SU381035A1 - EU * - Google Patents

Description

one

The invention relates to the field of measurement technology.

DC current transducers are known for amplifying weak DC signals from low power sensors.

Such measuring transducers are implemented, as a rule, according to the structural scheme of the type M-DM (modulator-alternating current amplifier -demodulator), which allows to obtain a low drift level and high measurement accuracy. Transistor modulators and demodulators, built on both individual transistors and integrated circuit breakers, are most prevalent in M-DM devices.

The main disadvantage of dc measuring transducers using transistor modulators is their relatively low speed (tens to hundreds of hertz), which is limited by the limiting modulation frequency.

Diode modulators can be used to clear the passband of the transducers. However, the absolute value of the temperature and time drift of diode modulators is much higher than that of transistor modulators, which prevents the use of potential

The advantage of diode modulators in speed.

The purpose of the invention is to eliminate these drawbacks.

5 This is achieved by the fact that the converter is equipped with additional diode and transistor modulators, the output of the transistor demodulator being connected via a voltage divider of the diode channel to the input

0 additional diode modulator, the output of which is connected to the input of the amplifier of alternating current of the diode channel, and the output of the diode demodulator connected to the input of the additional transistor modulator, output

5 which through a voltage divider of the transistor channel is connected to one of the inputs of the differential amplifier of the alternating current transistor channel, while the inputs of the diode and transistor channels are connected

0 parallel to each other, and the outputs - in series.

The essence of the device is illustrated in the drawing, which shows a block-device circuit.

5 Us input: s. arrives at the modulator / diode channel containing the AC amplifier 2, diode demodulator 3 and at the same time the modulator 4 of the transistor channel containing the amplifier 5, transistor demodulator 6. The reference voltage is supplied to the diode channel from the alternating voltage source 7 , and wa transistor - from the source of the voltage of the low frequency S.

The output voltage of the transistor channel, taken from terminals A, B, is supplied through a voltage divider 9 of the diode channel to an additional diode modulator 10 connected to the input of the AC amplifier 2 of the diode channel. The output voltage of the diode channel, removed from terminals C, D, is fed to an additional transistor modulator 11J, the output of which is connected through the voltage divider 12 of the transistor channel to the input of amplifier 5.

The transistor channel does not give power to the load if there is no drift in the diode channel. When drift of a diode channel appears at the Output of an additional 1G diode modulator, a variable voltage appears proportional to this drift, which through a voltage divider 12 of the transistor channel, the amplifier 5 compensates for the drift of the diode channel at the output of the measuring converter, and, through an additional diode modulator 10, reduces the voltage at the output of the diode channel.

In the steady state, the outputs of both channels will have voltage of different signs, reducing the effect of the drift of the diode channel on the drift of the measuring transducer. Since the bandwidth of the diode channel is considerably wider than the bandwidth of the transistor channel, when a variable component of the input signal appears at the input of the modulator 4 of a transistor channel, the analogous variable component appears synchronously (as a result of the input signal passing through the diode channel) at the input of an additional transistor modulator //. And since both transistor modulators operate synchronously and are connected to different inputs of the differential AC amplifier 5, the transistor channel is protected from the occurrence of combinational components.

Subject invention

A DC / DC converter containing a diode cell consisting of a series-connected diode modulator, an AC amplifier,

a diode demodulator of a power supply source, a transistor channel consisting of a series-connected transistor modulator, a differential AC amplifier and a transistor demodulator, a power supply source different in body 1, which, in order to improve accuracy, speed and noise immunity from combinational components in addition, they are equipped with an additional diode and transistor modulators, and the output of the transistor demodulator is connected via a voltage divider of the diode channel to Odom additional diode modulator, whose output is connected to the input of the amplifier AC

current of the diode channel, and the output of the diode demodulator is connected to the input of an additional transistor modulator, the output of which is connected to one of the inputs of the differential AC amplifier of the transistor channel through the voltage divider of the transistor channel, and the inputs of the diode and transistor channels exits - sequentially.