SU1709231A1 - Network tester - Google Patents

Abstract

The invention relates to a measurement technique, in particular to circuit control devices, and can be used to control bench equipment and dialing consoles. The purpose of the invention is to increase the security and reliability of the control. The device allows to reduce the current entering the control object and thereby reduce the control power, to ensure the stability of the control current and the same luminescence of the LEDs indicating the state of the monitored circuit. These properties are achieved through the introduction of elements (transistors, resistors, Zener diodes) with their connections and through the use of an LED in the new temperature compensation function. 1 il.

Description

The invention relates to a measuring technique, namely to circuit control devices, and can be used in test equipment and dialing control panels .;

The purpose of the invention is to increase the security and reliability of the control.

The drawing is a schematic diagram of a circuit control device.

The device contains a power supply 1, a mechanical switch 2, a current limiting resistor 3, a reference circuit including the first LED 4, a control circuit consisting of the second LED 5, and terminals 6 and 7 for connecting the control object 8. In addition, the control circuit device contains a transistor 9 pp n conductivity, a mode resistor 10, three matching resistors 11.12 and 13, a transistor 14 n pp conductivity, Zener diode 15. Collector

transistor 9 through a matching resistor 11 is connected to its own emitter and cathode of LED 5. Terminal 6 is connected to the base of transistor 9. Mode resistor 10 is connected between the anode of LED 5 and the base of transistor 9. The base of transistor 14 is connected to the anode of the Zener diode 15 and through a matching resistor 12 to minus power bus. The collector of the transistor 14 is connected to the cathode of the LED 4. The anode of which is through a resistor 13 and the mechanical switch 2 is connected to the positive power bus. The cathode of the Zener diode 15 is connected to the anode of the LED 5 and through the current-limiting resistor 3 and the mechanical switch 2 to the positive power supply bus. The minus power supply bus is connected to terminal 7.

Claims (1)

The device control circuit works as follows. When the key 2 is closed depending on the resistance value of the object 8 of the control, it is possible to change the display mode. The conductive state of the transistor 9 I and, therefore, the LED 5 is provided when an unlocking voltage is present on the mode resistor 10 when current flows through it, i.e. ir10-id5 + from-6t9. (1) ID5-f Us 6t 9 IRIO ' IRB The conducting state of transistor 9 is maintained for as long as (UR8 + URIO) S (isab 15 + i-b14). (3) Moreover, when relation (3) is equal, the conductive state of both transistors 9 and 14 occurs and the LEDs 4 and 5 can be lit. Determine the resistance value of the test object for this case. Taking into account (1) and (2) from relations (3), we have Rs iR8 URS Ustab 15 + Ue-BM-Udb-i-bt9 Ustab 15-iD5; UcTa615 - U Д5 RIO (id5 + i-b9) UcraSIS - and D5 RlO If Oh Re (idb + U9-6T9) the relations (1) and (3) are always inequalities and therefore conducts only the transistor 9 and the LED 5 is on. 5. For example, red light, indicating a low value of the object resistance 8 control. 8, the control object flows a current, which, by selecting the mode resistor 10 and the transistor 9, can constitute 1/10 of the current flowing through the transistor 9 and the LED 5. Thus, the power supplied to the control object 8 (Pk istab 15 iRe) is substantially (10 times) reduced, which increases the safety of controls for objects that are critical to the amount of input power. Due to inequality (3), the zener diode 15 does not conduct and the transistor 14 is closed, since its base-emitter junction is shunted by a resistor 12. The LED 4 does not light up. - - "The TraF uf transistor 9 is closed, because an LED 5 (offset current equal to 100 micrometers, which is not sufficient for luminescence) displaced by resistor 11, produces an voltage of 5 that prevails over the voltage URIO, i.e. URIO (id5 + Ue-b T9) inequality 3 reverses the sign. Now the current from source 1 flows through the circuit: source 1 - switch 2 - resistor 3 - zener diode 15 - resistor 12. At the same time, the voltage drop across resistor 12 causes the 14 m transistor to open, and a light emitting diode 4 is lit, for example, with green light about increased value of object resistance 8 control. By selecting the resistance of the resistor 13, the same brightness of LED 4 is compared to that of LED 5. Thus, the red or green color of the LED reliably indicates the resistance value of object 8 of the control within certain limits. Claims: Circuit control device comprising / power supply (power supply, mechanical key, current limiting resistor, reference circuit including a first LED and a control circuit consisting of a second LED and terminals for connecting the control object, characterized in that to improve the safety and reliability of control, a transistor pp conductivity, a mode resistor, three terminating resistors, a transistor n pp conduction, a zener diode, and a collector of transistor rp conduction are introduced into it The first terminal resistor is connected to the own emitter and cathode of the second LED, the first terminal for connecting the test object is connected to the transistor base of the conduction pnp transistor, the mode resistor is connected between the anode of the second LED and the transistor pnp base of the transistor pp conduction is connected to the anode of the zener diode m through the second matching resistor to the minus power bus, the collector of the pnp conduction transistor is connected to the cathode of the first led, the anode of which through the third matching cut The horn and mechanical key is connected to the positive power bus, the negative bus is connected to the second terminal for connecting the test object.