Micro USB Female to DIP 5-Pin Adapter Breakout Board - Pack of 20
|+100 7 % $0.88|
|+300 11 % $0.85|
|+500 13 % $0.83|
|+1000 16 % $0.80|
The Micro USB Female to Through-Hole 5-Pin Adapter Breakout Board offers a compact and efficient solution for incorporating micro USB connectors into through-hole soldering projects. Designed with a female micro USB connector on one side and a 5-pin through-hole breakout on the other, this adapter simplifies the process of integrating modern USB technology into traditional electronics designs. Whether you're creating custom USB interfaces, connecting microcontrollers to external devices, or working on specialized projects, this breakout board provides a convenient bridge between micro USB connectors and through-hole soldering techniques.
Specificatoins of Micro USB Female to DIP 5-Pin Adapter Breakout Board0:
- Connector Type: Micro USB female connector to 5-pin through-hole breakout
- Pinout: VCC, D-, D+, ID, GND
- Dimensions: Compact form factor suitable for through-hole soldering projects
- Mounting: Through-hole pins for secure attachment to circuit boards
- Compatibility: Ideal for use with microcontrollers, development boards, and other through-hole components
Features of Micro USB Female to DIP 5-Pin Adapter Breakout Board0:
- USB Integration: The adapter seamlessly transitions between modern USB connectivity and traditional through-hole soldering, enabling easy integration of micro USB connectors into your projects.
- Versatile Pinout: The 5-pin breakout includes essential pins such as VCC, D-, D+, ID, and GND, facilitating a range of USB applications and connections.
- Simple Soldering: Designed for through-hole soldering techniques, the breakout board provides a straightforward means of incorporating micro USB connectors into your designs.
- Usage Tip:
- When soldering the breakout board, ensure the correct orientation of the pins and secure solder joints to prevent loose connections or improper functionality. Double-check the pinout before connecting to ensure proper signal and power distribution.