Switch 10Mbps or 100Mbps network automatically.
Half/full duplex 10/100Mbps operation.
Support Full Duplex Flow Control (IEEE802.3X)
Support all USB standard commands
Support suspend/resume detection logic.
Compliant to USB interface version 1.0/1.1/2.0
Support 10Mbps and 100Mbps N-way auto-negotiation operation.
Integrated Fast Ethernet Mac, physical clip and transceiver in one chip.
Device Type: USB RJ45 Lan Ethernet Network Adapter Card
Interface Type: USB 2.0 male to RJ45 female
Cable Length: 15 cm
Dimension: 65 x 20 x 15 mm
Net Weight: 18 g
Color: White
System Compatibility:
Windows 98SE/ME/2000/XP/Vista/Win7.
Linux 2.4.
Mac OS under v10.4.
Andriods
Package Included:
1 x USB 2.0 to Fast Ethernet Adapter
To make RTL8152BN has a high performance system, can adopt the following measures.
(1), provide a good power supply, at the same time will have a noise when turn on or off the power supply circuit, reduce to a minimum.
(2), keep the power supply and grounding noise level is less than 100 mv.
(3), using the large capacity between power supply and grounding capacitor.
(4), using 0.1 u F double coupling capacitance filtering the high frequency noise power supply and grounding.
(5), as nearly as possible the double coupling capacitance arranged beside the RTL8152B/RTL8152BN (less than 200 mils)
(6), inductance capacitance with small package to minimize sealing.
RTL8152 chip card products support the following functions:
Integrated 10/100 m transceiver
Have the ability to negotiate with page automatically after
Accord with the standard USB 2.0 and 1.1
Support for exchange/polarity/tilt correction
Cross detection and automatic proofreading function
Support the wake on LAN and "RealWoW!"function
Support the IEEE 802.3 x full duplex flow control
Completely accord with the standard IEEE 802.3 and IEEE 802.3 u
Comply with the IEEE 802.1 P LAN the second layer QoS/CoS protocol standard
Comply with the IEEE 802.1 Q (VLAN tag technology) standards
Comply with the IEEE 802.3 (EEE) az - 2010 standard
Support Intel CPPM
Support for selective disruption