SU436439A1 - VOLTAGE CONVERTER TO FREQUENCY FOLLOWING PULSES - Google Patents

Description

one

The invention relates to the field of elasto-measuring equipment and can be used in the construction of frequency-digital measuring i.ibors, as well as in the composition of information-measuring systems.

Voltage to frequency converters, pulses made according to a compensation circuit and containing a series connected input voltage subtraction unit from the output of a feedback circuit, a constant bale amplifier, a controlled generator, and a series-connected integrator, amplitude-known, are known. a pulse modulator, a clamping element and a voltage divider in the feedback circuit.

The proposed voltage-to-pulse voltage converter is different from the known ones by introducing a driver of impulses of a stable voltage-second area into the feedback circuit, one input of the integrator is connected to the output of the fixing element, the second input of the integrator through the pulse generator of a stable second-second. the area is connected to the output of the controlled generator, and the output of the voltage divider is connected to one of the inputs of the subtraction unit, as a result of which the reliability and accuracy of be conversion.

The drawing shows blo; k-scheme of the proposed device.

The proposed converter to the pulse frequency ipulses comprises a voltage subtracting node 1 with a series-connected dc amplifier 2 and controlled generator 3, the output of which is connected through a driver of 4 volt-second square pulses to the input of the integrator 5 and directly to one from the inputs of the amplitude-pulse modulator 6, the other input of the latter is connected to the output of the integrator 5; the output of the amplitude-pulse modulator 6 is connected to the fixing element 7, and its output is connected to the input of the integrator 5, and the voltage divider 8 is connected by subtracting it, by its node 1.

The input voltage (t / x) is applied to one of the inputs of the subtractive node 1, to the other input of which the voltage is fed back to the return connection from the output of the voltage divider 8. The output voltage of the subtraction node

1 (undercompensation voltage) is converted into direct, converter circuits (a dc amplifier and controlled HeipaTop 3) into an output frequency. In the established operating mode, the output frequency of the controlled generator 3 is proportional to the voltage taken from the output of the voltage divider 8. The integrator 5 provides the integral of the sum of two voltages - from the output of the driver 4 and from the output of the locking element 7. The output voltage of the integrator 5 is one once in a period, the loopbacks through the emolitic-modulator modulator 6 to the fixing element 7 are performed. The accelerating-emulsifying modulator 6, the fixing element 7 forms a pulse of negative feedback. As a result, the voltage at the output of the locking element 7 is set equal to the average value for the period of the voltage coming from the output of the driver 4 pulses with a constant volt-second area and is U .., where if.e is the voltage "and the output of the locking element 7; f / F is the voltage at the output of the pulse shaper of a stable volt-second area; T is the period of the output voltage of the converter. At the output of the pulse shaper of a stable volt-semiaid area, pulses appear that are stabilized in amplitude (o) and duration (o). The voltage of the pa output of the divider may be 8, up to the magnitude of the undercompensation, can be accepted as the input (Ux). Taking into account the transmission ratio of the voltage divider 8 (Kdn). we obtain a function describing a linear relationship between the output frequency of the converter (/) and the input voltage. e. Subject of the Invention A voltage converter to a pulse frequency produced according to a compensation circuit and comprising a series-connected subtraction unit of the input voltage and voltage from the output of the feedback circuit, a DC amplifier and a controlled oscillator, as well as series-connected integrator , the amplitude-pulse modulator, the locking element and the voltage divider in the feedback circuit, with the second input of the amplitude-pulse modulator connected to the output of the controlled oscillator Pa, characterized in that, in order to increase the reliability and accuracy of the conversion, a pulse shaper of a stable volt-second area is inserted into the feedback circuit of the converter, with one integrator input connected to the output of the locking element, the second integrator input through a stable volt-second pulse shaper the area is connected to the output of the controlled generator, and the output of the voltage divider is connected to one of the inputs of the subtraction unit.

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