6 Pin Female Header-10 PCS

DFRobot 6‑Pin Female Header provides a compact and reliable connector solution for prototyping and circuit expansion on Arduino development boards and compatible electronics platforms. This standard 2.54 mm pitch socket header enables stable electrical connections for shields, jumper wires, and modular hardware assemblies. As a common through‑hole connector component used in embedded development, this female header strip simplifies board-to-board connections and rapid hardware integration while maintaining consistent pin alignment across common open‑source hardware ecosystems.

Standard 2.54 mm (0.1") Pitch Compatibility

This PCB socket connector uses the industry‑standard 0.1‑inch pin spacing widely adopted across development boards, sensor modules, and prototyping shields. Such spacing ensures direct compatibility with breadboards, expansion shields, and most through‑hole components used in embedded electronics projects. The 6‑position female header format supports compact signal routing while maintaining reliable contact pressure, making this connector strip suitable for rapid prototyping environments, electronics repair tasks, and modular hardware builds that rely on standardized pin spacing.

Reliable Connector for Prototyping and Board Expansion

This 6‑position socket header functions as a dependable interface component for stacking boards, extending I/O connections, or creating detachable circuit assemblies. The multi‑pin connector format supports consistent electrical contact while allowing quick installation onto PCBs using standard through‑hole soldering methods. As a common prototyping connector used in embedded hardware development, the female header strip provides stable mechanical alignment and repeatable connectivity for robotics controllers, sensor expansion boards, and educational electronics platforms.

Reliable pin alignment and standardized spacing make this connector strip suitable for electronics prototyping, robotics controller expansion, sensor module interfaces, and hardware learning environments. Compact dimensions and familiar header architecture allow seamless integration into custom PCBs, shield assemblies, and modular embedded systems used in maker projects, engineering prototypes, and STEM laboratory setups.

Basic Parameters