Endstop detection OK, thx Yassine ;)
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526ffacd4f
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1e34b1992e
@ -1,5 +1,7 @@
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#include "linearHallSensor.h"
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#include <math.h>
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float norm(float x, float in_min, float in_max, float out_min = -1.0, float out_max = 1.0)
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{
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return (float)(x - in_min) * (out_max - out_min) / (float)(in_max - in_min) + out_min;
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@ -11,6 +13,55 @@ LinearHallSensor::LinearHallSensor(uint8_t ch1, uint8_t ch2)
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_analogPin2 = ch2;
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}
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inline uint32_t min(uint32_t arr[], int n)
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{
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uint32_t m = 0;
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for (int i = 0; i < n; i++)
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m = arr[i] < m ? arr[i] : m;
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return m;
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}
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inline uint32_t max(uint32_t *arr, int n)
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{
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uint32_t m = 0;
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for (int i = 0; i < n; i++)
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m = arr[i] > m ? arr[i] : m;
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return m;
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}
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inline uint32_t mean(uint32_t *arr, int n)
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{
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uint32_t m = 0;
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for (int i = 0; i < n; i++)
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m += arr[i];
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return m / n;
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}
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inline uint32_t std_var(uint32_t *arr, int n)
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{
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uint32_t s = 0;
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uint32_t m = mean(arr, n);
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for (int i = 0; i < n; i++)
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s += (arr[i] - m) * (arr[i] - m);
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s /= (uint32_t)n;
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s = sqrt(s);
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return s;
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}
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void init_arr(uint32_t *arr, int n, uint32_t val)
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{
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for (int i = 0; i < n; i++)
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arr[i] = val;
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}
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void print_arr(uint32_t *arr, int n)
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{
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Serial.printf("[");
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for (int i = 0; i < n; i++)
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Serial.printf("%lu,", arr[i]);
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Serial.printf("]");
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}
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void LinearHallSensor::init(BLDCMotor motor)
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{
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MotionControlType prevController = motor.controller;
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@ -18,108 +69,108 @@ void LinearHallSensor::init(BLDCMotor motor)
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float prevVoltageLimit = motor.voltage_limit;
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motor.voltage_limit = 0.8;
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uint32_t senseA = analogRead(_analogPin1);
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uint32_t senseB = analogRead(_analogPin2);
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uint32_t oldSenseA = 0;
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uint32_t oldSenseB = 0;
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_minCh1 = senseA;
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_maxCh1 = senseA;
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_minCh2 = senseB;
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_maxCh2 = senseB;
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// Swipe motor to search hard end and find max analog values of sensors
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bool endFound = false;
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const float step = 0.0025;
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uint8_t currentCheck = 0; // current check number
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const uint8_t nCheck = 15; // number of times to check if its the same value
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const uint8_t epsilon = 3;
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const uint8_t epsilon = 2;
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float currentPosition = 0.0;
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uint32_t senseA[30];
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uint32_t senseB[30];
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int N = 30;
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int ptr = 0;
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init_arr(senseA, N, 0);
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init_arr(senseB, N, 0);
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senseA[ptr] = analogRead(_analogPin1);
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senseB[ptr] = analogRead(_analogPin2);
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_minCh1 = senseA[ptr];
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_minCh2 = senseB[ptr];
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_maxCh1 = _minCh1;
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_maxCh2 = _minCh2;
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Serial.println("\tFinding end stops");
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while (!endFound)
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{
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Serial.print("Position =" + String(currentPosition) + '\t');
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Serial.print("SenseA =" + String(senseA) + "\tSenseB =" + String(senseB));
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Serial.print("\tOldseA =" + String(oldSenseA) + "\tOldseB =" + String(oldSenseB) + "\tchecked =" + String(currentCheck) + "\r");
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senseA = analogRead(_analogPin1);
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senseB = analogRead(_analogPin2);
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senseA[ptr] = analogRead(_analogPin1);
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senseB[ptr] = analogRead(_analogPin2);
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// Check if new extremes sensor values
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if (senseA > _maxCh1)
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_maxCh1 = senseA;
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else if (senseA < _minCh1)
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_minCh1 = senseA;
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if (senseB > _maxCh1)
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_maxCh1 = senseB;
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else if (senseB < _minCh2)
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_minCh2 = senseB;
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if (senseA[ptr] > _maxCh1)
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_maxCh1 = senseA[ptr];
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else if (senseA[ptr] < _minCh1)
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_minCh1 = senseA[ptr];
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if (senseB[ptr] > _maxCh1)
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_maxCh1 = senseB[ptr];
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else if (senseB[ptr] < _minCh2)
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_minCh2 = senseB[ptr];
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// Compare with previous position
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if ((abs((int)(senseA - oldSenseA)) < epsilon) && (abs((int)(senseB - oldSenseB)) < epsilon))
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{
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if (currentCheck == nCheck)
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// Serial.printf("senseA: ");
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// print_arr(senseA, N);
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// Serial.printf(" std_var: %lu\n", std_var(senseA, N));
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// Serial.printf("senseB: ");
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// print_arr(senseB, N);
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// Serial.printf(" std_var: %lu\n", std_var(senseB, N));
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if (std_var(senseA, N) < epsilon && std_var(senseB, N) < epsilon)
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endFound = true;
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else
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currentCheck++;
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}
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else
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currentCheck = 0;
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// Replace previous values
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oldSenseA = senseA;
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oldSenseB = senseB;
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ptr = (ptr + 1) % N;
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// Move to new position
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currentPosition += step;
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motor.move(currentPosition);
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delay(2);
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}
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_maxPositionEndValue = currentPosition - (step * nCheck);
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currentPosition = _maxPositionEndValue;
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// _maxPositionEndValue = currentPosition - (step * nCheck);
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_maxPositionEndValue = currentPosition - (step * (ptr > N ? N : ptr));
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currentPosition = _maxPositionEndValue - M_PI / 8;
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delay(100);
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motor.move(currentPosition);
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Serial.println("Found first end stop : Max position = " + String(_maxPositionEndValue));
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delay(100);
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// Swipe motor to search other hard end and find eventually new max analog values of sensors
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// Swipe motor to search other hard end, and find eventually new max analog values of sensors
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endFound = false;
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currentCheck = 0;
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init_arr(senseA, N, 0);
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init_arr(senseB, N, 0);
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ptr = 0;
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while (!endFound)
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{
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senseA = analogRead(_analogPin1);
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senseB = analogRead(_analogPin2);
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senseA[ptr] = analogRead(_analogPin1);
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senseB[ptr] = analogRead(_analogPin2);
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// Check if new extremes sensor values
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if (senseA > _maxCh1)
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_maxCh1 = senseA;
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else if (senseA < _minCh1)
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_minCh1 = senseA;
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if (senseB > _maxCh1)
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_maxCh1 = senseB;
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else if (senseB < _minCh2)
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_minCh2 = senseB;
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if (senseA[ptr] > _maxCh1)
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_maxCh1 = senseA[ptr];
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else if (senseA[ptr] < _minCh1)
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_minCh1 = senseA[ptr];
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if (senseB[ptr] > _maxCh1)
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_maxCh1 = senseB[ptr];
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else if (senseB[ptr] < _minCh2)
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_minCh2 = senseB[ptr];
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// Compare with previous position
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if ((abs((int)(senseA - oldSenseA)) < epsilon) && (abs((int)(senseB - oldSenseB)) < epsilon))
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{
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if (currentCheck == nCheck)
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// Serial.printf("senseA: "); print_arr(senseA, N); Serial.printf(" std_var: %lu\n", std_var(senseA, N));
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// Serial.printf("senseB: "); print_arr(senseB, N); Serial.printf(" std_var: %lu\n", std_var(senseB, N));
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if (std_var(senseA, N) < epsilon && std_var(senseB, N) < epsilon)
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endFound = true;
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else
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currentCheck++;
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}
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else
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currentCheck = 0;
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// Replace previous values
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oldSenseA = senseA;
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oldSenseB = senseB;
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ptr = (ptr + 1) % N;
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// Move to new position
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currentPosition -= step;
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motor.move(currentPosition);
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delay(2);
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}
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_minPositionEndValue = currentPosition + (step * nCheck);
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_minPositionEndValue = currentPosition + (step * (ptr > N ? N : ptr));
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Serial.println("Found second end stop : Min position = " + String(_minPositionEndValue));
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delay(100);
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