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Solder Wire 0.8mm 100g COM21

11,000.00Fr 10,000.00Fr
The roll of welding wire reel is a professional accessory of welding parts, high purity and low melting point. Specifications: Material: Tin- Alloy Flux: 1.8% Wire diameter: 0.8mm Item weight: 100g size: 6*6*3.5cm Applications: Soldering

Solder Wire 0.8mm 100g COM21

11,000.00Fr 10,000.00Fr
The roll of welding wire reel is a professional accessory of welding parts, high purity and low melting point.

CD4512BE CD4512 DIP-16 IC COM26

2,600.00Fr 2,500.00Fr
Description The CD4512B is an 8-channel data selector featuring a three-state output that can interface directly with, and drive, data lines of bus-oriented systems. The CD4512B-series types are supplied in 16-lead hermetic dual-in-line ceramic packages (F3A suffix), 16-lead dual-in-line plastic packages (E suffix), 16-lead small-outline packages (M, M96, MT, and NSR suffixes), and 16-lead thin shrink small-outline packages (PW and PWR suffixes).

Color sensor TCS230 TCS3200 color Recognition Sensor Detector module DC 3-5V input for arduino COM32

5,600.00Fr
The TCS3200 Color Recognition Sensor Module uses a high-quality light sensor allowing you to sense any color through a combination of Red, Green, and Blue. The module provides all of the pins of the TCS3200 on convenient 0.1″ headers – ideal for use with PCBs, breadboard or stripboard.

Raspberry Pi 3 Model B

46,000.00Fr 44,890.00Fr
The Raspberry Pi is a wonderful little computer that fits in the palm of your hand, yet packs enough power to run your home media center, a VPN, and a lot more.The Raspberry Pi 3 Model B + is the latest product in the Raspberry Pi3 family, with a 1.4 GHz quad-core 64-bit processor, 2.4GHz and 5GHz dual-band wireless network, Bluetooth 4.2 / BLE connection, a faster Ethernet connection and the possibility of PoE connection via a separate HAT PoE .

5-inch Touch Screen for Raspberry Pi COM21

52,000.00Fr 51,890.00Fr
This is a Raspberry Pi 5 inch HDMI 800*480 resolution LCD panel with a resistive touch screen through Mini USB.

TTP223B Digital Touch Sensor Capacitive COM34

3,000.00Fr
This device uses your body as part of the circuit.  When you touch the sensor pad, the capacitance of the circuit is changed and is detected.  That detected change in capacitance results in the output changing states.

DC12V W1209 Digital Temperature Controller Module Display and NTC Waterproof Temperature Sensor COM

5,600.00Fr
DC12V W1209 Digital Temperature Controller Module Display and NTC Waterproof Temperature Sensor is low-cost 12V Temperature controller with 7-segment display and 3 switch keypad for setting temperature and other parameters. The module features an NTC thermistor temperature sensing and has an accuracy of 0.1 C.

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Color sensor TCS230 TCS3200 color Recognition Sensor Detector module DC 3-5V input for arduino COM32

The TCS3200 Color Recognition Sensor Module uses a high-quality light sensor allowing you to sense any color through a combination of Red, Green, and Blue. The module provides all of the pins of the TCS3200 on convenient 0.1″ headers – ideal for use with PCBs, breadboard or stripboard.

Specification

  1. Operating Voltage: 3V-5V
  2. High-resolution conversion of light intensity to frequency.
  3. Chip pins all has drawn for standard 100.
  4. Put the needle (2.54 mm).
  5. Mil-convenient for bitmap board.
  6. Programmable color and full-scale output frequency.
  7. Communicate directly with a microcontroller.
  8. Best Detection Range: 10mm.
The pinout is clearly labeled on the board and is as follows

Header one on the left side of the board

  • S0: Output frequency scaling selection input (along with S1)
  • S1: Output frequency scaling selection input (along with S0)
  • OE: Output Enable – if held low, the output of the module is turned on
  • GND: Ground – connect to 0V

Header two on the right side of the board

  • S3: Photodiode type (along with S2)
  • S2: Photodiode type (along with S3)
  • OUT: Output – A square wave appears here showing the intensity of the detected colour
  • VCC: Power – connect to 2.7V-5.5V

The Photodiode type pins allow you to pick which color light you are currently detecting:

S2           S3           Photodiode type
Low      Low           Only red light
Low      High          Only blue light
High     Low              No filter
High                         green light

By combining the reading of each of the three colors, you can identify any visible color!

Getting started with the Color sensor TCS230 TCS3200 color Recognition Sensor Detector module DC 3-5V input for arduino

This project is used for detecting primary colors (red, green and blue). The project demonstrates the basic interfacing of TCS3200 sensor, Arduino Uno .

Color Sensor TCS230 TCS3200 is a complete color detector, including a TAOS TCS3200 RGB sensor chip and 4 white LEDs. The TCS3200 can detect and measure a nearly limitless range of visible colors. Applications include test strip reading, sorting by color, ambient light sensing and calibration, and color matching, to name just a few.

The TCS3200 GBB Color Sensor For Arduino has an array of photo detectors, each with either a red, green, or blue filter, or no filter (clear). The filters of each color are distributed evenly throughout the array to eliminate location bias among the colors. Internal to the device is an oscillator which produces a square-wave output whose frequency is proportional to the intensity of the chosen color.

Hardware required

Connecting the Hardware

Here’s the connections between the TCSP3200 and the Arduino:

  • S0: digital pin 3
  • S1: digital pin 4
  • VCC: 5V
  • S3: digital pin 6
  • S2: digital pin 5
  • OUT: digital pin 2
  • GND:GND

Upload the sample sketch

S0, S1, S2, S3

To TCS3002D, when choose a color filter, it can allow only one particular color to get through and prevent other color. For example, when choose the red filter, Only red incident light can get through, blue and green will be prevented. So we can get the red light intensity. Similarly ,when choose other filters we can get blue or green light.

TCS3002D has four photodiode types. Red , blue, green and clear, reducing the amplitude of the incident light uniformity greatly, so that to increase the accuracy and simplify the optical. When the light project to the TCS3002D we can choose the different type of photodiode by different combinations of S2 and S3. Look at the form as follows.

S0 S1 OUTPUT FREQUENCY SCALING (fo)
L L Power down
L H 2%
H L 20%
H H 100%

TCS3002D can output the frequency of different square wave (occupies emptiescompared 50%),different color and light intensity correspond with different frequency of square wave. There is a relationship between the output and light intensity. The range of the typical output frequency is 2HZ~500KHZ. We can get different scaling factor by different combinations of S0 and S1. Look at the form as follows.

S2 S3 PHOTODIODE TYPE
L L RED
L H BLUE
H L Clear (no filter)
H H GREEN

Sample Code

int s0=3,s1=4,s2=5,s3=6;
int out=2;
int flag=0;
byte counter=0;
byte countR=0,countG=0,countB=0;
void setup()
{
Serial.begin(115200);
pinMode(s0,OUTPUT);
pinMode(s1,OUTPUT);
pinMode(s2,OUTPUT);
pinMode(s3,OUTPUT);

}
void TCS()
{
flag=0;
digitalWrite(s1,HIGH);
digitalWrite(s0,HIGH);
digitalWrite(s2,LOW);
digitalWrite(s3,LOW);
attachInterrupt(0, ISR_INTO, CHANGE);
timer0_init();

}
void ISR_INTO()
{
counter++;
}
void timer0_init(void)
{
TCCR2A=0x00;
TCCR2B=0x07; //the clock frequency source 1024 points
TCNT2= 100; //10 ms overflow again
TIMSK2 = 0x01; //allow interrupt
}
int i=0;
ISR(TIMER2_OVF_vect)//the timer 2, 10ms interrupt overflow again. Internal overflow interrupt executive function
{
TCNT2=100;
flag++;
if(flag==1)
{
countR=counter;
Serial.print(“red=”);
Serial.println(countR,DEC);
digitalWrite(s2,HIGH);
digitalWrite(s3,HIGH);
}
else if(flag==2)
{
countG=counter;
Serial.print(“green=”);
Serial.println(countG,DEC);
digitalWrite(s2,LOW);
digitalWrite(s3,HIGH);
}
else if(flag==3)
{
countB=counter;
Serial.print(“blue=”);
Serial.println(countB,DEC);
Serial.println(“\n”);
digitalWrite(s2,LOW);
digitalWrite(s3,LOW);

}
else if(flag==4)
{
flag=0;
}
counter=0;
}
void loop()
{
TCS();
while(1);
}

Result

5-inch Touch Screen for Raspberry Pi COM21

This is a Raspberry Pi 5 inch HDMI LCD  800*480 resolution LCD panel with a resistive touch screen through Mini USB. This LCD can also be used for Beaglebone Black, Banana Pi/Pro, and other Platform (the Driver Will be Updated).This LCD is also common HDMI display, the user can put it to use on other mini PC (need driver support), even as a computer monitor 5 inch LCD HDMI Touch Screen Display Module for Pi( Raspberry Pi , Banana Pi and so on )
Features

  • More than 30fps! 800×480 high resolution
  • You can use HDMI cable and MINI USB cable to connect with Raspberry pi(Raspberry Pi B+ and Raspberry Pi 2 model B) and Banana Pi
  • Driver is provided for the first & second generation Pi (works with custom Raspbian directly)
  • HDMI interface for displaying,no I/Os required (however,the touch panel still needs I/Os)
  • Back light control to lower power consumption
  • High quality immersion gold surface plating
  • Not only the Pi,you can also use it with any other Mini-PCs like Cubieboard,Marsboard (resolution is limited depending on the board,and touch panel is unavailable)

Application Notes

  • RPi LCD Image Installation Guides
  • Libraries Installation for RPi
  • You can use this LCD as general monitor

How to Connect

  • Connect this LCD to Raspberry Pi with Mini USB cable(RPI give power to LCD,and LCD’s touch screen signal to RPI )
  • Connect this LCD to Raspberry PI with HDMI cable
  • Insert TF CARD with System image
  • Connect Raspberry pi to Power with micro USB cable
  • Power on

Note: if you want to use this LCD as general monitor, the mini USB port is used for power supply,you just connect HDMI to any device(with LCD power by mini port)

Raspberry Pi 3 Model B

The Raspberry Pi 3 Model B + is the latest product in the Raspberry Pi3 family, with a 1.4 GHz quad-core 64-bit processor, 2.4GHz and 5GHz dual-band wireless network, Bluetooth 4.2 / BLE connection, a faster Ethernet connection and the possibility of PoE connection via a separate HAT PoE .

The Raspberry Pi 3 Model B + retains the same mechanical footprint as the Raspberry Pi 2 Model B and the Raspberry Pi 3 Model B.

Characteristics :

  • Processor: Broadcom BCM2837B0, Cortex-A53 64-bit SoC @ 1.4GHz
  • Memory: 1GB LPDDR2 SDRAM
  • 2.4GHz and 5GHz IEEE 802.11.b / g / n / ac wireless LAN, Bluetooth 4.2, BLE
  • Gigabit Ethernet USB 2.0 (300 Mbps)
  • 4 × USB 2.0 ports
  • GPIO: 40 PIN GPIO
  • Video and sound:
  • HDMI output
  • MIDI DSI port screen
  • MIPI CSI camera port
  • 4 stereo Output output and composite video port
  • Multimedia: H.264, MPEG-4 decode (1080p30); H.264 encode (1080p30); OpenGL ES 1.1, 2.0 graphics
  • SD card support: Micro SD format for loading the distribution and data backup
  • 5V / 2.5A DC connector via Micro USB connector
  • Power via the GPIO Header
  • Via Power Over Ethernet (POE) – Plan acquisition of the POE HAT board to connect the POI
  • Operating temperature: between 0 ° C and 50 ° C

Driver installation link: http://www.lcdwiki.com/3.5inch_RPi_Display

TTP223B Digital Touch Sensor Capacitive COM34

Digital Capacitive Touch Switch Module is based on TTP223B. Normally, it outputs low and keeps at low power state. When a touch is sensed on the circular marked region, it outputs high and switches to the quick response state. When not being touched for 12 seconds, it switches to low power state again.
Touch Sensor Interface :
  1. Control Interface: A total of three pins (GND, VCC, SIG), GND to the ground, VCC is the power supply, SIG digital signal output pin
  2. Power Indicator: Green LED, power on the right that is shiny
  3. Touch area: Similar to a fingerprint icon inside the area, you can touch the trigger finger.
  4. Positioning holes: 4 M2 screws positioning hole diameter is 2.2mm, the positioning of the module is easy to install, to achieve inter-module combination.

SPECIFICATION

Operating Voltage(VDC) 2 to 5.5
Output high VOH 0.8VCC V
Output low VOL 0.3VCC V
Response time (touch mode) 60 mS
Response time (low power mode) 220 mS
Length (mm) 24
Width (mm) 24
Height (mm) 2
Weight (gm) 0.6

Features :

  1. Low power consumption
  2. Power supply for 2 ~ 5.5V DC
  3. Can replace the traditional touch of a button
  4. Four M2 screws positioning holes for easy installation
  5. Output Pin Sink Current (@ VCC = 3V, VOL = 0.6V) : 8 mA
  6. Output pin pull-up current (@ VCC = 3V, VOH = 2.4V) : 4 mA

Getting started with the TTP223B Digital Touch Sensor Capacitive

This example shows below an output to your serial monitor indicating whether or not the sensor is pressed or touched.

Hardware required

  • Arduino Uno
  • Digital Touch sensor
  • Jumper wires

Connecting the Hardware

This is a real simple set up.  You will know that you have power properly applied when the green LED is on.

Upload the sample sketch

The sketch below provides an output to your serial monitor indicating whether or not the sensor is pressed.

// Capacitive Touch Sensor Tutorial

// When Sig Output is high, touch sensor is being pressed
#define ctsPin 2 // Pin for capactitive touch sensor

int ledPin = 13; // pin for the LED

void setup() {
Serial.begin(9600);
pinMode(ledPin, OUTPUT);
pinMode(ctsPin, INPUT);
}

void loop() {
int ctsValue = digitalRead(ctsPin);
if (ctsValue == HIGH){
digitalWrite(ledPin, HIGH);
Serial.println(“TOUCHED”);
}
else{
digitalWrite(ledPin,LOW);
Serial.println(“not touched”);
}
delay(500);

}

Testing the circuit

Once you’ve uploaded the sketch, open your serial monitor.   Touch the sensor pad while looking at the monitor.   You should see an output that looks something like the picture below.

 

 

DC12V W1209 Digital Temperature Controller Module Display and NTC Waterproof Temperature Sensor COM

DC12V W1209 Digital Temperature Controller Module Display and NTC Waterproof Temperature Sensor is low-cost 12V Temperature controller with 7-segment display and 3 switch keypad for setting temperature and other parameters. The module features an NTC thermistor temperature sensing and has an accuracy of 0.1 C.

The W1209 12V Digital Temperature Controller Module W/ display and NTC Waterproof Temperature Sensor is an incredibly low cost yet highly functional thermostat controller. With this module, you can intelligently control power to most types of electrical device based on the temperature sensed by the included high accuracy NTC temperature sensor.

Although this module has an embedded microcontroller no programming knowledge is required. 3 tactile switches allow for configuring various parameters including on & off trigger temperatures. The onboard relay can switch up to a maximum of 240V AC at 5A or 14V DC at 10A. 

The current temperature is displayed in degrees Centigrade via its 3 digit seven segment display and the current relay state by an onboard LED.

Description:
Temperature range:-50°C-110 °C
PT100 Cable Length: 30cm
Dimensions: 48.5 * 40mm
Temperature control mode: ON / OFF
Control accuracy: 0.1 °C
Hysteresis accuracy: 0.1°C
Refresh rate: 0.5S
Supply voltage: DC 12V
Output voltage: DC 12V
Output power: 20A relay

Accuracy: 0.1°C

Measuring Inputs: NTC10K

Output Type: 1 Channel Relay Output

How to use:

Displaying the current temperature

The thermostat will display the current temperature in °C by default. When in any other mode making no input for approximately 5 seconds will cause the thermostat to return to this default display.

Setting the trigger temperature

To set the trigger temperature press the button marked ‘SET’. The seven segment display will flash. You can now set a trigger temperature (in °C) using the ‘+’ and ‘-‘ buttons in 0.1° increments. If no buttons are pressed for approximately 2 seconds the trigger temperature will be stored and the display will return back to the current temperature.

Setting the parameters

To set any parameter first long press the ‘SET’ button for at least 5 seconds. The seven segment display should now display ‘P0’. This represents parameter P0. Pressing the ‘+’ or ‘-‘ buttons will cycle through the various parameters (P0 to P6). Pressing the ‘SET’ button whilst any of these parameters are displayed will allow you to change the value for that parameter using the ‘+’ and ‘-‘ buttons. When finished setting a parameter press the set button to exit that option. If no buttons are pressed for approximately 5 seconds the thermostat will exit the parameter options and will return back to the default temperature display.

Setting the cooling or heating parameter P0

The parameter P0 has two settings, C and H. When setting to C (default) the relay will energize when the temperature is reached. Use this setting if connecting to an air-conditioning system. When set to H the relay will de-energize when the temperature is reached. Use this setting if controlling a heating device.

Setting the hysteresis parameter P1

This sets how much change in temperature must occur before the relay will change state. For example, if set to the default 2oC and the trigger temperature has been set to 25oC, it will not de-energize until the temperature falls back below 23oC. Setting this hysteresis helps stop the thermostat from continually triggering when the temperature drifts around the trip temperature.

Setting the upper limit of the thermostat parameter P2

This parameter limits the maximum trigger temperature that can be set. It can be used as a safety to stop an excessively high trigger temperature from accidentally being set by the user.

Setting the lower limit of the thermostat parameter P3

This parameter limits the minimum trigger temperature that can be set. It can be used as a safety to stop an excessively low trigger temperature from accidentally being set by the user.

Setting temperature offset correction parameter P4

Should you find there is a difference between the displayed temperature and the actual temperature (for instance, if the temperature probe is on a long run of cable) you can make minor corrections to the temperature reading with this parameter.

Setting the trigger delay parameter P5

This parameter allows for delaying switching of the relay when the trigger temperature has been reached. The parameter can be set in one-minute increments up to a maximum of 10 minutes.

Setting the high-temperature alarm parameter P6

Setting a value for this parameter will cause the relay to switch off when the temperature reaches this setting. The seven segment display will also show ‘—‘ to indicate an alarm condition. The relay will not re-energize until the temperature falls below this value. The default setting is OFF.

Note: Relay output interface is a switch, when it working ,these two ports are connected,
If not work, these two ports are not connected.

APPLICATION :
  1. To measure and display temperature
  2. To Turn any application ON/OFF based on temperature reading . (Both AC and DC)
  3. Example Project :- A.Fire alarm system . B. Auto cut off Electric Water Heater

9-Axis Attitude Gyro Accelerator Magnetometer Sensor Module GY-9250 BRD35

The MPU-9250 is a 9-axis motion tracking device that combines a 3-axis gyroscope, 3-axis accelerometer, 3-axis magnetometer and a Digital Motion Processor™ (DMP) all in a small board available as a pin-compatible upgrade from the MPU-6515. With its dedicated I2C sensor bus, the MPU-9250 directly provides complete 9-axis MotionFusion™ output. The MPU-9250 MotionTracking device, with its 9-axis integration, on-chip MotionFusion™, and run-time calibration firmware, enables manufacturers to eliminate the costly and complex selection, qualification, and system level integration of discrete devices, guaranteeing optimal motion performance for consumers. MPU-9250 is also designed to interface with multiple non-inertial digital sensors, such as pressure sensors, on its auxiliary I2C port.

Applications

  • TouchAnywhere™ technology (for “no touch” UI Application Control/Navigation)
  • MotionCommand™ technology (for Gesture Short-cuts)
  • Motion-enabled game and application framework
  • Location based services, points of interest, and dead reckoning
  • Handset and portable gaming
  • Motion-based game controllers
  • 3D remote controls for Internet connected DTVs and set top boxes, 3D mice
  • Wearable sensors for health, fitness and sports

Features

  • Three 16-bit analog-to-digital converters (ADCs) for digitizing the gyroscope outputs
  • Three 16-bit ADCs for digitizing the accelerometer outputs
  • Three 16-bit ADCs for digitizing the magnetometer outputs
  • Gyroscope full-scale range of ±250, ±500, ±1000, and ±2000°/sec (dps)
  • Accelerometer full-scale range of ±2g, ±4g, ±8g, and ±16g
  • Magnetometer full-scale range of ±4800μT
  • I2C and SPI serial interfaces
  • I2C Address: 0x68 by default, 0x69 if AD0 is pulled high

Specifications

  • Power supply: DC 3.3V
  • Working current: 3.5mA
  • Sleeping current: 8uA
  • 3-Axis Accelerometer
    • Range: up to ± 16 g
    • Sensitivity: up to 16,384 LSB/g
  • 3-Axis Gyroscope
    • Range: up to ± 2000 deg/sec
    • Sensitivity: up to 131 LSB/deg/sec
  • 3-Axis Magnetometer
    • Range: ± 4800 µT
    • Sensitivity: 0.6 µT/LSB
  • 2.54mm pin spacing
  • Module size 15mm X 25mm

Getting started with 9-Axis Attitude Gyro Accelerator Magnetometer GY-9250 and Arduino UNO

Step1: Hardware required

Step2: Connecting the Hardware

GY-9250                                                                                Arduino UNO

VCC                                        Connected to                                  3.3v

GND                                       Connected to                                  GND

SCL                                         Connected to                                  A5

SDA                                        Connected to                                  A4

Step3: Making the sketch and Testing

To test the Arduino MPU 9250, first download the Arduino library for MPU 9250, you can find it here Next, you have to unzip/extract this library, take the folder named “MPU9250”, and paste it inside the Arduino’s “library” folder. To do this, go to the location where you have installed Arduino (Arduino –> libraries) and paste it inside the libraries folder.

If you have done this correctly, when you open the Arduino IDE, you can see “MPU9250” in File –> Examples. Next, open the example program from File –> Examples –> MPU9250 –> Simple

Arduino uno R3 BRD41

Description

Arduino is an open-source electronics prototyping platform based on flexible, easy-to-use hardware and software. It’s intended for artists, designers, hobbyists, and anyone interested in creating interactive objects or environments.
Arduino can sense the environment by receiving input from a variety of sensors and can affect its surroundings by controlling lights, motors, and other actuators. The microcontroller on the board is programmed using the Arduino programming language (based on Wiring) and the Arduino development environment (based on Processing). Arduino projects can be stand-alone or they can communicate with software running on a computer (e.g. Flash, Processing, Max/MSP).

Features:

  • Microcontroller: ATmega328
  • Operating Voltage : 5V
  • Input Voltage (recommended): 7-12V
  • Input Voltage (limits): 6-20V
  • Digital I/O Pins : 14 (of which 6 provide PWM output)
  • Analog Input Pins: 6
  • DC Current per I/O Pin: 40 mA
  • DC Current for 3.3V Pin: 50 mA
  • Flash Memory: 32 KB (ATmega328) of which 0.5 KB used by bootloader
  • SRAM : 2 KB (ATmega328)
  • EEPROM: 1 KB (ATmega328)
  • Clock Speed: 16 MHz

Resources

Arduino IDE download

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