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  • 转一个步进电机加减速程序



    • 转一个步进电机加减速程序
      源码转载自bilibili UP主 专业瞎搞:
      https://www.bilibili.com/video/BV1op4y1C7vR

      他原版本是C的,改成了python
      我只是搬运工

      from pyb import udelay
      import random
      import math
      
      from pyb import Pin
      import time
      import utime
      
      
      
      
      class Stepper:
          def __init__(self, step_pin, dir_pin, step_time=200):
              # 初始化
              self.DirPin = dir_pin
              self.PulPin = step_pin
      
              self.DirPin.init(Pin.OUT_PP)
              self.PulPin.init(Pin.OUT_PP)
      
              self.CurrentStepTime = step_time
              self.TargetStepTime = 500
              self.LastStepSt = 0
              self.CurrentStep = 0
              self.TargetStep = 0
              self.StartStep = 0
              self.Acceleration = 600  # 加速度(步 / 秒~2)
              self.SpeedUpStep = 0  # 加速段的步数
              self.SpeedDownStep = 0 # 减速段的步数
              self.IsDebug = False
      
              self._speedChangeMinimumDis = 0  # 速度变化时重新计算的最小的加减速步数
      
          def SetAcceleration(self, acceleration):
              self.Acceleration = acceleration
              self.calCulateSpeedChangeMinimunDis()
      
          def IsRunToTarget(self):
              return self.TargetStep == self.CurrentStep
      
          def CanRun(self):
              return (utime.ticks_us() - self.LastStepSt) >= self.CurrentStepTime
      
          def RunTo(self, target, stepTime):
              if (self.TargetStep != target):
                  self.TargetStepTime = stepTime
                  self.TargetStep = target
                  self.CurrentStepTime = 0
                  self.StartStep = self.CurrentStep
                  self.calCulateSpeedChangeMinimunDis()
                  souldMoveSteps = self.TargetStep - self.CurrentStep
      
                  # 提前规划好加减速的步数以及中间匀速运动的步数
                  if (self._speedChangeMinimumDis * 2 > abs(souldMoveSteps)): #如果加减速时间过长没有匀速过程,则将应走步数对半分
                      self.SpeedUpStep = souldMoveSteps / 2 + self.CurrentStep #加速到的位置为当前位置加上增量的一半
                      self.SpeedDownStep = self.SpeedUpStep
                  else:
                      if (self.CurrentStep < self.TargetStep):  # 正向
                          self.SpeedUpStep = self._speedChangeMinimumDis + self.CurrentStep
                          self.SpeedDownStep = self.TargetStep - self._speedChangeMinimumDis
                      else:  # 反向
                          self.SpeedUpStep = self.CurrentStep - self._speedChangeMinimumDis
                          self.SpeedDownStep = self.TargetStep + self._speedChangeMinimumDis
                  print(self.TargetStep, self._speedChangeMinimumDis,self.SpeedUpStep,self.SpeedDownStep)
      
              if (self.IsRunToTarget() == False):
                  if (self.CanRun()):
                     self.runStep(self.CurrentStep < target)
      
              return self.IsRunToTarget()
      
      
          # 从0加速到指定目标速度所用的最小步数
          def calCulateSpeedChangeMinimunDis(self):
              if self.Acceleration == 0:
                  self._speedChangeMinimumDis = 0
                  return
              v = 1000000.0 / self.TargetStepTime  # 步 / 秒
              self._speedChangeMinimumDis = pow(v, 2) / 2 / self.Acceleration
      
          # 步进电机运行一步
          def runStep(self, dir):
              self.LastStepSt = utime.ticks_us()
              self.DirPin.value(dir)
              self.PulPin.value(1)
              #udelay(2)
              self.PulPin.value(0)
              self.CurrentStep += (1 if dir else -1)  # 记录每次只运行一步
      
      
              # 若加速度为0,则没有加减速部分
              if (self.Acceleration == 0):
                  self.CurrentStepTime = self.TargetStepTime
                  return
      
              #若加速度不为0,通过下一脉冲的终点速度计算下一个脉冲的时间间隔,重置步进间隔
              #v = 0.0
              if (dir):
                  if (self.CurrentStep < self.SpeedUpStep or self.CurrentStep > self.SpeedDownStep):
                      if (self.CurrentStep < self.SpeedUpStep):
                          v = math.sqrt(float(self.Acceleration * 2.0 * (self.CurrentStep - self.StartStep)))  # 步 / 秒
                      else:
                          v = 1000000.0 / self.TargetStepTime  # 步 / 秒
                          a = float((-self.Acceleration) * 2.0 * (self.CurrentStep - self.SpeedDownStep) + pow(v, 2))
                          if a > 0:
                              v = math.sqrt(a)  # 步 / 秒
                      self.CurrentStepTime = 1000000.0 / v
                      self.CurrentStepTime = self.TargetStepTime if self.CurrentStepTime <= self.TargetStepTime else self.CurrentStepTime
      
                  else:
                      self.CurrentStepTime = self.TargetStepTime
      
      
              else:
                  if (self.CurrentStep > self.SpeedUpStep or self.CurrentStep < self.SpeedDownStep):
                      if (self.CurrentStep > self.SpeedUpStep):
                          v = math.sqrt(self.Acceleration * 2 * (self.StartStep - self.CurrentStep))  # 步 / 秒
                      else:
                          v = 1000000.0 / self.TargetStepTime  # 步 / 秒
                          a = (-self.Acceleration) * 2 * abs(self.CurrentStep - self.SpeedDownStep) + pow(v, 2)
                          if a > 0:
                              v = math.sqrt(a)  # 步 / 秒
                      self.CurrentStepTime = 1000000.0 / v
                      self.CurrentStepTime = self.TargetStepTime if self.CurrentStepTime <= self.TargetStepTime else self.CurrentStepTime
      
                  else:
                      self.CurrentStepTime = self.TargetStepTime
      
      
      
      step_pin = Pin('P1')
      dir_pin = Pin('P0')
      
      my_stepper = Stepper(step_pin,dir_pin)
      my_stepper.SetAcceleration(8000)
      
      
      da = 50000
      while(True):
          a = my_stepper.RunTo(da, 80)
          if a:
              da = -da