When looking for a sound system, the speakers play a huge part in what you are shopping for. The ultimate goal of a speaker is to produce a clear audio output, whether its music or coming from your T.V. But how do you achieve this experience? Where does the sound come from?

A truly high-grade speaker requires that every frequency is accurately reproduced to the listener without adding or removing any information. In order to determine whether or not you are receiving an accurate listening experience, you need to account for the frequency response, the amount of distortion, and the directionality of the speaker. 

How do Speakers Work?

The way that a speaker works is by converting electrical energy into mechanical energy (motion). The mechanical energy is what compresses the air and converts the motion into sound energy, also known as “sound pressure level”.

Then an electric current is sent through a coil of wire and it induces a magnetic field. That electric current is sent through the voice coil which produces an electric field that interacts with the magnetic field of the permanent magnet attached to the speaker. 

Sound travels in pressure waves; when air particles are compressed and rarified quickly, we hear it as a sound. The quicker that the air pressure changes, the higher the frequency of the sound that we hear. 

When a speaker vibrates and moves back and forth, it pushes air particles and then changes the air pressure to create sound waves.

The Difference Between a Good Speaker And a Bad One

The best way to determine if a speaker is higher quality is to see how similar the pressure wave (waveform in the air) is to the sound recording (the electronic signal) that was sent to the amplifier.

If all frequencies are reproduced accurately to the person who is listening, without adding to or removing any information, then it is probably a high-quality speaker. The best way to determine how accurate your listening experience is, is to evaluate the frequency response, the amount of distortion, and the dispersion (directionality) of the speaker. 

The Importance of Frequency Response

The frequency response is how loud the output of a speaker will be at different frequencies. Ideally, the frequency response for a normal speaker should be flat.

If the speaker frequency response is flat, this means that when white noise is played through a speaker, all frequencies the speaker is designed to reproduce will be done so at the same volume level. The reason that a flat response is wanted is so the speaker is then able to accurately reproduce exactly what the recording artist intended you to hear.

Many speakers that are produced today are not flat. In the end, it can be quite difficult to do. Some speakers do not have enough treble, bass, or they have peaks and dips in their frequency response range.

With this, in instruments or vocals being louder or quieter than they were intended to be. For high frequencies, speakers must move very quickly and for low frequencies, speakers have to push a lot of air.

This is why high-frequency drivers (tweeters) are usually small domes and low-frequency drivers (woofers) are usually large cones.

What Parts Are in a Speaker?

  • Pole & Rear Plate: The rearmost part of a speaker.
  • The Magnet & Voice Coil: These interact with each other to convert the electric energy into motion.
  • The Basket: The cone is adhered to the basket. The basket is also often what is used to attach the entire speaker assembly to a baffle 
  • The Cone & the Dust Cap: The parts that move air and produce the sound
  • The Spider & the Surround-  Also known as the suspension. These hold the cone in place and still allow it to move.
  • Baffle: Often used in architectural in-ceiling or in-wall speakers, this is the part that is attached to the frame.
  • Frame: This is the structure that architectural speakers use to house the entire speaker and also where the dog ears are located and used for installation.

Differentiating Sound

People hear different sounds from different vibrating objects due to the variations in:

  • Air pressure level: This is the sound wave’s amplitude that determines how loud the sound is. The higher amplitude sound waves are what vibrate our eardrums more and it is translated as a higher volume.
  • Sound wave frequency: A higher frequency means that the air pressure moves at a faster rate. We hear this at a higher pitch and when the frequency fluctuates less, we hear these as lower sounds.


Transformers are electrical devices consisting of two or more coils of wire used to transfer electrical energy by means of a changing magnetic field. These are designed to operate within the audio band of frequencies and can have applications in the input stage (microphones), output stage (loudspeakers), inter-stage coupling and impedance matching for the amplifiers. 

Audio and impedance matching transformers are closely related in design to low-frequency voltage and a power transformer, but they operate over a much wider frequency range of frequencies.

A common application used for audio frequency transformers is in impedance matching. Audio transformers are best at balancing amplifiers. They are also good for balancing loads together that may give different input/output impedances to achieve a maximum power transfer.

Transformer speakers are referred to as constant voltage 70 volts, 100 volt, or high impedance speakers. The transformer creates an electrical bridge that bypasses the headaches of impedance loads on an amplifier.


A tweeter is the type of speaker driver that produces the highest range of frequency. The main drivers are the tweeter, woofer, and midrange. A driver is what moves a flexible cone (diaphragm) back and forth really fast to produce soundwaves.

The diaphragm generally is made of paper/plastic/metal/cloth and it is attached to the suspension’s wide-end. The suspension (surround), is a flexible metal rim that lets the cone move. It’s connected to the basket, which is the driver’s metal frame.

At the more narrow end of the cone is a voice coil that hooks up to the basket through a flexible metal ring that allows the coil to move back and forth but still keeps it in place. A tweeter’s size is what determines the frequency because in order to make higher frequency waves the diaphragm has to vibrate at a faster rate.


Woofers are made to handle the lower range of frequencies or soundwaves for a speaker system. There are a few different types of woofers that are made to fit your acoustic needs. Although these woofer types are all built very similarly, there still is, of course, distinct differences to each type:

  • Standard Woofer:- This woofer is usually characterized by the bassy sound that it produces from the lower frequency sine wave. A sine wave is characterized by a single frequency without any harmonics. A sine wave can be easily recognized by ear due to its pure sound, similar to a whistle. A standard woofer is generally seen in higher-end speakers that contain both a woofer and tweeter (2-way speaker) or a woofer, tweeter, and mid-range speaker (3-way speaker).
  • Subwoofers:- As the most common add-on to a consumer set-up, subwoofers are very specific and can only produce tones that are lower than 200 Hz in consumer sound systems. Most are made up of one or more woofers and mounted inside a wooden box. The human ear is only able to pick up a frequency as low as 12Hz. Subwoofers working at lower frequencies can only be felt, if not heard.
  • Midwoofer: Mid-woofers are clearly in the middle of the “woofer” range (200Hz – 5kHz). This type of speaker has such a vast range of frequencies and will produce the best quality sound between 500Hz – 2kHz.
  • Rotary Woofer: This is a woofer-style loudspeaker that utilizes a coil’s motion to alter the pitch of a set of fan blades instead of using the cone. Since the pitch of the blades is changed due to the audio amplifier, the power that is required is much less than a conventional subwoofer. These subwoofers are also superior at creating sounds that are well below 20Hz which is below the normal level of a human’s hearing capabilities and can produce frequencies down to 0Hz by compressing the sealed air in a room.

Speaker Crossover

Speaker crossover is actually a component that is hidden in almost every loudspeaker with more than one driver. The only speakers that do not have crossover are full-range speakers and speakers that use a type of software to separate different frequencies. A crossover is where the unfiltered audio signal is separated according to the higher or lower threshold. 

The point of having a crossover is to supply each driver with the signal range that the speaker is designed to produce. Crossovers also help ensure that tweeters only receive the highest frequencies.

It is quite difficult to achieve a completely linear frequency response and the speakers that are given the name “Hi-Fi”, require a high-quality crossover in order to maintain frequency levels lower than three decibels. 

Purchase High-Quality Speakers

In the end, spending a little more money in order to purchase a higher quality speaker, you will have a speaker that improves your listening experience and has a longer lifetime.

If you are looking for a speaker that is higher quality and reliable, TruAudio has many types of speakers (in-wall, in-ceiling, 2-way/3-way, bookshelf, surround), subwoofers (sealed or ported) and even outdoor speakers.