Diksha, Author at Engineers Garage

Basics of Audio Amplifier – 1/9

Diksha — Tue, 20 May 2025 11:46:30 +0000

Audio is one of the most common media. Here, It refers to the representation of sound which can be perceived by humans. Audio and Video are the essential component of any electronic media. The electronics can be used to receive audio signals (via microphone), record audio in some storage, transmit audio (through wired or wireless communication channels) and reproduce audio signals (via speakers). The audio can be represented and transmitted as either analog signals or digital signals. In this series, analog audio signals are the concern. The audio signals have a frequency range of 20 Hz to 20,000 Hz.

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Designing a 6 Watt Car Audio Amplifier – 5/9

Diksha — Tue, 20 May 2025 11:39:21 +0000

In the previous tutorial, a Bass Boost Power Amplifier was designed. Now it's time to start designing power amplifiers suitable for specific applications. In this tutorial, a car audio amplifier will be designed. The cars have been coming with inbuilt audio systems from years. An audio system of a car is one of the important features that shines as unique selling point (USP) for any car in the market. The audio systems have become a vital accessory for any car. Even many times consumers replace the default audio systems came in their car with new one for better driving experience.

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Design a low power amplifier for headphones- 6/9

Diksha — Tue, 20 May 2025 11:38:49 +0000

Continuing with the designing of application specific power amplifiers, in this tutorial a low power amplifier will be designed for regular mobile headphones. In the previous tutorial, a car audio amplifier using TDA2003 IC was designed. The mobile headphones are a type of miniature speakers designed especially for use with smart phones. These headphones do not have louder sound output. However, their sound quality can be improved by using an amplifier circuit with them. For headphones, a low power amplifier need to be designed.

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Audio Filters: Designing a two-way audio crossover – Part 6

Diksha — Mon, 14 Oct 2024 14:57:57 +0000

In the previous tutorial, fundamentals of audio filters were discussed. The audio filters can be passive or active depending upon the use of passive or active components in their designing. On the basis of frequency response, filters can be classified as high pass, low pass, band pass, Notch, band reject, T-Notch, all pass and equalizer filters. In this tutorial, an audio crossover will be designed. The Audio crossover is an electronics circuit which splits the audio signal into two or more frequency bands. These frequency bands are then, sent to the different audio drivers (Twitters, Mid Range and Woofers). A single speaker is not capable to serve the whole range of audible frequencies due to the limitations of its construction. So, different drivers (speakers) are required to deliver different range of audio frequencies.

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Audio Filters: Understanding the filters – Part 5

Diksha — Mon, 14 Oct 2024 14:56:47 +0000

In the previous tutorials, two of the most important building blocks of an audio system - Microphone and Speaker were discussed. An audio system is designed to receive audio signals (via microphone), record audio in some storage, transmit audio (through wired or wireless communication channels) and reproduce audio signals (via speakers).

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Audio Filters: The working and classification of speakers – Part 4

Diksha — Mon, 14 Oct 2024 14:55:52 +0000

In the previous tutorial, working principle and classification of microphones was discussed. The microphone is an input transducer which converts sound waves into electrical signals. The audio signals from a MIC are amplified by a preamplifier and transferred to the main audio unit. The audio unit might comprise of amplifier and/or filter circuit or may have other circuitry to store audio to a computer. The amplified or stored audio is reproduced using another type of transducer which is called speaker. The Speaker is a type of output transducer which converts the electrical signal into audio signal. Speakers are enclosed in a rectangular or square shape cabinet. The shape of the box affects the quality of the sound. The cabinet consists of different types of transducers/speakers which produce different types of audio frequency. Each transducer is called as ‘driver’ and the whole cabinet is known as ‘loudspeaker’.

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Audio Filters: The working and classification of microphones – Part 3

Diksha — Mon, 14 Oct 2024 14:54:00 +0000

In the previous tutorials, physical properties of sound waves and acoustic waves were discussed. Sound or Acoustic Waves are in the form of vibration. Sound needs to be converted into electrical signals so that it can be processed by electronic circuits. So, the sound which is a mechanical energy must convert into electrical energy and must be precisely represented as an electrical waveform (analog) for any signal processing operations. So, there is need of a device which could sense the audio signals efficiently and convert them into electrical signals.

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Audio filters: Understanding acoustic waves – Part 2

Diksha — Mon, 14 Oct 2024 14:53:40 +0000

In the previous tutorial, sound wave and its properties were discussed. Now it's time to understand Acoustic Waves. Generally, the term sound wave is used to refer the waves having frequency range audible to humans that is 20 Hz to 20 KHz. The waves having frequency greater than 20 KHz are called Ultrasonic waves and waves having a frequency range in Giga Hertz or higher are called Hypersonic Waves.

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Audio Filters: Understanding sound waves – Part 1

Diksha — Mon, 14 Oct 2024 14:50:03 +0000

The audio electronics is a branch of electronics that deals with designing of circuits that convert sound into electrical signals or electrical signals back into the sound. These circuits all together form an audio system. Basically, an audio system is designed to receive audio signals (via microphone), record audio in some storage, transmit audio (through wired or wireless communication channels) and reproduce audio signals (via speakers). So, the audio circuits perform signal processing for representing the sound in the form of electrical signals, manipulate the electrical (audio) signals like amplifying, filtering or mixing, reproduce sound from the audio signals, store audio into computer files or reproduce audio from an audio file. All these processes are performed by different audio related circuits or devices.

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Basics of Li-ion Battery Charging (Part- 3/17)

Diksha — Sat, 06 Jul 2024 13:57:43 +0000

Lithium-ion batteries are another popular type of batteries that are used in the Uninterruptible Power Supply (UPS) designs. These batteries are commonly used in portable electronic devices. These are low maintenance batteries having high energy density, small size and light weight which makes them suitable for use in most of the portable devices. But, due to high energy density in comparison to the weight and volume of the Li-ion Battery, there are also some safety concerns while charging the Li-ion batteries. Before designing a charger circuit for these batteries, let us first understand charging methods and topologies involved in charging Li-ion batteries. Also, precautions required in handling, storing and disposing of these batteries are must to know.

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Completing Modified Sine Wave Inverter Design with Full Bridge Circuit and Step Up Transformer – (Part 10/17)

Diksha — Sun, 12 May 2024 13:22:54 +0000

In the previous tutorial, a half wave bridge circuit with IR-2110 gate driver circuit was designed. The working principle of a modified sine wave inverter has been already discussed. Now it's time to complete the circuit of Modified Sine Wave Inverter. The complete sine wave inverter can be designed using full bridge circuit and a step up transformer.The aim of this project is design an inverter which can output a quasi sine waveform having a frequency of 50 Hz and 220 V peak voltage. So all the building blocks will be combined in this tutorial to make the final circuit of the sine wave inverter.

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Introduction to Uninterruptible Power Supply (UPS) and its design (Part – 1/17)

Diksha — Fri, 03 May 2024 10:59:48 +0000

The Uninterruptible Power Supply (UPS) is an electronics device which supplies power to a load when main supplies or input power source fails. It not only acts as an emergency power source for the appliances, it serves to resolve common power problems too. Any UPS has a power storage element which stores energy in the form of chemical energy like the energy is stored in batteries.It is like energy is stored in the form of motion in a flywheel. That is why these devices are also called battery backup or flywheel backup. The UPS not only provides emergency power, they also help to sort out common power related issues like providing protection from input power interruptions, protection from overvoltage, output voltage regulation and stabilization.

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Designing 12V Lead-Acid Battery Constant Voltage Limited Current Charger for UPS (Part- 2/17)

Diksha — Fri, 03 May 2024 10:58:23 +0000

In this tutorial, a constant voltage charger for the 12V lead acid battery will be designed. The lead-acid batteries can be charged in different ways or modes. In this tutorial, a constant voltage charger will be designed for charging the lead-acid battery. The battery is required to be supplied limited current which saturates once the peak terminal voltage is achieved in the charging process. Depending on the per cell voltage of the 12V battery, the maximum rated voltage of the battery varies from 13.5 V to 14.6 V. In this tutorial, the charger circuit is designed for charging a lead acid battery having peak terminal voltage of 14.4 V.

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Designing constant current and constant voltage source for single cell Li-ion battery charger (Part- 4/17)

Diksha — Fri, 03 May 2024 10:56:50 +0000

In the previous tutorial, the basics of Lithium ion batteries were discussed. Also, it was discussed how it is important to handle these batteries with care. as mentioned in the previous tutorial, that Lithium ion batteries need to be charged using CC-CV method, in this tutorial, a Li-ion battery charger for a single-cell Li-ion battery of nominal voltage 3.7 V will be designed. There are charger modules available in the market which can be used to charge the Li-ion batteries. In this tutorial, a charger built using the basic electronic components including Linear Regulator will be designed from scratch. The charger circuit will be customized as per the battery specifications and the charging requirements.

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Switching mechanism for linear regulator single cell Li-ion battery charger using microcontroller and relay (Part -5/17)

Diksha — Fri, 03 May 2024 10:55:49 +0000

In the previous tutorial, the Constant Current (CC) Source of 60 mA and Constant Voltage (CV) Source of 4.2 V were designed using LM317 voltage regulator IC. The constant current source is to be used for constant current mode of the battery charging while the constant voltage source is to be used for constant voltage mode of the battery charging. During the designing of constant current source and the constant voltage source, testing a Li-ion battery before charging it was also discussed. Check out the previous tutorial “Basics of Li-ion battery charging” for learning about the basics of Lithium ion batteries, their charging methods and topologies.

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High and Low Side Switching of MOSFET – ( Part 13/17)

Diksha — Mon, 21 Nov 2022 12:01:58 +0000

While designing the UPS circuits, MOSFET were used in the inverter circuits. The MOSFET were used as High side switches in the circuit. For driving the MOSFET in high side configuration, IR2110 gate driver IC was used. IR2110 is a High –Low side Gate Driver IC which is used with power MOSFET and IGBT. A Gate Driver is a specially designed circuit that is used to drive the Gate of MOSFET or IGBT in High Side Switching application. That means when MOSFET/IGBT is used in High side configuration then a Gatedriver IC is need to be used. In this tutorial, some important concepts like the High and Low side Switching of MOSFET, need of Gate Driver circuit and driving methods of High side MOSFETs will be discussed. These concepts will crystal clear the working of MOSFET as a switch and will so justify the use of MOSFET in inverter circuit as switching component.

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Testing MOSFET – (Part 16/17)

Diksha — Tue, 17 May 2022 13:24:54 +0000

MOSFET are more commonly used transistors. They are known for their high switching speed and high input impedance. That is why they are preferred to be used in the fabrication of integrated circuits and the high frequency application chips. Individual MOSFET are also widely used in lots of applications. Before using a MOSFET in a circuit, it is important to check if it is not faulty. In a defective MOSFET, the drain may get shorted to the gate. This can cause the drain voltage feedback to the gate terminal and this voltage then feed to the driver circuit through the gate resistor which can blow the driver circuit further. Therefore it is better to test the MOSFET before using it in the circuit. As N-channel MOSFET are more common so testing of N-channel MOSFET is only discussed in this tutorial.

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Driving High Side MOSFET using Bootstrap Circuitry – (Part 17/17)

Diksha — Tue, 17 May 2022 13:22:53 +0000

When using MOSFET as a switch, it can be connected in two switching modes - high side switch and low side switch. Contrary to low side, the high side configuration of MOSFET requires some external circuitry to turn it ON. There are various methods for driving the high side MOSFET. The following three methods are most commonly used to drive a MOSFET as high side switch - 1. Dual power supply method2. Gate Driver IC method 3. Bootstrap circuitry method

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Adjustable 0 to 30V 2A DC Power Supply Circuit (Part 1/13)

Diksha — Sun, 24 Apr 2022 13:41:42 +0000

The power supplies are the mainstay of electronic circuits. The power supply circuits can be designed in many ways. There can be adjustable power supplies or can be fixed voltage power supplies. A power supply circuit is rated by the voltage or range of voltage it supplies and the maximum current it allows to draw by a load. Secondly, the households are provided with AC voltages as main supplies. A lot of electrical appliances like fans, fluorescent tubes, and others are capable of using AC voltages directly but most of the electronic devices require conversion of AC voltage to DC voltages for their operation. Any external power supply circuit needs to convert AC voltage to DC voltage for use by the electronic devices. In this project, an adjustable power supply circuit is designed which inputs AC mains and provides 0 to 30V 2A DC Voltage as output.

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Adjustable +/- 1.25V to +/-22V 1A Power Supply Circuit (Part 2/13)

Diksha — Sun, 24 Apr 2022 13:40:55 +0000

In the previous project, an adjustable power supply circuit having an output voltage in the range between 0V and 30V with the maximum current capacity of 2A was designed. A lot of times required DC supply should have both positive and negative voltages. In the previous project, the negative voltage could be provided to a device only by reversing the terminal connections manually. The circuit will input 220V-230V AC and generates a variable DC voltage in the range of +/- 1.25 V to +/-22V at the output. This power supply can provide a maximum current of 1A at the output. For making an adjustable power supply that would have both negative and positive voltages, a center tape transformer needs to be employed in the circuit design.

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