SU834795A1 - Timer - Google Patents

Description

The invention relates to automation equipment and is intended to provide time delays in electric drives, processing equipment, household appliances and other automation circuits. Known timers; containing a bridge circuit from the time specifying the RC and RR chains connected to the power source wagons, a null organ included by the entrances to the bridge diagonal, and a threshold element whose input is connected to the organ zero output flj. The disadvantage of the device is the smart range of the time delay, caused by the fact that the zero-organ is critical to the value of the ss resistivity of the time of the master circuit and its switching to the saturation mode is determined by the value of the switching current, which is constant. This prevents the use of high impedance resistors. The output of the zero-organ on the threshold element does not provide for the re-formation of the control signal, since the threshold element shunts the null-organ upon switching on. It is also known a time relay containing a pulse generator with time specifying RC and RR chains, the first terminals of which are connected to the first power supply bus, DC generators, the time of driving RC chains included in the break, a transistor switch connected via an integrating circuit to the output pulse generator, and the threshold element, the input of which is connected to the key output (; 2. The disadvantage of this device is the operation of the transistor switch in the amplifying mode, which is caused by connecting the key input to the output of the integrating Therefore, the control signal at the input of the threshold element has gentle leading and trailing edges of the pulse, which reduces the stability of the triggering of the threshold element.

In addition, in the known device, it is necessary to use a second optional device, the output is also costly connected to the input of the threshold element, made on the basis of element I. Operation of the keys in the amplifying mode, gently sloping and falling edges of the pulses reduce the stability of the time delay and the temperature protection of the device The procedure for setting up the circuit is complicated, the time delay range is limited, since the durations of the pulse periods are interconnected and their precise sequence must be fulfilled. The connection of the input of the integrating circuit with the output of the pulse generator also leads to an increase in the duration of the pulse fronts, since the capacitor time of the master circuit 20 is discharged according to an exponential law.

The purpose of the invention is to increase stability and extend the range of time delay.

This goal is achieved by the fact that in the device, which contains a pulse generator with time specifying RC and RR chains, the first terminals of which are connected to the first bus of a source of 30 units, DC generators included in the break time of master RC chains, a transistor switch, the collector-emitter junction of which is connected through a resistor to the power supply busbars and a threshold element, the output of which is connected to the control input, the pulse generator and the transistor switch, the second terminals RC and RR chains through diodes, and exits The third terminal of the pulse generator is connected to the second power supply bus; the first diode is shunted by a resistor, and the input of the aforementioned transistor switch is connected parallel to the second 45, the collector-emitter junction of which is shunted by an additional RVC chain, the output of which is connected to the input of the threshold 50 element .

The drawing schematically shows the proposed device.

The time relay contains the generators I and 2 of direct current, the generator 3 55 pulses, the transistor switch 4, the threshold element 5, the diode 6-8, the capacitors 9 and 10 and the resistors 11-16.

The pulse generator and the threshold element are made on a single junction transistor or its analog, and the DC generators are made on a diode and a transistor or on two transistors, one of which is used in the diode switching on.

The time relay works as follows. .

In the initial state, all circuit elements are de-energized, capacitors 9 and. 10 are discharged, generators 1-3, key 4 and threshold element 5 are closed. The signal at the output of the device is zero.

When voltage E is applied (at the device terminals, transistor switch 4 is open, operating in saturation mode. The DC generator 2 is closed because resistor 16 is connected to the collector of switch 4. Condenser 10 is discharged and threshold element 5 is closed. With this, the DC generator 1 and the capacitor 9 are linearly charged through the resistor 11 and the diode 6 until the switching voltage of the pulse generator 3. The generator 3 opens and the resistor 14 and the diode 7 shunts by a junction. with the cutoff. The DC generator 2 is opened, and the capacitor 10 is charged through diode 8 and resistors 15 and 16 to a certain value.

At the end of the discharge of the capacitor 9 through the generator 3 pulses and a resistor 12, with which the pulse duration is adjusted, the generator

3 is closed. Transistor switch

4 opens and operates in saturation mode. The DC generator 2 is closed and the capacitor 10 is disconnected from the power source.

As the capacitor 9 is charged, up to the switching voltage of the generator of the 3.pulses, the latter opens, the processes in the circuit are repeated, and the capacitor 10 is charged to a new value. When the voltage on the capacitor 10 exceeds the value of the switching voltage of the threshold element 5, the latter opens and a control pulse is generated at its output. At the same time, the output signal of the threshold element is fed to one of the terminals of the generator 3 pulses, opening the latter for a time

Claims (1)

Claim A time relay containing a pulse generator with RC timing and RR chains, the first clamps of which are connected to the first bus of the power supply, DC generators included in the gap of timing RC circuits, a transistor switch, the collector-emitter junction of which is connected through the resistor to the buses of the power source , and a threshold element, the output of which is connected to the input of the control, pulse generator, and transistor switch, which requires that, in order to increase stability and extend the time delay range, the terminals of the RC and RR chains through the diodes, and their outputs through the third terminal of the pulse generator are connected to the second bus of the power source, while the first of the diodes is shunted by a resistor, and the input of the transistor switch is connected in parallel with the second, the collector-emitter junction of which—> shunted by an additional RVC chain ^ the output of which is connected to the input of the threshold element.