JPH04167807A - Amplitude modulation radio transmitter - Google Patents

Abstract

PURPOSE:To improve the overall efficiency of the transmitter by selecting plural taps of an impedance transformer with a switch means controlled by a modulation signal so as to control an output power of a high frequency amplifier. CONSTITUTION:When an input voice signal inputted to a terminal 6 is zero, an amplitude of an output signal is constant while a semiconductor switch S6 corresponding to nearly a center tap of an impedance transformer 10 is closed. When a voice signal is inputted to the terminal 6, a semiconductor switch 9 selects a tap of the transformer 10 in response to the amplitude of the voice signal. As a result, the amplitude of the high frequency signal is amplitude-modulated by the voice signal and the transmission of an amplitude- modulated wave is attained. Thus, through the constitution above, the amplitude amplifier consuming much power is not required and the overall efficiency of the transmitter is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an amplitude modulation radio transmitter, and more particularly to an amplitude modulation radio transmitter suitable for use as a medium wave band and short wave band broadcast transmitter.

[Conventional technology]

As shown in FIG. 3, a conventional amplitude modulation wireless transmitter includes a high frequency power amplifier 2 that amplifies a carrier signal (high frequency signal) from a carrier signal source 1, and a high frequency power amplifier 2 that amplifies a carrier signal (high frequency signal) from a carrier signal source 1, and a high frequency power amplifier 2 that amplifies a carrier signal (high frequency signal) from a carrier signal source 1. A modulation amplifier 14 that amplitude-modulates the carrier signal by controlling the output of the carrier signal 2, and a filter 4 that removes unnecessary frequency components. Note that 11 is a power source.

In this amplitude modulation radio transmitter, the audio signal input to the input terminal 6 is transmitted to the high frequency power amplifier 2 by the modulation amplifier 14.
is amplified to a level that can be amplitude modulated, and the high frequency power amplifier 2 is modulated at the final stage. - On the other hand, the high frequency power amplifier 2 is
The high frequency signal of carrier wave signal source 1 is amplified and guided to output terminal 5 through filter 4 . High frequency power amplifier 2
The power supply voltage of the high frequency power amplifier 2 is changed by the modulation amplifier 14 according to the input audio signal.
is amplitude modulated.

[Problem to be solved by the invention]

In such a conventional amplitude modulation radio transmitter, since the modulation amplifier 14 handles the input power of the high frequency power amplifier 2, a relatively high power amplifier is required. Therefore, a problem arises in that the overall efficiency of the transmitter is low due to power loss in the modulation amplifier 14.

An object of the present invention is to provide an efficient amplitude modulation radio transmitter.

[Means to solve the problem]

The amplitude modulation wireless transmitter of the present invention includes: a modulator connected to the output side of a power amplifier for amplitude modulating a carrier signal according to a modulation signal; an impedance transformer having a plurality of taps on a primary winding; a switch means for selectively connecting the tap to a power amplifier; an A/D converter for converting the modulation signal into a digital signal; and a modulation encoder for switching and controlling the switch means in accordance with the converted digital signal. The output impedance of the power amplifier is changed depending on the amplitude of the modulation signal.

In this case, a semiconductor switch can be used as the switch means, and is configured to be selectively turned on based on a coded signal from a modulation encoder.

[Effect]

According to the present invention, by selecting the tap of the impedance transformer by the switch means which is selectively turned on by the modulation signal, the output impedance of the high frequency amplifier is transformed into the impedance corresponding to this tap, and the output power is changed. control to perform amplitude modulation of the carrier signal.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram of one embodiment of the present invention.

The high frequency power amplifier 2 power amplifies the carrier signal (high frequency signal) from the carrier signal source 1 and inputs its output to the modulator 3 . The modulator 3 includes an impedance transformer 10 having a plurality of taps on its primary winding, and semiconductor switches 9 (81 to 5n) 9 for selecting the taps. Either one is selectively turned on, and when turned on, the output of the high frequency power amplifier 2 is inputted to the impedance transformer 10 through the semiconductor switch. The power supply 11 of the high frequency power amplifier 2 is a constant voltage DC power supply, and the output impedance of the high frequency power amplifier 2 is changed by the tap position of the impedance transformer 10 corresponding to the semiconductor switch that is selectively turned on. Therefore, if this tap position is changed according to the amplitude of the modulation signal, the output power of the high frequency power amplifier 2 will change accordingly, resulting in amplitude modulation.

The modulator 3 also has an A/D converter that converts a modulation signal input to a terminal 6, an audio signal into a digital signal.
A converter 7 and a modulation encoder 8 that encodes and outputs the digital signal converted by the A/D converter 7 are provided. The modulation encoder 8 performs control to selectively turn on the semiconductor switch 9 (Sl-3n) corresponding to the value of the digitized audio signal.

Note that the output of the impedance transformer 10 is transmitted to the filter 4.
After removing unnecessary frequency components, the signal is transmitted to the output terminal 5.

The operation of the amplitude modulation radio transmitter having the above configuration will be explained using the output waveform diagram shown in FIG. In addition, in the figure, 12 is a carrier wave signal, and 13 is a modulation envelope waveform.

In the figure, during the period from A to B, the input audio signal input to the terminal 6 is in a state of zero, and the output signal is in a state of constant amplitude. According to this example, during this period, the semiconductor switch S6 corresponding to approximately the middle tap of the impedance transformer 10 is in a closed state.

Next, during the period from B to C, an audio signal is input to the terminal 6, and the tap of the impedance transformer 10 is selected by the semiconductor switch 9 according to the amplitude of the audio signal. That is, at the positive peak of modulation, the semiconductor switches 85 to SL, etc. are selectively turned on, and the lower tap of the impedance transformer 10 is selected. This lowers the output impedance of the power amplifier 2 and increases the output power.・On the other hand, at the negative peak of modulation,
Semiconductor switches 87 to Sl1 are selectively turned on to select the upper level amplifier of the impedance modulator 10, or all taps are opened. As a result, the output impedance of the power amplifier 2 becomes high, and the output power becomes small or zero.

As a result, the high frequency signal is amplitude modulated by the audio signal, and amplitude modulated transmission becomes possible.

Therefore, this configuration eliminates the need for the modulation amplifier 14 that consumes high power as shown in FIG. 3, eliminates power loss in the modulation amplifier 14, and improves the overall efficiency of the transmitter.

Note that the semiconductor switch can be replaced with other switching means.

〔Effect of the invention〕

As explained above, the present invention controls the output power of the high-frequency amplifier by selecting multiple taps of the impedance transformer using switching means controlled by a modulation signal, so a high-power modulation amplifier is unnecessary. Therefore, it is possible to eliminate the power loss and obtain a highly efficient amplitude modulation wireless transmitter.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an embodiment of the amplitude modulation wireless transmitter of the present invention, FIG. 2 is a waveform diagram showing the output amplitude in the transmitter of FIG. 1, and FIG. 3 is a diagram of a conventional amplitude modulation wireless transmitter. It is a block diagram.

Claims (1)

[Claims] 1. A power amplifier that amplifies a carrier signal, and a modulator that is connected to the output side of the power amplifier and modulates the amplitude of the carrier signal according to a modulation signal, and the modulator has a primary an impedance transformer having a plurality of taps on a side winding; switching means for switching the taps to selectively connect the power amplifier; and an A/D converter for converting a modulated signal into a digital signal; 1. An amplitude modulation radio transmitter comprising: a modulation encoder that switches and controls the switching means according to a digital signal; and an amplitude modulation radio transmitter that changes the output impedance of a power amplifier depending on the magnitude of the amplitude of the modulation signal. 2. The amplitude modulation radio transmitter according to claim 1, wherein the switch means is a semiconductor switch and is configured to be selectively turned on based on a coded signal from a modulation encoder.