RU2007867C1 - Amplitude-modulated signal radio transmitter - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: radio transmitter of amplitude-modulated signals has master oscillator 1 of radio frequency, grid voltage modulator 2, modulated signal source 3, final stage tube 4, blocking capacitor 5, resonance load 6, choke 7, stepped voltage former 8, summing amplifier 9, bias source 10. EFFECT: reduced nonlinear distortions thanks to interaction of mentioned components. 2 cl, 5 dwg

Description

 The invention relates to radio engineering and can be used in broadcasting and communication transmitters of medium and high power.

 The aim of the invention is to reduce non-linear distortion of the output signals.

 In FIG. 1 shows a structural electric circuit of a radio transmitter of amplitude-modulated signals; in FIG. 2 a, b, 3 - laws of voltage regulation; in FIG. 4 - connection diagram of an uncontrolled rectifier in the circuit of a radio transmitter of amplitude-modulated signals; in FIG. 5 is a part of a circuit of a radio transmitter of amplitude-modulated signals when using a single-band modulator as a grid voltage modulator.

 The amplitude-modulated (AM) signal radio transmitter (Fig. 1) comprises a master radio frequency (MH) generator 1, a grid voltage modulator 2, a modulating signal source 3, a terminal stage lamp 4, an isolation capacitor 5, a resonant load 6, a choke 7, a shaper 8 step voltage, summing amplifier 9, bias source 10, uncontrolled rectifier 11 (Fig. 4), a preliminary linear amplifier of a radio point 12 (Fig. 2, 5), amplitude detector 13.

 The radio transmitter AM signals operates as follows.

 In FIG. Figure 2 shows the current law of regulation of the supply voltage of the lamp of the terminal stage. The modulating signal (Fig. 3, curve 3) is supplied from the source 3 to the low-frequency (modulating) input of the grid voltage modulator 2, to the high-frequency input of which the carrier frequency voltage from the ZG 1 is supplied. Modulator 2 modulates the voltage in the control circuit circuit of the terminal stage lamp, and as a result, the amplitude modulation of the voltage at the resonant load 6. In this case, the modulator 2 can perform both modulation by changing the amplitude of the excitation voltage and modulation by changing the bias voltage in the circuit net, which is not important. The modulating voltage is also fed to the input of the summing amplifier 9, where it is added with a positive offset from the source 10, which has a relative value Δ, after which the total voltage is supplied to the input of the shaper 8, which regulates the voltage of the anode supply of the lamp of the terminal stage 4 in accordance with dependence 4 The inductor 7 and the isolation capacitor 5 are used to decouple the supply voltage and high frequency voltage. When using an uncontrolled rectifier 11 (Fig. 4), which provides an initial value of the supply voltage Δ of the lamp of the terminal stage 4, the output voltage of the driver 8 is summed with the voltage of the uncontrolled rectifier, the result is the required voltage of the lamp of the terminal stage 4 (Fig. 3b). In FIG. Figure 5 shows the changes that need to be made to the functional diagram of the entire device in order to ensure the operation of the radio transmitter with AM in single-band mode. In this case, the outputs of ZG 1 and source 3 are connected to a modulator 2, which is made in the form of a single-band signal shaper, and its output through a preliminary linear amplifier of radio frequency 12 is connected to the control grid of the lamp 4, the output of the modulator 2 is also connected (Fig. 5) through the amplitude detector 13 to the second input of the summing amplifier 9. The amplitude envelope of the single-band signal extracted by the amplitude detector 13 is fed to the second input of the summing amplifier 9. As a result, the driver 8 controls the voltage the power supply of the lamp of the final stage according to the law in accordance with the envelope of amplitudes of the amplified single-band signal. As a result, non-linear distortion is reduced. (56) Patent of Germany N 2720930, cl. H 04 B 1/04, 1980.

 German patent N 3526913, class H 03 C 1/02, 1987.

Claims (2)

 1. RADIO TRANSMITTER OF AMPLITUDE-MODULATED SIGNALS, containing a master radio frequency generator, the output of which is connected to a high-frequency input of the grid voltage modulator, to the low-frequency input of which is connected the output of the modulating signal source, a terminal stage lamp whose cathode is connected to a common bus, a step voltage generator, whose output connected to the first output of the inductor, the second output of which is connected to the anode of the lamp of the final stage and to the first output of the isolation capacitor, res the on-load, which is connected between the second output of the isolation capacitor and the common bus, while the output of the grid voltage modulator is connected to the control grid of the lamp of the terminal stage, characterized in that, in order to reduce nonlinear distortion of the output signals, a summing amplifier and a mixing source are introduced, the output of which connected to the first input of the summing amplifier, to the second input of which the output of the source of the modulating signal is connected, while the output of the summing amplifier is connected to the input of the of Tell stepwise voltage.  2. The radio transmitter according to claim 1, characterized in that an uncontrolled rectifier is connected between the first output of the inductor and the cathode of the lamp of the terminal stage.

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