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Author SHA1 Message Date
Aiden
296709e6ff run 4 2026-05-14 02:31:15 +10:00
Aiden
6ffef616c2 run 3 2026-05-14 02:31:08 +10:00
Aiden
b07d5aca5b Update discovery-notes.md 2026-05-14 01:58:18 +10:00
Aiden
afdd93bd07 run 1 2026-05-14 01:55:36 +10:00
18 changed files with 1593 additions and 0 deletions
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88
captures/he39-mixer-41-45-49-20d0.txt Normal file
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Sequence probe: 3 frames x 10 group(s) on COM5 at 38400 8N1
FRAME 1: 00 00 41 20 D0 EB
FRAME 2: 00 00 45 20 D0 EF
FRAME 3: 00 00 49 20 D0 E3
BASELINE heartbeat-compatible RX: 18 bytes, offset 0, 3 frames + 0 bytes
BEGIN group 1/10
01:48:26.995 TX group=1 frame=1 len=006 00 00 41 20 D0 EB
01:48:26.995 RX group=1 frame=1 no RX bytes
01:48:27.811 TX group=1 frame=2 len=006 00 00 45 20 D0 EF
01:48:27.811 RX group=1 frame=2 ANOMALY 18 RX bytes; first mismatch at byte 12: got 07, heartbeat offset 0 expected 00
01:48:27.811 RX group=1 frame=2 raw 00 00 00 00 80 DA 00 00 00 00 80 DA 07 80 51 24 DD 75
01:48:28.627 TX group=1 frame=3 len=006 00 00 49 20 D0 E3
01:48:28.627 RX group=1 frame=3 ANOMALY 24 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 0 expected 00
01:48:28.627 RX group=1 frame=3 raw 07 80 51 24 DD 75 07 80 51 24 DD 75 07 80 51 24 DD 75 00 00 00 00 80 DA
GROUP 1 TAIL heartbeat-compatible RX: 19 bytes, offset 0, 3 frames + 1 bytes
BEGIN group 2/10
01:48:29.663 TX group=2 frame=1 len=006 00 00 41 20 D0 EB
01:48:29.663 RX group=2 frame=1 heartbeat-compatible RX: 11 bytes, offset 1, 1 frames + 5 bytes
01:48:30.476 TX group=2 frame=2 len=006 00 00 45 20 D0 EF
01:48:30.476 RX group=2 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:31.292 TX group=2 frame=3 len=006 00 00 49 20 D0 E3
01:48:31.292 RX group=2 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 2 TAIL heartbeat-compatible RX: 19 bytes, offset 0, 3 frames + 1 bytes
BEGIN group 3/10
01:48:32.327 TX group=3 frame=1 len=006 00 00 41 20 D0 EB
01:48:32.327 RX group=3 frame=1 heartbeat-compatible RX: 11 bytes, offset 1, 1 frames + 5 bytes
01:48:33.142 TX group=3 frame=2 len=006 00 00 45 20 D0 EF
01:48:33.142 RX group=3 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:33.956 TX group=3 frame=3 len=006 00 00 49 20 D0 E3
01:48:33.956 RX group=3 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 3 TAIL heartbeat-compatible RX: 19 bytes, offset 0, 3 frames + 1 bytes
BEGIN group 4/10
01:48:34.992 TX group=4 frame=1 len=006 00 00 41 20 D0 EB
01:48:34.992 RX group=4 frame=1 heartbeat-compatible RX: 11 bytes, offset 1, 1 frames + 5 bytes
01:48:35.806 TX group=4 frame=2 len=006 00 00 45 20 D0 EF
01:48:35.806 RX group=4 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:36.620 TX group=4 frame=3 len=006 00 00 49 20 D0 E3
01:48:36.620 RX group=4 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 4 TAIL heartbeat-compatible RX: 19 bytes, offset 0, 3 frames + 1 bytes
BEGIN group 5/10
01:48:37.655 TX group=5 frame=1 len=006 00 00 41 20 D0 EB
01:48:37.655 RX group=5 frame=1 heartbeat-compatible RX: 11 bytes, offset 1, 1 frames + 5 bytes
01:48:38.470 TX group=5 frame=2 len=006 00 00 45 20 D0 EF
01:48:38.470 RX group=5 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:39.284 TX group=5 frame=3 len=006 00 00 49 20 D0 E3
01:48:39.284 RX group=5 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 5 TAIL heartbeat-compatible RX: 19 bytes, offset 0, 3 frames + 1 bytes
BEGIN group 6/10
01:48:40.321 TX group=6 frame=1 len=006 00 00 41 20 D0 EB
01:48:40.321 RX group=6 frame=1 heartbeat-compatible RX: 11 bytes, offset 1, 1 frames + 5 bytes
01:48:41.135 TX group=6 frame=2 len=006 00 00 45 20 D0 EF
01:48:41.135 RX group=6 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:41.948 TX group=6 frame=3 len=006 00 00 49 20 D0 E3
01:48:41.948 RX group=6 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 6 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
BEGIN group 7/10
01:48:42.988 TX group=7 frame=1 len=006 00 00 41 20 D0 EB
01:48:42.988 RX group=7 frame=1 heartbeat-compatible RX: 6 bytes, offset 0, 1 frames + 0 bytes
01:48:43.800 TX group=7 frame=2 len=006 00 00 45 20 D0 EF
01:48:43.800 RX group=7 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:44.614 TX group=7 frame=3 len=006 00 00 49 20 D0 E3
01:48:44.614 RX group=7 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 7 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
BEGIN group 8/10
01:48:45.654 TX group=8 frame=1 len=006 00 00 41 20 D0 EB
01:48:45.654 RX group=8 frame=1 heartbeat-compatible RX: 6 bytes, offset 0, 1 frames + 0 bytes
01:48:46.467 TX group=8 frame=2 len=006 00 00 45 20 D0 EF
01:48:46.467 RX group=8 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:47.281 TX group=8 frame=3 len=006 00 00 49 20 D0 E3
01:48:47.281 RX group=8 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 8 TAIL heartbeat-compatible RX: 19 bytes, offset 0, 3 frames + 1 bytes
BEGIN group 9/10
01:48:48.318 TX group=9 frame=1 len=006 00 00 41 20 D0 EB
01:48:48.318 RX group=9 frame=1 heartbeat-compatible RX: 11 bytes, offset 1, 1 frames + 5 bytes
01:48:49.134 TX group=9 frame=2 len=006 00 00 45 20 D0 EF
01:48:49.134 RX group=9 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:49.946 TX group=9 frame=3 len=006 00 00 49 20 D0 E3
01:48:49.946 RX group=9 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 9 TAIL heartbeat-compatible RX: 19 bytes, offset 0, 3 frames + 1 bytes
BEGIN group 10/10
01:48:50.981 TX group=10 frame=1 len=006 00 00 41 20 D0 EB
01:48:50.981 RX group=10 frame=1 heartbeat-compatible RX: 11 bytes, offset 1, 1 frames + 5 bytes
01:48:51.796 TX group=10 frame=2 len=006 00 00 45 20 D0 EF
01:48:51.796 RX group=10 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:48:52.610 TX group=10 frame=3 len=006 00 00 49 20 D0 E3
01:48:52.610 RX group=10 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 10 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
Anomalies: 2

95
captures/he39-mixer-50band-wide-20d0.txt Normal file
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Sequence probe: 6 frames x 6 group(s) on COM5 at 38400 8N1
FRAME 1: 00 00 41 20 D0 EB
FRAME 2: 00 00 45 20 D0 EF
FRAME 3: 00 00 49 20 D0 E3
FRAME 4: 00 00 4D 20 D0 E7
FRAME 5: 00 00 59 20 D0 F3
FRAME 6: 00 00 5D 20 D0 F7
BASELINE heartbeat-compatible RX: 18 bytes, offset 0, 3 frames + 0 bytes
BEGIN group 1/6
01:49:04.455 TX group=1 frame=1 len=006 00 00 41 20 D0 EB
01:49:04.455 RX group=1 frame=1 heartbeat-compatible RX: 6 bytes, offset 0, 1 frames + 0 bytes
01:49:05.270 TX group=1 frame=2 len=006 00 00 45 20 D0 EF
01:49:05.270 RX group=1 frame=2 ANOMALY 24 RX bytes; first mismatch at byte 12: got 07, heartbeat offset 0 expected 00
01:49:05.270 RX group=1 frame=2 raw 00 00 00 00 80 DA 00 00 00 00 80 DA 07 80 51 24 DD 75 07 80 51 24 DD 75
01:49:06.090 TX group=1 frame=3 len=006 00 00 49 20 D0 E3
01:49:06.090 RX group=1 frame=3 ANOMALY 18 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 0 expected 00
01:49:06.090 RX group=1 frame=3 raw 07 80 51 24 DD 75 07 80 51 24 DD 75 00 00 00 00 80 DA
01:49:06.905 TX group=1 frame=4 len=006 00 00 4D 20 D0 E7
01:49:06.905 RX group=1 frame=4 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:07.719 TX group=1 frame=5 len=006 00 00 59 20 D0 F3
01:49:07.719 RX group=1 frame=5 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:08.534 TX group=1 frame=6 len=006 00 00 5D 20 D0 F7
01:49:08.534 RX group=1 frame=6 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 1 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
BEGIN group 2/6
01:49:09.755 TX group=2 frame=1 len=006 00 00 41 20 D0 EB
01:49:09.755 RX group=2 frame=1 heartbeat-compatible RX: 6 bytes, offset 0, 1 frames + 0 bytes
01:49:10.567 TX group=2 frame=2 len=006 00 00 45 20 D0 EF
01:49:10.567 RX group=2 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:11.381 TX group=2 frame=3 len=006 00 00 49 20 D0 E3
01:49:11.381 RX group=2 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:12.195 TX group=2 frame=4 len=006 00 00 4D 20 D0 E7
01:49:12.195 RX group=2 frame=4 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:13.027 TX group=2 frame=5 len=006 00 00 59 20 D0 F3
01:49:13.027 RX group=2 frame=5 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:13.841 TX group=2 frame=6 len=006 00 00 5D 20 D0 F7
01:49:13.841 RX group=2 frame=6 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 2 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
BEGIN group 3/6
01:49:15.058 TX group=3 frame=1 len=006 00 00 41 20 D0 EB
01:49:15.058 RX group=3 frame=1 heartbeat-compatible RX: 6 bytes, offset 0, 1 frames + 0 bytes
01:49:15.873 TX group=3 frame=2 len=006 00 00 45 20 D0 EF
01:49:15.873 RX group=3 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:16.687 TX group=3 frame=3 len=006 00 00 49 20 D0 E3
01:49:16.687 RX group=3 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:17.501 TX group=3 frame=4 len=006 00 00 4D 20 D0 E7
01:49:17.501 RX group=3 frame=4 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:18.316 TX group=3 frame=5 len=006 00 00 59 20 D0 F3
01:49:18.316 RX group=3 frame=5 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:19.129 TX group=3 frame=6 len=006 00 00 5D 20 D0 F7
01:49:19.129 RX group=3 frame=6 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 3 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
BEGIN group 4/6
01:49:20.344 TX group=4 frame=1 len=006 00 00 41 20 D0 EB
01:49:20.344 RX group=4 frame=1 heartbeat-compatible RX: 6 bytes, offset 0, 1 frames + 0 bytes
01:49:21.160 TX group=4 frame=2 len=006 00 00 45 20 D0 EF
01:49:21.160 RX group=4 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:21.976 TX group=4 frame=3 len=006 00 00 49 20 D0 E3
01:49:21.976 RX group=4 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:22.790 TX group=4 frame=4 len=006 00 00 4D 20 D0 E7
01:49:22.790 RX group=4 frame=4 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:23.605 TX group=4 frame=5 len=006 00 00 59 20 D0 F3
01:49:23.605 RX group=4 frame=5 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:24.419 TX group=4 frame=6 len=006 00 00 5D 20 D0 F7
01:49:24.419 RX group=4 frame=6 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 4 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
BEGIN group 5/6
01:49:25.639 TX group=5 frame=1 len=006 00 00 41 20 D0 EB
01:49:25.639 RX group=5 frame=1 heartbeat-compatible RX: 6 bytes, offset 0, 1 frames + 0 bytes
01:49:26.454 TX group=5 frame=2 len=006 00 00 45 20 D0 EF
01:49:26.454 RX group=5 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:27.267 TX group=5 frame=3 len=006 00 00 49 20 D0 E3
01:49:27.267 RX group=5 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:28.082 TX group=5 frame=4 len=006 00 00 4D 20 D0 E7
01:49:28.082 RX group=5 frame=4 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:28.896 TX group=5 frame=5 len=006 00 00 59 20 D0 F3
01:49:28.896 RX group=5 frame=5 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:29.711 TX group=5 frame=6 len=006 00 00 5D 20 D0 F7
01:49:29.711 RX group=5 frame=6 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 5 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
BEGIN group 6/6
01:49:30.924 TX group=6 frame=1 len=006 00 00 41 20 D0 EB
01:49:30.924 RX group=6 frame=1 heartbeat-compatible RX: 6 bytes, offset 0, 1 frames + 0 bytes
01:49:31.737 TX group=6 frame=2 len=006 00 00 45 20 D0 EF
01:49:31.737 RX group=6 frame=2 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:32.552 TX group=6 frame=3 len=006 00 00 49 20 D0 E3
01:49:32.552 RX group=6 frame=3 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:33.366 TX group=6 frame=4 len=006 00 00 4D 20 D0 E7
01:49:33.366 RX group=6 frame=4 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:34.180 TX group=6 frame=5 len=006 00 00 59 20 D0 F3
01:49:34.180 RX group=6 frame=5 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:49:34.994 TX group=6 frame=6 len=006 00 00 5D 20 D0 F7
01:49:34.994 RX group=6 frame=6 heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
GROUP 6 TAIL heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
Anomalies: 2

133
captures/he39-repeat-cmd01-20d0-control.txt Normal file
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Listening on COM5 at 38400 8N1; will send 00 00 01 20 D0 AB after 3.0s
01:49:44.052 RX 006 bytes 00 00 00 00 80 DA
01:49:44.760 RX 006 bytes 00 00 00 00 80 DA
01:49:45.417 RX 001 bytes 00
01:49:45.467 RX 005 bytes 00 00 00 80 DA
01:49:46.123 RX 001 bytes 00
01:49:46.173 RX 005 bytes 00 00 00 80 DA
01:49:46.827 RX 001 bytes 00
01:49:46.878 RX 005 bytes 00 00 00 80 DA
01:49:46.979 TX frame 006 00 00 01 20 D0 AB
01:49:47.533 RX 006 bytes 00 00 00 00 80 DA
01:49:47.584 TX frame 006 00 00 01 20 D0 AB
01:49:47.635 RX 006 bytes 07 80 40 24 DD 64
01:49:47.788 RX 006 bytes 07 80 40 24 DD 64
01:49:48.040 RX 006 bytes 07 80 40 24 DD 64
01:49:48.241 TX frame 006 00 00 01 20 D0 AB
01:49:48.292 RX 006 bytes 00 00 00 00 80 DA
01:49:48.545 RX 006 bytes 00 00 00 00 80 DA
01:49:48.798 RX 006 bytes 00 00 00 00 80 DA
01:49:48.849 TX frame 006 00 00 01 20 D0 AB
01:49:48.899 RX 006 bytes 00 00 00 00 80 DA
01:49:49.151 RX 006 bytes 00 00 00 00 80 DA
01:49:49.403 RX 006 bytes 00 00 00 00 80 DA
01:49:49.504 TX frame 006 00 00 01 20 D0 AB
01:49:49.555 RX 006 bytes 00 00 00 00 80 DA
01:49:49.807 RX 006 bytes 00 00 00 00 80 DA
01:49:50.058 RX 006 bytes 00 00 00 00 80 DA
01:49:50.109 TX frame 006 00 00 01 20 D0 AB
01:49:50.160 RX 006 bytes 00 00 00 00 80 DA
01:49:50.412 RX 006 bytes 00 00 00 00 80 DA
01:49:50.664 RX 006 bytes 00 00 00 00 80 DA
01:49:50.714 TX frame 006 00 00 01 20 D0 AB
01:49:50.764 RX 006 bytes 00 00 00 00 80 DA
01:49:51.017 RX 006 bytes 00 00 00 00 80 DA
01:49:51.270 RX 006 bytes 00 00 00 00 80 DA
01:49:51.320 TX frame 006 00 00 01 20 D0 AB
01:49:51.371 RX 006 bytes 00 00 00 00 80 DA
01:49:51.623 RX 006 bytes 00 00 00 00 80 DA
01:49:51.876 RX 006 bytes 00 00 00 00 80 DA
01:49:51.927 TX frame 006 00 00 01 20 D0 AB
01:49:51.977 RX 006 bytes 00 00 00 00 80 DA
01:49:52.230 RX 006 bytes 00 00 00 00 80 DA
01:49:52.483 RX 006 bytes 00 00 00 00 80 DA
01:49:52.585 TX frame 006 00 00 01 20 D0 AB
01:49:52.635 RX 006 bytes 00 00 00 00 80 DA
01:49:52.888 RX 006 bytes 00 00 00 00 80 DA
01:49:53.141 RX 006 bytes 00 00 00 00 80 DA
01:49:53.242 TX frame 006 00 00 01 20 D0 AB
01:49:53.294 RX 006 bytes 00 00 00 00 80 DA
01:49:53.545 RX 006 bytes 00 00 00 00 80 DA
01:49:53.798 RX 006 bytes 00 00 00 00 80 DA
01:49:53.849 TX frame 006 00 00 01 20 D0 AB
01:49:53.899 RX 006 bytes 00 00 00 00 80 DA
01:49:54.151 RX 006 bytes 00 00 00 00 80 DA
01:49:54.404 RX 006 bytes 00 00 00 00 80 DA
01:49:54.505 TX frame 006 00 00 01 20 D0 AB
01:49:54.556 RX 006 bytes 00 00 00 00 80 DA
01:49:54.807 RX 006 bytes 00 00 00 00 80 DA
01:49:55.061 RX 006 bytes 00 00 00 00 80 DA
01:49:55.162 TX frame 006 00 00 01 20 D0 AB
01:49:55.214 RX 006 bytes 00 00 00 00 80 DA
01:49:55.466 RX 006 bytes 00 00 00 00 80 DA
01:49:55.718 RX 006 bytes 00 00 00 00 80 DA
01:49:55.770 TX frame 006 00 00 01 20 D0 AB
01:49:55.821 RX 006 bytes 00 00 00 00 80 DA
01:49:56.073 RX 006 bytes 00 00 00 00 80 DA
01:49:56.325 RX 006 bytes 00 00 00 00 80 DA
01:49:56.425 TX frame 006 00 00 01 20 D0 AB
01:49:56.476 RX 006 bytes 00 00 00 00 80 DA
01:49:56.729 RX 006 bytes 00 00 00 00 80 DA
01:49:56.981 RX 006 bytes 00 00 00 00 80 DA
01:49:57.031 TX frame 006 00 00 01 20 D0 AB
01:49:57.082 RX 006 bytes 00 00 00 00 80 DA
01:49:57.335 RX 006 bytes 00 00 00 00 80 DA
01:49:57.588 RX 006 bytes 00 00 00 00 80 DA
01:49:57.638 TX frame 006 00 00 01 20 D0 AB
01:49:57.689 RX 006 bytes 00 00 00 00 80 DA
01:49:57.942 RX 006 bytes 00 00 00 00 80 DA
01:49:58.194 RX 006 bytes 00 00 00 00 80 DA
01:49:58.245 TX frame 006 00 00 01 20 D0 AB
01:49:58.296 RX 006 bytes 00 00 00 00 80 DA
01:49:58.548 RX 006 bytes 00 00 00 00 80 DA
01:49:58.801 RX 006 bytes 00 00 00 00 80 DA
01:49:58.852 TX frame 006 00 00 01 20 D0 AB
01:49:58.902 RX 006 bytes 00 00 00 00 80 DA
01:49:59.154 RX 006 bytes 00 00 00 00 80 DA
01:49:59.406 RX 006 bytes 00 00 00 00 80 DA
01:49:59.507 TX frame 006 00 00 01 20 D0 AB
01:49:59.559 RX 006 bytes 00 00 00 00 80 DA
01:49:59.811 RX 006 bytes 00 00 00 00 80 DA
01:50:00.063 RX 006 bytes 00 00 00 00 80 DA
01:50:00.165 TX frame 006 00 00 01 20 D0 AB
01:50:00.215 RX 006 bytes 00 00 00 00 80 DA
01:50:00.467 RX 006 bytes 00 00 00 00 80 DA
01:50:00.719 RX 006 bytes 00 00 00 00 80 DA
01:50:00.819 TX frame 006 00 00 01 20 D0 AB
01:50:00.870 RX 006 bytes 00 00 00 00 80 DA
01:50:01.124 RX 006 bytes 00 00 00 00 80 DA
01:50:01.376 RX 006 bytes 00 00 00 00 80 DA
01:50:01.477 TX frame 006 00 00 01 20 D0 AB
01:50:01.527 RX 006 bytes 00 00 00 00 80 DA
01:50:01.779 RX 006 bytes 00 00 00 00 80 DA
01:50:02.031 RX 006 bytes 00 00 00 00 80 DA
01:50:02.132 TX frame 006 00 00 01 20 D0 AB
01:50:02.183 RX 006 bytes 00 00 00 00 80 DA
01:50:02.435 RX 006 bytes 00 00 00 00 80 DA
01:50:02.687 RX 006 bytes 00 00 00 00 80 DA
01:50:02.788 TX frame 006 00 00 01 20 D0 AB
01:50:02.839 RX 006 bytes 00 00 00 00 80 DA
01:50:03.092 RX 006 bytes 00 00 00 00 80 DA
01:50:03.344 RX 006 bytes 00 00 00 00 80 DA
01:50:03.445 TX frame 006 00 00 01 20 D0 AB
01:50:03.495 RX 006 bytes 00 00 00 00 80 DA
01:50:03.747 RX 006 bytes 00 00 00 00 80 DA
01:50:04.000 RX 006 bytes 00 00 00 00 80 DA
01:50:04.101 TX frame 006 00 00 01 20 D0 AB
01:50:04.152 RX 006 bytes 00 00 00 00 80 DA
01:50:04.404 RX 006 bytes 00 00 00 00 80 DA
01:50:04.656 RX 006 bytes 00 00 00 00 80 DA
01:50:04.757 TX frame 006 00 00 01 20 D0 AB
01:50:04.807 RX 006 bytes 00 00 00 00 80 DA
01:50:05.060 RX 006 bytes 00 00 00 00 80 DA
01:50:05.313 RX 006 bytes 00 00 00 00 80 DA
01:50:05.413 TX frame 006 00 00 01 20 D0 AB
01:50:05.464 RX 006 bytes 00 00 00 00 80 DA
01:50:05.716 RX 006 bytes 00 00 00 00 80 DA
01:50:05.970 RX 006 bytes 00 00 00 00 80 DA
01:50:06.222 RX 006 bytes 00 00 00 00 80 DA
01:50:06.474 RX 006 bytes 00 00 00 00 80 DA
01:50:06.726 RX 006 bytes 00 00 00 00 80 DA
01:50:06.978 RX 006 bytes 00 00 00 00 80 DA
01:50:07.231 RX 006 bytes 00 00 00 00 80 DA
01:50:07.838 RX 006 bytes 00 00 00 00 80 DA

133
captures/he39-repeat-cmd41-20d0.txt Normal file
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Listening on COM5 at 38400 8N1; will send 00 00 41 20 D0 EB after 3.0s
01:46:38.728 RX 001 bytes 00
01:46:38.779 RX 005 bytes 00 00 00 80 DA
01:46:39.436 RX 001 bytes 00
01:46:39.487 RX 005 bytes 00 00 00 80 DA
01:46:40.143 RX 006 bytes 00 00 00 00 80 DA
01:46:40.850 RX 006 bytes 00 00 00 00 80 DA
01:46:41.456 TX frame 006 00 00 41 20 D0 EB
01:46:41.558 RX 006 bytes 00 00 00 00 80 DA
01:46:41.811 RX 006 bytes 00 00 00 00 80 DA
01:46:42.064 RX 006 bytes 00 00 00 00 80 DA
01:46:42.064 TX frame 006 00 00 41 20 D0 EB
01:46:42.114 RX 006 bytes 07 80 50 24 DD 74
01:46:42.317 RX 006 bytes 07 80 50 24 DD 74
01:46:42.569 RX 006 bytes 07 80 50 24 DD 74
01:46:42.669 TX frame 006 00 00 41 20 D0 EB
01:46:42.720 RX 006 bytes 00 00 00 00 80 DA
01:46:42.973 RX 006 bytes 00 00 00 00 80 DA
01:46:43.224 RX 006 bytes 00 00 00 00 80 DA
01:46:43.275 TX frame 006 00 00 41 20 D0 EB
01:46:43.325 RX 006 bytes 00 00 00 00 80 DA
01:46:43.577 RX 006 bytes 00 00 00 00 80 DA
01:46:43.830 RX 006 bytes 00 00 00 00 80 DA
01:46:43.930 TX frame 006 00 00 41 20 D0 EB
01:46:43.980 RX 006 bytes 00 00 00 00 80 DA
01:46:44.233 RX 006 bytes 00 00 00 00 80 DA
01:46:44.485 RX 006 bytes 00 00 00 00 80 DA
01:46:44.586 TX frame 006 00 00 41 20 D0 EB
01:46:44.637 RX 006 bytes 00 00 00 00 80 DA
01:46:44.890 RX 006 bytes 00 00 00 00 80 DA
01:46:45.142 RX 006 bytes 00 00 00 00 80 DA
01:46:45.242 TX frame 006 00 00 41 20 D0 EB
01:46:45.293 RX 006 bytes 00 00 00 00 80 DA
01:46:45.546 RX 006 bytes 00 00 00 00 80 DA
01:46:45.799 RX 006 bytes 00 00 00 00 80 DA
01:46:45.850 TX frame 006 00 00 41 20 D0 EB
01:46:45.900 RX 006 bytes 00 00 00 00 80 DA
01:46:46.154 RX 006 bytes 00 00 00 00 80 DA
01:46:46.405 RX 006 bytes 00 00 00 00 80 DA
01:46:46.506 TX frame 006 00 00 41 20 D0 EB
01:46:46.557 RX 006 bytes 00 00 00 00 80 DA
01:46:46.811 RX 006 bytes 00 00 00 00 80 DA
01:46:47.064 RX 006 bytes 00 00 00 00 80 DA
01:46:47.115 TX frame 006 00 00 41 20 D0 EB
01:46:47.166 RX 006 bytes 00 00 00 00 80 DA
01:46:47.420 RX 006 bytes 00 00 00 00 80 DA
01:46:47.673 RX 006 bytes 00 00 00 00 80 DA
01:46:47.774 TX frame 006 00 00 41 20 D0 EB
01:46:47.825 RX 006 bytes 00 00 00 00 80 DA
01:46:48.078 RX 006 bytes 00 00 00 00 80 DA
01:46:48.329 RX 006 bytes 00 00 00 00 80 DA
01:46:48.431 TX frame 006 00 00 41 20 D0 EB
01:46:48.482 RX 006 bytes 00 00 00 00 80 DA
01:46:48.733 RX 006 bytes 00 00 00 00 80 DA
01:46:48.985 RX 006 bytes 00 00 00 00 80 DA
01:46:49.086 TX frame 006 00 00 41 20 D0 EB
01:46:49.137 RX 006 bytes 00 00 00 00 80 DA
01:46:49.388 RX 006 bytes 00 00 00 00 80 DA
01:46:49.641 RX 006 bytes 00 00 00 00 80 DA
01:46:49.743 TX frame 006 00 00 41 20 D0 EB
01:46:49.794 RX 006 bytes 00 00 00 00 80 DA
01:46:50.046 RX 006 bytes 00 00 00 00 80 DA
01:46:50.298 RX 006 bytes 00 00 00 00 80 DA
01:46:50.399 TX frame 006 00 00 41 20 D0 EB
01:46:50.451 RX 006 bytes 00 00 00 00 80 DA
01:46:50.704 RX 006 bytes 00 00 00 00 80 DA
01:46:50.957 RX 006 bytes 00 00 00 00 80 DA
01:46:51.007 TX frame 006 00 00 41 20 D0 EB
01:46:51.057 RX 006 bytes 00 00 00 00 80 DA
01:46:51.310 RX 006 bytes 00 00 00 00 80 DA
01:46:51.563 RX 006 bytes 00 00 00 00 80 DA
01:46:51.664 TX frame 006 00 00 41 20 D0 EB
01:46:51.714 RX 006 bytes 00 00 00 00 80 DA
01:46:51.968 RX 006 bytes 00 00 00 00 80 DA
01:46:52.219 RX 006 bytes 00 00 00 00 80 DA
01:46:52.320 TX frame 006 00 00 41 20 D0 EB
01:46:52.371 RX 006 bytes 00 00 00 00 80 DA
01:46:52.622 RX 006 bytes 00 00 00 00 80 DA
01:46:52.875 RX 006 bytes 00 00 00 00 80 DA
01:46:52.975 TX frame 006 00 00 41 20 D0 EB
01:46:53.025 RX 006 bytes 00 00 00 00 80 DA
01:46:53.277 RX 006 bytes 00 00 00 00 80 DA
01:46:53.529 RX 006 bytes 00 00 00 00 80 DA
01:46:53.630 TX frame 006 00 00 41 20 D0 EB
01:46:53.680 RX 006 bytes 00 00 00 00 80 DA
01:46:53.933 RX 006 bytes 00 00 00 00 80 DA
01:46:54.184 RX 006 bytes 00 00 00 00 80 DA
01:46:54.235 TX frame 006 00 00 41 20 D0 EB
01:46:54.285 RX 006 bytes 00 00 00 00 80 DA
01:46:54.538 RX 006 bytes 00 00 00 00 80 DA
01:46:54.791 RX 006 bytes 00 00 00 00 80 DA
01:46:54.841 TX frame 006 00 00 41 20 D0 EB
01:46:54.892 RX 006 bytes 00 00 00 00 80 DA
01:46:55.144 RX 006 bytes 00 00 00 00 80 DA
01:46:55.396 RX 006 bytes 00 00 00 00 80 DA
01:46:55.447 TX frame 006 00 00 41 20 D0 EB
01:46:55.497 RX 006 bytes 00 00 00 00 80 DA
01:46:55.749 RX 006 bytes 00 00 00 00 80 DA
01:46:56.002 RX 006 bytes 00 00 00 00 80 DA
01:46:56.102 TX frame 006 00 00 41 20 D0 EB
01:46:56.153 RX 006 bytes 00 00 00 00 80 DA
01:46:56.405 RX 006 bytes 00 00 00 00 80 DA
01:46:56.658 RX 006 bytes 00 00 00 00 80 DA
01:46:56.759 TX frame 006 00 00 41 20 D0 EB
01:46:56.810 RX 006 bytes 00 00 00 00 80 DA
01:46:57.061 RX 006 bytes 00 00 00 00 80 DA
01:46:57.314 RX 006 bytes 00 00 00 00 80 DA
01:46:57.415 TX frame 006 00 00 41 20 D0 EB
01:46:57.466 RX 006 bytes 00 00 00 00 80 DA
01:46:57.719 RX 006 bytes 00 00 00 00 80 DA
01:46:57.971 RX 006 bytes 00 00 00 00 80 DA
01:46:58.022 TX frame 006 00 00 41 20 D0 EB
01:46:58.073 RX 006 bytes 00 00 00 00 80 DA
01:46:58.325 RX 006 bytes 00 00 00 00 80 DA
01:46:58.578 RX 006 bytes 00 00 00 00 80 DA
01:46:58.680 TX frame 006 00 00 41 20 D0 EB
01:46:58.731 RX 006 bytes 00 00 00 00 80 DA
01:46:58.983 RX 006 bytes 00 00 00 00 80 DA
01:46:59.235 RX 006 bytes 00 00 00 00 80 DA
01:46:59.336 TX frame 006 00 00 41 20 D0 EB
01:46:59.386 RX 006 bytes 00 00 00 00 80 DA
01:46:59.639 RX 006 bytes 00 00 00 00 80 DA
01:46:59.892 RX 006 bytes 00 00 00 00 80 DA
01:46:59.993 TX frame 006 00 00 41 20 D0 EB
01:47:00.043 RX 006 bytes 00 00 00 00 80 DA
01:47:00.295 RX 006 bytes 00 00 00 00 80 DA
01:47:00.547 RX 006 bytes 00 00 00 00 80 DA
01:47:00.801 RX 006 bytes 00 00 00 00 80 DA
01:47:01.053 RX 006 bytes 00 00 00 00 80 DA
01:47:01.306 RX 006 bytes 00 00 00 00 80 DA
01:47:01.559 RX 006 bytes 00 00 00 00 80 DA
01:47:01.811 RX 006 bytes 00 00 00 00 80 DA
01:47:02.466 RX 006 bytes 00 00 00 00 80 DA

130
captures/he39-repeat-cmd45-20d0.txt Normal file
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@@ -0,0 +1,130 @@
Listening on COM5 at 38400 8N1; will send 00 00 45 20 D0 EF after 3.0s
01:47:13.300 RX 006 bytes 00 00 00 00 80 DA
01:47:14.008 RX 006 bytes 00 00 00 00 80 DA
01:47:14.715 RX 006 bytes 00 00 00 00 80 DA
01:47:15.422 RX 006 bytes 00 00 00 00 80 DA
01:47:16.128 RX 006 bytes 00 00 00 00 80 DA
01:47:16.179 TX frame 006 00 00 45 20 D0 EF
01:47:16.784 TX frame 006 00 00 45 20 D0 EF
01:47:16.835 RX 012 bytes 07 80 51 24 DD 75 00 00 00 00 80 DA
01:47:17.087 RX 006 bytes 00 00 00 00 80 DA
01:47:17.339 RX 006 bytes 00 00 00 00 80 DA
01:47:17.390 TX frame 006 00 00 45 20 D0 EF
01:47:17.443 RX 006 bytes 00 00 00 00 80 DA
01:47:17.695 RX 006 bytes 00 00 00 00 80 DA
01:47:17.948 RX 006 bytes 00 00 00 00 80 DA
01:47:17.999 TX frame 006 00 00 45 20 D0 EF
01:47:18.049 RX 006 bytes 00 00 00 00 80 DA
01:47:18.300 RX 006 bytes 00 00 00 00 80 DA
01:47:18.554 RX 006 bytes 00 00 00 00 80 DA
01:47:18.605 TX frame 006 00 00 45 20 D0 EF
01:47:18.655 RX 006 bytes 00 00 00 00 80 DA
01:47:18.908 RX 006 bytes 00 00 00 00 80 DA
01:47:19.161 RX 006 bytes 00 00 00 00 80 DA
01:47:19.261 TX frame 006 00 00 45 20 D0 EF
01:47:19.312 RX 006 bytes 00 00 00 00 80 DA
01:47:19.565 RX 006 bytes 00 00 00 00 80 DA
01:47:19.818 RX 006 bytes 00 00 00 00 80 DA
01:47:19.869 TX frame 006 00 00 45 20 D0 EF
01:47:19.920 RX 006 bytes 00 00 00 00 80 DA
01:47:20.173 RX 006 bytes 00 00 00 00 80 DA
01:47:20.426 RX 006 bytes 00 00 00 00 80 DA
01:47:20.527 TX frame 006 00 00 45 20 D0 EF
01:47:20.577 RX 006 bytes 00 00 00 00 80 DA
01:47:20.829 RX 006 bytes 00 00 00 00 80 DA
01:47:21.081 RX 006 bytes 00 00 00 00 80 DA
01:47:21.181 TX frame 006 00 00 45 20 D0 EF
01:47:21.231 RX 006 bytes 00 00 00 00 80 DA
01:47:21.483 RX 006 bytes 00 00 00 00 80 DA
01:47:21.737 RX 006 bytes 00 00 00 00 80 DA
01:47:21.837 TX frame 006 00 00 45 20 D0 EF
01:47:21.889 RX 006 bytes 00 00 00 00 80 DA
01:47:22.140 RX 006 bytes 00 00 00 00 80 DA
01:47:22.393 RX 006 bytes 00 00 00 00 80 DA
01:47:22.494 TX frame 006 00 00 45 20 D0 EF
01:47:22.545 RX 006 bytes 00 00 00 00 80 DA
01:47:22.797 RX 006 bytes 00 00 00 00 80 DA
01:47:23.050 RX 006 bytes 00 00 00 00 80 DA
01:47:23.152 TX frame 006 00 00 45 20 D0 EF
01:47:23.202 RX 006 bytes 00 00 00 00 80 DA
01:47:23.454 RX 006 bytes 00 00 00 00 80 DA
01:47:23.706 RX 006 bytes 00 00 00 00 80 DA
01:47:23.807 TX frame 006 00 00 45 20 D0 EF
01:47:23.858 RX 006 bytes 00 00 00 00 80 DA
01:47:24.109 RX 006 bytes 00 00 00 00 80 DA
01:47:24.362 RX 006 bytes 00 00 00 00 80 DA
01:47:24.463 TX frame 006 00 00 45 20 D0 EF
01:47:24.513 RX 006 bytes 00 00 00 00 80 DA
01:47:24.765 RX 006 bytes 00 00 00 00 80 DA
01:47:25.017 RX 006 bytes 00 00 00 00 80 DA
01:47:25.118 TX frame 006 00 00 45 20 D0 EF
01:47:25.168 RX 006 bytes 00 00 00 00 80 DA
01:47:25.420 RX 006 bytes 00 00 00 00 80 DA
01:47:25.674 RX 006 bytes 00 00 00 00 80 DA
01:47:25.776 TX frame 006 00 00 45 20 D0 EF
01:47:25.827 RX 006 bytes 00 00 00 00 80 DA
01:47:26.080 RX 006 bytes 00 00 00 00 80 DA
01:47:26.331 RX 006 bytes 00 00 00 00 80 DA
01:47:26.432 TX frame 006 00 00 45 20 D0 EF
01:47:26.483 RX 006 bytes 00 00 00 00 80 DA
01:47:26.735 RX 006 bytes 00 00 00 00 80 DA
01:47:26.986 RX 006 bytes 00 00 00 00 80 DA
01:47:27.087 TX frame 006 00 00 45 20 D0 EF
01:47:27.138 RX 006 bytes 00 00 00 00 80 DA
01:47:27.391 RX 006 bytes 00 00 00 00 80 DA
01:47:27.644 RX 006 bytes 00 00 00 00 80 DA
01:47:27.746 TX frame 006 00 00 45 20 D0 EF
01:47:27.796 RX 006 bytes 00 00 00 00 80 DA
01:47:28.048 RX 006 bytes 00 00 00 00 80 DA
01:47:28.302 RX 006 bytes 00 00 00 00 80 DA
01:47:28.403 TX frame 006 00 00 45 20 D0 EF
01:47:28.455 RX 006 bytes 00 00 00 00 80 DA
01:47:28.706 RX 006 bytes 00 00 00 00 80 DA
01:47:28.959 RX 006 bytes 00 00 00 00 80 DA
01:47:29.010 TX frame 006 00 00 45 20 D0 EF
01:47:29.060 RX 006 bytes 00 00 00 00 80 DA
01:47:29.311 RX 006 bytes 00 00 00 00 80 DA
01:47:29.564 RX 006 bytes 00 00 00 00 80 DA
01:47:29.665 TX frame 006 00 00 45 20 D0 EF
01:47:29.716 RX 006 bytes 00 00 00 00 80 DA
01:47:29.967 RX 006 bytes 00 00 00 00 80 DA
01:47:30.220 RX 006 bytes 00 00 00 00 80 DA
01:47:30.271 TX frame 006 00 00 45 20 D0 EF
01:47:30.321 RX 006 bytes 00 00 00 00 80 DA
01:47:30.574 RX 006 bytes 00 00 00 00 80 DA
01:47:30.826 RX 006 bytes 00 00 00 00 80 DA
01:47:30.877 TX frame 006 00 00 45 20 D0 EF
01:47:30.927 RX 006 bytes 00 00 00 00 80 DA
01:47:31.180 RX 006 bytes 00 00 00 00 80 DA
01:47:31.433 RX 006 bytes 00 00 00 00 80 DA
01:47:31.484 TX frame 006 00 00 45 20 D0 EF
01:47:31.535 RX 006 bytes 00 00 00 00 80 DA
01:47:31.788 RX 006 bytes 00 00 00 00 80 DA
01:47:32.041 RX 006 bytes 00 00 00 00 80 DA
01:47:32.091 TX frame 006 00 00 45 20 D0 EF
01:47:32.141 RX 006 bytes 00 00 00 00 80 DA
01:47:32.393 RX 006 bytes 00 00 00 00 80 DA
01:47:32.645 RX 006 bytes 00 00 00 00 80 DA
01:47:32.747 TX frame 006 00 00 45 20 D0 EF
01:47:32.797 RX 006 bytes 00 00 00 00 80 DA
01:47:33.049 RX 006 bytes 00 00 00 00 80 DA
01:47:33.302 RX 006 bytes 00 00 00 00 80 DA
01:47:33.403 TX frame 006 00 00 45 20 D0 EF
01:47:33.454 RX 006 bytes 00 00 00 00 80 DA
01:47:33.706 RX 006 bytes 00 00 00 00 80 DA
01:47:33.958 RX 006 bytes 00 00 00 00 80 DA
01:47:34.058 TX frame 006 00 00 45 20 D0 EF
01:47:34.109 RX 006 bytes 00 00 00 00 80 DA
01:47:34.361 RX 006 bytes 00 00 00 00 80 DA
01:47:34.613 RX 006 bytes 00 00 00 00 80 DA
01:47:34.713 TX frame 006 00 00 45 20 D0 EF
01:47:34.764 RX 006 bytes 00 00 00 00 80 DA
01:47:35.015 RX 006 bytes 00 00 00 00 80 DA
01:47:35.268 RX 006 bytes 00 00 00 00 80 DA
01:47:35.521 RX 006 bytes 00 00 00 00 80 DA
01:47:35.773 RX 006 bytes 00 00 00 00 80 DA
01:47:36.026 RX 006 bytes 00 00 00 00 80 DA
01:47:36.279 RX 006 bytes 00 00 00 00 80 DA
01:47:36.533 RX 006 bytes 00 00 00 00 80 DA
01:47:37.191 RX 001 bytes 00
01:47:37.241 RX 005 bytes 00 00 00 80 DA

130
captures/he39-repeat-cmd49-20d0.txt Normal file
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Listening on COM5 at 38400 8N1; will send 00 00 49 20 D0 E3 after 3.0s
01:47:51.365 RX 006 bytes 00 00 00 00 80 DA
01:47:52.071 RX 006 bytes 00 00 00 00 80 DA
01:47:52.779 RX 006 bytes 00 00 00 00 80 DA
01:47:53.487 RX 006 bytes 00 00 00 00 80 DA
01:47:53.789 TX frame 006 00 00 49 20 D0 E3
01:47:54.193 RX 006 bytes 00 00 00 00 80 DA
01:47:54.395 TX frame 006 00 00 49 20 D0 E3
01:47:54.446 RX 012 bytes 07 80 52 24 DD 76 07 80 52 24 DD 76
01:47:54.700 RX 006 bytes 07 80 52 24 DD 76
01:47:54.952 RX 006 bytes 07 80 52 24 DD 76
01:47:55.002 TX frame 006 00 00 49 20 D0 E3
01:47:55.056 RX 006 bytes 00 00 00 00 80 DA
01:47:55.309 RX 006 bytes 00 00 00 00 80 DA
01:47:55.562 RX 006 bytes 00 00 00 00 80 DA
01:47:55.612 TX frame 006 00 00 49 20 D0 E3
01:47:55.663 RX 006 bytes 00 00 00 00 80 DA
01:47:55.913 RX 006 bytes 00 00 00 00 80 DA
01:47:56.166 RX 006 bytes 00 00 00 00 80 DA
01:47:56.216 TX frame 006 00 00 49 20 D0 E3
01:47:56.267 RX 006 bytes 00 00 00 00 80 DA
01:47:56.520 RX 006 bytes 00 00 00 00 80 DA
01:47:56.771 RX 006 bytes 00 00 00 00 80 DA
01:47:56.872 TX frame 006 00 00 49 20 D0 E3
01:47:56.924 RX 006 bytes 00 00 00 00 80 DA
01:47:57.176 RX 006 bytes 00 00 00 00 80 DA
01:47:57.428 RX 006 bytes 00 00 00 00 80 DA
01:47:57.529 TX frame 006 00 00 49 20 D0 E3
01:47:57.580 RX 006 bytes 00 00 00 00 80 DA
01:47:57.834 RX 006 bytes 00 00 00 00 80 DA
01:47:58.087 RX 006 bytes 00 00 00 00 80 DA
01:47:58.137 TX frame 006 00 00 49 20 D0 E3
01:47:58.188 RX 006 bytes 00 00 00 00 80 DA
01:47:58.440 RX 006 bytes 00 00 00 00 80 DA
01:47:58.692 RX 006 bytes 00 00 00 00 80 DA
01:47:58.793 TX frame 006 00 00 49 20 D0 E3
01:47:58.845 RX 006 bytes 00 00 00 00 80 DA
01:47:59.097 RX 006 bytes 00 00 00 00 80 DA
01:47:59.350 RX 006 bytes 00 00 00 00 80 DA
01:47:59.452 TX frame 006 00 00 49 20 D0 E3
01:47:59.502 RX 006 bytes 00 00 00 00 80 DA
01:47:59.756 RX 006 bytes 00 00 00 00 80 DA
01:48:00.008 RX 006 bytes 00 00 00 00 80 DA
01:48:00.109 TX frame 006 00 00 49 20 D0 E3
01:48:00.159 RX 006 bytes 00 00 00 00 80 DA
01:48:00.412 RX 006 bytes 00 00 00 00 80 DA
01:48:00.664 RX 006 bytes 00 00 00 00 80 DA
01:48:00.765 TX frame 006 00 00 49 20 D0 E3
01:48:00.815 RX 006 bytes 00 00 00 00 80 DA
01:48:01.068 RX 006 bytes 00 00 00 00 80 DA
01:48:01.320 RX 006 bytes 00 00 00 00 80 DA
01:48:01.420 TX frame 006 00 00 49 20 D0 E3
01:48:01.471 RX 006 bytes 00 00 00 00 80 DA
01:48:01.722 RX 006 bytes 00 00 00 00 80 DA
01:48:01.974 RX 006 bytes 00 00 00 00 80 DA
01:48:02.076 TX frame 006 00 00 49 20 D0 E3
01:48:02.128 RX 006 bytes 00 00 00 00 80 DA
01:48:02.380 RX 006 bytes 00 00 00 00 80 DA
01:48:02.632 RX 006 bytes 00 00 00 00 80 DA
01:48:02.684 TX frame 006 00 00 49 20 D0 E3
01:48:02.735 RX 006 bytes 00 00 00 00 80 DA
01:48:02.988 RX 006 bytes 00 00 00 00 80 DA
01:48:03.241 RX 006 bytes 00 00 00 00 80 DA
01:48:03.342 TX frame 006 00 00 49 20 D0 E3
01:48:03.393 RX 006 bytes 00 00 00 00 80 DA
01:48:03.645 RX 006 bytes 00 00 00 00 80 DA
01:48:03.898 RX 006 bytes 00 00 00 00 80 DA
01:48:03.999 TX frame 006 00 00 49 20 D0 E3
01:48:04.050 RX 006 bytes 00 00 00 00 80 DA
01:48:04.302 RX 006 bytes 00 00 00 00 80 DA
01:48:04.553 RX 006 bytes 00 00 00 00 80 DA
01:48:04.655 TX frame 006 00 00 49 20 D0 E3
01:48:04.706 RX 006 bytes 00 00 00 00 80 DA
01:48:04.958 RX 006 bytes 00 00 00 00 80 DA
01:48:05.210 RX 006 bytes 00 00 00 00 80 DA
01:48:05.311 TX frame 006 00 00 49 20 D0 E3
01:48:05.362 RX 006 bytes 00 00 00 00 80 DA
01:48:05.615 RX 006 bytes 00 00 00 00 80 DA
01:48:05.867 RX 006 bytes 00 00 00 00 80 DA
01:48:05.919 TX frame 006 00 00 49 20 D0 E3
01:48:05.969 RX 006 bytes 00 00 00 00 80 DA
01:48:06.221 RX 006 bytes 00 00 00 00 80 DA
01:48:06.474 RX 006 bytes 00 00 00 00 80 DA
01:48:06.575 TX frame 006 00 00 49 20 D0 E3
01:48:06.625 RX 006 bytes 00 00 00 00 80 DA
01:48:06.878 RX 006 bytes 00 00 00 00 80 DA
01:48:07.132 RX 006 bytes 00 00 00 00 80 DA
01:48:07.233 TX frame 006 00 00 49 20 D0 E3
01:48:07.283 RX 006 bytes 00 00 00 00 80 DA
01:48:07.536 RX 006 bytes 00 00 00 00 80 DA
01:48:07.788 RX 006 bytes 00 00 00 00 80 DA
01:48:07.890 TX frame 006 00 00 49 20 D0 E3
01:48:07.941 RX 006 bytes 00 00 00 00 80 DA
01:48:08.193 RX 006 bytes 00 00 00 00 80 DA
01:48:08.445 RX 006 bytes 00 00 00 00 80 DA
01:48:08.546 TX frame 006 00 00 49 20 D0 E3
01:48:08.596 RX 006 bytes 00 00 00 00 80 DA
01:48:08.848 RX 006 bytes 00 00 00 00 80 DA
01:48:09.099 RX 006 bytes 00 00 00 00 80 DA
01:48:09.200 TX frame 006 00 00 49 20 D0 E3
01:48:09.251 RX 006 bytes 00 00 00 00 80 DA
01:48:09.503 RX 006 bytes 00 00 00 00 80 DA
01:48:09.756 RX 006 bytes 00 00 00 00 80 DA
01:48:09.857 TX frame 006 00 00 49 20 D0 E3
01:48:09.907 RX 006 bytes 00 00 00 00 80 DA
01:48:10.160 RX 006 bytes 00 00 00 00 80 DA
01:48:10.413 RX 006 bytes 00 00 00 00 80 DA
01:48:10.513 TX frame 006 00 00 49 20 D0 E3
01:48:10.563 RX 006 bytes 00 00 00 00 80 DA
01:48:10.814 RX 006 bytes 00 00 00 00 80 DA
01:48:11.066 RX 006 bytes 00 00 00 00 80 DA
01:48:11.166 TX frame 006 00 00 49 20 D0 E3
01:48:11.216 RX 006 bytes 00 00 00 00 80 DA
01:48:11.469 RX 006 bytes 00 00 00 00 80 DA
01:48:11.721 RX 006 bytes 00 00 00 00 80 DA
01:48:11.771 TX frame 006 00 00 49 20 D0 E3
01:48:11.822 RX 006 bytes 00 00 00 00 80 DA
01:48:12.072 RX 006 bytes 00 00 00 00 80 DA
01:48:12.324 RX 006 bytes 00 00 00 00 80 DA
01:48:12.374 TX frame 006 00 00 49 20 D0 E3
01:48:12.425 RX 006 bytes 00 00 00 00 80 DA
01:48:12.677 RX 006 bytes 00 00 00 00 80 DA
01:48:12.930 RX 006 bytes 00 00 00 00 80 DA
01:48:13.184 RX 006 bytes 00 00 00 00 80 DA
01:48:13.436 RX 006 bytes 00 00 00 00 80 DA
01:48:13.688 RX 006 bytes 00 00 00 00 80 DA
01:48:13.940 RX 006 bytes 00 00 00 00 80 DA
01:48:14.194 RX 006 bytes 00 00 00 00 80 DA
01:48:14.801 RX 006 bytes 00 00 00 00 80 DA
01:48:15.456 RX 001 bytes 00

42
captures/he40-direct-20d0-cmd60-7f.txt Normal file
View File

@@ -0,0 +1,42 @@
Direct response sweep: 32 frames x 1 cycles (32 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:57:07.790 TX cycle=1 p1=0x00 p2=0x00 cmd=0x60 state=0x20 value=0xD0 frame 006 00 00 60 20 D0 CA
01:57:08.611 TX cycle=1 p1=0x00 p2=0x00 cmd=0x61 state=0x20 value=0xD0 frame 006 00 00 61 20 D0 CB
01:57:08.611 ANOMALY 24 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 3 expected 00
01:57:08.611 RX raw 07 80 58 24 DD 7C 07 80 58 24 DD 7C 07 80 58 24 DD 7C 07 80 58 24 DD 7C
01:57:09.435 TX cycle=1 p1=0x00 p2=0x00 cmd=0x62 state=0x20 value=0xD0 frame 006 00 00 62 20 D0 C8
01:57:09.435 ANOMALY 24 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 3 expected 00
01:57:09.435 RX raw 07 80 58 24 DD 7C 07 80 58 24 DD 7C 07 80 58 24 DD 7C 07 80 58 24 DD 7C
01:57:10.259 TX cycle=1 p1=0x00 p2=0x00 cmd=0x63 state=0x20 value=0xD0 frame 006 00 00 63 20 D0 C9
01:57:10.259 ANOMALY 6 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 3 expected 00
01:57:10.259 RX raw 07 80 58 24 DD 7C
01:57:11.081 TX cycle=1 p1=0x00 p2=0x00 cmd=0x64 state=0x20 value=0xD0 frame 006 00 00 64 20 D0 CE
01:57:11.903 TX cycle=1 p1=0x00 p2=0x00 cmd=0x65 state=0x20 value=0xD0 frame 006 00 00 65 20 D0 CF
01:57:12.724 TX cycle=1 p1=0x00 p2=0x00 cmd=0x66 state=0x20 value=0xD0 frame 006 00 00 66 20 D0 CC
01:57:13.548 TX cycle=1 p1=0x00 p2=0x00 cmd=0x67 state=0x20 value=0xD0 frame 006 00 00 67 20 D0 CD
01:57:14.374 TX cycle=1 p1=0x00 p2=0x00 cmd=0x68 state=0x20 value=0xD0 frame 006 00 00 68 20 D0 C2
01:57:15.199 TX cycle=1 p1=0x00 p2=0x00 cmd=0x69 state=0x20 value=0xD0 frame 006 00 00 69 20 D0 C3
01:57:16.023 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6A state=0x20 value=0xD0 frame 006 00 00 6A 20 D0 C0
01:57:16.844 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6B state=0x20 value=0xD0 frame 006 00 00 6B 20 D0 C1
01:57:17.668 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6C state=0x20 value=0xD0 frame 006 00 00 6C 20 D0 C6
01:57:18.490 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6D state=0x20 value=0xD0 frame 006 00 00 6D 20 D0 C7
01:57:19.311 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6E state=0x20 value=0xD0 frame 006 00 00 6E 20 D0 C4
01:57:20.136 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6F state=0x20 value=0xD0 frame 006 00 00 6F 20 D0 C5
01:57:20.959 TX cycle=1 p1=0x00 p2=0x00 cmd=0x70 state=0x20 value=0xD0 frame 006 00 00 70 20 D0 DA
01:57:21.781 TX cycle=1 p1=0x00 p2=0x00 cmd=0x71 state=0x20 value=0xD0 frame 006 00 00 71 20 D0 DB
01:57:22.605 TX cycle=1 p1=0x00 p2=0x00 cmd=0x72 state=0x20 value=0xD0 frame 006 00 00 72 20 D0 D8
01:57:23.428 TX cycle=1 p1=0x00 p2=0x00 cmd=0x73 state=0x20 value=0xD0 frame 006 00 00 73 20 D0 D9
01:57:24.250 TX cycle=1 p1=0x00 p2=0x00 cmd=0x74 state=0x20 value=0xD0 frame 006 00 00 74 20 D0 DE
01:57:25.074 TX cycle=1 p1=0x00 p2=0x00 cmd=0x75 state=0x20 value=0xD0 frame 006 00 00 75 20 D0 DF
01:57:25.898 TX cycle=1 p1=0x00 p2=0x00 cmd=0x76 state=0x20 value=0xD0 frame 006 00 00 76 20 D0 DC
01:57:26.723 TX cycle=1 p1=0x00 p2=0x00 cmd=0x77 state=0x20 value=0xD0 frame 006 00 00 77 20 D0 DD
01:57:27.548 TX cycle=1 p1=0x00 p2=0x00 cmd=0x78 state=0x20 value=0xD0 frame 006 00 00 78 20 D0 D2
01:57:28.371 TX cycle=1 p1=0x00 p2=0x00 cmd=0x79 state=0x20 value=0xD0 frame 006 00 00 79 20 D0 D3
01:57:29.193 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7A state=0x20 value=0xD0 frame 006 00 00 7A 20 D0 D0
01:57:30.015 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7B state=0x20 value=0xD0 frame 006 00 00 7B 20 D0 D1
01:57:30.836 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7C state=0x20 value=0xD0 frame 006 00 00 7C 20 D0 D6
01:57:31.659 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7D state=0x20 value=0xD0 frame 006 00 00 7D 20 D0 D7
01:57:32.482 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7E state=0x20 value=0xD0 frame 006 00 00 7E 20 D0 D4
01:57:33.305 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7F state=0x20 value=0xD0 frame 006 00 00 7F 20 D0 D5
FINAL heartbeat-compatible RX: 12 bytes, offset 0, 2 frames + 0 bytes
Anomalies: 3

38
captures/he40-direct-20d0-cmd80-9f.txt Normal file
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Direct response sweep: 32 frames x 1 cycles (32 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 30 bytes, offset 0, 5 frames + 0 bytes
01:57:45.070 TX cycle=1 p1=0x00 p2=0x00 cmd=0x80 state=0x20 value=0xD0 frame 006 00 00 80 20 D0 2A
01:57:45.891 TX cycle=1 p1=0x00 p2=0x00 cmd=0x81 state=0x20 value=0xD0 frame 006 00 00 81 20 D0 2B
01:57:45.891 ANOMALY 29 RX bytes; first mismatch at byte 5: got 07, heartbeat offset 1 expected 00
01:57:45.891 RX raw 00 00 00 80 DA 07 80 60 24 DD 44 07 80 60 24 DD 44 07 80 60 24 DD 44 07 80 60 24 DD 44
01:57:46.710 TX cycle=1 p1=0x00 p2=0x00 cmd=0x82 state=0x20 value=0xD0 frame 006 00 00 82 20 D0 28
01:57:47.537 TX cycle=1 p1=0x00 p2=0x00 cmd=0x83 state=0x20 value=0xD0 frame 006 00 00 83 20 D0 29
01:57:48.358 TX cycle=1 p1=0x00 p2=0x00 cmd=0x84 state=0x20 value=0xD0 frame 006 00 00 84 20 D0 2E
01:57:49.181 TX cycle=1 p1=0x00 p2=0x00 cmd=0x85 state=0x20 value=0xD0 frame 006 00 00 85 20 D0 2F
01:57:50.003 TX cycle=1 p1=0x00 p2=0x00 cmd=0x86 state=0x20 value=0xD0 frame 006 00 00 86 20 D0 2C
01:57:50.827 TX cycle=1 p1=0x00 p2=0x00 cmd=0x87 state=0x20 value=0xD0 frame 006 00 00 87 20 D0 2D
01:57:51.649 TX cycle=1 p1=0x00 p2=0x00 cmd=0x88 state=0x20 value=0xD0 frame 006 00 00 88 20 D0 22
01:57:52.473 TX cycle=1 p1=0x00 p2=0x00 cmd=0x89 state=0x20 value=0xD0 frame 006 00 00 89 20 D0 23
01:57:53.299 TX cycle=1 p1=0x00 p2=0x00 cmd=0x8A state=0x20 value=0xD0 frame 006 00 00 8A 20 D0 20
01:57:54.122 TX cycle=1 p1=0x00 p2=0x00 cmd=0x8B state=0x20 value=0xD0 frame 006 00 00 8B 20 D0 21
01:57:54.947 TX cycle=1 p1=0x00 p2=0x00 cmd=0x8C state=0x20 value=0xD0 frame 006 00 00 8C 20 D0 26
01:57:55.768 TX cycle=1 p1=0x00 p2=0x00 cmd=0x8D state=0x20 value=0xD0 frame 006 00 00 8D 20 D0 27
01:57:56.590 TX cycle=1 p1=0x00 p2=0x00 cmd=0x8E state=0x20 value=0xD0 frame 006 00 00 8E 20 D0 24
01:57:57.409 TX cycle=1 p1=0x00 p2=0x00 cmd=0x8F state=0x20 value=0xD0 frame 006 00 00 8F 20 D0 25
01:57:58.231 TX cycle=1 p1=0x00 p2=0x00 cmd=0x90 state=0x20 value=0xD0 frame 006 00 00 90 20 D0 3A
01:57:59.052 TX cycle=1 p1=0x00 p2=0x00 cmd=0x91 state=0x20 value=0xD0 frame 006 00 00 91 20 D0 3B
01:57:59.874 TX cycle=1 p1=0x00 p2=0x00 cmd=0x92 state=0x20 value=0xD0 frame 006 00 00 92 20 D0 38
01:58:00.697 TX cycle=1 p1=0x00 p2=0x00 cmd=0x93 state=0x20 value=0xD0 frame 006 00 00 93 20 D0 39
01:58:01.519 TX cycle=1 p1=0x00 p2=0x00 cmd=0x94 state=0x20 value=0xD0 frame 006 00 00 94 20 D0 3E
01:58:02.344 TX cycle=1 p1=0x00 p2=0x00 cmd=0x95 state=0x20 value=0xD0 frame 006 00 00 95 20 D0 3F
01:58:03.164 TX cycle=1 p1=0x00 p2=0x00 cmd=0x96 state=0x20 value=0xD0 frame 006 00 00 96 20 D0 3C
01:58:03.987 TX cycle=1 p1=0x00 p2=0x00 cmd=0x97 state=0x20 value=0xD0 frame 006 00 00 97 20 D0 3D
01:58:04.809 TX cycle=1 p1=0x00 p2=0x00 cmd=0x98 state=0x20 value=0xD0 frame 006 00 00 98 20 D0 32
01:58:05.632 TX cycle=1 p1=0x00 p2=0x00 cmd=0x99 state=0x20 value=0xD0 frame 006 00 00 99 20 D0 33
01:58:06.457 TX cycle=1 p1=0x00 p2=0x00 cmd=0x9A state=0x20 value=0xD0 frame 006 00 00 9A 20 D0 30
01:58:07.278 TX cycle=1 p1=0x00 p2=0x00 cmd=0x9B state=0x20 value=0xD0 frame 006 00 00 9B 20 D0 31
01:58:08.099 TX cycle=1 p1=0x00 p2=0x00 cmd=0x9C state=0x20 value=0xD0 frame 006 00 00 9C 20 D0 36
01:58:08.924 TX cycle=1 p1=0x00 p2=0x00 cmd=0x9D state=0x20 value=0xD0 frame 006 00 00 9D 20 D0 37
01:58:09.748 TX cycle=1 p1=0x00 p2=0x00 cmd=0x9E state=0x20 value=0xD0 frame 006 00 00 9E 20 D0 34
01:58:10.571 TX cycle=1 p1=0x00 p2=0x00 cmd=0x9F state=0x20 value=0xD0 frame 006 00 00 9F 20 D0 35
FINAL heartbeat-compatible RX: 12 bytes, offset 0, 2 frames + 0 bytes
Anomalies: 1

38
captures/he40-direct-20d0-cmdc0-df.txt Normal file
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Direct response sweep: 32 frames x 1 cycles (32 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:59:11.444 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC0 state=0x20 value=0xD0 frame 006 00 00 C0 20 D0 6A
01:59:12.267 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC1 state=0x20 value=0xD0 frame 006 00 00 C1 20 D0 6B
01:59:12.267 ANOMALY 30 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 3 expected 00
01:59:12.267 RX raw 07 80 70 24 DD 54 07 80 70 24 DD 54 07 80 70 24 DD 54 07 80 70 24 DD 54 07 80 70 24 DD 54
01:59:13.089 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC2 state=0x20 value=0xD0 frame 006 00 00 C2 20 D0 68
01:59:13.915 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC3 state=0x20 value=0xD0 frame 006 00 00 C3 20 D0 69
01:59:14.737 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC4 state=0x20 value=0xD0 frame 006 00 00 C4 20 D0 6E
01:59:15.558 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC5 state=0x20 value=0xD0 frame 006 00 00 C5 20 D0 6F
01:59:16.379 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC6 state=0x20 value=0xD0 frame 006 00 00 C6 20 D0 6C
01:59:17.201 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC7 state=0x20 value=0xD0 frame 006 00 00 C7 20 D0 6D
01:59:18.024 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC8 state=0x20 value=0xD0 frame 006 00 00 C8 20 D0 62
01:59:18.848 TX cycle=1 p1=0x00 p2=0x00 cmd=0xC9 state=0x20 value=0xD0 frame 006 00 00 C9 20 D0 63
01:59:19.669 TX cycle=1 p1=0x00 p2=0x00 cmd=0xCA state=0x20 value=0xD0 frame 006 00 00 CA 20 D0 60
01:59:20.492 TX cycle=1 p1=0x00 p2=0x00 cmd=0xCB state=0x20 value=0xD0 frame 006 00 00 CB 20 D0 61
01:59:21.317 TX cycle=1 p1=0x00 p2=0x00 cmd=0xCC state=0x20 value=0xD0 frame 006 00 00 CC 20 D0 66
01:59:22.139 TX cycle=1 p1=0x00 p2=0x00 cmd=0xCD state=0x20 value=0xD0 frame 006 00 00 CD 20 D0 67
01:59:22.960 TX cycle=1 p1=0x00 p2=0x00 cmd=0xCE state=0x20 value=0xD0 frame 006 00 00 CE 20 D0 64
01:59:23.784 TX cycle=1 p1=0x00 p2=0x00 cmd=0xCF state=0x20 value=0xD0 frame 006 00 00 CF 20 D0 65
01:59:24.606 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD0 state=0x20 value=0xD0 frame 006 00 00 D0 20 D0 7A
01:59:25.428 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD1 state=0x20 value=0xD0 frame 006 00 00 D1 20 D0 7B
01:59:26.250 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD2 state=0x20 value=0xD0 frame 006 00 00 D2 20 D0 78
01:59:27.074 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD3 state=0x20 value=0xD0 frame 006 00 00 D3 20 D0 79
01:59:27.895 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD4 state=0x20 value=0xD0 frame 006 00 00 D4 20 D0 7E
01:59:28.718 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD5 state=0x20 value=0xD0 frame 006 00 00 D5 20 D0 7F
01:59:29.540 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD6 state=0x20 value=0xD0 frame 006 00 00 D6 20 D0 7C
01:59:30.365 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD7 state=0x20 value=0xD0 frame 006 00 00 D7 20 D0 7D
01:59:31.188 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD8 state=0x20 value=0xD0 frame 006 00 00 D8 20 D0 72
01:59:32.011 TX cycle=1 p1=0x00 p2=0x00 cmd=0xD9 state=0x20 value=0xD0 frame 006 00 00 D9 20 D0 73
01:59:32.835 TX cycle=1 p1=0x00 p2=0x00 cmd=0xDA state=0x20 value=0xD0 frame 006 00 00 DA 20 D0 70
01:59:33.658 TX cycle=1 p1=0x00 p2=0x00 cmd=0xDB state=0x20 value=0xD0 frame 006 00 00 DB 20 D0 71
01:59:34.481 TX cycle=1 p1=0x00 p2=0x00 cmd=0xDC state=0x20 value=0xD0 frame 006 00 00 DC 20 D0 76
01:59:35.302 TX cycle=1 p1=0x00 p2=0x00 cmd=0xDD state=0x20 value=0xD0 frame 006 00 00 DD 20 D0 77
01:59:36.126 TX cycle=1 p1=0x00 p2=0x00 cmd=0xDE state=0x20 value=0xD0 frame 006 00 00 DE 20 D0 74
01:59:36.949 TX cycle=1 p1=0x00 p2=0x00 cmd=0xDF state=0x20 value=0xD0 frame 006 00 00 DF 20 D0 75
FINAL heartbeat-compatible RX: 17 bytes, offset 1, 2 frames + 5 bytes
Anomalies: 1

38
captures/he40-direct-20d0-cmde0-ff.txt Normal file
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Direct response sweep: 32 frames x 1 cycles (32 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
01:59:56.030 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE0 state=0x20 value=0xD0 frame 006 00 00 E0 20 D0 4A
01:59:56.855 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE1 state=0x20 value=0xD0 frame 006 00 00 E1 20 D0 4B
01:59:56.855 ANOMALY 30 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 3 expected 00
01:59:56.855 RX raw 07 80 78 24 DD 5C 07 80 78 24 DD 5C 07 80 78 24 DD 5C 07 80 78 24 DD 5C 07 80 78 24 DD 5C
01:59:57.676 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE2 state=0x20 value=0xD0 frame 006 00 00 E2 20 D0 48
01:59:58.500 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE3 state=0x20 value=0xD0 frame 006 00 00 E3 20 D0 49
01:59:59.323 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE4 state=0x20 value=0xD0 frame 006 00 00 E4 20 D0 4E
02:00:00.146 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE5 state=0x20 value=0xD0 frame 006 00 00 E5 20 D0 4F
02:00:00.971 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE6 state=0x20 value=0xD0 frame 006 00 00 E6 20 D0 4C
02:00:01.792 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE7 state=0x20 value=0xD0 frame 006 00 00 E7 20 D0 4D
02:00:02.618 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE8 state=0x20 value=0xD0 frame 006 00 00 E8 20 D0 42
02:00:03.442 TX cycle=1 p1=0x00 p2=0x00 cmd=0xE9 state=0x20 value=0xD0 frame 006 00 00 E9 20 D0 43
02:00:04.265 TX cycle=1 p1=0x00 p2=0x00 cmd=0xEA state=0x20 value=0xD0 frame 006 00 00 EA 20 D0 40
02:00:05.091 TX cycle=1 p1=0x00 p2=0x00 cmd=0xEB state=0x20 value=0xD0 frame 006 00 00 EB 20 D0 41
02:00:05.917 TX cycle=1 p1=0x00 p2=0x00 cmd=0xEC state=0x20 value=0xD0 frame 006 00 00 EC 20 D0 46
02:00:06.742 TX cycle=1 p1=0x00 p2=0x00 cmd=0xED state=0x20 value=0xD0 frame 006 00 00 ED 20 D0 47
02:00:07.563 TX cycle=1 p1=0x00 p2=0x00 cmd=0xEE state=0x20 value=0xD0 frame 006 00 00 EE 20 D0 44
02:00:08.385 TX cycle=1 p1=0x00 p2=0x00 cmd=0xEF state=0x20 value=0xD0 frame 006 00 00 EF 20 D0 45
02:00:09.208 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF0 state=0x20 value=0xD0 frame 006 00 00 F0 20 D0 5A
02:00:10.028 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF1 state=0x20 value=0xD0 frame 006 00 00 F1 20 D0 5B
02:00:10.850 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF2 state=0x20 value=0xD0 frame 006 00 00 F2 20 D0 58
02:00:11.674 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF3 state=0x20 value=0xD0 frame 006 00 00 F3 20 D0 59
02:00:12.496 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF4 state=0x20 value=0xD0 frame 006 00 00 F4 20 D0 5E
02:00:13.318 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF5 state=0x20 value=0xD0 frame 006 00 00 F5 20 D0 5F
02:00:14.145 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF6 state=0x20 value=0xD0 frame 006 00 00 F6 20 D0 5C
02:00:14.966 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF7 state=0x20 value=0xD0 frame 006 00 00 F7 20 D0 5D
02:00:15.790 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF8 state=0x20 value=0xD0 frame 006 00 00 F8 20 D0 52
02:00:16.617 TX cycle=1 p1=0x00 p2=0x00 cmd=0xF9 state=0x20 value=0xD0 frame 006 00 00 F9 20 D0 53
02:00:17.441 TX cycle=1 p1=0x00 p2=0x00 cmd=0xFA state=0x20 value=0xD0 frame 006 00 00 FA 20 D0 50
02:00:18.263 TX cycle=1 p1=0x00 p2=0x00 cmd=0xFB state=0x20 value=0xD0 frame 006 00 00 FB 20 D0 51
02:00:19.085 TX cycle=1 p1=0x00 p2=0x00 cmd=0xFC state=0x20 value=0xD0 frame 006 00 00 FC 20 D0 56
02:00:19.909 TX cycle=1 p1=0x00 p2=0x00 cmd=0xFD state=0x20 value=0xD0 frame 006 00 00 FD 20 D0 57
02:00:20.732 TX cycle=1 p1=0x00 p2=0x00 cmd=0xFE state=0x20 value=0xD0 frame 006 00 00 FE 20 D0 54
02:00:21.555 TX cycle=1 p1=0x00 p2=0x00 cmd=0xFF state=0x20 value=0xD0 frame 006 00 00 FF 20 D0 55
FINAL heartbeat-compatible RX: 12 bytes, offset 0, 2 frames + 0 bytes
Anomalies: 1

38
captures/he40-direct-4030-cmd00-1f.txt Normal file
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Direct response sweep: 32 frames x 1 cycles (32 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
02:02:08.207 TX cycle=1 p1=0x00 p2=0x00 cmd=0x00 state=0x40 value=0x30 frame 006 00 00 00 40 30 2A
02:02:09.032 TX cycle=1 p1=0x00 p2=0x00 cmd=0x01 state=0x40 value=0x30 frame 006 00 00 01 40 30 2B
02:02:09.032 ANOMALY 24 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 3 expected 00
02:02:09.032 RX raw 07 80 40 28 D3 66 07 80 40 28 D3 66 07 80 40 28 D3 66 07 80 40 28 D3 66
02:02:09.856 TX cycle=1 p1=0x00 p2=0x00 cmd=0x02 state=0x40 value=0x30 frame 006 00 00 02 40 30 28
02:02:10.678 TX cycle=1 p1=0x00 p2=0x00 cmd=0x03 state=0x40 value=0x30 frame 006 00 00 03 40 30 29
02:02:11.501 TX cycle=1 p1=0x00 p2=0x00 cmd=0x04 state=0x40 value=0x30 frame 006 00 00 04 40 30 2E
02:02:12.323 TX cycle=1 p1=0x00 p2=0x00 cmd=0x05 state=0x40 value=0x30 frame 006 00 00 05 40 30 2F
02:02:13.143 TX cycle=1 p1=0x00 p2=0x00 cmd=0x06 state=0x40 value=0x30 frame 006 00 00 06 40 30 2C
02:02:13.964 TX cycle=1 p1=0x00 p2=0x00 cmd=0x07 state=0x40 value=0x30 frame 006 00 00 07 40 30 2D
02:02:14.790 TX cycle=1 p1=0x00 p2=0x00 cmd=0x08 state=0x40 value=0x30 frame 006 00 00 08 40 30 22
02:02:15.611 TX cycle=1 p1=0x00 p2=0x00 cmd=0x09 state=0x40 value=0x30 frame 006 00 00 09 40 30 23
02:02:16.430 TX cycle=1 p1=0x00 p2=0x00 cmd=0x0A state=0x40 value=0x30 frame 006 00 00 0A 40 30 20
02:02:17.251 TX cycle=1 p1=0x00 p2=0x00 cmd=0x0B state=0x40 value=0x30 frame 006 00 00 0B 40 30 21
02:02:18.074 TX cycle=1 p1=0x00 p2=0x00 cmd=0x0C state=0x40 value=0x30 frame 006 00 00 0C 40 30 26
02:02:18.898 TX cycle=1 p1=0x00 p2=0x00 cmd=0x0D state=0x40 value=0x30 frame 006 00 00 0D 40 30 27
02:02:19.722 TX cycle=1 p1=0x00 p2=0x00 cmd=0x0E state=0x40 value=0x30 frame 006 00 00 0E 40 30 24
02:02:20.543 TX cycle=1 p1=0x00 p2=0x00 cmd=0x0F state=0x40 value=0x30 frame 006 00 00 0F 40 30 25
02:02:21.365 TX cycle=1 p1=0x00 p2=0x00 cmd=0x10 state=0x40 value=0x30 frame 006 00 00 10 40 30 3A
02:02:22.191 TX cycle=1 p1=0x00 p2=0x00 cmd=0x11 state=0x40 value=0x30 frame 006 00 00 11 40 30 3B
02:02:23.012 TX cycle=1 p1=0x00 p2=0x00 cmd=0x12 state=0x40 value=0x30 frame 006 00 00 12 40 30 38
02:02:23.833 TX cycle=1 p1=0x00 p2=0x00 cmd=0x13 state=0x40 value=0x30 frame 006 00 00 13 40 30 39
02:02:24.656 TX cycle=1 p1=0x00 p2=0x00 cmd=0x14 state=0x40 value=0x30 frame 006 00 00 14 40 30 3E
02:02:25.480 TX cycle=1 p1=0x00 p2=0x00 cmd=0x15 state=0x40 value=0x30 frame 006 00 00 15 40 30 3F
02:02:26.303 TX cycle=1 p1=0x00 p2=0x00 cmd=0x16 state=0x40 value=0x30 frame 006 00 00 16 40 30 3C
02:02:27.126 TX cycle=1 p1=0x00 p2=0x00 cmd=0x17 state=0x40 value=0x30 frame 006 00 00 17 40 30 3D
02:02:27.948 TX cycle=1 p1=0x00 p2=0x00 cmd=0x18 state=0x40 value=0x30 frame 006 00 00 18 40 30 32
02:02:28.772 TX cycle=1 p1=0x00 p2=0x00 cmd=0x19 state=0x40 value=0x30 frame 006 00 00 19 40 30 33
02:02:29.593 TX cycle=1 p1=0x00 p2=0x00 cmd=0x1A state=0x40 value=0x30 frame 006 00 00 1A 40 30 30
02:02:30.415 TX cycle=1 p1=0x00 p2=0x00 cmd=0x1B state=0x40 value=0x30 frame 006 00 00 1B 40 30 31
02:02:31.237 TX cycle=1 p1=0x00 p2=0x00 cmd=0x1C state=0x40 value=0x30 frame 006 00 00 1C 40 30 36
02:02:32.058 TX cycle=1 p1=0x00 p2=0x00 cmd=0x1D state=0x40 value=0x30 frame 006 00 00 1D 40 30 37
02:02:32.880 TX cycle=1 p1=0x00 p2=0x00 cmd=0x1E state=0x40 value=0x30 frame 006 00 00 1E 40 30 34
02:02:33.701 TX cycle=1 p1=0x00 p2=0x00 cmd=0x1F state=0x40 value=0x30 frame 006 00 00 1F 40 30 35
FINAL heartbeat-compatible RX: 17 bytes, offset 1, 2 frames + 5 bytes
Anomalies: 1

38
captures/he40-direct-4030-cmd40-5f.txt Normal file
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Direct response sweep: 32 frames x 1 cycles (32 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
02:00:34.961 TX cycle=1 p1=0x00 p2=0x00 cmd=0x40 state=0x40 value=0x30 frame 006 00 00 40 40 30 6A
02:00:35.783 TX cycle=1 p1=0x00 p2=0x00 cmd=0x41 state=0x40 value=0x30 frame 006 00 00 41 40 30 6B
02:00:35.783 ANOMALY 24 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 3 expected 00
02:00:35.783 RX raw 07 80 50 28 D3 76 07 80 50 28 D3 76 07 80 50 28 D3 76 07 80 50 28 D3 76
02:00:36.608 TX cycle=1 p1=0x00 p2=0x00 cmd=0x42 state=0x40 value=0x30 frame 006 00 00 42 40 30 68
02:00:37.429 TX cycle=1 p1=0x00 p2=0x00 cmd=0x43 state=0x40 value=0x30 frame 006 00 00 43 40 30 69
02:00:38.252 TX cycle=1 p1=0x00 p2=0x00 cmd=0x44 state=0x40 value=0x30 frame 006 00 00 44 40 30 6E
02:00:39.076 TX cycle=1 p1=0x00 p2=0x00 cmd=0x45 state=0x40 value=0x30 frame 006 00 00 45 40 30 6F
02:00:39.900 TX cycle=1 p1=0x00 p2=0x00 cmd=0x46 state=0x40 value=0x30 frame 006 00 00 46 40 30 6C
02:00:40.728 TX cycle=1 p1=0x00 p2=0x00 cmd=0x47 state=0x40 value=0x30 frame 006 00 00 47 40 30 6D
02:00:41.549 TX cycle=1 p1=0x00 p2=0x00 cmd=0x48 state=0x40 value=0x30 frame 006 00 00 48 40 30 62
02:00:42.376 TX cycle=1 p1=0x00 p2=0x00 cmd=0x49 state=0x40 value=0x30 frame 006 00 00 49 40 30 63
02:00:43.202 TX cycle=1 p1=0x00 p2=0x00 cmd=0x4A state=0x40 value=0x30 frame 006 00 00 4A 40 30 60
02:00:44.026 TX cycle=1 p1=0x00 p2=0x00 cmd=0x4B state=0x40 value=0x30 frame 006 00 00 4B 40 30 61
02:00:44.850 TX cycle=1 p1=0x00 p2=0x00 cmd=0x4C state=0x40 value=0x30 frame 006 00 00 4C 40 30 66
02:00:45.674 TX cycle=1 p1=0x00 p2=0x00 cmd=0x4D state=0x40 value=0x30 frame 006 00 00 4D 40 30 67
02:00:46.495 TX cycle=1 p1=0x00 p2=0x00 cmd=0x4E state=0x40 value=0x30 frame 006 00 00 4E 40 30 64
02:00:47.313 TX cycle=1 p1=0x00 p2=0x00 cmd=0x4F state=0x40 value=0x30 frame 006 00 00 4F 40 30 65
02:00:48.138 TX cycle=1 p1=0x00 p2=0x00 cmd=0x50 state=0x40 value=0x30 frame 006 00 00 50 40 30 7A
02:00:48.960 TX cycle=1 p1=0x00 p2=0x00 cmd=0x51 state=0x40 value=0x30 frame 006 00 00 51 40 30 7B
02:00:49.782 TX cycle=1 p1=0x00 p2=0x00 cmd=0x52 state=0x40 value=0x30 frame 006 00 00 52 40 30 78
02:00:50.604 TX cycle=1 p1=0x00 p2=0x00 cmd=0x53 state=0x40 value=0x30 frame 006 00 00 53 40 30 79
02:00:51.428 TX cycle=1 p1=0x00 p2=0x00 cmd=0x54 state=0x40 value=0x30 frame 006 00 00 54 40 30 7E
02:00:52.249 TX cycle=1 p1=0x00 p2=0x00 cmd=0x55 state=0x40 value=0x30 frame 006 00 00 55 40 30 7F
02:00:53.072 TX cycle=1 p1=0x00 p2=0x00 cmd=0x56 state=0x40 value=0x30 frame 006 00 00 56 40 30 7C
02:00:53.895 TX cycle=1 p1=0x00 p2=0x00 cmd=0x57 state=0x40 value=0x30 frame 006 00 00 57 40 30 7D
02:00:54.716 TX cycle=1 p1=0x00 p2=0x00 cmd=0x58 state=0x40 value=0x30 frame 006 00 00 58 40 30 72
02:00:55.542 TX cycle=1 p1=0x00 p2=0x00 cmd=0x59 state=0x40 value=0x30 frame 006 00 00 59 40 30 73
02:00:56.364 TX cycle=1 p1=0x00 p2=0x00 cmd=0x5A state=0x40 value=0x30 frame 006 00 00 5A 40 30 70
02:00:57.188 TX cycle=1 p1=0x00 p2=0x00 cmd=0x5B state=0x40 value=0x30 frame 006 00 00 5B 40 30 71
02:00:58.012 TX cycle=1 p1=0x00 p2=0x00 cmd=0x5C state=0x40 value=0x30 frame 006 00 00 5C 40 30 76
02:00:58.837 TX cycle=1 p1=0x00 p2=0x00 cmd=0x5D state=0x40 value=0x30 frame 006 00 00 5D 40 30 77
02:00:59.661 TX cycle=1 p1=0x00 p2=0x00 cmd=0x5E state=0x40 value=0x30 frame 006 00 00 5E 40 30 74
02:01:00.483 TX cycle=1 p1=0x00 p2=0x00 cmd=0x5F state=0x40 value=0x30 frame 006 00 00 5F 40 30 75
FINAL heartbeat-compatible RX: 18 bytes, offset 0, 3 frames + 0 bytes
Anomalies: 1

38
captures/he40-direct-4030-cmd60-7f.txt Normal file
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Direct response sweep: 32 frames x 1 cycles (32 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
02:01:21.124 TX cycle=1 p1=0x00 p2=0x00 cmd=0x60 state=0x40 value=0x30 frame 006 00 00 60 40 30 4A
02:01:21.946 TX cycle=1 p1=0x00 p2=0x00 cmd=0x61 state=0x40 value=0x30 frame 006 00 00 61 40 30 4B
02:01:21.946 ANOMALY 24 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 3 expected 00
02:01:21.946 RX raw 07 80 58 28 D3 7E 07 80 58 28 D3 7E 07 80 58 28 D3 7E 07 80 58 28 D3 7E
02:01:22.772 TX cycle=1 p1=0x00 p2=0x00 cmd=0x62 state=0x40 value=0x30 frame 006 00 00 62 40 30 48
02:01:23.597 TX cycle=1 p1=0x00 p2=0x00 cmd=0x63 state=0x40 value=0x30 frame 006 00 00 63 40 30 49
02:01:24.417 TX cycle=1 p1=0x00 p2=0x00 cmd=0x64 state=0x40 value=0x30 frame 006 00 00 64 40 30 4E
02:01:25.239 TX cycle=1 p1=0x00 p2=0x00 cmd=0x65 state=0x40 value=0x30 frame 006 00 00 65 40 30 4F
02:01:26.063 TX cycle=1 p1=0x00 p2=0x00 cmd=0x66 state=0x40 value=0x30 frame 006 00 00 66 40 30 4C
02:01:26.885 TX cycle=1 p1=0x00 p2=0x00 cmd=0x67 state=0x40 value=0x30 frame 006 00 00 67 40 30 4D
02:01:27.706 TX cycle=1 p1=0x00 p2=0x00 cmd=0x68 state=0x40 value=0x30 frame 006 00 00 68 40 30 42
02:01:28.530 TX cycle=1 p1=0x00 p2=0x00 cmd=0x69 state=0x40 value=0x30 frame 006 00 00 69 40 30 43
02:01:29.354 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6A state=0x40 value=0x30 frame 006 00 00 6A 40 30 40
02:01:30.175 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6B state=0x40 value=0x30 frame 006 00 00 6B 40 30 41
02:01:30.995 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6C state=0x40 value=0x30 frame 006 00 00 6C 40 30 46
02:01:31.817 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6D state=0x40 value=0x30 frame 006 00 00 6D 40 30 47
02:01:32.643 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6E state=0x40 value=0x30 frame 006 00 00 6E 40 30 44
02:01:33.465 TX cycle=1 p1=0x00 p2=0x00 cmd=0x6F state=0x40 value=0x30 frame 006 00 00 6F 40 30 45
02:01:34.286 TX cycle=1 p1=0x00 p2=0x00 cmd=0x70 state=0x40 value=0x30 frame 006 00 00 70 40 30 5A
02:01:35.105 TX cycle=1 p1=0x00 p2=0x00 cmd=0x71 state=0x40 value=0x30 frame 006 00 00 71 40 30 5B
02:01:35.927 TX cycle=1 p1=0x00 p2=0x00 cmd=0x72 state=0x40 value=0x30 frame 006 00 00 72 40 30 58
02:01:36.748 TX cycle=1 p1=0x00 p2=0x00 cmd=0x73 state=0x40 value=0x30 frame 006 00 00 73 40 30 59
02:01:37.572 TX cycle=1 p1=0x00 p2=0x00 cmd=0x74 state=0x40 value=0x30 frame 006 00 00 74 40 30 5E
02:01:38.394 TX cycle=1 p1=0x00 p2=0x00 cmd=0x75 state=0x40 value=0x30 frame 006 00 00 75 40 30 5F
02:01:39.214 TX cycle=1 p1=0x00 p2=0x00 cmd=0x76 state=0x40 value=0x30 frame 006 00 00 76 40 30 5C
02:01:40.036 TX cycle=1 p1=0x00 p2=0x00 cmd=0x77 state=0x40 value=0x30 frame 006 00 00 77 40 30 5D
02:01:40.860 TX cycle=1 p1=0x00 p2=0x00 cmd=0x78 state=0x40 value=0x30 frame 006 00 00 78 40 30 52
02:01:41.684 TX cycle=1 p1=0x00 p2=0x00 cmd=0x79 state=0x40 value=0x30 frame 006 00 00 79 40 30 53
02:01:42.506 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7A state=0x40 value=0x30 frame 006 00 00 7A 40 30 50
02:01:43.330 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7B state=0x40 value=0x30 frame 006 00 00 7B 40 30 51
02:01:44.151 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7C state=0x40 value=0x30 frame 006 00 00 7C 40 30 56
02:01:44.974 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7D state=0x40 value=0x30 frame 006 00 00 7D 40 30 57
02:01:45.797 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7E state=0x40 value=0x30 frame 006 00 00 7E 40 30 54
02:01:46.622 TX cycle=1 p1=0x00 p2=0x00 cmd=0x7F state=0x40 value=0x30 frame 006 00 00 7F 40 30 55
FINAL heartbeat-compatible RX: 17 bytes, offset 1, 2 frames + 5 bytes
Anomalies: 1

22
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Direct response sweep: 16 frames x 1 cycles (16 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 30 bytes, offset 0, 5 frames + 0 bytes
02:03:36.274 TX cycle=1 p1=0x00 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 00 00 21 20 D0 8B
02:03:37.097 TX cycle=1 p1=0x01 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 01 00 21 20 D0 8A
02:03:37.097 ANOMALY 29 RX bytes; first mismatch at byte 5: got 07, heartbeat offset 1 expected 00
02:03:37.097 RX raw 00 00 00 80 DA 07 80 48 24 9D 2C 07 80 48 24 9D 2C 07 80 48 24 9D 2C 07 80 48 24 9D 2C
02:03:37.921 TX cycle=1 p1=0x02 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 02 00 21 20 D0 89
02:03:38.746 TX cycle=1 p1=0x03 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 03 00 21 20 D0 88
02:03:39.570 TX cycle=1 p1=0x04 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 04 00 21 20 D0 8F
02:03:40.396 TX cycle=1 p1=0x05 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 05 00 21 20 D0 8E
02:03:41.218 TX cycle=1 p1=0x06 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 06 00 21 20 D0 8D
02:03:42.040 TX cycle=1 p1=0x07 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 07 00 21 20 D0 8C
02:03:42.863 TX cycle=1 p1=0x08 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 08 00 21 20 D0 83
02:03:43.687 TX cycle=1 p1=0x09 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 09 00 21 20 D0 82
02:03:44.508 TX cycle=1 p1=0x0A p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 0A 00 21 20 D0 81
02:03:45.330 TX cycle=1 p1=0x0B p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 0B 00 21 20 D0 80
02:03:46.151 TX cycle=1 p1=0x0C p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 0C 00 21 20 D0 87
02:03:46.976 TX cycle=1 p1=0x0D p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 0D 00 21 20 D0 86
02:03:47.799 TX cycle=1 p1=0x0E p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 0E 00 21 20 D0 85
02:03:48.621 TX cycle=1 p1=0x0F p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 0F 00 21 20 D0 84
FINAL heartbeat-compatible RX: 30 bytes, offset 0, 5 frames + 0 bytes
Anomalies: 1

22
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Direct response sweep: 16 frames x 1 cycles (16 total) on COM5 at 38400 8N1
BASELINE heartbeat-compatible RX: 24 bytes, offset 0, 4 frames + 0 bytes
02:03:02.116 TX cycle=1 p1=0x00 p2=0x00 cmd=0x21 state=0x20 value=0xD0 frame 006 00 00 21 20 D0 8B
02:03:02.938 TX cycle=1 p1=0x00 p2=0x01 cmd=0x21 state=0x20 value=0xD0 frame 006 00 01 21 20 D0 8A
02:03:02.938 ANOMALY 24 RX bytes; first mismatch at byte 0: got 07, heartbeat offset 0 expected 00
02:03:02.938 RX raw 07 40 24 12 9D B6 07 40 24 12 9D B6 07 40 24 12 9D B6 07 40 24 12 9D B6
02:03:03.763 TX cycle=1 p1=0x00 p2=0x02 cmd=0x21 state=0x20 value=0xD0 frame 006 00 02 21 20 D0 89
02:03:04.586 TX cycle=1 p1=0x00 p2=0x03 cmd=0x21 state=0x20 value=0xD0 frame 006 00 03 21 20 D0 88
02:03:05.407 TX cycle=1 p1=0x00 p2=0x04 cmd=0x21 state=0x20 value=0xD0 frame 006 00 04 21 20 D0 8F
02:03:06.228 TX cycle=1 p1=0x00 p2=0x05 cmd=0x21 state=0x20 value=0xD0 frame 006 00 05 21 20 D0 8E
02:03:07.049 TX cycle=1 p1=0x00 p2=0x06 cmd=0x21 state=0x20 value=0xD0 frame 006 00 06 21 20 D0 8D
02:03:07.871 TX cycle=1 p1=0x00 p2=0x07 cmd=0x21 state=0x20 value=0xD0 frame 006 00 07 21 20 D0 8C
02:03:08.692 TX cycle=1 p1=0x00 p2=0x08 cmd=0x21 state=0x20 value=0xD0 frame 006 00 08 21 20 D0 83
02:03:09.513 TX cycle=1 p1=0x00 p2=0x09 cmd=0x21 state=0x20 value=0xD0 frame 006 00 09 21 20 D0 82
02:03:10.334 TX cycle=1 p1=0x00 p2=0x0A cmd=0x21 state=0x20 value=0xD0 frame 006 00 0A 21 20 D0 81
02:03:11.154 TX cycle=1 p1=0x00 p2=0x0B cmd=0x21 state=0x20 value=0xD0 frame 006 00 0B 21 20 D0 80
02:03:11.981 TX cycle=1 p1=0x00 p2=0x0C cmd=0x21 state=0x20 value=0xD0 frame 006 00 0C 21 20 D0 87
02:03:12.804 TX cycle=1 p1=0x00 p2=0x0D cmd=0x21 state=0x20 value=0xD0 frame 006 00 0D 21 20 D0 86
02:03:13.628 TX cycle=1 p1=0x00 p2=0x0E cmd=0x21 state=0x20 value=0xD0 frame 006 00 0E 21 20 D0 85
02:03:14.451 TX cycle=1 p1=0x00 p2=0x0F cmd=0x21 state=0x20 value=0xD0 frame 006 00 0F 21 20 D0 84
FINAL heartbeat-compatible RX: 18 bytes, offset 0, 3 frames + 0 bytes
Anomalies: 1

358
docs/discovery-notes.md
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@@ -9449,3 +9449,361 @@ Current read after including the paused runs:
across parallel surfaces
- so the "semi-awake" question is probably about which of these surfaces is the
right maintained background class, not about whether the map exists at all
### HE39: Narrow In On The `0x50 24 DD 74` Band
Working idea: the `0x40-0x5F @ 20 D0` region may be a stronger maintained
background class than the earlier low-band `0x40 24 DD 64` region.
Known lead so far:
- `0x41 @ 20 D0` -> `07 80 50 24 DD 74`
- paused run also showed:
- `0x45` -> `07 80 51 24 DD 75`
- `0x49` -> `07 80 52 24 DD 76`
- `0x4D` -> `07 80 53 24 DD 77`
- `0x59` -> `07 80 56 24 DD 72`
- `0x5D` -> `07 80 57 24 DD 73`
Goal: see whether this band:
- holds the panel clear longer,
- behaves better as a maintained subset,
- or opens anything richer than the earlier `0x40 24 DD 64` surface.
#### HE39a: repeat only `0x41 @ 20 D0`
Target frame:
- `00 00 41 20 D0 EB`
```powershell
python scripts/serial_probe_response.py --port COM5 --tx-frame "00 00 41 20 D0 EB" --repeat 30 --interval 0.60 --delay 3 --after 3 --frame-size 0 --log captures/he39-repeat-cmd41-20d0.txt
```
#### HE39b: repeat only `0x45 @ 20 D0`
Target frame:
- `00 00 45 20 D0 EF`
```powershell
python scripts/serial_probe_response.py --port COM5 --tx-frame "00 00 45 20 D0 EF" --repeat 30 --interval 0.60 --delay 3 --after 3 --frame-size 0 --log captures/he39-repeat-cmd45-20d0.txt
```
#### HE39c: repeat only `0x49 @ 20 D0`
Target frame:
- `00 00 49 20 D0 E3`
```powershell
python scripts/serial_probe_response.py --port COM5 --tx-frame "00 00 49 20 D0 E3" --repeat 30 --interval 0.60 --delay 3 --after 3 --frame-size 0 --log captures/he39-repeat-cmd49-20d0.txt
```
#### HE39d: small `0x50`-band mixer
```powershell
python scripts/serial_sequence_probe.py --port COM5 --prompt --prompt-screen --pre-read 2.0 --frame "00 00 41 20 D0 EB" --frame "00 00 45 20 D0 EF" --frame "00 00 49 20 D0 E3" --repeat 10 --frame-interval 0.60 --read-after-frame 0.20 --read-after-group 0.80 --log captures/he39-mixer-41-45-49-20d0.txt
```
#### HE39e: wide `0x50`-band mixer
```powershell
python scripts/serial_sequence_probe.py --port COM5 --prompt --prompt-screen --pre-read 2.0 --frame "00 00 41 20 D0 EB" --frame "00 00 45 20 D0 EF" --frame "00 00 49 20 D0 E3" --frame "00 00 4D 20 D0 E7" --frame "00 00 59 20 D0 F3" --frame "00 00 5D 20 D0 F7" --repeat 6 --frame-interval 0.60 --read-after-frame 0.20 --read-after-group 1.0 --log captures/he39-mixer-50band-wide-20d0.txt
```
#### HE39f: control repeat from the older low-band lead
Target frame:
- `00 00 01 20 D0 AB`
```powershell
python scripts/serial_probe_response.py --port COM5 --tx-frame "00 00 01 20 D0 AB" --repeat 30 --interval 0.60 --delay 3 --after 3 --frame-size 0 --log captures/he39-repeat-cmd01-20d0-control.txt
```
#### Recommended order
1. `HE39a` repeat `0x41`
2. `HE39f` control repeat `0x01`
3. `HE39b` repeat `0x45`
4. `HE39c` repeat `0x49`
5. `HE39d` small `41/45/49` mixer
6. `HE39e` wide `0x50`-band mixer
Interpretation guide:
- if `0x41/0x45/0x49` hold the panel clear longer than `0x01`, the `0x50` band
is probably a better maintained-background candidate
- if the mixer behaves better than any one frame, that supports a small
recurring in-family scan model
- if everything behaves the same as `0x01`, then this is probably just another
parallel mapped surface, not a privileged wake-adjacent one
#### HE39 results
Observed panel behavior across all HE39 runs:
- all runs kept the panel in the clear / semi-awake state for the duration of
the script
- none produced a fuller wake-up beyond that state
Single-frame repeat results:
- `HE39a` repeating `00 00 41 20 D0 EB`:
- first send: heartbeat only
- second send: opens `07 80 50 24 DD 74`
- several copies of that family then drain out
- later repeats stay heartbeat-only
- `HE39b` repeating `00 00 45 20 D0 EF`:
- first send: heartbeat only
- second send: opens `07 80 51 24 DD 75`
- then returns to heartbeat-only behavior
- `HE39c` repeating `00 00 49 20 D0 E3`:
- first send: heartbeat only
- second send: opens `07 80 52 24 DD 76`
- several copies drain out, then heartbeat only
- `HE39f` control repeating `00 00 01 20 D0 AB`:
- same overall pattern as before
- second send opens `07 80 40 24 DD 64`
- later repeats are heartbeat-only
Mixer results:
- `HE39d` small `41/45/49` mixer:
- group 1 only:
- `0x41`: no RX
- `0x45`: opens `07 80 51 24 DD 75`
- `0x49`: drains more `07 80 51 24 DD 75`
- later groups are heartbeat-compatible only
- `HE39e` wide `41/45/49/4D/59/5D` mixer:
- same practical pattern as the small mixer
- group 1 opens on `0x45` into `07 80 51 24 DD 75`
- later `0x49/4D/59/5D` frames do not open additional stages
- later groups are heartbeat-compatible only
Takeaways:
- the `0x50`-band is real and coherent:
- `0x41` -> `07 80 50 24 DD 74`
- `0x45` -> `07 80 51 24 DD 75`
- `0x49` -> `07 80 52 24 DD 76`
- but it behaves serially just like the older low-band `0x40 24 DD 64` lead:
- an early one-shot family burst
- then flat heartbeat-compatible maintenance
- so the "keeps the panel alive" effect is broader than one specific command
slot inside the `20 D0` surface
- the mixers did not outperform the simpler repeats
- current best read: this is another maintained-background surface, not yet a
privileged wake-up band
### HE40: Completion Sweeps For Untouched Areas
Goal: do a more systematic "dot the i's and cross the t's" pass over the
largest command-space areas we still have not really touched.
Important mode choice for this ladder:
- **do not use `--pause-on-anomaly`**
- these are coverage runs first
- we want them to complete and leave a clean map, even if that means the panel
falls out of the semi-awake state partway through
Primary untouched areas from the current map:
- `0x60-0xFF @ 20 D0`
- most of the command space above the sampled `0x20-0x3F @ 40 30` pass
- most nonzero host prefix combinations on a known-live slot
#### Phase 1: extend the `20 D0` surface through the upper command space
#### HE40a: `0x60-0x7F @ 20 D0`
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00 --commands 0x60-0x7F --states 0x20 --values 0xD0 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-direct-20d0-cmd60-7f.txt
```
#### HE40b: `0x80-0x9F @ 20 D0`
Had several anomolys without entering CONNECT NOT ACT
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00 --commands 0x80-0x9F --states 0x20 --values 0xD0 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-direct-20d0-cmd80-9f.txt
```
#### HE40c: `0xA0-0xBF @ 20 D0`
Did not enter CONNECT NOT ACT until half way through the run
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00 --commands 0xA0-0xBF --states 0x20 --values 0xD0 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-direct-20d0-cmda0-bf.txt
```
#### HE40d: `0xC0-0xDF @ 20 D0`
Stayed alive for half the run
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00 --commands 0xC0-0xDF --states 0x20 --values 0xD0 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-direct-20d0-cmdc0-df.txt
```
#### HE40e: `0xE0-0xFF @ 20 D0`
Stayed alive for half the run
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00 --commands 0xE0-0xFF --states 0x20 --values 0xD0 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-direct-20d0-cmde0-ff.txt
```
#### Phase 2: broaden the `40 30` parallel surface
#### HE40f: `0x40-0x5F @ 40 30`
Stayed alive the whole run
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00 --commands 0x40-0x5F --states 0x40 --values 0x30 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-direct-4030-cmd40-5f.txt
```
#### HE40g: `0x60-0x7F @ 40 30`
Stayed alive whole run
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00 --commands 0x60-0x7F --states 0x40 --values 0x30 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-direct-4030-cmd60-7f.txt
```
#### HE40h: `0x00-0x1F @ 40 30`
Stayed alive whole run
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00 --commands 0x00-0x1F --states 0x40 --values 0x30 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-direct-4030-cmd00-1f.txt
```
#### Phase 3: small host-prefix completion pass on a known live slot
These are not full protocol sweeps. They are a practical way to check whether
nonzero host prefixes hide another aligned surface on a command we already know
is live.
Known live slot chosen for prefix probing:
- `cmd=0x21`, `state/value=20 D0`
#### HE40i: `prefix2=0x00-0x0F` on `cmd=0x21 @ 20 D0`
Stayed alive whole run
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00 --prefix2s 0x00-0x0F --commands 0x21 --states 0x20 --values 0xD0 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-prefix2-00-0f-cmd21-20d0.txt
```
#### HE40j: `prefix1=0x00-0x0F` on `cmd=0x21 @ 20 D0`
Stayed alive whole run
```powershell
python scripts/serial_direct_response_sweep.py --port COM5 --prefix1s 0x00-0x0F --prefix2s 0x00 --commands 0x21 --states 0x20 --values 0xD0 --settle 3.0 --after-each 0.8 --after 2.0 --log captures/he40-prefix1-00-0f-cmd21-20d0.txt
```
#### Recommended order
1. `HE40a` `0x60-0x7F @ 20 D0`
2. `HE40g` `0x60-0x7F @ 40 30`
3. `HE40b` `0x80-0x9F @ 20 D0`
4. `HE40f` `0x40-0x5F @ 40 30`
5. `HE40c` `0xA0-0xBF @ 20 D0`
6. `HE40d` `0xC0-0xDF @ 20 D0`
7. `HE40e` `0xE0-0xFF @ 20 D0`
8. `HE40h` `0x00-0x1F @ 40 30`
9. `HE40i` prefix2 sweep
10. `HE40j` prefix1 sweep
Interpretation guide:
- if `20 D0` continues to produce aligned families well past `0x5F`, then the
maintained-background surface is much broader than we first thought
- if `40 30` mirrors the same bands with a parallel surface, that strengthens
the "payload pair selects surface, command selects slot" model
- if the prefix sweeps stay flat, then prefixes are probably less important
than command and payload pair for the surfaces we have been mapping
- if one prefix range opens a new aligned family on `cmd=0x21`, that becomes a
very strong next branch
#### HE40 results
Your bench notes on panel behavior:
- `HE40b` (`0x80-0x9F @ 20 D0`): several anomalies without entering
`CONNECT NOT ACT`
- `HE40c` (`0xA0-0xBF @ 20 D0`): note added in the docs, but no matching
capture file was present yet in `captures/`
- `HE40d` (`0xC0-0xDF @ 20 D0`): panel stayed alive for about half the run
- `HE40e` (`0xE0-0xFF @ 20 D0`): panel stayed alive for about half the run
- `HE40f/g/h` (`40 30` command sweeps): panel stayed alive for the whole run
- `HE40i/j` (prefix sweeps): panel stayed alive for the whole run
Structured results:
#### `0x60-0x7F @ 20 D0`
- `0x61` -> `07 80 58 24 DD 7C`
- `0x62` and `0x63` then drain more of that same `58 24 DD 7C` family
- this extends the `20 D0` maintained surface cleanly upward into the `0x60`
band
#### `0x80-0x9F @ 20 D0`
- `0x81` -> `07 80 60 24 DD 44`
- same broad shape as the earlier `48/50/58` families, but now stepping into a
new `0x60` family block
#### `0xC0-0xDF @ 20 D0`
- `0xC1` -> `07 80 70 24 DD 54`
#### `0xE0-0xFF @ 20 D0`
- `0xE1` -> `07 80 78 24 DD 5C`
Taken together, the confirmed `20 D0` ladder now includes:
- `0x01` -> `07 80 40 24 DD 64`
- `0x21` -> `07 80 48 24 DD 6C`
- `0x41` -> `07 80 50 24 DD 74`
- `0x61` -> `07 80 58 24 DD 7C`
- `0x81` -> `07 80 60 24 DD 44`
- `0xC1` -> `07 80 70 24 DD 54`
- `0xE1` -> `07 80 78 24 DD 5C`
That is a much stronger pattern than a few isolated hits. It looks like a real
upper command lattice.
#### `0x00-0x1F @ 40 30`
- `0x01` -> `07 80 40 28 D3 66`
#### `0x40-0x5F @ 40 30`
- `0x41` -> `07 80 50 28 D3 76`
#### `0x60-0x7F @ 40 30`
- `0x61` -> `07 80 58 28 D3 7E`
This confirms the `40 30` surface is a true aligned parallel of the `20 D0`
surface, not just a one-region curiosity.
#### Prefix completion on `cmd=0x21 @ 20 D0`
The prefix passes did **not** stay flat.
- `HE40i` varying `prefix2`, with `00 01 21 20 D0 8A`, opened:
- `07 40 24 12 9D B6`
- `HE40j` varying `prefix1`, with `01 00 21 20 D0 8A`, opened:
- `07 80 48 24 9D 2C`
That makes prefixes more interesting than the earlier simple model assumed.
They do not yet look like the main thing selecting the broad maintained
surfaces, but they clearly can perturb a known-live slot into a different
response family.
Takeaways:
- the upper command space is **not** untouched noise; it continues the same
structured lattice far above `0x5F`
- `20 D0` now looks like a very broad maintained-background class
- `40 30` mirrors it as a clean parallel surface
- nonzero prefixes are not dead:
- they can open altered variants on a known live command slot
- the only obvious completion gap from this pass is `HE40c`:
- `0xA0-0xBF @ 20 D0` still needs its matching capture if we want the ladder
complete

185
docs/pt2-protocol-summary.md
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@@ -494,6 +494,34 @@ Current caution:
- So the best current model is a parallel set of response surfaces selected in
part by the host payload pair, with the remaining question being which surface
behaves like the true maintained background layer for an active panel.
- A tighter HE39 pass on the `0x50`-band showed:
- `0x41 @ 20 D0` -> `07 80 50 24 DD 74`
- `0x45 @ 20 D0` -> `07 80 51 24 DD 75`
- `0x49 @ 20 D0` -> `07 80 52 24 DD 76`
- all of those can keep the panel in the clear / semi-awake state while the
script is active
- but serially they still behave as one-shot branch openings followed by
heartbeat-compatible maintenance, not as a richer multi-turn wake sequence
- So the `0x50`-band currently looks like another valid maintained-background
surface inside the broader `20 D0` class, not yet a uniquely privileged
"real wake" surface.
- A later HE40 completion pass extended that picture much farther upward:
- `0x61 @ 20 D0` -> `07 80 58 24 DD 7C`
- `0x81 @ 20 D0` -> `07 80 60 24 DD 44`
- `0xC1 @ 20 D0` -> `07 80 70 24 DD 54`
- `0xE1 @ 20 D0` -> `07 80 78 24 DD 5C`
- That means the `20 D0` surface now looks like a broad upper command lattice,
not just a low-band or mid-band pocket.
- HE40 also reinforced that `40 30` is a true aligned parallel surface:
- `0x01 @ 40 30` -> `07 80 40 28 D3 66`
- `0x41 @ 40 30` -> `07 80 50 28 D3 76`
- `0x61 @ 40 30` -> `07 80 58 28 D3 7E`
- Small prefix-completion sweeps on `cmd=0x21 @ 20 D0` showed that nonzero
prefixes are not inert:
- `p2=0x01` opened `07 40 24 12 9D B6`
- `p1=0x01` opened `07 80 48 24 9D 2C`
- So prefixes probably do **not** define the main lattice by themselves, but
they can perturb a known-live slot into variant families.
## What We Do Not Know
@@ -546,6 +574,163 @@ Current best read:
stream that would normally feed the LCD, indicators, and value displays once
the session is established
## Probable CCU <-> RCP Traffic Model
This is an inferred working model, not yet a proof. It is the best current
attempt to explain both the manuals and the bench behavior using the same
mental picture.
### High-level picture
Current best read:
- the **CCU** probably holds the richer master state for the camera system
- the **RCP** behaves more like a smart terminal:
- it sends operator events upstream
- it receives recurring camera/session state downstream
- it renders that state onto the LCD, lamps, and numeric readouts
That would fit:
- the manuals describing filter, extender, self-diagnosis, and other camera
state on the RCP display
- the broad structured lattices now observed in the host-to-RCP direction
- the way repeated valid-looking traffic can keep the panel semi-awake without
fully activating it
### Likely traffic layers
#### 1. Startup / identity / mode layer
Probable job:
- establish PT2/TX7 personality
- announce CCU or camera-side mode/class
- select a broad session context before live status traffic begins
Best candidate families so far:
- `90` startup-beacon surface:
- `07 80 64 40 30 C9`
- `07 80 E4 40 30 49`
- `AF` startup-beacon surface:
- `07 80 0D 04 AB 7F`
- `07 80 0D 04 EB 3F`
- `A0` appears to act as an opener or primer in several selector contexts
Current interpretation:
- these look more like startup or class beacons than maintained live camera
state by themselves
#### 2. Maintained background status layer
Probable job:
- keep the panel in a live or semi-live session state
- refresh recurring camera/control pages
- provide the "boring background scan" a 1990s CCU would likely send
Best candidate surfaces so far:
- `20 D0` lattice:
- `0x01 -> 07 80 40 24 DD 64`
- `0x21 -> 07 80 48 24 DD 6C`
- `0x41 -> 07 80 50 24 DD 74`
- `0x61 -> 07 80 58 24 DD 7C`
- `0x81 -> 07 80 60 24 DD 44`
- `0xC1 -> 07 80 70 24 DD 54`
- `0xE1 -> 07 80 78 24 DD 5C`
- parallel `40 30` lattice:
- `0x01 -> 07 80 40 28 D3 66`
- `0x41 -> 07 80 50 28 D3 76`
- `0x61 -> 07 80 58 28 D3 7E`
- baseline `00 80` lattice:
- similar command slots but through `.. 20 D8 ..` surfaces
Current interpretation:
- these look like page/slot/status surfaces more than isolated commands
- a real CCU may repeatedly scan a small subset of these, not the whole space
- the panel's semi-awake behavior strongly suggests that at least part of this
layer is real maintained traffic
#### 3. Detail / page / selector layer
Probable job:
- select which family or page of data is being discussed
- open branches corresponding to different camera/status domains
Best candidate families so far:
- `E8`, `E9`, `EC` selector-like branches
- opener/context family around `A0`, `90`, `AF`
- downstream siblings:
- `7A`
- `7B`
- `FB`
- `FA`
- `E4`
Current interpretation:
- these may represent internal page classes or selector families
- they probably help choose *which* maintained or readable surface is live
- they do not yet look like the final always-on camera-state stream by
themselves
#### 4. Operator event layer
Probable job:
- carry human actions from the RCP to the CCU/camera side
Best candidate families so far:
- CALL path:
- host synthetic high/low pair can provoke `07 80 45 20 D0 68`
- CAM POWER and some other buttons:
- visible as outbound panel-origin activity
- but not yet shown to wake the panel or advance a session on their own
Current interpretation:
- this layer is probably mostly upstream: RCP telling the CCU what the operator
just did
- the event path alone is not enough to create an active session
### Most likely division of responsibility
If this model is right, then:
- the **CCU** likely maintains the richer camera-state lattice internally
- the **RCP** likely maintains a smaller local cache:
- current screen/page
- local control state
- most recently received camera values
- active indicator/lamp state
That would explain why:
- broad command sweeps find orderly families
- many repeated frames keep the panel semi-awake
- but the panel still refuses to fully wake without the right overall stream
### What this suggests for bench work
The main practical implication is:
- stop thinking only in terms of a single hidden wake frame
- keep thinking in terms of:
- startup beacon/context
- then a believable recurring maintained subset
- then additional detail pages layered on top
So the most likely missing ingredient is not just "more valid bytes." It is
probably a **specific recurring traffic mix** that a real CCU would send once
it had already identified the panel and camera path.
## Restoration Strategy
Near-term practical strategy:

27
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@@ -28,6 +28,33 @@ The current evidence suggests the panel behavior is shaped by several layers:
We have good evidence for layers 1-4. Layer 5 is still missing.
## Probable System-Level Flow
At the system level, the best current model is:
1. startup / identity / mode traffic
2. maintained background status scan
3. selector/detail pages layered onto that background
4. operator events flowing back upstream
5. unknown final condition that makes the panel fully active
This is less like a tiny request/ack protocol and more like a multiplexed
camera-state bus with a control return path.
Working split:
- **CCU side** probably holds the richer master camera/session state lattice
- **RCP side** probably behaves like a smart terminal that:
- caches a smaller local state
- displays received camera/session values
- sends button/control events back upstream
That model fits the manuals unusually well:
- LCD/status content such as filter, extender, and self-diagnosis data
- semi-awake behavior under recurring host traffic
- broad structured command/slot lattices under several payload surfaces
## Baseline States
### S0: Idle / Not Active