SU490031A1 - Voltmeter - Google Patents

Description

one

The invention relates to electrical measuring technology and can be used to measure amplitude and average values of a variable voltage of arbitrary shape.

Voltmeters are known that contain a full-wave rectifier, a charging resistor, a variable point midpoint resistor, a time specifying a chain consisting of a parallel-connected capacitor and a resistor, and a bridge measurement circuit made on field-effect transistors.

The purpose of the invention is to improve the temporal characteristics.

This is achieved by the fact that in the proposed voltmeter the rectifier is made on a field-effect transistor, the input of the voltmeter is connected to the channel of the field-effect transistor of the rectifier shunted by the variable resistor, and its gate is connected to the gate of the field-effect transistor of the bridge circuit and after a time the driving circuit with the charging resistor which is connected to the midpoint of the variable resistor by the second end.

The drawing shows a schematic diagram of the proposed voltmeter.

The voltmeter contains a two-wavelength rectifier circuit for field triode 1, a bridge measurement circuit for field triodes 2 and 3, and a zero-field triode 4 to increase the stability of the bridge circuit.

When using the invention in a high precision apparatus as triodes

1-4, it is advisable to use dual field effect transistors having identical characteristics.

The voltmeter works as follows. The signal arrives at the field triode channel 1. Parallel to the triode channel 1, a variable resistor 5 with a midpoint is switched on, which provides antiphase voltage for the drain-gate and source-gate for triode 1. A full-wave rectifier load

There is a circuit consisting of a storage capacitor 6, a charging resistor 7 and a discharge resistor 8.

The rectified signal is fed to the lower left shoulder of the DC amplifier,

assembled according to the bridge circuit on two field triodes 2 and 3. In the lower right shoulder there is a leakage resistor 9, a bypass capacitor 10 and a field-effect transistor 4, which ensure the stability of the bridge under the effect of destabilizing factors.

The upper arms of the bridge circuit are formed by resistors 11, 12, 13. Resistor 12 is used to set the zero of the measuring device 14 included in the diagonal of the bridge.

with resistor 15. To protect

Measuring device 14 from overloads in the device, it is advisable to use field triodes 2 and 3 with an extended transmission characteristic, allowing to obtain a plot at the end of the scale that is close to logarithmic.

The circuit consumes little power from power supply 16. Therefore, a low-power voltage regulator consisting of a resistor 17 and a stabilizer 18 is used as a voltage stabilizer.

Reverse gate currents of field triodes with a p - g junction lie within a. Due to this, the value of the resistor 8 in the proposed scheme can be chosen large enough ().

The high resistance of the discharge circuit makes it possible to ensure the necessary ratio of the resistances of discharge and charge (thousand or more times). This ensures that the required time-consuming characteristics are obtained at small and at a low terminal capacity.

Subject invention

A voltmeter containing a full-wave rectifier, a charging resistor, a variable resistor with a midpoint, a timing chain consisting of a capacitor and a resistor connected in parallel,

and a bridge measurement circuit made on field-effect transistors, characterized in that, in order to improve the temporal characteristics, the rectifier is made on the field-effect transistor, and the input of the voltmeter is connected to the rectifier-field-effect transistor channel, and is bridged by a variable resistor, and its gate is connected with the gate of the field-effect transistor of the bridge circuit and through time the master circuit with a charging resistor, which is connected to the midpoint of the variable resistor by the second konzotom.

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