Categories

Attention!

The store will be closed from January 20 to January 21  2020 for technical reasons.

We apologize for any inconvenience caused.

ROBOTOP.LV

Multi-function Shield (UNO R3)

Multi-function Shield (UNO R3)

No reward points for this product.


Multi-function Sield

More details...

In stock: 2

00138

8,50 €

Features

4 digit 7-segment LED display module driven by two serial 74HC595’s
4 LED’s
10K potentiometer
3 x push buttons
Piezo buzzer
DS18B20 temperature sensor interface (not included)
Infrared receiver interface
Serial interface header for connection to serial modules

Code Examples
********************************************************************

Blinking LED

int led = 13;

void setup()
{
// initialize the digital pin as an output.
pinMode(led, OUTPUT);
}

void loop()
{
digitalWrite(led, HIGH);
delay(1000);
digitalWrite(led, LOW);
delay(1000);
}

********************************************************************

All LEDS blinking

int led1 = 13;
int led2 = 12;
int led3 = 11;
int led4 = 10;

void setup()
{
// initialize the digital pin as an output.
pinMode(led1, OUTPUT);
pinMode(led2, OUTPUT);
pinMode(led3, OUTPUT);
pinMode(led4, OUTPUT);
}

void loop()
{
digitalWrite(led1, HIGH);
digitalWrite(led2, HIGH);
digitalWrite(led3, HIGH);
digitalWrite(led4, HIGH);
delay(1000);
digitalWrite(led1, LOW);
digitalWrite(led2, LOW);
digitalWrite(led3, LOW);
digitalWrite(led4, LOW);
delay(1000);
}

********************************************************************

Switches example

const byte LED[] = {13,12,11,10};

#define BUTTON1 A1
#define BUTTON2 A2

void setup()
{
// initialize the digital pin as an output.
/* Set each pin to outputs */
pinMode(LED[0], OUTPUT);
pinMode(LED[1], OUTPUT);
pinMode(LED[2], OUTPUT);
pinMode(LED[3], OUTPUT);
}

void loop()
{
if(!digitalRead(BUTTON1))
{
digitalWrite(LED[0], HIGH);
digitalWrite(LED[1], HIGH);
digitalWrite(LED[2], HIGH);
digitalWrite(LED[3], HIGH);
}

if(!digitalRead(BUTTON2))
{
digitalWrite(LED[0], LOW);
digitalWrite(LED[1], LOW);
digitalWrite(LED[2], LOW);
digitalWrite(LED[3], LOW);
}
}

********************************************************************

Potentiometer 1

#define Pot1 0

void setup()
{
Serial.begin(9600);
}

/* Main Program */
void loop()
{

Serial.print(“Potentiometer reading: “);
Serial.println(analogRead(Pot1));
/* Wait 0.5 seconds before reading again */
delay(500);
}

********************************************************************

Pot and led

const byte LED[] = {13,12,11,10};
#define Pot1 0

void setup()
{
Serial.begin(9600);
// initialize the digital pin as an output.
/* Set each pin to outputs */
pinMode(LED[0], OUTPUT);
pinMode(LED[1], OUTPUT);
pinMode(LED[2], OUTPUT);
pinMode(LED[3], OUTPUT);
}

/* Main Program */
void loop()
{
int PotValue;
//Serial.print(“Potentiometer reading: “);
PotValue = analogRead(Pot1);
/* Wait 0.5 seconds before reading again */
if(PotValue < 400)
{
digitalWrite(LED[0], LOW);
digitalWrite(LED[1], LOW);
digitalWrite(LED[2], LOW);
digitalWrite(LED[3], LOW);
Serial.print(“Potentiometer: “);
Serial.println(PotValue);
}
else
{
digitalWrite(LED[0], HIGH);
digitalWrite(LED[1], HIGH);
digitalWrite(LED[2], HIGH);
digitalWrite(LED[3], HIGH);
Serial.print(“Potentiometer: “);
Serial.println(PotValue);
}
delay(500);
}

********************************************************************

segment display

/* Define shift register pins used for seven segment display */
#define LATCH_DIO 4
#define CLK_DIO 7
#define DATA_DIO 8

/* Segment byte maps for numbers 0 to 9 */
const byte SEGMENT_MAP[] = {0xC0,0xF9,0xA4,0xB0,0x99,0x92,0x82,0xF8,0X80,0X90};
/* Byte maps to select digit 1 to 4 */
const byte SEGMENT_SELECT[] = {0xF1,0xF2,0xF4,0xF8};

void setup ()
{
/* Set DIO pins to outputs */
pinMode(LATCH_DIO,OUTPUT);
pinMode(CLK_DIO,OUTPUT);
pinMode(DATA_DIO,OUTPUT);
}

/* Main program */
void loop()
{

/* Update the display with the current counter value */
WriteNumberToSegment(0 , 0);
WriteNumberToSegment(1 , 1);
WriteNumberToSegment(2 , 2);
WriteNumberToSegment(3 , 3);
}

/* Write a decimal number between 0 and 9 to one of the 4 digits of the display */
void WriteNumberToSegment(byte Segment, byte Value)
{
digitalWrite(LATCH_DIO,LOW);
shiftOut(DATA_DIO, CLK_DIO, MSBFIRST, SEGMENT_MAP[Value]);
shiftOut(DATA_DIO, CLK_DIO, MSBFIRST, SEGMENT_SELECT[Segment] );
digitalWrite(LATCH_DIO,HIGH);
}

********************************************************************

Read pot and display value on display

/* Define shift register pins used for seven segment display */
#define LATCH_DIO 4
#define CLK_DIO 7
#define DATA_DIO 8

#define Pot1 0

/* Segment byte maps for numbers 0 to 9 */
const byte SEGMENT_MAP[] = {0xC0,0xF9,0xA4,0xB0,0x99,0x92,0x82,0xF8,0X80,0X90};
/* Byte maps to select digit 1 to 4 */
const byte SEGMENT_SELECT[] = {0xF1,0xF2,0xF4,0xF8};

void setup ()
{
Serial.begin(9600);
/* Set DIO pins to outputs */
pinMode(LATCH_DIO,OUTPUT);
pinMode(CLK_DIO,OUTPUT);
pinMode(DATA_DIO,OUTPUT);
}

/* Main program */
void loop()
{
int PotValue;
PotValue = analogRead(Pot1);
Serial.print(“Potentiometer: “);
Serial.println(PotValue);
/* Update the display with the current counter value */
WriteNumberToSegment(0 , PotValue / 1000);
WriteNumberToSegment(1 , (PotValue / 100) % 10);
WriteNumberToSegment(2 , (PotValue / 10) % 10);
WriteNumberToSegment(3 , PotValue % 10);
}

/* Write a decimal number between 0 and 9 to one of the 4 digits of the display */
void WriteNumberToSegment(byte Segment, byte Value)
{
digitalWrite(LATCH_DIO,LOW);
shiftOut(DATA_DIO, CLK_DIO, MSBFIRST, SEGMENT_MAP[Value]);
shiftOut(DATA_DIO, CLK_DIO, MSBFIRST, SEGMENT_SELECT[Segment] );
digitalWrite(LATCH_DIO,HIGH);
}

Write your review

Multi-function Shield (UNO R3)

Multi-function Shield (UNO R3)

Multi-function Sield

Write your review

30 other products in the same category :

50V 20uF (200) Ceramic capacitor

50V 20uF...

0,05 €

A42 transistor (NPN)

A42...

0,10 €

2N3904 transistor (NPN)

2N3904...

0,15 €

Duemilanove sensor (Arduino comp.)

Duemilanove...

17,00 €

MEGA Prototype Shield v3

MEGA...

3,80 €

Active buzzer (beeper) - KY-012

Active...

3,20 €

Passive buzzer (beeper) - KY-006

Passive...

2,80 €

2-color LED module

2-color LED...

1,50 €

Beat sensor module - KY-031

Beat sensor...

1,50 €

Vibration switch module

Vibration...

1,50 €

Photo resistor module

Photo...

2,60 €

Key switch module

Key switch...

1,50 €

Tilt switch module

Tilt switch...

1,50 €

3-color full-color LED SMD modules

3-color...

1,50 €

Infrared emission sensor module

Infrared...

1,50 €

3-color LED modules

3-color LED...

4,00 €

Mercury open optical module

Mercury open...

1,50 €

Yin Yi 2-color LED module 3MM

Yin Yi...

1,50 €

1N4728A 1W 3.3V

1N4728A 1W 3.3V

0,10 €

Temperature sensors - DS18B20

Temperature...

3,40 €

JoyStick (9 pin)

JoyStick (9...

3,90 €

High Sensitivity Sound Microphone Sensor Detection Module For Arduino

High...

3,50 €

Sound Microphone Sensor Detection Module For Arduino

Sound...

3,50 €

TCRT5000 MOD.3

TCRT5000 MOD.3

3,50 €

Intelligent Car Obstacle Avoidance Sensor Module For Arduino

Intelligent...

4,60 €

Flame sensor

Flame sensor

2,90 €

Hall Linear (49E714BG)

Hall Linear...

2,50 €

Touch sensor

Touch sensor

3,20 €

Digital Temperature Sensor

Digital...

4,50 €

Reed switch

Reed switch

4,20 €

Cart  

No products

0,00 € Shipping
0,00 € Total

Check out

Kontakti:

Darba laiks: 10.00-13.00 (on working days)

tālr.+371 27474705

E-Mail: robotop.lv@gmail.com

Adress: Rīga, Limbažu iela 1/1

New products

All new products