SU1026290A1 - Single-capacitor multivibrator - Google Patents

Abstract

A SINGLE CAPACITY MULTI VIBRATOR containing three tr “1 resistors. in which the first transistor aitter is connected to the common bus, its base through the first resistor and capacitor connected in series with the collector of the second transistor, and the collector through the second resistor with the base of the second trans QECcTopa, the emitter of which is connected to YASHININ of the first source, the third resistor collector connected by q base ne |) God ;. a quarter-resistor base is equipped with a second-output lecturer and a fifth resistor, the first output of which is connected to the first source, differing r & l, which, in order to increase the efficiency of the load capacity, is entered into it. The quarter-transistor, the sixth resistor and the diode are connected to the bus through a sixth resistor, the base through the sixth resistor with a common bus and through the diode to the third transistor and the collector of the second transistor; of the same coherence resistor (L dinen with the base of the first transistor, and the elctter area of the trazistor | -G using the second source.

Description

The swarm terminal of the fifth resistor is connected to the base of the first transistor, and the emitter.

the third transistor - with the bus of the second power source.

The invention is intended to work in automation devices and pulse technology.

A single-capacitor multivibrator is known for two transistors with an emitter timing circuit Γΐΐ ‘. The disadvantages of this multivibrator are the large duty cycle of the generated pulses and the dependence of the signal parameters on the load. ί

A single-capacitor multivibrator with three transistors is also known, in which _{r the} base of the first transistor is connected to the collector of the second transistor through a serial RC circuit, and the collector is connected to the base of the second transistor through the resistor, the collector of the third transistor is connected to the midpoint of two series-connected resistors, connected between the base of the first transistor and the power bus, and its base is connected through a resistor to the collector of the second transistor. The disadvantages of this multivibrator are low load -lingual capability and relatively low efficiency.

The purpose of the invention is to increase the efficiency · and increase the load capacity of the multivibrator "

This goal is achieved by the fact that in a single-capacitor multivibrator containing three transistors, in which the emitter of the first transistor is connected to a common bus, its base, through the first resistor and capacitor connected in series, to the collector of the second transistor, and the collector through the second resistor to the base of the second transistor , the emitter of which is connected to the bus of the first power source, the collector of the third transistor through the third resistor is connected to the base of the first, and the base through the fourth resistor to the collector of the second, and fifth first resistor, a first terminal of which is connected ^ to the first power supply bus, administered fourth transistor, a sixth resistor and a diode, the fourth transistor whose emitter is connected with the second power supply bus, banana drawing shows the proposed multivibrator.

The multivibrator contains power supplies 1 and 2, the third, first, second and fourth transistors 3-6, respectively ₍ load element 7, diode 8, resonators 9-16 and time-consuming capacitor 17. The presence of resistors 13 and 9 for the operation of the multivibrator is not required .

Single-capacitive multivibrator works as follows.

After supplying power, transistor 6 goes into saturation due to the current set by resistor 16. Transistors 3-5 are locked. The process of charging the capacitor 17 along the chain: source ·. 1, resistor 12, resistor 11, transistor 6, and source 2. In the process of charging a capacitor, a negative voltage develops on the load element 7. Upon reaching the threshold voltage for the transistor 4 on the capacitor 17, the last one is unlocked, also unlocking the transistor 5. Due to the positive feedback through the resistor 11 and the capacitor 17, a generative process occurs, as a result of which the transistors 4 and 5 become saturated. At the same time, transistor 3 opens, and transistor 6 is locked. A positive voltage develops on the load element 7. After that, the capacitor 17 is recharged along the circuit: source 1, transistor 5, resistor 11, resistor 15, transistor 3 and source 2, when the voltage at the base of transistor 4 drops below the threshold, the last one exits saturation, the reverse relaxation process occurs, and transistors 4 and 5 go into a closed state. At the same time ^, transistor 3 closes and transistor 6 goes into saturation. In the future, the multivibrator operation is repeated. As can be seen through the sixth resistor - with a total width of - jq _l out. As shown in Fig. 1, transistors 5 and in form a diode and through a collector of the third transistor, and the collector with the collector of the second transistor, while the second-push-pull output stage provides a high load capacity of the multivibrator and high efficiency.

Claims (1)

<(5 7) SINGLE CAPACITY MULTIVIBRATOR containing three transistors ^. in which the emitter of the first transistor is connected to the common bus, its base ^; through ^! the first resistor and capacitor are connected in series with the collector of the second transistor, and the collector through the second resistor with the base of the second trans-transistor, the emitter of which is connected to Yashina first power supply <collector of the third transistor through the third 'resistor connected to the base of the first _g and the base via a fourth resistor - to the collector of the second and the fifth resistor, a first terminal of which is connected to the bus first istoch_nikapitaniya, characterized in that, in order to increase Efficiency and increase load capacity, introduced into it. a fourth transistor, a sixth resistor and a diode, the emitter of the fourth transistor connected to the second power supply bus, the base through the sixth resistor to a common bus and through the diode to the collector of the third transistor, and the collector to the collector of the second transistor> while the second output of the fifth resistor connected to the base of the first transistor, and the emitter of the third transistor! - to the bus of the second power source.