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  Parametric Adaptive Room Compensation (PARC)
  Rives Audio > Room Tuning

Finally a way to remove the BOOM in your room.

The PARC is a Parametric Adaptive Room Compensation system. Rives Audio designed the PARC because current stereo and home theater components have exceeded the capability of their environment. Today's hi end audio speakers and electronics have the capability of delivering a near flat response throughout the audible frequency range (20Hz to 20kHz). However, these systems interact with their environment, namely the room they are located in. One of the largest problems in typical listening rooms is standing waves or room modes (bass modes) caused by parallel walls. The PARC is specifically designed to alleviate this problem. To understand more about the issues of room modes, go to "the Listening Room".

The PARC is a 2 channel, 3 band (per channel) parametric equalizer (parametric eq) that can attenuate 3 separate frequencies at different ranges and amplitudes. It is purely analog based, so there is no digital conversion to corrupt the audio signal. The system uses components and modules developed for high end analog recording studios. Every item in the signal path is of the lowest noise and highest quality available. The engineers that developed the unit have literally dozens of years experience in designing low noise parametric equalizers (parametric eq) for the recording industry.

BASIC FUNCTION

The basic function of the PARC is to equalize bass anomalies in the room, commonly referred to as room modes. The most prominent bass anomalies occur when two parallel walls (or floor and ceiling) excite a particular frequency (an axial mode). The distance between the two walls determines which frequency is excited. The most problematic, or highest amplitude, is generally ½ of a wavelength between two walls. The way to calculate the distance is:

½ * speed of sound / distance between walls = Frequency

The speed of sound is 1130 feet per second. Thus a room with 17 foot spaced walls would have a frequency bump at:
565 / 17 = 33.2 Hz.

This is considered the first mode between those two walls. The second mode is for a full wavelength, which would be at 66.4 Hz. The third mode would be at 3/2 wavelengths, or 99.6 Hz. Each mode has lower amplitude than the previous mode. However, imagine a room where the length is 2 times the width. In this example 34 feet long. The first mode for that room is at the same frequency of the second mode of the width, or 66.4 Hz. When modes combine like this the problem is compounded, and the bass can become very bloated and distorted.

Even at Rives Audio we recommend reducing any bass anomalies as much as possible before employing the PARC; the less electrical equalization the better. However, overdamping a room, or filling it with bass traps can be impractical, expensive, and may not lead to the best sounding environment. The PARC employs the highest grade components and shortest signal paths possible. The goal is to make these alterations to compensate for bass problems with as little effect as possible on anything else in the audio chain.

The PARC operates between 18 and 350 Hz. It attenuates ONLY, there is no gain in the PARC. The purpose is to reduce the frequencies caused by room excitation.There are three bands per channel. These three bands were originally designed to compensate for the 3 parallel surfaces in most rectangular rooms (side to side, front to back, and floor to ceiling). However, they can be cascaded or used in a variety of settings to best suit the room.

For each band there are 3 settings: frequency, width, and attenuation. Frequency is the center frequency that will be attenuated. It is represented in Hz. Attenuation is the dB in attenuation. The number is positive, but the function is reducing the amplitude at that frequency by the dB shown on the display. The range is from 0 to 18 dB. If it is set to zero, then no attenuation is employed. Width is expressed by a Q factor. The Q factor is expressed as:

Center Frequency (Hz) / Width of Frequency (Hz)

Thus the higher the Q the more narrow the band of attenuation. The width is expressed at 3 db below maximum peak.

As an example a Center Frequency at 100 Hz, with a width of 25 Hz, would have a Q of 4. Also, Q can be expressed in terms of Octaves. One Octave doubles the frequency. Keep in mind that Frequency is a log function of Octaves, so a center frequency of 100 Hz with a width of one octave is not exactly 100Hz, it's slightly less than 100Hz. In our example of 100 Hz center frequency and a width of 25Hz, the relative octave width is approximately ¼. The Q factor is inversely proportional to the octave width. This is not important, unless you are a musician and more comfortable with octaves. All instructions for set-up will be relative to Hertz, and the Q factor.

The width will change depending on what types of walls, floor, or ceiling you have. In general hard, rigid surfaces, such as concrete, will exhibit a high Q factor, whereas sheetrock on wood studs will exhibit a low Q factor. The lowest Q factor the PARC can produce is 1, which is slightly more than one full octave. This is much broader than we ever anticipate using. The narrowest Q factor is 10, which also corresponds to approximately 1/10 octaves. This entire method is far more comprehensive, accurate, and well suited than the traditional graphic equalizer. Only a parametric can compensate naturally and bring the frequency response, including phase back into balance.

Once the PARC is set up and calibrated the bass response will be near flat. The result will be better bass definition, but also a perceived increase in clarity throughout the midrange and even high frequencies.

Adding the PARC can bring back the clarity and reference quality sound your system deserves.

Specifications
Storage Temperature -40 to 250 degrees F
Operating Temperature 32 to 120 degrees F
Dimensions (inches) 17 W x 4 H x 12.5 D
Voltage 100, 120, 220, 240 selectable
Power Consumption 50 W
Power Cord Detachable, standard IEC
Inputs RCA and XLR, input impedance >10k ohms
Outputs RCA and XLR, output impedance <100 ohms
No. of channels 2 channels (right and left)
No. of bands per channel 3 bands per channel
User Selectable parameters
  • Center Frequency: 16 Hz to 350 Hz, independent per band and channel
  • Width Q: 1 to 10, independent per band and channel
  • Attenuation Level: 0 to 18 dB, independent per band and channel
Specifications and pricing subject to change without notice
For more information, please visit the manufacturer's website.

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