pid/ec/pid.cpp - openbmc/phosphor-pid-control - Gitiles

 /**
  * Copyright 2017 Google Inc.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "pid.hpp"

 #include "../tuning.hpp"
 #include "logging.hpp"

 namespace pid_control
 {
 namespace ec
 {

 /********************************
  *  clamp
  *
  */
 static double clamp(double x, double min, double max)
 {
     if (x < min)
     {
         return min;
     }
     else if (x > max)
     {
         return max;
     }
     return x;
 }

 /********************************
  *  pid code
  *  Note: Codes assumes the ts field is non-zero
  */
 double pid(pid_info_t* pidinfoptr, double input, double setpoint,
            const std::string* nameptr)
 {
     if (nameptr)
     {
         if (!(pidinfoptr->initialized))
         {
             LogInit(*nameptr, pidinfoptr);
         }
     }

     auto logPtr = nameptr ? LogPeek(*nameptr) : nullptr;

     PidCoreContext coreContext;
     std::chrono::milliseconds msNow;

     if (logPtr)
     {
         msNow = LogTimestamp();
     }

     coreContext.input = input;
     coreContext.setpoint = setpoint;

     double error;

     double proportionalTerm;
     double integralTerm = 0.0f;
     double derivativeTerm = 0.0f;
     double feedFwdTerm = 0.0f;

     double output;

     // calculate P, I, D, FF

     // Pid
     error = setpoint - input;
     proportionalTerm = pidinfoptr->proportionalCoeff * error;

     coreContext.error = error;
     coreContext.proportionalTerm = proportionalTerm;
     coreContext.integralTerm1 = 0.0;

     // pId
     if (0.0f != pidinfoptr->integralCoeff)
     {
         integralTerm = pidinfoptr->integral;
         integralTerm += error * pidinfoptr->integralCoeff * pidinfoptr->ts;

         coreContext.integralTerm1 = integralTerm;

         integralTerm = clamp(integralTerm, pidinfoptr->integralLimit.min,
                              pidinfoptr->integralLimit.max);
     }

     coreContext.integralTerm2 = integralTerm;

     // piD
     derivativeTerm = pidinfoptr->derivativeCoeff *
                      ((error - pidinfoptr->lastError) / pidinfoptr->ts);

     coreContext.derivativeTerm = derivativeTerm;

     // FF
     feedFwdTerm =
         (setpoint + pidinfoptr->feedFwdOffset) * pidinfoptr->feedFwdGain;

     coreContext.feedFwdTerm = feedFwdTerm;

     output = proportionalTerm + integralTerm + derivativeTerm + feedFwdTerm;

     coreContext.output1 = output;

     output = clamp(output, pidinfoptr->outLim.min, pidinfoptr->outLim.max);

     coreContext.output2 = output;

     coreContext.minOut = 0.0;
     coreContext.maxOut = 0.0;

     // slew rate
     // TODO(aarena) - Simplify logic as Andy suggested by creating dynamic
     // outLim_min/max that are affected by slew rate control and just clamping
     // to those instead of effectively clamping twice.
     if (pidinfoptr->initialized)
     {
         if (pidinfoptr->slewNeg != 0.0f)
         {
             // Don't decrease too fast
             double minOut =
                 pidinfoptr->lastOutput + pidinfoptr->slewNeg * pidinfoptr->ts;

             coreContext.minOut = minOut;

             if (output < minOut)
             {
                 output = minOut;
             }
         }
         if (pidinfoptr->slewPos != 0.0f)
         {
             // Don't increase too fast
             double maxOut =
                 pidinfoptr->lastOutput + pidinfoptr->slewPos * pidinfoptr->ts;

             coreContext.maxOut = maxOut;

             if (output > maxOut)
             {
                 output = maxOut;
             }
         }

         if (pidinfoptr->slewNeg != 0.0f || pidinfoptr->slewPos != 0.0f)
         {
             // Back calculate integral term for the cases where we limited the
             // output
             integralTerm = output - proportionalTerm;
         }
     }

     coreContext.output3 = output;
     coreContext.integralTerm3 = integralTerm;

     // Clamp again because having limited the output may result in a
     // larger integral term
     integralTerm = clamp(integralTerm, pidinfoptr->integralLimit.min,
                          pidinfoptr->integralLimit.max);
     pidinfoptr->integral = integralTerm;
     pidinfoptr->initialized = true;
     pidinfoptr->lastError = error;
     pidinfoptr->lastOutput = output;

     coreContext.integralTerm = pidinfoptr->integral;
     coreContext.output = pidinfoptr->lastOutput;

     if (logPtr)
     {
         LogContext(*logPtr, msNow, coreContext);
     }

     return output;
 }

 } // namespace ec
 } // namespace pid_control
	/**
	* Copyright 2017 Google Inc.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "pid.hpp"

	#include "../tuning.hpp"
	#include "logging.hpp"

	namespace pid_control
	{
	namespace ec
	{

	/********************************
	* clamp
	*
	*/
	static double clamp(double x, double min, double max)
	{
	if (x < min)
	{
	return min;
	}
	else if (x > max)
	{
	return max;
	}
	return x;
	}

	/********************************
	* pid code
	* Note: Codes assumes the ts field is non-zero
	*/
	double pid(pid_info_t* pidinfoptr, double input, double setpoint,
	const std::string* nameptr)
	{
	if (nameptr)
	{
	if (!(pidinfoptr->initialized))
	{
	LogInit(*nameptr, pidinfoptr);
	}
	}

	auto logPtr = nameptr ? LogPeek(*nameptr) : nullptr;

	PidCoreContext coreContext;
	std::chrono::milliseconds msNow;

	if (logPtr)
	{
	msNow = LogTimestamp();
	}

	coreContext.input = input;
	coreContext.setpoint = setpoint;

	double error;

	double proportionalTerm;
	double integralTerm = 0.0f;
	double derivativeTerm = 0.0f;
	double feedFwdTerm = 0.0f;

	double output;

	// calculate P, I, D, FF

	// Pid
	error = setpoint - input;
	proportionalTerm = pidinfoptr->proportionalCoeff * error;

	coreContext.error = error;
	coreContext.proportionalTerm = proportionalTerm;
	coreContext.integralTerm1 = 0.0;

	// pId
	if (0.0f != pidinfoptr->integralCoeff)
	{
	integralTerm = pidinfoptr->integral;
	integralTerm += error * pidinfoptr->integralCoeff * pidinfoptr->ts;

	coreContext.integralTerm1 = integralTerm;

	integralTerm = clamp(integralTerm, pidinfoptr->integralLimit.min,
	pidinfoptr->integralLimit.max);
	}

	coreContext.integralTerm2 = integralTerm;

	// piD
	derivativeTerm = pidinfoptr->derivativeCoeff *
	((error - pidinfoptr->lastError) / pidinfoptr->ts);

	coreContext.derivativeTerm = derivativeTerm;

	// FF
	feedFwdTerm =
	(setpoint + pidinfoptr->feedFwdOffset) * pidinfoptr->feedFwdGain;

	coreContext.feedFwdTerm = feedFwdTerm;

	output = proportionalTerm + integralTerm + derivativeTerm + feedFwdTerm;

	coreContext.output1 = output;

	output = clamp(output, pidinfoptr->outLim.min, pidinfoptr->outLim.max);

	coreContext.output2 = output;

	coreContext.minOut = 0.0;
	coreContext.maxOut = 0.0;

	// slew rate
	// TODO(aarena) - Simplify logic as Andy suggested by creating dynamic
	// outLim_min/max that are affected by slew rate control and just clamping
	// to those instead of effectively clamping twice.
	if (pidinfoptr->initialized)
	{
	if (pidinfoptr->slewNeg != 0.0f)
	{
	// Don't decrease too fast
	double minOut =
	pidinfoptr->lastOutput + pidinfoptr->slewNeg * pidinfoptr->ts;

	coreContext.minOut = minOut;

	if (output < minOut)
	{
	output = minOut;
	}
	}
	if (pidinfoptr->slewPos != 0.0f)
	{
	// Don't increase too fast
	double maxOut =
	pidinfoptr->lastOutput + pidinfoptr->slewPos * pidinfoptr->ts;

	coreContext.maxOut = maxOut;

	if (output > maxOut)
	{
	output = maxOut;
	}
	}

	if (pidinfoptr->slewNeg != 0.0f \|\| pidinfoptr->slewPos != 0.0f)
	{
	// Back calculate integral term for the cases where we limited the
	// output
	integralTerm = output - proportionalTerm;
	}
	}

	coreContext.output3 = output;
	coreContext.integralTerm3 = integralTerm;

	// Clamp again because having limited the output may result in a
	// larger integral term
	integralTerm = clamp(integralTerm, pidinfoptr->integralLimit.min,
	pidinfoptr->integralLimit.max);
	pidinfoptr->integral = integralTerm;
	pidinfoptr->initialized = true;
	pidinfoptr->lastError = error;
	pidinfoptr->lastOutput = output;

	coreContext.integralTerm = pidinfoptr->integral;
	coreContext.output = pidinfoptr->lastOutput;

	if (logPtr)
	{
	LogContext(*logPtr, msNow, coreContext);
	}

	return output;
	}

	} // namespace ec
	} // namespace pid_control