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utils.py
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utils.py
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TIRE_DIAMETER = 56 # mm
AXLE_TRACK = 103 # distance between the wheels, mm
# Drivebase parameters. None of these should ever be changed by users
if TIRE_DIAMETER == 56:
DB_MAX_SPEED_MMSEC = 488
if TIRE_DIAMETER == 88:
DB_MAX_SPEED_MMSEC = 768
# Straight Acceleration constants
# Anything above 800 mm/sec^2 causes wheel slippage, regardless of the
# tire size. The mass of the 56 and 88mm robots is about the same, so the
# force to maintain that acceleration is the same
# For 56mm, the maximum that can be set in the settings() command is 9775.
# For 88mm, the maximum that can be set in the settings() command is 15360.
DB_MAX_ACCEL_MMSEC2 = 800
# For turn rates, the best speed and acceleration was determined by testing
# It did not matter if it was on 56mm or 88mm tires, the values were the
# same for both. 180 deg/sec for speed and 360 deg/sec^2 for acceleration
# For 56mm, the maximum speed that can be set in the settings() command is 543
# For 88mm, the maximum speed that can be set in the settings() command is 854.
# For 88mm, the maximum accel that can be set in the settings() command is 17094.
DB_MAX_TURN_RATE_DEGSEC = 180
DB_MAX_TURN_ACCEL_DEGSEC2 = 360
AXLE_TRACK = 103 # distance between the wheels, mm
# The drivebase can accept speeds down to zero, but is not very efficient and
# quite erratic. Realistically, 30 is a good minimum speed
DB_MIN_SPEED_MMSEC = 30
# Lowest usable accelleration, determined by testing
DB_MIN_ACCEL_MMSEC2 = 5
# Max and min turning speeds, determined by testing
# These are not affected by the tire size
DB_MIN_TURN_RATE_DEGSEC = 20
DB_MIN_TURN_ACCEL_DEGSEC2 = 10
# Not sure how these are used
DB_ABS_MAX_TORQUE_MNM = 700 # milli-newton-meters
DB_ABS_MIN_TORQUE_MNM = 20 # milli-newton-meters
# Large Motor usable parameters
LG_MOT_MAX_VOLTAGE = 9000 # mV
LG_MOT_MIN_VOLTAGE = 3000 # mV
LG_MOT_MAX_TORQUE = 560
# Medium Motor usable parameters
MED_MOT_MAX_SPEED_DEGSEC = 1000
# MED_MOT_MAX_ACCEL_DEGSEC2 = 20000
# MED_MOT_MIN_ACCEL_DEGSEC2 = 50
MED_MOT_MIN_SPEED_DEGSEC = 100
MED_MOT_MAX_TORQUE = 195 # milli-newton-meters
MED_MOT_MIN_TORQUE = 50 # milli-newton-meters
def Rescale(val, in_min, in_max, out_min, out_max):
neg = val / abs(val) # will either be 1 or -1
val = abs(val)
if in_max == in_min:
return 0
if val < in_min:
val = in_min
if val > in_max:
val = in_max
retVal = out_min + (val - in_min) * (
(out_max - out_min) / (in_max - in_min)
)
if retVal > out_max:
retVal = out_max
if retVal < out_min:
retVal = out_min
return retVal * neg
def RescaleStraightSpeed(speedPct):
return Rescale(
speedPct,
1,
100,
DB_MIN_SPEED_MMSEC,
DB_MAX_SPEED_MMSEC,
)
def RescaleStraightAccel(accelPct):
return Rescale(
accelPct,
1,
100,
DB_MIN_ACCEL_MMSEC2,
DB_MAX_ACCEL_MMSEC2,
)
def RescaleTurnSpeed(turnSpeedPct):
# print(turnSpeedPct)
return Rescale(
turnSpeedPct,
1,
100,
DB_MIN_TURN_RATE_DEGSEC,
DB_MAX_TURN_RATE_DEGSEC,
)
def RescaleTurnAccel(turnAccelPct):
return Rescale(
turnAccelPct,
1,
100,
DB_MIN_TURN_ACCEL_DEGSEC2,
DB_MAX_TURN_ACCEL_DEGSEC2,
)
def RescaleMedMotSpeed(medMotSpeedPct):
return Rescale(
medMotSpeedPct,
1,
100,
MED_MOT_MIN_SPEED_DEGSEC,
MED_MOT_MAX_SPEED_DEGSEC,
)
def RescaleMedMotTorque(medMotTorquePct):
return Rescale(
medMotTorquePct,
1,
100,
MED_MOT_MIN_TORQUE,
MED_MOT_MAX_TORQUE,
)
def RescaleDbTorque(dbTorquePct):
return Rescale(
dbTorquePct,
1,
100,
DB_ABS_MIN_TORQUE_MNM,
DB_ABS_MAX_TORQUE_MNM,
)
def RescaleConvertFarToCel(DegF):
return Rescale(DegF, 0, 212, -17.77, 100)
def RescaleMedMotDutyLimit(medMotDutyLimitPct):
return Rescale(
medMotDutyLimitPct,
1,
100,
5,
195,
)
def RescaleSensitivity(sens):
return Rescale(
sens,
1,
100,
1,
12,
)
def RescaleBatteryVoltage(volts):
return Rescale(volts, 7000, 8000, 0, 100)