Helped along by the IP and cellular revolution, there are more ways than ever to get a broadcast-quality signal from Point A to Point B.
Broadcast test gear has traditionally been discrete devices, such as waveform monitors, vectorscopes, spectrum analyzers and field-strength meters.
Less than four years ago, a well-regarded expert on the subject of coaxial cable told me that creating affordable and practical 12G coax was not going to happen.
If there were any television transmitters on the NAB Show floor that used IOTs or other tubes, I did not see them.
TVLogic, a manufacturer of video displays, made a strong statement about the future of organic light-emitting diode displays: Count TVLogic in.
Quality video and audio happens accidentally without test and measurement equipment.
It's no secret that the first version of the ATSC broadcasting standard, now called “ATSC 1.0,? was not universally loved when television stations switched to digital broadcasting more than a decade ago.
There used to be just a couple of ways for a broadcaster to get a good quality signal from outside the studio: microwave and satellite.
Most of the best gear in the world is worthless without the means to connect to other devices, so paying attention to the seemingly mundane topic of cables and connectors is important.
High-power transmitters continue their evolution from IOT devices of 15-20 years ago to increasingly solid-state devices.
President Indicates Intention to Nominate Carr to FCC
Doyle Draft Would Promote 5G
Telemundo's San Diego O&O Goes Live July 1
Sandvine Gets Bigger Bid
BBC expands BBC Player into Malaysia
Global Radio to launch Heart 80s
‘Cultural revolution’ in China as SVoD rises
Pop-Up Ads Run Rampant With Interactive 'Rich Friends' Video
Taking Grueling Trip Down 'Blood Road'
'The Deuce' Reunites David Simon's Editors for '70s-Set HBO Series