High-Reliability Type-C Female Connector Solutions
- Sub-headline: Engineered for robust power delivery and high-speed data transmission. Supporting up to 240W (48V/5A), 40Gbps signal integrity, and IPX7/IPX8 waterproof ratings. We provide end-to-end manufacturing for automotive, industrial, and medical applications.
- Primary Button: Submit Your Project for a Custom Solution
- Secondary Button: Download Product Specifications & HFSS Models
Engineering Capabilities and Structural Design
Coplanarity Control and SMT Stability
We utilize 100% 3D CCD automated visual inspection to maintain pin coplanarity strictly under 08mm. Our connectors are molded with high-temperature LCP (Liquid Crystal Polymer), ensuring zero deformation during 260°Creflow soldering, resulting in stable pick-and-place positioning and high first-pass yields.
High-Retention Mechanical Design
To resist physical stress, we utilize a Reinforced 6-Leg THR (Through-Hole Reflow)design combined with 6/8-leg shell staking. This distributes insertion and lateral pull forces across the PCB. A 360° seamless laser-welded shell further improves torque resistance by 40%, ensuring physical stability over 10,000+ mating cycles.
Thermal Management for 240W PD
Designed for 48V/5A power delivery, our connectors use C7025 copper alloy terminalswith 30u” localized thick gold plating. This keeps contact resistance below <30mΩ. The metal shell is optimized to act as a thermal pathway to the PCB copper plane, mitigating heat buildup.
Industry-Specific Type-C Solutions
Goldconn provides a comprehensive range of 6-Pin, 16-Pin, and 24-Pin Type-C connectors tailored to the specific regulatory and environmental demands of major industries
End-to-End Manufacturing & Supply Chain Security
Trusted by industry leaders including HUAWEI, BYD, SAMSUNG, Cicor, and Transsion, Goldconn provides absolute traceability and quality control
100% Vertical Integration Process
We manage the entire production cycle in-house to guarantee lead times and batch consistency. Our closed-loop process includes
Mold Design➔ Tooling ➔ Terminal Stamping ➔ Injection Molding ➔ Automated Assembly ➔ 100% Dimensional & Functional Inspection ➔ Tape & Reel Packaging ➔ Shipping.
8 to 10-Year Longevity Program
Designed for medical, industrial, and automotive projects, we provide a written commitment for an 8 to 10-year product lifecycle, preventing unexpected EOL notices and costly redesigns.
Global Compliance & Certifications
Our facilities are fully IATF16949, ISO13485, ISO9001, ISO14001, and QC080000 certified. We provide transparent RoHS, REACH, and Halogen-Free reporting to support your global compliance.
Engineering Support & Technical FAQ
Yes. Our engineering team provides comprehensive design-in support, including official HFSS simulation models to aid in your PCB layout phase. We also offer mold modification services to adjust mounting types, pin configurations (6-Pin/16-Pin/24-Pin), or shell dimensions to perfectly fit your existing product architecture.
Yes. We conduct rigorous in-house IPX7/IPX8 waterproof testing using advanced air-tightness and submersion equipment. Furthermore, we actively collaborate with recognized third-party certification laboratories (such as SGS or TÜV) to provide authoritative testing reports, ensuring compliance with your specific industry standards.
No. THR combines the structural strength of traditional DIP components with SMT efficiency. The pins are designed to be soldered directly in your standard SMT reflow oven in a single pass, eliminating the need for secondary wave soldering while boosting mechanical torque resistance.
We tackle EMI and crosstalk through a dual-isolation approach. Externally, the 360° laser-welded shell forms an EMI shield. Internally, we integrate an Internal Shield (Mid-plate) made of stainless steel to physically isolate the upper and lower pin rows, reducing near-end crosstalk (NEXT) and ensuring signal integrity.
We combine a 6-leg or 8-leg Shell Staking design with Reinforced THR technology. This transfers the mechanical stress away from the surface solder joints and distributes it across the PCB board, ensuring stable retention.
We use a specialized dual-layer plating process: a strict nickel undercoat followed by a 50u" thick gold plating on the contact area. Combined with proprietary anti-corrosion treatments, it maintains electrical reliability in high-humidity and chemical environments.
Ensure Reliable Connectivity for Your Next Generation Devices
Upgrade your interface strategy with fully certified, rigorously tested Type-C connectors. Our engineering team is ready to support your specific power, data, and environmental requirements.
- Free Sample Provision for Customer Testing
- Request 3D CAD & Official HFSS Simulation Models
- 24-Hour Custom Quoting & Technical Support