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I think an effects parameter settings document (data base) that Dr. J talked about would be of great benefit for me, as I am new to the Qu-16 and effects settings in general. I have found the factory settings not as “spot on” as I would have liked, and I know they are just a place to start, and will need personal tastes applied. Here are a few on reverb that I have begun to try.

Hall and Room are self-explanatory. Plate emulates the plate reverbs common in the ’60s, which were often used for vocals. Inverse creates a reverse reverb effect, where the reverberation starts at a lower level and increases to a higher level. Spring types emulate old mechanical reverbs known for a “sproingy,” metallic sound. Gated reverb has a decay that cuts off abruptly below a certain level. Convolution reverbs load a sample (also called impulse) that defines a room’s characteristics, and impresses these characteristics on the signal being reverberated.

Larger sizes typically correlate to longer reverb times and possibly a wider stereo image. As even synthetic rooms can have standing waves, if the reverb sound has flutter (a periodic warbling effect), vary this parameter in conjunction with decay time (described later) for a smoother sound.

This parameter sets the level of the first group of echoes that occurs when sound waves hit walls, ceilings, etc. These reflections tend to be more defined and sound more like “echo” than “reverb.” Prominent early reflections tend to work better with sustained sounds, such as vocals and pads, than percussive sounds. Balance the early reflections so they are neither obvious discrete echoes, nor masked by the decay. Lowering the early reflections level also places the listener further back in the room, and more toward the middle.

Simulates the amount of time it takes for a sound to leave its sound source and create a first reflection. Setting a slight pre-delay offsets the reverb from the dry signal, which can prevent reverb from “stepping on” the signal being reverberated. Also, increase pre-delay to give the feeling of a bigger space; for example, large room sizes tend to work well with significant pre-delay.

This determines how long it takes for the reflections in the room to run out of energy. Long reverb times may sound impressive on instruments when soloed, but rarely work in an ensemble context (unless the arrangement is sparse). Reverb presets often link the decay time and room size parameters so you don’t end up with, for example, a small room with a very long decay. However, “wrong” settings can sometimes create useful sounds.

With softer surfaces (e.g., a hall packed with people), the reverb tails will lose high frequencies as they bounce around, producing a warmer sound with less “edge.” If your reverb has an artificial-sounding high end, add damping to create a warmer sound. Damping affects overall tone, so setting it “oppositely” often works well (lots of damping with a bright-sounding song to warm it up, little damping if the song needs more “air”).

This reduces the high frequencies going into the reverb. If your reverb sounds metallic, reduce the highs starting at 4–8kHz. Remember, many great-sounding plate reverbs didn’t have much response over 5kHz.

Use this to reduce low frequencies entering the reverb. This can prevent a muddy, indistinct sound that takes focus away from the kick and bass. Try attenuating from 100–200Hz on down.

Some reverbs allow expanding or collapsing the stereo image.

This is found only in convolution reverbs. A convolution reverb will not function without having a reference impulse audio file loaded.

To create more variation in reverb sounds, modulation adds subtle changes to the reverb characteristics. Increase modulation depth if the reverb sound needs more “animation.”

For reverbs with modulation, this determines the rate at which modulation changes occur.

Increasing early reflections diffusion pushes the early reflections closer together, thickening the sound. Reducing diffusion creates more discrete echoes. For percussive instruments, lots of diffusion avoids the “marbles bouncing on a steel plate” effect caused by too many discrete echoes. However, for vocals and other sustained sounds, reduced diffusion can give smooth reverberation that doesn’t overpower the source and maintains clarity.

This is similar to early reflections diffusion but affects the reverb “tail.” Many reverbs use a single control for both diffusion parameters.

Lower densities give more space between the reverb’s first reflections and subsequent reflections. Higher densities place these closer together. Generally, as with diffusion, higher densities work better for percussive content, and lower densities for vocals and sustained sounds.

With reverbs having separate decay times for high and low frequencies, this sets the decay of high frequencies. A longer high frequency decay gives a brighter, more ethereal type of reverb that can sound great on vocals as it adds more reverb to sibilants and fricatives, while minimizing reverb on plosives and lower vocal ranges.

With reverbs having separate decay times for high and low frequencies, this sets the decay of low frequencies. A longer low frequency decay gives a bigger, more “massive” type of reverb that’s more like a large live space, but when used to excess, can give a “muddy” sound.

This sets the dividing point between the high and low frequencies mentioned above.

Use this to edit the balance of dry and reverberated sound. If the reverb serves as an insert effect, set this for the desired blend. If the reverb is a send effect, this is usually set to reverb only, with the return control determing the overall reverb level in the mix.

For gated reverb, this sets the level below which the reverb tail is cut off. Using relatively high gate settings was a popular effect in ’80s synth-pop.

When using gated reverb, this adjusts how long it takes for the reverb tail to decay after the reverb signal passes below the gate threshold.