SU813756A1 - Threshold device - Google Patents

Description

(54) THRESHOLD DEVICE

The device relates to a pulse technique and can be used in control and automatic control devices. Known threshold devices contain a tunnel diode connected between the base-emitter junction of the transistor, the base of which is connected to the bus of two different signals through two current-setting resistors, and a common junction point through the collector of the transistor, a capacitor connected by one output to the collector of the transistor, and an optocoupler 1. The disadvantages of such threshold devices are low reliability due to the formation, when a controlled voltage achieves a threshold level of high-frequency pulsations, leading to non-single-phase Accuracy of the output, and small functionality. The purpose of the invention is to enhance functionality and increase reliability. To achieve this goal, a threshold device containing a tunnel diode connected between the base-emitter junction of the transistor, the base of which is connected to the input signal bus through two current-supplying resistors, the connection point of which is connected through the diode to the collector of the transistor and the first output of the capacitor, and the optocoupler Another diode connected between the second capacitor lead and the transistor emitter, while the LED of the optocoupler is connected parallel to this diode in reverse polarity. FIG. 1 is a diagram of the threshold device; in fig. 2 is a timing diagram of the voltage variation at the corresponding points of the circuit. The circuit contains an input bus 1, a resistor 2, a control threshold, a feedback diode 3, a limiting resistor 4, a tunnel diode 5, a transistor 6, a storage capacitor 7, a charging diode 8, an discharge diode 9 of the optocoupler and an output bus 10. Device works as follows. When a monitored signal arrives at the input bus 1, the capacitor 7 is charged through the resistance 2 and diodes 3 and 8. At the same time, the optocoupler LED 9 is blocked by the voltage generated on the semiconductor diode 8. When a certain signal level is reached, the tunnel diode 5 and transistor 6. At the same time, capacitor 7 is quickly discharged through the collector-emitter junction of transistor 6 and optocoupler LED 9. A discharge current pulse of the capacitor 7 lights the LED 9 of the optocoupler, and at the output 10 a pulse of a predetermined duration is formed. In this case, the semiconductor diode 8 is blocked by the voltage on the LED of the optocoupler 9 and does not affect the discharge mode of the capacitor 7, which improves the accuracy of the specified output signal duration. The device generates on the output bus 10 a single pulse of a given duration, determined by the capacitance capacitance value 7, the resistance of the collector-emitter junction of the open transistor 6 and the direct resistance of the opto-diode LED 9, when the voltage of the monitored signal is equal to or higher than the device response rate. In addition, at the same time, the device selects input signals by duration, since it requires a certain accumulation time of capacitor 7 charge, determined by the capacitor capacitance and resistance of resistor 2. Therefore, the device can be started by input signals that are longer than the RC input circuit of the device. When the amplitude of the monitored signal decreases to a certain level, the tunnel diode 5 and transistor 6 are turned off, and the circuit returns to the initial state.

Thus, the proposed device provides with simple means the formation of a single pulse of a certain duration by using the energy of the input signal; amplitude comparing and selection according to the duration of the monitored input signals, which is very important in control and automatic control devices, electrical isolation between the input and output, reducing the pickup in the output circuit. It all boosts

reliability control input signal.

Claims (1)

Invention Formula A threshold device containing a tunnel diode connected between the base-emitter junction of the transistor, the base of which is connected to the input signal bus via two current-setting resistors, the junction point of which is connected through the diode to the collector of the transistor and the first capacitor output, and the optocoupler is different in that In order to expand functionality and increase reliability, a different diode is connected to it, connected between the second capacitor lead and the transistor emitter, and the optocoupler LED is turned on arallelno this diode in reverse polarity. Sources of information taken into account in the examination 1. USSR author's certificate jNfo 586561, cl. H 03 K 5/20, 02.04.75 (prototype). and cpaSa / TTb / ea / fit / f threshold On cSemofft / om f phage.g