Transitioning to ATSC 3 with InfinityLink Solutions
Artel’s InfinityLink ATSC 3.0 Transition Solutions enable next-generation, over-the-air broadcast and content delivery for the new IP-based ATSC 3.0 standard while retaining legacy signal transport capabilities for ATSC 1.0. The InfinityLink ATSC 3.0 Transition Over Fiber and ATSC 3.0 Transition Over IP solutions include all necessary platform components and optical and/or electrical transceivers, ready for interconnection with either customer-furnished, single-mode fiber or a local, carrier-supplied IP GigE service.
Hitless Protection Switching Benefits
Artel's white paper, Broadcasters Can't Miss with Hitless Technology, examines the benefits of SMPTE ST 2022-7 Seamless Protection Switching. With ever-increasing demands for transporting high-bandwidth signals at improved quality levels, hitless protection switching has become a valuable tool for broadcasters. Multiple equipment and service providers have demonstrated interoperability between devices that support SMPTE ST 2022-7. As the only available technology that can withstand partial network outages lasting multiple seconds, coupled with the flexibility to support uncompressed UHD video and 10 Gbps data flows, hitless protection switching has a “can’t-miss” future in high reliability networking.
Hitless Protection Switching An Overview
Artel's white paper, Broadcasters Can't Miss with Hitless Technology, examines SMPTE ST 2022-7 Seamless Protection Switching. With ever-increasing demands for transporting high-bandwidth signals at improved quality levels, hitless protection switching has become a valuable tool for broadcasters. Multiple equipment and service providers have demonstrated interoperability between devices that support SMPTE ST 2022-7. As the only available technology that can withstand partial network outages lasting multiple seconds, coupled with the flexibility to support uncompressed UHD video and 10 Gbps data flows, hitless protection switching has a “can’t-miss” future in high reliability networking.