This Video Explains Why TV Cameras are Still So Huge and Expensive
In recent years, small form-factor cameras—both DSLR and mirrorless—have gotten very good at capturing extremely high-quality video. So how come the broadcast equipment in use today is still so massive and expensive? YouTuber Zebra Zone recently answered this question in an interesting breakdown video.
The first thing he wants to clear up is the misconception that the camera itself is huge. It’s not. The majority of the cost and weight of a broadcast setup comes from the massive lenses that are used on these systems. In the setup he uses for illustration, the lens makes up $212,000 of the approximately $250,000 total price tag.
So the question becomes: why are these lenses so huge and expensive? And the answer is, simply enough, that they make absolutely no compromises. A $200,000+ broadcast lens is the ultimate do-it-all lens: it covers a massive focal range, at a wide maximum aperture, is parfocal, is stable, and uses powerful-but-accurate motors for aperture, zoom, and focus control.
The lens being used in the video above is a Fujinon UA107 that covers 8.6-900mm (1800mm with when you engage the built in extender) at a maximum aperture of f/1.7 – f/4.5 (f/8 at 1800mm).
From there, the video goes on to break down the cost and necessity of the other still-expensive but not-quite-so-ridiculously-expensive parts of a broadcast setup:
- Tripod and Fluid Head – $20,000
- Remote Control Handles – $9,000
- Camera-to-Lens Adapter – $7,000
- Monitor – $1,800
- Fiber Optic Transmission Module – $3,000
Which leaves just the camera itself to take up the rest of the budget. In Zebra Zone’s case, they were using a $3,000 BlackMagic Ursa broadcast camera.
As Zebra Zone explains: in traditional video, it’s the environment that adapts to the cameras, in broadcast its the opposite, it’s the camera that has to adapt to the environment. And any setup that can adapt to almost any environment is going to have to be massive and expensive.
Check out the full video up top to see how each of these components works in more depth and detail.