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@ -231,20 +231,11 @@
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/*********************** HOMING & AXIS DIRECTIONS ******************************/
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#if defined(LULZBOT_USE_EINSYRAMBO)
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// The axis connectors seem to be reversed on the EinsyRambo.
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#define LULZBOT_INVERT_X_DIR true
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#define LULZBOT_INVERT_Y_DIR false
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#define LULZBOT_INVERT_Z_DIR true
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#define LULZBOT_INVERT_E0_DIR false
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#define LULZBOT_INVERT_E1_DIR false
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#else
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#define LULZBOT_INVERT_X_DIR false
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#define LULZBOT_INVERT_Y_DIR true
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#define LULZBOT_INVERT_Z_DIR false
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#define LULZBOT_INVERT_E0_DIR true
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#define LULZBOT_INVERT_E1_DIR true
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#endif
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#define LULZBOT_INVERT_X_DIR false
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#define LULZBOT_INVERT_Y_DIR true
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#define LULZBOT_INVERT_Z_DIR false
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#define LULZBOT_INVERT_E0_DIR true
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#define LULZBOT_INVERT_E1_DIR true
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#if defined(LULZBOT_IS_MINI)
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#define LULZBOT_HOMING_Z_WITH_PROBE false
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@ -412,47 +403,43 @@
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* Z_MIN_PIN corresponds to the Z-Home push button.
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* Z_MIN_PROBE_PIN are the bed washers.
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*/
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#if defined(LULZBOT_Gladiola_MiniEinsy)
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#define LULZBOT_ENABLE_PROBE_PINS(enable)
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#elif defined(LULZBOT_USE_AUTOLEVELING) && defined(LULZBOT_MINI_BED)
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#define LULZBOT_ENABLE_PROBE_PINS(enable) { \
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#define LULZBOT_SET_PIN_STATE(pin, enable) \
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if(enable) { \
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/* Set as inputs with pull-up resistor */ \
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SET_INPUT(Z_MIN_PIN); \
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WRITE(Z_MIN_PIN, HIGH); \
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SET_INPUT(pin); \
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WRITE(pin, HIGH); \
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} else { \
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/* Ground to prevent EMI */ \
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SET_OUTPUT(Z_MIN_PIN); \
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WRITE(Z_MIN_PIN, LOW); \
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} \
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SET_OUTPUT(pin); \
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WRITE(pin, LOW); \
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}
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#if defined(LULZBOT_Gladiola_MiniEinsy)
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#define LULZBOT_ENABLE_PROBE_PINS(enable) \
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endstops.enable_z_probe(enable);
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#elif defined(LULZBOT_USE_AUTOLEVELING) && defined(LULZBOT_MINI_BED)
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#define LULZBOT_ENABLE_PROBE_PINS(enable) { \
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endstops.enable_z_probe(enable); \
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LULZBOT_SET_PIN_STATE(Z_MIN_PIN, enable) \
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LULZBOT_EXTRUDER_MOTOR_SHUTOFF_ON_PROBE(enable) \
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}
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#elif defined(LULZBOT_USE_AUTOLEVELING) && defined(LULZBOT_USE_HOME_BUTTON)
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#define LULZBOT_ENABLE_PROBE_PINS(enable) { \
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if(enable) { \
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/* Set both as inputs with pull-up resistor */ \
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SET_INPUT(LULZBOT_Z_MIN_PROBE_PIN); \
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WRITE(LULZBOT_Z_MIN_PROBE_PIN, HIGH); \
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SET_INPUT(Z_MIN_PIN); \
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WRITE(Z_MIN_PIN, HIGH); \
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/* The following is required since Marlin would \
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* not normally deploy the probe for Z-Min */ \
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endstops.enable_z_probe(true); \
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} else { \
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/* Ground both pins to prevent EMI */ \
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SET_OUTPUT(LULZBOT_Z_MIN_PROBE_PIN); \
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WRITE(LULZBOT_Z_MIN_PROBE_PIN, LOW); \
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SET_OUTPUT(Z_MIN_PIN); \
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WRITE(Z_MIN_PIN, LOW); \
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endstops.enable_z_probe(false); \
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} \
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endstops.enable_z_probe(enable); \
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LULZBOT_SET_PIN_STATE(Z_MIN_PIN, enable) \
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LULZBOT_SET_PIN_STATE(LULZBOT_Z_MIN_PROBE_PIN, enable) \
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}
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#else
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#define LULZBOT_ENABLE_PROBE_PINS(enable)
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#endif
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/* We need a delay before M119, since LULZBOT_ENABLE_PROBE_PINS
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* calls endstops.enable_z_probe, but there is a delay before
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* the ISR checks endstops again */
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#define LULZBOT_DELAY_BEFORE_M119 safe_delay(500);
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/* Make it so M42 S<state> controls the state of the
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/* probe lines. This is useful for troubleshooting. */
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#define LULZBOT_M42_TOGGLES_PROBE_PINS \
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@ -967,21 +954,43 @@
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// EinsyRambo uses a 220 mOhm sense resistor
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#define LULZBOT_R_SENSE 0.22
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#define LULZBOT_HOLD_MULTIPLIER 0.5
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#define LULZBOT_TMC_INIT(st) \
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/* The EinsyRambo connects both diag pins to the same */ \
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/* microcontroller pin and provides a pull up resistor, */ \
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/* so configure the pin as active low. */ \
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st.diag0_active_high(0); \
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st.diag1_active_high(0); \
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st.diag1_stall(1);
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st.diag1_stall(1); \
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/* Reverse the motor direction so it matches the Rambo */ \
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st.shaft_dir(1); \
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st.external_ref(0); /* I_scale_analog = 0 */ \
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st.internal_sense_R(0); /* internal_Rsense = 0 */ \
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/* Disable short protection since this generates false positives
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on the Z axis when probing.
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*/ \
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//st.disable_short_protection(1)
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#define LULZBOT_STALLGUARD_REPORT \
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static int nextSgReport = 100; \
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if(planner.blocks_queued()) { \
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if(nextSgReport-- == 0) { \
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nextSgReport = 100; \
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uint32_t DRVSTATUS = stepperX.DRV_STATUS(); \
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uint16_t SG_RESULT = DRVSTATUS & 0b111111111; \
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#define LULZBOT_TMC_HEALTHCHECK(AXIS) \
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{ \
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uint16_t ALWAYS_1, DIR_0, DIR_1; \
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ALWAYS_1 = (stepper##AXIS.IOIN() >> 6) & 0b1; \
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AXIS##_DIR_WRITE(0); DIR_0 = (stepper##AXIS.IOIN() >> 1) & 0b1; \
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AXIS##_DIR_WRITE(1); DIR_1 = (stepper##AXIS.IOIN() >> 1) & 0b1; \
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if(!ALWAYS_1 || DIR_0 != 0 || DIR_1 != 1) { \
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SERIAL_PROTOCOLPGM("Failed TMC driver health check!"); \
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} \
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}
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#define LULZBOT_TMC_REPORT(AXIS) \
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{ \
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uint32_t DRVSTATUS = stepper##AXIS.DRV_STATUS(); \
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uint32_t IOIN = stepper##AXIS.IOIN(); \
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uint32_t IHOLD_IRUN = stepper##AXIS.IHOLD_IRUN(); \
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uint32_t CHOPCONF = stepper##AXIS.CHOPCONF(); \
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uint16_t SG_RESULT = (DRVSTATUS) & 0b111111111; \
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bool drv_enn = (IOIN >> 4) & 0b1; \
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bool stst = (DRVSTATUS >> 31) & 0b1; \
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bool olb = (DRVSTATUS >> 30) & 0b1; \
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bool ola = (DRVSTATUS >> 29) & 0b1; \
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@ -990,10 +999,12 @@
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bool otpw = (DRVSTATUS >> 26) & 0b1; \
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bool ot = (DRVSTATUS >> 25) & 0b1; \
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bool fsactive = (DRVSTATUS >> 15) & 0b1; \
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SERIAL_PROTOCOLPGM("Stepper X: "); \
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SERIAL_PROTOCOLPGM("SG_RESULT:"); \
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SERIAL_PROTOCOLLN(SG_RESULT); \
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if(stst) SERIAL_PROTOCOLPGM("standstill "); \
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uint16_t ihold = (IHOLD_IRUN) & 0b11111; \
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uint16_t irun = (IHOLD_IRUN >> 8) & 0b11111; \
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bool vsense = (CHOPCONF >> 17) & 0b1; \
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SERIAL_PROTOCOLPGM("TMC_" #AXIS ": "); \
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if(!drv_enn) SERIAL_PROTOCOLPGM("en "); \
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if(stst) SERIAL_PROTOCOLPGM("st "); \
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if(olb) SERIAL_PROTOCOLPGM("olb "); \
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if(ola) SERIAL_PROTOCOLPGM("ola "); \
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if(s2gb) SERIAL_PROTOCOLPGM("s2gb "); \
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@ -1001,22 +1012,59 @@
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if(otpw) SERIAL_PROTOCOLPGM("otpw "); \
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if(ot) SERIAL_PROTOCOLPGM("ot "); \
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if(fsactive) SERIAL_PROTOCOLPGM("fsactive "); \
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} \
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SERIAL_PROTOCOLPGM("ihold_irun:"); \
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SERIAL_PROTOCOL(ihold); \
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SERIAL_PROTOCOLPGM("/"); \
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SERIAL_PROTOCOL(irun); \
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SERIAL_PROTOCOLPGM(" vsense:"); \
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SERIAL_PROTOCOL(vsense); \
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SERIAL_PROTOCOLPGM(" SGR:"); \
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SERIAL_PROTOCOLLN(SG_RESULT); \
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}
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#define LULZBOT_TMC_HEALTHCHECK(AXIS) \
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/* For reasons unknown, s2ga and s2gb seem to be getting triggered
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* during probing at the end of Z motions. This checks to see if
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* these flags are set, and if so, resets the drivers */
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#define LULZBOT_TMC_CHECK_S2G(AXIS, WHERE) \
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{ \
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uint16_t ALWAYS_1, DIR_0, DIR_1; \
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ALWAYS_1 = (stepper##AXIS.IOIN() >> 6) & 0b1; \
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AXIS##_DIR_WRITE(0); DIR_0 = (stepper##AXIS.IOIN() >> 1) & 0b1; \
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AXIS##_DIR_WRITE(1); DIR_1 = (stepper##AXIS.IOIN() >> 1) & 0b1; \
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if(!ALWAYS_1 || DIR_0 != 0 || DIR_1 != 1) { \
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SERIAL_PROTOCOLPGM("Failed TMC driver health check!"); \
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safe_delay(100); \
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uint32_t DRVSTATUS = stepper##AXIS.DRV_STATUS(); \
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bool s2gb = (DRVSTATUS >> 28) & 0b1; \
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bool s2ga = (DRVSTATUS >> 27) & 0b1; \
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if(s2ga || s2gb) { \
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SERIAL_PROTOCOLLN("s2g detected in checkpoint#" #WHERE); \
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/* Z_ENABLE_WRITE(!Z_ENABLE_ON); */ \
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/* Z_ENABLE_WRITE( Z_ENABLE_ON); */ \
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} \
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}
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#define LULZBOT_PROBE_DIAGNOSTICS(TRIGGERED) \
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if(TRIGGERED) \
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SERIAL_ERRORLNPGM("Probe triggered"); \
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else \
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SERIAL_ERRORLNPGM("Probe not triggered");
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/*#define LULZBOT_TMC_G0G1_STALLGUARD_REPORT \
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static int nextSgReport = 100; \
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if(planner.blocks_queued()) { \
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if(nextSgReport-- == 0) { \
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nextSgReport = 100; \
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LULZBOT_TMC_REPORT(AXIS)\
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} \
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}*/
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#define LULZBOT_TMC_G0G1_STALLGUARD_REPORT
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#define LULZBOT_TMC_M119_STALLGUARD_REPORT \
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LULZBOT_TMC_REPORT(X) \
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LULZBOT_TMC_REPORT(Y) \
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LULZBOT_TMC_REPORT(Z)
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#else
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#define LULZBOT_STALLGUARD_REPORT
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#define LULZBOT_TMC_HEALTHCHECK
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#define LULZBOT_TMC_M119_STALLGUARD_REPORT
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#define LULZBOT_TMC_G0G1_STALLGUARD_REPORT
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#define LULZBOT_TMC_HEALTHCHECK(AXIS)
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#define LULZBOT_TMC_CHECK_S2G(AXIS, WHERE)
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#define LULZBOT_PROBE_DIAGNOSTICS(TRIGGERED)
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#endif
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#if defined(LULZBOT_SENSORLESS_HOMING)
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@ -1028,9 +1076,9 @@
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#define LULZBOT_USE_ZMAX_PLUG
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#define LULZBOT_X_MIN_ENDSTOP_INVERTING true
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#define LULZBOT_X_MAX_ENDSTOP_INVERTING true
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//#define LULZBOT_X_MAX_ENDSTOP_INVERTING true
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#define LULZBOT_Y_MAX_ENDSTOP_INVERTING true
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#define LULZBOT_Y_MIN_ENDSTOP_INVERTING true
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//#define LULZBOT_Y_MIN_ENDSTOP_INVERTING true
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#define LULZBOT_Z_MAX_ENDSTOP_INVERTING true
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#define LULZBOT_Z_MIN_ENDSTOP_INVERTING true
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@ -1051,7 +1099,7 @@
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// stealth freq the cooler the motor drivers will operate.
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#define LULZBOT_STEALTH_FREQ 0
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// For some reason, Quickhome is not reliable with sensorless homing
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// Quickhome does not work with sensorless homing
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#undef LULZBOT_QUICKHOME
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#define LULZBOT_X_HOMING_SENSITIVITY 5
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@ -1128,12 +1176,46 @@
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Nozzle::clean(0, 2, 0, 0); /* wipe nozzle */ \
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}
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/************ ACCELERATION, FEEDRATES, XYZ MOTOR STEPS AND CURRENTS ************/
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/******************************** MOTOR CURRENTS *******************************/
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// Values for XYZ vary by printer model, values for E vary by toolhead.
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#if defined(LULZBOT_IS_MINI)
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#if defined(LULZBOT_Gladiola_MiniEinsy)
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#define LULZBOT_MOTOR_CURRENT_XY 960 // mA
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#define LULZBOT_MOTOR_CURRENT_Z 960 // mA
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#if LULZBOT_MOTOR_CURRENT_E > 960
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#warning This toolhead may not work properly with the EinsyRambo
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#undef LULZBOT_MOTOR_CURRENT_E
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#define LULZBOT_MOTOR_CURRENT_E 960 // mA
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#endif
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#elif defined(LULZBOT_Gladiola_Mini) || defined(LULZBOT_Gladiola_MiniLCD)
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#define LULZBOT_MOTOR_CURRENT_XY 1300 // mA
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#define LULZBOT_MOTOR_CURRENT_Z 1630 // mA
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#elif defined(LULZBOT_Hibiscus_Mini2) || defined(LULZBOT_Hibiscus_Mini2LCD)
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#define LULZBOT_MOTOR_CURRENT_XY 1300 // mA
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#define LULZBOT_MOTOR_CURRENT_Z 1000 // mA
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#elif defined(LULZBOT_Juniper_TAZ5)
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#define LULZBOT_MOTOR_CURRENT_XY 950 // mA
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#define LULZBOT_MOTOR_CURRENT_Z 1275 // mA
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#elif defined(LULZBOT_Oliveoil_TAZ6)
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#define LULZBOT_MOTOR_CURRENT_XY 950 // mA
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#define LULZBOT_MOTOR_CURRENT_Z 1075 // mA
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#elif defined(LULZBOT_Quiver_TAZ7)
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#define LULZBOT_MOTOR_CURRENT_XY 950 // mA
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#define LULZBOT_MOTOR_CURRENT_Z 950 // mA
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#endif
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/******************** ACCELERATION, FEEDRATES AND XYZ MOTOR STEPS *******************/
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// Values for XYZ vary by printer model, values for E vary by toolhead.
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#if defined(LULZBOT_IS_MINI)
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#define LULZBOT_XY_STEPS 100.5
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#define LULZBOT_DEFAULT_MAX_FEEDRATE {300, 300, 8, 40} // (mm/sec)
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#define LULZBOT_DEFAULT_MAX_ACCELERATION {9000,9000,100,1000}
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@ -1148,7 +1230,6 @@
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#define LULZBOT_Z_PROBE_OFFSET_FROM_EXTRUDER -1.377
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#elif defined(LULZBOT_IS_TAZ)
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#define LULZBOT_MOTOR_CURRENT_XY 950 // mA
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#define LULZBOT_XY_STEPS 100.5
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#define LULZBOT_DEFAULT_XJERK 8.0
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#define LULZBOT_DEFAULT_YJERK 8.0
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@ -1164,7 +1245,6 @@
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#endif
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#if defined(LULZBOT_Gladiola_Mini) || defined(LULZBOT_Gladiola_MiniLCD) || defined(LULZBOT_Gladiola_MiniEinsy)
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#define LULZBOT_MOTOR_CURRENT_Z 1630 // mA
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#define LULZBOT_Z_STEPS 1600
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#elif defined(LULZBOT_Hibiscus_Mini2) || defined(LULZBOT_Hibiscus_Mini2LCD)
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@ -1175,32 +1255,42 @@
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#define Z_MOTOR_GEAR_REDUCTION 26.8512396694
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#define LULZBOT_Z_STEPS (Z_FULL_STEPS_PER_ROTATION * Z_MICROSTEPS * Z_MOTOR_GEAR_REDUCTION / double(Z_BELT_PITCH) / double(Z_PULLEY_TEETH))
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#define LULZBOT_MOTOR_CURRENT_Z 1000 // mA
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#undef LULZBOT_DEFAULT_MAX_FEEDRATE
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#define LULZBOT_DEFAULT_MAX_FEEDRATE {300, 300, 8, 25} // (mm/sec)
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#elif defined(LULZBOT_Juniper_TAZ5)
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#define LULZBOT_MOTOR_CURRENT_Z 1275 // mA
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#define LULZBOT_DEFAULT_MAX_FEEDRATE {300, 300, 3, 25} // (mm/sec)
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#define LULZBOT_DEFAULT_MAX_ACCELERATION {9000,9000,100,10000}
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#define LULZBOT_Z_STEPS 1600
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#elif defined(LULZBOT_Oliveoil_TAZ6)
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#define LULZBOT_MOTOR_CURRENT_Z 1075 // mA
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#define LULZBOT_DEFAULT_MAX_FEEDRATE {300, 300, 3, 25} // (mm/sec)
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#define LULZBOT_DEFAULT_MAX_ACCELERATION {9000,9000,100,10000}
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#define LULZBOT_Z_STEPS 1600
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#elif defined(LULZBOT_Quiver_TAZ7)
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// Prototype Z-belt driven TAZ 7
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#define LULZBOT_MOTOR_CURRENT_Z 950 // mA
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#define LULZBOT_DEFAULT_MAX_FEEDRATE {300, 300, 10, 25} // (mm/sec)
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#define LULZBOT_DEFAULT_MAX_ACCELERATION {9000,9000,10,10000}
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#define LULZBOT_Z_STEPS 1790.08264463
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#endif
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#if defined(LULZBOT_USE_EINSYRAMBO)
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// Neither define LULZBOT_PWM_MOTOR_CURRENT nor LULZBOT_DIGIPOT_MOTOR_CURRENT
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// Neither define LULZBOT_PWM_MOTOR_CURRENT nor LULZBOT_DIGIPOT_MOTOR_CURRENT,
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// as the current is set in Configuration_adv.h under the HAVE_TMC2130 block
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// Make sure the current is in range, as setting it above this causes the
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// value in irun to wrap around to zero, which fails silently!
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#if LULZBOT_MOTOR_CURRENT_XY > 960 || \
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LULZBOT_MOTOR_CURRENT_Z > 960 || \
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LULZBOT_MOTOR_CURRENT_E > 960
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#error Motor currents exceed the maximum values that can be set on the EinsyRambo
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#endif
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#define LULZBOT_X_CURRENT LULZBOT_MOTOR_CURRENT_XY
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#define LULZBOT_Y_CURRENT LULZBOT_MOTOR_CURRENT_XY
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#define LULZBOT_Z_CURRENT LULZBOT_MOTOR_CURRENT_Z
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#define LULZBOT_E0_CURRENT LULZBOT_MOTOR_CURRENT_E
|
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#elif defined(LULZBOT_IS_MINI)
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|
#define LULZBOT_PWM_MOTOR_CURRENT { \
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