TSL Brings IP Into The MPA1-MIX
TSL keeps pace with broadcasters’ changing needs by extending its popular range of MPA1-MIX monitoring units with an ST 2110 and AES67-compliant version.
TSL is helping broadcasters migrate to IP infrastructures with the introduction of the MPA1-MIX-NET. Building on the success of its MPA1-MIX family of monitor devices, the MIX-NET extends functionality to ST 2110 AoIP networks.
The intuitive 1U monitor unit provides 64 channels through a 1G AoIP connection, and a further 64 x MADI channels with an optional MADI SFP to provide user access to a maximum of 128 inputs. The unit also has native support for NMOS IS-04 and IS-05. Featuring eight dedicated rotary controls to create a monitor mix of up to eight mono or stereo sources, operators can bank up to 16 independent mixes which can be recalled with a user-friendly 'scroll to select' function.
Development of the MPA1-MIX-NET was driven by changing market requirements. Designed in collaboration with global production giants NEP, the units are lined up for installation in its upcoming roster of ST 2110-compliant trucks and studio installations.
Designed for a variety of operational positions, MPA1-MIX models make it easy to create a variety of custom mixes. With no complex menu structures to navigate and key information such as gain, metering and source labels clearly displayed on its integrated colour screen, thousands of broadcast professionals use them every single day.
The introduction of the MPA1-MIX-NET extends TSL’s MPA1 range to six user-friendly MIX units and six SOLO variants for very simple audio monitoring. All are 1U high and have a compact unit depth of 100mm, while a fanless design makes them suitable for installation in all locations.
In addition, with distributed and remote production models becoming more established as broadcast workflows, the MPA1-MIX-NET also features comprehensive web and SNMP support. Its built-in web server and integrated Ethernet connection are designed to enable remote configuration and operation of networked units via a web browser, whilst SNMP integration enables a broadcast control system to automate configuration changes.
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