D-Link DGE-528T Networking Card Ethernet
The D-Link DGE-528T is a high-performance 10/100/1000Mbps copper Gigabit PCI card for desktop PC. Installable in a PC equipped with PCI expansion slots, this card turns a desktop computer into a high bandwidth Gigabit workstation or a server running at 2000Mbps full-duplex speed.
- Copper Gigabit connection for PC
- 32-bit 33/66MHz clock speed PCI Bus Master operation
- Built-in 72K FIFO buffer to reduce overhead of memory
- 802.3x Flow Control, auto MDI/MDIX support
- Supports 802.1Q VLAN Tagging, 802.1p Priority Queues
R258.00 incl vat
High-Performance Gigabit Speed
Capable of running at full-duplex Gigabit speed, this card gives your PC 2000Mbps data transmission on your existing Cat. 5 twisted-pair network cable. As an inexpensive alternative solution to fiber-optic, the card allows you to instantly upgrade to Gigabit without requiring you to install new, expensive fiber cables. The card supports 10/100/1000Mbps network speed auto-sensing and full/half duplex auto-negotiation. In addition, as a single chip solution, this device consumes little power from a computer system.
VLAN To Improve Performance And Security
The card provides on-board screening of VLANs Tagged Ethernet frames, allowing your PC to be configured with a VLAN-supported switch. Your PC can be part of a VLAN network, where domains are segmented up to enhance performance and security.
Wake-On-LAN For Power Management
Wake-On-LAN (WOL) is an Advanced Configuration Power Interface (ACPI) function allowing a powered OFF computer to be powered ON from a remote station. This function allows the administrator to send wake-up signals to a computer. The WOL function provides a great utility for power management of the PC and allows users to initiate action at irregular times and from distant locations.
Flow Control To Minimize Packet Loss
The card?s embedded flow control and independent FIFO provide a means to protect against possible data loss during transmission on the network. When connected to a Gigabit switch supporting flow control, the card receives signals from the switch regarding buffer overrun during peak usage periods. The card then delays transmission until the switch is ready again to accept new data.