The Category 6A 500 MHz S/FTP cable is designed for ultra-high-speed data transmission and provides superior shielding for demanding network environments. It supports a frequency range of up to 500 MHz and features a comprehensive shielding system with individually foil-wrapped twisted pairs and an additional overall braided screen. This ensures excellent protection against electromagnetic interference (EMI) and crosstalk, delivering stable and reliable connections.
Key Features:
Conductor Material:
Constructed with high-quality 23AWG solid copper wire, offering excellent conductivity and minimal signal attenuation.
Shielding (S/FTP):
Features individually foil-shielded twisted pairs with an overall braided screen, providing exceptional noise protection and ensuring data integrity.
High Frequency:
Capable of operating at frequencies up to 500 MHz, making it suitable for high-speed network applications.
Applications:
10 Gigabit Ethernet Networks:
Ideal for high-speed data transfer, providing consistent and reliable connectivity in commercial, residential, and industrial settings.
Data Centers and IT Infrastructure:
Ensures stable connections and high data integrity in high-density network environments.
Telecommunications and Multimedia:
Suitable for the transmission of voice, data, and multimedia signals, offering reduced noise and high performance.
EMI-Prone Environments:
The comprehensive shielding makes it perfect for installations where electromagnetic interference is a concern, maintaining stable and noise-free connections.
Structured Cabling Systems:
Suitable for backbone and horizontal cabling in structured network systems, delivering robust and reliable performance.
Summary:
The Category 6A 500 MHz S/FTP cable offers unparalleled shielding and high-speed data transmission capabilities, making it an ideal solution for data centers, telecommunications, and any environment requiring strong noise protection and reliable connections. Its advanced shielding ensures stable network performance even in challenging EMI conditions.