ENET Palo Alto Compatible PAN-QSFP28-100GBASE-BIDI TAA Compliant Functionally Identical 100GBASE-SR BIDI QSFP28 OM4 MMF Duplex LC 100m - Programmed, Tested, and Supported in the USA, Lifetime Warranty
The ENET QSFP28 Module (Part Number: PANQSFP28100GBASEBID) is a high-performance transceiver designed for short-distance multi-mode fiber optic applications. Built for reliability and maximum productivity, this module supports 100 Gigabit Ethernet connectivity, making it ideal for data centers, enterprise networks, and multimedia transmission within buildings. Its robust design ensures consistent performance even under demanding operational conditions, providing network administrators with a dependable solution for high-speed data transfer.
Equipped with 100GBase-SR BiDi network technology, the ENET QSFP28 Module allows for efficient bidirectional data sharing over a single fiber strand. This technology simplifies network infrastructure by reducing the need for additional fiber runs, enabling easier and more cost-effective deployments. The module is TAA compliant, ensuring it meets the necessary standards for government and enterprise use, and it comes with a lifetime limited warranty for peace of mind.
Designed for short-range multi-mode fiber optic connections, this module is perfect for transmitting high-quality audio, video, and data signals within a building. Its compact form factor and flexible capabilities support seamless integration into existing network setups, making it suitable for a variety of high-bandwidth applications. The ENET QSFP28 Module combines advanced features with ease of use, ensuring maximum network performance and dependability for mission-critical operations.
Features:
- QSFP28 offers enhanced dependability with maximum productivity
- 100GBase-SR BiDi network technology for convenient, easy sharing of data and information with maximum feasibility
- Provides high performance and flexible solution with 100 Gigabit Ethernet connectivity
- Typically used for short distance, multi-mode fiber optic applications within a building