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314492RFID Learning Kit (Contents)1x 50K Ω Potentiometer1x 7-seg LED 1x module1x 7-seg LED 4x module1x 8x8 dot LED array1x 9v battery cable1x Buzzer (active)1x Buzzer (passive)1x Flame sensor1x IC 74HC595N 16-pin DIP1x IR receiver1x IR remote control1x Joystick module1x LED - RGB1x LM35 Temp Sensor1x Microphone sound sensor1x Relay 5v1x RFID card1x RFID fob1x RFID sensor1x RTC module1x Servo Motor1x Stepper module1x Stepper Motor1x Temp & Humidity1x USB cable1x Water Level2x Ball tilt sensor3x Photo Resistor4x Large button switch5x 10K Ω resistor5x 1K Ω resistor5x LED - Blue5x LED - Red5x LED - Yellow830-pin Breadboard8x 220 Ω resistorUno R3 compatible boardDupont connector wires1x 4*4 button switch module1x 2x16 LCD display

Inland Uno R3:UUUNO R3 Summary:MicrocontrollerOperating VoltageInput Voltage (recommended)Input Voltage (limits)Digital I/O PinsAnalog Input PinsDC Current per I/O PinDC Current for 3.3V PinFlash MemorySRAMEEPROMClock SpeedLengthWidthWeightATmega3285V7-12V6-20V14 (of which 6 provide PWM output)640 mA50 mA32 KB (ATmega328) of which 0.5 KBused by bootloader2 KB (ATmega328)1 KB (ATmega328)16 MHz68.6 mm53.4 mm25 gSee http://arduino.cc for detailed specifications, overviews, schematics, etc. Core functions, code examples, and links tomany of the device libraries can be found in the learning section; refer to the manufacturer's site if using other add-onshields or sensors.The latest Arduino Integrated Development Environment(IDE) necessary for programming your UNO R3 board canbe obtained at http://arduino.cc/en/Main/Software (theDownload menu choice on Arduino.cc)Examples for many basic components can be foundunder the Examples menu. As you install libraries foradditional shields, new examples may be available.Follow the getting started guide found on the arduino.ccweb site. Click Learning, and select Getting started. Clickon the link for Windows, Mac OS X, or Linux for morespecific directions.Getting Started:1. Download the Arduino Environment (IDE) andinstall or unzip/extract the application directory.2. Connect the UNO board to one of yourcomputer's USB port.3. Install the drivers (If the computer does notautomatically download and install thenecessary USB drivers, point the hardware setupto the "drivers" directory of the Arduino IDEapplication.)4. Launch the Arduino IDE application5. Open a sketch example such as "Blink"6. Select your Board from the Tools menu.7. Select the Serial Port used by the board8. Upload the sketch to the boardSketch (code) Examples are included as part of the IDE. If you install device libraries for other components or shields,additional examples may be included and will show up in the list under the IDE File menu.(See: http://arduino.cc/en/Tutorial/HomePage for an overview of the core functions and libraries.)

Components:LEDsLED - Light Emitting Diodes1) Connect a current-limiting resistor (220 ohm)between the LED's positive pin and the 5v pin.Connect the LED's negative pin directly to yourArduino output pin. -OR2) Connect a current-limiting resistor (220 ohm)between the Arduino output pin and the LED'spositive pin. Connect the LED's negative pindirectly to a Ground (GND) pin.Note: LEDs may have "water clear" or color tinted lens.LED - 8x8 Matrix (1588BS or similar)Connect Columns to Arduino Data pins that can bepulled to ground, connect columns using currentlimiting resistors to pins that will output positivevoltage to illuminate the selected LED. gLED - RGB ModuleCurrent-limiting resistors (151 1 5 *10 150 ohm) arealready attached to the positive Red, Green, and Bluepins of the LED. Connect the negative (-) pin to yourground, and the R, G, and B pins to your Arduino outputpins.If using PWM (Pulse Width Modulation) capableoutputs, you can effectively mix the RGB primary colorsto produce thousands or different output colors in thesingle LED. See:File, Examples, 01.Basic, Fade sketch example in 1-bit) 7-segment LED (TOS5121AS or similar)Pin 1 is bottom left. Pins 3 and 8 are a common ground.Connect other pins to your Arduino with a currentlimiting resistor.

(4-bit) 7-segment LED (SH5461AS or similar)Pins 12, 9, 8, 6 are grounds for each segment; LEDsegments share pins 11(a), 7(b), 4(c), 2(d), 1(e), 10(f),5(g), 3(h). Transistors are recommended to handlecurrent that could exceed the maximum output of theArduino pins. d-display-arduino-demoSwitchesLarge button switch - momentary contact, NOFor the switch connection, you can use either pairlocated on one side. The connection is Normally Open(off) until the button is pushed.4x4 button matrix keypadPin 1 is indicated by the square solder pad on the rear(closest to S13.)Pins 1-4 connect to rows of buttons:Pin 1 - S13, 14, 15, 16; Pin 2- S9, 10, 11, 12; Pin 3 S5, 6, 7, 8; Pin 4 - S1, 2, 3, 4Pins 5-8 connect to columns of buttons:Pin 5 - S1, 5, 9, 13; Pin 6 - S2, 6, 10, 14; Pin 7 - S3, 7,11, 15; Pin 8 - S4, 8, 12, 16For an example, arduinocalculator.html5 Volt Relay moduleThree input pins:( ) 5V(-) Ground(S) Signal - connect to your Arduino "signal" pinto trip the relay.To use an external 5V source to power the relay coil orservo motors, connect the ground of the externalsource to the Arduino ground.Three output (screw) pins: Center is common, NCindicates Normally Closed (ON), NO indicates NormallyOpen (OFF). When relay engages, the NC contact willopen, the NO contact will close.

LCDI2C 1602 LCD - 2-line, 16-character LCD display (I2C)with backlight.4 pin connections are required: 5V (Vcc), Ground, andtwo Analog lines (i.e. SDA-A4, SCL-A5). For Arduino, youwill need several libraries installed: Wire.h, LCD.h,LiquidCrystal y-module/Sensors and modulesFlame Sensor (YG1006 or similar)The Flame sensor is a high-speed and highly sensitiveNPN Silicon photo transistor based on the YG1006. Itcan be used to detect fire or other wavelength at760nm 1100nm light. Response time is 15us, supplyvoltage is 3.3-5V; output is analog.IR Receiver (VS1838B or similar)Connect the Vcc pin to your 5V pin and the Gnd to aGround pin. The Signal pin connects to an Arduino inputpin and will change when the sensor detects an Infraredsignal.An IR remote control will send coded pulses based onwhich button you press, or an IR LED will produce acontinuous illumination.The surface-mount LED connects to the signal pin of thereceiver. It will illuminate when the sensor detects anactive infrared source.Passive & Active buzzersUse as a speaker, buzzer or other audible indicator.The Active buzzer has a protective tag over the opening,note the identifies the positive pin of the device, asthe rear is covered with epoxy. The active buzzer willgenerate a tone as soon as power is supplied to thedevice.Play a tone or melody using the passive odyThe passive buzzer does not have epoxy on the rearPCB, and the positive and negative connections arevisible on the etched board. Passive buzzers must havea modulated signal supplied to the device (like aspeaker) and would only generate a "click" if DC voltageis applied.

Ball Tilt SensorThis is a very simple switch with a ball inside of thetube. When the sensor is tipped upward past thehorizontal, the ball will short the contacts, closing theswitch. With the top (away from the pins) is tilted downrelative to the horizontal, the switch opens.LM35 Temperature SensorThe LM35 series are precision integrated-circuittemperature sensors, whose output voltage is linearlyproportional to the Celsius (Centigrade) temperature.Basic Temperature Sensor ( 2 to 150 C): Vs 5V in, Ground, Vout 0mV 10.0mV/ CFor code examples, see:LM35 data sheet: http://www.ece.usu.edu/ece no-lm35-sensor.htmlhttps://tkkrlab.nl/wiki/Arduino KY001 Temperature sensor moduleMicrophone Sound SensorPin connections:G - connect to Ground - connect to 5VAO - Analog Out - connect to Arduino for analoginputDO - Digital Out - Connect to Arduino as digitaltrigger input; adjust sensitivity via the screw onthe potentiometer.For code examples, i/Arduino KY038 Microphone sound sensor moduleJoystick with push button moduleJoystick module has five connections: GND (Ground), 5V, VRx x-axis analog output, VRy y-axis analogoutput, SW Normally Open switch (push down onjoystick to activate).For code examples, trolhttps://tkkrlab.nl/wiki/Arduino KY-023 XY-axis joystick 27/joystick-controlof-a-servo/

Water Level or Rain SensorThree connections - Ground, 5V, S analog signalthat will vary based on how much of the contacts are incontact with ww.seeedstudio.com/wiki/Grove - Water Sensor(Video): ensor-tutorial-and-application/Temperature and Humidity sensorThree connections:(-) ground (-) Note the square solder pad.(center pin) 5V(S) Signal (digital, serial output)For the DHT11 library and information, idity/https://tkkrlab.nl/wiki/Arduino KY015 Temperature and humidity sensor moduleMotorsServo motorNote that Servo motor color schemes may vary:Brown / Black groundOrange / Red 5VYellow / White signal (use digital PWM connection.)Small servo motors may be connected directly to theArduino controller, or you may wish to provide separatepower to the servos and only connect the data and acommon ground.Servo examples are include with the IDE, no.cc/en/Tutorial/Sweep

Stepper motor and controllerStepper IC ULN2003AN (or similar)The stepper motor included in the kit connects to thecontroller through a white connector socket. Fourinputs connect to your Arduino IN1, IN2, IN3, and IN4.Power for the motor and controller is provided throughthe ground (-) and 5-to-12V ( ) pins.Use an external power supply for the motor to avoiddamaging the Arduino. Connect the ground of yourexternal supply to the ground of the Arduino and thesignal IN# pins to digital outputs.For sketch examples, rs1/4 Watt Resistors8pcs 220 ohm5pcs 1K ohm5pcs 10K ohmResistors may come with 4 or 5 identifying color bands.(When in doubt, use a multimeter to verify the value.)50K PotentiometerResistance between outer pins is 50K ohms. Resistancebetween one outer pin and the center (wiper) pin is 050K ohms based on position.Photo ResistorResistance across the pins will be 1 meg ohm or higherin darkness, dropping to 60 ohms or less in bright light.

RFIDRFID-RC522 Read/Write moduleTypical connections:Vcc - 5V or 3.3VRST - Arduino pin 5GND - GroundMISO - Arduino pin 12MOSI - Arduino pin 11SCK - Arduino pin 13(NSS, IRQ are not connected) ttps://labitat.dk/wiki/RFID iththe-mifare-mf522-an-and-arduino/otherTri-state 8-bit shift register IC SN74HC595N (orsimilar)The datasheet refers to the 74HC595 as an "8-bitserial-in, serial or parallel-out shift register with outputlatches; 3-state." In other words, you can use it tocontrol 8 outputs at a time while only taking up a fewpins on your ShiftOutReal Time Clock Module (for DS1302, see below.)The Tiny RTC communicates with a microprocessor viathe I2C serial interface. The real-time clock/calendarprovides seconds, minutes, hours, day, date, month,and year information. Pin connections:BAT: Battery voltage monitor (not used)GND: GroundVCC: 5VSDA: I2C data (connect to A4)SCL: I2C clock (connect to A5)DS: DS18B20 Temp. Sensor output (connect toD2)SQ: Square wave output (not used)For library and code example, see:http://www.hobbyist.co.nz/?q real time clockhttp://playground.arduino.cc/code/time

Real Time Clock Module (provided in some kits)The DS1302 trickle-charge timekeeping chip contains areal-time clock/calendar and 31 bytes of static RAM. Itcommunicates with a microprocessor via a simpleserial interface. The real-time clock/calendar providesseconds, minutes, hours, day, date, month, and yearinformation.For library and code example, see:http://playground.arduino.cc/Main/DS1302RTCIR Transmitter (Remote Control)Multiple tutorials are available for different remotes,use serial monitoring to identify inputs from yourremote control and use those values in your programs.For a typical setup, ntrol830-pin BreadboardPower rails run the length of each side and are colorcoded blue for negative and red for positive. Insiderows of 5 pins each are connected together, but not toeach other, and not to the power rails.Additional Resources:Several sites have hook-up and information and code examples on a variety of sensors, similar to, and including the onesfound in this kit. Some sensors may be loose components or integrated into different board designs. If the documentedsensor uses the same electronic component, then any code sketch documented may work with the sensors found inyour k

RFID Learning Kit (Contents) 1x 50K Ω Potentiometer 1x 7-seg LED 1x module 1x 7-seg LED 4x module 1x 8x8 dot LED array 1x 9v battery cable 1x Buzzer (active) 1x Buzzer (passive) 1x Flame sensor 1x IC 74HC595N 16-pin DIP 1x IR receiver 1x IR remote control 1x Joystick module 1x LED - RGB 1x LM35 Temp Sensor 1x Microphone sound sensor 1x Relay 5v 1x RFID card 1x RFID fob 1x RFID sensor 1x