SU922647A1 - Amplitude value converter - Google Patents

Description

(54) CONVERTER AMPLITUDE VALUES

one

The invention Relates to measurement technology and can be used in devices for measuring the amplitude value of a pulse voltage.

A magnitude converter is known, which contains an electronic amplifier covered by negative feedback through a diode capacitance storage of a cell I and a cathode follower .Cl.

The disadvantage of the converter is a limited level of amplitude value conversion of the voltage. .

The closest technical solution is an amplitude converter with a first diode, the anode of which is connected to the input terminal, and the cathode is connected to the non-inverting input of a differential preamplifier, in which the common connection point of the cathode of the first diode and the non-inverting input of the differential amplifier is This voltage is connected to a common busbar through a capacitor.

A converter of amplitude values, and between the output of a differential DC amplifier and a common bus, the input of a resistive voltage divider, the output of which is connected to the output terminal of the converter 21, is turned on.

The disadvantages of the converter are the low level of conversion of alternating voltage to constant,

10 is determined by the sampling voltage value of the differential DC voltage amplifier, as well as the low conversion accuracy, due to the influence of the resistance value of the source of the measured signal on the undercharge of the capacitor.

The purpose of the invention is to increase the voltage conversion level and increase the accuracy of the conversion.

20

Claims (2)

The goal is achieved by the fact that the amplitude values converter containing the first diode, the anode of which is connected to the input capacitance. The cathode is connected to a non-inverting input of a differential scapula amplifier, a resistive divider, one of the input terminals of which is connected to the output of a differential voltage amplifier, a second diode and a capacitor, and a diode is additionally introduced. a resistor whose resistance is equal to the output resistance of the source of power, while the anode of the second diode is connected to the common connection point of the cathode of the fifth diode and the non-inverting input of the differential voltage amplifier and the cathode of the additionally inserted diode is connected to the common connection point of the cathode of the first diode and non-inverting input a differential voltage amplifier, the anode of the additionally inserted diode is connected to the cathode of the second diode, and the common connection point of the second diode and the additionally inserted diode is connected through the additional resistor to the common output of the differential voltage amplifier and to the second input terminal of the resistive voltage divider, and the inverting input of the differential amplifier is connected to the output of the resistive voltage divider, while the capacitor is connected to the output of the differential voltage amplifier, and the second capacitor plate is connected with the common bus and with the input terminal of the converter. The drawing shows a circuit diagram of an amplitude converter. The converter contains a signal source with an output impedance of 2. (resistor) connected to the input terminal of the amplitude converter, i.e. to the anode of diode 3, the cathode of which is connected to the anode of the second diode 4, to the cartridge of the additionally introduced diode 5 and to the non-inverting input of the differential amplifier Q. The common connection point of diodes 4 and 5 is through a resistor 7 whose resistance is equal to the output resistance 2 of the signal source 1 connected to common pin 8 of differential amplifier 6. Between the output of differential amplifier 6 and its common pin 8, a resistive voltage divider on resistors 9 and Y is connected. The output of a resistive voltage divider is connected to an inverter yuschemu entry differentsialnogh) amplifier 6. Total water vy74 differential amplifier 8 through the first power source 11 and through the second power source 12 is connected to a differential amplifier 6, whose output is connected to the output terminal of the device. A capacitor 13 is connected between the common bus of the amplitude converter and its output terminal. It operates as an amplitude values generator as follows. If the instantaneous value of the amplitude value of the voltage is such that the anode of the diode 3 is gfilozhen plus, then the current from the signal source 1 pulls through the resistor 2, diode 3, diode 4, resistor 7, common pin 8, output power supplies 11 and 12, through the output configuration of the electronic differential uspntel voltage 6, through the capacitor 13 to the common bus. In this case, condensate 13 is charged. Thus, the electrical circuit of the signal source 1 - the capacitor 13 will be closed. In the negative half-cycle of the input variable voltage, a negative level is applied to the anode of diode 3, which is 1F1SODES to its locking. Electrical circuit signal source 1, the capacitor 13 is opened. Diode 5 shunts the second main diode 4, reducing the reverse drop in the magnitude of the direct drop in voltage at the bottom 5. Thus, the bottom 3 is locked in almost as a sum of negative input signal and voltage across the capacitor 13. If the drop in voltage between the input and make the output terminals of the device equal to zero, then the entire level of the input signal from the EMF source is transmitted to Condomsatf 13, thus excluding the following: 1 on the output impedance 2 of the signal source 1. In this case, the capacitor 13 is charged. up to the amplitude value of nahf To realize this condition, it is necessary between the common output 8 of the differential voltage amplifier 6 and the output terminal of the device to introduce a voltage whose level would be equal to twice the sum of the voltage drop across the diodes 4, 5 and the resistor 7, but with the opposite voltage. In order for the potential difference between the input and output terminals of the device to be zero, the total voltage drop across the diodes 4, 5 and the resistor 7 must be doubled, i.e. the gain of the differential amplifier 6 must be equal to two, which is true if the output impedance of the differential voltage amplifier 6 is many times smaller than the total resistance of diode 4 in the open state and resistor 7. The proposed converter, in comparison with the known, allows to obtain a higher conversion accuracy due to the fact that if the resistances of the resistor 7 are equal, the output resistance 2 of the signal source 1 is eliminated; undercharging in the capacitor 1 is also excluded. Moreover, obtaining zero difference the potentials between the input and output memories of the converter also makes it possible to obtain a higher accuracy in the formation of the proposed device in comparison with the known one, and since through diodes 3 and 4 in the forward direction the same 1p my current is obtained, mutual recovery in a wide range of input voltage measurements (high degree of linearity conversion). The level of conversion of alternating voltage to constant voltage of the proposed converter is determined by the parameters of the diodes and does not depend on the characteristics of the differential voltage amplifier, which allows to significantly increase the conversion level of the device in comparison with the known one. Claims Amplitude value converter containing a first diode, an anode of a coma 76 orogo is connected to an input terminal, and a cathode is connected to a non-inverting input of a differential voltage amplifier, a resistive divider, one of the terminals connected to the output of a differential voltage amplifier, a second diode and a capacitor, characterized in that, in order to increase the voltage conversion level and the accuracy of the conversion, a diode and a resistor are additionally introduced into it, not equal to the output impedance of the signal source, the anode of the second diode is connected to the common connection point of the cathode of the first diode and the non-inverting input of the differential voltage amplifier, and the cathode of the additionally inserted diode is connected to the common connection point (sathod of the first diode and non-inverting input of the differential amplifier eg. the anode of the additionally inserted diode is connected to the cathode of the second diode, and the common connection point of the second diode and the additionally inserted diode is connected through additional resistor to the common output of the differential voltage amplifier; and to the second input terminal of the resistive voltage divider, and the inverting input of the differential amplifier is connected to the output of the resistive voltage divider, while the capacitor is connected to the output of the differential voltage amplifier, and the second cover of the condenser is connected with a common length and with the input terminal of the inverter. Sources of information taken into account during the examination 1. USSR author's certificate No. 12О262, cl. G 01 R 19 / O4, 1959. 2. Volgin L.I. Measuring converters of variable naurer to constant. M ,, Soviet Radio, 1977, p. 195, fig. 4, 29.