Twizy-Virtual-BMS/examples/Template/TwizyVirtualBMS_config.h
Michael Balzer ce7c6e8311 - New API calls stateName(), stateName(state)
- No out of bounds error messages in TWIZY_DEBUG_LEVEL 0
- Donors update
2017-08-17 22:59:15 +02:00

44 lines
1.5 KiB
C

/**
* ==========================================================================
* Twizy Virtual BMS: Configuration
* ==========================================================================
*/
#ifndef _TwizyVirtualBMS_config_h
#define _TwizyVirtualBMS_config_h
// Serial debug output:
// Level 0 = none, only output init message
// Level 1 = log state transitions, errors & CAN statistics
// Level 2 = log CAN frame dumps (10 second interval)
#define TWIZY_DEBUG_LEVEL 1
// Set to 0 to disable CAN transmissions for testing:
#define TWIZY_CAN_SEND 1
// CAN send timing is normally 10 ms (10.000 us).
// You may need to lower this if your Arduino is too slow.
#define TWIZY_CAN_CLOCK_US 10000
// VirtualBMS can use Timer1 (16 bit), Timer2 (8 bit) or Timer3 (16bit)
// Select Timer2/3 if you need Timer1 for e.g. AltSoftSerial
#define TWIZY_USE_TIMER 1
// Timer2: precise resolutions depend on CPU type & clock frequency
// i.e. Arduino Nano 16 MHz: 1000 = 1 ms / 2000 = 0.5 ms / 5000 = 0.2 ms / 10000 = 0.1 ms
// Use lowest resolution possible to minimize side effects on AltSoftSerial
#define TWIZY_TIMER2_RESOLUTION 1000
// Set your MCP clock frequency here:
#define TWIZY_CAN_MCP_FREQ MCP_16MHZ
// Set your SPI CS pin number here:
#define TWIZY_CAN_CS_PIN 10
// Uncomment if you've connected the CAN module's IRQ pin:
//#define TWIZY_CAN_IRQ_PIN 2
// Set your 3MW (ECU_OK) control pin here:
#define TWIZY_3MW_CONTROL_PIN 3
#endif // _TwizyVirtualBMS_config_h