SU1018198A1 - Pulse generator with mv order of supply voltage - Google Patents

Abstract

PULSE GENERATOR WITH POWER SUPPLY, containing, a transistor and an inductance coil, the transistor emitter is connected to the common bus, the base is directly, and the collector is connected to the collector through the inductance coil, the relay is connected to the receiver, and the relay is connected to the core of the transistor. In order to provide frequency tuning, a variable capacitor is connected to it, connected between the base of the transistor and the common bus.

Description

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CO 00 The invention relates to a pulse technique and can be used in radio engineering devices for various purposes. A pulse generator is known for a transistor, a diode, a capacitor, an inductance coil, and an electrical device that operates in the range of low supply voltages, but does not allow the frequency of the generated pulses to vary. The closest to the present invention is a generator with a low-voltage supply, containing a transistor, the base of which is directly, and the collector is connected via an inductance coil to the emitter of the power supply, the connection emitter. There is also a common bus 2 J. The disadvantage of this generator is also the inability to change the frequency of the oscillations generated. . The purpose of the invention is to provide frequency tuning. The goal is achieved by supplying a millivolt power generator to a pulse generator containing a transistor and an inductance, the transistor emitter is connected to a common busbar, the base is directly, and a collector through an inductance cushion is connected to the power bus, the output bus is connected via a coupling capacitor to the collector of the transistor, a variable capacitor is inserted, connected between the base of the Ostor circuit and the common bus. . The drawing shows a diagram of the pulse generator. The pulse generator contains a transistor 1, an inductor 2, a variable capacitor 3, a coupling capacitor 4, a common bus 5, a power bus 6, an output bus 7. The device operates as follows. The application of a constant voltage to the supply voltage 6 of the collector current of the transistor 1, which flows through the inductance 2, creates an electromagnetic field, whose energy is proportional to the current flowing. In this case, the fluctuation of the conductivity of transistor 1 causes an abrupt change in the voltage drop across the inductor, as a result of which a pulse is generated on the output bus of the device, amplifying the supply voltage, which is transmitted through the power supply circuit to the base of transistor 1, causing a new fluctuation its conductivity, with a delay depending on the capacitance of the capacitor 3. Thus, self-oscillations arise in the device, whose frequency can be adjusted, changing the capacitance of the capacitor 3. The device generates fluctuations at supply voltage (0.4 to 0.8 V) corresponding to the area of the region that we have evaluated are the current-voltage output characteristics.

Claims (1)

. VOLTAGE PULSE GENERATOR WITH VOLTAGE VOLTAGE POWER SUPPLY, containing, the transistor and the inductor, the emitter of the transistor is connected to the common bus, the base is directly, and the collector through the inductor is connected to the power bus, the output bus is connected through an isolation capacitor to the collector of the transistor, characterized in that In order to provide frequency tuning, a variable capacitor is inserted into it, connected between the base of the transistor and the common bus.