/* * xp_write_xpwm_time.h * * Created on: 03 апр. 2018 г. * Author: stud */ #ifndef XP_WRITE_TIME_H_ #define XP_WRITE_TIME_H_ #include "word_structurs.h" #define PWM_ERROR_LEVEL_INTERRUPT 0 // не определили где мы, ошибка!!! #define PWM_LOW_LEVEL_INTERRUPT 1 // мы внизу пилы #define PWM_HIGH_LEVEL_INTERRUPT 2 // мы вверху пилы #define PWM_MODE_RELOAD_FORCE 0 // обновлять все значения #define PWM_MODE_RELOAD_LEVEL_LOW 1 // обновлять значения для низа пилы, для saw_direct=1 #define PWM_MODE_RELOAD_LEVEL_HIGH 2 // обновлять значения для верха пилы, для saw_direct=0 #define PWM_KEY_NUMBER_A1_PLUS 0 #define PWM_KEY_NUMBER_A1_MINUS 1 #define PWM_KEY_NUMBER_B1_PLUS 2 #define PWM_KEY_NUMBER_B1_MINUS 3 #define PWM_KEY_NUMBER_C1_PLUS 4 #define PWM_KEY_NUMBER_C1_MINUS 5 #define PWM_KEY_NUMBER_A2_PLUS 6 #define PWM_KEY_NUMBER_A2_MINUS 7 #define PWM_KEY_NUMBER_B2_PLUS 8 #define PWM_KEY_NUMBER_B2_MINUS 9 #define PWM_KEY_NUMBER_C2_PLUS 10 #define PWM_KEY_NUMBER_C2_MINUS 11 #define PWM_KEY_NUMBER_BR1_PLUS 12 #define PWM_KEY_NUMBER_BR1_MINUS 13 #define PWM_KEY_NUMBER_BR2_PLUS 14 #define PWM_KEY_NUMBER_BR2_MINUS 15 ////////////////////////////////////////////////////////////////////// #define ENABLE_PWM_BREAK_ALL 0x0fff #define ENABLE_PWM_BREAK_1 0xcfff #define ENABLE_PWM_BREAK_2 0x3fff #define ENABLE_PWM_1 0xffc0 #define ENABLE_PWM_2 0xf03f #define ENABLE_PWM_1_2 0xf000 #define ENABLE_PWM_ALL 0x0000 // #define DISABLE_PWM_BREAK_ALL 0xf000 #define DISABLE_PWM_BREAK_1 0x3000 #define DISABLE_PWM_BREAK_2 0xc000 #define DISABLE_PWM_1 0x003f #define DISABLE_PWM_2 0x0fc0 #define DISABLE_PWM_1_2 0x0fff #define DISABLE_PWM_ALL 0xffff /// #define DISABLE_PWM_A1 0x0003 #define DISABLE_PWM_B1 0x000c #define DISABLE_PWM_C1 0x0030 #define DISABLE_PWM_A2 0x00c0 #define DISABLE_PWM_B2 0x0300 #define DISABLE_PWM_C2 0x0c00 // ////////////////////////////////////////////////////////////////////// /* * PWM - Start Stop * (15) - Soft start-stop m0de 1- soft mode enabled, 0 -disabled. Если выбран режим мЯгкой остановки, то при подаче * сигнала стоп(0)-регистр = 0, выходы блокируютсЯ в момент перегиба пилы (после подачи сигнала остановки)., если нет- сразу. * Аналогично применЯютсЯ маски- при soft mode маски применЯютсЯ в момент перегиба. * ВАЖНО! ДлЯ моментальной остановки ШИМа данный регистр должен быть равен нулю. * (0) - 1 -start, 0 - stop */ #define PWM_START_SOFT 0x8001 #define PWM_START_HARD 0x0001 #define PWM_STOP_SOFT 0x8000 #define PWM_STOP_HARD 0x0000 ///////////////////////////////////// ///////////////////////////////////// typedef struct { // Winding 1 times unsigned int Ta0_0; unsigned int Ta0_1; unsigned int Tb0_0; unsigned int Tb0_1; unsigned int Tc0_0; unsigned int Tc0_1; // Winding 2 times unsigned int Ta1_0; unsigned int Ta1_1; unsigned int Tb1_0; unsigned int Tb1_1; unsigned int Tc1_0; unsigned int Tc1_1; // Break transistors unsigned int Tbr0_0; unsigned int Tbr0_1; unsigned int Tbr1_0; unsigned int Tbr1_1; //Level transistors closed unsigned int Tclosed_0; unsigned int Tclosed_1; unsigned int Tclosed_high; unsigned int pwm_tics; unsigned int inited; unsigned int freq_pwm; unsigned int Tclosed_saw_direct_0; unsigned int Tclosed_saw_direct_1; unsigned int current_period; unsigned int where_interrupt; unsigned int mode_reload; unsigned int one_or_two_interrupts_run; WORD_UINT2BITS_STRUCT saw_direct; void (*write_1_2_winding_break_times)(); void (*write_1_2_winding_break_times_split)(); } XPWM_TIME; #define DEFAULT_XPWM_TIME {0,0,0,0,0,0, 0,0,0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0,0,0,0,0, {0}, \ xpwm_write_1_2_winding_break_times_16_lines, \ xpwm_write_1_2_winding_break_times_16_lines_split_eages } void xpwm_write_1_2_winding_break_times_16_lines(); void xpwm_write_1_2_winding_break_times_16_lines_split_eages(XPWM_TIME *p); void xpwm_write_zero_winding_break_times_16_lines_split_eages(); void initXpwmTimeStructure(XPWM_TIME *p); extern XPWM_TIME xpwm_time; #define write_winding1_fase_a(T0, T1) \ WriteMemory(ADR_PWM_KEY_NUMBER, 0); WriteMemory(ADR_PWM_TIMING, T0); \ WriteMemory(ADR_PWM_KEY_NUMBER, 1); WriteMemory(ADR_PWM_TIMING, T1); #define write_winding1_fase_b(T0, T1) \ WriteMemory(ADR_PWM_KEY_NUMBER, 2); WriteMemory(ADR_PWM_TIMING, T0); \ WriteMemory(ADR_PWM_KEY_NUMBER, 3); WriteMemory(ADR_PWM_TIMING, T1); #define write_winding1_fase_c(T0, T1) \ WriteMemory(ADR_PWM_KEY_NUMBER, 4); WriteMemory(ADR_PWM_TIMING, T0); \ WriteMemory(ADR_PWM_KEY_NUMBER, 5); WriteMemory(ADR_PWM_TIMING, T1); #define write_winding2_fase_a(T0, T1) \ WriteMemory(ADR_PWM_KEY_NUMBER, 6); WriteMemory(ADR_PWM_TIMING, T0); \ WriteMemory(ADR_PWM_KEY_NUMBER, 7); WriteMemory(ADR_PWM_TIMING, T1); #define write_winding2_fase_b(T0, T1) \ WriteMemory(ADR_PWM_KEY_NUMBER, 8); WriteMemory(ADR_PWM_TIMING, T0); \ WriteMemory(ADR_PWM_KEY_NUMBER, 9); WriteMemory(ADR_PWM_TIMING, T1); #define write_winding2_fase_c(T0, T1) \ WriteMemory(ADR_PWM_KEY_NUMBER, 10); WriteMemory(ADR_PWM_TIMING, T0); \ WriteMemory(ADR_PWM_KEY_NUMBER, 11); WriteMemory(ADR_PWM_TIMING, T1); #define write_break_winding1(T0, T1) \ WriteMemory(ADR_PWM_KEY_NUMBER, 12); WriteMemory(ADR_PWM_TIMING, T0); \ WriteMemory(ADR_PWM_KEY_NUMBER, 13); WriteMemory(ADR_PWM_TIMING, T1); #define write_break_winding2(T0, T1) \ WriteMemory(ADR_PWM_KEY_NUMBER, 14); WriteMemory(ADR_PWM_TIMING, T0); \ WriteMemory(ADR_PWM_KEY_NUMBER, 15); WriteMemory(ADR_PWM_TIMING, T1); #endif /* XP_WRITE_TIME_H_ */