SU609106A1 - Method of measuring electromagnetic relay make and break voltages - Google Patents

Description

The invention relates to the field of electrical engineering, and specifically to methods of controlling the voltage of operation and release of relays and switches. A number of methods and devices are known that provide automatic measurement of the operating voltage and release of the relay. What is common to these methods is that for automatic measurement of the response and release voltage, an increasing (operation) or a decreasing (release) voltage is applied to the relay coil and its value is measured at the moment the contact state changes. The difference lies in the applied laws of the voltage variation on the winding (step, linear or exponential functions) and in the methods of obtaining information about the voltage at the time of the relay operation (release). A device 1 is known which uses the following measurement method. An exponential-varying voltage is applied to the relay coil, and the pulse time is continuously measured by a digital voltmeter. At the moment of contact state change, when the relay is activated (released), the next conversion is interrupted, and for the indication time the device records the voltage of the output (release) as a result of the last conversion. Then the conversion is restored. Device 2 operates in a manner in which the decimal stroke is converted into a step voltage applied to the relay coil. At the moment of contact state change, when a relay is activated (released), the code typed at that moment is fixed and decrypted into a ten-fold value of the tripping voltage (write-off). Automatic measurement with fixing the magnitude of the varying voltage on the relay coil at the time of changing the state is characterized by systematic damage due to the inertia of the electromagnetic relay system, as a result of which, by the time of measurement, the varying voltage on the winding of the relay gets some increment above the trigger level. Obviously, the marked measurement error is proportional to the inertia of the movable relay system and the rate of change of the voltage applied to the winding of the relay. In principle, this error can be carried to an arbitrarily small value, reducing the rate of voltage change accordingly. However, this technique significantly reduces the performance of the measuring device. This circumstance is a disadvantage of the method of automatically measuring the response voltage and opening of the relay.

The purpose of the described invention is to reduce the measurement time. To do this, during the supply to the relay coil, the voltage of the alternating voltage is followed by the sign of the derivative of the current in the relay coil and at the moment of changing the sign of the derivative, the measuring rate of the voltage on the coil is reduced to a value that provides the required accuracy of measurement, and then the value of the operating voltage is fixed or release the relay.

FIG. 1 shows a scheme for implementing the proposed method; in fig. 2 - time diagrams.

The winding of the test relay 1 and a resistor 2 connected in series with it are connected to the output of a controlled converter

3-pin code in stepwise variable voltage. The converter has two control inputs. Log in via block

4 times of the moment of changing the sign of the current derivative is connected to resistor 2, and

b - with contact 5 of the relay being tested. The voltage from the output of the converter 3, which increases with some set (selected) speed, is applied to the winding of the tested relay. At the time ti corresponding to the crust failure, the sign of the current derivative changes, and block 4 acts on converter 3 in such a way that the rate of increase of the voltage at its output decreases, and the voltage on the winding slowly approaches the level of operation voltage. At the time tz, as a result of the operation of the relay, contact 5 closes and registers the stroke typed by the converter. A digital display reads the magnitude of the response voltage. Similarly, the release voltage is measured.

Thus, the introduction of a tracking operation for a change in the sign of the derivative in the winding of a controlled relay allows the winding to be applied to the winding until the moment of moving, which increases with increased speed, which reduces the measurement time Tz, Ti and therefore increases the performance of the control operations. A decrease in the rate of increase in voltage from the moment the core is moved (change in the sign of the derivative) makes it possible to ensure the accuracy of the measurement of the response voltage and release.

Claims (2)

1. USSR Author's Certificate No. 354404, G 05В 23/02, 1971. 2. USSR author's certificate No. 184343, G 01R 19/26, 1965.