SU1038977A1 - Time relay - Google Patents

Abstract

TIME RELAY, containing a pulse generator and an electric DC bridge, in one arm of which the time specifies a capacitor, parallel to which a collector emitter of the first transistor with a differentiating RC circuit at the input connected to the output of the pulse generator is connected via a resistor to the adjacent arm resistor and collector-emitter junction of the second SliC-l hl, f, - a 51 BL1; A transistor with a second differentiating RC circuit at the input connected to the output of the pulse generator to the other two arms is turned on Resistors are used, and a null body is introduced into the measuring diagonal of the bridge, characterized in that, in order to increase reliability, the third and fourth transistors and an additional resistor are inserted into it, while the base-emitter junction of the third transistor is included in the bridge arm between the resistor and the emitter; transition of the second transistor, the collector of the third transistor through a resistor is connected to the negative power supply line bus / i and c to the base of the fourth transistor, emit- ® (L of which is connected to the collector of the second transistor, collector with a zero-entry body.

Description

This invention relates to a pulse technique.

Time relays are known that contain a pulse generator, differentiating circuits and an electric DC bridge, consisting of a master clock, resistors; transistors, null organ 11.

A disadvantage of the known time relay is low reliability.

A time relay is known that contains a pulse generator and an electric bridge, each of the two adjacent arms of which is a series connection of a collector-emitter junction of a transistor and a resistor two other arms, resistors, a null-organ connected to the diagonal of the electric bridge, and the output of the pulse generator is connected through separate differentiation of the circuit with transistor bases 23.

. In such a time relay, the charge and discharge time of the driving capacitor occurs when different polarity pulses are applied from the generator to transistors with different conductivities.

However, due to an increase in the voltage across the capacitor, the pulses of the charging current are constantly decreasing, and the pulses of the discharge current are increasing. With certain changes in the parameters of the circuit, the charge of the capacitor can be fully compensated by its discharge, which can lead to a failure of the time relay.

The purpose of the invention is to increase the reliability of the time relay operation.

This goal is achieved by the fact that a time relay containing a pulse generator and an electric DC bridge in one arm of which includes the time specifying a capacitor, in parallel with which a collector emitter of the first transistor with a differentiating RC circuit at the input connected to the generator output is connected via a resistor , in the adjacent arm, the resistor and the collector-emitter junction of the second transistor are connected with the second differentiating RC circuit at the input connected to the output of the pulse generator to two others, shoulder-on resistors were added, and the third, fourth transistors and an additional resistor were introduced into the measuring bridge diagonal, the third transistor base-emitter junction included the bridge arm between the resistor and the collector-emitter junction of the second transistor, the third cut transistor KCWI, The source is connected to the negative power supply line and the base of the fourth transistor, the emitter of which is connected to the collector of the second transistor, and the collector is connected to the input of the null body.

0 The drawing is a schematic diagram of the proposed device.

The time relay contains a generator of 1 pulses, an electric DC bridge with a time driving capacitor 2 in one arm, in parallel with which a collector-emitter junction of a transistor with a differentiating circuit on the resistor 5 and a capacitor 6 at its input are connected via a resistor 3,

0 connected in series by the transitions of the collector-emitter of the second transistor 7 and the third transistor 8 in the adjacent shoulder, resistors 9 and 10 in the other arms of the bridge, zero-body on.

5, a bridge diagonal transistor 11, a second differentiating circuit consisting of a resistor 12 and a capacitor 13f, a fourth transistor 14, resistors 15 and 16.

0 The relay works as follows. At the first moment after applying voltage to the relay, the capacitor 2 is discharged, the transistor 11 is closed and there is no signal at the output of the circuit.

J From the output of the oscillator 1, different voltage pulses are applied, so that transistors 4 and 7 are periodically alternately opened. Upon the arrival of a negative pulse, the transistors 7 8 and I are opened. At the same time, the transistors 8 and I are not fully open, their modes are chosen in such a way as to ensure the passage of the required charging current

5 capacitor 2 through the collector-emitter junction of transistor 8, the emitter-base transition of transistor 14 and resistor 16. At that time, transistor 4 is closed.

Upon the arrival of a positive pulse, transistors 7, 8 and 14 close, and transistor 4 opens and a sub-section of capacitor 2 occurs through resistor 3.

Resistors 3 15 and 16 are selected in such a way that the product of the discharge current by the duration of the positive pulse is less than the product of the charging current by the length of the negative pulse. (pcispCH) - As the voltage across a capacitor 2 increases, its charging current in a known time relay circuit reduces. s. In the proposed environment of the time relay circuit, as the voltage of the non-capacitor 2 increases, the base current of the transistor I decreases, and the resistance of the junction to the collector of the emitter of the transistor 14 increases and the resistance of the junction of the collector of the transistor 8 decreases. As a result of this charging current of the capacitor 2 the charge remains constant all the time. Thus, compared with the known device, the reliability of working out the proposed time relay is increased. When the voltage across the capacitor is equal to the voltage drop across the resistor 9 at the time of the first unlocking of the transistor 7, the zero-body transistor 11 is triggered and a pulse signal appears at the output equal to the charging time of the capacitor 2..

Claims (1)

TIME RELAY, containing a pulse generator and an electric DC bridge, on one arm of which a timing capacitor is connected, in parallel with which a collector-emitter junction of the first transistor with a differentiating RC circuit at the input connected to the output of the pulse generator, ter of which is connected to the collector in the adjacent arm includes a resistor and a collector-emitter junction of the second second transistor, and a collector with an input of a null organ. 1 1038977>