SU718886A1 - Switching signal mean value filter - Google Patents

Description

one

The invention relates to radio engineering and can be used to isolate an average value of a signal, such as an electrical voltage or current.

A switching filter of the average signal value is known, which contains two integrators with a reset, the control inputs of which are connected to the antiphase outputs of the switching unit 1.

However, the known switching filter does not provide sufficient accuracy for extracting the average value of the signal.

The purpose of the invention is to improve the accuracy of the selection of the average value of the signal.

To do this, the switching filter has an average signal value containing two integrators with a reset, the control inputs of which are connected to the antiphase outputs of the switching unit, serially connected subtractor and a demodulator are inserted, the outputs of the integrators with a reset are connected to the inputs of the subtractor, and the signal inputs of the integrators are reset are combined and are the input of the filter.

The drawing shows a structural electrical circuit of the proposed switching filter.

The switching filter of the average signal contains two integrators 1 and

2 with a reset, the switching unit 3, the subtractor 4 and the demodulator 5, and the switching unit 3 contains two voltage reset keys of the integrators 1 and 2.

Switching filter works as follows

When the filter is supplied with an unchanged magnitude and sign of voltage, the outputs of the integrators 1 and 2 produce sawtooth voltages that are shifted in time by half the time period t of the synchronization voltage, which determines the frequency of response of the keys Q and 7, which alternately briefly closes, reset the voltage of integrator 1 and 2.

The interfaces from the outputs of the integrators 1 and 2 are fed to the inputs of the subtractor 4. In this case, the output of the subtractor 4 produces a variable square voltage, the amplitude of which is proportional to the input signal.

In the intervals between the closures of the keys 6 and 7, the Sigal at the output of the subtractor 4 is proportional to the average value of the input signal, but modulated by a unit square voltage. After the signal passes through the modulator 5, there will be a smoothed signal on the load.

Claims (1)

If the input signal, along with a constant component, contains an additive harmonic noise with frequencies that are multiples of the frequency of the synchronizing filter voltage, then the output of subtractor 4 produces a variable rectangular voltage with a constant amnlity proportional to the average value of the input signal. The output signal therefore does not contain pulsations associated with the presence of harmonic interference in the input signal. x..v. “,. v. ,,, .... .- ..--. There is also no ripple and average value error associated with interference at the output of the filter 5 at the output of the filter. Thus, the filter completely suppresses harmonic interference multiple to the synchronization frequency, extracting the average value of the signal. Due to the fact that the output signal of the filter is formed from the voltage difference between the integrators 1 and 2, the error associated with the presence of residual voltages of the keys 6 and 7 is reduced. At the same time, it does not exceed the difference between the residual voltages, and the last . Claims An average value switching filter comprising two integrators with a reset, the control inputs of which are connected to the antiphase outputs of a switching unit, characterized in that, in order to improve the accuracy of extracting the average value of the signal, a serially connected subtractor and demodulator are introduced into it, The integrator outputs ...... .. the reset dump is connected to the inputs of the subtractor, and the reset inputs of the integrators are combined and are the input of the filter. Sources of information taken into account in the examination 1. Shipillo V. P. Automated valve actuator. M., “Energie, 1969, p. 189-196 (prototype). -i, ULГ j