BANDWIDTH OF SIGNAL

BANDWIDTH OF SIGNAL

HomeOther ContentBANDWIDTH OF SIGNAL
Sources from 7activestudio, Youtube on Youtube Published 11 years ago
ChannelPublish DateThumbnail & View CountActions
Channel Avatar 7activestudio2014-09-10 06:03:49 Thumbnail
206,711 Views
View on YouTube View Channel
For more information:

http://www.7activestudio.com
[email protected]

http://www.7activemedical.com/
[email protected]

http://www.sciencetuts.com/
[email protected]

Contact: +91- 9700061777,
040-64501777 / 65864777

7 Active Technology Solutions Pvt.Ltd. is an educational 3D digital content provider for K-12. We also customise the content as per your requirement for companies platform providers colleges etc . 7 Active driving force /”The Joy of Happy Learning/” — is what makes difference from other digital content providers. We consider Student needs, Lecturer needs and College needs in designing the 3D & 2D Animated Video Lectures. We are carrying a huge 3D Digital Library ready to use.

COMMUNICATION SYSTEMS: BANDWIDTH OF SIGNAL: In a communication system, the message signal can be voice, music, picture or computer data. Each of these signals has different ranges of frequencies. The type of communication system needed for a given signal depends on the band of frequencies which is considered essential for the communication process. For speech signals, frequency range 300 Hz to 3100 Hz is considered adequate. Therefore speech signal requires a bandwidth of 2800 Hz 3100 hertz – 300 hertz for commercial telephonic communication. To transmit music, an approximate bandwidth of 20 kHz is required because of the high frequencies produced by the musical instruments. The audible range of frequencies extends from 20 Hz to 20 kHz. Video signals for transmission of pictures require about 4.2 MHz of bandwidth. A TV signal contains both voice and picture and is usually allocated 6 MHz of bandwidth for transmission.In the preceeding paragraph, we have considered only analog signals. Digital signals are in the form of rectangular waves as shown in Figure. However, for practical purposes, the contribution from higher harmonics can be neglected, thus limiting the bandwidth. As a result, received waves are a distorted version of the transmitted one. If the bandwidth is large enough to accommodate a few harmonics, the information is not lost and the rectangular signal is more or less recovered. This is so because the higher the harmonic, less is its contribution to the wave form.

Please take the opportunity to connect and share this video with your friends and family if you find it useful.