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Description |
Downloads |
Specs |
Ordering |
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Z6391A |
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- 3 magnetic field channels and 3 acceleration channels
- From ±1.3 to ±8.1 gauss magnetic field full scale
- ±2g/±4g/±8g/±16g linear acceleration full scale
- 16-bit data output
- I2C serial interface
- Analog supply voltage 2.16 V to 3.6 V
- Power-down mode / low-power mode
- 2 independent programmable interrupt generators for free-fall and motion detection
- Embedded temperature sensor
- Embedded FIFO
- 6D/4D-orientation detection
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Add the power of orientation to your next project with this triple-axis accelerometer/magnetometer compass module. |
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Z6392 |
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- Weight: 9 g
- Dimension: 22.2 x 11.8 x 31 mm approx.
- Stall Torque: 1.8 kgf·cm
- Operating Speed: 0.1 s/60 degree
- Operating Voltage: 4.8 V (~5V)
- Dead Band Width: 10 μs
- Temperature Range: 0ºC – 55ºC
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This tiny and lightweight servo can rotate approximately 180 degrees (90 in each direction), and works just like the standard servo. You can use any servo code, hardware or library to control these servos. |
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Z6393 |
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- No-Load Speed (4.8V): 0.12±0.01 sec/60
- No-Load Speed (6V): 0.11±0.01 sec/60
- No-Load Current (4.8V): 220±20mA
- No-Load Current (6V): 250±20mA
- Stop Torque (4.8V): 7kg±0.1kg·cm
- Stop Torque (6V): 9kg±0.1kg·cm
- Stop Current (4.8V): ≦2200±30mA
- Stop Current (6V): ≦3000ma
- Stand-by Current: 4±1mA
- Wire Length: 300mm
- GearType: 4 grade plastic gear + metal motor teeth
- Rudder Specifications: 25T
- Rudder Type: One-word rocker arm cross arm disc flower arm
- Control System: Change pulse width
- Amplifier Type: Analog controller
- Operating Angle: 360°
- Angle Difference Between The Two Sides: ≤ 3°
- Back To Difference: ≤ 1°
- Neutral Position: 1500 μsec
- Impulse Signal: ≤ 5 μsec
- Turn Around: Clockwise (in 1500→1000 μsec)
- Pulse Width Range: 800→2200 μsec
- Physical Dimension: 40.5 x 20 x 41mm
- Weight: 42g
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This tiny and lightweight servo can rotate 360 degrees, and works just like the standard servo. You can use any servo code, hardware or library to control these servos. |
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Z6394 |
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Add fingerprint authentication to your access control project. This device can store up to 20 individual prints via 360° recognition. |
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Z6395 |
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Utilises the BMP180 sensor for accurate air pressure measurement from 300-1100hPa. (+9000m to -500m). 1.8V to 6V supply voltage. |
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Z6396 |
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A non-contact normally open switch which operates via a nearby magnetic field. Connects to a digital input on an Arduino board. |
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Z6397 |
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- Input: 3-5V
- Output: 0-1V
- Response Wavelength: 200nm-370nm
- Size: 28 x 12 x 10mm.
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Ideal for projects requiring UV level monitoring. 3-5V input. 0-1V output. 200nm-370nm response wavelength. Size: 28 x 12 x 10mm. |
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Z6398 |
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A mini breakout board for generating sound from your Arduino. 5V input. |
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Z6399 |
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A USB adaptor for the ESP8266 Wi-Fi module allowing you to add 802.11b/g/n Wi-Fi to almost any USB equipped device. |
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Z6407 |
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- Electrical Specifications
- Supply Voltage: 8-26V DC
- Recommended Power Supply Current: 2A
- Output Power: 2x30W (@16V, 8RΩ)
- Size: 53mm x 45mm
- Audio Output
- Terminal: Speaker/s
- Impedance: 4 Ohms, 8 Ohms
- Recommended Power: 10W-20W
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The TPA3110 chip on board this amplifier module provides a high output, lower power consumption audio solution with great audio quality too. |
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Z6409 |
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- Electrical Specifications
- Supply Voltage: 8-26V DC
- Recommended Power Supply Current: 2A
- Output Power: 2x30W (@16V, 8RΩ)
- Size: 53mm x 45mm
- Audio Output
- Terminal: Speaker/s
- Impedance: 4 Ohms, 8 Ohms
- Recommended Power: 10W-20W
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The TPA3110 chip on board this amplifier module provides a high output, lower power consumption audio solution with great audio quality too. |
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Z6413 |
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A prototyping HAT that fits inside a Raspberry Pi case!
Soldermasked 0.1" holes, plus 28 SMD IC area. Includes 40 pin header (unsoldered). Slots included for display & camera cables. |
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Z6415 |
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- Quad-core 64 bit processor
- 4GB LPDDR4-3200 DRAM
- Wireless networking 802.11b/g/n/ac
- 2x USB 3.0 and 1x USB 2.0 ports
- Bluetooth 5.0
- Dual display output
- 4K video playback
- Ideal for surfing the web, creating and editing documents and learning to program with Raspberry Pi OS Desktop.
- Full 40 pin GPIO header on rear.
- Micro SD card slot
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The Raspberry Pi 400 is a complete computer built into a keyboard case. It’s neat, portable design makes it ideal for education environments. With all the same features as the Raspberry Pi 4, it’s a powerful computing platform for work, education and play! Rear panel provides access to all ports including the GPIO header. This is a standalone versi |
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Z6419 |
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- Breaks out each Pico pin, with handy labels
- Take your project on the go with on-board LiPo battery charging.
- PiicoDev connector, compatible with Qwiic and STEMMA QT (3.3V only)
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The PiicoDev Expansion Board for Raspberry Pi Pico is a great way to start experimenting with Raspberry Pi Pico/RP2040. Use the on-board PiicoDev connector to quickly and easily connect with the PiicoDev family of sensor modules without soldering. |
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Z6421 |
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- Ultra compact form factor
- Dual core ARM Cortex M0+ processor
- Two SPI controllers
- Two I2C controllers
- 16 PWM channels
- 26 multifunction GPIO pins
- Three analogue inputs
- On board USB controller
- In-built temperature sensor
- Castellated module allows soldering direct to carrier boards
- Drag-and-drop programming using mass storage over USB
- Low-power sleep and dormant modes
- Accurate on-chip clock
- Accelerated integer and floating-point libraries on-chip
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Raspberry Pi Pico is a tiny, fast, and versatile board built using RP2040, a brand new microcontroller chip designed by Raspberry Pi in the UK. From controlling appliances to operating a light display, Raspberry Pi Pico puts the technology that underpins countless everyday operations into your hands. |
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Z6421B NEW
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- RP2040 microcontroller chip designed by Raspberry Pi in the United Kingdom
- Dual-core ARM Cortex M0 processor, flexible clock running up to 133 MHz
- 264kB of SRAM, and 2MB of on-board Flash memory
- Castellated module allows soldering direct to carrier boards
- USB 1.1 Host and Device support
- Low-power sleep and dormant modes
- Drag & drop programming using mass storage over USB
- 26 multi-function GPIO pins
- 2×SPI, 2×I2C, 2×UART, 3×12-bit ADC, 16×controllable PWM channels
- Accurate clock and timer on-chip
- Temperature sensor
- Accelerated floating point libraries on-chip
- 8×Programmable IO (PIO) state machines for custom peripheral support
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Raspberry Pi Pico is a tiny, fast, and versatile board built using RP2040, a brand new microcontroller chip designed by Raspberry Pi in the UK. |
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Z6422 |
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- Dimensions: 55L x 46W x 19Hmm
- Minimum Operating Temperature: -40°C
- Maximum Operating Temperature: 85°C
- Pin Pitch: 2.54mm
- Logic Level Voltage: 5V
- Input DC Voltage: 5V
- Mounting Hole Size: M3
- Mounting Dimensions: 40/38mm
- Type: Electromechanical
- Channels: 2
- AC Rating: 10A 250V a.c.
- DC Rating: 10A 30V d.c.
- Format: TTL Voltage
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This 5V relay module is suitable for integration with many types of micro control systems, including Arduino. Ideal for home appliance control. The module is perfect for common Arduino applications. |
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Z6423 |
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- Sony IMX477R stacked, back-illuminated sensor, 12.3 megapixels, 7.9 mm sensor diagonal, 1.55 μm × 1.55 μm pixel size
- Ouput: RAW12/10/8, COMP8
- Back focus: Adjustable (12.5 mm–22.4 mm)
- Lens standards: C-mount, CS-mount (C-CS adapter included)
- IR cut filter: Integrated
- Ribbon cable length: 200 mm
- Tripod mount: 1/4”-20
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The latest Raspberry Pi camera now with support for C/CS mount lenses so you can set your camera to whichever focal length you desire. 12.3 megapixel Sony® sensor. Ideal for home surveillance and monitoring projects. |
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Z6424 |
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- RP2040 microcontroller chip designed by Raspberry Pi in the United Kingdom
- Dual-core Arm Cortex M0+ processor, flexible clock running up to 133 MHz
- 264KB of SRAM, and 2MB of on-board Flash memory
- USB 1.1 with device and host support
- Low-power sleep and dormant modes
- Drag-and-drop programming using mass storage over USB
- 26 × multi-function GPIO pins
- 2 × SPI, 2 × I2C, 2 × UART, 3 × 12-bit ADC, 16 × controllable PWM channels
- Accurate clock and timer on-chip
- Temperature sensor
- Accelerated floating-point libraries on-chip
- 8 × Programmable I/O (PIO) state machines for custom peripheral support
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The Raspberry Pi Pico W is perfect for IoT and wireless projects, better still, it's such an affordable 32-bit microcontroller that is packed with peripheries including WiFi. |
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Z6425 |
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Allows you to power the Raspberry Pi 3 Model B+ over ethernet. Great for remote IoT applications or any project where getting power to the location is difficult. |
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Z6425A |
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- Fan Control
- Built in current sensor
- Built in brushless fan
- Fully isolated power supply
- 4 x spacers included
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Enables simultaneous communication with the LAN network and power supply of the Raspberry Pi board. |
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Z6426 |
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- Supports standard frame, extended frame of transmission and reception; support two receiving methods: Polling and interrupt
- Provide various interfaces, such as U-Art, I2C, DB9 connector, etc.
- Support SD card data storage
- Support power supply via Arduino motherboard or DB9 connector (Pin 9 = VIN (voltage in), Pin 6 = GND)
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The onboard BUS control chip can realize the data control on the CAN bus and data communication between devices. |
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Z6427 |
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A handy Wi-Fi activated relay module for Arduino and other development applications. |
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Z6428 |
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- Low-noise analog signal path.
- 5µs output rise time in response to step input current.
- 50 kHz bandwidth.
- Total output error 1.5% at TA= 25°C, and 4% at –40°C to 85°C.
- Small footprint, low-profile SOIC8 package.
- 1.2 mΩ internal conductor resistance.
- 2.1 kV RMS minimum isolation voltage from pins 1-4 to pins 5-8.
- 5.0 V, single supply operation.
- 66 to 185 mV/A output sensitivity.
- Output voltage proportional to AC or DC currents.
- Extremely stable output offset voltage.
- Nearly zero magnetic hysteresis.
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A fully Integrated, Hall Effect-Based Linear AC/DC Current Sensor with a 5A rating. Typical applications include motor control, load detection and management, switch-mode power supplies, and over current protection Arduino projects. |
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Z6429 |
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- Low-noise analog signal path.
- 5µs output rise time in response to step input current.
- 50 kHz bandwidth.
- Total output error 1.5% at TA= 25°C, and 4% at –40°C to 85°C.
- Small footprint, low-profile SOIC8 package.
- 1.2 mΩ internal conductor resistance.
- 2.1 kV RMS minimum isolation voltage from pins 1-4 to pins 5-8.
- 5.0 V, single supply operation.
- 66 to 185 mV/A output sensitivity.
- Output voltage proportional to AC or DC currents.
- Factory-trimmed for accuracy.
- Extremely stable output offset voltage.
- Nearly zero magnetic hysteresis.
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A fully Integrated, Hall Effect-Based Linear AC/DC Current Sensor with a 30A rating. Typical applications include motor control, load detection and management, switch-mode power supplies, and over current protection Arduino projects. |
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Z6430 |
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- Touch IC: Resurgent Semiconductor MPR121
- Audio Output: 15mW into 32Ω via 3.5mm stereo socket
- Input Voltage: 3.3V (via 40-way Raspberry Pi GPIO connector)
- Input Current: 17mA idle, 36mA with all features in concurrent use.
- Capacitive Touch Electrodes: 12 (of which 8 can be configured as 3.3V digital I/O)
- Digital I/O Pins: 7, brought out from 40-way Raspberry Pi GPIO connector – pins 12, 13, 15, 16, 18, 22, 36
- Push Switch: Active low momentary push switch connected to pin 7 on the 40-way Raspberry Pi GPIO connector (requires the Pi's onboard pull up resistor to be enabled in software)
- Active low, red connected to J8.31 (5mA when on), green to J8.29 (1mA when on), blue to J8.37 (4mA when on)
- Prototyping Area: 84 pads (7 x 12) with 1mm diameter drills spaced 2.54mm apart.
- Dimensions: 85 x 40 x 7mm
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The Pi Cap is an addon board for the Raspberry Pi A+, B+, 2 B, 3 B and Zero. It features a dedicated capacitive sensing IC, 3.5mm stereo audio output, push switch, RGB LED and prototyping area |
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Z6431 |
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A compact Bluetooth LE module with built in antenna and on board U.FL socket. I2C/SPI serial interface standard output. Ideal DIY projects for mobile devices, game controllers, intelligent appliances etc. |
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Z6433 NEW
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- XTensa dual-core 32-bit LX7 CPU, frequency up to 240MHz
- 2.4 GHz Wi-Fi, EEE 802.11 b/g/n-compliant
- Bluetooth, LE: Bluetooth 5, Bluetooth mesh
- 16 MByte(64Mbit) SPI Flash
- 384 KByte ROM
- 512 KByte SRAM
- 8 MByte(64Mbit) SPI PSRAM
- 16 KB SRAM in RTC
- Communication Interfaces: 2 x I2C, 2 x I2S, 4 x SPI, 3 x UART, 1 x USB OTG
- Security: 4096 bit OTP, AES, SHA, RSA, ECC and RNG, Secure boot, Flash encryption, Digital signature, HMAC module
- Dual Type-C USB connectors
- Reset and User/Firmware buttons
- RGB WS2812 User LED
- Power LED
- Virtual USB port provided by CP2102 for debugging and firmware upgrade
- Compact size of 50.1 x 13mm
- Supply Voltage: 5V via USB
- Circuit Voltage: 3.0 to 3.6V Circuit Operation
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The ESP32-S3 development board is assembled with an original ESP32-S3-WROOM-1 module from Espressif, with 16MB Flash and 8MB PSRAM(ESP32-S3-WROOM-1-N16R8). It is a general-purpose Wi-Fi + Bluetooth® LE MCU module that integrates complete Wi-Fi and Bluetooth LE functions. |
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Z6434 NEW
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- RP2040 microcontroller chip designed by Raspberry Pi in the United Kingdom
- Dual-core Arm Cortex M0+ processor, flexible clock running up to 133 MHz
- 264KB of SRAM, and 2MB of on-board Flash memory
- USB-C connector, keeps it up to date, easier to use
- The castellated module allows soldering directly to carrier boards
- USB 1.1 with device and host support
- Low-power sleep and dormant modes
- Drag-and-drop programming using mass storage over USB
- 29 × multi-function GPIO pins (20× via edge pinout, others via solder points)
- 2 × SPI, 2 × I2C, 2 × UART, 4 × 12-bit ADC, 16 × controllable PWM channels
- Accurate clock and timer on-chip
- Temperature sensor
- Accelerated floating-point libraries on-chip
- 8 × Programmable I/O (PIO) state machines for custom peripheral support
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The RP2040-Zero, is a low-cost, high-performance Pico-like MCU board based on Raspberry Pi RP2040 microcontroller. 29 × multi-function GPIO pins. Configurable pin function, allows flexible development and integration. |
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Z6435 |
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- Microcontroller Atmel ATmega32U4
- Touch IC Resurgent Semiconductor MPR121
- MP3 decoder IC VLSI Solution VS1053b
- Audio output 15mW into 32Ω via 3.5mm stereo socket
- Removable storage up to 32GB via micro SD card
- Input voltage 3.0V DC – 5.5V DC
- Operating voltage 5V DC
- Max. output current (5V rail) 400mA (100mA at startup)
- Max. output current (3.3V rail) 300mA
- LiPo cell connector 2-way JST PH series - pin 1 +ve, pin 2 -ve
- LiPo charge current 200mA
- Capacitive touch electrodes 12 (of which 8 can be configured as digital I/O)
- Digital I/O Pins 20 (of which 3 are used for the MPR121 and 5 are used for the VS1053b — the latter can be unlinked via solder blobs)
- PWM channels 7 (shared with digital I/O pins)
- Analogue input channels 12 (shared with digital I/O pins)
- Flash memory 32 kB (ATmega32U4) of which 4kB used by boot loader
- SRAM 2.5kB (ATmega32U4)
- EEPROM 1kB (ATmega32U4)
- Clock speed 16MHz (ATmega32U4), 12.288MHz (VS1053b)
- DC current per I/O pin 40mA sink and source (ATmega32U4), 12mA source / 1.2mA sink (MPR121)
- Analogue input resistance 100MΩ typical (ATmega32U4)
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The Touch Board is a microcontroller board with dedicated capacitive touch and MP3 decoder ICs. It has a headphone socket and micro SD card holder (for file storage), as well as having 12 capacitive touch electrodes. It is based around the ATmega32U4 and runs at 16MHz from 5V. It has a micro USB connector, a JST connector for an external lithium po |
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Z6439A |
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- On board speaker
- MEMs Microphone with LED indicator
- Touch sensitive logo
- Built-in sleep/off mode that means the board can be powered-down with batteries connected
- Discrete regulator that can supply up to 190mA of current to external accessories
- 25 Programmable LEDs in a 5 x 5 grid
- 3-axis motion sensing
- On-board magnetometer
- On-board temperature sensor
- On-board light level sensing
- 2 x programmable buttons, A & B
- BLE Bluetooth 5.0
- 2.4Ghz Micro:bit Radio
- Rear-mounted push button
- Power off (push and hold power button)
- 25 pins
- MEMS microphone and LED indicator
- Onboard speaker
- Touch-sensitive logo pin
- LED power indicator
- C++, MakeCode, Python, Scratch
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The Micro:bit is easy to code with, all you need is your web browser and a micro USB cable and you are ready to start all kinds of exciting STEM/STEAM experiments, no need for any extra software to be installed. Micro:bit has also developed a mobile app for coding over Bluetooth (without a USB cable), that makes it even easier to get everyone codin |
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Z6439B NEW
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- On board speaker
- MEMs Microphone with LED indicator
- Touch sensitive logo
- Built-in sleep/off mode that means the board can be powered-down with batteries connected
- Discrete regulator that can supply up to 190mA of current to external accessories
- 25 Programmable LEDs in a 5 x 5 grid
- 3-axis motion sensing
- On-board magnetometer
- On-board temperature sensor
- On-board light level sensing
- 2 x programmable buttons, A & B
- BLE Bluetooth 5.0
- 2.4Ghz Micro:bit Radio
- Rear-mounted push button
- Power off (push and hold power button)
- 25 pins
- MEMS microphone and LED indicator
- Onboard speaker
- Touch-sensitive logo pin
- LED power indicator
- C++, MakeCode, Python, Scratch
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The Micro:bit is easy to code with, all you need is your web browser and a micro USB cable and you are ready to start all kinds of exciting STEM/STEAM experiments, no need for any extra software to be installed. Micro:bit has also developed a mobile app for coding over Bluetooth (without a USB cable), that makes it even easier to get everyone codin |
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Z6440A |
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- On board speaker
- MEMs Microphone with LED indicator
- Touch sensitive logo
- Built-in sleep/off mode that means the board can be powered-down with batteries connected
- Discrete regulator that can supply up to 190mA of current to external accessories
- 25 Programmable LEDs in a 5 x 5 grid
- 3-axis motion sensing
- On-board magnetometer
- On-board temperature sensor
- On-board light level sensing
- 2 x programmable buttons, A & B
- BLE Bluetooth 5.0
- 2.4Ghz Micro:bit Radio
- Rear-mounted push button
- Power off (push and hold power button)
- 25 pins
- MEMS microphone and LED indicator
- Onboard speaker
- Touch-sensitive logo pin
- LED power indicator
- C++, MakeCode, Python, Scratch
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The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile. |
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Z6440B NEW
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- On board speaker
- MEMs Microphone with LED indicator
- Touch sensitive logo
- Built-in sleep/off mode that means the board can be powered-down with batteries connected
- Discrete regulator that can supply up to 190mA of current to external accessories
- 25 Programmable LEDs in a 5 x 5 grid
- 3-axis motion sensing
- On-board magnetometer
- On-board temperature sensor
- On-board light level sensing
- 2 x programmable buttons, A & B
- BLE Bluetooth 5.0
- 2.4Ghz Micro:bit Radio
- Rear-mounted push button
- Power off (push and hold power button)
- 25 pins
- MEMS microphone and LED indicator
- Onboard speaker
- Touch-sensitive logo pin
- LED power indicator
- C++, MakeCode, Python, Scratch
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The Micro:bit go kit is easy to code with, all you need is your web browser and a micro USB cable and you are ready to start all kinds of exciting STEM/STEAM experiments, no need for any extra software to be installed. Kit includes USB cable, batteries and battery holder. |
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Z6441 |
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- 11 digital input/output pins, all pins have interrupt/pwm/I2C/one-wire supported(except D0)
- 1 analog input(3.2V max input)
- a Micro USB connection
- Compatible with MicroPython, Arduino, nodemcu
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This USB WiFi module is a complete and self-contained WiFi network solution that can operate independently or as a slave on other host MCUs. It can be booted directly from an external flash when it is powered by an application and is the only application processor in the device. The built-in cache helps improve system performance and reduce memory |
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Z6442 |
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- Drive 2 DC motors with speed and direction control
- Drive 1 stepper motor
- 5 – 35V motor voltage range
- 2.5A peak current per channel (2A continuous)
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Uses an L298N H-Bridge designed to drive inductive loads, such as relays, solenoids, DC and stepping motors. It can also drive two independent DC motors or 1 stepper motor at 2A continuous current per channel. Standard Arduino shield dimensions with analog and digital output headers. 5V input. |
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Z6444 |
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- Very small micro size (22.8×12.2×28.5mm)
- Fairly strong, can lift 1.75kg positioned 1 cm from centre of shaft
- 180 degree rotation
- Sturdy metal gears
- Analog drive
- Operating voltage: 4.8 to 6V.
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This servo motor is a micro size 180 degree analog servo with metal gears and robust construction. This motor works well for basic servo experimentation and can be used in applications where small size is a virtue and that don't require a huge amount of torque, but they are still pretty strong. |
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Z6452 |
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- Manual control, line tracking or obstacle avoidance modes
- Bluetooth control
- 6x AAA or 2x 18650 lithium powered
- Easy modular wiring
- Block programming via Scratch software
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STEM bot is an easy to program 2 wheel obstacle avoidance and line tracking robot. Coding your program is easy using the standard Arduino software. Wiring and construction has been designed to be as simple as possible. |
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Z6455 |
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- Operating Voltage: 3.3 V
- Pressure Range: 300-1100 hPa (equivalent to +9000 to -500m above / below sea level)
- Temperature Range: -40 to +85°C
- PCB Size: 15.5 x 11.5 mm
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Introducing the new BME280 sensor, an environmental sensor with temperature, barometric pressure and humidity! |
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Z6457 |
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In this kit, we provide the hardware of the DIY game console. You can design your own game code, upload and play! |
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Z6459 |
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Connects to a 16x2 LCD module allowing you to drive the screen from just 2 IO pins on an Arduino development board. 5V input. Supports I2C protocol. |
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Z6460 |
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- The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile.
- It’s super easy to use, and ready to get started out-of-the-box, with a choice of coding editors for all abilities available in multiple languages. The extensive wireless and sensor features mean the micro:bit can be used across the school, including subjects such as science, design, maths, music, art and computing.
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This adaptor shield allows you to breakout all pins on the BBC micro:bit and plug it directly into a breadboard for designing. |
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Z6461 |
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- The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile.
- It’s super easy to use, and ready to get started out-of-the-box, with a choice of coding editors for all abilities available in multiple languages. The extensive wireless and sensor features mean the micro:bit can be used across the school, including subjects such as science, design, maths, music, art and computing.
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Features an adhesive breadboard, plus matching solder masked PCB holes underneath for when you want to solder down your design. All micro:bit pins broken out to headers. |
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Z6462 |
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- The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile.
- It’s super easy to use, and ready to get started out-of-the-box, with a choice of coding editors for all abilities available in multiple languages. The extensive wireless and sensor features mean the micro:bit can be used across the school, including subjects such as science, design, maths, music, art and computing.
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This control board features 4 x 3A 120V AC/24V DC rated relays for building in device control, and trigger other systems in your design.
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Z6463 |
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- The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile.
- It’s super easy to use, and ready to get started out-of-the-box, with a choice of coding editors for all abilities available in multiple languages. The extensive wireless and sensor features mean the micro:bit can be used across the school, including subjects such as science, design, maths, music, art and computing.
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This power breakout board allows you to break out all the micro:bit pins, plus provides power via 2 x AA batteries. The board also includes short power lead adaptor. |
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Z6464 |
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- The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile.
- It’s super easy to use, and ready to get started out-of-the-box, with a choice of coding editors for all abilities available in multiple languages. The extensive wireless and sensor features mean the micro:bit can be used across the school, including subjects such as science, design, maths, music, art and computing.
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This sensor connection shield allows you to breakout all digital and analog interfaces plus adds I2C serial port and SPI comms interfaces. |
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Z6465 |
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- The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile.
- It’s super easy to use, and ready to get started out-of-the-box, with a choice of coding editors for all abilities available in multiple languages. The extensive wireless and sensor features mean the micro:bit can be used across the school, including subjects such as science, design, maths, music, art and computing.
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Transform your micro:bit into a handheld game pad or use it as a controller for othe projects. |
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Z6466 |
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- The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile.
- It’s super easy to use, and ready to get started out-of-the-box, with a choice of coding editors for all abilities available in multiple languages. The extensive wireless and sensor features mean the micro:bit can be used across the school, including subjects such as science, design, maths, music, art and computing.
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Plug in your micro:bit and breakout every pin to a standard header. Allowing you to connect it to other components using jumper wire. |
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Z6467 |
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- In-built W5500 ethernet controller for instant IoT connection for your Arduino design
- Uses standard libraries
- On-board MicroSD card slot
- atmega328p UNO compatible microcontroller
- Standard pin outs and fully shield compatible
- Works with standard Arduino libraries and an updated IDE.
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This W5500 ethernet development board is based on the microcontroller of Arduino Ethernet. The board features integrated USB download, TF card slot and more functions on it. Its also fully compatible with UNO pins. |
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Z6468 |
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- The BBC micro:bit is a pocket-sized computer that you can code, customise and control to bring your digital ideas, games and apps to life. Each element is completely programmable via easy-to-use software on a dedicated website (www.microbit.org) that can be accessed from a PC, tablet, or mobile.
- It’s super easy to use, and ready to get started out-of-the-box, with a choice of coding editors for all abilities available in multiple languages. The extensive wireless and sensor features mean the micro:bit can be used across the school, including subjects such as science, design, maths, music, art and computing.
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Transform the pins of the micro bit motherboard into female headers allowing you to easily connect leads and build circuits. With the addition of a power module the breakout board can directly provide power for the micro bit board and load the capability of the breakout board. |
