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Understanding EQ
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As suggested in the intro, a flexible EQ allows you to create a variety of shapes. Here, we’ve loaded up a flexible and free EQ (Melda MEqualizer). This has all the typical shapes you need including peak, shelving and filters all with adjustable Q. There are also some handy extras (notch and band pass) and a frequency analyser. 2
In a typical mix, we expect to use all three main filter shapes (peak, high/low shelves and high-/low-pass filters) with peak shape being the most popular. For a basic peak filter set the Q to 1.0. You’ll see that if you apply 6dB of gain the filter is noticeably affecting an octave either side of the selected frequency. 3
From this point, try lowering the Q. You’ll see the filter gets gradually wider until it affects most of the spectrum. Meanwhile, increasing the Q value creates a narrower filter. Get the Q value above about 10 and you’ll have an extremely sharp peak that’s great for cutting but will impart a very ringy or honky sound when boosting. 4
Shelving filters come in both high and low incarnations, affecting the spectrum above or below respectively. The selected frequency is a midpoint of the transition, so here by applying +6dB at 150Hz we actually get +3dB at 150Hz. What happens either side of that is set by the Q, which affects the slope of the transition. 5
Being able to adjust the slope (Q) makes the shelf design incredibly flexible and potentially extreme. Try some lower values and you’ll see it creates a gradual ramp, while higher values often impart over or undershoot combined with a resonant peak that exceeds the gain amount. Modest levels of over or undershoot can be handy. 6
Finally, we have high- and low-pass filters, and these offer the most aggressive way to cut frequencies above or below certain points. These come in different slope (steepness) options and this time the selected frequency is the -3dB point. Be aware that if you have adjustable Q, higher settings will add a resonant peak.
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There’s an old adage for EQing that suggests we should boost using a broad shape and cut using a narrow shape. This certainly doesn’t apply in all cases, and we’ll look at more unusual EQ treatments in a later masterclass. Nevertheless, whatever EQ you apply, bypass and A/B as you go to make sure you’re making things better. 8
Shelves are a good place to start as they offer a simple and natural sounding way to change to the lower and higher frequencies. This is great for sub groups, overall mixes, or basic enhancement of sounds. But you’ll reach a point where it no longer provides the differentiation you require. 9
This is where peak filters become more attractive. These offer you more precision, so you can think about adding a broad boost in the upper mids (2-6kHz) to enhance lead instrument attack or presence, or a broad cut in the low mids (250Hz-500Hz) to remove boominess from a vocal or thickness from a pad. 10
Now you’ve taken this step with a peak filter, why not use it to fix an annoying frequency or resonance in something? Say, a piano. Use the sweeping technique and frequency analyser to pinpoint the problem area. Then use a narrow Q (10 or higher) and large cut (-10dB or more). This will sound pretty natural and will minimise the problem.
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For problems at either end of the frequency spectrum, use a shelving cut for modest more natural-sounding changes and a filter when you need something more aggressive. In a mix, the most common technique will be using high-pass filters to remove rumble from live recordings or reduce sub bass (20Hz to 60Hz). 12
Finally, sticking with the low frequencies, combining a high-pass filter and low shelf is also a common technique particularly suited to bass sounds. By tailoring the shelf shape to either enhance or curtail the bass region (60Hz to 250Hz), we can then fine tune the subs, creating a tailored, lopsided curve.