STC15 series MCS bytes ====================== MCS3 is like early STC15 MCS1. MCS2 is like early STC15 MCS2. MCS4 is like early STC15 MCS0 but with additions. MCSX is like early STC15 MCS12. MCSY is new in STC15W4 series baseline B5 FF F7 BB 9F long por disabled B6 FF F7 BB 1F --> MCS4 bit 7 controls POR delay. low => short, high => long reset pin as io disabled B8 FF F7 BB 8F --> MCS4 bit 4 controls reset pin. low => reset is normal, high => reset is io low voltage reset disabled B6 FF F7 FB 9F --> MCS3 bit 6 controls low voltage reset. low => lv reset enabled, high => disabled lvd threshold 2.61v B8 FF F7 BA 9F lvd threshold 2.82v B5 FF F7 B9 9F lvd threshold 3.08v B6 FF F7 B8 9F --> MCS3 bits 0-2 control LVD threshold setting. exact mapping not yet clear. eeprom lv inhibit disabled B7 FF F7 3B 9F --> MCS3 bit 7 controls eeprom lv inhibit. high => eeprom lv inhibit enabled, low => disabled watchdog after reset enabled B6 FF D7 BB 9F --> MCS2 bit 5 controls watchdog after reset. high => disabled, low => enabled watchdog prescaler 128 B4 FF F6 BB 9F watchdog prescaler 64 B5 FF F5 BB 9F watchdog prescaler 32 B5 FF F4 BB 9F watchdog prescaler 2 B6 FF F0 BB 9F --> MCS2 bits 0-2 control watchdog prescaler. mapping is similar to early STC15. wdt stop in idle disabled B7 FF FF BB 9F erase eeprom next programming B4 FF F7 BB 9F --> it's somewhere else! it's bit 1 of the extra MCSX byte that is typically 0xfd. low => erase eeprom disabled, high => erase eeprom enabled p3.3 por state enabled B9 FF F7 BB 97 --> MCS4 bit 3 controls the p3.3 state. high => p3.3 high, low => p3.3 low p3.1 passthrough from p3.0 enabled B5 FF F7 BB DF --> MCS4 bit 2 controls the p3.1 passthrough. low => passthrough disabled, high => passthrough enabled p3.1 push pull enabled B5 FF F7 BB BF --> MCS4 bit 1 controls p3.1 push pull. low => quasi-bidi, high => push-pull bsl pindetect enabled B5 FF F7 BB BF --> somewhere else, MCSX bit 0. low => pindetect enabled, high => pindetect disabled. external oscillator enabled (IAP15F2K61S2) 9C 7F F7 BB 9E --> MCS4 bit 0 controls external oscillator. low => use external crystal, high => use RC. external oscillator enabled + clock gain low (IAP15F2K61S2) 9C 7F F7 BB 9C --> MCS 4 bit controls clock gain. high => high clock gain, low => low clock gain. cpu core supply level (MCSY) in status packet: 2.68v 46 B9 68 00 34 50 8D FF 73 96 F7 BC 9F 00 5B 7A C0 FD 27 ED 00 00 73 54 00 F5 28 04 06 70 96 02 15 19 1C 1E 23 00 EC E0 04 D7 EA 92 FF FF FF 15 09 25 60 14 BD 16 3.33v 46 B9 68 00 34 50 8D FF 73 96 F7 BC 9F 00 5B 92 30 FD 25 EA 00 FC 73 54 00 F5 28 04 06 70 96 02 15 19 1C 1E 23 00 EC E0 04 D7 F7 92 FF FF FF 15 09 25 60 15 49 16 3.63v 46 B9 68 00 34 50 8D FF 73 96 F7 BC 9F 00 5B 7A C0 FD 25 EF 00 00 73 54 00 F5 28 04 06 70 96 02 15 19 1C 1E 23 00 EC E0 04 D7 FD 92 FF FF FF 15 09 25 60 14 D0 16 3.73v 46 B9 68 00 34 50 8D FF 73 96 F7 BC 9F 00 5B 92 30 FD 25 EA 00 00 73 54 00 F5 28 04 06 70 96 02 15 19 1C 1E 23 00 EC E0 04 D7 FF 92 FF FF FF 15 09 25 60 14 55 16 ^^ MCSY voltage: ff -> 3.73v fd -> 3.63v f7 -> 3.33v ea -> 2.68v in set options packet: 46 B9 6A 00 4B 04 00 00 5A A5 FF FF FF 00 FF FF 00 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 FF A8 FF EE FF E0 FF FD 03 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FD FF FF FF 75 BF F7 BC 9F 3A 80 16 ^^ MCSY