Line 6 XD-V75 manual Benefits of Digital Wireless, What Makes a Wireless Digital?

What Makes a Wireless Digital?

In a typical analog wireless microphone system the signal between the transmitter and the receiver consists of a very high frequency radio wave carrier that is continually varied slightly in frequency by the audio signal from the microphone (or other transducer). The electronic circuitry in the receiver removes the carrier frequency and leaves the audio signal – the same principle that is used in FM radio broadcasts. The signal is highly compressed upon transmission and expanded at the receiver – the origin of the word “companding.” Analog transmissions are vulnerable to many interference effects from other RF and electromagnetic signals – and the interference is usually audible as well as having the effect of shortening range or rendering the channel unusable.

Digital wireless microphone systems provide a much more robust and interference resistant performance. Within the microphone transmitter, the audio signal from the voice or other source is digitally sampled, and the sample is converted into a digital “word” consisting of the electrical equivalent of a string of 1’s and 0’s. As in analog wireless, a very high frequency carrier wave is modulated, but in this case with the digital “stream” of samples so that the carrier frequency only has two distinct states that represent the signal in the same manner that the flat areas and pits on a CD represent the music. The receiver retrieves this information from the carrier and decodes it via a D/A converter and outputs an audio signal that is the replica of what was encoded at the mic.

Benefits of Digital Wireless

As mentioned above, analog wireless transmissions are susceptible to a variety of noise and interference conditions, related to signal strength and/or interference from external electronic devices and other wireless signals. These can ride along with the carrier frequency and its audio signal as added noise, affect the receiver directly because the antennas that pick up the transmitter signal are also wide open to pick up other radio signal in the same general RF band, or interact with the carrier frequency to create additional harmonic frequencies. Problems can come from sources as diverse as a television broadcast signal, other wireless mics in use, digital signal processors, or even malfunctioning fluorescent lighting ballasts or other electrical devices.

While the same physics applies to a digital signal riding on a carrier wave, the digital signal with just two states is more difficult to damage. If the receiver finds that something has come in that is not equivalent

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