- Temperature range: 0℃-80℃
- Wire length: 45cm
- Velcro length: 22cm
- Material: Composite Material Plastic
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RC522 RFID 13.56MHZ Reader Writer Module
0 out of 5(0)RC522 – RFID Reader /Writer with Cards Kit includes a 13.56MHz RF reader and writer module that uses an RC522 IC and two S50 RFID cards tag. The MF RC522 is an integrated transmission module for contactless communication at 13.56 MHz. RC522 supports ISO 14443A/MIFARE mode. RC522 – RFID Reader features an outstanding modulation and demodulation algorithm to serve effortless RF communication at 13.56 MHz. The S50 RFID Cards will ease up the process helping you to learn and add the 13.56 MHz RF transition to your project.
The module uses SPI to communicate with microcontrollers. The open-hardware community already has a lot of projects exploiting the RC522 – RFID Communication, using Arduino.
Features:-
- The low-voltage, low-cost, small size of the non-contact card chip to read and write.
- 13.56MHz contactless communication card chip.
- MFRC522 supports the MIFARE series of high-speed non-contact communication, two-way data transmission rate up to 424kbit/s.
- ISO14443A frames and error detection.
- Suitable for Smart meters and portable handheld devices.
- Advanced modulation and demodulation concept completely integrated with all types of 13.56MHz passive contactless communication methods and protocols.
- 14443A compatible transponder signals.
- Supports rapid CRYPTO1 encryption algorithm, terminology validation MIFARE products.
- The reader and RF card terminal design meet advanced application development and production needs.
- Can be directly loaded into the various reader molds, very convenient.
Specifications:-
- Operating Frequency: 13.56MHz
- Reader Distance: ≥ 50mm / 1.95″ (mifare 1)
- Operating Current :13-26mA / DC 3.3V
- Idle Current :10-13mA / DC 3.3V
- Peak Current: < 30mA
- Sleep Current: < 80uA
- Data transfer rate: Maximum 10Mbit/s
- Supported card types: mifare1 S50, mifare1 S70 MIFARE Ultralight, mifare Pro, MIFARE DESFire
- Environmental Storage Temperature: -40 – 85 degrees Celsius
- Environmental Operating Temperature: -20 – 80 degrees Celsius
- Relative humidity: 5% – 95%
- Module interface: SPI
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Basic Electronic Components, DIY Learning and Robot Kits, Sensors
L298N 2A Based Motor Driver Controller Module+100RPM Dual Shaft BO Motor (4pcs)+4 x 65mm Robot Wheel-Combo
-50%Basic Electronic Components, DIY Learning and Robot Kits, SensorsL298N 2A Based Motor Driver Controller Module+100RPM Dual Shaft BO Motor (4pcs)+4 x 65mm Robot Wheel-Combo
0 out of 5(0)- L298N Motor Driver Controller Module is a high power motor driver for driving DC and Stepper motors. It can control upto 4 DC motors, or 2 DC motors with directional and speed control. This motor driver is for robotics and mechatronics projects. The 150 RPM Dual Shaft BO Motor is a straight motor which gives good torque and RPM at lower operating voltages. It is a geared DC Motor. It is an alternative to metal gear DC motors. The 65MM Wheel is made up of standard grade rubber.
- L298N: Current Sense for each motor | Heatsink for better performance | Power-On LED indicator | Directional control | Speed control | High power motor || BO motor: Low density and inertia | Capability to absorb shock and vibration as a result of elastic compliance | Ability to operate with minimum or no lubrication | Relatively low coefficient of friction || Wheel: Car hub is reinforced nylon | Sturdy | Tire with sponge liner for more strength | With upgraded tire tread for greater friction
- Dimensions: L298N(LxWxH):44x44x28mm | Shaft length:7mm | Shaft Diameter:5.5mm | Motor(LxWxH):55x48x23mm | Diameter of wheel:65mm | Center Shaft Hole Diameter (mm):5.4 (Round edge) and 3.5 (Flat edge)
- The L298N motor driver is perfect for robotics and mechatronics projects. It can also be used for controlling motors from microcontrollers, switches, relays, etc. It is capable of driving DC and Stepper motors for micro mouse, line following robots, robot arms, etc. The BO motor is ideal for DIY enthusiasts. This motor set is inexpensive, small, easy to install and ideally suited for use in a mobile robot car. The 65mm wheel is only compatible with BO motor.
- L298N: Input Voltage:3.2V-40V DC | L298N Dual H-Bridge DC Motor Driver | Operating voltage:DC 5V-35V | Peak Current:2Amps | Speed Control:PWM | Control Signal input voltage range:0.3V≤Vin≤1.5V (Low), 2.3≤Vin≤Vss (High) | Max. power consumption:20W (when the temperature T=75℃) || BO Motor: Operating Voltage:3 to 12V | Current (without loading):40-180mA | RPM:100 | Output Torque:0.8 kgcm | Motor Design: L-shaped || Wheel: Loading Capacity (kg):2.5 | D hole For BO Motor (mm):6
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DIY Learning and Robot Kits, Sensors
AEROKART INDIA -Smart Dustbin Project Components – Arduino Project
-33%DIY Learning and Robot Kits, SensorsAEROKART INDIA -Smart Dustbin Project Components – Arduino Project
0 out of 5(0)This combo containing all products needed to make a smart dustbin that opens automatically when someone comes near to the dustbin.
The Arduino Uno R3 Compatible Board is a microcontroller board that is based on the ATmega328. Arduino Uno has 14 digital input or output pins, 6 analog inputs, a 16 MHz ceramic resonator, a USB connection, a power jack, an ICSP header, and a reset button. It has everything needed to support the microcontroller, you need to simply connect it to a computer with a USB cable or power it with an AC-to-DC adapter or battery to get started.This HC-SR04-Ultrasonic Distance Measuring Sensor is a very popular sensor that is found in many applications where it requires measuring distance and detect objects. The HC-SR04 ultrasonic sensor uses sonar to determine the distance to an object like bats or dolphins do. The module has two eyes-like projects in the front which form the Ultrasonic transmitter and Receiver.
The Micro Servo 9G is lightweight, high-quality, and lightning-fast. The servo is designed to work with almost all radio control systems. It is with excellent performance that brings you to another horizon of flight.
This is the combo of 20CM Wire Color Jumper Cable, M-M, M-F, F-F 10PCS of wire in each strip of cable. It is very flexible and easily detachable to no. of wires to your requirement. Mostly it can be used for Orange Pi, Banana Pi, Raspberry Pi, Arduino, and other mini PC and development boards.
This is a general 9v Battery With Battery Snap Connector to DC barrel jack adapter for all your project and application needs. One can use this adapter to power up any DC barrel jack-based power connector using a standard 9V battery.
Package Includes:
1 x Arduino UNO R3 Compatible Board With Cable
1 x Ultrasonic Module HC-SR04 Distance Measuring Sensor
1 x Tower Pro 9G Micro Servo Motor
1 x HW Battery 9V With Barrel Jack Connector
1 x Combo of 3 type Jumper Cables | F-F | F-M | M-M
Code for the Smart Dustbin:
Do not forget to install Servo.h Library. without this library, code will not compile in Arduino IDE software.
For more details please check this article on Smart Dustbin.
#include //servo library Servo servo; int trigPin = 5; int echoPin = 6; int servoPin = 7; int led= 10; long duration, dist, average; long aver[3]; //array for average void setup() { Serial.begin(9600); servo.attach(servoPin); pinMode(trigPin, OUTPUT); pinMode(echoPin, INPUT); servo.write(0); //close cap on power on delay(100); servo.detach(); } void measure() { digitalWrite(10,HIGH); digitalWrite(trigPin, LOW); delayMicroseconds(5); digitalWrite(trigPin, HIGH); delayMicroseconds(15); digitalWrite(trigPin, LOW); pinMode(echoPin, INPUT); duration = pulseIn(echoPin, HIGH); dist = (duration/2) / 29.1; //obtain distance } void loop() { for (int i=0;i<=2;i++) { //average distance measure(); aver[i]=dist; delay(10); //delay between measurements } dist=(aver[0]+aver[1]+aver[2])/3; if ( dist<50 ) { //Change distance as per your need servo.attach(servoPin); delay(1); servo.write(0); delay(3000); servo.write(150); delay(1000); servo.detach(); } Serial.print(dist); }
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