Product Description
This SATA PCB connector uses a compact 13-pin layout with a fine
1.27 mm pitch, designed for reliable high-speed data and power
transmission on electronic boards. The copper-alloy terminals with
gold-plated contact area provide low contact resistance and stable
signal integrity during repeated mating. A high-temperature,
flame-retardant housing ensures mechanical strength and soldering
reliability for reflow processes.
It is suitable for OEM/ODM customization, including special pin
lengths, different plating thicknesses, and tailored packaging to
match your PCB layout, storage modules, or embedded boards.
| Product type | 7-pin SATA male PCB connector with fork-type terminals |
| Interface type | SATA signal connector |
| Positions | 7 pins |
| Pitch | 1.27 mm |
| Mounting style | Through-hole (DIP) |
| Mounting orientation | Right-angle to PCB |
| Rated current | 1.5 A / contact @ 40 VAC |
| Rated voltage | 40 VAC |
| Contact resistance | ≤ 30 mΩ |
| Insulation resistance | ≥ 1000 MΩ |
| Dielectric withstand voltage | 500 VAC / 1 min |
| Contact base material | Copper alloy |
| Under-plating | Ni ≥ 50 µ" on terminals |
| Contact area plating | Gold (e.g. 15 µ" typical, customizable) |
| Solder/peg plating | Sn ≥ 80 µ" |
| Operating temperature | −20 °C to +85 °C |
| Compliance | RoHS / HF / REACH-compatible |
| Custom options | Different gold thickness, peg length, packaging and tape-and-reel |
Applications
SATA signal connector for 2.5"/3.5" HDDs, SSDs and storage modules
Server and data-center backplanes requiring compact, robust
board-to-connector interfaces
Industrial PCs, medical electronics and automation controllers
using SATA-based storage
Communication equipment and networking devices with high-density
PCB layouts
Customized OEM/ODM storage and edge-computing systems needing
tailored SATA connector solutions
Precautions
Match with the corresponding SATA female connector and follow the
recommended PCB footprint for this series.
Do not exceed the rated current, voltage or operating temperature;
derate appropriately in high-temperature environments.
Avoid contamination of contact areas; keep connectors clean and dry
before soldering and mating.
Use proper wave or selective soldering profiles to prevent damage
to the housing and ensure full wetting of solder tails.
Provide adequate mechanical support on the PCB (such as correct peg
hole size and panel thickness) to withstand insertion and
extraction forces.
