/** * 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" 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) { double error; double proportionalTerm; double integralTerm = 0.0f; double feedFwdTerm = 0.0f; double output; // calculate P, I, D, FF // Pid error = setpoint - input; proportionalTerm = pidinfoptr->proportionalCoeff * error; // pId if (0.0f != pidinfoptr->integralCoeff) { integralTerm = pidinfoptr->integral; integralTerm += error * pidinfoptr->integralCoeff * pidinfoptr->ts; integralTerm = clamp(integralTerm, pidinfoptr->integralLimit.min, pidinfoptr->integralLimit.max); } // FF feedFwdTerm = (setpoint + pidinfoptr->feedFwdOffset) * pidinfoptr->feedFwdGain; output = proportionalTerm + integralTerm + feedFwdTerm; output = clamp(output, pidinfoptr->outLim.min, pidinfoptr->outLim.max); // slew rate // TODO(aarena) - Simplify logic as Andy suggested by creating dynamic // out_lim_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; if (output < minOut) { output = minOut; } } if (pidinfoptr->slewPos != 0.0f) { // Don't increase too fast double maxOut = pidinfoptr->lastOutput + pidinfoptr->slewPos * pidinfoptr->ts; 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; } } // 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->lastOutput = output; return output; } } // namespace ec