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

0:00 - Audio Video System / Television Engineering Lecture Series
0:38 - Comparison of Vidicon Camera and Plumbicon Camera
0:45 - Photo Electric Conversion of Vidicon Camera and Plumbicon Camera
1:31 - Sensitivity of Vidicon Camera and Plumbicon Camera
2:30 - Illumination of Vidicon Camera and Plumbicon Camera
3:28 - SNR of Vidicon Camera and Plumbicon Camera
4:07 - Speed of Vidicon Camera and Plumbicon Camera
4:55 - Resolution of Vidicon Camera and Plumbicon Camera
5:52 - Response of Vidicon Camera and Plumbicon Camera
6:28 - Operation of Vidicon Camera and Plumbicon Camera
7:05 - Size of Vidicon Camera and Plumbicon Camera
7:50 - Cost of Vidicon Camera and Plumbicon Camera
8:09 - Life of Vidicon Camera and Plumbicon Camera

Following points are covered in this video:

0. TV picture tube
1. Vidicon Camera
2. Plumbicon Camera
3. Comparison of Vidicon Camera and Plumbicon Camera

Here i have comparison of Vidicon camera and Plumbicon camera based on following parameters
1. Photo Electric conversion
2. Sensitivity
3. Illumination
4. SNR
5. Speed
6. Resolution
7. Response
8. Operation
9. size
10. cost
11. Life

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

#ComparisonofVidiconCameraandPlumbiconCamera, #PhotoElectricconversion, #VidiconCamera, #PlumbiconCamera, #AudioandVideoSystem, #TelevisonEngineering

Details of Comparison of Vidicon Camera and Plumbicon Camera in Television Engineering and Audio Video System:

Vidicon and Plumbicon cameras are two types of electronic television cameras that were widely used in the television industry. While they are similar in many ways, there are also some important differences between them. Here's a comparison of Vidicon and Plumbicon cameras in television engineering and audio-video systems:

Image sensor: Both Vidicon and Plumbicon cameras use photoconductive targets as image sensors. However, the Plumbicon camera uses a layer of lead oxide, which is more sensitive than the antimony trisulfide (Sb2S3) used in the Vidicon camera.

Sensitivity: Plumbicon cameras are generally more sensitive than Vidicon cameras, which means they can capture more light and produce brighter images. This makes them more suitable for low-light conditions.

Dynamic range: Plumbicon cameras also have a wider dynamic range than Vidicon cameras. This means they can capture a wider range of light levels, from bright highlights to dark shadows.

Resolution: Both Vidicon and Plumbicon cameras are capable of producing high-resolution images. However, Plumbicon cameras generally have higher resolution than Vidicon cameras.

Noise: Vidicon cameras are more prone to noise than Plumbicon cameras, which can lead to grainy images. Plumbicon cameras have less noise and produce cleaner images.

Applications: Both types of cameras were widely used in the television industry for many years. However, Plumbicon cameras were more commonly used in high-end productions and live events due to their higher sensitivity and dynamic range.

In audio-video systems, both types of cameras were used for capturing video signals, which were then processed and transmitted or recorded. However, with the advent of digital cameras and video equipment, Vidicon and Plumbicon cameras are no longer used in modern audio-video systems. Instead, digital cameras and other modern equipment are used for capturing and processing video signals.