RU2671302C1 - Radio transmitter - Google Patents

Abstract

FIELD: radio engineering and communications.

SUBSTANCE: invention relates to radio transmitters. Radio transmitter consists of an output bipolar transistor with a common base, loaded on the antenna system, and an oscillator on two bipolar transistors of the same structure. Collector of the output transistor is connected to the power bus through a resistor. Emitters of the transistors of the autogenerator are galvanically connected to each other and connected to a common bus through a resistor and grounded at a high frequency by a capacitor, connected to a source of a modulating signal through a resistor. Modulation is carried out in the oscillator by changing the capacitances of the transitions of the transistors of the oscillator.

EFFECT: technical result of the invention is to provide higher frequency stability and deviation at wider ranges of temperatures and variations in the supply voltage.

6 cl, 1 dwg

Description

The present invention relates to radio transmitters.

Known radio transmitter with an oscillator on two bipolar transistors of the same structure,

at the same time being a frequency modulator, the signal from which is fed to the emitter of the output bipolar transistor with a base grounded at a high frequency, of a different structure than transistors of an oscillator (US Pat. RU 2601142).

The disadvantage of this design is

the need to use transistors of different structures, which can cause disproportionate changes in their parameters from external factors, which can cause a deterioration in frequency stability.

The technical task of the proposed invention is to provide higher stability of the natural frequency and deviation at wider ranges of temperatures and changes in supply voltage, as well as increasing the natural frequency.

The specified technical result is achieved by the fact that in the radio transmitter the frequency-modulated signal from the oscillator containing two bipolar transistors of the same structure is fed to the output transistor sitter with a high-frequency grounded base, the same

structures, which are transistors of the oscillator, and transistors of the oscillator at low DC-stabilized voltages between the emitter and collector of each transistor of the oscillator due to galvanic connections of the base of each transistor of the oscillator with the collector of an adjacent transistor of the oscillator with high-frequency emitter transistors connected to the alternator one of the transistors of the oscillator with the emitter of the output transistor, the collector through a resistor connected to the power bus and connected to the antenna system.

Schematic diagram of the proposed radio transmitter is shown in the drawing.

The device operates as follows.

In the oscillator, consisting of transistors T1, T2, capacitors C1, C2, coil L1, resistors R1, R2, self-oscillations occur. The power supply current flows through the resistors R1, R2, R3, R4, the emitter of the transistor T3. Capacitor C3 ground the emitters of transistors T1, T2 at a high frequency. The modulating signal is fed to terminal X, connected through the resistor R5 to the emitters of transistors T1, T2 and causes a change in the capacitances of their junctions, which causes the oscillation of the natural frequency of the oscillator. The high-frequency current, which is a frequency-modulated signal, is supplied to the emitter of transistor T3, partially shunted by resistors R4 and R1, and amplified by voltage by transistor T3. The collector of transistor T3 is connected through a resistor R6 to the power bus and is galvanically connected to the output of the Kis antenna system, consisting of capacitors C4, C5 and a coil L2, which at the same time is an emitter of an electromagnetic wave. Capacitor C6 ground the base of transistor T3 at a high frequency. Resistors R4, R6, R7, R8 provide stabilization of the mode of the transistor T3 DC.

If the radio transmitter emits signal packets that are short in time, then an electronic key is connected to terminal K, which closes terminal K to the common bus galvanically or at a high frequency through the capacitor to prevent radiation by the antenna system and the disconnect terminal K from the common bus simultaneously with the signal conclusion X.

After connecting the power to terminal E, a transition process will be slower than the electronic key connected to terminal K.

Pin X is connected to a signal source.

A microphone amplifier or an electrodynamic microphone with unchanged parameters without a capacitor can be connected to terminal X.

To terminal E, a constant voltage power supply is connected.

The rated supply voltage can be from 3 V to 300 V while maintaining operability when the supply voltage drops to half of the nominal.

The frequency of the radio transmitter can be from 200 MHz to 20 GHz.

The positive effect of this invention is higher reliability.

Claims (6)

1. The radio frequency-modulated electromagnetic wave transmitter, which is an output bipolar transistor, the base of which is galvanically connected to a voltage divider of two resistors galvanically connected to a common bus and to the collector of the output transistor, and galvanically connected to a high-frequency blocking capacitor, and the collector of which galvanically connected to the antenna system and galvanically connected to a resistor, the other end of which is galvanically connected to the power bus, and an oscillator, holding a frequency-driven parallel oscillatory circuit, two bipolar transistors of the same structure as the output transistor, with the implementation of frequency modulation in the oscillator by changing the capacitances of the transitions of the transistors of the oscillator with galvanic connection of the emitters of the transistors of the oscillator with each other and with a galvanic connection of them with a high frequency blocking capacitor and with the connection of the emitters of the transistors of the oscillator through a resistor with a common bus and with the connection of the emitters trans torus of the oscillator through a resistor with an output for a modulating signal, characterized in that the emitter of the output transistor is galvanically connected to a resistor, the other end of which is galvanically connected to a common bus and galvanically connected to a resistor, the other end of which is galvanically connected to a power bus, and the emitter of the output transistor galvanically connected to the collector of one of the transistors of the oscillator and galvanically connected to the base of another transistor of the oscillator, and the collector of the transistor a togenerator, the base of which is galvanically connected to the emitter of the output transistor, galvanically connected to a resistor, the other end of which is galvanically connected to the supply bus, and the specified frequency-parallel parallel oscillatory circuit is made of a coil and two capacitors, one of which is trimmer, galvanically connected to a common bus, and the other ends are galvanically connected to the ends of the specified coil, and one of the capacitors of the specified circuit, for example trimmer, is also galvanically connected to the collector of the transistor of the oscillator, the base of which is galvanically connected to the emitter of the output transistor. 2. The radio transmitter according to claim 1, characterized in that an electronic switch is galvanically connected to the output transistor collector, which closes it to a common bus galvanically or at a high frequency through a capacitor in the absence of a modulating signal. 3. The radio transmitter according to claim 1, characterized in that the antenna system is a radiating coil emitting an electromagnetic wave, both ends of which are galvanically connected to capacitors, the other ends of which are galvanically connected to a common bus, and one of the ends of this radiating coil is galvanically connected to a collector output transistor. 4. The radio transmitter according to claim 1, characterized in that the antenna system is a vibrator connected to the collector of the output transistor through a low-pass filter. 5. The radio transmitter according to claim 1, characterized in that an electronic switch is galvanically connected to the collector of the output transistor, closing it to a common bus galvanically or at a high frequency through a capacitor in the absence of a modulating signal, and the antenna system is a radiating coil emitting an electromagnetic wave, both the ends of which are galvanically connected to capacitors, the other ends of which are galvanically connected to a common bus, and one of the ends of the indicated radiating coil is galvanically connected to the output collector Foot transistor. 6. The radio transmitter according to claim 1, characterized in that an electronic switch is galvanically connected to the collector of the output transistor, closing it to a common bus galvanically or at a high frequency through a capacitor in the absence of a modulating signal, and the antenna system is a vibrator connected to the collector of the output transistor through low pass filter.

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