In this video, i have explained Vidicon Camera in Audio and Video Engineering, Television Engineering with following timecodes:

0:00 - Audio Video System / Television Engineering Lecture Series
0:14 - Outlines on Vidicon Camera
1:02 - Basics of Vidicon Camera
3:27 - Diagram & Working of Vidicon Camera
9:53 - Light Transfer Characteristics of Vidicon Camera
14:41 - Applications of Vidicon Camera
16:00 - Advantages of Vidicon Camera
16:40 - Disadvantages of Vidicon Camera

Following points are covered in this video:

0. TV picture tube
1. Vidicon Camera
2. Basics of Vidicon Camera
3. Diagram of Vidicon Camera
4. Components of Vidicon Camera
5. Working of Vidicon Camera
6. Light Transfer Characteristics of Vidicon Camera
7. Applications of Vidicon Camera
8. Advantages of Vidicon Camera
9. Disadvantages of Vidicon Camera

Engineering Funda channel is all about Engineering and Technology. Here this video is a part of Audio and Video Engineering, Television Engineering.

#VidiconCamera, #WorkingofVidiconCamera, #LightTransferCharacteristicsofVidiconCamera, #ApplicationsofVidiconCamera, #AudioandVideoSystem, #TelevisonEngineering

Details of Vidicon Camera, Diagram & Working of Vidicon Camera, Advantages & Applications of Vidicon Camera:

A Vidicon camera is an early type of electronic television camera that was used extensively in the television industry in the 20th century. It was first developed in the 1950s and became a popular technology for broadcasting television signals.

Diagram of Vidicon Camera:

The Vidicon camera consists of several parts, including:

Image sensor: The Vidicon camera uses a photoconductive target as an image sensor. This target is a glass plate coated with a layer of photoconductive material, typically antimony trisulfide (Sb2S3).

Electron gun: The electron gun emits a beam of electrons that is focused onto the target by a magnetic lens.

Scanning system: The scanning system moves the electron beam across the target in a raster pattern, scanning each line of the image.

Signal processing and output circuitry: The signal processing circuitry converts the electrical signals generated by the photoconductive target into a video signal that can be transmitted or recorded.

Working of Vidicon Camera:

When light enters the Vidicon camera, it strikes the photoconductive target, creating a charge pattern. The electron beam is then scanned across the target, causing the charge pattern to be read out as a series of electrical signals. These signals are then processed by the signal processing circuitry to create a video signal.

Advantages of Vidicon Camera:

High resolution: Vidicon cameras are capable of producing high-resolution images with good detail.

Low light sensitivity: Vidicon cameras are relatively sensitive to low light levels, making them useful in low light conditions.

High dynamic range: Vidicon cameras have a high dynamic range, which means that they can capture a wide range of light levels.

Applications of Vidicon Camera:

Television broadcasting: Vidicon cameras were widely used in the television broadcasting industry for many years.

Industrial inspection: Vidicon cameras are still used for industrial inspection, such as in the manufacturing of electronic components.

Scientific imaging: Vidicon cameras have also been used for scientific imaging, such as in microscopy and astronomy.

Medical imaging: Vidicon cameras have been used in medical imaging, particularly in endoscopy, where they are used to provide images of internal organs.