Product Description
This SATA C22F 86-pin female connector is designed for high-density storage interfaces on server and industrial motherboards. The 1.27 mm pitch contact layout offers compact routing while maintaining stable signal paths for high-speed data transmission.
Gold-plated contacts over a nickel barrier provide low contact resistance and long-term corrosion resistance, while the SMT right-angle structure supports automated assembly and reliable solder joints. The housing is made from high-temperature, flame-retardant thermoplastic to withstand reflow soldering and harsh operating environments.
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| Connector type |
SATA C22F female PCB connector |
| Pitch |
1.27 mm (approx.) |
| Number of positions |
86 pins, single row |
| Mounting style |
Right-angle, SMT PCB mount |
| Contact plating |
Gold over nickel on contact area, tin on solder tail |
| Housing material |
High-temperature thermoplastic, UL94 V-0 |
| Rated voltage |
30–50 V AC/DC (depending on system design) |
| Rated current |
Up to 1.0 A per contact (signal level, derating required) |
| Contact resistance |
≤ 30 mΩ (initial, typical) |
| Insulation resistance |
≥ 1000 MΩ at 500 V DC (typical) |
| Dielectric withstand |
500 V AC for 1 minute (no breakdown) |
| Operating temperature |
-40 ℃ to +105 ℃ |
| PCB termination |
SMT pads with recommended PCB layout available |
| Compliance |
RoHS / halogen-free materials available |
| Customization |
Pin count, plating thickness and packaging can be customized |
Applications
SSD and HDD connection on desktop, notebook and industrial PCs
Server and storage backplane connectors in data centers
Network-attached storage, RAID cards and expansion modules
Industrial control, medical and measurement equipment requiring reliable storage interfaces
Customized storage boards and embedded systems using SATA power and signal in one connector
Precautions
Follow the recommended PCB land pattern and keep-out area to ensure proper coplanarity and solder joint strength.
Maintain clean, dust-free mating surfaces; avoid touching the gold contacts directly to prevent contamination and increased contact resistance.
Control reflow temperature profile within the connector material limits to avoid housing deformation.
Ensure sufficient mechanical support around the connector on the PCB for systems subject to shock or vibration.
When designing high-speed links, keep differential pairs length-matched and route away from strong EMI sources to preserve signal integrity.
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