SU1515282A1 - Transistor filter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in power supply devices as an active smoothing filter. The purpose of the invention is to stabilize the output voltage by reducing the output impedance and increasing reliability. The filter consists of transistors 1-4, incandescent lamp 11, capacitor 12 and resistors 6-10 and 14-17. The filter has a low output resistance. As the load current increases, the voltage drop across transistor 1 decreases, which keeps the power dissipated on it approximately constant. This is achieved by flowing a load current through the lamp 11 and creating an additional voltage drop across the resistors 14, 16. The current through the transistor 1 is limited by the resistance of the lamp 11. 1 sludge.

Description

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(20 А266373 / 24-07 (22) 06/19/87 (46) 10/15/89. Bul, No. 38

(71) Production Association Uralmash

(72) V.D.Gorodshyuv

(53) 621.314.5 (088.8)

(56) USSR Copyright Certificate No. 1069087, cl. H 02 M 1/15, 1978,

USSR Author's Certificate No. 817904, cl. H 02 M 1/15, 1978.

(54) TRANSISTOR FILTER

(57) The invention relates to electrical engineering and can be used in power supply devices as an active smoothing filter. The purpose of the invention is to stabilize the output voltage by reducing the output impedance and increasing reliability. The filter consists of transistors 1-4, incandescent lamp II, capacitor 12 and resistors 6-10 and 14-17. The filter has a low output resistance. As the load current increases, the voltage drop across the transistor I decreases, which keeps the power dissipated on it approximately constant. This is achieved by flowing a load current through the lamp I1 and creating an additional voltage drop across the resistors 14, 16. The current through the transistor I is limited by the resistance of the lamp II. 1 il.

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Invented with is related to electrical engineering and can 6hiTii be used in power supply systems as an active smoothing filter,

The purpose of the invention is to stabilize the output voltage by reducing the output resistance and increasing the reliability

The drawing shows an electrical filter circuit.

The circuit includes transistors 1-4, input terminal 5, resistors 6-10, incandescent lamp 11, capacitor 12, output terminal 13, as well as resistors 1A-17 and common terminal 18. Input 5, output 13 and common 18 pins are used for connecting source of direct current voltage and load

The input terminal 5 connects the collector of transistor 1, the capacitor 12 and the resistor 6, the free output of which is connected to the collector, the transistor 3 and the resistors 7 and 8, the free leads of which are connected respectively to the base and emitter of the transistor 4, the collector of which is connected to the base the transistor 1 and the collector of the transistor 2, the base of which is connected to the output terminal 13 and the output of the glow lamp 1. The free lamp output is connected to the emitter of transistor 1 and resistor 10, the free output of which is connected to the emitter of transistor 2 and the output of resistor 14, the free output of which is connected to resistors 15 and 16, the free outputs of these resistors 3 and common pin 18, which is connected to the resistor 17, the free output of which is connected to the resistor 9 and the emitter of the transistor 3, the base of which is connected to the free output of the capacitor 12, and the free output of the resistor 9 is connected to the base of the transistor 4,

The device works as follows,. ,

Suppose that the resistance value of the resistor 6 is zero. Pulsations of the input voltage to the resistors 7, 8 and simultaneously through the capacitor 12 to the base of the transistor 3 and are repeated on the resistor 17. Thus, when the voltage on the upper output of the resistor 7 changes, the voltage across the bottom terminal of the resistor 9, This ofipc- type constant current through not 1CH of resistors 7, 9, Since the resistance of the resistor 7 is constant, it will be constant and the voltage drop across it. This voltage is repeated by the transistor 4 on the resistor 8, and a direct current also flows through this resistor. Since this current is the emitter current of the transistor, the collector current of this transistor will also be constant. Real transistors 3, 4 are not ideal repeaters, therefore resistor 6 is necessary. Its value is ten times smaller than the resistance value of resistor 17. Resistance value of resistor 6 is set in such a way as to achieve the same collector current of transistor 4,

The collector current of transistor 4, which flows through resistors 14 and 16, creates a permanent voltage drop across them. This voltage through the emitterio-base transition of the transistor 2 is repeated at the output 13, therefore, the output voltage is maintained at the same level and does not depend on the magnitude of the load current, i, e, a small output resistance of the filter is provided.

In the absence of a load, the incandescent lamp 11 only flows the base current of transistor 2. A current determined by the sum of the voltages on the lamp 11 and the base-emitter transition of transistor 2 flows through resistor 10. If you connect a load to the output terminal, then transistor 2 will start to close and through the lamp 11 will flow load current. The voltage drop across lamp 11 will increase, and the voltage across resistor 10 will increase at the same time, leading to an increase in current through the latter. This current, flowing through resistors 14 and 16, creates an additional voltage drop across them. This voltage energizes the transistor b and opens up transistor 1. Thus, as the load current increases, the voltage drop across transistor 1 decreases, which keeps the power dissipated on it approximately constant.

Incandescent lamp, in addition to the stabilization of power dissipated by trans5 .15

the sensor 1 also performs the function of a filter operation indicator. In the absence of a load current, the lamp filament is not illuminated. At operating currents, the lamp shines in a full wave, and in the event of a fault, it burns brightly, signaling an emergency condition.

Despite the fact that the proposed device has a low output impedance, short circuits are not terrible for it. In the event that k, C appears, transistors 2, 3 close, transistor 4 becomes saturated, transistor 1 starts to operate in repeater mode and passes an input voltage to lamp 11 . The current through the transistor I is limited by the resistance of the lamp 1I,

Claims (1)

Claim 20 A transistor filter containing input, output, and common leads for connecting respectively a DC voltage source and a load, three transistors, three resistors, a capacitor, and an incandescent lamp, the first resistor being connected to the input terminal and the collector of the first transistor, the base of which is connected with the collector of the second transistor, and the base of the third transistor is connected to one of the terminals of the capacitor and ten 15 20 782 One of the conclusions of the second receiver, characterized in that, in order to stabilize the output voltage by decreasing the output resistance 5 and increasing reliability, six resistors and a fourth transistor are additionally introduced, the conductivity of which is opposite to that of the three transistors, and the collector of the fourth transistor is connected with the base of the first transistor, the emitter of which is connected to one of the terminals of the incandescent lamp and the third resistor with the fourth resistor and emitter is the second of the transistor, the base which is connected to another output of the incandescent lamp and to the output pin, free degenerate the fourth resistor is connected to r a free terminal of the second resistor and through the fifth resistor to a common terminal and one of the terminals of the sixth resistor, the other terminal 25 is connected to the emitter of the third transistor and through the seventh resistor to one of the outputs of the eighth resistor and the base of the fourth transistor, the emitter of which through the ninth 30, a resistor is connected to the free terminals of the first and eighth resistors and the collector of the third transistor, and the free terminal of the concentrator is connected to the input terminal.