RU2601142C1 - Radio transmitter - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: invention relates to radio engineering and can be used as a radio transmitter. Radio transmitter comprises a bipolar transistor, a voltage divider on resistors, self-contained generator, made on two bipolar transistors, high-frequency choke, parallel oscillatory circuit, four resistors, two capacitors, antenna system, wherein frequency modulation is performed by changing capacitances of junctions of bipolar transistors of self-contained generator.

EFFECT: technical result is higher frequency stability in different conditions of use in wider range of supply voltage.

3 cl, 1 dwg

Description

The invention relates to radio transmitters.

A known radio transmitter with a modulator and generator on a single transistor with an oscillatory circuit, the coil of which also serves as an antenna (ISSN - 0033 - 765X, "Radio", 1977, p. 17 "Radio microphone").

The disadvantage of this design is the ability to change the natural frequency of the generator when approaching foreign conductive objects to the coil of the oscillatory circuit.

The technical task of the invention is to provide higher frequency stability of the oscillator under different conditions of use, including when approaching foreign conductive objects to the coil of the oscillating circuit of the master oscillator, as well as with a wider range of supply voltage.

The indicated 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 emitter of the output transistor with a high-frequency grounded base of a different structure than the oscillator transistors, and the oscillator transistors operate at reduced constant stabilized current voltage between the emitter and the collector of each transistor of the oscillator due to galvanic and through the resistor connection th terminals of the oscillator transistors with high frequency grounded emitters of the oscillator and with a galvanic connection of the collector of one of the transistors of the oscillator with the emitter of the output transistor, and the collector of the output transistor is connected to the antenna system.

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

The device operates as follows.

In the oscillator, consisting of transistors T1, T2, capacitor C1, coil L1, resistors R1, R2, self-oscillations occur. Through resistor R3, the oscillator is connected to the power bus. The voltages between the emitter and collector of each of the transistors T1 and T2 are stabilized by direct current due to galvanic and through the resistor R1 connections of the base of each of the transistors T1 and T2 with the collector of the other transistor. Resistor R1 provides a voltage at the base of transistor T2 between the voltages at the emitter and at the collector of this transistor. Capacitor C2 ground the emitters of transistors T1 and T2 at a high frequency. The modulating signal is fed to terminal X, connected through the resistor R4 to the emitters of transistors T1 and T2, causing a change in the capacitances of the transitions of the transistors T1 and T2, which causes a deviation of the natural frequency of the oscillator. A high-frequency current, which is a frequency-modulated signal, is supplied to the emitter of transistor T3, partially shunted by resistor R2, and amplified by voltage by transistor T3. Through the resistor R2, the DC components of the emitter current of the transistor T3 also flow, the collector current of the transistor T2 and the base current of the transistor T1. The collector of transistor T3 is connected through a high-frequency inductor D to the power bus and galvanically connected to the antenna system, consisting of capacitors C3, C4, coil L2, emitting an electromagnetic wave into the surrounding space. Capacitor C5 ground the base of transistor T3 at a high frequency. Resistors R2, R5, R6 provide stabilization mode transistor T3 DC.

Instead of the antenna system shown in the drawing, a vibrator connected to the collector of transistor T3 through a low-pass filter can be used as an antenna system.

A pin or microphone amplifier can be connected to pin X.

Pin E is connected to a constant voltage power source.

The rated supply voltage can be from +1.5 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 50 MHz to 2 GHz.

The positive effect of this invention is higher reliability.

Claims (3)

1. A radio frequency-modulated electromagnetic wave transmitter comprising 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 a power bus, and galvanically connected to a high-frequency blocking capacitor, and the collector of which is galvanically connected with an antenna system and is galvanically connected to a high-frequency inductor, the other end of which is galvanically connected to the power bus, and an oscillator containing receding parallel oscillatory circuit, two bipolar transistors of a different structure than the output bipolar transistor, with frequency modulation in the oscillator by changing the capacitances of the transitions of the bipolar transistors of the oscillator, with a galvanic connection of the emitters of the bipolar transistors of the oscillator to each other, with a high-voltage coupling and with the connection of the emitters of bipolar transistors of the oscillator through a resistor with a power bus and with a connection the emitter of the bipolar transistors of the oscillator through a resistor with an input for a modulating signal, characterized in that the emitter of the output bipolar transistor is galvanically connected to the collector of the first bipolar transistor of the oscillator, galvanically connected to the base of the second bipolar transistor, the alternator a common bus, and the base of the first bipolar transistor of the oscillator through a resistor is connected to the collector of the second about a bipolar transistor of the oscillator, the collector of the second bipolar transistor of the oscillator is also galvanically connected to the specified frequency-response parallel oscillating circuit formed by a variable capacitor and a coil, the other ends of the capacitor of variable capacitance and coil forming the specified frequency-setting parallel oscillatory circuit, galvanically connected to. 2. The radio transmitter according to claim 1, characterized in that the antenna system is a radiating inductor emitting an electromagnetic wave into the surrounding space, 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 the inductance is also galvanically connected to the collector of the output bipolar transistor. 3. The radio transmitter according to claim 1, characterized in that the antenna system is a vibrator connected to the collector of the output bipolar transistor through a low-pass filter.

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