SU401935A1 - DEVICE FOR MEASUREMENT OF ELECTRICAL RESISTANCE OF ISOLATION - Google Patents

Description

one

The proposed device is intended primarily for measuring the electrical resistance of the insulation of the conductors of multi-pair communication cables.

The known devices for measuring the insulation resistance of the cable cores comprise a measuring bridge unit having a high input resistance, much higher than the resistance of the monitored core.

A significant disadvantage of all known devices for measuring the insulation resistance of the conductors of multi-pair cables is that almost before each measurement it is necessary to set to "O and calibration, because bridge measuring circuits are subject to various destabilizing factors.

The described device does not have these disadvantages. It contains an input divider with a DC / DC signal converter connected to it, and the output has an amplitude detector to which the threshold device is connected and an indicator or a switch instrument. The elimination of destabilizing factors, while maintaining high input resistance, is achieved by eliminating the bridge measuring unit with an electrometric lamp, and between the input

A high-frequency generator and a frequency detector are connected in series with a transducer and a transducer, with negative feedback from the transducer to the generator output. The feedback circuit contains a phase detector with a reference generator and is made with a time constant that is at least three times longer than the amplitude time constant.

the detector. This is achieved, for example, by the appropriate ratio of the capacitors of the capacitors of the load filters of the phase and amplitude detectors.

The proposed device does not require frequent calibration and has a high input resistance while being protected from the influence of destabilizing factors.

The drawing shows the block diagram of the device.

The device contains a series-connected input divider 1, a high-frequency generator 2, a frequency detector 3, a converter 4, an amplitude detector 5 and an indicator 6 connected at its output. They form the circuit of the measuring path of the device. From the output of the converter 4 to the second input of the generator 2, a high frequency, a negative feedback circuit is implemented, containing a phase detector 7 connected to

there is a reference generator 8, which is also connected to the generator 4.

The phase detector 7 with the reference generator 8 forms the auto-tuning circuit of the generator 2. The high-frequency generator 2 has an oscillating circuit formed by inductance and varicans.

The device works as follows.

The input divider 1 is set to a position corresponding to a predetermined rate or limit of measurement. Before the beginning of a series of measurements, the device is calibrated (setting the average frequency of the generator) according to the minimum nokazaniyu switch instrument included at the output of the detector 5 (not shown).

A controlled object, such as a cable core, is supplied with a voltage for a period of time necessary to charge the capacitance of this core, and then a current is flowing through the resistor of the divider 1 currently connected to the controlled core, creating a voltage drop across the magnitude of the insulation resistance of the core.

This voltage is applied to the variccans of the oscillatory circuit of the generator 2, changes the value of their capacitance, and the frequency of the generator changes relative to fo by the value of Af. The voltage of the altered high frequency is supplied to the frequency detector 3, at the output of which a constant voltage appears that is proportional to the deviation Af. This voltage is supplied to the converter 4, which is made according to a switching circuit, which converts a constant voltage into a series of rectangular pulses modulated in amplitude. The reference oscillator 8, whose signal is modulated, is made according to an inductive coupling multivibrator circuit, which is appropriate for obtaining a symmetrical output.

After further amplification, the rectangular voltage, modulated in amplitude, arrives at the amplitude detector 5, made according to the voltage doubling circuit.

At the output of detector 5, a constant voltage appears that is proportional to the value of the insulation resistance of the monitored object.

When checking the insulation resistance for compliance with a predetermined norm, a constant voltage can be applied to a threshold device (indicator 6), which is triggered by a decrease in the insulation resistance of the monitored object by a specified value

relative to the established norm. When measuring the value of insulation resistance, this voltage can be applied to the indicator 6, made in the form of a switch or di- rimeter device.

Since the deviation of the generator frequency A / is a criterion of the value of the insulation resistance, it is necessary to eliminate

the effect of destabilizing factors on the generator 2.

When the oscillator frequency deviates from the average fo, an alternating voltage appears at the output of the converter, the amplitude of which

± Afo is proportional to the deviation, and the phase is determined by the deviation sign. This voltage is applied to the phase detector 7, performed on a switch circuit. As the reference generator 8, the same multivibrator is used, the voltage from which is supplied to the converter 4. The constant voltage, the polarity of which is determined by the deviation sign ± Afo. enters the voltage control circuit on the varican of generator 2, and

The deviation ± Afo decreases, and the frequency of the oscillator 2 tends to the average frequency fo.

In order for the auto-tuning scheme not to affect the control result, the time constant of the phase detector is chosen to be at least three times longer than the time constant of the amplitude detector of the measuring path, i.e.

Subject invention

A device for measuring the electrical resistance of the insulation, containing a series-connected divider, a DC / DC signal converter, an amplitude detector and an indicator, characterized in that, in order to eliminate the influence of destabilizing factors on the measurement process, this divider is connected to the converter input through consequently, a high frequency generator and a frequency detector are included, and the output of the converter is additionally connected to a generator

a high frequency negative feedback circuit comprising a phase detector with a reference oscillator, and the ratio of the time constant of the phase detector and the amplitude detector is not selected

less than 3: 1.