Audio Precision APx581 General Filters
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Refurbished Audio Precision APx581
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Audio Precision APx581 Details
Audio Precision APx581
Key features
The APx581 is an eight-channel passive low-pass filter specifically designed to minimize switching amplifier carrier components while passing a broad audio spectrum. This filter provides the signal preconditioning necessary to accurately measure switching amplifier outputs using a wide-range audio analyzer. Passive design for optimal performance. Balanced XLR inputs / DB-25 outputs ready for easy connection to APx585 multichannel audio analyzer. Custom inductors designed for power handling and minimizing low-frequency distortion.Rack mount option available with RAK-581 kit.
Switching amplifier output signal, unfiltered
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Switching amplifier output signal, filtered through AUX-0025
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Manufacturers of power amplifiers are moving to switching designs (also called Class D or switch-mode) to make their amplifiers lower cost and more efficient compared to conventional linear power amplifier designs.This technology has particular appeal in automotive and personal stereo applications where efficiency, low battery consumption, small size, and low cost are desired. However, amplifiers using this technology present new measurement challenges.
The switching process adds fast rising edges at the switching frequency to the audio output signal. These fast edges are of no consequence to the typical load (a loudspeaker), but present a difficult signal for measurement instruments. The fast switching edges present high energy content and will introduce slew rate limiting when presented to the input stage of most measurement instruments. When stressed by these fast edges, the analyzer input amplifier will usually slew rate limit and will not be able to function effectively in its normal mode. Auto ranging will be affected and the signal under test will be misrepresented to the following measurement circuits. The result is that noise and distortion measurements of switching amplifiers with almost any analyzer without preconditioning will yield inaccurate and unpredictable results.
The solution to this problem is to precondition the signal before presentation to the analyzer. The way to do this is in the form of a low pass filter that will soften the fast edges while passing the primary audio signal intact. The best approach to this filter is a passive design, as it will handle the fast edges properly, is relatively low cost, and will not require power. A well-designed passive filter will also not compromise the audio signal passing through it by adding noise or distortion as an active design might.