The S6B-PH-SM4-TB is a 6-position, 2mm pitch, shrouded header from JST's PH series. These headers are designed for wire-to-board connections, providing a secure and reliable interconnection solution in various electronic applications. The shrouded design offers protection to the contacts, preventing accidental damage and ensuring proper mating.

Applications

• Consumer electronics
• Industrial control equipment
• Office automation equipment
• Medical devices
• Data communication equipment

Features

• Compact Design: 2mm pitch allows for high-density mounting on PCBs.
• Shrouded Header: Protects the contacts from damage and ensures correct mating.
• Secure Connection: Provides a reliable electrical connection between wires and the PCB.
• RoHS Compliant: Complies with RoHS directives, ensuring environmental friendliness.
• Durable Construction: Designed for long-lasting performance in demanding applications.

Benefits

• Space Saving: The small footprint is ideal for applications where board space is limited.
• Increased Reliability: The shrouded design minimizes the risk of accidental disconnections.
• Ease of Use: Simple and quick to mate with corresponding connectors.
• Reduced Maintenance: The robust design minimizes the need for frequent maintenance.
• Environmentally Friendly: RoHS compliance ensures that the product is free from harmful substances.

Additional Details

The S6B-PH-SM4-TB is typically used with JST's PH series crimp terminals and housings. It is designed for surface mount soldering onto PCBs. The header material is typically a high-temperature thermoplastic, allowing it to withstand reflow soldering processes. Current rating is typically around 2A and voltage rating is typically 100V, but it is crucial to consult the official datasheet for specific values as they can vary with the specific application. The flammability rating is UL94V-0. It's essential to use the correct mating connector to ensure a secure and reliable connection. Consult the JST documentation for recommended tooling and mating connectors for optimal performance.