The following pages will provide examples on how WaveTrace handles separate types of Analog waves. These screens were produced using a software version of the WaveTrace technology.
 

This demo generates a triangular input wave at 20Khz. The purpose of this demo is to compare the WaveTrace accuracy at tracing the actual input wave compared to other Analog to Digital Converters, which lose their ability to get an accurate wave at higher frequencies. WaveTrace does not get affected by the input frequency so even at high speed WaveTrace achieves a perfect duplication of the input wave. The converters that are based on the traditional sampling method produce a very inaccurate signal at a high frequency, which is very noticeable to the ear.

This demo generates a sine wave input at 1Khz. The purpose of this demo is to compare the amount of data generated by WaveTrace Technology to other Analog to Digital Converters. Not only does WaveTrace track the actual wave without losing its quality, but it also produces less data than other methods.

This demo generates a sine wave at 400Hz. It demonstrates the increased savings in data size generated by WaveTrace technology on lower frequencies (and silence) compared with traditional Analog to Digital Converters.

This demo generates a square wave at 10Khz. Notice how WaveTrace can trace a perfect square wave (without losing the exact position of the edges) and produce a vector-based file of an exact square wave! Note how traditional sampling methods always miss the exact moment of the rise/fall even at 192Khz sampling!

This demo generates an audio wave similar to a violin sound (Fundamental + 3 harmonics + typical noise). WaveTrace Technology delivers accurate duplication, which matches recording quality (192Khz) sample rates using a file size smaller than the one produced by CD Quality A/D conversion, and this is before any other compression methods are applied.

This demo takes the same previous synthesized violin wave and encodes it using different WaveTrace parameters. It now produces even less data vectors (but now it is at the expense of some quality).