Controlling ServoMotor By Using Of Potentiometer In Arduino

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引用 | 編輯 i1012347
2019-01-13 18:33
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https://stackoverflow.com/questions/44966702/control-a-servo-by-c-windows-10-iot-and-the-magellanic-servocontroller-cpu-i

https://www.google.com/search?rlz=1C1AOHY_zh-TWTW708TW708&ei=cRI7XNXTC8jc8QXO9b2ADA&q=android+c%23+servo&oq=android+c%23+servo&gs_l=psy-ab.3...2816.8165..8560...0.0..0.107.500.4j2......0....1..gws-wiz.......0i71j0j0i22i30j0i13i30.D87a6QN1xMU
Control a Servo by C#, Windows 10 IoT and the Magellanic.ServoController - CPU issues and how to resolve them?

using Windows.UI.Xaml; using Windows.UI.Xaml.Controls; using Magellanic.ServoController; using System; using System.Threading.Tasks; namespace App5 { public sealed partial class MainPage : Page { public MainPage() { this.InitializeComponent(); } private async Task MoveServoToCentre(double MovementTime, double CalculatedFrequency) {     using (var servo = new ServoController(5)) {         servo.Frequency = Convert.ToInt32(CalculatedFrequency);         await servo.Connect();         servo.SetPosition(90).AllowTimeToMove(Convert.ToInt32(MovementTime)).Go();         servo.Dispose(); } } private async void Slider_Value_ChangedAsync(object sender, Windows.UI.Xaml.Controls.Primitives.RangeBaseValueChangedEventArgs e) { Slider slider = sender as Slider; if (slider.Value < 50) {         await CalculationAsync(slider.Value); } else if (slider.Value > 50) {         await CalculationAsync(slider.Value); } } public string PreviousValue; public double RequiredFrequenz; private async Task CalculationAsync(double value) { if (PreviousValue != null) { double Result = System.Math.Abs(Convert.ToDouble(PreviousValue)) - value; if (Result < 0) { RequiredFrequenz = 100; } else if (Result > 0) { RequiredFrequenz = 200; } double TimeToMove = System.Math.Abs(((int)Math.Round(Result * 3.8))); System.Diagnostics.Debug.WriteLine(TimeToMove); System.Diagnostics.Debug.WriteLine(Result); System.Diagnostics.Debug.WriteLine(value); System.Diagnostics.Debug.WriteLine(PreviousValue); System.Diagnostics.Debug.WriteLine(RequiredFrequenz);         await MoveServoToCentre(TimeToMove, RequiredFrequenz); TimeToMove = 0; } else { if (value > 50) { double TimeToMove = ((int)Math.Round((value - 50) * 3.8)); RequiredFrequenz = 100; System.Diagnostics.Debug.WriteLine(TimeToMove); System.Diagnostics.Debug.WriteLine(value); System.Diagnostics.Debug.WriteLine(PreviousValue); System.Diagnostics.Debug.WriteLine(RequiredFrequenz);           await MoveServoToCentre(TimeToMove, RequiredFrequenz); TimeToMove = 0; } else if (value < 50) { double TimeToMove = System.Math.Abs(((int)Math.Round((value - 50) * 3.8))); RequiredFrequenz = 200; System.Diagnostics.Debug.WriteLine(TimeToMove); System.Diagnostics.Debug.WriteLine(value); System.Diagnostics.Debug.WriteLine(PreviousValue); System.Diagnostics.Debug.WriteLine(RequiredFrequenz);           await MoveServoToCentre(TimeToMove, RequiredFrequenz); TimeToMove = 0; } } PreviousValue = value.ToString();     value = 0; } } }[/pre]

Here a link to the code of the NuGet PlugIn:
https://github.com/jeremylindsayni/Magellanic.ServoController/blob/master/ServoController.cs


ServoController servo = new ServoController(5); protected override async void OnNavigatedTo(NavigationEventArgs e) {     await servo.Connect(); } private void MoveServoToCentre(double MovementTime, double CalculatedFrequency) {     servo.Frequency = Convert.ToInt32(CalculatedFrequency);     servo.SetPosition(90).AllowTimeToMove(Convert.ToInt32(MovementTime)).Go(); }[/pre]


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Introduction

In this article, I am explaining about  controlling the ServoMotor using Potentiometer in Arduino. In this article, I will control the Servo Motor in the adjustment of Potentiometer. 


Parts of the List
    Arduino UnoPotentiometerServo MotorBread BoardHook up wires 

Connection


Servo Motor
    Connect the Vcc of the Servo Motor to the 5v of the ArduinoUno.Connect the gnd of the bluetooth to the Gnd of the ArduinoUno.Connect the Vin of the bluetooth to the 09 of the ArduinoUno.

Potentiometer
    Connect as per the preceding figure to the Arduino board and the LCD Display.The Vin is connected to the LCD display in 03.
https://www.c-sharpcorner.com/article/controlling-servomotor-by-using-of-potentiometer-in-arduino/


    #include <Servo.h> const int servo1 = 3;       // first servo const int servo2 = 10;      // second servo const int servo3 = 5;       // third servo const int servo4 = 11;      // fourth servo const int servo5 = 9;       // fifth servo const int joyH = 2;        // L/R Parallax Thumbstick const int joyV = 3;        // U/D Parallax Thumbstick const int joyX = 4;        // L/R Parallax Thumbstick const int joyP = 5;        // U/D Parallax Thumbstick const int potpin = 0;      // O/C potentiometer int servoVal;           // variable to read the value from the analog pin Servo myservo1;  // create servo object to control a servo Servo myservo2;  // create servo object to control a servo Servo myservo3;  // create servo object to control a servo Servo myservo4;  // create servo object to control a servo Servo myservo5;  // create servo object to control a servo void setup() {     // Servo   myservo1.attach(servo1);  // attaches the servo   myservo2.attach(servo2);  // attaches the servo   myservo3.attach(servo3);  // attaches the servo   myservo4.attach(servo4);  // attaches the servo   myservo5.attach(servo5);  // attaches the servo   // Inizialize Serial   Serial.begin(9600);  }   void loop(){     servoVal = analogRead(potpin);       servoVal = map(servoVal, 0, 1023, 0, 179);     myservo5.write(servoVal);       delay(15);      // Display Joystick values using the serial monitor     outputJoystick();       // Read the horizontal joystick value  (value between 0 and 1023)     servoVal = analogRead(joyH);              servoVal = map(servoVal, 0, 1023, 0, 180);     // scale it to use it with the servo (result  between 0 and 180)     myservo2.write(servoVal);                         // sets the servo position according to the scaled value       // Read the horizontal joystick value  (value between 0 and 1023)     servoVal = analogRead(joyV);               servoVal = map(servoVal, 0, 1023, 70, 180);     // scale it to use it with the servo (result between 70 and 180)     myservo1.write(servoVal);                           // sets the servo position according to the scaled value     delay(15);                                       // waits for the servo to get there // Read the horizontal joystick value  (value between 0 and 1023)     servoVal = analogRead(joyP);               servoVal = map(servoVal, 0, 1023, 70, 180);     // scale it to use it with the servo (result between 70 and 180)     myservo4.write(servoVal);                           // sets the servo position according to the scaled value     delay(15);                                       // waits for the servo to get there // Read the horizontal joystick value  (value between 0 and 1023)     servoVal = analogRead(joyX);               servoVal = map(servoVal, 0, 1023, 70, 180);     // scale it to use it with the servo (result between 70 and 180)     myservo3.write(servoVal);                           // sets the servo position according to the scaled value     delay(15);                                       // waits for the servo to get there }   /** * Display joystick values */ void outputJoystick(){       Serial.print(analogRead(joyH));      Serial.print ("---");      Serial.print(analogRead(joyV));      Serial.println ("----------------");      Serial.print(analogRead(joyP));      Serial.println ("----------------");      Serial.print(analogRead(joyX));      Serial.println ("----------------");  }


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