Features Build in USB to Serial interface Build-in PCB antenna Powered by Pineseed BL602 SoC using Pinenut model: 12S stamp 2 MB Flash USB-C connection Suitable to breadboard BIY project On board three color LEDs output Dimensions: 25.4 x 44.0 mm Note: USB cable is not included.
Specifications Lens diameter: 90 mm / 3.54' Dioptre: lens Ø 90 mm: dioptre 3 – magnification: 1.75 Power supply: 3 x 1.5 V AAA battery Dimensions: 210 x 170 x 110 mm / 8.3 x 6.7 x 4.3' Weight: 615 g Material: Stand: stainless steel Lens: glass Connecting parts: copper
Features No backlight, keeps displaying last content for a long time even when power down Ultra low power consumption, basically power is only required for refreshing SPI interface, requires minimal IO pins Comes with development resources and manual (Raspberry Pi Pico C/C++ and MicroPython examples) Specifications Operating voltage 3.3 V Display color red, black, white Interface 3-wire SPI, 4-wire SPI Grey scale 2 Outline dimensions 74.00 × 37.5 0mm Full refresh time 15s Display size 60.088 × 30.704 mm Refresh power 42.4 mW (typ.) Dot pitch 0.203 × 0.202 mm Standby current <0.01 uA (almost none) Resolution 296×152 pixels Viewing angle >170° Downloads Wiki
The RedBoard Artemis has the improved power conditioning and USB to serial that we've refined over the years on our RedBoard line of products. A modern USB-C connector makes programming easy. A Qwiic connector makes I²C easy. The RedBoard Artemis is fully compatible with SparkFun's Arduino core and can be programmed easily under the Arduino IDE. We've exposed the JTAG connector for more advanced users who prefer to use professional tools' power and speed. We've added a digital MEMS microphone for folks wanting to experiment with always-on voice commands with TensorFlow and machine learning. We've even added a convenient jumper to measure current consumption for low power testing. With 1MB flash and 384k RAM, you'll have plenty of room for your sketches. The on-board Artemis module runs at 48MHz with a 96MHz turbo mode available and with Bluetooth to boot! Features Arduino Uno R3 Footprint 1M Flash / 384k RAM 48MHz / 96MHz turbo available 24 GPIO - all interrupt capable 21 PWM channels Built-in BLE radio 10 ADC channels with 14-bit precision 2 UARTs 6 I²C buses 4 SPI buses PDM Interface I²S Interface Qwiic Connector
High-quality ABS construction Removable side panels and lid for easy access to GPIO, camera and display connectors Light pipes for power and activity LEDs Extraordinarily handsome Colour: white/red
High-quality ABS construction Removable side panels and lid for easy access to GPIO, camera and display connectors Light pipes for power and activity LEDs Extraordinarily handsome Colour: black/grey
17 Sensor Modules & 21 Tutorials
The Elecrow All-in-One Starter Kit for Raspberry Pi Pico 2 is an ideal choice for beginners embarking on their learning journey with the RP2040-based Pico 2. This comprehensive kit integrates 17 different sensors onto a single board and features a 2.4-inch full-color TFT touch screen. No soldering or wiring is required – it's ready to use right out of the box, enabling a quick and seamless start.
The kit includes more than 20 creative tutorials, ranging from basic to advanced levels. These step-by-step guides help users gradually become familiar with various sensors, develop logical thinking skills, and spark creativity. Its compact, portable suitcase design makes it easy to carry and perfect for learning on the go.
To enhance the learning experience, the kit also features 20 programmable full-color ambient lights and built-in mini-games, allowing for an engaging blend of education and entertainment.
Features
Powered by Raspberry Pi Pico 2 (RP2350 chip)
Includes 17 integrated sensors with various functions, along with over 20 creative tutorials
All-in-one sensor board design – no soldering required, ready to use out of the box, perfect for quick prototyping
Compact and stylish portable suitcase – small, elegant, and easy to carry
2.4-inch full-color TFT touchscreen
20 programmable full-color ambient lights for dynamic visual effects
Built-in mini-games – play instantly after boot-up, enabling a smooth transition between learning and fun
Sensores
1x Temperature & Humidity Sensor
4x Buttons
1x Ultrasonic Ranging Sensor
1x Light Sensor
1x Linear Potentiometer
3x LEDs
1x Buzzer
1x 2.4-inch TFT Display
1x Infrared Remote
1x Relay
1x Servo motor
1x Sound Sensor
1x Accelerometer & Gyro
1x Touch Sensor
1x Vibration Motor
1x Hall Sensor
1x Gas Sensor (MQ2)
Specifications
All-in-one Starter Kit for Raspberry Pi Pico 2
All-in-one Starter Kit for Arduino
Main Processor
Raspberry Pi Pico 2 RP2350
ATmega328P
Number of Sensors
17 sensors
15 sensors (including 1 Humidity sensor)
Sensor Board Design
Integrated sensor board, no soldering or complex wiring required
Display
2.4-inch TFT full-color touch screen
N/A
Ambient Lights
20 full-color ambient lights, switchable via touch screen
N/A
Built-in Mini Games
Yes
No
Expansion Interfaces
N/A
6 Crowtail interfaces(3x I/O, 2x I²C, 1x UART)
Programming Environment
Based on Arduino software
Number of Tutorials
21 creative tutorials
Interface
USB-C
Dimensions
195 x 170 x 46 mm
Weight
380 g
340 g
Included
1x Elecrow All-in-One Starter Kit for Raspberry Pi Pico 2
1x IR Remote control
1x USB-C cable
Downloads
Datasheet
Manual
Wiki
This is a 170 mm long 868 MHz 50 hm antenna kit targeted for use with iLabs Challenger LoRa products. The antenna can tilt and swivel making it easy to install it in various applications. The kit also comes with a RF cable assembly containing an SMA (Female) and JK-IPEX/MHF/U.FL for connection to the PCB. The coax is a 1-13 mm 50 Ohm cable and is 100 mm’s long.
This Industrial 6-Channel Relay Module is suitable for Raspberry Pi Zero with pre-soldered pinheader. It provides RS485/CAN Bus, Power Supply Isolation, and Photocoupler Isolation.Features
RS485 half-duplex communication: using SP3485, UART control, auto RX/TX switch
CAN half-duplex communication: using MCP2515 + SN65HVD230 solution, SPI control
Onboard unibody power supply isolation, provides stable isolated voltage, needs no extra power supply for the isolated terminal
Onboard photocoupler isolation, prevent interference from external high-voltage circuit connected to the relay
Onboard TVS (Transient Voltage Suppressor), effectively suppress surge voltage and transient spike voltage in the circuit, lightningproof & anti-electrostatic
Onboard resettable fuses and protection diodes, ensuring current/voltage stable output, preventing over current/voltage, better shock-resistance performance
High quality relay, contact rating: ≤10A 250V AC or ≤10A 30V DC
ABS protection enclosure with rail-mount support, easy to install, safe to use
Comes with development resources and manual (wiringPi and python examples)
Specifications
Operating voltage: 7~36 V (industrial input voltage compatible)
Relay channel: 6ch
Communication Protocol: RS485, CAN
Contact form: 1NO 1NC
Included
1x ABS protection enclosure (top and bottom)
1x RPi Zero Relay
1x Screwdriver
1x OPTIONS 12 V, 1 A power adapter
1x Screws pack
DownloadsDocumentation
LoRaWAN is beneficial, but sometimes it is unnecessary, difficult, or expensive to implement a LoRaWAN network, especially when considering cloud integration. For example, monitoring soil moisture in your backyard or tracking conditions in your farm's greenhouse may not require a full LoRaWAN setup.
This LoRa receiver is designed to work with Makerfabs SenseLora modules. It receives LoRa signals and forwards them to a computer, allowing the data to be displayed, recorded, and analyzed on the computer.
Downloads
Manual
Software
This kit includes 2 servo motors and a Monk Makes ServoSix interface board for use with Raspberry Pi. It also includes a Raspberry Leaf GPIO template, a bunch of female-to-female header pins and a 4xAA battery box.Features of the Servo Six board
Screw terminals for servo power supply
Reverse-polarity protection for the servo power supply
470 µF 16 V capacitor for servo supply
470 Ω current limiting resistors for servo control lines (to protect GPIO pins)
Power indicator LE
DownloadsInstructions
The Uno differs from all preceding boards in that it does not use the FTDI USB-to-serial driver chip. Additional features coming with the R3 version are: ATmega16U2 instead of 8U2 as a USB-to-Serial converter. 1.0 pinout: added SDA and SCL pins for TWI communication placed near to the AREF pin and two other new pins placed near to the RESET pin, the IOREF that allow the shields to adapt to the voltage provided from the board and the second one is a not connected pin, that is reserved for future purposes. stronger RESET circuit. Microcontroller ATmega328P Operating Voltage 5 V Input Voltage 7 V - 12 V Digital I/O Pins 14 PWM Pins 6 Analog Input Pins 8 DC Current per I/O Pin 20 mA DC Current for 3.3 V Pin 50 mA Flash Memory 32 KB (ATmega328P) of which 0.5 KB used by bootloader SRAM 2 KB EEPROM 1 KB Clock Speed 16 MHz LED_Builtin 13 Length 68.6 mm Width 53.4 mm Weight 25 g
Features Adopts both 4-wire SPI and I²C interface, better compatibility, fast data rate Standard Raspberry Pi Pico header, supports Raspberry Pi Pico series boards Comes with development resources and manual (Raspberry Pi Pico C/C++ and MicroPython examples) Specifications Logical voltage 3.3 V Viewing angle >160° Operating voltage 3.3 V/5 V Resolution 128×32 pixels Communication interface 4-wire SPI, I²C Display size 55.02 × 13.10 mm Display panel OLED Pixel size 0.41 × 0.39 mm Driver SSD1305 Dimensions 63.00 × 26.00 mm
Contents Basic principles A connector is an electromechanical system that provides a separable connection between two subsystems of an electronic device without an unacceptable effect on the performance of the device. It will be shown that there are a lot of complex parameters to handle properly to make this statement true. Design / Selection / Assembly This chapter provides an overview of design and material requirements for contact finishes, contact springs and connector housings as well as the major degradation mechanisms for these connector components. To complete this chapter, material selection criteria for each will also be reviewed. Additionally the Level of Interconnection (LOI) was integrated into this chapter as it addresses, where the connector is used within an electronic system and therefore influences the requirements and durability of the connector depending on its use. Applications This chapter is heading to the practical work and shows how customers use connectors in their applications to offer some possibilities and to ease your daily work. Additionally it contains some special topics like tin-whisker or impedance of ZIF cable to offer you extended background knowledge.
This small mono amplifier is surprisingly powerful – able to deliver up to 2.5 W into 4-8 Ω impedance speakers. Inside the miniature chip is a class D controller, able to run from 2.0-5.5 V DC. Since the amplifier is a class D, it's very efficient making it perfect for portable and battery-powered projects. It has built-in thermal and over-current protection. There's even a volume trim pot so you can adjust the volume on the board down from the default 24 dB gain.
The A+ and A- inputs of the amplifier go through 1.0 µF capacitors, so they are fully 'differential' – if you don't have differential outputs, simply tie the Audio-pin to ground. The output is 'Bridge Tied' – that means the output pins connect directly to the speaker pins, no connection to ground. The output is a high frequency 250 KHz square wave PWM that is then 'averaged out' by the speaker coil – the high frequencies are not heard. All the above means that you can't connect the output into another amplifier, it should drive the speakers directly.
The amplifier comes with a fully assembled and tested breakout board, a header to plug it into a breadboard and a 3.5 mm screw-terminal blocks so you can easily attach/detach your speaker. Speaker is not included, we recommend using any 4 Ω or greater impedance speaker.
Features
Output Power: 2.5 W at 4 Ω, 10% THD (total harmonic distortion), 1.5 W at 8 Ω, 10% THD, with 5.5 V Supply
50 dB PSRR (power supply rejection ratio) at 1 KHz
Filterless design, with ferrite bead + capacitors on output.
Fixed 24 dB gain, an onboard trim potentiometer for adjusting input volume.
Thermal and short-circuit/over-current protection
Low current draw: 4 mA quiescent and 0.5 mA in shutdown (due to pull-up resistor on SD pin)
Monitor soil moisture, temperature and relative humidity measurement with the Plant Monitor. This board is compatible with the BBC micro:bit, Raspberry Pi and most microcontroller boards. Alligator / croc clip rings Ready soldered header pins for your choice of microcontroller. Easy to use UART serial interface Additional analog output for moisture only Built-in RGB LED Downloads Datasheet Instructions
Spencer is a DIY voice assistant that will teach you about AI, voice recognition, IoT, and speech synthesis.
Features
Ask about the weather forecast for your area
Hear a joke
Ask him to sing you a song
Set a stopwatch
Make Spencer display custom animations
Laugh at his corny popular culture references
Included
Spencer’s circuit board that includes a pre-soldered 144-pixel LED grid
The brain board – does smart stuff and includes a dual-core processor, a 16 MB flash memory chip, and power-management circuitry
Acrylic casing – this protects Spencer’s innards from the outside world
A big red button
Various smaller components such as resistors and pushbuttons
Micro USB cable for powering your Spencer
5W Speaker
Instruction booklet – ready for your offline knowledge consumption
Here you can find the assembly guide!
This is a kit for a pan-tilt mechanism explicitly designed for Pixy2. After assembling the kit and connecting it to Pixy2, you'll be able to follow colored objects using the Pan/Tilt demo.
It includes two laser-cut plastic pieces for the base, two different servos for the pan and tilt axes, and all the mounting hardware and cable ties you will need to assemble.
Features
The pan-tilt mechanism for Pixy2 is redesigned, making it smaller and faster than the pan-tilt for the original Pixy.
All necessary hardware is included.
The pan-tilt base is attached directly to an Arduino with Arduino-compatible hole-pattern and includes stand-offs and fasteners.
Several pan-tilt demos are provided that can run using either Arduino, Raspberry Pi or stand-alone (no controller).
Downloads
Manual
Features: Universal pen for use on almost all surfaces Suitable for overhead projection Also suitable for use on CDs/DVDs Excellent smudge-proof and waterproof qualities on almost all surfaces Dries in seconds, therefore ideal for left-handed users Permanent, low-odour ink Lightfast colours: black, brown Weatherproof colour black Stand-up STAEDTLER box PP barrel and cap guarantee long service life DRY SAFE – can be left uncapped for days without drying up (Standard atmosphere according to ISO 554) Airplane-safe - automatic pressure equalization prevents pen from leaking on board aircraft Xylene and toluene-free ink Superb colour brilliancy Line width superfine approx. 0.4 mm Refillable
The TC002C offers exceptional precision in temperature detection, insulation inspection, and circuit board analysis, making it your reliable companion for a wide range of applications. With an impressive resolution of 256 x 192, it captures thermal imagery with unparalleled clarity and detail. Its energy-efficient design, consuming only 0.35 W, ensures prolonged usage without the inconvenience of frequent recharging. Featuring a remarkable heat sensitivity of 40 mK, the TC002C swiftly identifies concealed anomalies, empowering users with rapid troubleshooting capabilities.
Ideal for a multitude of tasks, the TC002C excels in diverse applications such as home inspections, HVAC diagnostics, water leak detection, electrical maintenance, automotive repairs, and more.
Specifications
Resolution
256 x 192 pixels
Pixel Size
12 μm
Spectral Range
8~14 μm
Focal Length
3.2 mm
Temperature Range
−20°C to 550°C (−4°F to 1022°F)
Temperature Accuracy
±2°C or ±2%
Temperature Resolution
0.1°C
Frame Rate
25 Hz
NETD
<40 mK
Field of View
56° x 42°
Color Palettes
10 Colors
High/Low Temperature Alarm
Yes
Compatible Systems
iOS Devices with USB-C
Dimensions
71 x 42 x 14 mm
Weight
30 g
Included
TC002C Thermal Imaging Camera
USB-C Extension Cable (50 cm)
USB-C to Lightning Cable
Cleaning Cloth
EVA Carrying Bag
Manual
Downloads
iOS App
The Elektor Arduino Nano MCCAB Training Board contains all the components (incl. Arduino Nano) required for the exercises in the "Microcontrollers Hands-on Course for Arduino Starters", such as light-emitting diodes, switches, pushbuttons, acoustic signal transmitters, etc. External sensors, motors or assemblies can also be queried or controlled with this microcontroller training system.
Specifications (Arduino Nano MCCAB Training Board)
Power Supply
Via the USB connection of the connected PC or an external power supply unit (not included)
Operating Voltage
+5 Vcc
Input Voltage
All inputs
0 V to +5 V
VX1 and VX2
+8 V to +12 V (only when using an external power supply)
Hardware periphery
LCD
2x16 characters
Potentiometer P1 & P2
JP3: selection of operating voltage of P1 & P2
Distributor
SV4: Distributor for the operating voltagesSV5, SV6: Distributor for the inputs/outputs of the microcontroller
Switches and buttons
RESET button on the Arduino Nano module 6x pushbutton switches K1 ... K6 6x slide switches S1 ... S6 JP2: Connection of the switches with the inputs of the microcontroller
Buzzer
Piezo buzzer Buzzer1 with jumper on JP6
Indicator lights
11 x LED: Status indicator for the inputs/outputs LED L on the Arduino Nano module, connected to GPIO D13 JP6: Connection of LEDs LD10 ... LD20 with GPIOs D2 ... D12
Serial interfacesSPI & I²C
JP4: Selection of the signal at pin X of the SPI connector SV12 SV9 to SV12: SPI interface (3.3 V/5 V) or I²C interface
Switching output for external devices
SV1, SV7: Switching output (maximum +24 V/160 mA, externally supplied) SV2: 2x13 pins for connection of external modules
3x3 LED matrix(9 red LEDs)
SV3: Columns of the 3x3 LED matrix (outputs D6 ... D8) JP1: Connection of the rows with the GPIOs D3 ... D5
Software
Library MCCABLib
Control of hardware components (switches, buttons, LEDs, 3x3 LED matrix, buzzer) on the MCCAB Training Board
Operating Temperature
Up to +40 °C
Dimensions
100 x 100 x 20 mm
Specifications (Arduino Nano)
Microcontroller
ATmega328P
Architecture
AVR
Operating Voltage
5 V
Flash Memory
32 KB, of which 2 KB used by bootloader
SRAM
2 KB
Clock Speed
16 MHz
Analog IN Pins
8
EEPROM
1 KB
DC Current per I/O Pins
40 mA on one I/O pin, total maximum 200 mA on all pins together
Input Voltage
7-12 V
Digital I/O Pins
22 (6 of which are PWM)
PWM Output
6
Power Consumption
19 mA
Dimensions
18 x 45 mm
Weight
7 g
Included
1x Elektor Arduino Nano Training Board MCCAB
1x Arduino Nano
Raspberry Pi 5 provides two four-lane MIPI connectors, each of which can support either a camera or a display. These connectors use the same 22-way, 0.5 mm-pitch “mini” FPC format as the Compute Module Development Kit, and require adapter cables to connect to the 15-way, 1 mm-pitch “standard” format connectors on current Raspbery Pi camera and display products.These mini-to-standard adapter cables for cameras and displays (note that a camera cable should not be used with a display, and vice versa) are available in 200 mm, 300 mm and 500 mm lengths.
Cleaning nozzle drill kit small box containing 10 carbide PCB drills 0.8 mm all with 4 mm shaft.
Ideal for drilling small precision holes in pcb's, plastic or soft metal.
The PeakTech 1094 two-pole voltage tester is a reliable and practical tool for measuring voltages up to 400 V. It uses LED indicators to display voltage levels at 12 V, 24 V, 50 V, 120 V, 240 V, and 400 V. The device supports both AC and DC voltage measurements and automatically detects and displays polarity when measuring DC voltages – no manual switching between AC and DC is required.
This tester operates without batteries, ensuring it is always ready for use, even after extended periods of inactivity. With its IP54 protection rating, the PeakTech 1094 is robust and resistant to dust and splashing water, making it suitable for use in both indoor and outdoor environments.
Specifications
DC Voltage (max.)
400 V
AC Voltage (max.)
400 V
Over voltage category
CAT III 400 V
Accuracy
-30% to 0% of the measured value
Voltage test
Automatically
Polarity check
Entire measuring range
Range selection
Automatically
Response time
<0.1s
AC Voltage frequency range
50/60 Hz
Dimensions
223 x 40 x 32 mm
Weight
95 g
Downloads
Manual
