Game Console Cable
High temperature resistance, moisture resistance, corrosion resistance, anti-aging, insulation and flame retardant, can be customized according to demand, with diversified specifications and models
High-temperature tolerance and material innovation
Heat-resistant materials: Thermoplastic elastomers such as PPO, TPU, and TPEE are adopted. For instance, the physical property retention rate of PPO flexible halogen-free material exceeds 80% after aging at 121℃ for 7 days, and it can work for a long time in an environment of 125℃. Silane cross-linked XLPE has passed the UL1581 standard and supports a temperature resistance level of 125℃, making it suitable for high-load gaming scenarios.
Design optimization: The temperature resistance of polyethylene cables is enhanced to over 90℃ through DCP dry chemical cross-linking or silane warm water cross-linking. Combined with PPO modified styrene-based elastomers, elasticity and flexibility are improved to adapt to complex wiring environments.
Moisture-proof, corrosion-resistant and sealed protection
Moisture-proof solution: Apply conformal coating to the circuit board to form a thin film of 25-50 microns in thickness, which can resist moisture, salt spray and chemical corrosion. At the same time, use heat shrink tubing to seal the cable connectors to prevent water penetration from causing short circuits or metal corrosion.
Corrosion-resistant materials: Select polyolefin thermoplastic elastomers (TPO) or styrene-based elastomers (SBC), and combine them with aluminum hydroxide/magnesium hydroxide flame retardants to enhance chemical corrosion resistance and anti-aging performance, thereby extending the service life of the cable.
Anti-aging and insulating flame retardant
Anti-aging technology: By applying amine antioxidants (such as antioxidant 4020/6PPD) in combination with phenolic antioxidants, the aging of the rubber protective layer is delayed. The thermal stability and antioxidant capacity are enhanced through keto amine compounds such as antioxidant RD and AW, preventing the aging of the insulation layer caused by overloading or exposure to direct sunlight.
Insulation and flame retardant properties: Low smoke zero halogen flame retardant materials, such as cross-linked polyethylene (XLPE) or thermoplastic polyurethane (TPU), are used. When burning, they release very little smoke and toxic gases, with a light transmittance of over 50%, meeting the GB/T19666-2005 standard. Flame-retardant cables have passed the IEC60332-3 bundle burning test. The flame spread range is limited and the self-extinguishing time is short, ensuring fire safety.
Customization and diverse specifications
Customized services: Supports customization of cable length, interface types (such as HDMI 2.1, DP, Type-C), and terminal specifications (such as 5557-2*1P, DB15P dual-row male-to-female conversion), and can integrate special functions such as lightning protection, anti-interference, and magnetic rings to meet the needs of multiple scenarios including game consoles, new energy vehicles, and entertainment machines.
Diversified specifications: Offer cable options in different versions (such as HDMI 2.1/2.0/1.4), lengths (1.5 meters to over 8 meters), and materials (copper wire/optical fiber). Fiber optic cables are recommended for long-distance transmission to reduce signal attenuation. In high-temperature environments, certified cables should be given priority to ensure stable 4K 120Hz/144Hz high frame rate transmission.
Application scenarios and security standards
Game console adaptation: PS5/Xbox Series X/S requires an HDMI 2.1 cable to support 4K 120Hz/HDR, and is paired with an optical fiber audio cable to enhance the sound effect; The Switch can be charged and played simultaneously through a Type-C fast charging cable (supporting the PD protocol). For the OLED version, it is necessary to pay attention to the compatibility between the base and the main unit.
Safety Certification: The cables must pass safety certifications such as UL and CE, comply with RoHS environmental protection standards, ensure no lead, cadmium or other harmful heavy metals, emit less acid gas when burning, have high light transmittance, and guarantee personnel safety and evacuation efficiency.
