 00 00 00 00 00 00 00 00 26 1f ff ff fd ff ff ff fb ff df ff df ff de ff bf fd 9d f8 00 00 00 1c 0f ff fe ff ff f6 10 40 00 20 7f fe 61 00 02 00 00 00 04 07 ff ef ff ff fe 1c 00 00 00 00 00 0c 77 ff ff 7f ff ff ff ff ff ff 3f ff 39 e0 00 00 73 8f ff ff fb ff f3 9f e7 ff c7 ff ef 7f df fb 8c 00 00 00 00 00 00 00 00 00 00 00 00 31 fd ff ff ff ff 7c e0 00 00 07 ef ff fe 40 00 00 00 00 00 00 00 10 ff ff ff ff ff f9 ff 80
Detected FSK package 2022-06-01 20:41:59
Analyzing pulses...
Total count: 541, width: 7.70 ms ( 7697 S)
Pulse width distribution:
[ 0] count: 1, width: 0 us [0;0] ( 0 S)
[ 1] count: 51, width: 4 us [4;4] ( 4 S)
[ 2] count: 23, width: 20 us [16;26] ( 20 S)
[ 3] count: 132, width: 2 us [2;2] ( 2 S)
[ 4] count: 117, width: 1 us [1;1] ( 1 S)
[ 5] count: 36, width: 12 us [10;16] ( 12 S)
[ 6] count: 42, width: 7 us [6;9] ( 7 S)
[ 7] count: 17, width: 9 us [9;10] ( 9 S)
[ 8] count: 74, width: 3 us [3;3] ( 3 S)
[ 9] count: 30, width: 5 us [5;6] ( 5 S)
[10] count: 10, width: 42 us [36;50] ( 42 S)
[11] count: 4, width: 32 us [29;35] ( 32 S)
[12] count: 2, width: 64 us [60;68] ( 64 S)
[13] count: 2, width: 85 us [78;93] ( 85 S)
Gap width distribution:
[ 0] count: 141, width: 2 us [2;2] ( 2 S)
[ 1] count: 47, width: 3 us [3;3] ( 3 S)
[ 2] count: 203, width: 1 us [1;1] ( 1 S)
[ 3] count: 8, width: 10 us [9;12] ( 10 S)
[ 4] count: 16, width: 7 us [6;9] ( 7 S)
[ 5] count: 16, width: 5 us [5;6] ( 5 S)
[ 6] count: 24, width: 24 us [21;29] ( 24 S)
[ 7] count: 23, width: 32 us [28;39] ( 32 S)
[ 8] count: 24, width: 4 us [4;4] ( 4 S)
[ 9] count: 12, width: 16 us [13;19] ( 16 S)
[10] count: 12, width: 48 us [41;57] ( 48 S)
[11] count: 4, width: 71 us [58;81] ( 71 S)
[12] count: 6, width: 95 us [91;102] ( 95 S)
[13] count: 4, width: 129 us [125;136] ( 129 S)
Pulse period distribution:
[ 0] count: 13, width: 2 us [2;2] ( 2 S)
[ 1] count: 126, width: 5 us [5;7] ( 5 S)
[ 2] count: 47, width: 29 us [24;36] ( 29 S)
[ 3] count: 38, width: 14 us [12;18] ( 14 S)
[ 4] count: 57, width: 10 us [9;12] ( 10 S)
[ 5] count: 69, width: 4 us [4;4] ( 4 S)
[ 6] count: 64, width: 3 us [3;3] ( 3 S)
[ 7] count: 55, width: 7 us [7;8] ( 7 S)
[ 8] count: 24, width: 20 us [18;23] ( 20 S)
[ 9] count: 23, width: 43 us [37;53] ( 43 S)
[10] count: 9, width: 59 us [52;69] ( 59 S)
[11] count: 11, width: 92 us [75;108] ( 92 S)
[12] count: 4, width: 130 us [126;137] ( 130 S)
Pulse timing distribution:
[ 0] count: 1, width: 0 us [0;0] ( 0 S)
[ 1] count: 75, width: 4 us [4;4] ( 4 S)
[ 2] count: 41, width: 22 us [18;26] ( 22 S)
[ 3] count: 274, width: 2 us [2;2] ( 2 S)
[ 4] count: 320, width: 1 us [1;1] ( 1 S)
[ 5] count: 45, width: 12 us [10;16] ( 12 S)
[ 6] count: 101, width: 6 us [5;9] ( 6 S)
[ 7] count: 22, width: 9 us [8;10] ( 9 S)
[ 8] count: 121, width: 3 us [3;3] ( 3 S)
[ 9] count: 25, width: 41 us [34;51] ( 41 S)
[10] count: 24, width: 30 us [27;35] ( 30 S)
[11] count: 10, width: 16 us [15;19] ( 16 S)
[12] count: 10, width: 60 us [52;78] ( 60 S)
[13] count: 9, width: 91 us [78;102] ( 91 S)
[14] count: 4, width: 129 us [125;136] ( 129 S)
Level estimates [high, low]: 3301, 177
RSSI: -7.0 dB SNR: 12.7 dB Noise: -19.7 dB
Frequency offsets [F1, F2]: -7335, -4901 (-111.9 kHz, -74.8 kHz)
Guessing modulation: Pulse Code Modulation (Not Return to Zero)
Attempting demodulation... short_width: 1, long_width: 1, reset_limit: 1024, sync_width: 0
Use a flex decoder with -X 'n=name,m=FSK_PCM,s=1,l=1,r=1024'
pulse_demod_pcm(): Analyzer Device
bitbuffer:: Number of rows: 1
[00] {7699} 3c 7b ff ff ff 30 00 80 32 3f ff b1 88 00 81 8f ff df e0 00 00 66 6d ff b8 00 00 00 46 e7 73 00 00 00 08 39 6f 40 00 00 04 06 9b c7 00 00 00 01 c4 f6 e2 00 00 00 45 df 9f 82 00 00 00 6f de 66 00 00 00 00 fc fb 04 00 00 00 33 fd 9c 40 00 00 65 cf fb c4 00 00 01 ff e3 e6 00 00 00 01 0b e3 18 00 00 00 07 8d fe 7e 7f 3c 02 00 00 06 1c ff cc 00 00 40 00 00 00 03 87 fb ff bf fe e7 ff e7 f8 40 00 00 00 00 00 04 ff fd e3 01 00 00 00 00 40 00 00 00 01 9f ff ff ff ff fc fd ff ed c8 00 00 03 9c f7 f0 98 00 00 10 00 00 3d ff ff fd ff ff ff ff ff fd 88 00 00 00 00 08 1b 77 fb df 80 00 00 00 00 00 00 00 02 1d e7 bf ff ff ff f7 ff ff fe ff ff ff 78 c0 00 00 00 40 00 7e 7f fe c4 10 00 03 fb ff fc 30 00 00 26 f7 ff c8 60 00 03 9f ff 31 80 00 00 29 ff ff 66 0c 00 00 00 00 00 ff ff ff fe 00 00 00 02 00 00 00 00 00 00 00 00 00 00 00 38 ff ff ff ff ff ff dc 31 cc 6c 0c 47 1a 02 f6 02 00 00 00 01 a1 f0 84 00 00 18 03 79 e3 80 00 00 00 66 3e 7f 3d ff ef 37 fc df 9e ef 77 ff f3 fe 7f 67 3d f3 73 ff f3 7d fd ef 9f 9f e9 c0 00 00 00 00 00 00 0c f9 f8 40 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 20 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 e7 fd ff ff ff ff ff df fd f3 00 00 00 00 32 30 8f ff ce 64 00 00 00 00 00 04 00 00 04 9b 7f ff f7 fd ff fb ff 7f f7 ff ff 7f 7f ff ff ff ff ff ff fb fb fc 00 00 00 00 00 00 00 00 00 0e 07 fb ff fe fd f6 7f ff ff ff ff ff ff ff ff ff ff fd f3 00 00 00 04 ff ff fd ff ff f7 04 c0 00 00 00 00 00 00 00 00 00 00 00 0f ff fe c8 0c 00 60 00 00 00 00 00 00 1b f7 87 1c 66 63 99 3f 1e 44 00 00 00 00 00 00 08 98 3c 00 00 00 00 09 36 fe 7d fd ff 19 9d cc c2 00 80 00 10 00 00 00 00 00 00 fb ae ff ff bf f3 00 00 00 03 fd cf e4 00 00 00 00 00 00 00 00 00 00 00 00 08 f7 ff 70 08 00 04 1d ff d9 e0 00 00 00 40 00 84 cf ff 5f fd ff 9f 7d ff 6d 10 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 5b ff e9 80 00 00 40 df ff 7f 7f fe e7 00 00 30 6f ff ff c0 01 80 06 6e 7f ce 0c 00 40 00 00 00 04 e7 ff f8 80 00 00 00 00 20 6f ff ff ff ff ff ff ff ff ff df 3e e7 bf 79 be 7f ff f6 fd fe ef fc 00 00 00 00 00 00 00 00 00 00 00 00 80 67 2f ff ff fd ef 7f ff e9 ce ff c3 c8 80 00 00 03 9f fc 02 00 00 00 67 3f f3 dd 9f e4 08 00 00 01 00 00 80 00 00 00 00 00 00 30 f7 ff ff ff ff 7d c0 00 00 0c ff ff ff ff ff c6 00 00 00 0f ff f4 a6 00 00 00 00 00 00 00 00 00 00 00 20 66 ff ff ff ff fd e8 00 00 00 3b fb f7 fe ff b9 c1 00 03 67 7f ff ff ff ff ff ff ff fb fd 0c 00 00 ff ff fe f1 00 00 00 00 00 27 bd ff ff 88 84 00 00 02 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 30 4e 7f ff ff ff fb f3 80 00 00 00 00 00 00 f9 9f 73 de ff 9f 3b 79 f0 00 00 00 00 3b bc d8 00 00 00 64 7b ff db ff ce e1 80 00 00 00 00 80 07 fd ff ff ff ff fe ff e7 fc 00 00 00 00 00 00 00 00 00 01 bb fb ff ff ee ff ff ff fb c0 00 00 00 00 0c 04 3d ff 7b 98 00 00 05 df ff ff ff ff fe 61 00 00 00 00 00 19 ff ff ff ff ff bf ff fd fb df ff fd ff 7f bf f9 80 00 00 00 00 00 00 00 00 00 00 01 80
Detected FSK package 2022-06-01 20:41:59
Analyzing pulses...
Total count: 356, width: 5.63 ms ( 5631 S)
Pulse width distribution:
[ 0] count: 1, width: 0 us [0;0] ( 0 S)
[ 1] count: 47, width: 3 us [3;3] ( 3 S)
[ 2] count: 57, width: 2 us [2;2] ( 2 S)
[ 3] count: 34, width: 9 us [8;12] ( 9 S)
[ 4] count: 79, width: 1 us [1;1] ( 1 S)
[ 5] count: 23, width: 7 us [6;8] ( 7 S)
[ 6] count: 29, width: 14 us [12;17] ( 14 S)
[ 7] count: 13, width: 5 us [5;6] ( 5 S)
[ 8] count: 17, width: 22 us [18;26] ( 22 S)
[ 9] count: 34, width: 4 us [4;4] ( 4 S)
[10] count: 8, width: 48 us [44;57] ( 48 S)
[11] count: 11, width: 31 us [27;36] ( 31 S)
[12] count: 2, width: 68 us [65;72] ( 68 S)
[13] count: 1, width: 98 us [98;98] ( 98 S)
Gap width distribution:
[ 0] count: 25, width: 17 us [14;21] ( 17 S)
[ 1] count: 82, width: 2 us [2;2] ( 2 S)
[ 2] count: 103, width: 1 us [1;1] ( 1 S)
[ 3] count: 22, width: 4 us [4;4] ( 4 S)
[ 4] count: 39, width: 3 us [3;3] ( 3 S)
[ 5] count: 16, width: 5 us [5;6] ( 5 S)
[ 6] count: 28, width: 24 us [22;29] ( 24 S)
[ 7] count: 12, width: 49 us [41;61] ( 49 S)
[ 8] count: 6, width: 12 us [10;13] ( 12 S)
[ 9] count: 17, width: 8 us [7;9] ( 8 S)
[10] count: 3, width: 74 us [70;79] ( 74 S)
[11] count: 1, width: 32 us [32;32] ( 32 S)
[12] count: 1, width: 93 us [93;93] ( 93 S)
Pulse period distribution:
[ 0] count: 52, width: 15 us [13;19] ( 15 S)
[ 1] count: 76, width: 5 us [5;6] ( 5 S)
[ 2] count: 36, width: 4 us [4;4] ( 4 S)
[ 3] count: 57, width: 10 us [9;12] ( 10 S)
[ 4] count: 47, width: 23 us [19;28] ( 23 S)
[ 5] count: 18, width: 3 us [3;3] ( 3 S)
[ 6] count: 3, width: 2 us [2;2] ( 2 S)
[ 7] count: 23, width: 31 us [29;37] ( 31 S)
[ 8] count: 15, width: 7 us [7;8] ( 7 S)
[ 9] count: 22, width: 52 us [42;66] ( 52 S)
[10] count: 5, width: 80 us [74;94] ( 80 S)
[11] count: 1, width: 100 us [100;100] ( 100 S)
Pulse timing distribution:
[ 0] count: 1, width: 0 us [0;0] ( 0 S)
[ 1] count: 86, width: 3 us [3;3] ( 3 S)
[ 2] count: 140, width: 2 us [2;2] ( 2 S)
[ 3] count: 49, width: 9 us [8;12] ( 9 S)
[ 4] count: 182, width: 1 us [1;1] ( 1 S)
[ 5] count: 33, width: 7 us [6;8] ( 7 S)
[ 6] count: 44, width: 14 us [12;17] ( 14 S)
[ 7] count: 23, width: 5 us [5;6] ( 5 S)
[ 8] count: 51, width: 21 us [18;26] ( 21 S)
[ 9] count: 56, width: 4 us [4;4] ( 4 S)
[10] count: 19, width: 48 us [41;58] ( 48 S)
[11] count: 20, width: 29 us [27;36] ( 29 S)
[12] count: 6, width: 70 us [61;79] ( 70 S)
[13] count: 2, width: 95 us [93;98] ( 95 S)
Level estimates [high, low]: 13387, 209
RSSI: -0.9 dB SNR: 18.1 dB Noise: -18.9 dB
Frequency offsets [F1, F2]: -7235, -5393 (-110.4 kHz, -82.3 kHz)
Guessing modulation: Pulse Code Modulation (Not Return to Zero)
Attempting demodulation... short_width: 1, long_width: 1, reset_limit: 1024, sync_width: 0
Use a flex decoder with -X 'n=name,m=FSK_PCM,s=1,l=1,r=1024'
pulse_demod_pcm(): Analyzer Device
bitbuffer:: Number of rows: 1
[00] {5633} 00 00 73 3f f7 ff 61 00 00 23 fd ff f9 c0 00 06 c3 ff f3 fc 00 00 8c 77 fe e7 c0 80 00 3b ff ff c8 00 00 1d 7d ff f1 80 00 00 0f 7f ff 7e 08 00 19 ff ff fc 60 00 00 6f 3f fe 78 00 00 08 ff bf fc 10 00 01 b4 ff fe 1f 00 00 00 e7 f9 ef 00 00 00 0d ff fb cc 00 00 47 9f ff f3 f0 00 00 0f ff ff a1 80 01 0e 2f f7 ff ff f3 cf 00 00 02 09 c7 fc ef 00 00 00 c0 00 01 03 bf ff ff ff ff ff ff ef 7f 80 00 00 00 00 00 08 f7 7f f8 30 00 00 00 00 00 00 00 40 01 df f7 ff ff ff fe ff ff f7 c0 00 00 30 0e ff 9c c0 00 00 00 00 01 84 7f ff ff ff ff ff ff ff ff 8c 20 00 40 00 00 13 ef ff d8 c0 00 00 00 00 00 00 00 00 08 9f ff ff ff ff ff ff ff ff ff ff ff f9 80 00 01 c7 ff ff ff ff ff ff ef ff ff ff ff 7f 0c 00 08 37 3f ff 38 40 00 00 ff f3 ff c2 00 00 37 1f ff 0c 80 18 c0 11 00 01 e7 ff ff ff 83 08 00 00 00 04 01 00 00 00 00 00 00 00 20 43 ff ff ff ff ff e7 ff e7 ff fb ff fb ff f7 ff f3 08 02 00 0e 7f df f0 20 00 27 ff ff 7c 20 08 04 1f f7 bf f7 ff f7 ff ef ff df ff ff ff ff ff bf ff ff ff ff ff fb fe f3 ff fe 7f ff ff 9c 00 00 00 7f ff ff fe ff fc 63 00 00 01 ff fb ce 00 00 00 1f e7 ff 33 00 00 00 00 00 39 df ff fe e1 00 42 00 80 40 39 ff ff ff ff ff ef 80 00 00 8f f3 ff c7 00 00 10 00 00 08 ff ff ff f3 c0 00 00 00 00 00 00 00 00 c7 ff df 79 ff ff ff fb ff ff 7f fe 7b c0 00 00 00 00 00 00 00 00 00 47 ff ff ff ff 7f c6 00 00 0e 27 ff ff ff ff ff ff ff fd ee 00 00 10 fc ff fc e0 00 00 00 00 00 06 fe ff ff ff ff de 70 00 00 19 ff 7f 9c 00 00 00 6f ff ff f1 84 00 20 00 40 40 40 00 04 00 00 20 77 ff ff ff ff ff f3 c0 00 20 1c ff bf ff ff ff ff fe 7f 9f 00 00 00 77 fd ff e0 00 00 00 00 00 0c 7f ff fe 00 00 00 0f e7 bf 02 00 00 00 0f cf f1 c0 00 00 00 00 00 00 f7 f9 ee 00 00 01 8f b3 fb fe ff bf ff 3d ff ff ff 7e 7f 8f ff cf 30 00 00 01 8f f7 ff f7 bf c7 10 00 00 06 7f cf ff ff fe 38 40 10 00 00 00 00 00 00 00 00 00 00 00 4f f3 fd 04 00 08 48 3f ff ff ff bf f0 18 00 01 8a 7f f9 ce 00 08 03 3f ff ff 04 00 00 7f ff ff b9 e0 00 00 00 00 06 7f ff ff cc 00 00 03 3f ff ff fe fb 9c 20 00 00 31 ff 7f bc 00 00 00 00 00 60 3b fe 7f ff ff ef 38 00 00 00 00 00 00 19 ef 7f e0 02 00 00 00 00 00 ef fd ff ff ff 47 f6 00
Detected FSK package 2022-06-01 20:41:59
Analyzing pulses...
Total count: 413, width: 5.62 ms ( 5615 S)
Pulse width distribution:
[ 0] count: 1, width: 0 us [0;0] ( 0 S)
[ 1] count: 102, width: 2 us [2;2] ( 2 S)
[ 2] count: 25, width: 4 us [4;4] ( 4 S)
[ 3] count: 33, width: 11 us [9;13] ( 11 S)
[ 4] count: 62, width: 6 us [5;9] ( 6 S)
[ 5] count: 111, width: 1 us [1;1] ( 1 S)
[ 6] count: 44, width: 3 us [3;3] ( 3 S)
[ 7] count: 11, width: 18 us [16;20] ( 18 S)
[ 8] count: 6, width: 8 us [8;9] ( 8 S)
[ 9] count: 6, width: 50 us [41;58] ( 50 S)
[10] count: 2, width: 84 us [77;91] ( 84 S)
[11] count: 4, width: 24 us [23;25] ( 24 S)
[12] count: 6, width: 32 us [30;38] ( 32 S)
Gap width distribution:
[ 0] count: 44, width: 3 us [3;3] ( 3 S)
[ 1] count: 95, width: 2 us [2;2] ( 2 S)
[ 2] count: 140, width: 1 us [1;1] ( 1 S)
[ 3] count: 28, width: 5 us [5;6] ( 5 S)
[ 4] count: 17, width: 21 us [18;26] ( 21 S)
[ 5] count: 14, width: 28 us [24;33] ( 28 S)
[ 6] count: 12, width: 12 us [10;14] ( 12 S)
[ 7] count: 17, width: 4 us [4;4] ( 4 S)
[ 8] count: 8, width: 15 us [14;16] ( 15 S)
[ 9] count: 8, width: 7 us [7;8] ( 7 S)
[10] count: 9, width: 40 us [36;44] ( 40 S)
[11] count: 6, width: 9 us [9;9] ( 9 S)
[12] count: 9, width: 58 us [50;68] ( 58 S)
[13] count: 4, width: 91 us [80;104] ( 91 S)
[14] count: 1, width: 224 us [224;224] ( 224 S)
Pulse period distribution:
[ 0] count: 43, width: 3 us [3;3] ( 3 S)
[ 1] count: 59, width: 4 us [4;4] ( 4 S)
[ 2] count: 85, width: 5 us [5;7] ( 5 S)
[ 3] count: 51, width: 13 us [11;16] ( 13 S)
[ 4] count: 64, width: 7 us [7;11] ( 7 S)
[ 5] count: 24, width: 19 us [17;23] ( 19 S)
[ 6] count: 12, width: 2 us [2;2] ( 2 S)
[ 7] count: 19, width: 43 us [34;51] ( 43 S)
[ 8] count: 28, width: 28 us [24;35] ( 28 S)
[ 9] count: 10, width: 61 us [57;69] ( 61 S)
[10] count: 6, width: 91 us [80;105] ( 91 S)
[11] count: 10, width: 10 us [10;10] ( 10 S)
[12] count: 1, width: 225 us [225;225] ( 225 S)
Pulse timing distribution:
[ 0] count: 1, width: 0 us [0;0] ( 0 S)
[ 1] count: 198, width: 2 us [2;2] ( 2 S)
[ 2] count: 42, width: 4 us [4;4] ( 4 S)
[ 3] count: 45, width: 10 us [9;13] ( 10 S)
[ 4] count: 95, width: 5 us [5;9] ( 5 S)
[ 5] count: 251, width: 1 us [1;1] ( 1 S)
[ 6] count: 88, width: 3 us [3;3] ( 3 S)
[ 7] count: 30, width: 18 us [15;22] ( 18 S)
[ 8] count: 9, width: 8 us [8;9] ( 8 S)
[ 9] count: 17, width: 50 us [41;62] ( 50 S)
[10] count: 6, width: 89 us [77;104] ( 89 S)
[11] count: 21, width: 26 us [23;32] ( 26 S)
[12] count: 13, width: 34 us [30;40] ( 34 S)
[13] count: 7, width: 13 us [13;14] ( 13 S)
Level estimates [high, low]: 3405, 189
RSSI: -6.8 dB SNR: 12.6 dB Noise: -19.4 dB
Frequency offsets [F1, F2]: -7269, -4586 (-110.9 kHz, -70.0 kHz)
Guessing modulation: Pulse Code Modulation (Not Return to Zero)
Attempting demodulation... short_width: 1, long_width: 1, reset_limit: 1024, sync_width: 0
Use a flex decoder with -X 'n=name,m=FSK_PCM,s=1,l=1,r=1024'
pulse_demod_pcm(): Analyzer Device
bitbuffer:: Number of rows: 1
[00] {5617} 19 e7 ff df f6 c1 00 00 18 be 7f f8 00 00 00 0e ed fe 00 00 00 9f db ff e7 00 00 00 c7 77 fb e0 00 00 46 ef ff ff 20 00 00 9e ff bb 00 0c 00 20 bf fd fb 90 02 21 0f df df c0 00 00 05 9f ff 7e 04 00 11 3b ff ff 00 00 00 06 66 ff ec 00 0c 03 0d df ff f2 18 00 01 ef f7 fc 10 00 08 83 3f dc cc 00 00 18 39 f9 f3 ff df 1b 00 00 00 00 6e e3 90 00 00 00 64 00 06 07 ff 7f ff ff ff ff ff ff bf 04 04 00 00 00 00 03 37 ef cc 00 02 00 00 00 00 02 00 08 67 ff ff ff ff ff ff ff ff ff c6 00 c4 07 ff ff fd 8c c0 00 20 00 10 7e 3c fc fb e7 f8 3c 03 06 00 00 00 00 00 00 00 04 07 73 00 00 00 00 00 00 00 00 00 00 00 00 d1 6c b3 31 d3 25 ef 00 63 41 60 00 00 00 20 00 7b ff e7 7c 3d f3 f9 e7 fe 7e df f2 00 00 00 20 63 7d 88 00 00 20 f3 f0 ec 00 00 00 03 ff dc e2 00 00 00 00 00 00 47 ff 3f 80 00 00 00 00 04 00 00 04 00 00 00 00 08 10 06 03 ff ff ff ff ff ff ff ff ff ff ff bf ff ff ff ff 20 00 41 1f ff fd f0 00 00 19 ff ff fe 44 02 0c ff bf ff f9 bf bf ff ff ff bf ff ff ff ff ff ff f7 ff ff ff ff ff ff f3 ee 3e fe 3f 3c 60 00 00 00 00 00 00 19 a7 be 00 00 00 00 00 80 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 4c de ef ee fe ff ff ff ff 30 80 00 00 00 00 00 10 f9 b8 40 00 00 00 02 00 00 00 00 00 83 3d dd ff cf fd f3 3d 37 e2 ec f7 ed 90 00 00 00 00 00 00 00 30 01 e7 93 7e 7c 7f 71 cc 00 00 00 27 ff 6f ef ff ff ff ef ef 0c 00 18 c7 7f ff fb 72 08 80 00 00 08 11 ff ff ff fb ff fe 60 00 00 4c fd ff ce 00 00 01 ff 7f f9 70 00 00 00 00 00 00 00 40 00 00 01 00 00 00 30 00 00 00 00 00 00 00 00 00 08 1f ff ff ff ff ff 8c 00 00 04 8c ff fb ff ff ff ff bd fe 30 80 00 00 00 00 00 00 00 04 00 00 00 00 00 00 00 00 00 00 00 00 02 09 f7 ff f9 ff df ee 00 00 06 1b ff ff ff ff ff ce 00 80 01 9f f7 fe 06 00 03 1f ff fb ff 22 00 00 73 ff ff ff ff fe e0 00 00 00 00 00 00 00 00 00 00 20 00 00 00 00 02 7f 7e fb 00 00 03 0f dc ff c4 20 00 01 c7 ff bf 40 00 00 06 fe ff ac 40 00 23 ff ff fe ec 00 0c 13 fd ff ff fd ef e4 c0 00 00 00 00 00 00 02 10 00 00 00 00 00 00 0c 01 ff ef f7 ff fe 7f e7 ff c7 bf f3 ce 40 00 02 0f bf 7f df 02 02 08 3f ff f7 21 00 02 00 d7 fd 8b 00 00 00 00 01 1e 00
Detected FSK package 2022-06-01 20:42:52
Do note that the system general overview and information (using web servers is here: https://github.com/sarnau/MMMMobileAlerts) i also have the serial number/qr code and I believe they may be part of the encription.
That looks way too noisy. Llikely too "loud", hard to say without a sample. You never want to see pulses shorten than 10 or even 20 us.
ok, any ideas how I could improve the signal??
I mean, I can put the adapter closer, I can also put it farther away... I can remove batteries and put them back on to force a signal.
Or should I turn off the different adapters and just work with 1 at the time ? My goal would be to get the 3 differnt adapters I have workin : MA10100 MA10200 MA10350
Hi, I am looking for help on the integration of a TFA device (see this issue https://github.com/merbanan/rtl_433/issues/1693#issuecomment-1328085878 ). What is interesting here is that the device has a QR code which includes MA10100 as information. So there might be some relation between these devices. I have added some signal files to the other issue.
Hi, I am looking for help on the integration of a TFA device (see this issue #1693 (comment) ). What is interesting here is that the device has a QR code which includes MA10100 as information. So there might be some relation between these devices. I have added some signal files to the other issue.
Indeed MA10100 seems as a similar device group! see here : https://github.com/sarnau/MMMMobileAlerts/blob/master/MobileAlertsDevices.markdown
I decode the Mobile Alerts using the linked repository. Can be used as a reference for all the demodulator and formats required.
https://github.com/baycom/tfrec
