SU468316A1 - The device controls the response time and release the relay - Google Patents

Description

(54) DEVICE FOR REGULATING AND RELEASING THE RUNNING TIME

The invention relates to a pulse technique and can be used in telephony in various communication devices.

A device for adjusting the response time and releasing a relay, containing K C-chains, is connected to each of which a zener diode is connected, with one of the RC chains connected to the control bus, as well as an output stage with the executive relay.

However, the known device does not provide sufficient accuracy, and independent control of the response and release times of the relay is difficult.

The aim of the invention is to improve the accuracy and independence of the regulation.

For this purpose, an inverter is connected between the KS chains, the output of which is connected to another control bus.

The drawing is principled

electrical circuit device.

The device for adjusting the response time and releasing the relay comprises a cascade 1 of adjustable independent response delays, a cascade 2 independent

adjustable release delay and output stage 3. Cascade 1 is performed on transistor 4, resistors 5, 6, and capacitor 7; Zener diode 8 performs two functions: on the one hand it is a component of the driver circuit time, and on the other, a threshold element for switching on the cascade 2. The resistor 9 serves to limit the base current of the transistor 4 operating in the key mode; Cascade 2 is executed on the transistor Yu, resistors 11-13, capacitor 1 4 and connected to the zener diode 15.

The transistor 1O, which is an inverter, provides the antiphase time of the back-up time for the actuation relative to the time of the driving circuit for release. Due to this, the independence of the retardation adjustment on actuation and release is achieved.

Cascade 3 is a trigger with a common emitter resistor 16 performed on two transistors 17 and 18. The base of transistor 17 is connected to resistive) p 19, setting up the mode, TI Zener diode 15. Rezgstor 20 is load, and resistors 21 and 22 form a voltage divider providing a clear mode of operation of the transistor 18, in the collector circuit of which the winding of the actuating relay 23 is connected to the diode 24. The device operates as follows. The device is triggered by pulses of positive polarity coming from the command unit 25 via buses A 28 and 29. In the absence of a positive signal at the input, the transistor, 4 is open, the capacitor 7 is discharged, the Zener diode 8 and the transistor 1O are closed, the capacitor 14 is charged before the breakdown voltage of the stabilitron 15, which is broken, the transistor 17 is open, and the transistor 18 is closed and the relay 23 has failed to operate. When a positive skcap is received from the command block 25, the transistor 4 is closed and the capacitor 7 is charged through the resistor 6 to the voltage of the zener diode 8. As soon as the voltage at the point 26 becomes equal to the voltage of the standby voltage 8, the last will strike . In this case, the base voltage of the transistor 10 is supplied to the sensing voltage, the transistor 10 is opened and the capacitor 14 is discharged through the resistor 12 and the collector junction is o; itter the transistor 10. The voltage at the point 27 drops sharply and the Zener diode 15 is closed. life with. the base of the transistor 17, which closes. Transistor 18 is open, and the operation relay 23 s is blocked. This shows that the deceleration time of the actuating relay 23 for actuation rp {) is the capacitance of the capacitor 7, the resistance of the resistor 6 and the voltage of the Zener diode 8. When the positive signal at the input terminates, the transistor 4 opens and the capacitor 7 is discharged through the resistor 5 and the transition the collector - emitter is transistor, ra 4. The zener diode 8 and the transistor 10 are closed and the power consumption of the capacitor 14 increases. As soon as the voltage at point 27 reaches the voltage of the breakdown of the Zener diode 15, it will break and the transistor 17 will open, the transistor 18 will close, and the relay 23 will release. This shows that the deceleration time of the executive relay 23 on the OTnycKainie is determined by the capacitance of the capacitor 14, the resistance of the resistor 13 and the voltage of the breakdown of the Zener diode 15. At the same time, the deceleration time for the release does not depend on whether the signal acts on the input or not. relay 23 trips off. Thus, the proposed device provides, with high accuracy, independent adjustment of the response time and independent adjustment of the release time. The subject of the invention is a device for controlling the response and release times of the relay, containing RC chains, each of which is connected to a zener diode, one of the RC chains being connected to the control bus and an output stage with an executive relay, characterized in that, in order to increase accuracy and independence of regulation, an inverter is switched on between the RC circuits, the output of which is connected to another control bus