B4-mount
The B4 lens mount was established in 1994 by the Broadcasting Technology Association (BTA) and is defined in BTA S-1005.[1] This standard defines the physical mount, but also optical properties and some electrical connections. The B4 mount defines the sensor to have a diagonal size of 11 mm (a so-called 2/3" size sensor). The B4-mount is used by practically all 2/3" broadcast lenses and cameras (as of 2017).
The BTA was formed by Japanese broadcaster NHK and included members from Canon, Fuji, Hitachi, Ikegami, JVC, Matsushita (Panasonic), Nikon, Sony and Toshiba. It was formed in the mid 1980's and set various standards for television. It is now part of ARIB, Association of Radio Industries and Businesses.[2][3]
Mechanical
The flange of the mount defines the positioning of the lens relative to the image sensor. A ring is present around the opening on the camera which, when rotated, tightly locks the flange of the lens against the camera. A pin on the top side of the lens flange and a hole in the camera mount make sure the lens cannot be mounted at an angle.
Optical
The B4-mount has its image projected at 48 mm behind the lens mount flange (in air). The standard defines that a prism splits the light to form separate images planes for the colours red, green and blue. A correction for chromatic aberration is also part of the standard: the red sensor should be 10 μm further, and blue 5 μm further than 48 mm. This fitted well with established TV-camera technology using 3 tubes, and also with 3CCD, an upcoming technology at the time.[4]
The standard defines that the diagonal size of the projected image should be 11 mm, but does not define a resolution to be used. In the past standard definition was captured at 4:3 aspect ratio. Nowadays, cameras with the same mount capture HD with 16:9 aspect ratio, or even 4K video, thanks to improved lenses.[5]
Electrical
The lens mount is accompanied by a connector for the electrical connections. It powers the lens motors, controls the iris and allows a few buttons on the lens handle to control camera functions. The connectors are made by Hirose. On the camera is a HR10-10R-12S receptacle, and on the lens a cable with a HR10-10P-12P plug.[6]
| Pin | Function | Direction | Description |
|---|---|---|---|
| 1 | RET SW | lens to camera | Connected to RET button on lens; GND when pressed, otherwise open |
| 2 | VTR SW | lens to camera | Connected to VTR or REC button on lens; GND when pressed, otherwise open |
| 3 | GND | camera to lens | Ground |
| 4 | IRIS ENF AUTO | camera to lens | Momentary auto iris, off: 0V, on: 5V |
| 5 | IRIS CONT | camera to lens | Voltage indicative of requested iris position, f/2.8: 6.2V, f/16: 3.4V |
| 6 | +12V | camera to lens | Power supply |
| 7 | IRIS FOLLOW | lens to camera | Voltage indicative of current iris position, f/2.8: 6.2V, f/16: 3.4V |
| 8 | IRIS A/R | camera to lens | Iris auto: 0V, remote: 5V |
| 9 | EXT ANS | lens to camera | Connected to GND when extender is engaged, otherwise open |
| 10 | ZOOM FOLLOW | lens to camera | Voltage indicative of current zoom position, Wide: 2V, Tele: 7V |
| 11 | RxD | lens to camera | Receive serial data (sometimes instead used for focus follow) |
| 12 | TxD | camera to lens | Transmit serial data |
References
- ↑ ARIB standards
- ↑ de Bruin, Ronald & Smits, Jan (1999), "Digital Video Broadcasting - Technology, Standards and Regulations", p. 85, Artech House, Boston & London, ISBN 0-89006-743-0
- ↑ Cianci, Philip J. (2012), "High Definition Television: The Creation, Development and Implementation of HD Television", p. 143, McFarland & Company, Inc, ISBN 978-0-7864-4975-0
- ↑ HD and SD lenses and cameras, Larry Thorpe, on www.televisionbroadcast.com, November 2005
- ↑ B4 long, Mark Schubin in "Schubin Cafe", April 2015.
- ↑ Fujinon A13x4.5BERD-S48 operation manual, p.38, Fuji Photo Optical Co., ltd., document number LP150D-S48 1409