JPH0219647B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to an AM signal generating device that is used in devices that generate AM signals with small AM level errors and small RF output level errors over a wide RF output level variable range.

Prior Art FIG. 1 shows a conventional AM signal generator. The configuration of this conventional example will be explained below with reference to FIG. 4. In FIG. 4, 1 is a modulation signal output section, and this modulation signal output section 1 outputs a sine wave AF signal of a predetermined reference voltage value. 4 is RF
This RF level setting DC output section 4 outputs a DC voltage having a predetermined reference voltage value. Reference numerals 2 and 5 indicate electronic attenuators, and the amount of attenuation of the electronic attenuators 2 and 5 is controlled by analog outputs of D/A converters 3 and 6, respectively. Reference numeral 7 denotes an RF output detection circuit, which detects the RF output and outputs a signal proportional to the amplitude of the RF output. 8 is a comparator,
This comparator 8 compares the outputs of the detection circuit 7 and the electronic attenuator 5 and outputs a difference signal. 10 is RF
This RF amplitude control circuit 10 is an amplitude control circuit.
is the CW output signal of the CW signal output section 11 and the comparator 8
The amplitude is controlled by the output signal of the output amplification amplifier 9.
Outputs AM signal.

Next, the operation of the above conventional example will be explained. Fourth
In the figure, when the RF output level and AM level are set, D/A converters 3 and 6 are
The electronic attenuators 2 and 5 are controlled by analog converting the AM level setting signal and the RF output level setting signal. The electronic attenuator 5 attenuates the sum signal of the modulation signal attenuated by the electronic attenuator 2 and the RF level setting DC, and outputs an RF amplitude setting signal. Comparator 8 outputs the above RF amplitude setting signal and RF output detection circuit 7
The difference signal is output to the amplifier 9. The amplifier 9 amplifies the difference signal with a very large amplification factor and outputs it to the RF amplitude control circuit 10 as an RF amplitude control signal. Here, by amplifying the amplifier 9 in a direction in which the input difference signal becomes smaller, the detection output of the detection circuit 7 and the above-mentioned RF amplitude setting signal almost match. By this,
The RF output amplitude of the RF amplitude control circuit 10 can be controlled by the RF amplitude setting signal. Note that the resistor R ₂ of the detection circuit 7 is used to correct the detection error caused by the nonlinear characteristics of the diode D, and this allows for a fairly wide range at a specific RF output level.
AM level error can be reduced within the AM level range.

Problems to be Solved by the Invention However, in the above conventional example, the specific RF
AM level correction is only performed at the output level, so if you widen the RF output level variable range, the RF
The disadvantage was that the AM level error and RF output level error became large due to the nonlinear characteristics of the diode in the output detection circuit.

The present invention eliminates the drawbacks of the conventional example described above, and aims to generate an AM signal with small AM level error and RF output level error over a wide RF output level variable range.

Means for Solving the Problems In order to solve the above problems, the AM signal generation device of the present invention corrects the AM level over the entire RF output level variable range using a DC voltage, and then
This device has a configuration in which RF output level correction is performed by RF output level setting signal correction.

Effects With the above configuration, the present invention corrects the RF output level setting signal by only one bit, and changes the AM signal with small AM level error and RF output level error to RF signal.
This will occur throughout the output level variable range.

Embodiment The configuration of an embodiment of the present invention will be described below with reference to the drawings.

In FIG. 1, blocks having the same functions as those of the conventional example are given the same numbers. 12 is an N-fold circuit that outputs a digital signal obtained by multiplying the RF output level setting digital signal by N and rounding off the decimal point. 1
3 is a DC output section for AM level correction.

Next, the operation of the above embodiment will be explained. 1st
In the figure, when the RF output level and AM level are set, D/A converters 3 and 6 are
The electronic attenuators 2 and 5 are controlled by analog converting the AM level setting signal and the RF output level setting signal. The electronic attenuator 5 attenuates the sum signal of the modulation signal attenuated by the electronic attenuator 2 and the RF level setting DC, and outputs an RF amplitude setting signal. Comparator 8
The above RF amplitude setting signal and the detection output of the RF output detection circuit 7 are compared, and the difference signal is outputted to the amplifier 9. The amplifier 9 amplifies the difference signal with a very large amplification factor and outputs it to the RF amplitude control circuit 10 as an RF amplitude control signal. Here, by performing the amplification of the amplifier 9 in the direction in which the input difference signal becomes smaller, the detection output of the detection circuit 7 and the above-mentioned RF amplitude setting signal almost match. By this,
The RF output amplitude of the RF amplitude control circuit 10 can be controlled by the RF amplitude setting signal. Note that the resistor R ₂ of the detection circuit 7 is used to correct the detection error caused by the nonlinear characteristics of the diode D, and this allows for a fairly wide range at a specific RF output level.
AM level error can be reduced within the AM level range. After adjusting the output voltage of the AM level correction DC output section 13 so that the AM level error is minimized over the entire RF output level variable range,
Adjust the magnification of the N-fold circuit for RF output level setting signal so that the RF output level error is minimized.

In this example, the AM level correction over the entire RF output level variable range is performed using DC voltage, and after achieving sufficient correction, the RF output level correction is performed using the RF output level setting signal correction. As long as the minimum value of the output level setting signal is not made too small, there is an advantage that the RF output level setting signal can be corrected with high accuracy by correcting the RF output level setting signal by one bit. Correction data is shown in FIGS. 2 and 3.

Conversely, by correcting the RF output level using DC voltage,
It is theoretically possible to perform AM level correction using AM level setting signal correction, but in this case, the AM
It is necessary to change the magnification of the N-fold circuit for level setting signal correction depending on the RF output level, and when the AM level is small, there is a drawback that accurate correction cannot be made by correcting the AM level setting signal by one bit.

Effects of the Invention As is clear from the above embodiments, the present invention provides RF
After performing AM level correction over the entire output level variable range using DC voltage, RF output level correction is performed.
This is done by correcting the RF output level setting signal, so
By simply correcting the RF output level setting signal by one bit, it is possible to generate an AM signal with a small AM level error and a small RF output level error over the entire RF output level variable range.

[Brief explanation of drawings]

FIG. 1 is a block diagram of an AM signal generator according to an embodiment of the present invention, FIGS. 2 and 3 are graphs showing the effects of the same embodiment, and FIG. 4 is a block diagram of a conventional AM signal generator. be. DESCRIPTION OF SYMBOLS 1... Signal output part for modulation, 2, 5... Electronic attenuator, 3, 6... D/A converter, 4... DC output part for RF level setting, 7... RF output detection circuit, 8... Comparator, 9... Difference signal amplifier, 10... RF amplitude control circuit, 11... CW signal output section, 12... Digital signal N times circuit, 13... DC output section for AM level correction.

Claims (1)

[Claims] 1 A first electronic attenuator that attenuates the modulation signal to a desired level using an AM level setting signal;
a second electronic attenuator that attenuates the combined signal of the first electronic attenuator signal and the RF setting DC output signal by the RF output level setting signal multiplied by N; AM signal generation device comprising a correction means for correcting the RF amplitude by comparing the detected RF output signal with a composite signal of the signal of the type attenuator and the DC output signal for AM level correction.