Our SATA connector series is designed for stable data transmission and high reliability. With customizable pin count, pitch, materials, and plating specifications, we offer tailored solutions for diverse applications. Produced in our automated facilities with strict quality control, these connectors ensure excellent durability, heat resistance, and hot-swap performance. Widely used in computers, servers, and industrial storage devices, they deliver precision connection and long-lasting performance.
ShuangYi Precision — Powering Smarter Connections.
Why Choose Us:
• Free samples available for quality evaluation.
• Support for both OEM & ODM customization.
• Trade Terms: EXW, FOB, CIF, CPT, etc.
Notice: The displayed price is only for reference. Contact us now for the best offer and detailed quotation!
This 2.54mm pitch 1×3 single-row pin header connector offers reliable electrical and signal transmission for PCB applications. Built with high-temperature PA9T UL94-V0 housing, this connector maintains dimensional stability and withstands harsh soldering environments.
The terminals are made of high-conductivity Brass C2680, plated with 50µ” nickel and 15µ” gold, providing excellent corrosion resistance, stable conductivity, and long-term durability. Its 8.5H vertical through-hole design ensures solid mechanical retention with a single-pin holding force of ≥0.8 Kgf, making it ideal for applications requiring stable vibration resistance.
With a 3A max current rating, 250V DC rating, and a –25°C to +105°C operating range, this connector supports both signal and low-power circuits in a wide variety of electronic devices.
| Product Type | Single-Row Pin Header Connector |
| Pitch | 2.54 mm |
| Pin Count | 1×3 |
| Mounting Type | 8.5H Vertical Through-Hole |
| Housing Material | PA9T Black, UL94-V0 |
| Cap Material | PA9T Black, UL94-V0 |
| Terminal Material | Brass C2680 |
| Plating | Nickel ≥50 µ” (base), Gold 15 µ” |
| Salt Spray Test | 24 Hours |
| Rated Current | 3.0A Max |
| Rated Voltage | 250V DC |
| Temperature Range | –25°C to +105°C |
| Contact Resistance | ≤20 mΩ Max |
| Insulation Resistance | ≥1000 MΩ Min |
| Dielectric Withstand Voltage | 500V AC / Minute |
| Mechanical Retention Force | ≥0.8 Kgf (single-pin) |
| Durability | 300 Mating Cycles |
| Environmental | HF (Halogen Free) |
| Inspection Note | “○” marked dimensions are inspection references |
⚙️ Applications
- PCB Signal & Data Transmission: Used for board-to-board or board-to-module connections, including low-voltage signals, data transmission, and control interfaces.
- Consumer Electronics: Common in smart home appliances, printers, cameras, displays, controllers, and handheld devices for internal signal routing.
- Industrial Automation & Control Systems: Applied in PLCs, industrial control boards, sensors, meters, robotics modules, and automation I/O interfaces.
- Servers & Data Center Equipment: Used for backplane interfaces, storage modules, communication boards, and signal expansion connectors.
- Automotive Electronics: Suitable for ECUs, BMS modules, sensor units, dashboards, infotainment systems, and on-board control interfaces.
- Communication & Networking Devices: Used in routers, switches, IoT gateways, RF modules, and network communication cards.
- IoT & Smart Device Modules: Applied in Bluetooth modules, WiFi modules, GPS/Beidou modules, sensor nodes, and embedded system expansion ports.
- Power Control & Monitoring Boards: For auxiliary power transmission, monitoring signals, and low-power control circuits.
- Custom OEM/ODM Electronic Designs: Ideal for designs requiring customizable pin count, pitch, height, plating option, and configuration.
⚠️ Notes
- Ensure Correct Pin Alignment: Check orientation and positioning before mating to avoid mis-insertion, bent pins, or PCB pad damage.
- Do Not Exceed Electrical Ratings: Follow the specified current and voltage limits to prevent overheating or contact failure.
- Proper Insertion and Extraction Force: Avoid excessive force during mating/unmating to prevent deformation, cracked solder joints, or pin damage.
- Keep Contact Surfaces Clean: Ensure terminals remain free from dust, oil, oxidation, or contaminants that reduce conductivity.
- Follow Recommended Soldering Conditions: Use appropriate soldering temperature profiles according to plastic materials such as LCP, PA6T, PA66, or PBT.
- Verify PCB Hole Tolerance: Incorrect hole size may cause inadequate solder filling or mechanical instability.
- Avoid Mechanical Stress After Assembly: Do not apply lateral pressure or bending forces, especially for SMT pin headers.
- Maintain Proper Storage Conditions: Store in a dry, dust-free environment to prevent terminal oxidation; use anti-static packaging if required.
- Confirm Compatibility with Female Header: Ensure matching pitch, pin count, height, and contact design to avoid mating failure.
- Choose Correct Plating Specification: Select proper plating (gold, tin, nickel) based on your application’s durability, corrosion resistance, and signal reliability needs.
