SU477449A1 - Signal spectrum converter - Google Patents

Description

(54) SIGNAL SPECTRUM CONVERTER

one

A known signal spectrum converter for electromusical instruments, comprising a pulse shaper, an adder, an output amplifier, a phase shifter. The disadvantage of such a converter is the inconsistency of the amplitudes that make up the spectrum of the output signal.

In order to increase the stability of the amplitude ratios of the frequency components of the output signal spectrum, the detector of the sinusoidal signal and a controlled attenuator connected between the output of the pulse former and one of the adder inputs are inserted into the converter, and the attenuator control input is connected to the output of the phase rotator through the detector of the adder, and the control of the attenuator is connected to the output of the phase rotator through the detector of the adder, and an attenuator control input is connected to the output of the phase rotator through the detector of the adder and the input of the adder and the attenuator is connected to the output of the phase rotator through the detector of the adder, and an attenuator control input is connected to the output of the phase rotator through the detector of the adder. .

The drawing shows a block diagram of the described Converter.

The converter contains a shaper of I pulses, a controlled attenuator 2, an adder 3, an output amplifier 4, a phase shifter 5, and a detector 6 of a sinusoidal signal.

A sinusoidal signal with an arbitrary shape of the envelope is applied to the input of a pulse former, for example a Schm dta trigger. The generated constant amplitude rectangular pulses are applied to a controlled attenuator. The same sinusoidal signal from the device input through the phase shifter enters the envelope detector. The detected input signal is fed to the control input of the attenuator, while changing its transmission coefficient is proportional to the amplitude of the signal at the input of the spectrum converter.

A sequence of rectangular pulses from the output of an attenuator with a repetition frequency equal to the frequency of the input signal and an amplitude varying according to the law of its envelope is fed to the input of the adder. The adder subtracts the first harmonics of the formed rectangular signal and the input signal supplied from the output of the phase shifter to the second input of the adder. In this case, the phase and amplitude of the amplified input signal are determined by the parameters of the phase shifter. Transducer Element Parameters

The spectra are selected so that the adder can fully subtract the indicated first harmonics in a wide dynamic range.

The signal from the output of the adder is a combination of the HIGHER harmonics of the input signal, the amplitudes of which vary in proportion to its envelope. In order to match the output impedance of the adder with the input impedance of the reproducing amplifying device (not shown), the generated signal is fed to the output amplifier. The total gain of the converter should be close to one.

Thus, the proposed converter forms and automatically maintains the constant ratio of the amplitudes of the components of the output signal spectrum in a wide dynamic range in the complete absence of the first harmonic of the input signal, which greatly expands the creative possibilities of the performer.

Subject invention

A signal spectrum converter for electromusic instruments containing

a pulse shaper, to the input of which a sinusoidal signal is fed, an adder, one of the inputs of which is connected to the pulse shaper input via a phase shifter, and an output amplifier, characterized in

that, in order to improve the stability of the amplitude ratios of the frequency components, a sinusoidal envelope detector and a controlled attenuator connected between the output of the pulse rotator and another adder input are inserted into it; the control input of the controlled attenuator is connected to the output of the phase shifter through the envelope sinusoid detector; signal.