SU995329A1 - Pulse relay - Google Patents

Description

(54) PULSE RELAY

one

The invention relates to a pulse technique and can be used in devices controlling the amplitude and frequency of the pulse.

Pulse relays are known that allow the amplitude and frequency of the pulse to be monitored, which do not ensure that the output of the monitored parameters of the pulse sequence is memorized beyond the established limits 1.

Closest to the proposed is a pulse relay, which stores the short-term output of the controlled frequency of the pulse sequence beyond the specified limits, containing an RC circuit connected between the power bus and the total length, the output of which is connected to the output of the bit switch and the input of the threshold stage 2.

The disadvantage of the known pulse relay designed to control the pulse frequency is the lack of a threshold and the criticality to the duration of the pulses, which must be longer than the discharge time of the clock capacitor and at the same time significantly less than its duration

charge so as not to introduce an error at a high pulse frequency

The purpose of the invention is to ensure noncriticality to the duration of impulses and setting the threshold.

This goal is achieved in that a pulse relay containing a circuit connected between the power bus and a common bus RC, the output of which is connected to the output of the discharge key and the input of the threshold stage, is connected to a diode connected between the bulk and the corresponding capacitor terminal connected to the input of the discharge A single switch made on two transistors of different conductivity type, powered by different voltage sources, the output transistor of the threshold cad 15 of kad is connected to the power supply terminal by a collector (emitter) Itter (collector) to the junction of the diode and the capacitor and via a resistor - to the input signal bus.

Split key can be executed

20 on two transistors of different types of conductivity with combined emitters, in which the base of an npp transistor connected to a collector to a positive polarity power source is

the input of the bit switch, and the collector of the pnp transistor, connected according to the common base scheme, is the output of the bit switch.

The threshold stage is made on a transistor with a zener diode in the base circuit connected to the output of the RC circuit.

The drawing shows a circuit diagram of the proposed pulse relay.

The device contains a master circuit connected between bus 1 and total time, consisting of series-connected resistors 2, capacitor 3 and diode 4, the junction point of which is connected through resistor 5 to input signal bus 6, threshold stage 7 performed on transistor 8 the resistors 9 and 10 and the zener diode 11, the bit switch 12, consisting of a pp transistor 13 and a pp transistor 14, connected by a collector to a source 15 of positive polarity.

The controlled source, the input voltage pulses and the power supply voltage source are connected simultaneously to the corresponding buses 6 and 1.

In the interval between the input pulses, the capacitor 3 is charged along the circuit: power bus 1 - resistor 2 - diode 4. In connection with the low differential resistance of diode 4 as compared to the resistance of resistor 2, the voltage at the base-emitter junction of the transistor 14 during charging The capacitor 3 is constant and equal to the direct voltage across the diode 4. In this connection, the transistors 14 and 13 are closed.

With the arrival of an input pulse of positive polarity with an amplitude that allows current to flow through resistor 5 greater than the charging current of capacitor 3, current flows through the base of transistor 14, transistors 14 and 13 open and shunt capacitor 3. A discharge current of condens. 3 and transistors 14 and 13 are kept open for a full row regardless of whether there is an input pulse on bus 6. Next, the charging process of capacitor 3 is repeated. The charge time is determined by the resistance value of resistor 2 and is chosen so that the time interval between adjacent input voltage pulses on the capacitor 3 did not reach the threshold value (stabilization voltage of Zener diode 11) of the threshold stage and exceeded it with an increase in the period of input pulses when the interval between input one pulse exceeds the set value above the set threshold value.

If the amplitude of the input pulses does not exceed a predetermined threshold of the device, determined by the resistance of the resistor 5, and the period of the input pulses does not exceed the set threshold value, the amplitude of the voltage on the capacitor 3 does not exceed the threshold of the zener diode And, the transistor 8 is closed all the time.

When the input pulses disappear, the voltage on the capacitor 3 exceeds the response threshold (stabilization voltage) of the Zener diode 11 and current flows into the base of transistor 8. The transistor 8 opens and shunts the input circuit of the discharge switch 12. This circuit condition will continue until the power supply voltage from the bus 1 is briefly removed, after which the capacitor 3 is discharged and the pulse relay returns to its original state the

Thus, the proposed device provides for setting a certain threshold and memorizing short-term care for the parameters of input controlled pulses and given limits, being insensitive to the duration of the input pulses.

Claims (3)

1. An impulse relay containing an RC circuit connected between the power bus and the total length, the output of which is connected to the output of the dongle switch and the input of the threshold stage, characterized in that, in order to ensure that the pulse duration is not critical and the threshold is set, a diode is inserted into it connected between the common bus and the corresponding capacitor terminal connected to the input of the bit switch, made on two transistors of different conductivity type, fed from different polarity voltage sources, while the output transistor threshold Vågå cascade connected collector (emitter) to the power bus and the emitter (collector) to the connection point of the diode and capacitor and through a resistor to the input signal bus. 2. The relay according to claim 1, characterized in that the emitters of the transistors of the bit switch are combined, the base of the nnp transistor connected by the collector to the positive-polarity supply voltage source is the input of the bit switch, and the collector of pn The p of a common base transistor is the output of the bit switch. 3. Relay according to claim 1, characterized in that the threshold stage is performed on a transistor with a zener diode in the base circuit connected to the output of the RC circuit. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 235161, cl. H 03 K 17/30, 1968. 2. Malov V. S., Dmitriev V. F. Code-impulse telemetering devices. M., “Energie, 1969, p. 129, fig. 5-4 (prototype).