"Phasing" redirects here. For the compositional technique in which a repetitive phrase is played on two musical instruments in steady but not identical tempo, see Phasing (music).
A phaser is an electronic sound processor used to filter a signal by creating a series of peaks and troughs in the frequency spectrum. The position of the peaks and troughs of the waveform being affected is typically modulated by an internal low-frequency oscillator so that they vary over time, creating a sweeping effect.
Phasers are often used to give a "synthesized" or electronic effect to natural sounds, such as human speech.
Process
The electronic phasing effect is created by splitting an audio signal into two paths. One path treats the signal with an all-pass filter, which preserves the amplitude of the original signal and alters the phase. The amount of change in phase depends on the frequency. When signals from the two paths are mixed, the frequencies that are out of phase will cancel each other out, creating the phaser's characteristic notches. Changing the mix ratio changes the depth of the notches; the deepest notches occur when the mix ratio is 50%.
The definition of phaser typically excludes such devices where the all-pass section is a delay line; such a device is called a flanger.[1] Using a delay line creates an unlimited series of equally spaced notches and peaks. It is possible to cascade a delay line with another type of all-pass filter.[2] This combines the unlimited number of notches from the flanger with the uneven spacing of the phaser.
Structure
Traditional electronic phasers use a series of variable all-passphase-shift networks which alter the phases of the different frequency components in the signal. These networks pass all frequencies at equal volume, introducing only phase change to the signal. Human ears are not very responsive to phase differences, but this creates audible interferences when mixed back with the dry (unprocessed) signal, creating notches. The simplified structure of a mono phaser is shown below:
The number of all-pass filters (usually called stages) varies with different models, some analog phasers offer 4, 6, 8 or 12 stages. Digital phasers may offer up to 32 or even more. This determines the number of notches/peaks in the sound, affecting the general sound character. A phaser with n stages generally has n/2 notches in the spectrum, so a 4-stage phaser will have two notches.
Additionally, the output can be fed back to the input for a more intense effect, creating a resonant effect by emphasizing frequencies between notches. This involves feeding the output of the all-pass filter chain back to the input, as shown here:
The frequency response of an 8-stage phaser with or without feedback is shown. Note that the peaks between the notches are sharper when there's feedback, giving a distinct sound.
A stereo phaser is usually two identical phasers modulated by a quadrature signal; the output of the oscillators for the left and right channels are a quarter-wave out of phase.
Many modern phasers are implemented using digital signal processing, often emulating analog phasers. Phasers are mostly found as plugins for sound editing software, as a part of a monolithic rackmount sound effect unit, or as stompbox guitar effects.
Usage
The term was often used to refer to the original tape flanging effect heard on many psychedelic records of the late 1960s, notably "Itchycoo Park" (1967) by the Small Faces.[3] The Eventide Instant Phaser from 1971 was one of the first studio devices to emulate the tape flanging effect (with all-pass filters instead of delay, thus being one of the first to distinguish phasing from flanging).[4] It was widely employed in the studio and in live settings by artists such as Led Zeppelin and Todd Rundgren. Phasing is a popular effect for electric guitar. In 1968, Shin-ei's Uni-Vibe effects pedal, designed by audio engineer Fumio Mieda, incorporated phase shift, soon becoming favorite effects of guitarists such as Jimi Hendrix and Robin Trower.[5]
Keyboard players also used phasing: in the 1970s, keyboard instruments like the Fender Rhodeselectric piano, the Eminent 310electronic organ, and the Clavinet were commonly treated with a phaser, especially in avant-garde jazz. Bill Evans, for instance, used a Maestro phaser on Intuition (1974).[12] The phaser is also used to "sweeten" their sounds. Examples can be heard in Billy Joel's "Just The Way You Are", Styx's "Babe", and Jean Michel Jarre's Oxygène (1976) on which he used an EHX Small Stone phaser extensively. Tony Banks (Genesis) used an MXR Phase 100 on his RMI 368x Electra piano from 1974 (later he inserted this effect, as well as the fuzzbox, into the Electra's panel); from late 1977 he also used the phaser (along with a Boss CE-1) on his Hammond organ to replace the Leslie's rotating effect. Daft Punk helped to re-popularize the effect in the 21st century, utilizing it on a number of tracks on their Discovery album in 2001. Richard Tee also used a phase shifter hooked up to his Fender Rhodes.[citation needed]
In motion picture or television production, the effect created by a phaser is often used to imply that the sound is synthetically generated, like turning a natural human voice into a computer or robot voice. The technique works because the frequency filtering produces sound commonly associated with mechanical sources, which only generate specific frequencies, rather than natural sources, which produce a range of frequencies. Vocoder and ring modulation are also used to create synthetic effects.
Similar effects
A specific type of phasing, flanging is a similar effect, in which the notches are linearly spaced. In a flanger effect, the notches are created by mixing the signal with a delayed version of itself. Flangers tend to sound more pronounced and natural, like the "jet plane whoosh" effect, whereas phasers tend to sound more subtle and otherworldly. For comparison of the two effects, check Flanging § Comparison with phase shifting.