How They Work & What They Do Best – Audio University (2024)

How They Work & What They Do Best – Audio University (1)

When you are shopping for a microphone, it can be very overwhelming. Where do you start? There are so many different manufacturers and each manufacturer has dozens of options. The best place to start, as with anything in audio, is with the basics.

There are five basic types of microphones: dynamic, condenser, ribbon, carbon, and crystal. In this post, we will explore how each works and what each does best.After reading, you will have a good understanding of the five types, so that you can decide which type to use in different situations.

There are five basic types of microphones: dynamic, condenser, ribbon, carbon, and crystal.

Despite which type it is, every microphone is a transducer.A transducer is a device which converts energy from one form to another. A microphone converts acoustic energy in the atmosphere to voltage in a cable.

All microphones work on the same basic principle. A membrane in the microphone, called a diaphragm, moves sympathetically with the movement of air particles around it. This mechanism is similar to that of the temporal membrane in the human ear. You can see a simple illustration of this concept below.

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Although each microphone uses a diaphragm to capture movements in the atmosphere, the method used to convert that movement into electrical currents varies. The following sections explore the five methods.

Dynamic Microphones

How They Work

Dynamic microphones are also called moving coil microphones. They function on the following principle: as a coil of wire moves in relation to a magnet, a voltage is created on the wire.

In a dynamic microphone, the diaphragm is attached to a coil of wire. The coil of wire surrounds a magnet.

The diaphragm is usually made of aluminum alloy or other low-mass material, so that it can be moved by the low-mass particles of the air.

As the diaphragm shifts forward and backward with the movements in the atmosphere, the coil of wire also moves. Because the coil surrounds around a stationary magnet, as the coil moves around the magnet, a voltage is created on the wire. Take a look at the model below.

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Speakers operate on this same principle, but in reverse. You can see a detailed animation ofhow a speaker works by Animagraffs. This is a website that creates amazing 3D models of various technologies.

What They Do Best

Dynamic microphones are the most common type of microphone. The following qualities are what make them so popular:

  • Durable
  • High-Mass
  • Directional
  • No Inherent Noise

Durable

Dynamic microphones relatively simplistic in their construction, which makes them more rugged than the more delicate types.Because they are so compactly constructed, the noise from handling a dynamic microphone is greatly reduced.

TheShure SM58, a classic handheld dynamic microphone, is known for its virtual indestructibility. These mics are notorious for their ability to be dropped, tossed, and accidentally hit with drumsticks, while maintaining a consistent sound quality throughout their lifespan.

The durability and rugged construction of moving coil microphones makes them great for live sound applications.

High-Mass

Dynamic microphones are relatively heavy, or massive. This makes them less sensitive than other microphone types. When a microphone has low sensitivity, it means that it can handle a louder input.

More sensitive microphones will sound great for quiet sources, but will start to distort the signal at higher levels. Dynamic microphone diaphragms are generally heavier than the diaphragms in other types of microphones. Although this means they require more gain, it also means they can accurately capture very loud signals without distortion.

If you put a sensitive microphone on a very loud guitar amplifier, snare drum, or horn, for example, the sound will completely overwhelm the diaphragm and cause saturation. These high-output sources require a microphone that can accomodate the sounds they create.

Directional

Dynamic microphones are capable of omnidirectional and cardioid polar patterns.

Most have a cardioid polar pattern, meaning that they pick up sounds best from in front of the diaphragm and reject sounds best from behind the diaphragm. Although other types of microphones are also available with a cardioid polar pattern, dynamic microphones are superior in their ability to reject sounds from the sides and rear.

This has many practical applications.

Firstly, the high directionality of dynamic microphones can help capture only a particular instrument or source, even when other sources of sound are nearby.

Whether you are trying to capture a vocalist standing next to a drum kit, one horn in a brass section, or a podcast guest in a noisy room, the superior directionality of dynamic microphones can be useful.

The directionality of moving coil microphones also helps in sound reinforcement situations.

Any time you send the signal from a microphone to speakers in the same room, there is the danger that the sound from the speakers will enter the microphone and create a feedback loop.

Dynamic microphones are able to provide more gain before feeding back through the speakers. This is another reason they are ideal for live sound.

No Inherent Noise

As you will see in the following sections, some other types of microphones contain more complicated circuitry than the dynamic type. The circuitry of those microphones may add some benefits, but they come at a cost.

Dynamic microphones use simple, passive circuits to convert sound to electricity. This simplicity offers the benefit of no inherent noise, meaning you can use more gain without starting to hear hiss or hum.

Condenser Microphones

How They Work

Condenser microphones are also called capacitor microphones. They function on the following principle: If two metal plates are in close proximity, the closer they are, the higher the capacitance.

Capacitance is the ability of a system to hold an electrical charge.

In a condenser microphone, an electrically conductive diaphragm, usually made of gold-sputtered mylar, is suspended in close proximity to a solid metal plate. When sound waves interact with the diaphragm, it moves back and forth relative to the solid metal plate. This change in distance from the backplate to the diaphragm creates a change in capacitance, and an electrical signal is created.

An impedance conversion circuit must be placed after the output of the capacitor to make the signal usable in an audio system. This circuitry requires +48V-DC, known as phantom power.

In some applications, such as cell phones and computers, electret condenser microphones are used which utilize permanently charged material and do not require phantom power.You can see a simplified diagram of a condenser microphone below.

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What They Do Best

Condenser microphones are also very common in professional audio. They are useful, thanks to the following qualities:

  • Low-Mass
  • Variable Polar Pattern

Low-Mass

There are a few practical advantages of the low-mass diaphragm in a condenser microphone.Firstly, these low mass of these diaphragms makes them more capable of capturing transient sound waves. A transient is the short, high-amplitude burst at the beginning of a sound wave.If a snare drum is struck, the microphone must move very quickly to capture the sound accurately. The heavier the diaphragm, the longer it takes to respond to the sound wave. Condenser microphones are excellent in capturing these quick changes in sound pressure.

Another advantage to the low-mass diaphragms found in condenser microphones is their frequency response.Compared to other microphone types, condensers have the widest frequency response. This means that condenser microphones are capable of capturing variations in the air that cycle very quickly. This property allows condenser microphones to capture more detail from the sound source.

Inverse to the high-mass dynamic microphone diaphragms, condenser diaphragms have high sensitivity. This has the positive effect of increased clarity and ability to capture low level sounds. However, this low mass also makes them susceptible to saturation in high sound pressure level applications.

Variable Polar Pattern

Most condenser microphones have a fixed polar pattern of cardioid or omnidirectional.

However, because the depth of a condenser microphone circuit is very small in comparison to moving coil circuits, some condenser microphones offer the ability to vary the polar pattern with a switch.

For example, theAKG C414has the ability to operate in omnidirectional, bidirectional, cardioid, wide cardioid, and hypercardioid.

This is accomplished through the use of two diaphragms in close proximity. The signal from each is mixed together, and the phase interactions between the two signals creates cancellation of sounds which enter from certain angles.

This property makes condenser microphones capable of being very versatile. Not all condenser microphones are capable of this. The microphones that do offer multipattern functionality, however, can be an engineers best friend. These microphones generally come at a financial cost, but their versatility makes them very valuable in a variety of situations.

Ribbon Microphones

How They Work

Ribbon microphones are also called velocity microphones, and are technically a variation of a dynamic microphone. The function on the following principle: as an electrically conductive ribbon moves within the field of a magnet, a voltage is created on the ribbon.

In a ribbon microphone, a corrugated ribbon is suspended in the field of a permanent magnet. The ribbon is typically made of low-mass, aluminum alloy. When sound interacts with the suspended ribbon, the ribbon moves in relation to the magnet. This creates a voltage on the ribbon, which is connected to the output of the microphone.

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What They Do Best

Ribbon microphones are a bit less common in live situations, but are still very common in studio settings. The following characteristics account for this:

  • Low-Mass
  • Low-Sensitivity
  • Directional
  • Non-Linear Response
  • Low Inherent Noised

Low-Mass

The low mass of a ribbon diaphragm makes for an excellent frequency response.As small changes in the velocity of air particles occur, the ribbon can follow. This creates an electrical signal that very closely represents the original sound. TheRoyer R-121is known for its transparent, realistic sound and remarkably flat frequency response.

Although the low mass of the diaphragm benefits the sound of a microphone, the durability of a ribbon microphone suffers.The ribbon can be anywhere between .6-to-4 microns thick. Compare this to the 100-micron diameter of a human hair, and it becomes clear just how small a ribbon diaphragm is. Sudden gusts of air, and even the sustained pull of gravity in a certain direction can damage these microphones. This is especially true of vintage models.

Low-Sensitivity

The low mass of condenser microphones make them very sensitive.However, ribbon microphones have a low mass while maintaining their ability to handle high SPL (Sound Pressure Level).This makes them a great choice for capturing detailed, transient sounds without fear of diaphragm saturation.

Directional

Ribbon microphones are inherently bi-directional. Sounds from the front and back of the ribbon (perpendicular to the ribbon) are picked up evenly. Thus, sounds from the side (parallel to the ribbon) will place pressure on both sides of the ribbon evenly and will result in no movement of the ribbon at all.

This feature can be useful in many situations. In broadcast, especially in the early days, ribbon microphones could capture two people speaking while rejecting sound from an audience or equipment rack nearby. The directionality can also be useful in capturing the sound of a choir in a reverberant space, allowing both the signal and the reverb to be recorded.

Non-Linear Response

The ribbon diaphragm does not respond linearly to sound pressure levels. This means the correlation between sound pressure and voltage is not parallel. This quality mimics the human perception of loudness.The result is a more natural sound that does less to embellish certain characteristics of a sound source. This characteristic makes ribbon microphones excellent for stereo recordings of an instrument or ensemble.

Low Inherent Noise

Ribbon microphones often utilize passive circuitry and are thus less susceptible to electronic noise than condenser microphones.The voltage on the ribbon simply represents the movement of the ribbon itself, isolated from any electronic noise. This allows ribbon microphones to be very quiet while maintaining their ability to react quickly to small movements in the air.

Carbon Microphones

How They Work

Carbon microphones operate on the following concept: When carbon granules are compressed, their resistance decreases.

Carbon microphones are not commonly used in the modern world, but were used in telephony and broadcast in the early days of the technology up until the late 70s. A battery is required to create an electric current to flow through the carbon granules. As sound interacts with the carbon, the granules are compressed. This changes the resistance of the carbon, in turn increasing and decreasing the current with the movements of the air. Carbon microphones suffer from significant noise and limited frequency response.

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Crystal Microphones

How They Work

Crystal microphones are also called piezoelectric microphones. They function on the following principle: When certain crystals are placed under mechanical force, a voltage is produced.

This is called the piezoelectric effect. As sound places pressure to diaphragm or to a crystal directly, the crystal is flexed. This flexion creates an electrical charge on the crystal, which represents the vibrations in the air. Crystal microphones are also not widely used today. They do not offer wide frequency response and operate at a high impedance not suitable for professional applications.

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I cannot tell you which microphone is best. No one can. I hope that you have gained an understanding of the key differences between the various types of microphones. This knowledge will help you to think for yourself and choose microphones based on the situation at hand.

As with anything in audio production, if you learn why and how things work, you will be more prepared to solve unique problems.

How They Work & What They Do Best – Audio University (2024)

FAQs

Is a sound engineer degree worth it? ›

The answer lies in the burgeoning opportunities within the industry. The demand for skilled audio professionals is rising from film and video production to television, radio, podcasts, and marketing. Obtaining an audio production degree or diploma gives you the skills and opportunities for various careers.

What is the best college for audio engineering? ›

10 of the Top Schools for Audio Engineering
  • Berklee College of Music. ...
  • Drexel University. ...
  • Belmont University. ...
  • Middle Tennessee State University. ...
  • SAE Institute. ...
  • Cuyahoga Community College (Tri-C) ...
  • NYU/Steinhardt. ...
  • Frost School of Music.

Can you make a living as a sound engineer? ›

The average salary of an audio engineer is $97,656 per year . Some common benefits include health insurance, tuition reimbursem*nt and paid time off . Pay factors include experience level and education.

What degree do audio engineers have? ›

Most employers require at least a certificate in audio engineering, and many may prefer a degree. Degrees include associate and bachelor's degrees in audio engineering, music production and engineering, and sound design. These programs combine technical and creative coursework with hands-on experience.

Is it hard to find a job as a sound engineer? ›

It's hard finding the right opportunity but with perseverance things happen. You have to start as an Intern or apprenticeship and climb your way up the ladder. It takes a long time to work your way up to a position where you're working as a Live Sound Engineer or a record maker–a professional record maker.

Are audio engineers in high demand? ›

According to the U.S. Bureau of Labor Statistics (BLS) in 2020, around 13,100 people were employed as sound engineering technicians. From 2020-2030, employment was projected to grow seventeen percent to 15,400. Growth prospects are likely to be strongest in the sound recording industries.

How much do the best audio engineers make? ›

Audio Engineer Salary. $50,000 is the 25th percentile. Salaries below this are outliers. $113,000 is the 75th percentile.

How much math is in audio engineering? ›

The Bachelor of Science in Sound Engineering requires a minimum of 120 credits, including 12 in math, 10 in physics, and 20 in engineering. The engineering courses required for the degree fulfill a Minor in Electrical Engineering through the College of Engineering.

Is audio engineering a realistic career? ›

Pursuing a career in audio engineering and sound production can be highly rewarding for people with a technical and creative mindset. Sound production and engineering are two distinct fields, but both involve applying technical knowledge and skills to create a high-quality end product.

Who is the best audio engineer in the world? ›

10 Famous Audio Engineers
  • Phil Spector. ...
  • Bob Clearmountain. ...
  • Bernie Grundman. ...
  • Brian Wilson. ...
  • Les Paul. ...
  • Alan Parsons. ...
  • Eddie Kramer. ...
  • Conclusion. These 10 audio and mastering engineers have had a profound impact on the music industry, helping to shape the sound of some of the most iconic recordings of all time.

Do sound engineers travel a lot? ›

Live sound mix engineers work most nights and weekends. Freelance mix engineers are likely to go on tour at some point in their careers, an experience that comes with its own lifestyle: spending a lot of time on the road, sleeping in a different bed each night, and meeting new people every day.

How many hours do sound engineers work? ›

On average, Audio Engineers often work 40 to 50 hours per week, but this can fluctuate widely depending on project demands, deadlines, and the industry sector.

What school has the best audio engineering program? ›

1) Berklee College of Music Production and Engineering Department. At Berklee's College of Music Production and Engineering Department, you can get your Bachelor of Music in Independent Recording and Production or Bachelor of Music in Music Production and Engineering in their renowned four-year programs.

What is the difference between an audio engineer and a sound engineer? ›

In some sectors, these terms are used interchangeably, but audio engineers are experts in all aspects of audio applications, whereas a sound engineer will usually concentrate on one targeted niche, such as live sound engineering, sound mixing engineering, or sound recording engineering.

Can you be an audio engineer without a degree? ›

A degree is not necessary in this industry; however proficiency in Pro Tools, critical listening skills and detailed client services are a must. Many students don't have the time to go to college for four years to earn a degree and then look for a job. Most people don't even have two years to attend a trade school.

What are the cons of being a sound engineer? ›

Sometimes one has to work continuously for many hours to finish the project on time. Therefore, working hours in this field can be quite long. Hectic schedules: As a professional sound engineer, you will be working with several musicians. You must understand how to balance the sound levels of various instruments.

Is it hard to study audio engineering? ›

However, audio engineering is both hard to learn independently, and finding a job without credentials can be challenging. Your degree or certification is much more than a piece of paper — it gives employers the confidence that you know how to work with expensive, sensitive equipment.

What do sound engineers earn? ›

Live sound engineers control the sound at events like theatre performances, music concerts and festivals.
  • Average salary (a year) £25,000 Starter. £40,000 Experienced.
  • Typical hours (a week) 39 to 41 variable.
  • You could work. evenings / weekends / bank holidays away from home.

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