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- //! @file
- #include "Marlin.h"
- #ifdef TMC2130
- #include "tmc2130.h"
- #include "ultralcd.h"
- #include "language.h"
- #include "spi.h"
- #include "Timer.h"
- #define TMC2130_GCONF_NORMAL 0x00000000 // spreadCycle
- #define TMC2130_GCONF_SGSENS 0x00003180 // spreadCycle with stallguard (stall activates DIAG0 and DIAG1 [pushpull])
- #define TMC2130_GCONF_SILENT 0x00000004 // stealthChop
- //mode
- uint8_t tmc2130_mode = TMC2130_MODE_NORMAL;
- uint8_t tmc2130_current_h[4] = TMC2130_CURRENTS_H;
- //running currents
- uint8_t tmc2130_current_r[4] = TMC2130_CURRENTS_R;
- //running currents for homing
- uint8_t tmc2130_current_r_home[4] = TMC2130_CURRENTS_R_HOME;
- //pwm_ampl
- uint8_t tmc2130_pwm_ampl[4] = {TMC2130_PWM_AMPL_X, TMC2130_PWM_AMPL_Y, TMC2130_PWM_AMPL_Z, TMC2130_PWM_AMPL_E};
- //pwm_grad
- uint8_t tmc2130_pwm_grad[4] = {TMC2130_PWM_GRAD_X, TMC2130_PWM_GRAD_Y, TMC2130_PWM_GRAD_Z, TMC2130_PWM_GRAD_E};
- //pwm_auto
- uint8_t tmc2130_pwm_auto[4] = {TMC2130_PWM_AUTO_X, TMC2130_PWM_AUTO_Y, TMC2130_PWM_AUTO_Z, TMC2130_PWM_AUTO_E};
- //pwm_freq
- uint8_t tmc2130_pwm_freq[4] = {TMC2130_PWM_FREQ_X, TMC2130_PWM_FREQ_Y, TMC2130_PWM_FREQ_Z, TMC2130_PWM_FREQ_E};
- uint8_t tmc2130_mres[4] = {0, 0, 0, 0}; //will be filed at begin of init
- uint8_t tmc2130_sg_thr[4] = {TMC2130_SG_THRS_X, TMC2130_SG_THRS_Y, TMC2130_SG_THRS_Z, TMC2130_SG_THRS_E};
- uint8_t tmc2130_sg_thr_home[4] = TMC2130_SG_THRS_HOME;
- uint8_t tmc2130_sg_homing_axes_mask = 0x00;
- const char eMotorCurrentScalingEnabled[] PROGMEM = "E-motor current scaling enabled";
- uint8_t tmc2130_sg_meassure = 0xff;
- uint32_t tmc2130_sg_meassure_cnt = 0;
- uint32_t tmc2130_sg_meassure_val = 0;
- uint8_t tmc2130_home_enabled = 0;
- uint8_t tmc2130_home_origin[2] = {0, 0};
- uint8_t tmc2130_home_bsteps[2] = {48, 48};
- uint8_t tmc2130_home_fsteps[2] = {48, 48};
- uint8_t tmc2130_wave_fac[4] = {0, 0, 0, 0};
- tmc2130_chopper_config_t tmc2130_chopper_config[4] = {
- {TMC2130_TOFF_XYZ, 5, 1, 2, 0},
- {TMC2130_TOFF_XYZ, 5, 1, 2, 0},
- {TMC2130_TOFF_XYZ, 5, 1, 2, 0},
- {TMC2130_TOFF_E, 5, 1, 2, 0}
- };
- bool tmc2130_sg_stop_on_crash = true;
- uint8_t tmc2130_sg_diag_mask = 0x00;
- uint8_t tmc2130_sg_crash = 0;
- uint16_t tmc2130_sg_err[4] = {0, 0, 0, 0};
- uint16_t tmc2130_sg_cnt[4] = {0, 0, 0, 0};
- #ifdef DEBUG_CRASHDET_COUNTERS
- bool tmc2130_sg_change = false;
- #endif
- //used for triggering a periodic check (1s) of the overtemperature pre-warning flag at ~120C (+-20C)
- ShortTimer tmc2130_overtemp_timer;
- #define DBG(args...)
- //printf_P(args)
- #ifndef _n
- #define _n PSTR
- #endif //_n
- #ifndef _i
- #define _i PSTR
- #endif //_i
- //TMC2130 registers
- #define TMC2130_REG_GCONF 0x00 // 17 bits
- #define TMC2130_REG_GSTAT 0x01 // 3 bits
- #define TMC2130_REG_IOIN 0x04 // 8+8 bits
- #define TMC2130_REG_IHOLD_IRUN 0x10 // 5+5+4 bits
- #define TMC2130_REG_TPOWERDOWN 0x11 // 8 bits
- #define TMC2130_REG_TSTEP 0x12 // 20 bits
- #define TMC2130_REG_TPWMTHRS 0x13 // 20 bits
- #define TMC2130_REG_TCOOLTHRS 0x14 // 20 bits
- #define TMC2130_REG_THIGH 0x15 // 20 bits
- #define TMC2130_REG_XDIRECT 0x2d // 32 bits
- #define TMC2130_REG_VDCMIN 0x33 // 23 bits
- #define TMC2130_REG_MSLUT0 0x60 // 32 bits
- #define TMC2130_REG_MSLUT1 0x61 // 32 bits
- #define TMC2130_REG_MSLUT2 0x62 // 32 bits
- #define TMC2130_REG_MSLUT3 0x63 // 32 bits
- #define TMC2130_REG_MSLUT4 0x64 // 32 bits
- #define TMC2130_REG_MSLUT5 0x65 // 32 bits
- #define TMC2130_REG_MSLUT6 0x66 // 32 bits
- #define TMC2130_REG_MSLUT7 0x67 // 32 bits
- #define TMC2130_REG_MSLUTSEL 0x68 // 32 bits
- #define TMC2130_REG_MSLUTSTART 0x69 // 8+8 bits
- #define TMC2130_REG_MSCNT 0x6a // 10 bits
- #define TMC2130_REG_MSCURACT 0x6b // 9+9 bits
- #define TMC2130_REG_CHOPCONF 0x6c // 32 bits
- #define TMC2130_REG_COOLCONF 0x6d // 25 bits
- #define TMC2130_REG_DCCTRL 0x6e // 24 bits
- #define TMC2130_REG_DRV_STATUS 0x6f // 32 bits
- #define TMC2130_REG_PWMCONF 0x70 // 22 bits
- #define TMC2130_REG_PWM_SCALE 0x71 // 8 bits
- #define TMC2130_REG_ENCM_CTRL 0x72 // 2 bits
- #define TMC2130_REG_LOST_STEPS 0x73 // 20 bits
- uint16_t tmc2130_rd_TSTEP(uint8_t axis);
- uint16_t tmc2130_rd_MSCNT(uint8_t axis);
- uint32_t tmc2130_rd_MSCURACT(uint8_t axis);
- void tmc2130_wr_CHOPCONF(uint8_t axis, uint8_t toff = 3, uint8_t hstrt = 4, uint8_t hend = 1, uint8_t fd3 = 0, uint8_t disfdcc = 0, uint8_t rndtf = 0, uint8_t chm = 0, uint8_t tbl = 2, uint8_t vsense = 0, uint8_t vhighfs = 0, uint8_t vhighchm = 0, uint8_t sync = 0, uint8_t mres = 0b0100, uint8_t intpol = 1, uint8_t dedge = 0, uint8_t diss2g = 0);
- void tmc2130_wr_PWMCONF(uint8_t axis, uint8_t pwm_ampl, uint8_t pwm_grad, uint8_t pwm_freq, uint8_t pwm_auto, uint8_t pwm_symm, uint8_t freewheel);
- void tmc2130_wr_TPWMTHRS(uint8_t axis, uint32_t val32);
- void tmc2130_wr_THIGH(uint8_t axis, uint32_t val32);
- #define tmc2130_rd(axis, addr, rval) tmc2130_rx(axis, addr, rval)
- #define tmc2130_wr(axis, addr, wval) tmc2130_tx(axis, (addr) | 0x80, wval)
- static void tmc2130_tx(uint8_t axis, uint8_t addr, uint32_t wval);
- static uint8_t tmc2130_rx(uint8_t axis, uint8_t addr, uint32_t* rval);
- void tmc2130_setup_chopper(uint8_t axis, uint8_t mres, uint8_t current_h, uint8_t current_r);
- uint16_t __tcoolthrs(uint8_t axis)
- {
- switch (axis)
- {
- case X_AXIS: return TMC2130_TCOOLTHRS_X;
- case Y_AXIS: return TMC2130_TCOOLTHRS_Y;
- case Z_AXIS: return TMC2130_TCOOLTHRS_Z;
- }
- return 0;
- }
- void tmc2130_init(TMCInitParams params)
- {
- // DBG(_n("tmc2130_init(), mode=%S\n"), tmc2130_mode?_n("STEALTH"):_n("NORMAL"));
- WRITE(X_TMC2130_CS, HIGH);
- WRITE(Y_TMC2130_CS, HIGH);
- WRITE(Z_TMC2130_CS, HIGH);
- WRITE(E0_TMC2130_CS, HIGH);
- SET_OUTPUT(X_TMC2130_CS);
- SET_OUTPUT(Y_TMC2130_CS);
- SET_OUTPUT(Z_TMC2130_CS);
- SET_OUTPUT(E0_TMC2130_CS);
- SET_INPUT(X_TMC2130_DIAG);
- SET_INPUT(Y_TMC2130_DIAG);
- SET_INPUT(Z_TMC2130_DIAG);
- SET_INPUT(E0_TMC2130_DIAG);
- for (uint_least8_t axis = 0; axis < 2; axis++) // X Y axes
- {
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r[axis]);
- tmc2130_wr(axis, TMC2130_REG_TPOWERDOWN, 0x00000000);
- tmc2130_wr(axis, TMC2130_REG_COOLCONF, (((uint32_t)tmc2130_sg_thr[axis]) << 16));
- tmc2130_wr(axis, TMC2130_REG_TCOOLTHRS, (tmc2130_mode == TMC2130_MODE_SILENT)?0:__tcoolthrs(axis));
- tmc2130_wr(axis, TMC2130_REG_GCONF, (tmc2130_mode == TMC2130_MODE_SILENT)?TMC2130_GCONF_SILENT:TMC2130_GCONF_SGSENS);
- tmc2130_wr_PWMCONF(axis, tmc2130_pwm_ampl[axis], tmc2130_pwm_grad[axis], tmc2130_pwm_freq[axis], tmc2130_pwm_auto[axis], 0, 0);
- tmc2130_wr_TPWMTHRS(axis, TMC2130_TPWMTHRS);
- //tmc2130_wr_THIGH(axis, TMC2130_THIGH);
- }
- for (uint_least8_t axis = 2; axis < 3; axis++) // Z axis
- {
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r[axis]);
- tmc2130_wr(axis, TMC2130_REG_TPOWERDOWN, 0x00000000);
- #ifndef TMC2130_STEALTH_Z
- tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_SGSENS);
- #else //TMC2130_STEALTH_Z
- tmc2130_wr(axis, TMC2130_REG_COOLCONF, (((uint32_t)tmc2130_sg_thr[axis]) << 16));
- tmc2130_wr(axis, TMC2130_REG_TCOOLTHRS, (tmc2130_mode == TMC2130_MODE_SILENT)?0:__tcoolthrs(axis));
- tmc2130_wr(axis, TMC2130_REG_GCONF, (tmc2130_mode == TMC2130_MODE_SILENT)?TMC2130_GCONF_SILENT:TMC2130_GCONF_SGSENS);
- tmc2130_wr_PWMCONF(axis, tmc2130_pwm_ampl[axis], tmc2130_pwm_grad[axis], tmc2130_pwm_freq[axis], tmc2130_pwm_auto[axis], 0, 0);
- tmc2130_wr_TPWMTHRS(axis, TMC2130_TPWMTHRS);
- #endif //TMC2130_STEALTH_Z
- }
- for (uint_least8_t axis = 3; axis < 4; axis++) // E axis
- {
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r[axis]);
- tmc2130_wr(axis, TMC2130_REG_TPOWERDOWN, 0x00000000);
- #ifndef TMC2130_STEALTH_E
- if( ! params.enableECool ){
- tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_SGSENS);
- } else {
- tmc2130_wr(axis, TMC2130_REG_COOLCONF, (((uint32_t)tmc2130_sg_thr[axis]) << 16));
- tmc2130_wr(axis, TMC2130_REG_TCOOLTHRS, 0);
- tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_SILENT);
- tmc2130_wr_PWMCONF(axis, TMC2130_PWM_AMPL_Ecool, TMC2130_PWM_GRAD_Ecool, tmc2130_pwm_freq[axis], TMC2130_PWM_AUTO_Ecool, 0, 0);
- tmc2130_wr_TPWMTHRS(axis, TMC2130_TPWMTHRS_E);
- SERIAL_ECHOLNRPGM(eMotorCurrentScalingEnabled);
- }
- #else //TMC2130_STEALTH_E
- tmc2130_wr(axis, TMC2130_REG_COOLCONF, (((uint32_t)tmc2130_sg_thr[axis]) << 16));
- tmc2130_wr(axis, TMC2130_REG_TCOOLTHRS, 0);
- tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_SILENT);
- tmc2130_wr_PWMCONF(axis, tmc2130_pwm_ampl[axis], tmc2130_pwm_grad[axis], tmc2130_pwm_freq[axis], tmc2130_pwm_auto[axis], 0, 0);
- tmc2130_wr_TPWMTHRS(axis, TMC2130_TPWMTHRS);
- #endif //TMC2130_STEALTH_E
- }
- tmc2130_sg_err[0] = 0;
- tmc2130_sg_err[1] = 0;
- tmc2130_sg_err[2] = 0;
- tmc2130_sg_err[3] = 0;
- tmc2130_sg_cnt[0] = 0;
- tmc2130_sg_cnt[1] = 0;
- tmc2130_sg_cnt[2] = 0;
- tmc2130_sg_cnt[3] = 0;
- #ifdef TMC2130_LINEARITY_CORRECTION
- #ifdef TMC2130_LINEARITY_CORRECTION_XYZ
- tmc2130_set_wave(X_AXIS, 247, tmc2130_wave_fac[X_AXIS]);
- tmc2130_set_wave(Y_AXIS, 247, tmc2130_wave_fac[Y_AXIS]);
- tmc2130_set_wave(Z_AXIS, 247, tmc2130_wave_fac[Z_AXIS]);
- #endif //TMC2130_LINEARITY_CORRECTION_XYZ
- tmc2130_set_wave(E_AXIS, 247, tmc2130_wave_fac[E_AXIS]);
- #endif //TMC2130_LINEARITY_CORRECTION
- #ifdef PSU_Delta
- if(!params.bSuppressFlag)
- check_force_z();
- #endif // PSU_Delta
- }
- uint8_t tmc2130_sample_diag()
- {
- uint8_t mask = 0;
- if (READ(X_TMC2130_DIAG)) mask |= X_AXIS_MASK;
- if (READ(Y_TMC2130_DIAG)) mask |= Y_AXIS_MASK;
- // if (READ(Z_TMC2130_DIAG)) mask |= Z_AXIS_MASK;
- // if (READ(E0_TMC2130_DIAG)) mask |= E_AXIS_MASK;
- return mask;
- }
- extern bool is_usb_printing;
- void tmc2130_st_isr()
- {
- if (tmc2130_mode == TMC2130_MODE_SILENT || tmc2130_sg_stop_on_crash == false) return;
- uint8_t crash = 0;
- uint8_t diag_mask = tmc2130_sample_diag();
- // for (uint8_t axis = X_AXIS; axis <= E_AXIS; axis++)
- for (uint8_t axis = X_AXIS; axis <= Z_AXIS; axis++)
- {
- uint8_t mask = (X_AXIS_MASK << axis);
- if (diag_mask & mask) tmc2130_sg_err[axis]++;
- else
- if (tmc2130_sg_err[axis] > 0) tmc2130_sg_err[axis]--;
- if (tmc2130_sg_cnt[axis] < tmc2130_sg_err[axis])
- {
- tmc2130_sg_cnt[axis] = tmc2130_sg_err[axis];
- #ifdef DEBUG_CRASHDET_COUNTERS
- tmc2130_sg_change = true;
- #endif
- uint8_t sg_thr = 64;
- // if (axis == Y_AXIS) sg_thr = 64;
- if (tmc2130_sg_err[axis] >= sg_thr)
- {
- tmc2130_sg_err[axis] = 0;
- crash |= mask;
- }
- }
- }
- if (tmc2130_sg_homing_axes_mask == 0)
- {
- if (tmc2130_sg_stop_on_crash && crash)
- {
- tmc2130_sg_crash = crash;
- tmc2130_sg_stop_on_crash = false;
- crashdet_stop_and_save_print();
- }
- }
- }
- bool tmc2130_update_sg()
- {
- if (tmc2130_sg_meassure <= E_AXIS)
- {
- uint32_t val32 = 0;
- tmc2130_rd(tmc2130_sg_meassure, TMC2130_REG_DRV_STATUS, &val32);
- tmc2130_sg_meassure_val += (val32 & 0x3ff);
- tmc2130_sg_meassure_cnt++;
- return true;
- }
- return false;
- }
- void tmc2130_home_enter(uint8_t axes_mask)
- {
- printf_P(PSTR("tmc2130_home_enter(axes_mask=0x%02x)\n"), axes_mask);
- #ifdef TMC2130_SG_HOMING
- if (axes_mask & 0x03) //X or Y
- tmc2130_wait_standstill_xy(1000);
- for (uint8_t axis = X_AXIS; axis <= Z_AXIS; axis++) //X Y and Z axes
- {
- uint8_t mask = (X_AXIS_MASK << axis);
- if (axes_mask & mask)
- {
- tmc2130_sg_homing_axes_mask |= mask;
- //Configuration to spreadCycle
- tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_NORMAL);
- tmc2130_wr(axis, TMC2130_REG_COOLCONF, (((uint32_t)tmc2130_sg_thr_home[axis]) << 16));
- // tmc2130_wr(axis, TMC2130_REG_COOLCONF, (((uint32_t)tmc2130_sg_thr[axis]) << 16) | ((uint32_t)1 << 24));
- tmc2130_wr(axis, TMC2130_REG_TCOOLTHRS, __tcoolthrs(axis));
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r_home[axis]);
- if (mask & (X_AXIS_MASK | Y_AXIS_MASK | Z_AXIS_MASK))
- tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_SGSENS); //stallguard output DIAG1, DIAG1 = pushpull
- }
- }
- #endif //TMC2130_SG_HOMING
- }
- void tmc2130_home_exit()
- {
- printf_P(PSTR("tmc2130_home_exit tmc2130_sg_homing_axes_mask=0x%02x\n"), tmc2130_sg_homing_axes_mask);
- #ifdef TMC2130_SG_HOMING
- if (tmc2130_sg_homing_axes_mask & 0x03) //X or Y
- tmc2130_wait_standstill_xy(1000);
- if (tmc2130_sg_homing_axes_mask)
- {
- for (uint8_t axis = X_AXIS; axis <= Z_AXIS; axis++) //X Y and Z axes
- {
- uint8_t mask = (X_AXIS_MASK << axis);
- if (tmc2130_sg_homing_axes_mask & mask & (X_AXIS_MASK | Y_AXIS_MASK | Z_AXIS_MASK))
- {
- #ifndef TMC2130_STEALTH_Z
- if ((tmc2130_mode == TMC2130_MODE_SILENT) && (axis != Z_AXIS))
- #else //TMC2130_STEALTH_Z
- if (tmc2130_mode == TMC2130_MODE_SILENT)
- #endif //TMC2130_STEALTH_Z
- {
- tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_SILENT); // Configuration back to stealthChop
- tmc2130_wr(axis, TMC2130_REG_TCOOLTHRS, 0);
- // tmc2130_wr_PWMCONF(i, tmc2130_pwm_ampl[i], tmc2130_pwm_grad[i], tmc2130_pwm_freq[i], tmc2130_pwm_auto[i], 0, 0);
- }
- else
- {
- // tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_NORMAL);
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r[axis]);
- // tmc2130_wr(axis, TMC2130_REG_COOLCONF, (((uint32_t)tmc2130_sg_thr[axis]) << 16) | ((uint32_t)1 << 24));
- tmc2130_wr(axis, TMC2130_REG_COOLCONF, (((uint32_t)tmc2130_sg_thr[axis]) << 16));
- tmc2130_wr(axis, TMC2130_REG_TCOOLTHRS, __tcoolthrs(axis));
- tmc2130_wr(axis, TMC2130_REG_GCONF, TMC2130_GCONF_SGSENS);
- }
- }
- }
- tmc2130_sg_homing_axes_mask = 0x00;
- }
- tmc2130_sg_crash = false;
- #endif
- }
- void tmc2130_sg_meassure_start(uint8_t axis)
- {
- tmc2130_sg_meassure = axis;
- tmc2130_sg_meassure_cnt = 0;
- tmc2130_sg_meassure_val = 0;
- }
- uint16_t tmc2130_sg_meassure_stop()
- {
- tmc2130_sg_meassure = 0xff;
- return tmc2130_sg_meassure_val / tmc2130_sg_meassure_cnt;
- }
- bool tmc2130_wait_standstill_xy(int timeout)
- {
- // DBG(_n("tmc2130_wait_standstill_xy(timeout=%d)\n"), timeout);
- bool standstill = false;
- while (!standstill && (timeout > 0))
- {
- uint32_t drv_status_x = 0;
- uint32_t drv_status_y = 0;
- tmc2130_rd(X_AXIS, TMC2130_REG_DRV_STATUS, &drv_status_x);
- tmc2130_rd(Y_AXIS, TMC2130_REG_DRV_STATUS, &drv_status_y);
- // DBG(_n("\tdrv_status_x=0x%08x drv_status_x=0x%08x\n"), drv_status_x, drv_status_y);
- standstill = (drv_status_x & 0x80000000) && (drv_status_y & 0x80000000);
- tmc2130_check_overtemp();
- timeout--;
- }
- return standstill;
- }
- void tmc2130_check_overtemp()
- {
- if (tmc2130_overtemp_timer.expired(1000) || !tmc2130_overtemp_timer.running())
- {
- for (uint_least8_t i = 0; i < 4; i++)
- {
- uint32_t drv_status = 0;
- tmc2130_rd(i, TMC2130_REG_DRV_STATUS, &drv_status);
- if (drv_status & ((uint32_t)1 << 26))
- { // BIT 26 - over temp prewarning ~120C (+-20C)
- SERIAL_ERRORRPGM(MSG_TMC_OVERTEMP);
- SERIAL_ECHOLN(i);
- for (uint_least8_t j = 0; j < 4; j++)
- tmc2130_wr(j, TMC2130_REG_CHOPCONF, 0x00010000);
- kill(MSG_TMC_OVERTEMP);
- }
- }
- tmc2130_overtemp_timer.start();
- #ifdef DEBUG_CRASHDET_COUNTERS
- tmc2130_sg_change = true;
- #endif
- }
- #ifdef DEBUG_CRASHDET_COUNTERS
- if (tmc2130_sg_change)
- {
- for (int i = 0; i < 4; i++)
- {
- tmc2130_sg_change = false;
- lcd_set_cursor(0 + i*4, 3);
- lcd_print(itostr3(tmc2130_sg_cnt[i]));
- lcd_print(' ');
- }
- }
- #endif //DEBUG_CRASHDET_COUNTERS
- }
- void tmc2130_setup_chopper(uint8_t axis, uint8_t mres, uint8_t current_h, uint8_t current_r)
- {
- uint8_t intpol = (mres != 0); // intpol to 256 only if microsteps aren't 256
- #ifdef TMC2130_DEDGE_STEPPING
- uint8_t dedge = 1;
- #else
- uint8_t dedge = 0;
- #endif
- uint8_t toff = tmc2130_chopper_config[axis].toff; // toff = 3 (fchop = 27.778kHz)
- uint8_t hstrt = tmc2130_chopper_config[axis].hstr; //initial 4, modified to 5
- uint8_t hend = tmc2130_chopper_config[axis].hend; //original value = 1
- uint8_t fd3 = 0;
- uint8_t rndtf = 0; //random off time
- uint8_t chm = 0; //spreadCycle
- uint8_t tbl = tmc2130_chopper_config[axis].tbl; //blanking time, original value = 2
- if (axis == E_AXIS)
- {
- #if defined(TMC2130_INTPOL_E) && (TMC2130_INTPOL_E == 0)
- intpol = 0;
- #endif
- #ifdef TMC2130_CNSTOFF_E
- // fd = 0 (slow decay only)
- hstrt = 0; //fd0..2
- fd3 = 0; //fd3
- hend = 0; //sine wave offset
- chm = 1; // constant off time mod
- #endif //TMC2130_CNSTOFF_E
- // toff = TMC2130_TOFF_E; // toff = 3-5
- // rndtf = 1;
- }
- #if defined(TMC2130_INTPOL_XY) && (TMC2130_INTPOL_XY == 0)
- else if (axis == X_AXIS || axis == Y_AXIS) {
- intpol = 0;
- }
- #endif
- #if defined(TMC2130_INTPOL_Z) && (TMC2130_INTPOL_Z == 0)
- else if (axis == Z_AXIS) {
- intpol = 0;
- }
- #endif
- // DBG(_n("tmc2130_setup_chopper(axis=%hhd, mres=%hhd, curh=%hhd, curr=%hhd\n"), axis, mres, current_h, current_r);
- // DBG(_n(" toff=%hhd, hstr=%hhd, hend=%hhd, tbl=%hhd\n"), toff, hstrt, hend, tbl);
- if (current_r <= 31)
- {
- tmc2130_wr_CHOPCONF(axis, toff, hstrt, hend, fd3, 0, rndtf, chm, tbl, 1, 0, 0, 0, mres, intpol, dedge, 0);
- tmc2130_wr(axis, TMC2130_REG_IHOLD_IRUN, 0x000f0000 | ((current_r & 0x1f) << 8) | (current_h & 0x1f));
- }
- else
- {
- tmc2130_wr_CHOPCONF(axis, toff, hstrt, hend, fd3, 0, rndtf, chm, tbl, 0, 0, 0, 0, mres, intpol, dedge, 0);
- tmc2130_wr(axis, TMC2130_REG_IHOLD_IRUN, 0x000f0000 | (((current_r >> 1) & 0x1f) << 8) | ((current_h >> 1) & 0x1f));
- }
- }
- void tmc2130_set_current_h(uint8_t axis, uint8_t current)
- {
- // DBG(_n("tmc2130_set_current_h(axis=%d, current=%d\n"), axis, current);
- tmc2130_current_h[axis] = current;
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r[axis]);
- }
- void tmc2130_set_current_r(uint8_t axis, uint8_t current)
- {
- // DBG(_n("tmc2130_set_current_r(axis=%d, current=%d\n"), axis, current);
- tmc2130_current_r[axis] = current;
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r[axis]);
- }
- void tmc2130_print_currents()
- {
- printf_P(_n("tmc2130_print_currents()\n\tH\tR\nX\t%d\t%d\nY\t%d\t%d\nZ\t%d\t%d\nE\t%d\t%d\n"),
- tmc2130_current_h[0], tmc2130_current_r[0],
- tmc2130_current_h[1], tmc2130_current_r[1],
- tmc2130_current_h[2], tmc2130_current_r[2],
- tmc2130_current_h[3], tmc2130_current_r[3]
- );
- }
- void tmc2130_set_pwm_ampl(uint8_t axis, uint8_t pwm_ampl)
- {
- // DBG(_n("tmc2130_set_pwm_ampl(axis=%hhd, pwm_ampl=%hhd\n"), axis, pwm_ampl);
- tmc2130_pwm_ampl[axis] = pwm_ampl;
- if (((axis == 0) || (axis == 1)) && (tmc2130_mode == TMC2130_MODE_SILENT))
- tmc2130_wr_PWMCONF(axis, tmc2130_pwm_ampl[axis], tmc2130_pwm_grad[axis], tmc2130_pwm_freq[axis], tmc2130_pwm_auto[axis], 0, 0);
- }
- void tmc2130_set_pwm_grad(uint8_t axis, uint8_t pwm_grad)
- {
- // DBG(_n("tmc2130_set_pwm_grad(axis=%hhd, pwm_grad=%hhd\n"), axis, pwm_grad);
- tmc2130_pwm_grad[axis] = pwm_grad;
- if (((axis == 0) || (axis == 1)) && (tmc2130_mode == TMC2130_MODE_SILENT))
- tmc2130_wr_PWMCONF(axis, tmc2130_pwm_ampl[axis], tmc2130_pwm_grad[axis], tmc2130_pwm_freq[axis], tmc2130_pwm_auto[axis], 0, 0);
- }
- uint16_t tmc2130_rd_TSTEP(uint8_t axis)
- {
- uint32_t val32 = 0;
- tmc2130_rd(axis, TMC2130_REG_TSTEP, &val32);
- if (val32 & 0x000f0000) return 0xffff;
- return val32 & 0xffff;
- }
- uint16_t tmc2130_rd_MSCNT(uint8_t axis)
- {
- uint32_t val32 = 0;
- tmc2130_rd(axis, TMC2130_REG_MSCNT, &val32);
- return val32 & 0x3ff;
- }
- uint32_t tmc2130_rd_MSCURACT(uint8_t axis)
- {
- uint32_t val32 = 0;
- tmc2130_rd(axis, TMC2130_REG_MSCURACT, &val32);
- return val32;
- }
- void tmc2130_wr_MSLUTSTART(uint8_t axis, uint8_t start_sin, uint8_t start_sin90)
- {
- uint32_t val = 0;
- val |= (uint32_t)start_sin;
- val |= ((uint32_t)start_sin90) << 16;
- tmc2130_wr(axis, TMC2130_REG_MSLUTSTART, val);
- //printf_P(PSTR("MSLUTSTART=%08lx (start_sin=%d start_sin90=%d)\n"), val, start_sin, start_sin90);
- }
- void tmc2130_wr_MSLUTSEL(uint8_t axis, uint8_t x1, uint8_t x2, uint8_t x3, uint8_t w0, uint8_t w1, uint8_t w2, uint8_t w3)
- {
- uint32_t val = 0;
- val |= ((uint32_t)w0);
- val |= ((uint32_t)w1) << 2;
- val |= ((uint32_t)w2) << 4;
- val |= ((uint32_t)w3) << 6;
- val |= ((uint32_t)x1) << 8;
- val |= ((uint32_t)x2) << 16;
- val |= ((uint32_t)x3) << 24;
- tmc2130_wr(axis, TMC2130_REG_MSLUTSEL, val);
- //printf_P(PSTR("MSLUTSEL=%08lx (x1=%d x2=%d x3=%d w0=%d w1=%d w2=%d w3=%d)\n"), val, x1, x2, x3, w0, w1, w2, w3);
- }
- void tmc2130_wr_MSLUT(uint8_t axis, uint8_t i, uint32_t val)
- {
- tmc2130_wr(axis, TMC2130_REG_MSLUT0 + (i & 7), val);
- //printf_P(PSTR("MSLUT[%d]=%08lx\n"), i, val);
- }
- void tmc2130_wr_CHOPCONF(uint8_t axis, uint8_t toff, uint8_t hstrt, uint8_t hend, uint8_t fd3, uint8_t disfdcc, uint8_t rndtf, uint8_t chm, uint8_t tbl, uint8_t vsense, uint8_t vhighfs, uint8_t vhighchm, uint8_t sync, uint8_t mres, uint8_t intpol, uint8_t dedge, uint8_t diss2g)
- {
- uint32_t val = 0;
- val |= (uint32_t)(toff & 15);
- val |= (uint32_t)(hstrt & 7) << 4;
- val |= (uint32_t)(hend & 15) << 7;
- val |= (uint32_t)(fd3 & 1) << 11;
- val |= (uint32_t)(disfdcc & 1) << 12;
- val |= (uint32_t)(rndtf & 1) << 13;
- val |= (uint32_t)(chm & 1) << 14;
- val |= (uint32_t)(tbl & 3) << 15;
- val |= (uint32_t)(vsense & 1) << 17;
- val |= (uint32_t)(vhighfs & 1) << 18;
- val |= (uint32_t)(vhighchm & 1) << 19;
- val |= (uint32_t)(sync & 15) << 20;
- val |= (uint32_t)(mres & 15) << 24;
- val |= (uint32_t)(intpol & 1) << 28;
- val |= (uint32_t)(dedge & 1) << 29;
- val |= (uint32_t)(diss2g & 1) << 30;
- tmc2130_wr(axis, TMC2130_REG_CHOPCONF, val);
- }
- //void tmc2130_wr_PWMCONF(uint8_t axis, uint8_t PWMautoScale, uint8_t PWMfreq, uint8_t PWMgrad, uint8_t PWMampl)
- void tmc2130_wr_PWMCONF(uint8_t axis, uint8_t pwm_ampl, uint8_t pwm_grad, uint8_t pwm_freq, uint8_t pwm_auto, uint8_t pwm_symm, uint8_t freewheel)
- {
- uint32_t val = 0;
- val |= (uint32_t)(pwm_ampl & 255);
- val |= (uint32_t)(pwm_grad & 255) << 8;
- val |= (uint32_t)(pwm_freq & 3) << 16;
- val |= (uint32_t)(pwm_auto & 1) << 18;
- val |= (uint32_t)(pwm_symm & 1) << 19;
- val |= (uint32_t)(freewheel & 3) << 20;
- tmc2130_wr(axis, TMC2130_REG_PWMCONF, val);
- // tmc2130_wr(axis, TMC2130_REG_PWMCONF, ((uint32_t)(PWMautoScale+PWMfreq) << 16) | ((uint32_t)PWMgrad << 8) | PWMampl); // TMC LJ -> For better readability changed to 0x00 and added PWMautoScale and PWMfreq
- }
- void tmc2130_wr_TPWMTHRS(uint8_t axis, uint32_t val32)
- {
- tmc2130_wr(axis, TMC2130_REG_TPWMTHRS, val32);
- }
- void tmc2130_wr_THIGH(uint8_t axis, uint32_t val32)
- {
- tmc2130_wr(axis, TMC2130_REG_THIGH, val32);
- }
- uint8_t tmc2130_usteps2mres(uint16_t usteps)
- {
- uint8_t mres = 8; while (usteps >>= 1) mres--;
- return mres;
- }
- inline void tmc2130_cs_low(uint8_t axis)
- {
- switch (axis)
- {
- case X_AXIS: WRITE(X_TMC2130_CS, LOW); break;
- case Y_AXIS: WRITE(Y_TMC2130_CS, LOW); break;
- case Z_AXIS: WRITE(Z_TMC2130_CS, LOW); break;
- case E_AXIS: WRITE(E0_TMC2130_CS, LOW); break;
- }
- }
- inline void tmc2130_cs_high(uint8_t axis)
- {
- switch (axis)
- {
- case X_AXIS: WRITE(X_TMC2130_CS, HIGH); break;
- case Y_AXIS: WRITE(Y_TMC2130_CS, HIGH); break;
- case Z_AXIS: WRITE(Z_TMC2130_CS, HIGH); break;
- case E_AXIS: WRITE(E0_TMC2130_CS, HIGH); break;
- }
- }
- //spi
- #define TMC2130_SPI_ENTER() spi_setup(TMC2130_SPCR, TMC2130_SPSR)
- #define TMC2130_SPI_TXRX spi_txrx
- #define TMC2130_SPI_LEAVE()
- static void tmc2130_tx(uint8_t axis, uint8_t addr, uint32_t wval)
- {
- //datagram1 - request
- TMC2130_SPI_ENTER();
- tmc2130_cs_low(axis);
- TMC2130_SPI_TXRX(addr); // address
- TMC2130_SPI_TXRX((wval >> 24) & 0xff); // MSB
- TMC2130_SPI_TXRX((wval >> 16) & 0xff);
- TMC2130_SPI_TXRX((wval >> 8) & 0xff);
- TMC2130_SPI_TXRX(wval & 0xff); // LSB
- tmc2130_cs_high(axis);
- TMC2130_SPI_LEAVE();
- }
- static uint8_t tmc2130_rx(uint8_t axis, uint8_t addr, uint32_t* rval)
- {
- //datagram1 - request
- TMC2130_SPI_ENTER();
- tmc2130_cs_low(axis);
- TMC2130_SPI_TXRX(addr); // address
- TMC2130_SPI_TXRX(0); // MSB
- TMC2130_SPI_TXRX(0);
- TMC2130_SPI_TXRX(0);
- TMC2130_SPI_TXRX(0); // LSB
- tmc2130_cs_high(axis);
- TMC2130_SPI_LEAVE();
- //datagram2 - response
- TMC2130_SPI_ENTER();
- tmc2130_cs_low(axis);
- uint8_t stat = TMC2130_SPI_TXRX(0); // status
- uint32_t val32 = 0;
- val32 = TMC2130_SPI_TXRX(0); // MSB
- val32 = (val32 << 8) | TMC2130_SPI_TXRX(0);
- val32 = (val32 << 8) | TMC2130_SPI_TXRX(0);
- val32 = (val32 << 8) | TMC2130_SPI_TXRX(0); // LSB
- tmc2130_cs_high(axis);
- TMC2130_SPI_LEAVE();
- if (rval != 0) *rval = val32;
- return stat;
- }
- #define _GET_PWR_X (READ(X_ENABLE_PIN) == X_ENABLE_ON)
- #define _GET_PWR_Y (READ(Y_ENABLE_PIN) == Y_ENABLE_ON)
- #define _GET_PWR_Z (READ(Z_ENABLE_PIN) == Z_ENABLE_ON)
- #define _GET_PWR_E (READ(E0_ENABLE_PIN) == E_ENABLE_ON)
- #define _SET_PWR_X(ena) WRITE(X_ENABLE_PIN, ena?X_ENABLE_ON:!X_ENABLE_ON)
- #define _SET_PWR_Y(ena) WRITE(Y_ENABLE_PIN, ena?Y_ENABLE_ON:!Y_ENABLE_ON)
- #define _SET_PWR_Z(ena) WRITE(Z_ENABLE_PIN, ena?Z_ENABLE_ON:!Z_ENABLE_ON)
- #define _SET_PWR_E(ena) WRITE(E0_ENABLE_PIN, ena?E_ENABLE_ON:!E_ENABLE_ON)
- #define _GET_DIR_X (READ(X_DIR_PIN) == INVERT_X_DIR)
- #define _GET_DIR_Y (READ(Y_DIR_PIN) == INVERT_Y_DIR)
- #define _GET_DIR_Z (READ(Z_DIR_PIN) == INVERT_Z_DIR)
- #define _GET_DIR_E (READ(E0_DIR_PIN) == INVERT_E0_DIR)
- #define _SET_DIR_X(dir) WRITE(X_DIR_PIN, dir?INVERT_X_DIR:!INVERT_X_DIR)
- #define _SET_DIR_Y(dir) WRITE(Y_DIR_PIN, dir?INVERT_Y_DIR:!INVERT_Y_DIR)
- #define _SET_DIR_Z(dir) WRITE(Z_DIR_PIN, dir?INVERT_Z_DIR:!INVERT_Z_DIR)
- #define _SET_DIR_E(dir) WRITE(E0_DIR_PIN, dir?INVERT_E0_DIR:!INVERT_E0_DIR)
- #ifdef TMC2130_DEDGE_STEPPING
- #define _DO_STEP_X TOGGLE(X_STEP_PIN)
- #define _DO_STEP_Y TOGGLE(Y_STEP_PIN)
- #define _DO_STEP_Z TOGGLE(Z_STEP_PIN)
- #define _DO_STEP_E TOGGLE(E0_STEP_PIN)
- #else
- #define _DO_STEP_X { WRITE(X_STEP_PIN, !INVERT_X_STEP_PIN); TMC2130_MINIMUM_DELAY; WRITE(X_STEP_PIN, INVERT_X_STEP_PIN); }
- #define _DO_STEP_Y { WRITE(Y_STEP_PIN, !INVERT_Y_STEP_PIN); TMC2130_MINIMUM_DELAY; WRITE(Y_STEP_PIN, INVERT_Y_STEP_PIN); }
- #define _DO_STEP_Z { WRITE(Z_STEP_PIN, !INVERT_Z_STEP_PIN); TMC2130_MINIMUM_DELAY; WRITE(Z_STEP_PIN, INVERT_Z_STEP_PIN); }
- #define _DO_STEP_E { WRITE(E0_STEP_PIN, !INVERT_E_STEP_PIN); TMC2130_MINIMUM_DELAY; WRITE(E0_STEP_PIN, INVERT_E_STEP_PIN); }
- #endif
- uint16_t tmc2130_get_res(uint8_t axis)
- {
- return tmc2130_mres2usteps(tmc2130_mres[axis]);
- }
- void tmc2130_set_res(uint8_t axis, uint16_t res)
- {
- tmc2130_mres[axis] = tmc2130_usteps2mres(res);
- // uint32_t u = _micros();
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r[axis]);
- // u = _micros() - u;
- // printf_P(PSTR("tmc2130_setup_chopper %c %lu us"), "XYZE"[axis], u);
- }
- uint8_t tmc2130_get_pwr(uint8_t axis)
- {
- switch (axis)
- {
- case X_AXIS: return _GET_PWR_X;
- case Y_AXIS: return _GET_PWR_Y;
- case Z_AXIS: return _GET_PWR_Z;
- case E_AXIS: return _GET_PWR_E;
- }
- return 0;
- }
- //! @par pwr motor power
- //! * 0 disabled
- //! * non-zero enabled
- void tmc2130_set_pwr(uint8_t axis, uint8_t pwr)
- {
- switch (axis)
- {
- case X_AXIS: _SET_PWR_X(pwr); break;
- case Y_AXIS: _SET_PWR_Y(pwr); break;
- case Z_AXIS: _SET_PWR_Z(pwr); break;
- case E_AXIS: _SET_PWR_E(pwr); break;
- }
- delayMicroseconds(TMC2130_SET_PWR_DELAY);
- }
- uint8_t tmc2130_get_inv(uint8_t axis)
- {
- switch (axis)
- {
- case X_AXIS: return INVERT_X_DIR;
- case Y_AXIS: return INVERT_Y_DIR;
- case Z_AXIS: return INVERT_Z_DIR;
- case E_AXIS: return INVERT_E0_DIR;
- }
- return 0;
- }
- uint8_t tmc2130_get_dir(uint8_t axis)
- {
- switch (axis)
- {
- case X_AXIS: return _GET_DIR_X;
- case Y_AXIS: return _GET_DIR_Y;
- case Z_AXIS: return _GET_DIR_Z;
- case E_AXIS: return _GET_DIR_E;
- }
- return 0;
- }
- void tmc2130_set_dir(uint8_t axis, uint8_t dir)
- {
- switch (axis)
- {
- case X_AXIS: _SET_DIR_X(dir); break;
- case Y_AXIS: _SET_DIR_Y(dir); break;
- case Z_AXIS: _SET_DIR_Z(dir); break;
- case E_AXIS: _SET_DIR_E(dir); break;
- }
- delayMicroseconds(TMC2130_SET_DIR_DELAY);
- }
- void tmc2130_do_step(uint8_t axis)
- {
- switch (axis)
- {
- case X_AXIS: _DO_STEP_X; break;
- case Y_AXIS: _DO_STEP_Y; break;
- case Z_AXIS: _DO_STEP_Z; break;
- case E_AXIS: _DO_STEP_E; break;
- }
- }
- void tmc2130_do_steps(uint8_t axis, uint16_t steps, uint8_t dir, uint16_t delay_us)
- {
- if (tmc2130_get_dir(axis) != dir)
- tmc2130_set_dir(axis, dir);
- while (steps--)
- {
- tmc2130_do_step(axis);
- delayMicroseconds(delay_us);
- }
- }
- void tmc2130_goto_step(uint8_t axis, uint8_t step, uint8_t dir, uint16_t delay_us, uint16_t microstep_resolution)
- {
- printf_P(PSTR("tmc2130_goto_step %d %d %d %d \n"), axis, step, dir, delay_us, microstep_resolution);
- uint8_t shift; for (shift = 0; shift < 8; shift++) if (microstep_resolution == (256u >> shift)) break;
- uint16_t cnt = 4 * (1 << (8 - shift));
- uint16_t mscnt = tmc2130_rd_MSCNT(axis);
- if (dir == 2)
- {
- dir = tmc2130_get_inv(axis)?0:1;
- int steps = (int)step - (int)(mscnt >> shift);
- if (steps > static_cast<int>(cnt / 2))
- {
- dir ^= 1;
- steps = cnt - steps; // This can create a negative step value
- }
- if (steps < 0)
- {
- dir ^= 1;
- steps = -steps;
- }
- cnt = steps;
- }
- tmc2130_set_dir(axis, dir);
- mscnt = tmc2130_rd_MSCNT(axis);
- while ((cnt--) && ((mscnt >> shift) != step))
- {
- tmc2130_do_step(axis);
- delayMicroseconds(delay_us);
- mscnt = tmc2130_rd_MSCNT(axis);
- }
- }
- void tmc2130_get_wave(uint8_t axis, uint8_t* data, FILE* stream)
- {
- uint8_t pwr = tmc2130_get_pwr(axis);
- tmc2130_set_pwr(axis, 0);
- tmc2130_setup_chopper(axis, tmc2130_usteps2mres(256), tmc2130_current_h[axis], tmc2130_current_r[axis]);
- tmc2130_goto_step(axis, 0, 2, 100, 256);
- tmc2130_set_dir(axis, tmc2130_get_inv(axis)?0:1);
- for (unsigned int i = 0; i <= 255; i++)
- {
- uint32_t val = tmc2130_rd_MSCURACT(axis);
- uint16_t mscnt = tmc2130_rd_MSCNT(axis);
- int curA = (val & 0xff) | ((val << 7) & 0x8000);
- if (stream)
- {
- if (mscnt == i)
- fprintf_P(stream, PSTR("%d\t%d\n"), i, curA);
- else //TODO - remove this check
- fprintf_P(stream, PSTR("!! (i=%d MSCNT=%d)\n"), i, mscnt);
- }
- if (data) *(data++) = curA;
- tmc2130_do_step(axis);
- delayMicroseconds(100);
- }
- tmc2130_setup_chopper(axis, tmc2130_mres[axis], tmc2130_current_h[axis], tmc2130_current_r[axis]);
- tmc2130_set_pwr(axis, pwr);
- }
- void tmc2130_set_wave(uint8_t axis, uint8_t amp, uint8_t fac1000)
- {
- // TMC2130 wave compression algorithm
- // optimized for minimal memory requirements
- // printf_P(PSTR("tmc2130_set_wave %hhd %hhd\n"), axis, fac1000);
- if (fac1000 < TMC2130_WAVE_FAC1000_MIN) fac1000 = 0;
- if (fac1000 > TMC2130_WAVE_FAC1000_MAX) fac1000 = TMC2130_WAVE_FAC1000_MAX;
- float fac = 0;
- if (fac1000) fac = ((float)((uint16_t)fac1000 + 1000) / 1000); //correction factor
- // printf_P(PSTR(" factor: %s\n"), ftostr43(fac));
- uint8_t vA = 0; //value of currentA
- uint8_t va = 0; //previous vA
- int8_t d0 = 0; //delta0
- int8_t d1 = 1; //delta1
- uint8_t w[4] = {1,1,1,1}; //W bits (MSLUTSEL)
- uint8_t x[3] = {255,255,255}; //X segment bounds (MSLUTSEL)
- uint8_t s = 0; //current segment
- int8_t b; //encoded bit value
- int8_t dA; //delta value
- uint8_t i = 0; //microstep index
- uint32_t reg = 0; //tmc2130 register
- tmc2130_wr_MSLUTSTART(axis, 0, amp);
- do
- {
- if ((i & 0x1f) == 0)
- reg = 0;
- // calculate value
- if (fac == 0) // default TMC wave
- vA = (uint8_t)((amp+1) * sin((2*PI*i + PI)/1024) + 0.5) - 1;
- else // corrected wave
- vA = (uint8_t)(amp * pow(sin(2*PI*i/1024), fac) + 0.5);
- dA = vA - va; // calculate delta
- va = vA;
- b = -1;
- if (dA == d0) b = 0; //delta == delta0 => bit=0
- else if (dA == d1) b = 1; //delta == delta1 => bit=1
- else
- {
- if (dA < d0) // delta < delta0 => switch wbit down
- {
- //printf("dn\n");
- b = 0;
- switch (dA)
- {
- case -1: d0 = -1; d1 = 0; w[s+1] = 0; break;
- case 0: d0 = 0; d1 = 1; w[s+1] = 1; break;
- case 1: d0 = 1; d1 = 2; w[s+1] = 2; break;
- default: b = -1; break;
- }
- if (b >= 0) { x[s] = i; s++; }
- }
- else if (dA > d1) // delta > delta0 => switch wbit up
- {
- //printf("up\n");
- b = 1;
- switch (dA)
- {
- case 1: d0 = 0; d1 = 1; w[s+1] = 1; break;
- case 2: d0 = 1; d1 = 2; w[s+1] = 2; break;
- case 3: d0 = 2; d1 = 3; w[s+1] = 3; break;
- default: b = -1; break;
- }
- if (b >= 0) { x[s] = i; s++; }
- }
- }
- if (b < 0) break; // delta out of range (<-1 or >3)
- if (s > 3) break; // segment out of range (> 3)
- //printf("%d\n", vA);
- if (b == 1) reg |= 0x80000000;
- if ((i & 31) == 31)
- tmc2130_wr_MSLUT(axis, (uint8_t)(i >> 5), reg);
- else
- reg >>= 1;
- // printf("%3d\t%3d\t%2d\t%2d\t%2d\t%2d %08x\n", i, vA, dA, b, w[s], s, reg);
- } while (i++ != 255);
- tmc2130_wr_MSLUTSEL(axis, x[0], x[1], x[2], w[0], w[1], w[2], w[3]);
- }
- void bubblesort_uint8(uint8_t* data, uint8_t size, uint8_t* data2)
- {
- uint8_t changed = 1;
- while (changed)
- {
- changed = 0;
- for (uint8_t i = 0; i < (size - 1); i++)
- if (data[i] > data[i+1])
- {
- uint8_t register d = data[i];
- data[i] = data[i+1];
- data[i+1] = d;
- if (data2)
- {
- d = data2[i];
- data2[i] = data2[i+1];
- data2[i+1] = d;
- }
- changed = 1;
- }
- }
- }
- uint8_t clusterize_uint8(uint8_t* data, uint8_t size, uint8_t* ccnt, uint8_t* cval, uint8_t tol)
- {
- uint8_t cnt = 1;
- uint16_t sum = data[0];
- uint8_t cl = 0;
- for (uint8_t i = 1; i < size; i++)
- {
- uint8_t d = data[i];
- uint8_t val = sum / cnt;
- uint8_t dif = 0;
- if (val > d) dif = val - d;
- else dif = d - val;
- if (dif <= tol)
- {
- cnt += 1;
- sum += d;
- }
- else
- {
- if (ccnt) ccnt[cl] = cnt;
- if (cval) cval[cl] = val;
- cnt = 1;
- sum = d;
- cl += 1;
- }
- }
- if (ccnt) ccnt[cl] = cnt;
- if (cval) cval[cl] = sum / cnt;
- return ++cl;
- }
- bool tmc2130_home_calibrate(uint8_t axis)
- {
- uint8_t step[16];
- uint8_t cnt[16];
- uint8_t val[16];
- homeaxis(axis, 16, step);
- bubblesort_uint8(step, 16, 0);
- puts_P(PSTR("sorted samples:"));
- for (uint8_t i = 0; i < 16; i++)
- printf_P(PSTR(" i=%2d step=%2d\n"), i, step[i]);
- uint8_t cl = clusterize_uint8(step, 16, cnt, val, 1);
- puts_P(PSTR("clusters:"));
- for (uint8_t i = 0; i < cl; i++)
- printf_P(PSTR(" i=%2d cnt=%2d val=%2d\n"), i, cnt[i], val[i]);
- bubblesort_uint8(cnt, cl, val);
- tmc2130_home_origin[axis] = val[cl-1];
- printf_P(PSTR("result value: %d\n"), tmc2130_home_origin[axis]);
- if (axis == X_AXIS) eeprom_update_byte((uint8_t*)EEPROM_TMC2130_HOME_X_ORIGIN, tmc2130_home_origin[X_AXIS]);
- else if (axis == Y_AXIS) eeprom_update_byte((uint8_t*)EEPROM_TMC2130_HOME_Y_ORIGIN, tmc2130_home_origin[Y_AXIS]);
- return true;
- }
- //! @brief Translate current to tmc2130 vsense and IHOLD or IRUN
- //! @param cur current in mA
- //! @return 0 .. 63
- //! @n most significant bit is CHOPCONF vsense bit (sense resistor voltage based current scaling)
- //! @n rest is to be used in IRUN or IHOLD register
- //!
- //! | mA | trinamic register | note |
- //! | --- | --- | --- |
- //! | 0 | 0 | doesn't mean current off, lowest current is 1/32 current with vsense low range |
- //! | 30 | 1 | |
- //! | 40 | 2 | |
- //! | 60 | 3 | |
- //! | 90 | 4 | |
- //! | 100 | 5 | |
- //! | 120 | 6 | |
- //! | 130 | 7 | |
- //! | 150 | 8 | |
- //! | 180 | 9 | |
- //! | 190 | 10 | |
- //! | 210 | 11 | |
- //! | 230 | 12 | |
- //! | 240 | 13 | |
- //! | 250 | 13 | |
- //! | 260 | 14 | |
- //! | 280 | 15 | |
- //! | 300 | 16 | |
- //! | 320 | 17 | |
- //! | 340 | 18 | |
- //! | 350 | 19 | |
- //! | 370 | 20 | |
- //! | 390 | 21 | |
- //! | 410 | 22 | |
- //! | 430 | 23 | |
- //! | 450 | 24 | |
- //! | 460 | 25 | |
- //! | 480 | 26 | |
- //! | 500 | 27 | |
- //! | 520 | 28 | |
- //! | 535 | 29 | |
- //! | N/D | 30 | extruder default |
- //! | 540 | 33 | |
- //! | 560 | 34 | |
- //! | 580 | 35 | |
- //! | 590 | 36 | farm mode extruder default |
- //! | 610 | 37 | |
- //! | 630 | 38 | |
- //! | 640 | 39 | |
- //! | 660 | 40 | |
- //! | 670 | 41 | |
- //! | 690 | 42 | |
- //! | 710 | 43 | |
- //! | 720 | 44 | |
- //! | 730 | 45 | |
- //! | 760 | 46 | |
- //! | 770 | 47 | |
- //! | 790 | 48 | |
- //! | 810 | 49 | |
- //! | 820 | 50 | |
- //! | 840 | 51 | |
- //! | 850 | 52 | |
- //! | 870 | 53 | |
- //! | 890 | 54 | |
- //! | 900 | 55 | |
- //! | 920 | 56 | |
- //! | 940 | 57 | |
- //! | 950 | 58 | |
- //! | 970 | 59 | |
- //! | 980 | 60 | |
- //! | 1000 | 61 | |
- //! | 1020 | 62 | |
- //! | 1029 | 63 | |
- uint8_t tmc2130_cur2val(float cur)
- {
- if (cur < 0) cur = 0; //limit min
- if (cur > 1029) cur = 1029; //limit max
- //540mA is threshold for switch from high sense to low sense
- //for higher currents is maximum current 1029mA
- if (cur >= 540) return 63 * (float)cur / 1029;
- //for lower currents must be the value divided by 1.125 (= 0.18*2/0.32)
- return 63 * (float)cur / (1029 * 1.125);
- }
- float tmc2130_val2cur(uint8_t val)
- {
- float rsense = 0.2; //0.2 ohm sense resistors
- uint8_t vsense = (val & 0x20)?0:1; //vsense bit = val>31
- float vfs = vsense?0.18:0.32; //vfs depends on vsense bit
- uint8_t val2 = vsense?val:(val >> 1); //vals 32..63 shifted right (16..31)
- // equation from datasheet (0.7071 ~= 1/sqrt(2))
- float cur = ((float)(val2 + 1)/32) * (vfs/(rsense + 0.02)) * 0.7071;
- return cur * 1000; //return current in mA
- }
- #endif //TMC2130
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