8 Port Gigabit Ethernet Switch, Grey, Energy Efficient Ethernet / IEEE 802.3az Support
8 Port Gigabit Ethernet Switch, Grey, Energy Efficient Ethernet / IEEE 802.3az SupportThe 71X6-00508 Gigabit Ethernet Switch is designed for reliable high-performance networking. With its non-blocking switching fabric in full-duplex mode, this switch can deliver up to 2000Mbps per port, while the Store-and-Forward service brings low latency and error-free packet delivery. This highperformance Gigabit Ethernet switch is perfect for fulfilling the demands of online gaming and multimedia streaming. Moreover, this switch also supports IEEE 802.3az Energy Efficient Ethernet which helps reduce power consumption.
The 71X6-00508 supports IEEE 802.3az Energy Efficient Ethernet to provide power-saving benefits without compromising performance. One way is to automatically detecting the length of connected cables and to adjust power usage by saving energy on shorter cable connections.
Compact and Stylish Design
The stylish, compact wall-mountable housing of 71X6-00508 fits any working environment. It comes with 8 x 10/100/1000Mbps ports to meet SOHO and home network expansion needs. In addition, it has a unique magnet mounting design which allows the 71X6-00508 to be installed on any steel or iron surface without the need for brackets.
Easy to Use
The 71X6-00508 features plug-and-play for easy installation. No configuration is required. Autonegotiation on each port senses the link speed of a network device and adjusts for compatibility and optimal performance.
- 8 x 10/100/1000Mbps Auto-negotiation Gigabit Ethernet ports
- Auto MDI/MDI-X for each port
- Supports full duplex transfer mode for 1000Mbps
- Supports 8K absolute MAC addresses
- Supports 128KBytes RAM for data buffering
- Supports IEEE 802.3x full-duplex / half-duplex backpressure flow control
- Supports IEEE802.1p priority queuing Quality of Service
- Supports 9KB Jumbo Frames
- Magnetic base for secure placement on any metal surface
- Supports IEEE 802.3az Energy Efficient Ethernet