JPH06164242A - Digital amplitude modulator - Google Patents

Abstract

PURPOSE:To attain the actuation of a digital amplitude modulator with use of a single power supply by increasing the turn ratio between the primary and secondary windings to which the output of a fixed amplitude output amplifier in comparison with the turn ratio between the primary and secondary windings to which the output of a variable amplitude output amplidier is supplied. CONSTITUTION:The turn ratio between the primary and secondary windings to which the outputs of the fixed amplitude output amplifiers A1-A15 are supplied is set at a fixed level, e.g. 4:1. Meanwhile the turn ratio between the primary and secondary windings to which the output of a variable amplitude output amplifier A16 is supplied is set at 3:1, for example, smaller then 4:1 set with the amplifiers A1-A15. Therefore the output voltage which can interpolate the amplitude of the output of the fixed amplitude output amplifier that varies in steps is obtained at the secondary winding even though a modulating amplifier 15 has the drop of voltage and the input voltage drops to the primary winding to which the output of the amplifier A16 is supplied. Thus it is possible to actuate the amplifiers A1-A15 and A16 with a single common power supply.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital amplitude modulator used for broadcasting in the medium wave band and the short wave band.

[0002]

2. Description of the Related Art Here, a conventional digital amplitude modulator will be described with reference to FIG. Reference numeral 11 is a carrier wave generator that generates a carrier wave. Further, 12 is a signal source of an analog audio signal for modulating a carrier wave.

The analog voice signal is converted into a plurality of bits by the A / D converter 13, for example, 12 bits (2 ⁰ , 2 ¹ , 2 ² ...
2 ¹¹ ) converted into a digital signal.

[0004] Among the converted digital signal by the A / D converter 13, the lower bit signal, for example 2 ^{0-2 7} is converted into an analog signal by a D / A converter 14.

The signal converted into an analog signal by the D / A converter 14 is added to the modulation amplifier 15.

The modulation amplifier 15 comprises an amplifier 15a and a source follower FET 15b. Further, the modulation amplifier 15 has a DC voltage (for example, 24
A DC voltage obtained by adding the DC voltage (for example, 5 V) of the auxiliary power supply 17 to V) is supplied.

Then, the modulation amplifier 15 outputs a voltage corresponding to the analog signal output from the D / A converter 14.

The output of modulation amplifier 15 is applied to variable amplitude output amplifier A16.

Of the digital signals converted by the A / D converter 13, the higher-order bit signals, for example, 2 ⁸ to 2 ^11, are
It is added to the decoder 18.

In the decoder 18, the upper bit signal (2 ⁸
~ 2 ¹¹ ) is a 4-digit binary signal (for example, 1000, ..., 1
111). Then, in accordance with the value of the upper bit signal in the decoding result, 15 output terminals B1 to B1
A signal is output to all or any of the five.

For example, when only the 2 ⁸ digit is "1" (that is, 1000), a signal is output only from the output terminal B15.

[0012] Also, all of the 4-digit high-order bit signals are "1".
In the case of (that is, in the case of 1111), 15 output terminals B1
Signals are output from all of B15.

The output terminals B1 to B15 of the decoder 18 are connected to the switches S1 to S15, respectively, and the output terminals B1 to B15 are connected.
The output of B15 acts to close switches S1-S15.

When the switches S1 to S15 are closed, the fixed amplitude output amplifier A connected to the closed switches S1 to S15.
1 to A15 are in the operating state.

Therefore, the value of the higher-order bit signal of the digital signal converted by the A / D converter 13 determines the fixed amplitude output amplifiers A1 to A15 to operate.

The fixed-amplitude output amplifiers A1 to A15 include the carrier wave generated by the carrier wave generator 11 and the DC power source 1.
The voltage of 6 is supplied.

The carrier and the output of the modulation amplifier 15 are supplied to the variable amplitude output amplifier A16.

Each of the fixed amplitude output amplifiers A1 to A15 and the variable amplitude output amplifier A16 has four switch elements a.
1 to a4. These switch elements a1 to a
4, the fixed amplitude output amplifiers A1 to A1 in the operating state
From A15, a signal with a constant amplitude that is a modulated carrier is output. On the other hand, in the variable amplitude output amplifier A16, the carrier wave is modulated with the signal corresponding to the lower bit signal of the digital signal converted by the A / D converter 13, and the modulated carrier wave is output.

Since the configurations and operations of the fixed amplitude output amplifiers A1 to A15 and the variable amplitude output amplifier A16 are described in US Pat. No. 4,580,111, detailed description thereof will be omitted.

The outputs of the amplifiers A1 to A16 are output to the primary windings of the output combining transformers T1 to T16, respectively.

The outputs of the amplifiers A1 to A16 are
The output combining transformers T1 to T16 are combined and taken out from the secondary windings.

By the way, fixed amplitude output amplifiers A1 to A1
5 outputs a signal with a constant amplitude.

Therefore, fixed amplitude output amplifiers A1 to A
When the 15 outputs are combined, the amplitude of the combined signal is 1
The output obtained from the two fixed amplitude output amplifiers is changed stepwise with one step.

The output of the variable amplitude output amplifier A16 changes substantially continuously corresponding to the lower bit signal of the digital signal. The output of the variable amplitude output amplifier A16 is combined with the outputs of the fixed amplitude output amplifiers A1 to A15 to complement the output of the fixed amplitude output amplifiers A1 to A15 that changes stepwise. .

Therefore, the output synthesis transformers T1 to T1
From the output terminal of 6, an amplitude modulation wave in which the carrier wave is digitally amplitude-modulated with a voice signal is obtained.

The digital amplitude-modulated amplitude-modulated wave is passed through the band-pass filter 19 to remove the harmonic component and become an amplitude-modulated wave.

Then, this amplitude modulated wave is supplied to the load 20.

[0028]

In the above-mentioned conventional digital amplitude modulator, the output of the fixed amplitude output amplifier whose output amplitude is constant and the output of the variable amplitude output amplifier whose output amplitude changes are output by the output synthesizing transformer device. The carrier wave is digitally amplitude-modulated by adding and synthesizing.

Further, the winding ratios of the output combining transformers connected to the fixed amplitude output amplifier and the variable amplitude output amplifier are all the same so far for standardization and cost reduction.

By the way, the output of the fixed amplitude output amplifier and the output of the variable amplitude output amplifier have a relationship in which the output of the fixed amplitude output amplifier that changes stepwise is complemented by the output of the variable amplitude output amplifier.

Therefore, the output of the variable amplitude output amplifier must have a value equal to or greater than the amplitude of one step of the stepped output of the fixed amplitude output amplifier so that the output of the fixed amplitude output amplifier can be complemented. is there.

However, in the variable amplitude output amplifier, in the case of the normally used final stage serial modulation system, the utilization factor of the power supply voltage is 1
Does not reach 00%.

For example, when the modulation amplifier 15 is composed of the source follower FET 15b as shown in FIG. 2, the voltage drop due to the gate threshold of the FET (normally 2
4V) or voltage drop due to resistance between drain and source (depending on design, about 1-2V when power supply voltage is low)
There is.

Therefore, the output voltage of the modulation amplifier 15 is reduced by the above voltage drop. For example, when the input voltage to the modulation amplifier 15 is only the DC power supply 16 without the auxiliary power supply 17, and the voltage of the DC power supply 16 is + 24V, the output voltage of the modulation amplifier 15 is about 19V at the maximum.

On the other hand, the loss of each of the power amplifiers A1 to A15 and the combining transformers T1 to T15 is generally small. Therefore, assuming these are lossless, the synthetic transformer T
The voltage applied to the primary windings 1 to T15 is the DC power supply 1
When the voltage of 6 is + 24V, all are 48Vp-p.
The voltage output to the secondary winding is 12Vp-p.

In this case, the minimum value of one step of the fixed amplitude output amplifier output which changes stepwise is 12 Vp-p.

Therefore, the output voltage on the secondary side of the composite transformer T16 connected to the variable amplitude output amplifier A16 is
The range from 0V to 12Vp-p must be covered.

In this case, if the winding ratio of the synthetic transformer T16 is 4: 1 which is equal to that of the fixed amplitude output amplifier, the primary side input of the synthetic transformer T16 is 48 V at maximum.
pp is required.

However, since there is a voltage drop in the modulation amplifier 15, the primary side input of the composite transformer T16 is 48 Vp-p.
However, it does not decrease, for example, about 10V.

The primary side input of the synthetic transformer T16 is 48
If it is less than Vp-p, the secondary side output of the composite transformer T16 becomes smaller than the minimum value of one step of the fixed amplitude output amplifier output.

As a result, it becomes impossible to complement the output of the fixed amplitude output amplifier which changes stepwise. Therefore, conventionally, the auxiliary power supply 17 is provided to compensate the voltage drop of the modulation amplifier 15.

However, when the auxiliary power supply 17 is used, it is necessary to make the common DC power supply 16 and the auxiliary power supply 17 have the same rising characteristics, for example, so that the modulation characteristics are not deteriorated. Therefore, difficult conditions are required for power supply design. In addition, the structure is enlarged by the amount of the auxiliary power source, and the cost is increased accordingly.

The present invention solves the above-mentioned drawbacks, and an object of the present invention is to provide a digital amplitude modulator capable of operating with a single power source.

[0044]

According to the present invention, there is provided a carrier wave generator for generating a carrier wave, and an A / D converter for converting an audio signal for modulating the carrier wave into a digital signal of a plurality of bits.
Means for converting the lower bit signal of the digital signal converted by the A / D converter into an analog signal, and the analog signal and the DC voltage of the DC power supply are supplied, and a signal having a magnitude corresponding to the analog signal is output. A modulation amplifier, a variable amplitude output amplifier supplied with the signal output from the modulation amplifier and the carrier, and modulating the carrier with a signal corresponding to the lower bit signal of the digital signal, and outputting the carrier and the carrier. A plurality of fixed amplitude output amplifiers, each of which is supplied with a DC voltage of a DC power supply, modulates the carrier wave corresponding to a higher-order bit signal of the digital signal and outputs a modulated wave of a constant amplitude, and a higher-order bit of the digital signal A fixed-amplitude output amplifier, which is supplied with a signal and operates among the plurality of fixed-amplitude output amplifiers, is coupled to the upper bit signal. A plurality of primary side windings to which the output of the fixed amplitude output amplifier and the output of the variable amplitude output amplifier are individually input, and the decoders individually coupled to the primary side windings. In a digital amplitude modulator including an output combining transformer having a plurality of secondary windings for combining and extracting the output of the fixed amplitude output amplifier and the output of the variable amplitude output amplifier, the output of the fixed amplitude output amplifier is The primary side winding to which the output of the variable amplitude output amplifier is supplied and the secondary side coupled to the primary side winding are supplied with all the turns ratios of the primary side winding and the secondary side winding coupled thereto. It is larger than the winding ratio with the winding.

A carrier wave generator for generating a carrier wave,
An A / D converter for converting the voice signal that modulates the carrier into a digital signal of a plurality of bits, a unit for converting a lower bit signal of the digital signal converted by the A / D converter into an analog signal, and the analog A signal and a DC voltage of a DC power supply are supplied, and a modulation amplifier that outputs a signal having a magnitude corresponding to the analog signal, and a signal output from the modulation amplifier and the carrier wave are supplied, and a lower bit signal of the digital signal. A variable amplitude output amplifier that modulates and outputs the carrier wave with a signal corresponding to the carrier wave, and the DC voltage of the carrier wave and the DC power supply are supplied, and each modulates the carrier wave in accordance with the upper bit signal of the digital signal. , A plurality of fixed amplitude output amplifiers that output a modulated wave of a constant amplitude, and a high-order bit signal of the digital signal are supplied, Of the fixed-amplitude output amplifiers to be operated, a decoder for determining the operation of the fixed-amplitude output amplifier, the output of the fixed-amplitude output amplifier, and the output of the variable-amplitude output amplifier are individually input. An output having a plurality of primary-side windings and a plurality of secondary-side windings that are individually coupled to the primary-side windings and combine and extract the output of the fixed amplitude output amplifier and the output of the variable amplitude output amplifier In a digital amplitude modulator including a combination transformer device, a primary side winding to which the outputs of the plurality of fixed amplitude output amplifiers are respectively supplied and a second winding connected to the primary side winding.
The winding ratio with the secondary winding is partly larger and the remaining is smaller than the winding ratio of the primary winding to which the output of the variable amplitude output amplifier is supplied and the secondary winding coupled thereto. It is configured.

[0046]

As described above, all or part of the winding ratio of the primary winding to which the output of the fixed amplitude output amplifier is supplied and the secondary winding coupled to the primary winding is supplied to the variable amplitude output amplifier. Is larger than the winding ratio of the primary side winding to which the output of (2) is supplied and the secondary side winding coupled thereto. According to this configuration,
Even if the modulation amplifier supplying the output to the variable amplitude output amplifier has a voltage drop and the input voltage to the primary side winding of the output synthesis transformer becomes small, it is coupled to the primary side winding and this. Since the turn ratio with the secondary winding is small, an output voltage that can complement the amplitude of the fixed amplitude output amplifier output that changes stepwise can be obtained.

[0047]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a digital amplitude modulator according to the present invention will be described with reference to FIG. In FIG. 1, the same reference numerals are given to the portions corresponding to those in FIG. 2 which describes the conventional technique, and detailed description thereof will be partially omitted.

Reference numeral 11 is a carrier wave generator for generating a carrier wave. Further, 12 is a signal source of an analog audio signal for modulating a carrier wave.

The analog voice signal is converted by the A / D converter 13 into a plurality of bits, for example, 12 bits (2 ⁰ , 2 ¹ , 2 ² ...
2 ¹¹ ) converted into a digital signal.

[0050] Among the converted digital signal by the A / D converter 13, the lower bit signal, for example, 2 ⁰ ~2 ⁷ D / A
The converter 14 converts the analog signal.

The signal converted into the analog signal by the D / A converter 14 is added to the modulation amplifier 15.

The modulation amplifier 15 is composed of an amplifier 15a and a source follower FET 15b, and the modulation amplifier 15 has a DC voltage (for example, 24V) from a DC power supply 16.
Is being supplied.

A signal corresponding to the analog signal supplied from the D / A converter 14 is output from the modulation amplifier 15 and added to the variable amplitude output amplifier A16.

Of the digital signals converted by the A / D converter 13, the higher-order bit signal, for example, 2 ⁸ to 2
¹¹ is added to the decoder 18.

In the decoder 18, the high-order bit signal (2 ⁸
~ 2 ¹¹ ) is decoded as a 4-digit binary signal. Then, a signal is output to the 15 output terminals B1 to B15 corresponding to the value of the higher-order bit signal as a result of the decoding. For example, if only the 2 ⁸ digit is "1", it is output only from the output terminal B15,
When all the 4-digit high-order bit signals are "1", the signals are output from all 15 output terminals B1 to B15.

Output terminals B1 to B15 of the decoder 18 are connected to switches S1 to S15, respectively, and output terminals B1 to B15 are connected.
The output of B15 acts to close switches S1-S15.

When the switches S1 to S15 are closed, the fixed amplitude output amplifier A connected to the closed switches S1 to S15.
1 to A15 are in the operating state.

Therefore, the fixed-amplitude output amplifiers A1 to A15 that operate are determined by the value of the higher-order bit signal of the digital signal converted by the A / D converter 13.

On the other hand, the variable amplitude output amplifier A16 is
It operates when the digital signal converted by the D converter 13 has a lower bit signal.

The fixed-amplitude output amplifiers A1 to A15 include the carrier generated by the carrier generator 11 and the DC power supply 1.
6 DC voltage is supplied.

The variable amplitude output amplifier A16 is supplied with the carrier and the output of the modulation amplifier 15.

The fixed amplitude output amplifiers A1 to A15 and the variable amplitude output amplifier A16 are composed of four switch elements a1 to a4, respectively. Then, the fixed amplitude output amplifiers A1 to A15 output signals of a constant amplitude in which the carrier wave is modulated.

In the variable amplitude output amplifier A16, A
The carrier wave is modulated with a signal corresponding to the lower bit signal of the digital signal converted by the / D converter 26.

The outputs of the amplifiers A1 to A16 are output to the primary windings of the output combining transformers T1 to T16, respectively.

The outputs of the amplifiers A1 to A16 are
The output combining transformers T1 to T16 are combined and taken out from the secondary windings.

The turns ratios of the primary winding to which the output of the fixed amplitude output amplifier is supplied and the secondary winding coupled thereto are all set to be equal, for example, 4: 1.

The turn ratio between the primary winding to which the output of the variable amplitude output amplifier A16 is supplied and the secondary winding coupled to the primary winding is smaller than that of the fixed amplitude output amplifier, for example, 3: 1. Is set.

By the way, the fixed-amplitude output amplifiers can obtain outputs of constant amplitude. Therefore, when the outputs of the fixed amplitude output amplifiers are combined, the amplitude of the combined signal is equal to the output obtained from one fixed amplitude output amplifier.
It changes into a step like step.

The output of the variable amplitude output amplifier A16 continuously changes corresponding to the lower bit signal of the digital signal and complements the amplitude of the fixed amplitude output amplifier output which changes stepwise.

The outputs synthesized by the output synthesizing transformers T1 to T16 are passed through the band pass filter 19 to obtain an amplitude modulated wave modulated with a voice signal.

Then, this amplitude modulated wave is supplied to the load 20.

As described above, in the embodiment of the present invention, the winding ratio of the primary side winding to which the output of the variable amplitude output amplifier A16 is supplied and the secondary side winding coupled thereto is determined by the fixed amplitude output amplifier. It is set to 3: 1 which is smaller than the case of.

Therefore, there is a voltage drop in the modulation amplifier 15, and the output of the variable amplitude output amplifier A16 is supplied 1
Even if the input voltage to the secondary winding drops, an output voltage that can complement the amplitude of the fixed amplitude output amplifier output that changes stepwise can be obtained in the secondary winding.

Therefore, the fixed amplitude output amplifier and the variable amplitude output amplifier can be operated by a single common power supply.

In the above embodiment, the turns ratios of the primary winding to which the output of the fixed amplitude output amplifier is supplied and the secondary winding coupled thereto are all set to be equal, for example, 4: 1. . However, in some fixed amplitude output amplifiers, the output of some fixed amplitude output amplifiers may be set small.

In this case, the turn ratio between the primary winding connected to the fixed amplitude output amplifier whose output is set small and the secondary winding connected to this is 1 connected to the variable amplitude output amplifier. It may be smaller than the turn ratio of the secondary winding and the secondary winding coupled thereto.

At this time, in the fixed-amplitude output amplifiers other than the fixed-amplitude output amplifier whose output is set small, the turn ratio between the primary winding and the secondary winding coupled thereto is as follows. It is larger than that of the variable amplitude output amplifier as in the above embodiment.

Also in this case, even if the fixed amplitude output amplifier or the variable amplitude output amplifier is operated by a single power source, the amplitude which changes stepwise can be complemented by the output of the variable amplitude output amplifier.

[0079]

According to the present invention, a digital amplitude modulator operating with a single common power supply can be realized. Therefore, an auxiliary power supply under severe design conditions is unnecessary, and the size and weight can be reduced correspondingly, and the cost can be reduced.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention.

FIG. 2 is a circuit diagram showing a conventional example.

[Explanation of symbols]

 11 ... Carrier generator 12 ... Signal source 13 ... A / D converter 14 ... D / A converter 15 ... Modulation amplifier 16 ... DC power supply 18 ... Decoder 19 ... Band pass filter 20 ... Load A1 to A15 ... Fixed amplitude Output amplifier A16 ... Variable amplitude output amplifier T1-T16 ... Output synthesis transformer

Claims (2)

[Claims] 1. A carrier wave generator for generating a carrier wave, an A / D converter for converting an audio signal for modulating the carrier wave into a digital signal of a plurality of bits, and a digital signal converted by the A / D converter. Means for converting a lower bit signal into an analog signal, a modulation amplifier supplied with the analog signal and a DC voltage of a DC power supply, and outputting a signal of a magnitude corresponding to the analog signal, and a signal output from the modulation amplifier And a variable amplitude output amplifier that is supplied with the carrier wave and modulates and outputs the carrier wave with a signal corresponding to the lower bit signal of the digital signal, and the carrier wave and the DC voltage of the DC power supply are supplied, and each of them is the digital signal. A plurality of fixed-amplitude output amplifiers that modulate the carrier wave corresponding to the higher-order bit signal of the signal and output a modulated wave of a constant amplitude; A high-order bit signal of the digital signal is supplied, and a fixed amplitude output amplifier that operates among the plurality of fixed-amplitude output amplifiers is defined corresponding to the high-order bit signal, and an output of the fixed amplitude output amplifier and the A plurality of primary side windings to which the outputs of the variable amplitude output amplifiers are individually input, and an output of the fixed amplitude output amplifiers and an output of the variable amplitude output amplifiers are combined by individually coupling to the primary side windings. A digital amplitude modulator including an output synthesizing transformer device having a plurality of secondary side windings to be taken out as a primary side winding to which an output of the fixed amplitude output amplifier is supplied and a secondary side winding coupled to the primary side winding. The digital amplitude is characterized in that all of the turns ratios to the wire are greater than the turns ratio between the primary winding to which the output of the variable amplitude output amplifier is supplied and the secondary winding coupled to the primary winding. Adjusting unit. 2. A carrier generator for generating a carrier, an A / D converter for converting an audio signal for modulating the carrier into a digital signal of a plurality of bits, and a digital signal converted by the A / D converter. Means for converting a lower bit signal into an analog signal, a modulation amplifier supplied with the analog signal and a DC voltage of a DC power supply, and outputting a signal of a magnitude corresponding to the analog signal, and a signal output from the modulation amplifier And a variable amplitude output amplifier that is supplied with the carrier wave and modulates and outputs the carrier wave with a signal corresponding to a lower bit signal of the digital signal, and the carrier wave and the DC voltage of the DC power supply are supplied, and each of them is the digital signal. A plurality of fixed-amplitude output amplifiers that modulate the carrier wave corresponding to the higher-order bit signal of the signal and output a modulated wave of a constant amplitude; A high-order bit signal of the digital signal is supplied, and a fixed amplitude output amplifier that operates among the plurality of fixed-amplitude output amplifiers is defined corresponding to the high-order bit signal, and an output of the fixed amplitude output amplifier and the A plurality of primary side windings to which the outputs of the variable amplitude output amplifiers are individually input, and an output of the fixed amplitude output amplifiers and an output of the variable amplitude output amplifiers are combined by individually coupling to the primary side windings. In a digital amplitude modulation device comprising an output combining transformer device having a plurality of secondary side windings to be taken out, a primary side winding to which the outputs of the plurality of fixed amplitude output amplifiers are respectively supplied, and 2 The winding ratio to the secondary winding is partly larger and the remaining is smaller than the winding ratio of the primary winding to which the output of the variable amplitude output amplifier is supplied and the secondary winding coupled thereto. Digital amplitude modulation system, characterized in that.