Tags: kit, Sensors, aduino, starter, UNO, Shield, V5, Sensors, Dupont, cable

Keyestudio New sensor kit with Uno Ks0083 for Aduino Starter

  • 489.00 AED

    500.00 AED

    • Ex Tax:489.00 AED
    • Brands Keyestudio
    • Product Code: KS0083
    • Availability: In Stock
    This is an Arduino sensor learning kit developed by Keyes. We bring together 30 basic sensors and modules, aiming for the convenience of its learning for starters. Inside this box, there are digital and analog sensors and also some special modules such as buzzer, ultrasonic, acceleration modules etc..

    This is an Arduino sensor learning kit developed by Keyes. We bring together 30 basic sensors and modules, aiming for the convenience of its learning for starters. Inside this box, there are digital and analog sensors and also some special modules such as buzzer, ultrasonic, acceleration modules etc. For each module, there is clear connection diagram and sample code. So even if you are totally new at this, you can get started easily.
    The sample codes for this sensor kit are based on ARDUINO because it's open source and easy. And if you are good at this, you can also apply this kit to other MCU development platform, such as 51, STM32, Raspberries Pi. The working principle is pretty much the same.
    Now, let us embrace this fascinating world of ARDUINO and learn together! 


    Kit list

    1. Piranha LED Module
    2. Digital white LED module
    3. Passive Buzzer module
    4. Hall Magnetic Sensor
    5. LM35 Temperature Sensor
    6. 18B20 Temperature Sensor
    7. Digital Tilt Sensor
    8. Photocell sensor
    9. Digital Push Button
    10. Capacitive Touch Sensor
    11. DHT11 Temperature and Humidity Sensor
    12. Analog Sound Sensor
    13. Flame Sensor
    14. 3231 Clock Module
    15. MQ-2 Analog Gas Sensor
    16. MQ-3 Analog Alcohol Sensor
    17. Water sensor
    18. Soil humidity sensor
    19. Infrared Obstacle Avoidance Sensor
    20. PIR Motion Sensor
    21. Joystick Module
    22. photo interrupter module
    23. 5V Relay Module
    24. ADXL345 Three Axis Acceleration Module
    25. Rotary Encoder module
    26. Analog Rotation Sensor
    27. HC-SR04 Ultrasonic Sensor
    28. Pulse Rate Monitor
    29. Reed Switch Module
    30. TEMT6000 ambient light sensor


    Project details

    Project 1: Piranha LED Module


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    Introduction:
    This is a special LED module. When you connect it to ARDUINO development board, after program, it can emit beautiful light. Of course, you can also control it using PWM. It will be like fireflies at night. Isn’t cool? We can also combine it with other sensors to do various interesting interactive experiments.

    Specifications:
    Module type: digital
    Working voltage: 5v
    Distance between pins: 2.54mm
    Size: 30*20mm
    Weight: 3g

    Connection Diagram:

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    Sample Code:

    int led = 3; 
    void setup()
    {
      pinMode(led, OUTPUT);     //Set Pin3 as output
    }
    void loop()
    {      digitalWrite(led, HIGH);   //Turn off led
              delay(2000);
              digitalWrite(led, LOW);    //Turn on led
              delay(2000);
    }
    


    Project 2: Digital white LED module


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    Introduction:
    This LED light module has a shiny color, ideal for Arduino starters. It can be easily connected to IO/Sensor shield.

    Specification:
    Type: Digital
    PH2.54 socket
    White LED light module
    Enables interaction with light-related works
    Size: 30*20mm
    Weight: 3g

    Connection Diagram:

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    Sample Code:

    int led = 3;
    void setup()
    {
     pinMode(led, OUTPUT);     //Set Pin3 as output
    }
    void loop()
    {
             digitalWrite(led, HIGH);   //Turn on led
             delay(2000);
             digitalWrite(led, LOW);    //Turn off led
             delay(2000);
    }
    


    Project 3: Passive Buzzer module


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    Introduction:
    We can use Arduino to make many interactive works of which the most commonly seen is acoustic-optic display. All the previous experiment has something to do with LED. However, the circuit in this experiment can produce sound. Normally, the experiment is done with a buzzer or a speaker while buzzer is simpler and easier to use. The buzzer we introduced here is a passive buzzer. It cannot be actuated by itself, but by external pulse frequencies. Different frequencies produce different sounds. We can use Arduino to code the melody of a song, which is actually quite fun and simple.

    Specification:
    Working voltage: 3.3-5v 
    Interface type: digital
    Size: 30*20mm
    Weight: 4g

    Connection Diagram:

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    Sample Code:

    int buzzer=8;//set digital IO pin of the buzzer
    void setup() 
    { 
    pinMode(buzzer,OUTPUT);// set digital IO pin pattern, OUTPUT to be output 
    } 
    void loop() 
    { unsigned char i,j;//define variable
    while(1) 
    { for(i=0;i<80;i++)// output a frequency sound
    { digitalWrite(buzzer,HIGH);// sound
    delay(1);//delay1ms 
    digitalWrite(buzzer,LOW);//not sound
    delay(1);//ms delay 
    } 
    for(i=0;i<100;i++)// output a frequency sound
    { 
    digitalWrite(buzzer,HIGH);// sound
    digitalWrite(buzzer,LOW);//not sound
    delay(2);//2ms delay 
    } } } 
    

    After downloading the program, buzzer experiment will been finished.


    Project 4: Hall Magnetic Sensor


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    Introduction:
    This is a Magnetic Induction Sensor. It senses the magnetic materials within a detection range up to 3cm. The detection range and the strength of the magnetic field are proportional. The output is digital on/off. This sensor uses the SFE Reed Switch - Magnetic Field Sensor.

    Specification:
    Sensing magnetic materials
    Detection range: up to 3cm
    Output: digital on/off
    Detection range and magnetic field strength are proportional
    Size: 30*20mm
    Weight: 3g

    Connection Diagram:

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    Sample Code:

    int ledPin = 13;                // choose the pin for the LED
    int inputPin = 3;               // Connect sensor to input pin 3 
    int val = 0;                    // variable for reading the pin status
     
    void setup() {
      pinMode(ledPin, OUTPUT);      // declare LED as output
      pinMode(inputPin, INPUT);     // declare pushbutton as input
    }
     
    void loop(){
      val = digitalRead(inputPin);  // read input value
      if (val == HIGH) {            // check if the input is HIGH
        digitalWrite(ledPin, LOW);  // turn LED OFF
      } else {
        digitalWrite(ledPin, HIGH); // turn LED ON
      }
    }
    


    Project 5: LM35 Linear Temperature Sensor


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    Introduction:
    LM35 Linear Temperature Sensor is based on semiconductor LM35 temperature sensor. It can be used to detect ambient air temperature. This sensor offers a functional range among 0 degree Celsius to 100 degree Celsius. Sensitivity is 10mV per degree Celsius. The output voltage is proportional to the temperature.
    This sensor is commonly used as a temperature measurement sensor. It includes thermocouples, platinum resistance, and thermal resistance and temperature semiconductor chips. The chip is commonly used in high temperature measurement thermocouples. Platinum resistance temperature sensor is used in the measurement of 800 degrees Celsius, while the thermal resistance and semiconductor temperature sensor is suitable for measuring the temperature of 100-200 degrees or below, in which the application of a simple semiconductor temperature sensor is good in linearity and high in sensitivity. The LM35 linear temperature sensor and sensor-specific Arduino shield can be easily combined.

    Specification:
    Based on the semiconductor LM35 temperature sensor
    Can be used to detect ambient air temperature
    Sensitivity: 10mV per degree Celcius
    Functional range: 0 degree Celsius to 100 degree Celsius
    Size: 30*20mm
    Weight: 3g

    Connection Diagram:

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    Sample Code:

    void setup()
    {
        Serial.begin(9600);//Set Baud Rate to 9600 bps
    }
     void loop()
    { 
        int val;
        int dat;
        val=analogRead(0);//Connect LM35 on Analog 0
        dat=(500 * val) /1024;;
        Serial.print("Temp:"); //Display the temperature on Serial monitor
        Serial.print(dat);
        Serial.println("C");
        delay(500);
    }
    


    Project 6: 18B20 Temperature Sensor


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    Introduction:
    DS18B20 is a digital temperature sensor from DALLAS U.S. It can be used to quantify environmental temperature testing.
    The temperature range is -55 ~ +125 ℃, inherent temperature resolution 0.5 ℃. It also support multi-point mesh networking. Three DS18B20 can be deployed on three lines to achieve multi-point temperature measurement. It has a 9-12 bit serial output. 

    Specification:
    Supply Voltage: 3.3V to 5V
    Temperature range: -55 °C ~ +125 °C
    Interface: Digital
    Size: 30*20mm
    Weight: 3g

    Connection Diagram:

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    Sample Code:
    http://www.pjrc.com/teensy/arduino_libraries/OneWire.zip

    #include <OneWire.h>
     int DS18S20_Pin = 2; //DS18S20 Signal pin on digital 2
     //Temperature chip i/o
    OneWire ds(DS18S20_Pin);  // on digital pin 2
     void setup(void) {
      Serial.begin(9600);
    }
     void loop(void) {
      float temperature = getTemp();
      Serial.println(temperature);
       
      delay(100); //just here to slow down the output so it is easier to read
       
    }
     
    float getTemp(){
      //returns the temperature from one DS18S20 in DEG Celsius
     
      byte data[12];
      byte addr[8];
     
      if ( !ds.search(addr)) {
          //no more sensors on chain, reset search
          ds.reset_search();
          return -1000;
      }
     
      if ( OneWire::crc8( addr, 7) != addr[7]) {
          Serial.println("CRC is not valid!");
          return -1000;
      }
     
      if ( addr[0] != 0x10 && addr[0] != 0x28) {
          Serial.print("Device is not recognized");
          return -1000;
      }
     
      ds.reset();
      ds.select(addr);
      ds.write(0x44,1); // start conversion, with parasite power on at the end
     
      byte present = ds.reset();
      ds.select(addr);    
      ds.write(0xBE); // Read Scratchpad
     
       
      for (int i = 0; i < 9; i++) { // we need 9 bytes
        data[i] = ds.read();
      }
      ds.reset_search();
       
      byte MSB = data[1];
      byte LSB = data[0];
     
      float tempRead = ((MSB << 8) | LSB); //using two's compliment
      float TemperatureSum = tempRead / 16;
       
      return TemperatureSum;
       
    }
    


    Project 7: Digital Tilt Sensor


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    Introduction:
    Tilt Sensor is a digital tilt switch. It can be used as a simple tilt sensor. Simplly plug it to our IO/Sensor shield; you can make amazing interactive projects. With dedicated sensor shield and Arduino, you can achieve interesting and interactive work.

    Specification:
    Supply Voltage: 3.3V to 5V
    Interface: Digital
    Size: 30*20mm
    Weight: 3g

    Connection Diagram:

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    Sample Code:

    int ledPin = 13;                // Connect LED to pin 13
    int switcher = 3;                 // Connect Tilt sensor to Pin3
     
    void setup()
    {
      pinMode(ledPin, OUTPUT);      // Set digital pin 13 to output mode
      pinMode(switcher, INPUT);       // Set digital pin 3 to input mode
    }
    void loop()
    {
         
       if(digitalRead(switcher)==HIGH) //Read sensor value
         { 
            digitalWrite(ledPin, HIGH);   // Turn on LED when the sensor is tilted
         }
       else
         {
            digitalWrite(ledPin, LOW);    // Turn off LED when the sensor is not triggered
         }
    }
    


    Project 8: Photocell sensor


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    Introduction:
    Photocell is commonly seen in our daily life and is mainly used in intelligent switch, also in common electronic design. To make it easier and more effective, we supply corresponding modules.
    Photocell is a semiconductor. It has features of high sensitivity, quick response, spectral characteristic, and R-value consistence, maintaining high stability and reliability in environment extremes such as high temperature, high humidity. It’s widely used in automatic control switch fields like cameras, garden solar lights, lawn lamps, money detectors, quartz clocks, music cups, gift boxes, mini night lights, sound and light control switches, etc. 

    Specification:
    Interface type: analog
    Working voltage: 5V
    Size: 30*20mm
    Weight: 3g

    Connection Diagram:

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    Sample Code:

    int sensorPin =A0 ; 
    int value = 0; 
    void setup() 
    {
     Serial.begin(9600); } 
    
    void loop() 
    {
     value = analogRead(sensorPin); 
    Serial.println(value, DEC); 
    
    delay(50); }
    


    Project 9: Digital Push Button


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    Introduction:
    This is a basic application module. You can simply plug it into an IO shield to have your first taste of Arduino. 
    Advantages: 
    Wide voltage range from 3.3V to 5V
    Standard assembling structure (two 3mm diameter holes with multiple of 5mm as distance from center)
    Easily recognizable interfaces of sensors ("A" for analog and "D" for digital)
    Icons illustrate sensor function clearly
    High quality connector
    Immersion gold surface 

    Specification:
    Supply Voltage: 3.3V to 5V
    Easy to 'plug and operate'
    Large button keypad and high-quality first-class cap
    Achieve interesting and interactive work
    Interface: Digital
    Size: 30*20mm
    Weight: 4g

    Connection Diagram:

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    Sample Code:

    /* # When you push the digital button, the Led 13 on the board will turn on. Otherwise,the led turns off.
    */
    int ledPin = 13;                // choose the pin for the LED
    int inputPin = 3;               // Connect sensor to input pin 3 
    void setup() {
      pinMode(ledPin, OUTPUT);      // declare LED as output
      pinMode(inputPin, INPUT);     // declare pushbutton as input
    }
    void loop(){
      int val = digitalRead(inputPin);  // read input value
      if (val == HIGH) {            // check if the input is HIGH
        digitalWrite(ledPin, LOW);  // turn LED OFF
      } else {
        digitalWrite(ledPin, HIGH); // turn LED ON
      }
    }
    


    Project 10: Capacitive Touch Sensor


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    Introduction:
    Are you tired of clicking mechanic button? Well, try our capacitive touch sensor. We can find touch sensors mostly on electronic device. So upgrade your Arduino project with our new version touch sensor and make it cool!!
    This little sensor can "feel" people and metal touch and feedback a high/low voltage level. Even isolated by some cloth and paper, it can still feel the touch. Its sensetivity decrease as isolation layer gets thicker. For detail of usage, please check our wiki. To perfect user’s experience of our sensor module, we made following improvements. 

    Specification:
    Supply Voltage: 3.3V to 5V
    Interface: Digital
    Size: 30*20mm
    Weight: 3g

    Connection Diagram:

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    Sample Code:

    int ledPin = 13;                // Connect LED on pin 13, or use the onboard one
    int KEY = 2;                 // Connect Touch sensor on Digital Pin 2
     
    void setup(){
      pinMode(ledPin, OUTPUT);      // Set ledPin to output mode
      pinMode(KEY, INPUT);       //Set touch sensor pin to input mode
    }
     
    void loop(){
       if(digitalRead(KEY)==HIGH) {      //Read Touch sensor signal
            digitalWrite(ledPin, HIGH);   // if Touch sensor is HIGH, then turn on
         }
       else{
            digitalWrite(ledPin, LOW);    // if Touch sensor is LOW, then turn off the led
         }
    }
    


    Project 11: DHT11 Temperature and Humidity Sensor


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    Introduction:
    This DHT11 Temperature and Humidity Sensor features calibrated digital signal output with the temperature and humidity sensor complex. Its technology ensures high reliability and excellent long-term stability. A high-performance 8-bit microcontroller is connected. This sensor includes a resistive element and a sense of wet NTC temperature measuring devices. It has excellent quality, fast response, anti-interference ability and high cost performance advantages.
    Each DHT11 sensor features extremely accurate calibration data of humidity calibration chamber. The calibration coefficients stored in the OTP program memory, internal sensors detect signals in the process, and we should call these calibration coefficients. The single-wire serial interface system is integrated to make it quick and easy. Qualities of small size, low power, and 20-meter signal transmission distance make it a wide applied application and even the most demanding one. Convenient connection, special packages can be provided according to users need.


    Specification:

    • Supply Voltage: +5 V
    • Temperature range: 0-50 °C error of ± 2 °C
    • Humidity: 20-90% RH ± 5% RH error
    • Interface: Digital
    • Size: 30*20mm
    • Weight: 4g


    Connection Diagram:

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    Sample Code:
    Please download the DHT11Lib firstly.Or,see the website

    #include <dht11.h>
    dht11 DHT;
    #define DHT11_PIN 4
      
    void setup(){
      Serial.begin(9600);
      Serial.println("DHT TEST PROGRAM ");
      Serial.print("LIBRARY VERSION: ");
      Serial.println(DHT11LIB_VERSION);
      Serial.println();
      Serial.println("Type,\tstatus,\tHumidity (%),\tTemperature (C)");
    }
      
    void loop(){
      int chk;
      Serial.print("DHT11, \t");
      chk = DHT.read(DHT11_PIN);    // READ DATA
      switch (chk){
        case DHTLIB_OK:  
                    Serial.print("OK,\t"); 
                    break;
        case DHTLIB_ERROR_CHECKSUM: 
                    Serial.print("Checksum error,\t"); 
                    break;
        case DHTLIB_ERROR_TIMEOUT: 
                    Serial.print("Time out error,\t"); 
                    break;
        default: 
                    Serial.print("Unknown error,\t"); 
                    break;
      }
     // DISPLAT DATA
      Serial.print(DHT.humidity,1);
      Serial.print(",\t");
      Serial.println(DHT.temperature,1);
      
      delay(1000);
    }
    


    Project 12: Analog Sound Sensor


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    Introduction:
    Analog Sound Sensor is typically used in detecting the loudness in ambient environment. The Arduino can collect its output signal by imitating the input interface. You can use it to make some interesting interactive works such as a voice operated switch.

    Specification:

    • Supply Voltage: 3.3V to 5V
    • Detecting sound intensity
    • Interface: Analog
    • Size: 30*20mm
    • Weight: 4g

    Connection Diagram:

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