mirror of https://github.com/Desuuuu/klipper.git
tmc2660: Implementation of TMC2660 extra (#621)
Signed-off-by: Florian Heilmann <Florian.Heilmann@gmx.net>
This commit is contained in:
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@ -662,6 +662,86 @@
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# above list.
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# Configure a TMC2660 stepper motor driver via SPI bus. To use this
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# feature, define a config section with a tmc2660 prefix followed by
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# the name of the corresponding stepper config section (for example,
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# "[tmc2660 stepper_x]"). The current of the TMC2660 stepper driver
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# is adjustable at run-time using
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# "SET_TMC_CURRENT STEPPER=stepper_x CURRENT=.1" type extended g-code
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# commands.
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#[tmc2660 stepper_x]
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#cs_pin:
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# The pin corresponding to the TMC2660 chip select line. This pin
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# will be set to low at the start of SPI messages and raised to high
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# after the message completes. This parameter must be provided.
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#bus:
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# Select the SPI bus the TMC2660 stepper driver is connected to. This
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# depends on the physical connections on your board, as well as the
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# SPI implementation of your particular microcontroller. This parameter
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# must be provided.
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#freq: 2000000
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# SPI bus frequency used to communicate with the TMC2660 stepper
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# driver. the default is 2000000.
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#microsteps:
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# The number of microsteps to configure the driver to use. Valid
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# values are 1, 2, 4, 8, 16, 32, 64, 128, 256. This parameter must
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# be provided.
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#interpolate: True
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# If true, enable step interpolation (the driver will internally
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# step at a rate of 256 micro-steps). This only works if microsteps
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# is set to 16. The default is True.
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#run_current:
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# The amount of current (in amps) to configure the driver to use
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# during stepper movement. This parameter must be provided.
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#idle_timeout: 0
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# The amount of time in seconds after which the run_current of the
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# stepper driver will be lowered to this percentage of run_current.
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# Set to 0 to disable the idle timeout. The default is 0.
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#idle_current_percent: 30
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# The percentage of the run_current the stepper driver will be
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# lowered to after the idle_timeout has expired. The current will
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# be raised again once the stepper has to move again. Make sure to
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# set this to a high enough value such that the steppers do not lose
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# their position. There is also a delay of up to 100 ms until the
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# current is raised again, so take this into account commanding fast
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# moves when the stepper is idling. The default is 30.
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#driver_DEDGE: False
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#driver_TBL: 36
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# Valid values are 16, 24, 36, 54.
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#driver_CHM: spreadcycle
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# Valid values are 'spreadcycle' and 'constant_toff'
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#driver_RNDTF: False
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#driver_HDEC: False
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#driver_HEND: 7 if spreadcycle is used, 3 otherwise
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#driver_HSTRT: 5 if spreadcycle is used, 4 otherwise
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#driver_TOFF: 7 if spreadcycle is used, 4 otherwise
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#driver_SEIMIN: half
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# Valid values are 'quarter' and 'half'.
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#driver_SEDN: 32
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# Valid values are 1, 2, 8, 32.
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#driver_SEMAX: 0
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#driver_SEUP: 1
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# Valid values are 1, 2, 4, 8.
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#driver_SEMIN: 0
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#driver_SFILT: True
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#driver_SGT: -64
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#driver_SLPH: min
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# Valid values are 'min', 'min_tc', 'med_tc', 'max'
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#driver_SLPL: min
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# Valid values are 'min', 'med', 'max'
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#driver_DISS2G: False
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#driver_TS2G: 0.8
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# Valid values are 0.8, 1.2, 1.6, 3.2.
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#driver_VSENSE: high
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# Valid values are 'high' and 'low'
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#
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# Set the given register during the configuration of the TMC2660
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# chip. This may be used to set custom motor parameters. The
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# defaults for each parameter are next to the parameter name in the
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# above list. See the TMC2660 datasheet about what each parameter
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# does and what the restrictions on parameter combinations are.
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# Homing override. One may use this mechanism to run a series of
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# g-code commands in place of a G28 found in the normal g-code input.
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# This may be useful on printers that require a specific procedure to
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@ -0,0 +1,269 @@
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# TMC2660 configuration
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#
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# Copyright (C) 2018 Florian Heilmann <Florian.Heilmann@gmx.net>
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#
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# This file may be distributed under the terms of the GNU GPLv3 license.
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CURRENT_MAX = 2.4
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CURRENT_MIN = 0.1
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REG_DRVCONF = 0xe << 16
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REG_SGCSCONF = 0xc << 16
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REG_SMARTEN = 0xa << 16
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REG_CHOPCONF = 0x8 << 16
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REG_DRVCTRL = 0x0 << 16
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def get_bits(reg, field, value):
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return ((value << reg[field][0]) & reg[field][1])
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def read_field(bits, reg, field):
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return (bits & reg[field][1]) >> reg[field][0]
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def current_to_reg(current):
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current_constrained = min(CURRENT_MAX, max(CURRENT_MIN, current))
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return int((32 * 1000 * current_constrained - 1600)/3236) # Taken from RRF
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DRVCTRL = {
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"INTPOL" : (9, 0x00100),
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"DEDGE" : (8, 0x00080),
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"MRES" : (0, 0x0000F)
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}
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CHOPCONF = {
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"TBL" : (15, 0x18000),
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"CHM" : (14, 0x04000),
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"RNDTF" : (13, 0x02000),
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"HDEC" : (11, 0x01800),
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"HEND" : (7, 0x00780),
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"HSTRT" : (4, 0x00070),
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"TOFF" : (0, 0x0000F)
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}
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SMARTEN = {
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"SEIMIN" : (15, 0x08000),
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"SEDN" : (14, 0x06000),
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"SEMAX" : (8, 0x00F00),
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"SEUP" : (5, 0x00060),
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"SEMIN" : (0, 0x0000F)
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}
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SGCSCONF = {
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"SFILT" : (16, 0x10000),
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"SGT" : (8, 0x07800),
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"CS" : (0, 0x0001F)
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}
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DRVCONF = {
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"TST" : (16, 0x10000),
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"SLPH" : (14, 0x0C000),
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"SLPL" : (12, 0x03000),
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"DISS2G" : (10, 0x00400),
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"TS2G" : (8, 0x00300),
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"SDOFF" : (7, 0x00080),
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"VSENSE" : (6, 0x00040),
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"RDSEL" : (4, 0x00030)
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}
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READRSP = {
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"MSTEP" : (10, 0xFFC00),
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"STST" : (7, 0x00080),
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"OLB" : (6, 0x00040),
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"OLA" : (5, 0x00020),
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"S2GB" : (4, 0x00010),
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"S2GA" : (3, 0x00008),
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"OTPW" : (2, 0x00004),
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"OT" : (1, 0x00002),
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"SG" : (0, 0x00001)
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}
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class TMC2660:
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def __init__(self, config):
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self.printer = config.get_printer()
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self.name = config.get_name().split()[1]
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self.toolhead = None
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# pin setup
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ppins = self.printer.lookup_object("pins")
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cs_pin = config.get('cs_pin')
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cs_pin_params = ppins.lookup_pin(cs_pin)
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self.mcu = cs_pin_params['chip']
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if cs_pin_params['invert']:
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raise pins.error("tmc2660 can not invert pin")
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pin = cs_pin_params['pin']
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self.oid = self.mcu.create_oid()
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# Add SET_CURRENT command
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gcode = self.printer.lookup_object("gcode")
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gcode.register_mux_command(
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"SET_TMC_CURRENT", "STEPPER", self.name,
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self.cmd_SET_TMC_CURRENT, desc=self.cmd_SET_TMC_CURRENT_help)
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# Setup driver registers
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self.bus = config.getint('bus', minval=0, maxval=3)
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self.freq = config.getint('freq', default=2000000, minval=1000000, maxval=4000000)
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self.mcu.add_config_cmd(
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"config_spi oid=%d bus=%d pin=%s mode=%d rate=%d shutdown_msg=" % (
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self.oid, self.bus, cs_pin_params['pin'], 0, self.freq))
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self.spi_send_cmd = self.spi_transfer_cmd = None
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self.mcu.register_config_callback(self.build_config)
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self.idle_current_percentage = config.getint('idle_current_percent', default=30, minval=0, maxval=100)
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self.idle_timeout = config.getfloat('idle_timeout', default=0., minval=0)
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self.is_idle = False
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# DRVCTRL
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steps = {'256': 0, '128': 1, '64': 2, '32': 3, '16': 4,
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'8': 5, '4': 6, '2': 7, '1': 8}
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self.driver_mres = config.getchoice('microsteps', steps)
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self.driver_intpol = config.getboolean('interpolate', default=True)
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self.current = config.getfloat('run_current', minval=CURRENT_MIN, maxval=CURRENT_MAX)
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self.driver_dedge = config.getboolean('driver_DEDGE', default=False)
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# CHOPCONF
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btime = {'16': 0, '24': 1, '36': 2, '54': 3}
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self.driver_tbl = config.getchoice('driver_TBL', btime, default='36')
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chm = {'spreadcycle': 0, 'constant_toff': 1}
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self.driver_chm = config.getchoice('driver_CHM', chm, default='spreadcycle')
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self.driver_rndtf = config.getboolean('driver_RNDTF', False)
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if (self.driver_chm):
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self.driver_hend = config.getint('driver_HEND', default=7, minval=-3, maxval=12) + 3
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self.driver_hstrt = config.getint('driver_HSTRT', default=5, minval=0, maxval=15)
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self.driver_toff = config.getint('driver_TOFF', default=7, minval=0, maxval=15)
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self.driver_hdec = config.getboolean('driver_HDEC', default=False) | ((self.hstrt & 0x8) >> 1) # if chm is 1, HDEC1 is the MSB of HSTRT
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else:
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self.driver_hdec = config.getboolean('driver_HDEC', default=False)
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self.driver_hend = config.getint('driver_HEND', default=3, minval=-3, maxval=12) + 3
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self.driver_hstrt = config.getint('driver_HSTRT', default=4, minval=1, maxval=8) - 1
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self.driver_toff = config.getint('driver_TOFF', default=4, minval=0, maxval=15)
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if (self.driver_hstrt + self.driver_hend > 15):
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raise pins.error("driver_HEND + HSTRT must be <= 15")
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# SMARTEN
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csc = {'quarter': 1, 'half': 0}
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self.driver_seimin = config.getchoice('driver_SEIMIN', csc, default='half')
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cds = {'32': 0, '8': 1, '2': 2, '1': 3}
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self.driver_sedn = config.getchoice('driver_SEDN', cds, default='32')
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self.driver_semax = config.getint('driver_SEMAX', default=0, minval=0, maxval=15)
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cis = {'1': 0, '2': 1, '4': 2, '8': 3}
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self.driver_seup = config.getchoice('driver_SEUP', cis, default='1')
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self.driver_semin = config.getint('driver_SEMIN', default=0, minval=0, maxval=15)
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# SGSCONF
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self.driver_sfilt = config.getboolean('driver_SFILT', default=True)
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self.driver_sgt = config.getint('driver_sgt', default=-64, minval=-64, maxval=63) + 64
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self.driver_cs = current_to_reg(self.current)
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# DRVCONF
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slph = {'min': 0, 'min_tc': 1, 'med_tc': 2, 'max': 3}
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self.driver_slph = config.getchoice('driver_SLPH', slph, default='min')
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slpl = {'min': 0, 'med': 2, 'max': 3}
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self.driver_slpl = config.getchoice('driver_SLPL', slpl, default='min')
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self.driver_diss2g = config.getboolean('driver_DISS2G', default=False)
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ts2g = {'3.2': 0, '1.6': 1, '1.2': 2, '0.8': 3}
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self.driver_ts2g = config.getchoice('driver_TS2G', ts2g, default='0.8')
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self.driver_sdoff = False # since we don't support SPI mode yet, this has to be False
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vsense = {'low': 0, 'high': 1}
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self.driver_vsense = config.getchoice('driver_VSENSE', vsense, default='high')
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self.driver_rdsel = 2 # stallguard2 and coolstep current level
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# Build and send registers
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self.reg_drvconf = REG_DRVCONF | \
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get_bits(DRVCONF, "TST", 0) | \
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get_bits(DRVCONF, "SLPH", self.driver_slph) | \
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get_bits(DRVCONF, "SLPL", self.driver_slpl) | \
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get_bits(DRVCONF, "DISS2G", self.driver_diss2g) | \
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get_bits(DRVCONF, "TS2G", self.driver_ts2g) | \
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get_bits(DRVCONF, "SDOFF", self.driver_sdoff) | \
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get_bits(DRVCONF, "VSENSE", self.driver_vsense) | \
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get_bits(DRVCONF, "RDSEL", self.driver_rdsel)
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self.add_config_cmd(self.reg_drvconf)
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self.reg_drvctrl = REG_DRVCTRL | \
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get_bits(DRVCTRL, "INTPOL", self.driver_intpol) | \
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get_bits(DRVCTRL, "DEDGE", self.driver_dedge) | \
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get_bits(DRVCTRL, "MRES", self.driver_mres)
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self.add_config_cmd(self.reg_drvctrl)
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self.reg_chopconf = REG_CHOPCONF | \
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get_bits(CHOPCONF, "TBL", self.driver_tbl) | \
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get_bits(CHOPCONF, "CHM", self.driver_chm) | \
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get_bits(CHOPCONF, "RNDTF", self.driver_rndtf) | \
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get_bits(CHOPCONF, "HDEC", self.driver_hdec) | \
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get_bits(CHOPCONF, "HEND", self.driver_hend) | \
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get_bits(CHOPCONF, "HSTRT", self.driver_hstrt) | \
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get_bits(CHOPCONF, "TOFF", self.driver_toff)
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self.add_config_cmd(self.reg_chopconf)
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self.reg_sgcsconf = REG_SGCSCONF | \
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get_bits(SGCSCONF, "SFILT", self.driver_sfilt) | \
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get_bits(SGCSCONF, "SGT", self.driver_sgt) | \
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get_bits(SGCSCONF, "CS", self.driver_cs)
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self.add_config_cmd(self.reg_sgcsconf)
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self.reg_smarten = REG_SMARTEN | \
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get_bits(SMARTEN, "SEIMIN", self.driver_seimin) | \
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get_bits(SMARTEN, "SEDN", self.driver_sedn) | \
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get_bits(SMARTEN, "SEMAX", self.driver_semax) | \
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get_bits(SMARTEN, "SEUP", self.driver_seup) | \
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get_bits(SMARTEN, "SEMIN", self.driver_semin)
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self.add_config_cmd(self.reg_smarten)
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def add_config_cmd(self, val):
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self.mcu.add_config_cmd("spi_send oid=%d data=%06x" % (
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self.oid, val & 0xffffff))
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def build_config(self):
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cmd_queue = self.mcu.alloc_command_queue()
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self.spi_send_cmd = self.mcu.lookup_command(
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"spi_send oid=%c data=%*s", cq=cmd_queue)
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self.spi_transfer_cmd = self.mcu.lookup_command(
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"spi_transfer oid=%c data=%*s", cq=cmd_queue)
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# register timeout handler which will lower the current to current * idle_current_percent / 100 after idle_timeout seconds
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# and raise it back to current if the printer needs to move the steppers
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def printer_state(self, state):
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if state == 'ready' and self.idle_timeout > 0:
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self.toolhead = self.printer.lookup_object('toolhead')
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reactor = self.printer.get_reactor()
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reactor.register_timer(self.idle_timeout_handler, reactor.NOW)
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# timeout handler to lower/raise current when entering/leaving the idle state
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def idle_timeout_handler(self, eventtime):
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info = self.toolhead.get_status(eventtime)
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status = info['status']
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print_time = info['print_time']
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if status == 'Printing':
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if self.is_idle:
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self.set_current(self.current)
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self.is_idle = False
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return eventtime + self.idle_timeout
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estimated_print_time = info['estimated_print_time']
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elapsed_time = estimated_print_time - print_time
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if elapsed_time < self.idle_timeout:
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if self.is_idle:
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self.set_current(self.current)
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self.is_idle = False
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return eventtime + self.idle_timeout - elapsed_time
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if not self.is_idle:
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self.set_current(float(self.idle_current_percentage) * self.current / 100)
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self.is_idle = True
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return eventtime + 0.1
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def set_current(self, current):
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self.driver_cs = current_to_reg(current)
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reg = self.reg_sgcsconf
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reg &= ~(SGCSCONF["CS"][1])
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reg |= get_bits(SGCSCONF, "CS", self.driver_cs)
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reg_data = [(reg >> 16) & 0xff, (reg >> 8) & 0xff, reg & 0xff]
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params = self.spi_transfer_cmd.send_with_response([self.oid, reg_data], 'spi_transfer_response', self.oid)
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cmd_SET_TMC_CURRENT_help = "Set the current of a TMC2660 driver (between %d and %d)" % (CURRENT_MIN, CURRENT_MAX)
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def cmd_SET_TMC_CURRENT(self, params):
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self.printer.lookup_object('toolhead').get_last_move_time()
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gcode = self.printer.lookup_object('gcode')
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if 'CURRENT' in params:
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self.current = gcode.get_float('CURRENT', params, minval=CURRENT_MIN, maxval=CURRENT_MAX)
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if not self.is_idle:
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self.set_current(self.current)
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def load_config_prefix(config):
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return TMC2660(config)
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