Rework maxing out motors

2025-07-23 16:25:31 +03:00 · 2015-12-16 17:27:36 +01:00 · 2015-12-16 17:27:36 +01:00 · 83e932d3a3
commit 83e932d3a3
parent fdd984bc32
2 changed files with 10 additions and 19 deletions
--- a/src/main/flight/mixer.c
+++ b/src/main/flight/mixer.c
@ -69,7 +69,7 @@ static rxConfig_t *rxConfig;
 static mixerMode_e currentMixerMode;
 static motorMixer_t currentMixer[MAX_SUPPORTED_MOTORS];

-float totalErrorRatioLimit = 1.0f;
+bool motorLimitReached = false;

 #ifdef USE_SERVOS
 static uint8_t servoRuleCount = 0;
@ -751,7 +751,7 @@ void mixTable(void)
    }

    if (!(IS_RC_MODE_ACTIVE(BOXAIRMODE)) && !(feature(FEATURE_3D))) {
-        totalErrorRatioLimit = 1.0f; // It  always needs to be full ratio so it can't get stuck when flipping back and fourth
+        motorLimitReached = false; // It  always needs to be reset so it can't get stuck when flipping back and fourth
        // motors for non-servo mixes
        for (i = 0; i < motorCount; i++) {
            motor[i] =
@ -761,6 +761,7 @@ void mixTable(void)
                -mixerConfig->yaw_motor_direction * axisPID[YAW] * currentMixer[i].yaw;
        }
    } else {
+        // Initial mixer concept by bdoiron74 reused and optimized for Air Mode
        int16_t rollPitchYawMix[MAX_SUPPORTED_MOTORS];
        int16_t rollPitchYawMixMax = 0; // assumption: symetrical about zero.
        int16_t rollPitchYawMixMin = 0;
@ -782,25 +783,23 @@ void mixTable(void)
        int16_t throttleMin, throttleMax;

        if (rollPitchYawMixRange > throttleRange) {
+            motorLimitReached = true;
            for (i = 0; i < motorCount; i++) {
                rollPitchYawMix[i] = (rollPitchYawMix[i] * throttleRange) / rollPitchYawMixRange;
            }
-            throttleMin = throttleMax = escAndServoConfig->minthrottle + (throttleRange / 2);
+            throttleMin = escAndServoConfig->minthrottle;
+            throttleMax = escAndServoConfig->maxthrottle;
        } else {
+            motorLimitReached = false;
            throttleMin = escAndServoConfig->minthrottle + (rollPitchYawMixRange / 2);
            throttleMax = escAndServoConfig->maxthrottle - (rollPitchYawMixRange / 2);
        }

        // Now add in the desired throttle, but keep in a range that doesn't clip adjusted
        // roll/pitch/yaw. This could move throttle down, but also up for those low throttle flips.
-        //
-        // TODO: handle the case when motors don't all get the same throttle factor...
        for (i = 0; i < motorCount; i++) {
            motor[i] = rollPitchYawMix[i] + constrainf(rcCommand[THROTTLE] * currentMixer[i].throttle, throttleMin, throttleMax);
        }
-
-        // adjust feedback to scale PID error inputs to our limitations.
-        totalErrorRatioLimit = constrainf(((float)throttleRange / rollPitchYawMixRange), 0.4f, 1.0f);
    }

    if (ARMING_FLAG(ARMED)) {
--- a/src/main/flight/pid.c
+++ b/src/main/flight/pid.c
@ -48,7 +48,7 @@
 #include "config/runtime_config.h"

 extern float dT;
-extern float totalErrorRatioLimit;
+extern bool motorLimitReached;
 extern bool allowITermShrinkOnly;

 int16_t axisPID[3];
@ -161,10 +161,6 @@ static void pidLuxFloat(pidProfile_t *pidProfile, controlRateConfig_t *controlRa
        // multiplication of rcCommand corresponds to changing the sticks scaling here
        RateError = AngleRate - gyroRate;

-        if (IS_RC_MODE_ACTIVE(BOXAIRMODE)) {
-            RateError = RateError * totalErrorRatioLimit;
-        }
-
        // -----calculate P component
        PTerm = RateError * pidProfile->P_f[axis] * PIDweight[axis] / 100;

@ -175,7 +171,7 @@ static void pidLuxFloat(pidProfile_t *pidProfile, controlRateConfig_t *controlRa
        // -----calculate I component.
        errorGyroIf[axis] = constrainf(errorGyroIf[axis] + RateError * dT * pidProfile->I_f[axis] * 10, -250.0f, 250.0f);

-        if (allowITermShrinkOnly || totalErrorRatioLimit < 0.98f) {
+        if (allowITermShrinkOnly || motorLimitReached) {
            if (ABS(errorGyroIf[axis]) < ABS(previousErrorGyroIf[axis])) {
                previousErrorGyroIf[axis] = errorGyroIf[axis];
            } else {
@ -302,10 +298,6 @@ static void pidRewrite(pidProfile_t *pidProfile, controlRateConfig_t *controlRat
        // multiplication of rcCommand corresponds to changing the sticks scaling here
        RateError = AngleRateTmp - (gyroADC[axis] / 4);

-        if (IS_RC_MODE_ACTIVE(BOXAIRMODE)) {
-            RateError = RateError * totalErrorRatioLimit;
-        }
-
        // -----calculate P component
        PTerm = (RateError * pidProfile->P8[axis] * PIDweight[axis] / 100) >> 7;

@ -326,7 +318,7 @@ static void pidRewrite(pidProfile_t *pidProfile, controlRateConfig_t *controlRat

        ITerm = errorGyroI[axis] >> 13;

-        if (allowITermShrinkOnly || totalErrorRatioLimit < 0.98f) {
+        if (allowITermShrinkOnly || motorLimitReached) {
            if (ABS(errorGyroI[axis]) < ABS(previousErrorGyroI[axis])) {
                previousErrorGyroI[axis] = errorGyroI[axis];
            } else {