SU369516A1 - ANALOG-FREQUENCY CONVERTER - Google Patents

Description

one

The invention relates to a digital measurement and telemetering technique and can be used to measure various non-electrical quantities by electrical methods.

The analog-to-frequency converter is known, which contains a resistance sensor included in the shoulder of a bridge circuit, an integrator, one input of which is connected to the output of a relay amplifier and a key input.

The aim of the invention is to improve the accuracy of the transducer resistance sensor into frequency.

In order to achieve this goal, the integrator outputs are connected to the ends of a resistor connected to the resistance sensor, the measuring diagonal terminals, the bridge are connected to the inputs of the relay amplifier, the second integrator input is connected to one of the measuring diagonal diameters, and its third input is connected a midpoint voltage divider connected to a bridge power source.

FIG. 1 shows a functional diagram of the converter; in fig. 2-time diagrams of his work.

The analog-frequency converter is made on the basis of a bridge measuring circuit with contactless dynamic balancing and contains a bridge circuit consisting of TWO parts.

The part / is a bridge circuit into which the sensor is incorporated is resisted by Rx balanced in the course of operation in a non-contact manner. Part 2 is a schematic diagram that creates a reference signal for integrator 3. The magnitude of the reference signal corresponds to the beginning of the scale.

The integrator input is connected to part 2 of the bridge circuit to provide a linearly varying voltage at its output, which is supplied to the sensor arm of the 1st part of the bridge circuit for non-contact balancing. The relay amplifier 4 is connected to the measuring diagonal of the 1st part of the bridge circuit to record the moment of balance of the bridge.

Key 5 and counter 6 are designed to count the pulses at the output of the relay amplifier.

Circuit 7 controls the operation of the entire circuit and determines the time interval over which the pulses are counted. After the control circuit removes the prohibition from the input of the integrator 3 and the key 5, the unbalance voltage of part 1 of the bridge circuit at the beginning of the scale will go to the integrator's input from the points "b 1" 8. The part / bridge circuit is in a static state in balance when the resistance of the sensor Rx corresponds to the value of the end of the scale. Thereafter, at the output of the integrator 3, a linearly varying voltage appears with a constant slope, which is fed to the resistor /, which is part of the shoulder of the 1st part of the bridge, into which the sensor is connected. This voltage compensates for the voltage drop across the resistor R until the potential difference between the points "a and" o is zero, i.e. the part / is balanced. At the moment of balance, an impulse appears at the output of amplifier 4, which through the switch 5 arrives at counter 6 and simultaneously short-circuits the input of integrator 3 at the time of its operation. Thus, the circuit returns to its original state. Gluce: about the end of the impulse and the process is repeated at the specified order, while the circuit is managed; will not stop it.

FIG. Figure 2 shows the temporal diagrams of the converter operation at various values of the sensor resistance. The position / shows cases where the sensor resistance is lower than the specified measurement limit. Pulses on the counter at yio time i; e arrive. The //, /// and IV positions show the cases where the resistance of the sensor increases.

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A frequency converter containing a resistance sensor included in the bridge arm, an integrator whose ONE input is connected to the output of a relay amplifier and a key input, characterized in that, in order to improve the accuracy, the integrator outputs are connected to the co-resistor; ., included in one shoulder with a resistance sensor, the terminals of the measuring diagonal of the bridge are connected to the inputs of the relay amplifier, the second input of the charger is connected to one of the terminals of the measuring diagonal, its third input is connected to the midpoint d The bridge is connected to the power supply bridge.