JPH0349456Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field The present invention is a standard signal generator that can freely set the frequency, modulation degree, output voltage, etc. for pseudo signals for measuring the reception sensitivity of radio receivers. The present invention relates to a modulation amplification device incorporated in a.

Prior Art Generally, this type of modulation amplification device uses a carrier signal (RF signal), a modulation signal (AF signal), and
A desired modulated output signal was obtained by inputting a DC reference voltage that sets the degree of amplification of the RF signal.

Next, a conventional modulation amplification device will be explained with reference to FIG. In FIG. 2, 1 is a modulation amplifier, which amplitude-modulates the RF signal input from the RF input signal terminal 4 with the output signal of the differential amplifier 3.
In addition, the signal is amplified at a constant amplification degree and output. A detection diode 2 detects the negative voltage portion of the output signal of the modulation amplifier 1. 3 is a differential amplifier, which connects the DC reference voltage 6 and
A difference signal between the superimposed signal of the AF signal 7 and the output signal of the detection diode 2 is output to the modulation amplifier 1. Note that since this differential amplifier 3 is for low frequency use, the envelope of the output signal of the detection diode 2 is detected. Furthermore, by changing the voltage of the DC reference voltage 6, the output voltage of the modulation amplifier 1 is changed to a desired voltage.

Next, the operation of the above conventional example will be explained.

First, a desired RF frequency is selected and the RF signal is input to the RF signal input terminal 4. On the other hand, by selecting the AF frequency and voltage and inputting the AF signal to the AF signal input terminal 7, the modulation frequency and degree of modulation can be selected. Further, a DC reference voltage for selecting the degree of amplification of the RF signal is input to the DC reference voltage input terminal 6.

Here, the AF signal 7 and the DC reference voltage 6 are superimposed and input to one input terminal of the differential amplifier 3.
If there is no output signal from detection diode 2, the AF
A superimposed signal of signal 7 and DC reference voltage 6 is amplified by differential amplifier 3 and input to modulation amplifier 1 . In the modulation amplifier 1, since the amplification degree of the modulation amplifier 1 is determined by the output signal of the differential amplifier 3,
As a result, the RF signal 4 is amplitude modulated and output from the modulation amplifier 1.

On the other hand, the output signal of the modulation amplifier 1 is output to the outside as an amplitude modulation signal, is input to the differential amplifier 3 via the detection diode 2, and is negatively fed back to the modulation amplifier 1. Due to the negative feedback effect of the detection diode 2, a stable amplitude modulation signal is output.

Problems to be Solved by the Invention However, in the conventional example described above, when trying to reduce the output voltage of the modulation amplifier 1 by reducing the DC reference voltage, the voltage/current characteristics diagram of the detection diode 2 in Fig. 3 is used. corresponds to the non-linear part of △V, and its output does not cover positive and negative voltages as shown in Figure 4, and the desired negative feedback is no longer applied.
There was a problem that modulation distortion occurred.

SUMMARY OF THE INVENTION In order to solve the above problems, it is an object of the present invention to provide an excellent modulation amplification device that does not generate modulation distortion even when the output voltage of the modulation amplifier is small.

Means for Solving the Problems In order to solve the above problems, the present invention amplifies the RF signal input to the first input terminal in accordance with the voltage of the modulation signal input to the second input terminal. ,
A modulation amplifier to output, a detection diode to rectify the output signal of this modulation amplifier, the output signal of this detection diode is input to one input terminal, and a composite signal of the DC reference voltage and AF signal is input to the other input terminal. and a differential amplifier that outputs the voltage difference between these input signals, and a correction diode that has the same voltage and current characteristics as the detection diode and is connected to the other input terminal of the differential amplifier. It is structured as follows.

Effect The present invention has the above configuration, so that even if the output voltage of the modulation amplifier is small and the voltage applied to the detection diode is in the nonlinear part of the diode characteristics,
By attempting to compensate for the distortion of the detection diode with a correction diode having the same characteristics as the detection diode, the occurrence of modulation distortion is suppressed.

Embodiment FIG. 1 is a block diagram of a modulation amplification device according to an embodiment of the present invention. In FIG. 1, 1 is a modulation amplifier, which modulates the amplitude of the RF signal input from the RF signal input terminal 4 using the output signal of the differential amplifier 3, amplifies it at a constant amplification degree, and outputs the amplified signal. . A detection diode 2 detects the negative voltage portion of the output signal of the modulation amplifier 1. A differential amplifier 3 outputs a difference signal between a superimposed signal of the DC reference voltage 16 and the AF signal 18 and an output signal of the detection diode 2 to the modulation amplifier 1. Note that since the differential amplifier 3 is for low frequency, the envelope of the output signal of the detection diode 2 is detected.

17 is a variable resistor that adjusts the voltage value of the reference voltage (-15V), 18 is an AF signal input terminal, 19
is a DC cut capacitor, 20 to 23 are bias resistors, and 24 is a correction diode, which has the same voltage and current characteristics as the detection diode 2. 25 is a variable resistor, and 26 is a bias resistor connected to -15V.

Next, the operation of this embodiment will be explained.

First, a desired RF frequency is selected and the RF signal is input to the RF signal input terminal 4. On the other hand, by selecting the AF frequency and voltage and inputting the AF signal to the AF signal input terminal 18, the modulation frequency and degree of modulation can be selected. Further, a DC reference voltage for selecting the degree of amplification of the RF signal is input to the terminal 16 for DC reference voltage input.

Here, the AF signal 18 and the DC reference voltage 6 are superimposed and input to one input terminal of the differential amplifier 3. If there is no output signal from detection diode 2,
A superimposed signal of the AF signal 18 and the DC reference voltage 16 is amplified by the differential amplifier 3 and input to the modulation amplifier 1. In the modulation amplifier 1, since the amplification degree of the modulation amplifier 1 is determined by the output signal of the differential amplifier 3, the RF signal 4 is amplitude-modulated as a result.
It is output from the modulation amplifier 1.

On the other hand, the output signal of the modulation amplifier 1 is outputted to the outside as an amplitude modulation signal, and is also input to the differential amplifier 3 via the detection diode 2, and is negatively fed back to the modulation amplifier 1. This detection diode 2
A stable amplitude modulation signal is output due to the negative feedback effect of.

The explanation up to this point is almost the same as that of the conventional example.

Next, the operation of the correction diode 24 will be explained. When the output voltage of modulation amplifier 1 is large,
In other words, when the voltage value (-15V) of the reference voltage 16 is directly applied to the differential amplifier 3, the correction diode 24 is deeply reverse biased, so when the AC voltage of the AF signal 18 is applied, the correction diode 24 is in a reverse bias state. There is no change in

Next, by adjusting the variable resistor 17 to increase its resistance value and decrease the absolute value of the reference voltage applied to the differential amplifier 3, the output voltage of the modulation amplifier 1 will also decrease. When the voltage at point 27 approaches 0V, the correction diode 24 becomes forward biased due to the positive voltage of the AF signal 18, resulting in the region ΔV in FIG.

On the other hand, the voltage applied to the detection diode 2 also becomes smaller and falls into the region ΔV in FIG. Here, by adjusting the variable resistor 25, the operating point of the correction diode 24 can be made similar to the operating point of the detection diode 2, and the distortion of the detection diode 2 can be canceled.

Effects of the invention As is clear from the above embodiment, even when the output voltage of the modulation amplifier is small, the present invention can detect Since the structure cancels the distortion of the diode, it has the effect that modulation distortion no longer occurs.

[Brief explanation of drawings]

Fig. 1 is a block diagram of a modulation amplification device according to an embodiment of the present invention, Fig. 2 is a block diagram of a conventional modulation amplification device, Fig. 3 is a voltage/current characteristic diagram of a general detection diode, and Fig. 4 is an input/output characteristic diagram in the ΔV region of FIG. 3. 1...Modulation amplifier, 2...Detection diode, 3
... Differential amplifier, 4 ... RF signal input terminal, 5
...Amplitude modulation signal output terminal, 16...Reference voltage input terminal, 18...AF signal input terminal, 24...
...Correction diode.

Claims (1)

[Scope of utility model registration request] The RF signal input to the first input terminal is
A modulation amplifier that amplifies and outputs the modulation signal corresponding to the voltage input to its input terminal, a detection diode that rectifies the output signal of this modulation amplifier, and an output signal of this detection diode that is input to one input terminal. a differential amplifier, which inputs a composite signal of the DC reference voltage and the AF signal to the other input terminal, outputs a voltage difference between these input signals, and inputs it as a modulation signal to the second input terminal of the modulation amplifier; and a correction diode which has the same voltage and current characteristics as the detection diode and is connected to the other input terminal of the differential amplifier, and which adjusts the output of the modulation amplifier by changing the DC reference voltage. When the voltage is lower than a predetermined voltage and the operating point of the detection diode is made to be in the non-linear part of the voltage-current characteristic, the operating point of the correction diode is also made to be in the non-linear part of the voltage-current characteristic. A modulation amplification device characterized in that the same distortion as that given to the output of the detection diode is given to the composite signal.