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SOLDERED DEBO RTC - Developer boards - Real-time clock - RTC, PCF85063A

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The RTC (Real Time Clock) is a device that tracks time and date accurately and precisely. Due to its high precision, it is better suited for long-term time tracking than the clocks on microcontrollers.

  • compatible with Arduino (or a compatible board such as Dasduino)
  • extremely low power consumption
  • integrated battery holder
  • alarm function and interrupt pin
  • uninterrupted time tracking even in the event of a power failure


The RTC (Real Time Clock) is characterized by its high accuracy, which makes it particularly suitable for applications where long-term time tracking is required. It is compatible with Arduino (or a compatible board such as Dasduino) and can be operated with extremely low power consumption. Thanks to the integrated battery holder, time tracking is maintained even in the event of a power failure. The alarm function and interrupt pin allow a microcontroller to go into sleep mode and only be reactivated when an alarm is triggered by the RTC.

The built-in battery holder (battery not included) ensures that real-time tracking is not affected even in the event of a power failure.

Technical data
  • Communication: I2C
  • RTC IC: PCF85063A
  • Voltage: 0.9 V ... 5,5 V
  • easyC/Qwiic compatibility
  • Dimensions: 38 x 22 mm


The RTC offers a precise and reliable solution for long-term time tracking in applications that require accurate time recording. It is compatible with common microcontroller boards and ensures efficient and continuous time tracking thanks to its low power consumption and alarm function.

easyC
easyC is a robust connection system that optimizes the connection using JST-SH compatible connectors (JST 4-pin) of microcontrollers, sensors and actuators. It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Soldered-PCF85063A-RTC-Module-Arduino-Library

EAN: 0732388671908
Delivery Cost: 9.95 EUR
Availability: in stock
Delivery Time: 4-5 business days
Condition: new
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Pinout
• 5 V: 5 V power supply
• D1: SCL
• D2: SDA
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Note:Delivery includes 6 pin headers (2x 8 pin male - male, male - female, male long pin - female each).
CR1220 button cell not included!
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SOLDERED DEBO LED PIXEL - Developer boards - LED, Pixel, WS2812B SOLDERED DEBO LED PIXEL - Developer boards - LED, Pixel, WS2812B 10.83 EUR The small LEDs, which have an integrated circuit (IC) of type WS2812, offer remarkable functionality by being able to light up in up to 16 million colors. Each of these LEDs can be controlled individually, allowing precise control of color and brightness.

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Technical specifications
  • Color: Red/Green/Blue
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  • Diode: WS2812 SMD LED (5050 LED diode with integrated IC)
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External links
https://github.com/SolderedElectronics/Soldered-WS2812-Smart-Leds-Arduino-Library
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  • each LED is capable of emitting 16 million colors
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The WS2812B LEDs offer impressive color display flexibility and simplify the implementation of color lighting projects. These LEDs are programmed with an Arduino (or compatible board such as Dasduino) using the Arduino IDE for easy code creation. The circular arrangement of the LEDs allows attractive visual displays to be created that can be used in a variety of projects, from simple backlighting to complex lighting installations. The integrated controller in each LED allows each diode to be controlled independently, making it easy to create dynamic and customizable lighting effects.

Technical specifications
  • Number of LEDs: 24
  • Voltage: 5 V
  • LED type: WS2812B
  • Current: 18 mA per LED
  • Dimensions (outer diameter): 67 mm


In summary, with its advanced technology and simple control via the Arduino IDE, the WS2812B provides an efficient and versatile solution for lighting projects. Thanks to the wide range of colors and easy integration into various designs, this LED type offers a high degree of design freedom.

External links
https://github.com/SolderedElectronics/Soldered-WS2812-Smart-Leds-Arduino-Library
https://github.com/SolderedElectronics/Soldered-WS2812-Smart-Leds-Arduino-Library
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JOY-IT DEBO THUMB JOY - Developer boards - joystick module JOY-IT DEBO THUMB JOY - Developer boards - joystick module 13.62 EUR Joystick module for various developer boards

With this board, the X and Y position of the joystick can be displayed as analogue voltage on the output pins.

The module can be firmly soldered or used on a breadboard.


  • Voltage range: 0 - 5 V
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SOLDERED DEBO IO EXPANDER - Developer boards - I/O expansion board, MCP23017 SOLDERED DEBO IO EXPANDER - Developer boards - I/O expansion board, MCP23017 14.5 EUR The GPIO Expander MCP23017 is an efficient solution to the problem of the limited number of input/output (IO) pins on microcontrollers. By utilizing I2C communication, this expander allows the addition of 16 additional fully configurable pins that can be connected to any microcontroller with just two wires.

  • expands microcontrollers by 16 additional IO pins via I2C communication
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Technical data
  • Dimensions: 38 mm x 22 mm
  • Normal current consumption: 1 mA
  • current consumption at standstill: 1 µA
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  • Connections: easyC x2
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  • Holes for mounting: 2


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easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Soldered-MCP23017-Port-Expander-Arduino-Library
https://github.com/SolderedElectronics/IO-expander-MCP23017-breakout-hardware-design
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FREI RPI RTC CLOCK - Raspberry Pi - Real-Time Clock Module (RTC), DS3231SN FREI RPI RTC CLOCK - Raspberry Pi - Real-Time Clock Module (RTC), DS3231SN 14.71 EUR Real time clock module for Raspberry Pi with very high accuracy.

Technical data

• for all current Raspberry Pi versions
• high accuracy
• energy efficient
• 2 calendar clocks
• 1 Hz and 32.768 kHz output
• I2C bus (400 kHz)
• voltage: 2.3 ... 5.5 V DC
• digital temperature sensor
• dimensions: 15 x 13 x 14 mm
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  • enables the emission of light in red, green and blue as well as combinations of these colors
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  • integrated controller in each LED
  • diodes are arranged in a circle on the board


Thanks to the integrated controller, each WS2812B LED can be controlled individually, which simplifies programming and at the same time offers a wide range of possibilities for lighting designs. The circular arrangement of the LEDs on the board is not only aesthetically pleasing, but also expands the creative application possibilities, from dynamic lighting effects to signaling applications.

Technical specifications
  • Number of LEDs: 12
  • Voltage: 5 V
  • LED type: WS2812B
  • Current: 18 mA per LED
  • Circuit outer diameter: 40 mm


Overall, this LED board provides a simple and efficient way to create colorful and dynamic lighting arrangements with minimal programming knowledge, making it ideal for art, event or product design projects. The WS2812B LEDs offer a cost-effective and accessible solution for individually controllable lighting concepts.

External links
https://github.com/SolderedElectronics/Soldered-WS2812-Smart-Leds-Arduino-Library
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SOLDERED DEBO GAS4 MQ135 - Developer boards - Gas sensor, CO2/petrol/smoke, MQ-135 SOLDERED DEBO GAS4 MQ135 - Developer boards - Gas sensor, CO2/petrol/smoke, MQ-135 17.29 EUR The MQ135 sensor has a wide range of applications in indoor air quality monitoring, gas leak detection and environmental detection.

In addition to carbon dioxide (CO2), it also detects other gases such as volatile organic compounds (VOCs), alcohol vapors and smoke. By integrating with circuits and microcontrollers such as Arduino (or a compatible board such as Dasduino), real-time systems can be developed to track and analyze gas levels. This allows appropriate action to be taken to ensure a healthy and safe environment.

The MQ135 module requires a preheating time before accurate readings are available. It operates at 5 V and consumes approximately 150 mA.

The breakout of the MQ135 sensor provides both digital and analog data that can be retrieved via the easyC system.


Technical data
  • Measure: max. ammonia (NH3),CO2, alcohol, benzene, smoke
  • Voltage: 3.3 V
  • Output: digital
  • ATTiny404 microcontroller
  • easyC/Qwiic compatibility
  • Dimensions: 54 x 22 mm


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Air-quality-sensor-MQ135-breakout-with-easyC-hardware-design
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SOLDERED DEBO GAS3 MQ135 - Developer boards - Gas sensor, CO2/petrol/smoke, MQ-135 SOLDERED DEBO GAS3 MQ135 - Developer boards - Gas sensor, CO2/petrol/smoke, MQ-135 14.07 EUR The MQ135 sensor can be used for various applications such as indoor air quality monitoring, gas leak detection and environmental sensors.

The main target gas is carbon dioxide (CO2), but it is also sensitive to a range of other gases, including volatile organic compounds (VOCs), alcohol vapors, benzene, smoke and other harmful gases. By integrating the MQ135 sensor with suitable electronic circuitry and microcontrollers such as Arduino (or a compatible board such as Dasduino), systems can be created that enable real-time monitoring and analysis of gas concentrations.

The breakout board supports both digital (DO) and analog signals (AO). The digital output signal is obtained by setting a threshold value with a potentiometer. The analog output signal varies depending on the intensity of the gas.

The MQ135 air quality sensor module operates at 5V and consumes about 150mA. It requires preheating to provide accurate results.


Technical specifications
  • max. operating voltage: 5 V
  • max. current consumption: 150 mA
  • Detection/measurement: NH3, Nox,CO2, alcohol, benzene, smoke
  • digital output: 0 to 5 V (TTL logic) @ 5 V Vcc
  • analog output: 0 to 5 V @ 5V Vcc
  • Dimensions: 22 x 38 mm


Please note
Attention: The sensor gets warm during operation!

external links
https://github.com/SolderedElectronics/Air-quality-sensor-MQ135-breakout-hardware-design
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SOLDERED DEBO MINI PCB - Developer boards - Mini prototyping board, 170 contacts SOLDERED DEBO MINI PCB - Developer boards - Mini prototyping board, 170 contacts 11.76 EUR Arduino (or a compatible board such as Dasduino) provide an optimal basis for building electronic projects. This product combines the simplicity of a breadboard with the functionality of a printed circuit board.

  • compatible with Arduino and Dasduino
  • same size as a modular mini breadboard
  • includes female headers for direct connections
  • enables the transition from temporary to permanent connections
  • two mounting holes for secure mounting


The product combines the advantages of a breadboard and a printed circuit board. It has the same size as a modular mini breadboard and offers identical connections to the pins. The socket connectors make it easy to insert and remove components. Once the circuit has been tested, it can be permanently transferred to the PCB by soldering all parts. The two fixing holes in the middle of the board allow the board to be fixed securely.

The availability of female headers makes the product particularly flexible for use in different projects. This promotes fast and efficient prototype development.

Technical data
    Number of holes: 170
  • Mounting holes: 2
  • Dimensions: 46 mm x 33 mm


The combined breadboard and PCB offers a practical solution for the development and implementation of electronic projects and supports a seamless transition from prototyping to final implementation.
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ANALOG DEVICES DS 1307Z - Serial real-time clock, 56 byte clock/calendar, 8-pin SOIC ANALOG DEVICES DS 1307Z - Serial real-time clock, 56 byte clock/calendar, 8-pin SOIC 11.76 EUR DS1307, Serial, I2C Real-Time Clock

Description:
The DS1307 serial RTC is a low-power, full BCD clock/calendar plus 56 bytes of NV SRAM. Address and data are transferred serially through an I2C, bidirectional bus. The clock/calendar provides seconds, minutes, hours, day, date, month, and year information. The end of the month date is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock operates in either the 24-hour or 12-hour format with AM/PM indicator. A built-in power-sense circuit that detects power failures and automatically switches to the backup supply. Timekeeping operation continues while the part operates from the backup supply.

Features
• Completely Manages All Timekeeping Functions
o Real-Time Clock Counts Seconds, Minutes, Hours, Date of the Month, Month, Day of the Week, and Year with Leap-Year Compensation Valid Up to 2100
o 56-Byte, Battery-Backed, General-Purpose RAM with Unlimited Writes
o Programmable Square-Wave Output Signal
• Simple Serial Port Interfaces to Most Microcontrollers
o I2C Serial Interface
• Low Power Operation Extends Battery Backup Run Time
o Consumes Less than 500nA in Battery-Backup Mode with Oscillator Running
o Automatic Power-Fail Detect and Switch Circuitry
• 8-Pin DIP and 8-Pin SO Minimizes Required Space
• Underwriters Laboratories® (UL) Recognized
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SOLDERED DEBO RS485 - Developer board - RS485 transceiver SOLDERED DEBO RS485 - Developer board - RS485 transceiver 18.21 EUR This module enables the connection of an Arduino (or a compatible board such as Dasduino) to an RS-485 communication protocol. The RS-485 is used for data transmission over long distances (up to 1200 m) at 20 Mbps and in noisy environments such as industrial applications. The module operates at 5 V and requires between 120 µA and 500 µA current.

  • compatible with Arduino and Dasduino
  • supports RS-485 communication
  • Range up to 1200 m
  • Data transfer rate up to 20 Mbps
  • Power consumption between 120 µA and 500 µA


The module is designed for applications in noisy environments and ensures stable data transmission over long distances. The use of a female connector ensures a simple and secure connection to the microcontroller. The RS-485 interface offers reliable communication that is insensitive to electromagnetic interference. The module is particularly suitable for industrial applications where stable and fast data transmission is required.

Technical data
  • Voltage: 5 V
  • based on: SN65176BDR
  • Dimensions: 38 x 22 mm


The module offers an efficient solution for extending microcontroller systems with a robust communication interface that works reliably in demanding environments.

External links
https://github.com/SolderedElectronics/RS-485-Transceiver-breakout-hardware-design
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FREI DS 1307 - Serial real-time clock, 56byte clock/calendar, DIP-8 FREI DS 1307 - Serial real-time clock, 56byte clock/calendar, DIP-8 13.93 EUR DS1307, Serial, I2C Real-Time Clock

Description:
The DS1307 serial RTC is a low-power, full BCD clock/calendar plus 56 bytes of NV SRAM. Address and data are transferred serially through an I2C, bidirectional bus. The clock/calendar provides seconds, minutes, hours, day, date, month, and year information. The end of the month date is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock operates in either the 24-hour or 12-hour format with AM/PM indicator. A built-in power-sense circuit that detects power failures and automatically switches to the backup supply. Timekeeping operation continues while the part operates from the backup supply.

Features
• Completely Manages All Timekeeping Functions
o Real-Time Clock Counts Seconds, Minutes, Hours, Date of the Month, Month, Day of the Week, and Year with Leap-Year Compensation Valid Up to 2100
o 56-Byte, Battery-Backed, General-Purpose RAM with Unlimited Writes
o Programmable Square-Wave Output Signal
• Simple Serial Port Interfaces to Most Microcontrollers
o I2C Serial Interface
• Low Power Operation Extends Battery Backup Run Time
o Consumes Less than 500nA in Battery-Backup Mode with Oscillator Running
o Automatic Power-Fail Detect and Switch Circuitry
• 8-Pin DIP and 8-Pin SO Minimizes Required Space
• Underwriters Laboratories® (UL) Recognized
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IDUINO ARD RTC DS1307 - Arduino - RTC - Real Time Clock, Tiny RTC Module, 24C3232K IDUINO ARD RTC DS1307 - Arduino - RTC - Real Time Clock, Tiny RTC Module, 24C3232K 11.19 EUR Real-time clocks (RTCs) are, as the name suggests, clock devices. The DS1307 real-time clock IC is an 8-pin device with an I2C interface, a low-power calendar with 56 bytes of battery-backed SRAM. The clock/calendar provides seconds, minutes, hours, day, date, month and year. The end date of each month is automatically adjusted, especially for months with less than 31 days.

The main advantage of RTCs is that they have battery backup, which keeps the clock/calendar running even in the event of a power failure. An exceptionally small amount of power is required to keep the RTC running.

Technical features
  1. DS1307 RTC
  2. I²C interface
  3. for LIR2032 (not included)
  4. less than 500 nA in backup mode
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JOY-IT DEBO EEPROM 32KB - Developer boards - 32 KB EEPROM module, I2C JOY-IT DEBO EEPROM 32KB - Developer boards - 32 KB EEPROM module, I2C 13.04 EUR This EEPROM memory allows you to store and read data externally via the I2C interface of your microcontroller.
The last three digits of the I2C address can be set via jumpers on the board, which makes it possible to use several modules at the same time.

Via an additional jumper the write protection of the module can be activated, whereby the data can only be read.

Specifications

• Supply voltage: 1,8 ... 5,5 V
• Model AT24C256
• logic level: VCC
• Interface: I2C (@1010XXX, 0x50 - 0x57)
• Memory size: 32 KB
• clock frequency: up to 1 MHz
• write cycles: up to 1.000.000
• exchangeable memory chip
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SOLDERED DEBO GAS MQ137 - Developer boards - Gas sensor, ammonia, MQ-137 SOLDERED DEBO GAS MQ137 - Developer boards - Gas sensor, ammonia, MQ-137 31.97 EUR The MQ137 gas sensor detects the presence of ammonia (NH3).

It is sensitive to liquids, but is also suitable for gases. The warm-up time of the sensor is short, which increases its efficiency. The breakout board enables the processing of digital (DO) and analog (AO) signals. By setting the limits using the potentiometer, a digital output can be generated, while the analog output reflects the gas intensity in its environment. Both signals provide information for the detection of ammonia with an Arduino (or a compatible board such as Dasduino).

Technical specifications
  • voltage: 5 V
  • digital output: 0 V / 5 V
  • analog output: 0 .. 5 V
  • LM393 comparator
  • Dimensions: 38 x 22 mm


External links
https://github.com/SolderedElectronics/Ammonia-sensor-MQ137-breakout-hardware-design
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JOY-IT DEBO SENS HEART - Developer boards - heartbeat sensor JOY-IT DEBO SENS HEART - Developer boards - heartbeat sensor 15.48 EUR Heartbeat sensor

If a finger is held between the infrared LED and photo transistor, the pulse can be detected at the signal output.

The module can be firmly soldered or used on a breadboard.

  • Operating voltage: 5 V
  • Dimensions: 16 x 78 x 3 mm
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SOLDERED DEBO EASYC 50CM - Developer boards - EasyC cable, 50cm SOLDERED DEBO EASYC 50CM - Developer boards - EasyC cable, 50cm 11.35 EUR The easyC system enables easy connection of microcontroller boards, sensors and actuators for fast prototyping without errors. The modules are connected via simple, prefabricated cables. easyC modules have suitable connections for these cables and are based on I2C communication.

  • easyC compatible cable
  • easyC connections at both ends
  • Cable length: 50 cm
  • simple and error-free connection
  • suitable for Arduino (or a compatible board such as Dasduino)


The easyC compatible cable is specially designed for easy integration into the easyC system. It has easyC connectors at both ends and a cable length of 50 cm, which allows flexible handling and installation. The modules' prefabricated cables and socket connectors ensure a reliable and secure connection. The I2C-based communication allows efficient and error-free data transmission between the connected components. This cable is particularly suitable for use with Arduino (or a compatible board such as Dasduino), which extends the versatility and range of applications of the easyC system.

In summary, the easyC compatible cable provides a reliable and efficient solution for connecting microcontroller boards, sensors and actuators in the easyC system, supported by I2C communication.
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SOLDERED DEBO SEN ULTRA3 - Developer boards - Ultrasonic distance sensor, HC-SR04 SOLDERED DEBO SEN ULTRA3 - Developer boards - Ultrasonic distance sensor, HC-SR04 15.43 EUR The HC-SR04 ultrasonic sensor is an inexpensive and extremely popular sensor that measures the distance to an object in front of it and indicates this in centimeters or inches. This variant is integrated on a board with an Attiny microcontroller, which transmits measurement data digitally via the easyC connection to a microcontroller such as Arduino (or a compatible board such as Dasduino), thus enabling simple connection.

  • precise distance measurement in cm and inches
  • integrated Attiny microcontroller
  • transmission via easyC connection
  • compatible with Arduino (or a compatible board such as Dasduino)
  • easy handling and connection


The HC-SR04 sensor facilitates the measurement of distances through direct digital signal transmission, which speeds up and simplifies the processing of data. The integrated Attiny microcontroller board increases reliability and reduces potential sources of error that can occur with separate connection solutions. Compatibility with Arduino and other compatible boards makes the sensor particularly suitable for a wide range of applications in robotics, automation and educational projects. Easy integration into existing projects without extensive prior knowledge makes the HC-SR04 an ideal tool for developers and hobbyists.

Technical data
  • Range: 2 ... 400 cm
  • Accuracy: 1 cm
  • Measuring angle: 15 degrees
  • Voltage: 5 V
  • ATTINY404 microcontroller on board
  • easyC/Qwiic compatibility
  • Dimensions: 38 x 22 mm


The HC-SR04 ultrasonic sensor with Attiny microcontroller is an efficient and user-friendly solution for precise distance measurements, especially due to its simple connection option and high compatibility.

easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Soldered-Ultrasonic-Sensor-easyC-Arduino-Library
https://github.com/SolderedElectronics/Ultrasonic-sensor-with-easyC-hardware-design
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SOLDERED DEBO SLIDE POTI2 - Developer boards - Sliding potentiometer, 10k Ohm SOLDERED DEBO SLIDE POTI2 - Developer boards - Sliding potentiometer, 10k Ohm 12.64 EUR Potentiometers are variably adjustable resistors that allow precise control over an electrical circuit. Arduino (or a compatible board such as Dasduino) supports the use of sliding potentiometers, which adjust the voltage by manually moving the slider. This feature makes them particularly useful in audiovisual applications and user interfaces.


  • the device allows manual adjustment of the resistance values and control of the circuits
  • compatible with Arduino (or a compatible board such as Dasduino)
  • provides precise voltage control, ideal for audiovisual devices
  • easy integration into existing projects due to standardized connections
  • Cost effective and widely used in education and prototyping


Sliding potentiometers offer precise and repeatable adjustment of resistance values, making them ideal for use in educational environments and prototyping. Their ease of use and precise controllability promote the understanding of electrical circuits and facilitate implementation in interactive projects. Arduino (or a compatible board such as Dasduino) allows easy connection and programming of sliding potentiometers, which encourages experimentation and innovation. The standardization of connections also facilitates integration into various circuits without extensive customization.

Technical data
  • Type: linear
  • Electrical resistance: 10 k Ohm
  • Dimensions: 86 x 22 mm


In conclusion, sliding potentiometers offer an efficient and practical solution for the precise control of electrical circuits. Their compatibility with Arduino (or a compatible board such as Dasduino) as well as their cost-effective procurement and ease of use make them a valuable addition to educational projects and prototyping.
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SOLDERED DEBO SLIDE POTI3 - Developer boards - Sliding potentiometer, 10k Ohm SOLDERED DEBO SLIDE POTI3 - Developer boards - Sliding potentiometer, 10k Ohm 14.5 EUR Arduino (or a compatible board such as Dasduino) offers an efficient solution for integrating a sliding potentiometer into your project. This board is characterized by its simple connection via the easyC ecosystem, which allows connection using standard cables without soldering. Controlling the sliding potentiometer is extremely simple.

  • compatible with Arduino (or a compatible board such as Dasduino) for seamless integration
  • uses the easyC ecosystem for simple connections
  • no soldering required as standard cables can be used
  • simple control of the sliding potentiometer
  • ideal application in music devices and other projects


The sliding potentiometer enables precise control and adjustment of parameters in electronic devices. By implementing the easyC ecosystem, the physical connection of the potentiometer to Arduino (or a compatible board such as Dasduino) is simplified. The use of standardized cables eliminates the need for soldering, which speeds up and simplifies installation. This makes the board particularly attractive for developers looking for a quick and efficient solution for implementing control components in their projects.

Technical data
  • Type: linear
  • Resistance: 10 k Ohm
  • easyC/Qwiic compatibility
  • Dimensions: 86 x 22 mm


To summarize, the sliding potentiometer board is a user-friendly and efficient solution for those who want to add precise control elements to their electronic projects. By using the easyC ecosystem, the installation and integration of the potentiometer into existing systems is considerably simplified.

easyC
easyC is a robust connection system that optimizes the connection using JST-SH compatible connectors (JST 4-pin) of microcontrollers, sensors and actuators. It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Soldered-Slider-Potentiometer-with-easyC-Arduino-Library
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SOLDERED DEBO DAC 1CH - Developer boards - DAC, 6-bit, 1-channel, MCP47A1 SOLDERED DEBO DAC 1CH - Developer boards - DAC, 6-bit, 1-channel, MCP47A1 13.57 EUR The device uses the MCP4725, a single-channel 6-bit digital-to-analog converter with an I2C-compatible serial interface.

It does not have built-in EEPROM memory that would allow DAC register and configuration bit values to be stored when the power is off. It is recommended to use an Arduino (or a compatible board such as Dasduino) to realize the full potential of this device.

Technical specifications
  • max. resolution: 6-bit
  • Voltage: 1.8V ... 5,5 V
  • easyC/Qwiic compatibility
  • Dimensions: 38 x 22 mm


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Soldered-DAC-Breakout_MCP47A1-Arduino-Library
https://github.com/SolderedElectronics/DAC-6-bit-1-channel-MCP47A1-breakout-hardware-design
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SOLDERED DEBO LED STICK10 - Developer boards - LED strips, RGB, 10 LEDs, WS2812 SOLDERED DEBO LED STICK10 - Developer boards - LED strips, RGB, 10 LEDs, WS2812 13.57 EUR The WS2812B is an LED that is capable of emitting light in red, green or blue, or any combination of these three colors, allowing a total of approximately 16 million different colors to be displayed. These LEDs are arranged on a board in a row of 10 diodes. You can even connect several of these strips together. Control is via a single pin using a few lines of program from the Arduino IDE, made possible by the integrated controller within the LED itself.

  • each WS2812B LED can be controlled individually
  • supports approx. 16 million colors
  • simple control via Arduino (or a compatible board such as Dasduino)
  • requires only one control pin
  • diodes are arranged on a board in a row of 10


The WS2812B LED is characterized by its flexible color control and simple implementation. The ability to control each LED individually allows users to create detailed and dynamic lighting scenarios. Programming is done via the Arduino IDE, with only a few lines of program required to control the LEDs via a single pin. This is made possible by the integrated controller in each WS2812B LED, which simplifies color control and communication. The linear arrangement of the LEDs on the board and the ability to connect multiple boards together also allows for larger and customized installations.

Technical data
    Number of LEDs: 10
  • Voltage: 5 V
  • LED type: WS2812B
  • Current: Maximum 60 mA per LED
  • Dimensions: 80 x 10 mm


In conclusion, the WS2812B offers a highly efficient solution for individual and dynamic LED lighting projects. Its easy integration into Arduino-based projects and support for a variety of colors make it an attractive choice for developers and hobbyists who want to personalize their environment with vibrant lighting scenarios.

External links
https://github.com/SolderedElectronics/Soldered-WS2812-Smart-Leds-Arduino-Library
https://github.com/SolderedElectronics/Smart-LED-WS2812B-Stick10-hardware-design
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SOLDERED DEBO SEN LI-ION - Developer boards - Li-Ion battery protection SOLDERED DEBO SEN LI-ION - Developer boards - Li-Ion battery protection 12.22 EUR A battery protector is a device that protects your lithium battery of any capacity against overcharging, deep discharge, overcurrent and short circuit. This small PCB module is equipped with a JST connector to which the battery can be connected or soldered directly.

  • the battery protection prevents damage caused by overcharging and deep discharge
  • it also protects against overcurrent and short circuits
  • the module can be used universally for lithium batteries of all capacities
  • It contains a JST connection for the battery
  • direct soldering of the battery to the module is possible


The use of battery protection is essential for the safety and longevity of lithium batteries. Protection against overcharging and deep discharge ensures that the battery is operated within its specified limits, which significantly reduces the risk of battery failure and the associated safety risks. Protection against overcurrent and short circuits prevents further potential damage that could be caused by external factors. The ability to solder the battery directly provides additional flexibility for integration into various applications. The use of Arduino (or a compatible board such as Dasduino) provides additional programmability and customizability for specific projects.

Technical specifications
  • Protection against: Undervoltage, overvoltage, overcurrent, short circuit current
  • Protection IC: DW01
  • Battery configuration: 1S1P (1-serial, 1-parallel)
  • Battery type: Li-Ion, Li-Poly
  • Dimensions: 22 x 22 mm


To summarize, battery protection is an indispensable tool for the safe operation of lithium batteries. It not only offers protection against common hazards such as overcharging and short circuits, but also enables customizable integration into a wide variety of projects. By using this module, developers can ensure that their battery applications function reliably and safely.

External links
https://github.com/SolderedElectronics/1S-Li-Ion-battery-protection-hardware-design
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SOLDERED DEBO I2C LCDDRV - Developer boards - Display adapter, I2C SOLDERED DEBO I2C LCDDRV - Developer boards - Display adapter, I2C 17.29 EUR This adapter makes it easy to connect LCDs to an Arduino (or a compatible board such as Dasduino). It uses I2C communication and requires only two pins. Compatible with all LCD displays offered (16×2, 20×4, 16×4). Use of the Arduino library for quick commissioning of the LCD.

  • Simple connection via I2C
  • Only two pins required
  • compatible with 16×2, 20×4 and 16×4 LCD displays
  • Supports Arduino and compatible boards
  • quick commissioning with Arduino library


The adapter offers an efficient solution for integrating LCD displays into Arduino projects. By using the I2C interface, only two pins are occupied, which increases the availability of GPIO pins for other applications. The adapter is compatible with a wide range of LCD displays, including the popular 16×2, 20×4 and 16×4 formats. The Arduino library simplifies programming and enables quick and easy control of the LCD displays. The female header facilitates the connection and provides a stable and reliable interface between the LCD and the Arduino board.

Technical data
    I2C address: 0x20 (HEX)
  • Voltage: 3.3 V
  • Potentiometer for contrast
  • for HDD44780 LCD driver
  • easyC/Qwiic compatibility


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

In summary, this adapter is a practical and flexible solution for efficiently integrating LCD displays into Arduino projects. Its easy installation and wide compatibility make it a valuable component for developers and engineers.

External links
https://github.com/SolderedElectronics/Soldered-16x2-LCD-Arduino-Library
https://github.com/SolderedElectronics/I2C-LCD-driver-board-hardware-design
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SOLDERED DEBO DIGI 50K - Developer boards - Digital potentiometer, 50k SOLDERED DEBO DIGI 50K - Developer boards - Digital potentiometer, 50k 13.57 EUR A digital potentiometer is a device that is identical to a potentiometer, with the difference that it uses digital communication instead of a physical rotating part that sets the resistance. More specifically, the resistance of the digital potentiometer is set via I2C communication.

The module is based on the MCP4018 IC, which has a total of 128 steps between 0 and 50k resistance values. This means that it is capable of performing resistance steps of approximately 390 ohms. It is controlled via I2C, which makes it extremely easy to use.

Technical data
  • Voltage: 1.8 ... 5 V
  • Potentiometer resistance: 50 k Ohm
  • Wipper resistance: 100 Ohm
  • easyC/Qwiic compatibility
  • Dimensions: 22 x 22 mm


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Digipot-50k-MCP4018-breakout-hardware-design
https://github.com/SolderedElectronics/Soldered-Digipot-MCP4018-Arduino-Library
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SOLDERED DEBO DIGI 100K - Developer boards - Digital potentiometer, 100k SOLDERED DEBO DIGI 100K - Developer boards - Digital potentiometer, 100k 13.57 EUR A digital potentiometer is a device that is identical to a potentiometer, with the difference that it uses digital communication instead of a physical rotating part that sets the resistance. More specifically, the resistance of the digital potentiometer is set via I2C communication.

The module is based on the MCP4018 IC, which has a total of 128 steps between 0 and 100k resistance values. This means that it is capable of performing resistance steps of approximately 781 ohms. It is controlled via I2C, which makes it extremely easy to use.

Technical data
  • Voltage: 1.8 ... 5 V
  • Potentiometer resistance: 100 k Ohm
  • Wipper resistor: 100 Ohm
  • easyC/Qwiic compatibility
  • Dimensions: 22 x 22 mm


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Digipot-100k-MCP4018-breakout-hardware-design
https://github.com/SolderedElectronics/Soldered-Digipot-MCP4018-Arduino-Library
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SOLDERED DEBO PCB PROTO - Developer boards - PCB plug-in board/proto board SOLDERED DEBO PCB PROTO - Developer boards - PCB plug-in board/proto board 13.15 EUR This product is a PCB that also serves as a protoboard. It combines the simplicity and functionality of a breadboard. With the dimensions of a semi-modular plug-in board and identical connections for pins, this board enables the consolidation of temporary circuits.

    The PCB is both a protoboard and a breadboard
  • it has the dimensions and connections of a semi-modular breadboard
  • the board enables temporary circuits to be converted into permanent ones
  • it has three mounting holes for secure placement on different surfaces


The Arduino (or a compatible board such as Dasduino) can be connected directly to this PCB, allowing seamless integration into existing projects. The standardized dimensions and pin connections facilitate the use and expansion of prototypes. The mounting holes support a versatile application and provide stability for various locations. Its dual function as a protoboard and breadboard simplifies the transition from the prototyping phase to final implementation.

Technical specifications
  • Number of holes: 400
  • Mounting holes: 3
  • Dimensions: 84 ... 54 mm


In conclusion, this product is a valuable resource for developers looking for a reliable and flexible solution for permanent circuit set-up. The combination of modularity and robustness makes it an indispensable tool in electronics development.

External links
https://github.com/SolderedElectronics/PCB-breadboard-hardware-design
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SOLDERED DEBO RELAY 2CH - Developer boards - Relay, 2 channel, SRD-05VDC-SL-C SOLDERED DEBO RELAY 2CH - Developer boards - Relay, 2 channel, SRD-05VDC-SL-C 18.17 EUR Relay, 2 channel, SRD-05VDC-SL-C

If you want to switch a device with a high current or voltage requirement on and off, whether with direct current or alternating current, you need a relay. A relay is an electronic switch that is activated by a signal we send from an Arduino (or a compatible board like Dasduino). This module further simplifies the whole process as it contains everything you need for the relay and you only need to connect it to the microcontroller and the power supply. You don't even have to worry about voltages and currents, isolation between high and low voltage or grounding as everything is already accounted for on the board.

Technical data
  • max. DC voltage and current: 30V, 10A
  • max. AC voltage and current: 250V, 10A
  • Number of relays: 2 relays
  • Dimensions: 54 x 38 mm


external links
https://github.com/SolderedElectronics/2-channel-relay-board-hardware-design
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SOLDERED DEBO RS232 MAX - Developer boards - RS232 interface, MAX232 SOLDERED DEBO RS232 MAX - Developer boards - RS232 interface, MAX232 14.5 EUR The RS-232 protocol is a widely used standard protocol for communication between two devices.

It is a full-duplex protocol, which means that it can receive and send data simultaneously. The data is transmitted with voltages from +3V to +15V for a digital ''one'' and from -3V to -15V for a digital ''zero''. This provides a secure environment for data transmission that is resistant to noise or interference. For this reason, RS-232 is often used in industry. This module converts serial communication to RS-232.


Technical data
  • Voltage: 3.3 - 5.5 V
  • Communication lines: TX, RX
  • IC: MAX232
  • Dimensions: 38 x 38 mm
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SOLDERED DEBO SENS INA219 - Developer boards - Current sensor, INA219 SOLDERED DEBO SENS INA219 - Developer boards - Current sensor, INA219 16.82 EUR The INA219 is a digital measuring device that measures current, voltage and therefore power. It connects via the I2C communication interface and is particularly suitable for Arduino (or a compatible board such as Dasduino) due to its simplicity and reliability.

  • the INA219 uses a shunt resistor of 0.1 Ohm for current measurement up to 3.2 A
  • the device allows the measurement of power in both directions
  • the maximum voltage that can be measured is 26 V
  • adjustment of the shunt resistor enables more accurate measurements of lower currents
  • the I2C address can be changed via a jumper, allowing several INA219s to be connected to one microcontroller


The device is characterized not only by its flexibility in addressing and the ability to measure power in both directions, but also by its reliability in the precision of the measurement data. For detailed customization and more precise applications, the built-in shunt resistor can be adjusted by consulting the data sheet. This customizability makes the INA219 particularly useful for development projects and experimental applications where different current ranges need to be measured. Furthermore, the simplicity of connection and reliable data transmission via I2C supports integration into existing projects.

Technical data
  • Power supply: 3 ... 5 V
  • maximum measuring voltage: 26 V
  • maximum measuring current: 3.2 A
  • ADC: 12-bit
  • easyC/Qwiic compatibility
  • Dimensions: 38 x 22 mm


In summary, the INA219 offers a robust solution for measuring electrical quantities, characterized by adaptability, accuracy and ease of use. It is particularly suitable for use with Arduino or compatible boards, making it an indispensable tool in the world of electronics.

easyC
easyC is a robust connection system that optimizes the connection using JST-SH compatible connectors (JST 4-pin) of microcontrollers, sensors and actuators. It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/Soldered-INA219-Current-Sensor-Arduino-Library
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SOLDERED DEBO I2C-MULTI3 - Developer boards - I2C multiplexer, TCA9548A SOLDERED DEBO I2C-MULTI3 - Developer boards - I2C multiplexer, TCA9548A 15.43 EUR The I2C Multiplexer (I2C MUX) is an innovative solution to the common problem of connecting several I2C devices with identical addresses to one controller. Based on the TCA9548A IC, this breakout enables up to eight devices with the same address to be connected to the same I2C bus.

  • enables the connection of up to 8 devices with identical I2C addresses to one bus
  • is based on the TCA9548A IC with three configurable address pins for a total of 8 different addresses
  • enables expansion to up to 64 devices on one bus through address multiplexing
  • supports the connection of devices such as the BME680 sensor
  • compatible with easyC for simplified connection options


The I2C MUX significantly expands the possibilities of device networking by allowing multiple identical sensors or components to be operated on a single bus without conflicts due to address duplication. Setting the I2C addresses through the pins on the TCA9548A IC allows flexible adaptation of the network topology, which is an advantage in complex systems. In particular, the ability to connect up to 64 identical devices such as BME680 sensors to one microcontroller significantly increases the efficiency and scalability of projects.

Technical data
  • Based on: TCA9548A
  • Voltage: 1.65 ... 5,5 V
  • Standard I2C address: 0x70, configurable via 3 jumpers
  • easyC/Qwiic compatibility
  • Dimensions: 54 mm x 38 mm


Conclusion: The use of an I2C multiplexer, especially the model based on the TCA9548A, offers a significant solution for developers who want to overcome the limitations of conventional I2C communication and effectively manage complex or extensive device networks. Its compatibility with the easyC system further simplifies the setup and management of connections.

easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://github.com/SolderedElectronics/I2C-multiplexer-TCA9548A-breakout-hardware-design
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SOLDERED DEBO GESTURE RGB - Developer boards - Gesture recognition / RGB sensor, APDS-9960 SOLDERED DEBO GESTURE RGB - Developer boards - Gesture recognition / RGB sensor, APDS-9960 15.43 EUR The APDS-9960 is a small sensor that performs four different measurements simultaneously. It detects movements in front of it (up, down, left, right) and can identify the proximity of objects. It also has an ambient light sensor and a color sensor that provides red, green and blue (RGB) output. This sensor with its many functions was even built into the Samsung Galaxy S5 smartphone.

All gestures are recognized at a distance of 10 to 20 cm, and the sensor has built-in UV and IR filters to ensure that it is not confused by other light sources. The connection is made via the familiar I2C communication.

Due to its long service life, the breakout board can be used for a long time without concern. To prevent damage to the sensor, it should not be immersed in water or frozen. Highly corrosive gases weaken the sensor considerably.

Technical data
  • Voltage: 3.3 V
  • Voltage I2C: 3.3 V
  • easyC/Qwiic compatibility
  • Dimensions: 38 x 22 mm


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

External links
https://soldered.com/learn/hum-apds-9960/
https://github.com/SolderedElectronics/Soldered-APDS9960-Light-Gesture-Color-Sensor-Arduino-Library
https://github.com/SolderedElectronics/Color---gesture-sensor-APDS-9960-breakout-hardware-design
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SOLDERED DEBO CAN MCP2518 - Developer boards - CAN module, MCP2518 SOLDERED DEBO CAN MCP2518 - Developer boards - CAN module, MCP2518 26.48 EUR Controller Area Network (CAN) technology is an essential component in modern automotive applications, enabling fast and reliable communication between microcontrollers. The use of the MCP2518FD CAN controller on our breakout board extends the functionality by supporting both the classic CAN 2.0B and the extended CAN Flexible Data (FD) standard.


  • uses MCP2518FD CAN controller for high performance communication
  • supports CAN 2.0B and CAN FD for flexible data transmission
  • Communication via SPI protocol ensures efficient microcontroller interaction
  • physical access to the CAN bus via CANH and CANL pins
  • integrated 120 Ohm terminator, connectable via a jumper


The breakout board provides a high-performance interface between the CAN network and microcontrollers via SPI, enabling reliable transmission of data in real time. Compatibility with both CAN standards allows a wide range of applications in various systems, from classic automotive applications to advanced industrial networks. Physical access to the CAN bus is facilitated by easily accessible terminal pins with screw terminals, allowing easy installation and maintenance. The integrated 120 Ohm terminator improves signal integrity, which is particularly beneficial in demanding environments.

Technical data
  • Standards: CAN 2.0B and CAN FD
  • Voltage: 2.7 ... 5 V
  • Current: from 10 µA to 12 mA
  • SPI interface
  • Dimensions: 38 mm x 22 mm


The use of our CAN breakout with the MCP2518FD CAN controller provides a robust solution for developers who require reliable and flexible data communication via the CAN network in their projects. With support for multiple standards and easy implementation, the board provides a valuable extension for a wide range of applications.

External links
https://github.com/SolderedElectronics/Soldered-CAN-Bus-Breakout-MCP2518-Arduino-Library
https://github.com/SolderedElectronics/CAN-Transceiver-MCP2518-board-hardware-design
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SOLDERED DEBO RELAY2 1CH - Developer boards - Relay, 1 channel with easyC, SRD-05VDC-SL-C SOLDERED DEBO RELAY2 1CH - Developer boards - Relay, 1 channel with easyC, SRD-05VDC-SL-C 17.75 EUR Relay with easyC, 1 channel, SRD-05VDC-SL-C

If you want to switch a device with a high current or voltage requirement on and off, whether with direct current or alternating current, you need a relay. A relay is an electronic switch that is activated by a signal we send from an Arduino (or a compatible board like Dasduino). This module further simplifies the whole process as it contains everything you need for the relay and you only need to connect it to the microcontroller and the power supply. You don't even have to worry about voltages and currents, isolation between high and low voltage or grounding as everything is already accounted for on the board.

Technical data
  • max. DC voltage and current: 30V, 10A
  • max. AC voltage and current: 250V, 10A
  • Number of relays: 1 relay
  • with easyC support
  • Dimensions: 70 x 22 mm


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

external links
https://github.com/SolderedElectronics/1-channel-relay-board-with-easyC-hardware-design
https://github.com/SolderedElectronics/Soldered-Relay-Arduino-Library
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SOLDERED DEBO ADC 12BIT - Developer boards - ADC, 4 channel, 12-bit, ADS1015 SOLDERED DEBO ADC 12BIT - Developer boards - ADC, 4 channel, 12-bit, ADS1015 16.36 EUR The analog-to-digital converter (ADC) is a device that reads analog signals and converts them into digital signals that can be interpreted by a microcontroller.

This module is based on the ADS1015 ADC and operates with a resolution of 12 bits. It can receive up to 3.3 V at its inputs and has a total of 4 channels, which can also be used as two differential channels. It is compatible with Arduino (or a compatible board such as Dasduino) and other microcontrollers powered by 5V. Two simple connectors allow easy connection via I2C communication.


Technical specifications
  • Voltage: 3.3 V
  • Resolution: 12-bit
  • Number of channels: 4
  • I2C communication
  • easyC/Qwiic compatibility
  • Dimensions: 22 x 22 mm


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

external links
https://github.com/SolderedElectronics/Soldered-ADS1015-ADS1115-ADC-Arduino-Library
https://github.com/SolderedElectronics/ADC-12-bit-ADS1015-4-channel-with-PGA-breakout-hardware-design
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SOLDERED DEBO ADC 16BIT - Developer boards - ADC, 4 channel, 16-bit, ADS1115 SOLDERED DEBO ADC 16BIT - Developer boards - ADC, 4 channel, 16-bit, ADS1115 19.1 EUR The analog-to-digital converter (ADC) is a device that reads analog signals and converts them into digital signals that can be interpreted by a microcontroller.

This module is based on the ADS1115 ADC and operates with a resolution of 16 bits. It can receive up to 3.3 V at its inputs and has a total of 4 channels, which can also be used as two differential channels. It is compatible with Arduino (or a compatible board such as Dasduino) and other microcontrollers powered by 5V. Two simple connectors allow easy connection via I2C communication.


Technical specifications
  • Voltage: 3.3 V
  • Resolution: 16-bit
  • Number of channels: 4
  • I2C communication
  • easyC/Qwiic compatibility
  • Dimensions: 22 x 22 mm


easyC
easyC is a robust connection system that optimizes the connection of microcontrollers, sensors and actuators using JST-SH compatible connectors (JST 4-pin). It offers solderless connections, serial connections of multiple devices (daisy-chaining), error-free design, parallel connection, universal compatibility and intermediate compatibility with Qwiic (Sparkfun connection system), simplifying prototype development. Further information on easyC can be found under ''Data sheets''.

external links
https://github.com/SolderedElectronics/Soldered-ADS1015-ADS1115-ADC-Arduino-Library
https://github.com/SolderedElectronics/ADC-16-bit-ADS1115-4-channel-with-PGA-breakout-hardware-design
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