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Did you ever wanted to turn on and off a device that needs large current or voltage? Whether operating on DC or AC, a relay is what you need. A relay is actually an electronic switch that is activated by a signal we send from a Dasduino or Arduino. This module further simplifies the whole process because it contains everything you need for the relay to work, and you just have to connect it to the microcontroller and power supply. You don’t have to think about voltages and currents, insulation between high and low voltage or grounding, everything is already taken care of on the board.

This board has easyC connector. Thanks to easyC ecosystem, this board can be connected using off-the-shelf cables, without soldering. Controlling the is as simple as it gets, too.

Connect your Arduino or microcontroller projects to automotive and industrial CAN networks with our MCP2518FD transceiver board. Designed for automotive diagnostics, industrial automation, and IoT applications, this board supports both legacy CAN 2.0B and modern CAN FD standards with data rates up to 8 Mbps. If you are building vehicle diagnostic tools, industrial monitoring systems, or custom automotive interfaces, this SPI-controlled module provides reliable, high-speed communication with built-in termination.

The MCP2518FD controller at the heart of this board delivers CAN communication with arbitration bit rates up to 1 Mbps and data bit rates up to 8 Mbps for CAN FD applications. The integrated ATA6563 transceiver ensures signal integrity in harsh automotive and industrial environments, while the SPI interface provides easy integration with Arduino, ESP32, and other microcontroller platforms. The onboard 120-ohm termination resistor can be easily enabled via a jumper, making this board perfect for end-node applications or network testing.

What sets this CAN transceiver apart is its automotive-grade components combined with maker-friendly design. The screw terminal connections ensure secure, vibration-resistant connections for all applications, while the compact 38x22mm form factor fits easily into smaller projects. With Arduino library support and detailed documentation, you can quickly integrate CAN communication into your projects without deep protocol knowledge. Perfect for automotive enthusiasts, industrial automation engineers, and IoT developers who need reliable CAN connectivity.

• Standards: CAN 2.0B i CAN FD
• Voltage: 2.7V i 5V
• Current: from 10uA to 12mA
• SPI interface
• Dimensions: 38 x 22 mm

This adapter makes it easy to connect easyC devices and sensors to the Raspberry Pi. It has 3 pieces of easyC connectors and a female header for Raspberry Pi, next to the header there are pins for connecting 5V and 3.3V and ground pins. It simply connects to the Raspberry Pi because its pinout matches the pinout of the Raspberry Pi.

The Hall effect sensor breakout with analog output is a versatile and reliable sensor module designed to detect and measure magnetic fields. It utilizes the Hall effect principle, where the presence of a magnetic field induces a voltage proportional to the strength and direction of the field.

This sensor module features an analog output, which provides a continuous voltage signal that varies in response to changes in the magnetic field. The analog output allows for precise and real-time monitoring of magnetic field strength. It is commonly used in applications such as position sensing, current sensing, and speed detection.

The module is typically powered with a supply voltage ranging from 2.25V to 5V, making it compatible with a wide range of systems.

The hall effect sensor (Hall Effect sensor) will be able to detect the magnetic field in its vicinity thanks to the aforementioned physical law. A magnetic field that can be created by a magnet, a current flowing through a conductor or some third source, the Hall effect sensor will recognize each. The stronger the magnetic field, the higher the voltage will be at the output of this sensor, so it is a sensor with analog output.

Dimensions: 22 mm x 22 mm
Logic voltage level: 0V – 5V
Operating voltage: 2.25V – 5V
Sensor: SI7211-B-00-IV
Output: analog
Mounting holes: 2

This small and simple module gives us a translation of logic level between two signals. In layman’s terms, if we take a signal with logical “unit” on 5V convert into a signal which logical “unit” has on 3.3V this module will help us. Something like this is useful in this case if we want to achieve communication between two devices from whom one works on 5V and the other on 3.3V, or any other combination of voltages. Directly connecting we would “burn” a device that works on 3.3V and a module gives us to avoid that.

This board is specialized for signal conversion for I2C communication protocol, and for this conversion it uses a special integrated circuit that enables communication at high speeds.

• Max. voltage: 30V
• Number of channels: 4
• Communication protocol: I2C
• Dimensions: 22 x 22mm

Do you have an old I2C board lying around that would be perfect only if it had easyC connectors? With the easyC adapter and a little bit of soldering, you can give it new life. It will be able to connect easily to newer boards with easyC cables.

The adapter has two easyC connection ports and four plated through-holes: SCL, SDA, 3.3V, and GND. It comes with pins that need to be soldered to the board.

Product usage tips:

Connecting easyC devices to the adapter is the same as to any other easyC device. Choose an easyC cable and connect it to the adapter. That’s it.

To ensure the longevity of the adapter, avoid working with it in wet environments. Device operates at the 3.3V voltage level so higher voltages can burn it.

Obstacle sensor, based on TCRT5000, uses infrared diode and photo-receiver to detect obstacle in front of it – emitted light just reflects back to the sensor. Onboard, you’ll find voltage comparator, so just by adjusting the potentiometer, the board gives digital output. There’s LED DO onboard to show the current digital output status. There’s analog output as well, in case you need it. Sensor works particularly well for line-following purposes on small robots.

• Sensor: TCRT5000
• Comparator: LM303
• Dimensions: 22 x 22 mm

Unlock the full potential of your DIY projects with our versatile USB-C Female Breakout Board. Designed for seamless integration, this board provides easy access to all USB-C signals which have been exposed as breadboard-compatible pins, including VBUS, GND, CC1, CC2, D+, and D-. Whether you’re powering a custom device, transferring data, or experimenting with new prototypes, this breakout board simplifies USB-C connectivity, making it a tool for hobbyists and professionals. Its design ensures reliable performance, bridging the gap between modern USB-C technology and traditional prototyping methods.

Engineered with Arduino compatibility in mind, this USB-C breakout board is perfect for makers looking to upgrade their projects with the latest connectivity standards. Say goodbye to outdated USB-A or Micro-USB connections and choose the high-power capabilities of USB-C. It’s ideal for a wide range of applications, from custom mechanical keyboards and embedded systems to smart home devices and portable gadgets. 

Enhanced power delivery and faster data transfer rates, improving how you interact with your creations. This breakout board not only facilitates power and data but also supports advanced features like Power Delivery (PD) when paired with compatible controllers, opening up possibilities for more demanding applications. Its compact form factor and ease of use make it a choice for anyone seeking a reliable, future-proof USB-C solution for their Arduino, Raspberry Pi, or other microcontroller-based projects. Elevate your designs with the efficiency and convenience of USB-C.

Product usage tips:

Male headers that are included need to be soldered to the board. The breakout board has two mounting holes and can be placed on any surface.

Designed for seamless integration, this compact module provides a reliable female MicroUSB port exposed to breadboard-compatible header pins, making it ideal for powering your Arduino, ESP32, or other microcontroller-based applications. Say goodbye to cumbersome wiring and embrace a clean, efficient power and data interface that simplifies prototyping and final product assembly.

This breakout board is engineered with easy access to all five MicroUSB pins (VCC, GND, D+, D-, ID) via clearly labeled header pins. Whether you’re developing portable devices, charging solutions, or data communication interfaces, its friendly design ensures quick connections. Its small footprint is perfect for space-constrained projects, providing a professional finish without sacrificing functionality.

Elevate your DIY electronics and embedded systems with this essential component. The MicroUSB Female Connector Breakout streamlined development, enabling reliable power delivery and data exchange for a wide array of applications, from IoT sensors to custom charging docks.

Product usage tips:

The pins included need to be soldered to the board. It won’t move an inch when mounted with the two mounting holes.

Are you short on IO pins? Looking to increase the number of them? That’s what the GPIO Expander MCP23017 is for! It uses I2C communication to do so. With just two wires, 16 new fully configurable digital IO pins are added to a microcontroller.

Due to the jumpers on the board, the I2C address of a device can be changed. Thus, eight breakout boards can be connected to a microcontroller. All of the pins on the expander board have pull-out resistors that can be turned on and off.

The HX711 is a highly versatile load cell amplifier that is widely used in various applications requiring precise weight measurements. This version of the breakout comes with a Qwiic connector and a pre-programmed Attiny404 microcontroller. It is designed to convert analog signals into digital values and have them easily available over Qwiic/Stemma QT/easyC, making it ideal for integration with microcontrollers and other digital systems. An Arduino and MicroPython library to communicate with the board is also provided.

This load cell amplifier employs a 24-bit analog-to-digital converter (ADC) to ensure high-resolution and accurate readings. It supports differential input signals and offers two differential input channels, allowing the connection of up to two load cells simultaneously. This feature enables the measurement of both single- and multi-load cell systems, expanding its application range.

The HX711 incorporates an integrated voltage regulator, which provides a stable supply voltage for the load cells and ensures accurate and reliable measurements this Qwiic version only requires a Qwiic cable for operation – send power and I2C data over one convenient connector! You can use the other connector to continue daisy chaining other Qwiic sensors. It also comes with switches for selecting the I2C address.

The HX711 breakout allows you to easily read the weight value from a load-cell sensor (mass sensor). This small ADC is of great precision and is capable of measuring very small changes in the load-cell resistance, whose signals are amplified with the built-in amplifier. Subsequently, this same information is digitally transmitted to a microcontroller that simply converts the numbers obtained into the actual weight. That’s why this breakout is very useful for projects with scales or presence sensors, either for individuals or industry.

Breakout supports the connection of load cells that are made by the Wheatstone Bridge technique, like most of the load cells. They usually have four wires, two for power supply (E + and E, most often red and black), and two for signal (A + and A-, most commonly white and green wire). The pins for these wires are also indicated on the PCB and it is easy to connect.

The TCRT5000 is an infrared (IR) reflective sensor module that is commonly used for proximity sensing and line-following applications. It consists of an infrared emitter and a phototransistor placed side by side in a compact package. The emitter emits infrared light, which gets reflected off nearby objects, and the phototransistor detects the intensity of the reflected light.

This sensor module is widely used in robotics and automation projects. It can be used to detect the presence or absence of objects by measuring the intensity of reflected infrared light. It is also commonly employed in line-following robots where it can detect and follow lines marked with contrasting colors.

The TCRT5000 operates on a supply voltage typically ranging from 3.3V to 5V. The breakout board provides digital and analog information through the easyC system. Sensor readings are obtained through easyC.

Product usage tips:

Two mounting holes enable easy mounting to surfaces.

This adapter makes connection of LCD to Dasduino (or any other Arduino-compatible board) a breeze! It uses I2C communication which needs only two pins. It can be used and work with all of ours LCDs (16×2, 20×4, 16×4). Use our library and get started in few minutes of work!

It’s even easier with easyC – no soldering is needed!

The ADS1115 16-Bit ADC delivers analog to digital conversion for precision measurement applications. This high-performance breakout board features Texas Instruments’ industry-standard ADS1115 chip, providing 16-bit resolution at up to 860 samples per second with built-in programmable gain amplifier (PGA) for optimal signal conditioning. Perfect for Arduino, Raspberry Pi, and microcontroller projects requiring accurate analog signal measurement beyond standard 10-bit ADC capabilities.

With its wide 2V-5.5V supply range and I2C interface, the ADS1115 offers versatility for various measurement scenarios. The programmable gain amplifier provides selectable gains from ±6.144V down to ±0.256V full-scale range, enabling precise measurement of both large and small signals. Four single-ended channels can be configured as two differential pairs, while the built-in voltage reference ensures measurement stability. The easyC connector system simplifies integration, eliminating wiring errors and enabling rapid prototyping for sensor networks, data acquisition systems, and precision measurement applications.

Applicable for sensor networks, building data acquisition systems, or upgrading Arduino projects with analog measurement capabilities, the ADS1115 provides the accuracy and reliability. With comprehensive documentation and professional EU manufacturing quality, this ADC module delivers precision in a maker-friendly package. With our extensive Arduino library, you can get started quickly, without soldering, using our Qwiic (easyC) connector.

The HC-SR04 ultrasonic sensor is an affordable and super-popular sensor that measures the distance between itself and an object located in front of the sensor. Very simple to use, it returns the distance in centimeters or inches.

In this variation, it comes on a board with an Attiny microcontroller that sends readings from the sensor as a digital signal via the easyC connector to the microcontroller, which makes its connections a piece of cake.

The Stepper Motor Driver DRV8825 enables precise control of stepper motors, making it an ideal choice for 3D printers, CNC machines, and robotics projects. This breakout board features the DRV8825 chip, which supports microstepping for smoother and quieter motor operation.

The module is designed for bipolar stepper motors and allows adjustable current limiting, as well as overcurrent and overtemperature protection for reliable performance. It supports up to 1/32 microstepping, improving positioning accuracy and reducing vibration compared to lower microstepping drivers like the A4988.

A built-in potentiometer enables easy current regulation, allowing you to fine-tune motor performance based on your project’s needs. With a wide voltage range of 8.2V – 45V, this driver can be used with a variety of power sources, making it highly versatile for different applications.

Whether you’re building a precision 3D printer, upgrading a CNC machine, or developing advanced robotics applications, the DRV8825 offers the perfect combination of performance, protection, and versatility. With its microstepping resolution and protection features, this driver ensures reliable, precise motor control for your most demanding projects.

BC-327 is PNP transistor for generic usage in THT packaging.

• Type: PNP
• Part Number: BC-327

Classic power adapter which converts other power connectors to EU schuko power connector