In this video, i have explained Electrodynamic Loudspeaker in Audio and Video Engineering, Television Engineering with following timecodes:
0:00 - Audio Video System / Television Engineering Lecture Series
0:17 - Outlines of Electrodynamic Loudspeaker
0:56 - Basics of Electrodynamic Loudspeaker
3:18 - Structure of Electrodynamic Loudspeaker
7:43 - Working of Electrodynamic Loudspeaker
9:31 - Advantages of Electrodynamic Loudspeaker
10:00 - Disadvantages of Electrodynamic Loudspeaker
11:18 - Applications of Electrodynamic Loudspeaker
Following points are covered in this video:
0. Loudspeaker
1. Electrodynamic Loudspeaker
2. Basics of Electrodynamic Loudspeaker
3. Structure of Electrodynamic Loudspeaker
4. Working of Electrodynamic Loudspeaker
5. Advantages of Electrodynamic Loudspeaker
6. Disadvantages of Electrodynamic Loudspeaker
7. Applications of Electrodynamic Loudspeaker
Engineering Funda channel is all about Engineering and Technology. Here this video is a part of Audio and Video Engineering, Television Engineering.
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Details of Electrodynamic Loudspeaker, Structure & Working of Electrodynamic Loudspeaker:
An electrodynamic loudspeaker is a type of loudspeaker that uses the principle of electrodynamic induction to convert an electrical audio signal into sound waves. It is the most commonly used type of loudspeaker in audio systems due to its relatively low cost, high efficiency, and good performance.
The structure of an electrodynamic loudspeaker consists of several key components. The most important component is the driver, which consists of a cone-shaped diaphragm attached to a coil of wire. The driver is suspended within a frame by a flexible surround, and a magnet is placed behind the driver to provide a magnetic field. The coil is connected to the input signal, which causes it to move back and forth in response to changes in the signal.
The working of an electrodynamic loudspeaker is based on the principle of electromagnetic induction. When an electrical audio signal is applied to the coil, it creates a magnetic field that interacts with the magnetic field produced by the permanent magnet. The interaction between the magnetic fields causes the coil to move back and forth, which causes the driver to vibrate. As the driver vibrates, it creates sound waves that correspond to the original audio signal.
In an audio-video system, electrodynamic loudspeakers are often used to reproduce music or speech in a wide range of applications. They are commonly found in home stereo systems, portable speakers, and professional sound reinforcement systems. Electrodynamic loudspeakers are popular due to their compact size, high efficiency, and ability to produce high-quality sound at a relatively low cost. They are often used in combination with other components such as amplifiers and equalizers to achieve the desired sound quality and volume.
Overall, the electrodynamic loudspeaker is an important component of many audio systems, and its simple construction and high efficiency make it a popular choice for a wide range of applications. However, its performance can be affected by a variety of factors, such as the quality of the input signal, the design and construction of the loudspeaker, and the acoustics of the listening environment.