FTB/IQS-88100NGE/88100G Power Blazer - multiservice test module
Turnkey field-test solution for deploying, validating and troubleshooting networks up to 100G.
Turnkey field-test solution for deploying, validating and troubleshooting networks up to 100G.
Video monitoring at the network edge: designed for the hospitality industry, this verifier provides 24/7 assurance of QAM and IP video streams at key service provider demarcation points and edge network locations as well as feature-rich interactive troubleshooting tools.
As part of a complete end-to-end system, the BV-1200V can monitor IPTV, cable, broadcast and satellite television delivery networks—from the headend to the home.
Compact, rugged and reliable broadband light source for use with the FTB-5500B PMD Analyzer—ideal for the field environment
As part of a complete end-to-end system, the BV-2000V monitors IPTV, cable, broadcast and satellite television delivery networks—from the headend to the home.
The BV-2042V ASI Input Module is a unique solution for headend or remote monitoring of multiple ASI ports.
Designed for comprehensive monitoring of cable and broadcast television signals.
A high-capacity video verifier for monitoring TV multicasts, video on demand and Internet video in backbone networks and headends.
High-speed test solution designed to meet the requirements of both the NEMs designing 400 Gbit/s optical transport equipment and the carriers analyzing it in their labs.
The QualityAssurer QA-604 VoIP and IMS test platform offers 2U small footprint and unrivalled port performance density. Providing scalability, stress and emulation performance of more than two million IMS subscribers and one million SIP endpoints, it can be rack-mounted or used as a desktop.
Designed to facilitate high-performance signaling and media testing of voice-over-IP (VoIP) and Internet protocol multimedia subsystem (IMS) networks
The SCM Gigabit Ethernet Interface (10/100/1000 Mbit/s) is designed to facilitate high-performance signaling testing. It is equipped with custom-designed FPGAs, ensuring accurate time stamping of signaling messages with a 10-nanosecond time-stamp resolution to characterize the network’s performance