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CubeSatSim
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rest of battery voltages and currents

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pull/114/head
alanbjohnston 5 years ago committed by GitHub
parent c33ee9a02d
commit 50cff5a94e
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GPG Key ID: 4AEE18F83AFDEB23
1 changed files with 33 additions and 4 deletions
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35
afsk/main.c
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@ -1440,7 +1440,6 @@ void get_tlm_fox() {
negZv = (int)(voltage[map[MINUS_Z]] * 100);
batt_c_v = (int)(voltage[map[BAT]] * 100);
battCurr = (int)(current[map[BAT]] + 0.5) + 2048;
PSUVoltage = (int)(voltage[map[BUS]] * 100);
PSUCurrent = (int)(current[map[BUS]] + 0.5) + 2048;
@ -1499,11 +1498,41 @@ void get_tlm_fox() {
encodeA(b_max, 12 + head_offset, (int)(voltage_max[map[PLUS_X]] * 100));
encodeB(b_max, 13 + head_offset, (int)(voltage_max[map[PLUS_Y]] * 100));
encodeA(b_max, 15 + head_offset, (int)(voltage_max[map[PLUS_Z]] * 100));
encodeB(b_max, 16 + head_offset, (int)(voltage_max[map[MINUS_X]] * 100));
encodeA(b_max, 18 + head_offset, (int)(voltage_max[map[MINUS_Y]] * 100));
encodeB(b_max, 19 + head_offset, (int)(voltage_max[map[MINUS_Z]] * 100));
encodeA(b_max, 21 + head_offset, (int)(current_max[map[PLUS_X]] * 100));
encodeB(b_max, 22 + head_offset, (int)(current_max[map[PLUS_Y]] * 100));
encodeA(b_max, 24 + head_offset, (int)(current_max[map[PLUS_Z]] * 100));
encodeB(b_max, 25 + head_offset, (int)(current_max[map[MINUS_X]] * 100));
encodeA(b_max, 27 + head_offset, (int)(current_max[map[MINUS_Y]] * 100));
encodeB(b_max, 28 + head_offset, (int)(current_max[map[MINUS_Z]] * 100));
encodeA(b_max, 9 + head_offset, (int)(current_max[map[BAT]] + 0.5) + 2048);
encodeA(b_max, 3 + head_offset, (int)(voltage_max[map[BAT]] * 100));
encodeA(b_max, 30 + head_offset, (int)(voltage_max[map[BUS]] * 100));
encodeB(b_max, 46 + head_offset, (int)(current_max[map[BUS]] + 0.5) + 2048);
encodeA(b_min, 12 + head_offset, (int)(voltage_min[map[PLUS_X]] * 100));
encodeB(b_min, 13 + head_offset, (int)(voltage_min[map[PLUS_Y]] * 100));
}
encodeA(b_min, 15 + head_offset, (int)(voltage_min[map[PLUS_Z]] * 100));
encodeB(b_min, 16 + head_offset, (int)(voltage_min[map[MINUS_X]] * 100));
encodeA(b_min, 18 + head_offset, (int)(voltage_min[map[MINUS_Y]] * 100));
encodeB(b_min, 19 + head_offset, (int)(voltage_min[map[MINUS_Z]] * 100));
encodeA(b_min, 21 + head_offset, (int)(current_min[map[PLUS_X]] * 100));
encodeB(b_min, 22 + head_offset, (int)(current_min[map[PLUS_Y]] * 100));
encodeA(b_min, 24 + head_offset, (int)(current_min[map[PLUS_Z]] * 100));
encodeB(b_min, 25 + head_offset, (int)(current_min[map[MINUS_X]] * 100));
encodeA(b_min, 27 + head_offset, (int)(current_min[map[MINUS_Y]] * 100));
encodeB(b_min, 28 + head_offset, (int)(current_min[map[MINUS_Z]] * 100));
encodeA(b_min, 9 + head_offset, (int)(current_min[map[BAT]] + 0.5) + 2048);
encodeA(b_min, 3 + head_offset, (int)(voltage_min[map[BAT]] * 100));
encodeA(b_min, 30 + head_offset, (int)(voltage_min[map[BUS]] * 100));
encodeB(b_min, 46 + head_offset, (int)(current_min[map[BUS]] + 0.5) + 2048);
encodeA(b, 30 + head_offset, PSUVoltage);
// encodeB(b, 31 + head_offset,(spin * 10) + 2048);

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