SU441529A1 - Device for measuring time parameters of a relay - Google Patents

Description

one

The invention relates to the field of relay technology, in particular to devices for measuring time parameters - a relay with a contact output.

The known devices of similar purpose, containing a software block connected to the relay under study and a power source, a serially connected storage element, a relay converter and a pulse counter, do not provide high measurement accuracy, especially when using simple time parameter conversion schemes.

To improve the measurement accuracy, the proposed device for measuring the time parameters of the relay contains a stabilized current generator, the input of which is connected to the output of the program block, and the first output is connected to the input of the first storage element, the second storage element, to the first input of which the second output of the relay converter is connected charge values and correction blocks.

The output of the first control unit is under-; Key to the second input of the second

storage element, the third input of which is connected to the output of the first correction unit. The input of the second control unit is connected to the second output of the stabilized current generator, the first output of the second control unit is connected to the input of the first correction unit, the second output of the second control unit is connected to the input of the second correction unit, the output of which is connected to the second input of the first pinning element.

The drawing shows a block diagram of the device.

When a starting impulse is applied, the software block I supplies the voltage from the power source 2 to the coil of the tested relay 3 and from the stable current generator 7 to the first storage element, for example, capacitor 5. When triggered, the fused relay 3 acts on the block I which is delayed (c) disconnects generator 4 from code condenser 5. The voltage across the 5 L / M capacitor is proportional to the response time (tp) of the tested relay. , () (i) After charging the capacitor 5, a second recording element, such as capacitor 7, is connected to it via a relay converter. In this case, the capacitor 7 is charged to the value determined by the control unit 8 for the magnitude of the infection and the voltage decreases. on the capacitor 5 to the value of U,, (2) where C ;, and C2 are the capacitors of the capacitors 5 and 7, respectively: After the completion of the charging process of the capacitor 7, the converter 6: turns it off. The discharge simultaneously acts on the counter E of pulses which counts the first pulse. Next, the discharged capacitor 7 is reconnected by converter 6 to capacitor 5, and the cycle is repeated. The discrete discharge of the capacitor 5 continues for lex pores until the voltage in it after the next discharge cycle is reduced to the value Up, controlled by the converter. . The total number of pulses M counted by the counter is found from equality. f Un, C3) UP UM-M from where (JH (At Up - the number of pulses counted by the counter is proportional to the response time of the tested relay. If the value of the monitored parameter is outside the measuring range, the charge amount control unit 10 changes and changes the measuring range of the device from using the correction blocks II and 12, respectively, changing the value of the constant time of the charge circuit and the size of the portions paapj ta code of the capacitor 5, When the measuring range is not automatically changed, the control unit 10 controls the operator. The measurement range is signaled by the indicator. PREFERRED EMBODIMENT A device for measuring the time parameters of a turnip, containing a program block connected to the relay under test and a power source, connected in series to the first memory element, a relay converter and a pulse counter that has that, in order to increase the TOfiHOCTE measurement, it contains a stabilized current generator, the input of which is connected to the output of the programmed unit, and the first output is connected to the input of the first storage element, zapshinayuschy Torah item to pervsh at the entrance; which connects the second output of the relay converter, charge control units and correction blocks, with the output of the first control unit connected to the second input of the second storage element, the third input of which is connected to the output of the first correction unit, the input of the second control unit connected to the second the output of the stabilized current generator, the first output of the second unit is connected to the input of the first correction unit, the second output of the second control unit is connected to the input of the second correction unit, the output of which is connected to the second th vhodsh first storage element.