You could potentially improve your mix quality by taking one little step: learning how the channel EQ controls affect sound frequencies.
They may not work like you expect.
I recall seeing the EQ knobs labeled “High” and “Low” as I looked upon the sound board during my first time mixing. “I know what those mean,” I thought. “I can increase or decrease those high and low frequencies.” I was only partially right.
The high and low knobs do allow me to boost/cut those appropriate frequencies, but it begs the questions;
—What are the actual frequencies being affected?
—How are they being affected?
—Are they all being treated equally?
—What about the mid-range is so important that it gets its own “Sweep” knob?
—And if your channels have a Q option….what in the world is Q?
Before digging into these questions, let’s first cover the two types of channel EQ controls.
Parametric Vs Semi-Parametric EQ
Parametric equalizers allow the control of three primary parameters:
1) The primary frequency point in which changes will occur. This is called the frequency or center frequency. A sweep-able control allows you to change this point.
2) The type and amount of change. For example, a boost or a cut and the degree to which you do that, such as a 3 dB cut or a “-3 dB” change. This is known as the amplitude or gain.
3) The range of frequencies which will be affected by the change. This is known as the Q value or bandwidth. Changing the Q will increase/decrease the range of frequencies around the center frequency.
Using a parametric equalizer, you would alter a sound by:
—Picking the center frequency with which you want to focus your tonal changes.
—Selecting the bandwidth (Q) which represents the equal number of frequencies to the left and the right of the center frequency which you want affected. For example, you can select a wide bandwidth to affect a large number of frequencies or a small bandwidth to affect a lesser number of frequencies. Ever heard the phrase, “cut narrow, boost wide?”
—Altering the amplitude by applying a cut or boost to that specified frequency range.
A semi-parametric EQ is a parametric EQ with one or more missing features, typically the bandwidth (Q). You might see this in a mid-range EQ control that doesn’t give an option for controlling the bandwidth (Q).
When it comes to digital EQ controls wherein you are using a computer screen to visualize the EQ curves and make changes, you are using a parametric EQ that also can allow for using multiple frequency center points so you aren’t limited in the number of points you can control.
Two Forms Of Control
So far, the terms frequency center point, amplitude/gain, and bandwidth (Q) have been discussed. What hasn’t been discussed is the forms of EQ in which these can be controlled.
There are two forms of EQ control:
1) Peaking EQ—A peaking EQ is exactly as it sounds. You select the frequency center point which is set up on the top of a bell curve. If you have a Q control, you can adjust the width of that bell curve. Your mid-range controls are peaking EQs. You might even have an EQ control labeled “High-Mid” which would qualify as a mid-range peaking EQ. In this image, the blue line indicates a wide boost while the red line indicates a narrow cut.
Peaking EQ. Photo provided by Iainf.
2) Shelving EQ—A shelving EQ is one in which only frequencies on one side of the frequency point are affected. It will still have a natural curve but that amplitude control is only on one side. This will be your High and Low EQ knobs. In this case, all frequencies are affected equally. For example, on the low EQ, all frequencies below 100 Hz are cut or boosted equally In this image, the red line indicates a low frequency shelving EQ with a cut to the frequencies. The blue line indicates a high-frequency shelving EQ with a boost to the highs.
Shelving EQ. Photo provided by Iainf.
Know Your Frequency Points
There is one critical bit of information we haven’t discussed and it’s the one I overlooked when I first started mixing; the baseline values.
The high and low shelving EQ’s have a set frequency point. Your mid-range peaking EQs have a baseline frequency. Do you know what they are? I hate to tell you, but you need to crack open your manual. For example, in my mixer, the frequency point of the High EQ knob is 10 kHz and the Low EQ knob is 100 Hz.
Knowing the baseline frequencies, especially with the shelving EQs, you can identify the exact frequency point in which you will base your cuts and boosts.
Going To The Next Level
Let’s look at what you can discover given all this information. I’ve got a mixer with a fixed channel high pass filter of 80 Hz. Engaging this, all frequencies below 80 Hz are completely cut out.
Considering my Low EQ frequency point is 100 Hz, then when I boost or cut my lows with the HPF engaged, I’m affecting a very small range of frequencies. If I really wanted to get some thump out of my kick drum, I wouldn’t want that HPF engaged. But what if I could use that HPF to get a sound from my kick drum that fit the song?
The channel EQ buttons give you a lot of control over how you modify a sound. Knowing exactly how they control them and knowing their frequency characteristics, you might see them in a new light with new possibilities. And knowing those baseline frequencies…just one more way you can master your mixer and improve your mixes.
Ready to learn and laugh? Chris Huff writes about the world of church audio at Behind The Mixer. He covers everything from audio fundamentals to dealing with musicians. He can even tell you the signs the sound guy is having a mental breakdown.