SU758191A1 - Function generator - Google Patents

Description

The invention relates to devices designed to highlight an electrical signal module and can be used in computing.

One of the known devices for selecting a module contains an amplifying unit, valve elements, large-scale resistors. Э 11 This device has an error of operation at small signal values.

The closest to the proposed ^one yavlyaet- camping function generator comprising an integrator connected in series and a relay element whose output is connected to the first input of the equivalence element You are a stroke which is the output of a functional transducer connected in series DC amplifier and the second relay element, whose output connected to the second input of the element of equivalence, the integrator input is connected to the input of the DC amplifier and is the input of the functional verters, the output of the first relay element is connected to the input of the integrator (2).

2

A disadvantage of this device is low noise immunity due to the high gain of the channel determining the sign of the control action.

The purpose of the invention is to improve the noise immunity of the functional Converter.

This goal is achieved by the fact that a key element and a module allocation unit and a third relay element are connected to the proposed functional converter, the output of which is connected to the control input of the key element, the input of the module allocation unit is connected to the integrator output, and the outputs of the key element are connected to the input and the output of the second relay element.

The drawing shows a functional diagram of the proposed device.

The circuit contains a DC amplifier 1, an integrator 2, a module allocation unit 3, first, second and third relay elements 4-6, key element 7, equivalence element 8, input 9 and output 10 of the functional converter.

3 758191

Function converter works

in the following way.

The main channel for converting the signal acting at the input 9 consists of the integrator 2, the first relay element 4 and the element 8 of equal sign. The integrator 2 and the first relay element 4, covered by the feedback, form a self-oscillating circuit with a frequency-pulse-width modulation.

The output signal of the first relay element 4 is a bipolar pulse with an amplitude determined by the voltage of the power source. The switching of the first relay element 4 occurs at a signal at its input equal to the threshold values. When there is no signal at the input 9, the pulse duty cycle at the output of the first relay element 4 is 0.5, which corresponds to the zero level of their average value for the period of self-oscillations.

If there is a signal at input 9, the 20 pulse duty cycle at the output of the first relay element 4 changes and their average value during the period of self-oscillations is set proportional to the magnitude of this signal.

The DC-I amplifier and the second relay element 5 provide proportional amplification of the input signal. The sign of the output signal of the second relay element 5 corresponds to the sign of the constant component of the output signal of the first relay element 4.

The signal at the output 10 of the functional Converter acquires a positive or negative value in accordance with the sign of the product of the input signals of the element 8. 35

The amplitude of this signal is determined by the power supply voltage.

In the absence of a signal at input 9, the output signal of the second relay element 5 takes one of the values (positive or positive, negative) and the output 10 has a signal with an average zero value for the period of self-oscillations.

The presence of a signal at the input 9, for example, of negative polarity, causes the appearance of the 45 constant component of the output signal of the first relay element 4 of positive polarity. In this case, the DC amplifier 1 amplifies the input signal and the second relay element 5 switches to the state at 50 which a constant signal of positive polarity acts on its output.

The average value of the pulses at the output 10 of the functional converter corresponds to the input signal module.

The module 3 selection module rectifies and amplifies the output sawtooth voltage of the integrator 2. The output signal of the third relay element 6 is a unipolar 4

pulses whose duration depends on the size of the input signal of the functional converter. As soon as the output signal of the module allocation unit 3 reaches a value equal to the upper response threshold of the third relay element 6, the key element 7 closes, which leads to a decrease in the resulting path coefficient of the proportional gain of the input signal. In this case, the interfering signal acting on the input 9 cannot change the sign of the output signal of the second relay element 5 and the average value of the pulses at the output 10 corresponds to the input signal module. After the time when the third relay element 6 under the influence of the signal of the module 3 allocation module takes the initial state, the key element 7 opens: As a result, the gain of the proportional gain path again increases to the original level.

If the input signal of the functional converter changes sign, then the permission to switch the second relay element 5 comes only in the middle of each half-period of the output signal of the device and is a time less than the period of self-oscillations. This reduces the likelihood of the second relay element 5 switching with an interfering signal.

Claims (1)

Claim Functional converter containing an integrator connected in series and the first relay element, the output of which is connected to the first input of the equivalence element, the output of which is the output of the functional converter, connected in series to a DC amplifier and the second relay element whose output is connected to the second input of the equivalence element, the integrator input is connected with the input of the DC amplifier and is the input of the functional converter, the output of the first relay element The unit is connected to the integrator input, characterized in that, in order to improve noise immunity, a key element and a module allocation unit connected in series and a third relay element, the output of which is connected to the key element control input, are entered into it, the module allocation unit input is connected to the integrator output, the leads of the key element are connected respectively to the input and output of the second relay element.