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Simple amplifier circuit for speaker

ClassAB power amplifiers can also be used but ClassD is more preferred because of its light weight and low heat dissipation characteristics. Audio amplifiers are used in many application from Radio wave transmitter, Hi-fi devices, Home audio systems, talking toys, Robots and even in military as an acoustic weapon. A basic power amplifier that is designed to take input as the low strength audio signal and generate the output signal that consists of the high strength value. This process of amplification is utilized in the various domains where an electical signal is converted to an acoustic signal. This type of amplifiers is known as audio amplifiers. Any circuit which processes the audio signal has the audio amplifier both at the input and also at the output.

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WATCH RELATED VIDEO: Simple Basic audio Amplifier Circuit using 1 MOSFET Transistor

Simple Microphone to Speaker Amplifier Circuit

By: Tom Harris. When people refer to "amplifiers," they're usually talking about stereo components or musical equipment. But this is only a small representation of the spectrum of audio amplifiers. There are actually amplifiers all around us. You'll find them in televisions , computers , portable CD players and most other devices that use a speaker to produce sound.

Sound is a fascinating phenomenon. When something vibrates in the atmosphere, it moves the air particles around it. Those air particles in turn move the air particles around them, carrying the pulse of the vibration through the air. Our ears pick up these fluctuations in air pressure and translate them into electrical signals the brain can process. Electronic sound equipment works the same basic way. It represents sound as a varying electric current.

Broadly speaking, there are three steps in this sort of sound reproduction:. As you can see, all the major components in this system are essentially translators: They take the signal in one form and put it into another. In the end, the sound signal is translated back into its original form, a physical sound wave. This means it is very thin and moves only a short distance. Consequently, the microphone produces a fairly small electrical current.

This is fine for most of the stages in the process -- it's strong enough for use in the recorder, for example, and it is easily transmitted through wires. But the final step in the process -- pushing the speaker cone back and forth -- is more difficult.

To do this, you need to boost the audio signal so it has a larger current while preserving the same pattern of charge fluctuation. This is the job of the amplifier. It simply produces a more powerful version of the audio signal. In this article, we'll see what amplifiers do and how they do it.

Amplifiers can be very complex devices, with hundreds of tiny pieces, but you can get a clear picture of how an amplifier works by examining the most basic components. In this next section, we'll look at the basic elements of amplifiers. In the last section, we saw that an amplifier's job is to take a weak audio signal and boost it to generate a signal that is powerful enough to drive a speaker. This is an accurate description when you consider the amplifier as a whole, but the process inside the amplifier is a little more complex.

In actuality, the amplifier generates a completely new output signal based on the input signal. You can understand these signals as two separate circuits. The output circuit is generated by the amplifier's power supply , which draws energy from a battery or power outlet. If the amplifier is powered by household alternating current , where the flow of charge changes directions, the power supply will convert it into direct current , where the charge always flows in the same direction.

The power supply also smoothes out the current to generate an absolutely even, uninterrupted signal. The output circuit's load the work it does is moving the speaker cone. The input circuit is the electrical audio signal recorded on tape or running in from a microphone. Its load is modifying the output circuit.

It applies a varying resistance to the output circuit to re-create the voltage fluctuations of the original audio signal. In most amplifiers, this load is too much work for the original audio signal. For this reason, the signal is first boosted by a pre-amplifier , which sends a stronger output signal to the power amplifier.

The pre-amplifier works the same basic way as the amplifier: The input circuit applies varying resistance to an output circuit generated by the power supply. Some amplifier systems use several pre-amplifiers to gradually build up to a high-voltage output signal. So how does the amplifier do this? If you look inside an amplifier for an answer, you'll only find a complex mass of wires and circuitry components.

The amplifier needs this elaborate setup to make sure each part of the audio signal is represented correctly and accurately. Hi-fidelity output requires very precise control. All of the pieces in an amplifier are important, but you certainly don't need to examine each one to understand how an amplifier works.

There are only a few elements that are crucial to the amplifier's functioning. In the next section, we'll see how these elements come together in a very basic amplifier design. The component at the heart of most amplifiers is the transistor. The main elements in a transistor are semiconductors , materials with varying ability to conduct electric current. Typically, a semiconductor is made of a poor conductor, such as silicon , that has had impurities atoms of another material added to it.

The process of adding impurities is called doping. In pure silicon, all of the silicon atoms bond perfectly to their neighbors, leaving no free electrons to conduct electric current.

In doped silicon, additional atoms change the balance, either adding free electrons or creating holes where electrons can go.

Electrical charge moves when electrons move from hole to hole, so either one of these additions will make the material more conductive. See How Semiconductors Work for a full explanation. N-type semiconductors are characterized by extra electrons which have a negative charge. P-type semiconductors have an abundance of extra holes which have a positive charge. Let's look at an amplifier built around a basic bipolar-junction transistor.

This sort of transistor consists of three semiconductor layers -- in this case, a p-type semiconductor sandwiched between two n-type semiconductors.

This structure is best represented as a bar, as shown in the diagram below the actual design of modern transistors is a little different. The first n-type layer is called the emitter , the p-type layer is called the base and the second n-type layer is called the collector. The output circuit the circuit that drives the speaker is connected to electrodes at the transistor's emitter and collector. The input circuit connects to the emitter and the base. The free electrons in the n-type layers naturally want to fill the holes in the p-type layer.

There are many more free electrons than holes, so the holes fill up very quickly. This creates depletion zones at the boundaries between n-type material and p-type material.

In a depletion zone, the semiconductor material is returned to its original insulating state -- all the holes are filled, so there are no free electrons or empty spaces for electrons, and charge can't flow. When the depletion zones are thick, very little charge can move from the emitter to the collector, even though there is a strong voltage difference between the two electrodes.

When depletion zones are thick, you can boost the voltage on the base electrode. The voltage at this electrode is directly controlled by the input current. When the input current is flowing, the base electrode has a relative positive charge, so it draws electrons toward it from the emitter. This frees up some of the holes, which shrinks the depletion zones.

As the depletion zones are reduced, charge can move from the emitter to the collector more easily -- the transistor becomes more conductive. The size of the depletion zones, and therefore the conductivity of the transistor, is determined by the voltage at the base electrode.

In this way, the fluctuating input current at the base electrode varies the current output at the collector electrode. This output drives the speaker. A single transistor like this represents one "stage" of an amplifier. A typical amplifier will have several boosting stages, with the final stage driving the speaker. In a small amplifier -- the amplifier in a speaker phone, for example -- the final stage might produce only half a watt of power. In a home stereo amplifier, the final stage might produce hundreds of watts.

The amplifiers used in outdoor concerts can produce thousands of watts. The goal of a good amplifier is to cause as little distortion as possible. The final signal driving the speakers should mimic the original input signal as closely as possible, even though it has been boosted several times. This basic approach can be used to amplify all kinds of things, not just audio signals. Anything that can be carried by an electrical current -- radio and video signals, for example -- can be amplified by similar means.

Audio amplifiers seem to catch people's attention more than anything else, however. Sound enthusiasts are fascinated with variations in design that affect power rating , impedance and fidelity , among other specifications.

Sign up for our Newsletter! Mobile Newsletter banner close. Mobile Newsletter chat close. Mobile Newsletter chat dots. Mobile Newsletter chat avatar. Mobile Newsletter chat subscribe. How Amplifiers Work. A home stereo amplifier and receiver in one unit. Sound waves move a microphone diaphragm back and forth, and the microphone translates this movement into an electrical signal.

The electrical signal fluctuates to represent the compressions and rarefactions of the sound wave. A recorder encodes this electrical signal as a pattern in some sort of medium -- as magnetic impulses on tape , for example, or as grooves in a record.

A player such as a tape deck re-interprets this pattern as an electrical signal and uses this electricity to move a speaker cone back and forth. This re-creates the air-pressure fluctuations originally recorded by the microphone.

Audio Amplifier Circuit, Working, and Applications

I have been looking for a good stereo amplifier circuit diagram for a long time. I am not a HiFi geek, I just wanted to build a simple stereo amplifier that could drive some speakers for my desktop computer. All the schematic diagrams that I could find seemed to involve lots of hard-to-find components or you had to use it together with a pre-amplifier or some other amplifier stage. It was always something that made me hesitate. But recently I found this awesome little chip called TEA! You only need a few capacitors to make a decent stereo amplifier out of it.

You can use this circuit for any Audio amplifier circuit like , , , etc And enjoy this easy homemade MIC Loudspeaker.

Circuit Theory in Loudspeakers and Amplifiers

Class D amplifiers, first proposed in , have become increasingly popular in recent years. What are Class D amplifiers? How do they compare with other kinds of amplifiers? Why is Class D of interest for audio? Find the answers to all these questions in the following pages. The goal of audio amplifiers is to reproduce input audio signals at sound-producing output elements, with desired volume and power levels—faithfully, efficiently, and at low distortion. Audio frequencies range from about 20 Hz to 20 kHz, so the amplifier must have good frequency response over this range less when driving a band-limited speaker, such as a woofer or a tweeter. A straightforward analog implementation of an audio amplifier uses transistors in linear mode to create an output voltage that is a scaled copy of the input voltage.

Audio Amplifiers

simple amplifier circuit for speaker

Here is a circuit project of a reliable audio amplifier that does not distort even when working at its maximum power. The circuit is quite simple and it is based on common low price components. The total harmonic distortion THD at full power does not exceed 0. The amplifier has flat frequency response range from 10Hz to 40 KHz.

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Simple Class-A Amplifier

You can connect condenser MIC with an amplifier circuit as given below diagram. This circuit will work very well with any type of Audio amplifier. Use only v for condenser MIC for the best result. The audio amplifier circuit needs v as per amplifier specification. Connect the positive terminal of the mic with 10 k resistor in series with the positive supply and the negative terminal of the mic is directly connected to negative supply or ground.

How To Connect Microphone with Any Amplifier

Understanding Audio Signals. It is generally used in the context of analog signals or alternating current AC signals. The RMS value is the amount of current or voltage which is equal to its equivalent direct current DC. The following equation is used for calculating the RMS voltage from peak to peak voltage —. In this series, gain and output power will be mainly considered while designing the amplifier circuits. Construction of Audio Amplifiers An amplifier circuit can be designed using transistors or operational amplifiers. A transistor can operate in three states — Cutoff state, Active state, and Saturation state. In active state, the transistor acts as an amplifier so by configuring transistors in active state, they can be used to construct audio amplifiers.

I got two creative speakers from a friend who didn't need that. Now I need an amplifier circuit along with a power supply for the same.

How Amplifiers Work

EveryCircuit is an easy to use, highly interactive circuit simulator and schematic capture tool. Real-time circuit simulation, interactivity, and dynamic visualization make it a must have application for professionals and academia. EveryCircuit user community has collaboratively created the largest searchable library of circuit designs. EveryCircuit app runs online in popular browsers and on mobile phones and tablets, enabling you to capture design ideas and learn electronics on the go.

Class D Audio Amplifiers: What, Why, and How

Modest power audio amplifiers for driving small speakers or other light loads can be constructed in a number of ways. The first choice is usually an integrated circuit designed for the purpose such as the LM or newer class D switching types that often accept digital data instead of simple audio voltage. Discrete designs can also be built with readily available transistors or op-amps and many designs are featured in manufacturers' application notes. Older designs employed audio interstage and output transformers but the cost and size of these parts has made them all but disappear. Here are a few easy-to-build analog audio amplifier circuits for a variety of hobby applications:. For a maximum gain of only 20, leave out the 10 uF connected from pin 1 to pin 8.

By: Tom Harris. When people refer to "amplifiers," they're usually talking about stereo components or musical equipment.

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Copyright of this article is the property of Mr. It is reprinted here as a reader service, and ESP claims no intellectual rights whatsoever except for the editorial comments. It is reproduced using the original text or as much as I have been able to acquire , and the descriptions are those of the author excluding editors notes. It should be noted that the article was originally published sometime in , and that the transistors are now obsolete. Much of the descriptive text is no longer valid for new designs, and the comments on Class-AB amplifiers may not apply today. Linsley Hood, M.

This Stereo Amplifier Is Simple To Make

You must have seen someone speaking on the MIC and the amplified voice coming from the speaker, how this is possible? Is there any circuitry between MIC and speaker of we can directly connect Microphone with speaker to get it working? In this circuit, we learn to build a simple Microphone to Speaker system , in which input sound is given to the MIC and we hear the amplified version from the speaker.

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  1. Brajinn

    Magnificent phrase