Power 2 thrust compensation with 50% throttle compensation

^2 gain curve after discussions with Markus
Variable throttle compensation, more with higher TL for whoops
Calculator https://www.desmos.com/calculator/1rhq0pqoug

src/main/cli/settings.c

@@ -1112,7 +1112,7 @@ const clivalue_t valueTable[] = {
 #endif
 
 #ifdef USE_THRUST_LINEARIZATION
-    { "thrust_linear",              VAR_UINT8 | MASTER_VALUE, .config.minmaxUnsigned = { 0, 100 }, PG_PID_PROFILE, offsetof(pidProfile_t, thrustLinearization) },
+    { "thrust_linear",              VAR_UINT8 | MASTER_VALUE, .config.minmaxUnsigned = { 0, 150 }, PG_PID_PROFILE, offsetof(pidProfile_t, thrustLinearization) },
 #endif
 #ifdef USE_AIRMODE_LPF
     { "transient_throttle_limit",   VAR_UINT8 | MASTER_VALUE, .config.minmax = { 0, 30 }, PG_PID_PROFILE, offsetof(pidProfile_t, transient_throttle_limit) },

src/main/flight/pid.c

@@ -290,7 +290,10 @@ void pidAcroTrainerInit(void)
 float pidCompensateThrustLinearization(float throttle)
 {
     if (pidRuntime.thrustLinearization != 0.0f) {
-        throttle = throttle * (throttle * pidRuntime.thrustLinearization + 1.0f - pidRuntime.thrustLinearization);
+        // for whoops where a lot of TL is needed, allow more throttle boost
+        const float throttleCompensateAmount = (1.0f - 0.5f * thrustLinearization);
+        const float throttleReversed = (1.0f - throttle);
+        throttle /= 1.0f + throttleCompensateAmount * throttleReversed  * throttleReversed * thrustLinearization;
     }
     return throttle;
 }
@@ -299,8 +302,8 @@ float pidApplyThrustLinearization(float motorOutput)
 {
     if (pidRuntime.thrustLinearization != 0.0f) {
         if (motorOutput > 0.0f) {
-            motorOutput = sqrtf(motorOutput * pidRuntime.thrustLinearizationReciprocal +
-                                pidRuntime.thrustLinearizationB * pidRuntime.thrustLinearizationB) - pidRuntime.thrustLinearizationB;
+            const float motorOutputReversed = (1.0f - motorOutput);
+            motorOutput *= 1.0f + motorOutputReversed  * motorOutputReversed * thrustLinearization;
         }
     }
     return motorOutput;

src/main/flight/pid.h

@@ -352,8 +352,6 @@ typedef struct pidRuntime_s {
 
 #ifdef USE_THRUST_LINEARIZATION
     float thrustLinearization;
-    float thrustLinearizationReciprocal;
-    float thrustLinearizationB;
 #endif
 
 #ifdef USE_AIRMODE_LPF

src/main/flight/pid_init.c

@@ -375,10 +375,6 @@ void pidInitConfig(const pidProfile_t *pidProfile)
 
 #ifdef USE_THRUST_LINEARIZATION
     pidRuntime.thrustLinearization = pidProfile->thrustLinearization / 100.0f;
-    if (pidRuntime.thrustLinearization != 0.0f) {
-        pidRuntime.thrustLinearizationReciprocal = 1.0f / pidRuntime.thrustLinearization;
-        pidRuntime.thrustLinearizationB = (1.0f - pidRuntime.thrustLinearization) / (2.0f * pidRuntime.thrustLinearization);
-    }
 #endif
 #if defined(USE_D_MIN)
     for (int axis = FD_ROLL; axis <= FD_YAW; ++axis) {