CS230825B1 - Indicator connection in power supply with 3-pin stabilizer - Google Patents

Abstract

The circuit is suitable for indicating the out-of-service state of sources with monolithic stabilizers, whose tripping current lies in the range of the source's operating currents. The circuit allows indicating a drop in output voltage and exceeding the selected current limit. It consists of a comparator with three transistors, which is controlled both by the source's output voltage and by the voltage drop across the sensing resistor, determined by the output current. The out-of-service state mode is indicated by the lighting of the light-emitting diode.

Description

BACKGROUND OF THE INVENTION The invention relates to the connection of an indicator in a power supply with a three-terminal stabilizer, particularly suitable for the construction of universal power supplies, in particular in the form of electronic construction kits for polytechnic education.

Until now, universal power supplies have been solved without the use of three-clamp voltage stabilizers, which are now mostly realized in monolithic form. The advantage of these stabilizers is simplicity, good technical parameters and built-in protection.

However, three-terminal voltage stabilizers are usually not adapted to indicate the operational status of the power supply. We consider this as exceeding the selected current limit as well as decreasing the output voltage, which is especially important if the tripping characteristic of the three-terminal stabilizers is such that the current in the non-operational state of the stabilizer is less than its maximum operating current. current sources.

These prior disadvantages are overcome by the wiring of the indicator in the three-terminal stabilizer power supply according to the invention.

It is an object of the invention that the positive input terminal of the source is connected via a third resistor to the collector of a third transistor whose base is connected via a sixth resistor to the output terminal of the source and simultaneously through the seventh resistor to the negative input terminal of the source. it is connected to the emitter of the third transistor and through the fourth resistor to the common source terminal, through the second resistor to the base of the second transistor and through the first resistor to the collector of the first transistor whose base is connected to the collector of the third transistor.

The base of the second transistor is connected via a first diode to both a light-emitting diode and a second diode to a common source terminal, which is connected via a fifth resistor to a negative input terminal of the source.

Furthermore, the indicator of the second transistor is connected via the eighth resistor to the light-emitting diode and through the ninth resistor to the common terminal of the source, the second resistor being connected between the base of the second transistor and the output terminal of the source.

The main advantage of the invention is that the circuit allows to indicate the non-operational state of the voltage source due to both overcurrent and output voltage drop. The connection does not affect the operation or parameters of the stabilizer and does not require the knowledge of the implementer when used for electronic kits.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in greater detail in the accompanying drawing, in which the indicator is shown in a three-terminal stabilizer power supply.

The input terminal of the three-terminal stabilizer 2 is connected via the first resistor 2 to the collector of the first transistor 13, the base of which is connected to the collector of the third transistor 15 and whose emitter is connected to the diode 18. the collector is connected to the input terminal třísvorkového stabilizer 2 ⁰ coincident with the positive input terminal £ source.

Furthermore, the input terminal of the three-terminal stabilizer 2 is connected via a third resistor β 3 to the collector of the third transistor 52, the base of which is connected via the seventh resistor 52 to the negative input terminal 2 of the source. simultaneously the output terminal of the 2nd power supply. The emitters of the second and third transistors 14 15 are coupled via a fourth resistor 2 to a common source terminal 6 and simultaneously to a common three-terminal stabilizer terminal 2. A fifth resistor 10 is connected between the negative input terminal 6 of the source and the common source terminal 8.

The base of the second transistor 14 is connected via the first diode 16 to the light-emitting diode 18 and the second diode 17 to the common terminal 4 of the source, respectively the base of the second transistor 14 is connected via the eighth resistor 19 to the light-emitting diode 18 and with a common terminal 4 of the source, the second resistor 2 being then connected between the base of the second transistor 14 and the output terminal 2 of the source.

If the current drawn from the three-terminal stabilizer 2 is less than the selected limit, the third transistor 15 is opened by voltage from the output of the three-terminal stabilizer 2 through a resistive divider formed by the sixth and seventh resistors 11 and 12. the voltage drop across the fifth resistor 10 is closed. the third transistor 15 is closed and the first transistor U is opened and the LED 18 turns on.

If the output voltage of the three-terminal stabilizer 2i drops, the Due to the tripping characteristic, the LED 18 indicates an off-state condition due to the closure of the third transistor 15 via a resistive divider formed by the sixth and seventh resistors 11 and 12.

By connecting a light-emitting diode 18 with a cathode between the first and second diodes 1.6. and 17, when the LED 18 is lit, a positive feedback occurs due to a change in voltage drop across the second diode 17 and the fifth resistor 10 through the first diode 16 and the second transistor 44, which ensures that the illumination does not occur gradually but by jump.

If higher requirements are placed on the thermal stability of the indicated current limit, it is preferable to use an eighth and a ninth resistor 19 ⁰ 20 instead of the first and second diodes 16 and 17, the second resistor 2 being then connected between the base of the second transistor 14 and the output terminal. 2 sources. Positive feedback can be influenced by the size of the ninth resistor 20. At zero value of the ninth resistor 20, the circuit hysteresis is minimal.

The circuit according to the invention is suitable for indicating the off-state condition of a monolithic stabilizer source whose trip current lies in the working current range of the source.

Claims (2)

SUBJECT OF THE INVENTION Wiring of an indicator in a power supply with a three-terminal stabilizer, characterized in that the positive input terminal (1) of the power supply is connected via a third resistor (8) to the collector of a third transistor (15) whose base is connected via a sixth resistor (11) a source terminal (2) and simultaneously through a seventh resistor (12) with a negative input terminal (3) of the source, both with a collector of a second transistor (14) whose emitter is connected to the emitter of a third transistor (15) and via a fourth resistor (9) and a common source terminal (4), both through a second resistor (7) with a base of the second transistor (14) and through a first resistor (6) with a collector of a first transistor (13) whose base is connected to a collector of a third transistor (15) the emitter is coupled to the light emitting diode (18), while the base of the second transistor (14) is coupled via the first diode (16) to both the light emitting diode (18) and the second diode (17) to the common source terminal (4) connected through the fifth a resistor (10) with a negative input terminal (3) of the power supply. Indicator circuit according to claim 1, characterized in that the base of the second transistor (14) is connected via a eighth resistor (19) to a light emitting diode (18) and to a common terminal (4) of a source via a ninth resistor (20). a second resistor (7) is connected between the base of the second transistor (14) and the output terminal (2) of the power supply.