Stackable Header - 8 Pin (Extended)

DFRobot 8‑Pin Extra Long Female Header provides a practical stacking connector designed for shield-based prototyping and compact embedded electronics. This 0.1" pitch stacking header enables vertical expansion by allowing multiple boards to be layered while maintaining reliable electrical connections. Commonly used in shield-based ecosystems such as Arduino, this long‑leg socket connector simplifies hardware expansion and rapid prototyping. The extended pin length offers improved clearance between stacked boards, supporting complex multi‑shield configurations while maintaining mechanical stability and consistent signal routing across connected modules.

Extra‑Long Pins for Reliable Shield Stacking

This stacking female header features extended metal legs that provide sufficient clearance for layered electronics assemblies. Compared with standard female headers, the longer pin design allows multiple shields or interface boards to be stacked without mechanical interference. This board‑stacking connector ensures stable electrical contact while maintaining adequate spacing for components mounted on underlying boards. Such geometry is especially useful in robotics controllers, sensor stacks, and embedded development systems where vertical expansion and signal accessibility are essential.

Standard 0.1" Pitch for Broad Hardware Compatibility

This 8‑pin socket header follows the widely adopted 2.54 mm (0.1") pin spacing used by most development boards, expansion shields, and prototyping platforms. The standardized pitch allows seamless integration into breadboard‑compatible circuits, controller shields, and embedded hardware stacks. As a compact PCB stacking connector, this female header supports reliable electrical connections while preserving compatibility with widely used electronic development ecosystems and prototyping tools.

Reliable board stacking connectors simplify expansion for embedded systems, robotics prototypes, and electronic learning platforms. This long‑pin female header enables clean vertical stacking of shields, interface boards, and expansion modules while preserving stable signal connections. Such stacking hardware is commonly used in controller expansion setups, rapid prototyping circuits, and STEM learning electronics where modular hardware layering improves flexibility and reduces wiring complexity.

Basic Parameters