Difference between revisions of "The Use of Joystick Sensor"

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==Purpose==
+
==Outline==
  
This tutorial will show you how to use Microduino Joystick.
+
Microduino-Joystick sensor is equipped with a two-way analog output interface. Its output values correspond to offsets on both the X-axis and Y-axis. It is small and beautiful.  
  
==Equipment==
+
==Specification==
*'''[[Microduino-CoreUSB]]'''
+
*Electrical specification
*'''[[Microduino-Joystick]]'''
+
**Analog input
*'''[[Microduino-BUZZER]]'''
+
**Output returned value 0-1,023
*'''[[Microduino-Sensorhub]]'''
+
*Tech parameters
 +
**Detect displacement on both X- and Y-axis directions.
 +
*Size
 +
**Size of the switch: 17mm*17mm,
 +
**Size of the board: 20mm*24mm
 +
*Interface
 +
** Pin Description: GND, VCC, signal 1 output, and signal 2 output which is the analog signal and needs to use analog interface to detect (A0-A7).
 +
**Y-axis corresponds to signal 1 output and the Y-axis corresponds to signal 2 output.
 +
[[File:Joystick-line.jpg|center|400px]]
  
 +
==Development==
 +
===Equipment===
 +
{|class="wikitable"
 +
|-
 +
|Module||Number||Function
 +
|-
 +
|[[mCookie-CoreUSB]]||1||Core board
 +
|-
 +
|[[mCookie-Hub]]||1||Sensor pin board
 +
|-
 +
|[[Microduino-Joystick]]||1||Joystick sensor
 +
|}
  
 +
*Other Hardware Equipment
 +
**One USB cable 
 +
[[File:module-light.jpg|600px|center]]
  
*Other Hardware Equipment 
+
===Preparation===
**USB cable   One
+
*Setup 1:Connect Microduino-Joystick and the Hub 's A0 and A1 analog ports.
 +
[[file:mCookie-pir-sensor.JPG|600px|center]]
 +
*Setup 2:Stack the CoreUSB, Hub and Light together and then connect them to the computer with a USB cable.
 +
[[file:mCookie-Light-pc.JPG|600px|center]]
  
==Principle==
+
===Experiment: Detect Analog Brightness Value ===
The X-axis and Y-axis of the Joystick correspond two analog values. The move of X- and Y-axis changes the analog values.
+
*Open Arduino IDE and copy the following code into IDE.  
 +
<source lang="cpp">
 +
#define Pin_X A1
 +
#define Pin_Y A0
  
==Program==
+
void setup() {
 +
  Serial.begin(9600);    //Serial initializing
 +
  pinMode(Pin_X,INPUT);
 +
  pinMode(Pin_Y,INPUT);
 +
}
  
[[https://github.com/Microduino/Microduino_Tutorials/tree/master/mCookie_sensor/MicroduinoJoyStick MicroduinoJoyStick]]
+
void loop() {
 +
  int sensorValueX = analogRead(Pin_X);      //X-axis input
 +
  int sensorValueY = analogRead(Pin_Y);      //Y-axis input
 +
  Serial.print("ValueX:");
 +
  Serial.print(sensorValueX);
 +
  Serial.print(",");
 +
  Serial.print("ValueY:");
 +
  Serial.println(sensorValueY);
 +
  delay(100);
 +
}
 +
</source>
 +
* Select the right board from Tools→Serial Port in Arduino IDE and download the program. [[file:upload.JPG|500px|center]]
 +
* After the download, you can open the serial monitor. The displayed note reflects the current displacement analog values on both X-and Y-axis. 
 +
[[file:mCookie-pir-res.JPG|500px|center]]
 +
*Result
 +
**The right shift value decrease on the X-axis, close to zero while the left shift value increases and gets close to 1,023. 
 +
** The top shift value decrease on the Y-axis, close to zero while the downward shift value increases and gets close to 1,023.
 +
===Program Debugging===
 +
*Use“analogRead(XX);” to read sensor's input analog value and judge the displacement on both the X-axis and Y-axis. 
  
==Debugging==
+
==Application==
 
+
*To control object movement in two-dimensional space.  
Step 1:
+
*Game joystick  
Plug Microduino buzzer to the D6 pin of Microduino-Sensorhub and Microduino Joystick to A2 , A3.
 
 
 
[[File:MicroduinoRockerControl.png|600px|center|thumb]]
 
 
 
 
 
Step 2:
 
Connect USB cable to your PC, download the code and program it to Microduino-CoreUSB.
 
[[File:MicroduinoRockerControl1.png|600px|center|thumb]]
 
 
 
 
 
Step 3: 
 
The Joystick is in the middle after power-on.
 
[[File:MicroduinoRockerControl2.png|600px|center|thumb]]
 
 
 
 
 
Step 4:
 
Move Joystick X-axis and he sound frequency of the buzzer changes along with it.  
 
[[File:MicroduinoRockerControl3.png|600px|center|thumb]]
 
 
 
==Result==
 
 
 
You can control the tone of a buzzer through Joystick.
 
  
 
==Video==
 
==Video==
  
 
|}
 
|}

Revision as of 07:08, 4 November 2015

Outline

Microduino-Joystick sensor is equipped with a two-way analog output interface. Its output values correspond to offsets on both the X-axis and Y-axis. It is small and beautiful.

Specification

  • Electrical specification
    • Analog input
    • Output returned value 0-1,023
  • Tech parameters
    • Detect displacement on both X- and Y-axis directions.
  • Size
    • Size of the switch: 17mm*17mm,
    • Size of the board: 20mm*24mm
  • Interface
    • Pin Description: GND, VCC, signal 1 output, and signal 2 output which is the analog signal and needs to use analog interface to detect (A0-A7).
    • Y-axis corresponds to signal 1 output and the Y-axis corresponds to signal 2 output.
400px

Development

Equipment

Module Number Function
mCookie-CoreUSB 1 Core board
mCookie-Hub 1 Sensor pin board
Microduino-Joystick 1 Joystick sensor
  • Other Hardware Equipment
    • One USB cable
Module-light.jpg

Preparation

  • Setup 1:Connect Microduino-Joystick and the Hub 's A0 and A1 analog ports.
MCookie-pir-sensor.JPG
  • Setup 2:Stack the CoreUSB, Hub and Light together and then connect them to the computer with a USB cable.
MCookie-Light-pc.JPG

Experiment: Detect Analog Brightness Value

  • Open Arduino IDE and copy the following code into IDE. 
#define Pin_X A1
#define Pin_Y A0

void setup() {
  Serial.begin(9600);    //Serial initializing 
  pinMode(Pin_X,INPUT);
  pinMode(Pin_Y,INPUT);
}

void loop() {
  int sensorValueX = analogRead(Pin_X);      //X-axis input 
  int sensorValueY = analogRead(Pin_Y);      //Y-axis input 
  Serial.print("ValueX:");
  Serial.print(sensorValueX);
  Serial.print(",");
  Serial.print("ValueY:");
  Serial.println(sensorValueY);
  delay(100);
}
  • Select the right board from Tools→Serial Port in Arduino IDE and download the program.
    Upload.JPG
  • After the download, you can open the serial monitor. The displayed note reflects the current displacement analog values on both X-and Y-axis.
MCookie-pir-res.JPG
  • Result
    • The right shift value decrease on the X-axis, close to zero while the left shift value increases and gets close to 1,023.
    • The top shift value decrease on the Y-axis, close to zero while the downward shift value increases and gets close to 1,023.

Program Debugging

  • Use“analogRead(XX);” to read sensor's input analog value and judge the displacement on both the X-axis and Y-axis.

Application

  • To control object movement in two-dimensional space.
  • Game joystick

Video

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