CS256883B1 - Voltage indication connection - Google Patents

Abstract

The wiring refers to the voltage indication under operating conditions. On first the power supply terminal is connected to the diode the cathode is connected to the working resistor of the indicating device, further to the resistance of which the other end is connected to both the first end resistance, and with the first end of resistance a the first end of the tail, the other end The resistor is connected to a switch formed switching transistors specified Transistor-Controlled Zener Diode into which the other end is connected and the collector of the transistor is connected the other end of the resistance, whose first end is connected to a capacitor where further the emitter of the transistor is connected to the control the thyristor electrode whose cathode is associated with a resistor, wherein the thyristor anode it is connected to an electroluminescent cathode a diode whose anode is connected to both the anode electroluminescent diodes, with the other the end of the capacitor that is connected to the other end of the resistance.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit for indicating voltage under operating conditions.

Currently, low voltage indicators and low voltage indicators are used. However, for operational measurements, there is no universal indicator for which the measurement would not be limited in time.

The above-mentioned drawbacks are eliminated by the voltage indicating circuit according to the invention, which consists in connecting to the first terminal of the source a diode anode whose cathode is connected to a third resistor and to a first resistor whose second terminal is connected simultaneously with the second resistor. with a diode and a fourth resistor connected at the same time to the collector of the third NPN, the cathode of the first Zener diode and the first PNP transistor, the emitter of which is connected to the fifth resistor and the collector of the second NPN, base connected to the second terminal of the diode and its emitter to the second terminal of the source, to which is connected the sixth resistor, the anode of the Zener diode, the cathode of the thyristor, the first capacitor which is connected with its second terminal to the second terminals of the second and the fifth resistor; a second electroluminescent diode, the anode of which is connected to a second capacitor, to the kato the third, fourth and fifth electroluminescent diodes and the anode of the first electroluminescent diode connected by cathode to the thyristor anode, the collector of the first PNP being connected on the basis of a third NPN transistor, the emitter of which is connected to the thyristor control electrode and the sixth resistor terminal, while the second third resistor terminal is connected simultaneously to the second condenser terminal, the cathode of the second Zener diode and through the eighth resistor to the cathode of the third Zener diode and through the ninth resistor to the cathode of the fourth Zener diode whose anode is connected to the anode a fifth electroluminescent diode, wherein the anode of the third Zener diode is coupled to the anode of the fourth electroluminescent diode and the anode of the Zener diode is coupled to the anode of the third electroluminescent diode.

The advantage of the invention is its versatility and simplicity.

The drawing shows the circuit diagram for voltage indication.

An embodiment of the invention is based on an electronic circuit connected to the first terminal of the source 10 with an anode of a diode 12, the cathode of which is connected to the third resistor 16 and the first resistor 22 '. The second end of the second resistor 14 is connected to the first capacitor 15, which is connected to the second terminal of the source 22 by the other end. The second end of the fourth resistor 17 is connected to the base of the first transistor 20 and to the collector of the third transistor 22.

The collector of the first transistor 20 is connected to the base of the third transistor 22, the emitter of the first transistor 20 being connected to the collector of the second transistor 22 'to which the second end of the fifth resistor 22 is also connected. The collector of the third transistor 22 is also connected to the first Zener diode 22. The emitter of the third transistor 22 is connected to both the sixth resistor 24, the other end of which is connected to the second terminal of the source 22 and to the control electrode. The other end of the third resistor 16 is connected to the second capacitor 29, the second Zener diode 30 and the eighth resistor 32 The second end of the second capacitor 29 is connected via the first electroluminescent diode 27 to the anode of the thyristor 25 and a second electroluminescent diode 28, which is the second connected to the seventh resistor 26. »which is connected to the second terminal of the power supply 11 with its other end

The other end of the second Zener diode 30 is connected via the third electroluminescent diode 31 to the first end of the second electroluminescent diode 28 The second end of the eighth resistor 32 is connected to both the third Zener diode 22 and ^the ninth resistor 22. a fourth electroluminescent diode 22, the cathode of which is connected to the cathode of the third electroluminescent diode 31.

The other end of the ninth resistor 35 is connected to a fourth Zener diode 36, the anode of which is connected to the anode of the fifth electroluminescent diode 37, the cathode of this diode 37 is connected to the cathode of the fourth electroluminescent diode 43.

If the hay of the terminals 10 and 11 carries an AC or DC voltage, then a current 12 flows through the diode 12 connected to the third resistor 16, which in turn flows through the fourth, third and second Zener diodes 36, 33, 30 and the fifth, fourth and third electroluminescent diodes 37, 34. 31 and a second electroluminescent diode 28 coupled to a seventh resistor 26 to a second power supply terminal 11. If there is a low voltage at the first and second terminals 10 and 11, either the fifth electroluminescent diode 37, or the fifth and fourth electroluminescent diodes 37 and 34, or fifth, fourth, and third electroluminescent diodes 37, 34, 31 *

At the same time, the first electroluminescent diode 27 lights up to indicate the presence of a low voltage. The switching circuit formed by the first, second and third transistors 20, 21 and 22 and the diode 19 is actuated, so that the thyristor 25 is in a conductive state, thereby bypassing the seventh resistor 26. If there is a low voltage at the switching circuit input it does not conduct conductors 19 and the second transistor 21 is in a conductive state. The first capacitor 15 is charged through the first and second resistors 13 and 14. Once the voltage at the first capacitor 15 exceeds the reference voltage value given by the first Zener diode 23, the first transistor 20 switches and thereby energizes the third transistor 22, thereby energizing the on signal. to the thyristor control electrode 25.

If a low voltage occurs at the first and second terminals 10 and 11, then a conductor 19 and thus a second transistor 21 are brought into operation. The operation of the first and third transistors 20 and 22 is blocked by operating the second transistor 21. it does not conduct into a conductive state, and current through the circuit therefore flows through a seventh support 26 to which a second electroluminescent diode 28 is connected in series, which signals the presence of a low voltage.

Claims (1)

A voltage indicating circuit, characterized in that the first anode terminal (10) is connected to a diode (12), the cathode of which is connected both to the third resistor (16) and to the first resistor (13), the second terminal of which is connected simultaneously with a second resistor (14), a diode (19), and a fourth resistor (17) connected simultaneously to the collector of the third NPN transistor (22), the cathode of the first Zener diode (23), and the first resistor (23) a PNP transistor (20), the emitter of which is connected to a fifth resistor (18) and to the collector of the second NPN transistor (21), its base being connected to the second conductor terminal (19) and its emitter to the second source terminal (11). further comprising a sixth resistor (24), an anode of the first Zener diode (23), a cathode of the thyristor (25), a first capacitor (15) connected to the second terminals of the second and fifth resistors (14, 18) and the seventh resistor (26) of the cathode of the second electroluminescent diode (28), the anode of which is connected to a second capacitor (29), to the cathodes of the third, fourth and fifth electroluminescent diodes (31, 34, 37) and to the anode of the first electroluminescent. a collector of the first PNP transistor (20) connected on the basis of a third NPN transistor (22), the emitter of which is connected both to the control electrode of the thyristor (25) and to the second terminal of the sixth resistor (24), while the second terminal of the third resistor (16) is connected simultaneously to the second terminal of the second capacitor (29), to the cathode of the second Zener diode (30); (33) and second through a ninth resistor (35) at the cathode of a fourth Zener diode (36), the anode of which is connected to the anode of the fifth electroluminescent diode (37), and the anode of the third Zener diode (33) is connected to the anode of the fourth electroluminescent diode (30). ) is connected to the anode of the third electroluminescent diode (31).