Real-time secure access and monitoring with USR Network TAPs.
USRobotics' new Copper Taps and Fiber Taps provide a reliable solution for 24x7 capturing of full-duplex Ethernet links. USR taps are totally passive, non-intrusive and invisible to the network making them ideal for real-time monitoring of traffic between critical network devices such as switches, routers and firewalls. Permanent installations eliminate need for continual network interruptions after installation. The fault tolerant design will help ensure that network performance and integrity will not be affected by power loss. In addition, Copper Aggregating Taps capture full-duplex Ethernet links in a combined single stream of data, can inject traffic when needed, and offer dual monitoring ports for multiple analyzers.
Mouse over the product options below to see how we can get you monitoring your network traffic more efficiently.
Passive, Inline Network Taps
Measuring heavy network traffic loads like VoIP, video conferencing and security analyzing and probing requires safe, reliable tools to help get the job done. USRobotics' passive inline taps are rock solid and trustworthy - meaning better productivity, lower operation costs with peace of mind from a brand you trust.
USRobotics offers a variety of Network taps including the Copper 10/100/1000 Aggregating Tapthat provide solutions for IT security needs. Fiber taps are also available in both 1 Gig and 10 Gig in single mode and multimode models.
Expand Your Network Capability
Expand existing SPAN (Port Mirror) or Tap port monitoring capabilities with network traffic duplication. Decrease reliance on switch resources for network management visibility and eliminate span-port contention, oversubscriptions, and configuration errors.
USR® 10/100/1000 Variable 4 Port Aggregator and Regenerator's dual purpose hardware provides the option to share identical copies of data to multiple tools for security, storage or recording purposes — or combine port data into one combined stream for complete visibility into network traffic.