Firmware2/Marlin/src/module/stepper/trinamic.cpp

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/**
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* Marlin 3D Printer Firmware
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* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
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*
* Based on Sprinter and grbl.
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* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
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*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
/**
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* stepper/trinamic.cpp
* Stepper driver indirection for Trinamic
*/
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#include "../../inc/MarlinConfig.h"
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#if HAS_TRINAMIC_CONFIG
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#include "trinamic.h"
#include "../stepper.h"
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#include <HardwareSerial.h>
#include <SPI.h>
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enum StealthIndex : uint8_t { STEALTH_AXIS_XY, STEALTH_AXIS_Z, STEALTH_AXIS_E };
#define TMC_INIT(ST, STEALTH_INDEX) tmc_init(stepper##ST, ST##_CURRENT, ST##_MICROSTEPS, ST##_HYBRID_THRESHOLD, stealthchop_by_axis[STEALTH_INDEX])
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// IC = TMC model number
// ST = Stepper object letter
// L = Label characters
// AI = Axis Enum Index
// SWHW = SW/SH UART selection
#if ENABLED(TMC_USE_SW_SPI)
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#define __TMC_SPI_DEFINE(IC, ST, L, AI) TMCMarlin<IC##Stepper, L, AI> stepper##ST(ST##_CS_PIN, float(ST##_RSENSE), TMC_SW_MOSI, TMC_SW_MISO, TMC_SW_SCK, ST##_CHAIN_POS)
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#else
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#define __TMC_SPI_DEFINE(IC, ST, L, AI) TMCMarlin<IC##Stepper, L, AI> stepper##ST(ST##_CS_PIN, float(ST##_RSENSE), ST##_CHAIN_POS)
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#endif
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#define TMC_UART_HW_DEFINE(IC, ST, L, AI) TMCMarlin<IC##Stepper, L, AI> stepper##ST(&ST##_HARDWARE_SERIAL, float(ST##_RSENSE), ST##_SLAVE_ADDRESS)
#define TMC_UART_SW_DEFINE(IC, ST, L, AI) TMCMarlin<IC##Stepper, L, AI> stepper##ST(ST##_SERIAL_RX_PIN, ST##_SERIAL_TX_PIN, float(ST##_RSENSE), ST##_SLAVE_ADDRESS, ST##_SERIAL_RX_PIN > -1)
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#define _TMC_SPI_DEFINE(IC, ST, AI) __TMC_SPI_DEFINE(IC, ST, TMC_##ST##_LABEL, AI)
#define TMC_SPI_DEFINE(ST, AI) _TMC_SPI_DEFINE(ST##_DRIVER_TYPE, ST, AI##_AXIS)
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#define _TMC_UART_DEFINE(SWHW, IC, ST, AI) TMC_UART_##SWHW##_DEFINE(IC, ST, TMC_##ST##_LABEL, AI)
#define TMC_UART_DEFINE(SWHW, ST, AI) _TMC_UART_DEFINE(SWHW, ST##_DRIVER_TYPE, ST, AI##_AXIS)
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#if ENABLED(DISTINCT_E_FACTORS) && E_STEPPERS > 1
#define TMC_SPI_DEFINE_E(AI) TMC_SPI_DEFINE(E##AI, E##AI)
#define TMC_UART_DEFINE_E(SWHW, AI) TMC_UART_DEFINE(SWHW, E##AI, E##AI)
#else
#define TMC_SPI_DEFINE_E(AI) TMC_SPI_DEFINE(E##AI, E)
#define TMC_UART_DEFINE_E(SWHW, AI) TMC_UART_DEFINE(SWHW, E##AI, E)
#endif
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// Stepper objects of TMC2130/TMC2160/TMC2660/TMC5130/TMC5160 steppers used
#if AXIS_HAS_SPI(X)
TMC_SPI_DEFINE(X, X);
#endif
#if AXIS_HAS_SPI(X2)
TMC_SPI_DEFINE(X2, X);
#endif
#if AXIS_HAS_SPI(Y)
TMC_SPI_DEFINE(Y, Y);
#endif
#if AXIS_HAS_SPI(Y2)
TMC_SPI_DEFINE(Y2, Y);
#endif
#if AXIS_HAS_SPI(Z)
TMC_SPI_DEFINE(Z, Z);
#endif
#if AXIS_HAS_SPI(Z2)
TMC_SPI_DEFINE(Z2, Z);
#endif
#if AXIS_HAS_SPI(Z3)
TMC_SPI_DEFINE(Z3, Z);
#endif
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#if AXIS_HAS_SPI(Z4)
TMC_SPI_DEFINE(Z4, Z);
#endif
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#if AXIS_HAS_SPI(E0)
TMC_SPI_DEFINE_E(0);
#endif
#if AXIS_HAS_SPI(E1)
TMC_SPI_DEFINE_E(1);
#endif
#if AXIS_HAS_SPI(E2)
TMC_SPI_DEFINE_E(2);
#endif
#if AXIS_HAS_SPI(E3)
TMC_SPI_DEFINE_E(3);
#endif
#if AXIS_HAS_SPI(E4)
TMC_SPI_DEFINE_E(4);
#endif
#if AXIS_HAS_SPI(E5)
TMC_SPI_DEFINE_E(5);
#endif
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#if AXIS_HAS_SPI(E6)
TMC_SPI_DEFINE_E(6);
#endif
#if AXIS_HAS_SPI(E7)
TMC_SPI_DEFINE_E(7);
#endif
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#ifndef TMC_BAUD_RATE
#if HAS_TMC_SW_SERIAL
// Reduce baud rate for boards not already overriding TMC_BAUD_RATE for software serial.
// Testing has shown that 115200 is not 100% reliable on AVR platforms, occasionally
// failing to read status properly. 32-bit platforms typically define an even lower
// TMC_BAUD_RATE, due to differences in how SoftwareSerial libraries work on different
// platforms.
#define TMC_BAUD_RATE 57600
#else
#define TMC_BAUD_RATE 115200
#endif
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#endif
#if HAS_DRIVER(TMC2130)
template<char AXIS_LETTER, char DRIVER_ID, AxisEnum AXIS_ID>
void tmc_init(TMCMarlin<TMC2130Stepper, AXIS_LETTER, DRIVER_ID, AXIS_ID> &st, const uint16_t mA, const uint16_t microsteps, const uint32_t hyb_thrs, const bool stealth) {
st.begin();
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CHOPCONF_t chopconf{0};
chopconf.tbl = 1;
chopconf.toff = chopper_timing.toff;
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chopconf.intpol = INTERPOLATE;
chopconf.hend = chopper_timing.hend + 3;
chopconf.hstrt = chopper_timing.hstrt - 1;
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#if ENABLED(SQUARE_WAVE_STEPPING)
chopconf.dedge = true;
#endif
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st.CHOPCONF(chopconf.sr);
st.rms_current(mA, HOLD_MULTIPLIER);
st.microsteps(microsteps);
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st.iholddelay(10);
st.TPOWERDOWN(128); // ~2s until driver lowers to hold current
st.en_pwm_mode(stealth);
st.stored.stealthChop_enabled = stealth;
PWMCONF_t pwmconf{0};
pwmconf.pwm_freq = 0b01; // f_pwm = 2/683 f_clk
pwmconf.pwm_autoscale = true;
pwmconf.pwm_grad = 5;
pwmconf.pwm_ampl = 180;
st.PWMCONF(pwmconf.sr);
#if ENABLED(HYBRID_THRESHOLD)
st.set_pwm_thrs(hyb_thrs);
#else
UNUSED(hyb_thrs);
#endif
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st.GSTAT(); // Clear GSTAT
}
#endif // TMC2130
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#if HAS_DRIVER(TMC2160)
template<char AXIS_LETTER, char DRIVER_ID, AxisEnum AXIS_ID>
void tmc_init(TMCMarlin<TMC2160Stepper, AXIS_LETTER, DRIVER_ID, AXIS_ID> &st, const uint16_t mA, const uint16_t microsteps, const uint32_t hyb_thrs, const bool stealth) {
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st.begin();
CHOPCONF_t chopconf{0};
chopconf.tbl = 1;
chopconf.toff = chopper_timing.toff;
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chopconf.intpol = INTERPOLATE;
chopconf.hend = chopper_timing.hend + 3;
chopconf.hstrt = chopper_timing.hstrt - 1;
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#if ENABLED(SQUARE_WAVE_STEPPING)
chopconf.dedge = true;
#endif
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st.CHOPCONF(chopconf.sr);
st.rms_current(mA, HOLD_MULTIPLIER);
st.microsteps(microsteps);
st.iholddelay(10);
st.TPOWERDOWN(128); // ~2s until driver lowers to hold current
st.en_pwm_mode(stealth);
st.stored.stealthChop_enabled = stealth;
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TMC2160_n::PWMCONF_t pwmconf{0};
pwmconf.pwm_lim = 12;
pwmconf.pwm_reg = 8;
pwmconf.pwm_autograd = true;
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pwmconf.pwm_autoscale = true;
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pwmconf.pwm_freq = 0b01;
pwmconf.pwm_grad = 14;
pwmconf.pwm_ofs = 36;
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st.PWMCONF(pwmconf.sr);
#if ENABLED(HYBRID_THRESHOLD)
st.set_pwm_thrs(hyb_thrs);
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#else
UNUSED(hyb_thrs);
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#endif
st.GSTAT(); // Clear GSTAT
}
#endif // TMC2160
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//
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// TMC2208/2209 Driver objects and inits
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//
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#if HAS_TMC220x
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#if AXIS_HAS_UART(X)
#ifdef X_HARDWARE_SERIAL
TMC_UART_DEFINE(HW, X, X);
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#else
TMC_UART_DEFINE(SW, X, X);
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#endif
#endif
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#if AXIS_HAS_UART(X2)
#ifdef X2_HARDWARE_SERIAL
TMC_UART_DEFINE(HW, X2, X);
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#else
TMC_UART_DEFINE(SW, X2, X);
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#endif
#endif
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#if AXIS_HAS_UART(Y)
#ifdef Y_HARDWARE_SERIAL
TMC_UART_DEFINE(HW, Y, Y);
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#else
TMC_UART_DEFINE(SW, Y, Y);
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#endif
#endif
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#if AXIS_HAS_UART(Y2)
#ifdef Y2_HARDWARE_SERIAL
TMC_UART_DEFINE(HW, Y2, Y);
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#else
TMC_UART_DEFINE(SW, Y2, Y);
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#endif
#endif
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#if AXIS_HAS_UART(Z)
#ifdef Z_HARDWARE_SERIAL
TMC_UART_DEFINE(HW, Z, Z);
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#else
TMC_UART_DEFINE(SW, Z, Z);
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#endif
#endif
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#if AXIS_HAS_UART(Z2)
#ifdef Z2_HARDWARE_SERIAL
TMC_UART_DEFINE(HW, Z2, Z);
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#else
TMC_UART_DEFINE(SW, Z2, Z);
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#endif
#endif
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#if AXIS_HAS_UART(Z3)
#ifdef Z3_HARDWARE_SERIAL
TMC_UART_DEFINE(HW, Z3, Z);
#else
TMC_UART_DEFINE(SW, Z3, Z);
#endif
#endif
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#if AXIS_HAS_UART(Z4)
#ifdef Z4_HARDWARE_SERIAL
TMC_UART_DEFINE(HW, Z4, Z);
#else
TMC_UART_DEFINE(SW, Z4, Z);
#endif
#endif
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#if AXIS_HAS_UART(E0)
#ifdef E0_HARDWARE_SERIAL
TMC_UART_DEFINE_E(HW, 0);
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#else
TMC_UART_DEFINE_E(SW, 0);
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#endif
#endif
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#if AXIS_HAS_UART(E1)
#ifdef E1_HARDWARE_SERIAL
TMC_UART_DEFINE_E(HW, 1);
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#else
TMC_UART_DEFINE_E(SW, 1);
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#endif
#endif
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#if AXIS_HAS_UART(E2)
#ifdef E2_HARDWARE_SERIAL
TMC_UART_DEFINE_E(HW, 2);
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#else
TMC_UART_DEFINE_E(SW, 2);
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#endif
#endif
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#if AXIS_HAS_UART(E3)
#ifdef E3_HARDWARE_SERIAL
TMC_UART_DEFINE_E(HW, 3);
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#else
TMC_UART_DEFINE_E(SW, 3);
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#endif
#endif
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#if AXIS_HAS_UART(E4)
#ifdef E4_HARDWARE_SERIAL
TMC_UART_DEFINE_E(HW, 4);
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#else
TMC_UART_DEFINE_E(SW, 4);
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#endif
#endif
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#if AXIS_HAS_UART(E5)
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#ifdef E5_HARDWARE_SERIAL
TMC_UART_DEFINE_E(HW, 5);
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#else
TMC_UART_DEFINE_E(SW, 5);
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#endif
#endif
#if AXIS_HAS_UART(E6)
#ifdef E6_HARDWARE_SERIAL
TMC_UART_DEFINE_E(HW, 6);
#else
TMC_UART_DEFINE_E(SW, 6);
#endif
#endif
#if AXIS_HAS_UART(E7)
#ifdef E7_HARDWARE_SERIAL
TMC_UART_DEFINE_E(HW, 7);
#else
TMC_UART_DEFINE_E(SW, 7);
#endif
#endif
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enum TMCAxis : uint8_t { X, Y, Z, X2, Y2, Z2, Z3, Z4, E0, E1, E2, E3, E4, E5, E6, E7, TOTAL };
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void tmc_serial_begin() {
struct {
const void *ptr[TMCAxis::TOTAL];
bool began(const TMCAxis a, const void * const p) {
LOOP_L_N(i, a) if (p == ptr[i]) return true;
ptr[a] = p; return false;
};
} sp_helper;
#define HW_SERIAL_BEGIN(A) do{ if (sp_helper.began(TMCAxis::A, &A##_HARDWARE_SERIAL)) \
A##_HARDWARE_SERIAL.begin(TMC_BAUD_RATE); }while(0)
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#if AXIS_HAS_UART(X)
#ifdef X_HARDWARE_SERIAL
HW_SERIAL_BEGIN(X);
#else
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stepperX.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(X2)
#ifdef X2_HARDWARE_SERIAL
HW_SERIAL_BEGIN(X2);
#else
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stepperX2.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(Y)
#ifdef Y_HARDWARE_SERIAL
HW_SERIAL_BEGIN(Y);
#else
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stepperY.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(Y2)
#ifdef Y2_HARDWARE_SERIAL
HW_SERIAL_BEGIN(Y2);
#else
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stepperY2.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(Z)
#ifdef Z_HARDWARE_SERIAL
HW_SERIAL_BEGIN(Z);
#else
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stepperZ.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(Z2)
#ifdef Z2_HARDWARE_SERIAL
HW_SERIAL_BEGIN(Z2);
#else
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stepperZ2.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(Z3)
#ifdef Z3_HARDWARE_SERIAL
HW_SERIAL_BEGIN(Z3);
#else
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stepperZ3.beginSerial(TMC_BAUD_RATE);
#endif
#endif
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#if AXIS_HAS_UART(Z4)
#ifdef Z4_HARDWARE_SERIAL
HW_SERIAL_BEGIN(Z4);
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#else
stepperZ4.beginSerial(TMC_BAUD_RATE);
#endif
#endif
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#if AXIS_HAS_UART(E0)
#ifdef E0_HARDWARE_SERIAL
HW_SERIAL_BEGIN(E0);
#else
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stepperE0.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(E1)
#ifdef E1_HARDWARE_SERIAL
HW_SERIAL_BEGIN(E1);
#else
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stepperE1.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(E2)
#ifdef E2_HARDWARE_SERIAL
HW_SERIAL_BEGIN(E2);
#else
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stepperE2.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(E3)
#ifdef E3_HARDWARE_SERIAL
HW_SERIAL_BEGIN(E3);
#else
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stepperE3.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(E4)
#ifdef E4_HARDWARE_SERIAL
HW_SERIAL_BEGIN(E4);
#else
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stepperE4.beginSerial(TMC_BAUD_RATE);
#endif
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#endif
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#if AXIS_HAS_UART(E5)
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#ifdef E5_HARDWARE_SERIAL
HW_SERIAL_BEGIN(E5);
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#else
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stepperE5.beginSerial(TMC_BAUD_RATE);
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#endif
#endif
#if AXIS_HAS_UART(E6)
#ifdef E6_HARDWARE_SERIAL
HW_SERIAL_BEGIN(E6);
#else
stepperE6.beginSerial(TMC_BAUD_RATE);
#endif
#endif
#if AXIS_HAS_UART(E7)
#ifdef E7_HARDWARE_SERIAL
HW_SERIAL_BEGIN(E7);
#else
stepperE7.beginSerial(TMC_BAUD_RATE);
#endif
#endif
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}
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#endif
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#if HAS_DRIVER(TMC2208)
template<char AXIS_LETTER, char DRIVER_ID, AxisEnum AXIS_ID>
void tmc_init(TMCMarlin<TMC2208Stepper, AXIS_LETTER, DRIVER_ID, AXIS_ID> &st, const uint16_t mA, const uint16_t microsteps, const uint32_t hyb_thrs, const bool stealth) {
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TMC2208_n::GCONF_t gconf{0};
gconf.pdn_disable = true; // Use UART
gconf.mstep_reg_select = true; // Select microsteps with UART
gconf.i_scale_analog = false;
gconf.en_spreadcycle = !stealth;
st.GCONF(gconf.sr);
st.stored.stealthChop_enabled = stealth;
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TMC2208_n::CHOPCONF_t chopconf{0};
chopconf.tbl = 0b01; // blank_time = 24
chopconf.toff = chopper_timing.toff;
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chopconf.intpol = INTERPOLATE;
chopconf.hend = chopper_timing.hend + 3;
chopconf.hstrt = chopper_timing.hstrt - 1;
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#if ENABLED(SQUARE_WAVE_STEPPING)
chopconf.dedge = true;
#endif
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st.CHOPCONF(chopconf.sr);
st.rms_current(mA, HOLD_MULTIPLIER);
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st.microsteps(microsteps);
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st.iholddelay(10);
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st.TPOWERDOWN(128); // ~2s until driver lowers to hold current
TMC2208_n::PWMCONF_t pwmconf{0};
pwmconf.pwm_lim = 12;
pwmconf.pwm_reg = 8;
pwmconf.pwm_autograd = true;
pwmconf.pwm_autoscale = true;
pwmconf.pwm_freq = 0b01;
pwmconf.pwm_grad = 14;
pwmconf.pwm_ofs = 36;
st.PWMCONF(pwmconf.sr);
#if ENABLED(HYBRID_THRESHOLD)
st.set_pwm_thrs(hyb_thrs);
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#else
UNUSED(hyb_thrs);
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#endif
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st.GSTAT(0b111); // Clear
delay(200);
}
#endif // TMC2208
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#if HAS_DRIVER(TMC2209)
template<char AXIS_LETTER, char DRIVER_ID, AxisEnum AXIS_ID>
void tmc_init(TMCMarlin<TMC2209Stepper, AXIS_LETTER, DRIVER_ID, AXIS_ID> &st, const uint16_t mA, const uint16_t microsteps, const uint32_t hyb_thrs, const bool stealth) {
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TMC2208_n::GCONF_t gconf{0};
gconf.pdn_disable = true; // Use UART
gconf.mstep_reg_select = true; // Select microsteps with UART
gconf.i_scale_analog = false;
gconf.en_spreadcycle = !stealth;
st.GCONF(gconf.sr);
st.stored.stealthChop_enabled = stealth;
TMC2208_n::CHOPCONF_t chopconf{0};
chopconf.tbl = 0b01; // blank_time = 24
chopconf.toff = chopper_timing.toff;
chopconf.intpol = INTERPOLATE;
chopconf.hend = chopper_timing.hend + 3;
chopconf.hstrt = chopper_timing.hstrt - 1;
#if ENABLED(SQUARE_WAVE_STEPPING)
chopconf.dedge = true;
#endif
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st.CHOPCONF(chopconf.sr);
st.rms_current(mA, HOLD_MULTIPLIER);
st.microsteps(microsteps);
st.iholddelay(10);
st.TPOWERDOWN(128); // ~2s until driver lowers to hold current
TMC2208_n::PWMCONF_t pwmconf{0};
pwmconf.pwm_lim = 12;
pwmconf.pwm_reg = 8;
pwmconf.pwm_autograd = true;
pwmconf.pwm_autoscale = true;
pwmconf.pwm_freq = 0b01;
pwmconf.pwm_grad = 14;
pwmconf.pwm_ofs = 36;
st.PWMCONF(pwmconf.sr);
#if ENABLED(HYBRID_THRESHOLD)
st.set_pwm_thrs(hyb_thrs);
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#else
UNUSED(hyb_thrs);
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#endif
st.GSTAT(0b111); // Clear
delay(200);
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}
#endif // TMC2209
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#if HAS_DRIVER(TMC2660)
template<char AXIS_LETTER, char DRIVER_ID, AxisEnum AXIS_ID>
void tmc_init(TMCMarlin<TMC2660Stepper, AXIS_LETTER, DRIVER_ID, AXIS_ID> &st, const uint16_t mA, const uint16_t microsteps, const uint32_t, const bool) {
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st.begin();
TMC2660_n::CHOPCONF_t chopconf{0};
chopconf.tbl = 1;
chopconf.toff = chopper_timing.toff;
chopconf.hend = chopper_timing.hend + 3;
chopconf.hstrt = chopper_timing.hstrt - 1;
st.CHOPCONF(chopconf.sr);
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st.sdoff(0);
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st.rms_current(mA);
st.microsteps(microsteps);
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#if ENABLED(SQUARE_WAVE_STEPPING)
st.dedge(true);
#endif
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st.intpol(INTERPOLATE);
st.diss2g(true); // Disable short to ground protection. Too many false readings?
#if ENABLED(TMC_DEBUG)
st.rdsel(0b01);
#endif
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}
#endif // TMC2660
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#if HAS_DRIVER(TMC5130)
template<char AXIS_LETTER, char DRIVER_ID, AxisEnum AXIS_ID>
void tmc_init(TMCMarlin<TMC5130Stepper, AXIS_LETTER, DRIVER_ID, AXIS_ID> &st, const uint16_t mA, const uint16_t microsteps, const uint32_t hyb_thrs, const bool stealth) {
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st.begin();
CHOPCONF_t chopconf{0};
chopconf.tbl = 1;
chopconf.toff = chopper_timing.toff;
chopconf.intpol = INTERPOLATE;
chopconf.hend = chopper_timing.hend + 3;
chopconf.hstrt = chopper_timing.hstrt - 1;
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#if ENABLED(SQUARE_WAVE_STEPPING)
chopconf.dedge = true;
#endif
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st.CHOPCONF(chopconf.sr);
st.rms_current(mA, HOLD_MULTIPLIER);
st.microsteps(microsteps);
st.iholddelay(10);
st.TPOWERDOWN(128); // ~2s until driver lowers to hold current
st.en_pwm_mode(stealth);
st.stored.stealthChop_enabled = stealth;
PWMCONF_t pwmconf{0};
pwmconf.pwm_freq = 0b01; // f_pwm = 2/683 f_clk
pwmconf.pwm_autoscale = true;
pwmconf.pwm_grad = 5;
pwmconf.pwm_ampl = 180;
st.PWMCONF(pwmconf.sr);
#if ENABLED(HYBRID_THRESHOLD)
st.set_pwm_thrs(hyb_thrs);
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#else
UNUSED(hyb_thrs);
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#endif
st.GSTAT(); // Clear GSTAT
}
#endif // TMC5130
#if HAS_DRIVER(TMC5160)
template<char AXIS_LETTER, char DRIVER_ID, AxisEnum AXIS_ID>
void tmc_init(TMCMarlin<TMC5160Stepper, AXIS_LETTER, DRIVER_ID, AXIS_ID> &st, const uint16_t mA, const uint16_t microsteps, const uint32_t hyb_thrs, const bool stealth) {
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st.begin();
CHOPCONF_t chopconf{0};
chopconf.tbl = 1;
chopconf.toff = chopper_timing.toff;
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chopconf.intpol = INTERPOLATE;
chopconf.hend = chopper_timing.hend + 3;
chopconf.hstrt = chopper_timing.hstrt - 1;
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#if ENABLED(SQUARE_WAVE_STEPPING)
chopconf.dedge = true;
#endif
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st.CHOPCONF(chopconf.sr);
st.rms_current(mA, HOLD_MULTIPLIER);
st.microsteps(microsteps);
st.iholddelay(10);
st.TPOWERDOWN(128); // ~2s until driver lowers to hold current
st.en_pwm_mode(stealth);
st.stored.stealthChop_enabled = stealth;
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TMC2160_n::PWMCONF_t pwmconf{0};
pwmconf.pwm_lim = 12;
pwmconf.pwm_reg = 8;
pwmconf.pwm_autograd = true;
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pwmconf.pwm_autoscale = true;
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pwmconf.pwm_freq = 0b01;
pwmconf.pwm_grad = 14;
pwmconf.pwm_ofs = 36;
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st.PWMCONF(pwmconf.sr);
#if ENABLED(HYBRID_THRESHOLD)
st.set_pwm_thrs(hyb_thrs);
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#else
UNUSED(hyb_thrs);
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#endif
st.GSTAT(); // Clear GSTAT
}
#endif // TMC5160
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void restore_trinamic_drivers() {
#if AXIS_IS_TMC(X)
stepperX.push();
#endif
#if AXIS_IS_TMC(X2)
stepperX2.push();
#endif
#if AXIS_IS_TMC(Y)
stepperY.push();
#endif
#if AXIS_IS_TMC(Y2)
stepperY2.push();
#endif
#if AXIS_IS_TMC(Z)
stepperZ.push();
#endif
#if AXIS_IS_TMC(Z2)
stepperZ2.push();
#endif
#if AXIS_IS_TMC(Z3)
stepperZ3.push();
#endif
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#if AXIS_IS_TMC(Z4)
stepperZ4.push();
#endif
#if AXIS_IS_TMC(E0)
stepperE0.push();
#endif
#if AXIS_IS_TMC(E1)
stepperE1.push();
#endif
#if AXIS_IS_TMC(E2)
stepperE2.push();
#endif
#if AXIS_IS_TMC(E3)
stepperE3.push();
#endif
#if AXIS_IS_TMC(E4)
stepperE4.push();
#endif
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#if AXIS_IS_TMC(E5)
stepperE5.push();
#endif
#if AXIS_IS_TMC(E6)
stepperE6.push();
#endif
#if AXIS_IS_TMC(E7)
stepperE7.push();
#endif
}
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void reset_trinamic_drivers() {
static constexpr bool stealthchop_by_axis[] = {
#if ENABLED(STEALTHCHOP_XY)
true
#else
false
#endif
,
#if ENABLED(STEALTHCHOP_Z)
true
#else
false
#endif
,
#if ENABLED(STEALTHCHOP_E)
true
#else
false
#endif
};
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#if AXIS_IS_TMC(X)
TMC_INIT(X, STEALTH_AXIS_XY);
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#endif
#if AXIS_IS_TMC(X2)
TMC_INIT(X2, STEALTH_AXIS_XY);
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#endif
#if AXIS_IS_TMC(Y)
TMC_INIT(Y, STEALTH_AXIS_XY);
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#endif
#if AXIS_IS_TMC(Y2)
TMC_INIT(Y2, STEALTH_AXIS_XY);
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#endif
#if AXIS_IS_TMC(Z)
TMC_INIT(Z, STEALTH_AXIS_Z);
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#endif
#if AXIS_IS_TMC(Z2)
TMC_INIT(Z2, STEALTH_AXIS_Z);
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#endif
#if AXIS_IS_TMC(Z3)
TMC_INIT(Z3, STEALTH_AXIS_Z);
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#endif
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#if AXIS_IS_TMC(Z4)
TMC_INIT(Z4, STEALTH_AXIS_Z);
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#endif
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#if AXIS_IS_TMC(E0)
TMC_INIT(E0, STEALTH_AXIS_E);
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#endif
#if AXIS_IS_TMC(E1)
TMC_INIT(E1, STEALTH_AXIS_E);
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#endif
#if AXIS_IS_TMC(E2)
TMC_INIT(E2, STEALTH_AXIS_E);
#endif
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#if AXIS_IS_TMC(E3)
TMC_INIT(E3, STEALTH_AXIS_E);
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#endif
#if AXIS_IS_TMC(E4)
TMC_INIT(E4, STEALTH_AXIS_E);
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#endif
#if AXIS_IS_TMC(E5)
TMC_INIT(E5, STEALTH_AXIS_E);
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#endif
#if AXIS_IS_TMC(E6)
TMC_INIT(E6, STEALTH_AXIS_E);
#endif
#if AXIS_IS_TMC(E7)
TMC_INIT(E7, STEALTH_AXIS_E);
#endif
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#if USE_SENSORLESS
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#if X_SENSORLESS
#if AXIS_HAS_STALLGUARD(X)
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stepperX.homing_threshold(X_STALL_SENSITIVITY);
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#endif
#if AXIS_HAS_STALLGUARD(X2) && !X2_SENSORLESS
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stepperX2.homing_threshold(X_STALL_SENSITIVITY);
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#endif
#endif
#if X2_SENSORLESS
stepperX2.homing_threshold(X2_STALL_SENSITIVITY);
#endif
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#if Y_SENSORLESS
#if AXIS_HAS_STALLGUARD(Y)
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stepperY.homing_threshold(Y_STALL_SENSITIVITY);
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#endif
#if AXIS_HAS_STALLGUARD(Y2)
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stepperY2.homing_threshold(Y_STALL_SENSITIVITY);
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#endif
#endif
#if Z_SENSORLESS
#if AXIS_HAS_STALLGUARD(Z)
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stepperZ.homing_threshold(Z_STALL_SENSITIVITY);
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#endif
#if AXIS_HAS_STALLGUARD(Z2)
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stepperZ2.homing_threshold(Z_STALL_SENSITIVITY);
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#endif
#if AXIS_HAS_STALLGUARD(Z3)
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stepperZ3.homing_threshold(Z_STALL_SENSITIVITY);
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#endif
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#if AXIS_HAS_STALLGUARD(Z4)
stepperZ4.homing_threshold(Z_STALL_SENSITIVITY);
#endif
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#endif
#endif
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#ifdef TMC_ADV
TMC_ADV()
#endif
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stepper.set_directions();
}
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#endif // HAS_TRINAMIC_CONFIG