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Martin Jäger authored
- Use LMR38010 for internal power supply (max. 80V instead of 60V) - Change USB connector from Micro-A to C and remove 5V power supply which was not working anyway. The board cannot be powered by USB only. - Add TS2 (connected to DFETOFF) to measure shunt temperature - Add RS-485 transceiver (sharing the connector with CAN) - Switch I2C pins of ESP32-C3 to GPIO8/9. This allows to re-use the I2C pull-ups for strapping configuration and frees two pins for the RS-485 transceiver RE and DE pins. Also we may get rid of the I2C glitches during start-up. - Use 80V instead of 100V power MOSFETs to reduce Rds(on). - Reduce DSG gate resistor R57 to 47R to increase switch-off speed. - Adjust some resistors to reduce number of different parts
Martin Jäger authored- Use LMR38010 for internal power supply (max. 80V instead of 60V) - Change USB connector from Micro-A to C and remove 5V power supply which was not working anyway. The board cannot be powered by USB only. - Add TS2 (connected to DFETOFF) to measure shunt temperature - Add RS-485 transceiver (sharing the connector with CAN) - Switch I2C pins of ESP32-C3 to GPIO8/9. This allows to re-use the I2C pull-ups for strapping configuration and frees two pins for the RS-485 transceiver RE and DE pins. Also we may get rid of the I2C glitches during start-up. - Use 80V instead of 100V power MOSFETs to reduce Rds(on). - Reduce DSG gate resistor R57 to 47R to increase switch-off speed. - Adjust some resistors to reduce number of different parts
