JP4754704B2 - Automatic sample hold device and pulse modulation high frequency signal generator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an automatic sample-and-hold device that performs sample-and-hold of a pulse wave and a pulse-modulated high-frequency signal generator.
[0002]
[Prior art]
  Conventional automatic sample-and-hold devices that perform sample-and-hold of pulse waves have a constant pulse width, and therefore sample and hold the amplitude after a certain period of time from the rise within the pulse width of the pulse wave. By doing so, the amplitude of the pulse was detected.
[0003]
[Problems to be solved by the invention]
  However, in such a conventional automatic sample and hold device, when the pulse width of the input pulse wave changes, it is necessary to separately input a sample and hold signal that falls slightly earlier than the input pulse wave. At this time, it may be unclear how much the pulse width will be due to another factor. In such a case, the falling edge of the input pulse wave must be detected promptly and switched to hold within the delay time of the acquisition time of the sample hold circuit. At this time, if you use a short acquisition time, there is a risk of sampling the amplitude in the middle of the fall, if you use a long acquisition time, you will not be able to respond to a rapid change in narrow pulse width, In either case, there is a problem that an accurate value cannot be obtained.
[0004]
  In addition, when stabilizing the output of a pulse-modulated high-frequency signal, the high-frequency level cannot be stabilized correctly unless the pulsed detection output is accurately detected. In particular, when the pulse width changes, a method of sampling up to a position smaller than the minimum width is used, but this is not necessarily a correct value.
[0005]
  An object of the present invention is to provide an automatic sample and hold device that can detect a correct amplitude of a pulse wave by obtaining a sample and hold switching signal that can follow a change in pulse width.
[0006]
  Another object of the present invention is to provide a pulse-modulated high-frequency signal generator that can be controlled so as to keep a high-frequency output level constant by following a change in pulse width.
[0007]
[Means for Solving the Problems]
  The present inventionPulse waveform input signalThe automatic sample and hold device that samples and holds the signal and outputs the hold value is improved.
[0008]
  The automatic sample and hold device according to claim 1,Pulse waveformClock pulses only during periods when the input signal is presentRepeated occurrenceThe clock command generator and the sample command and hold command are alternately switched based on the clock pulse.A first and a second comprising a signalSwitching signalEach switching signal hold command and the next switching signal hold commandSequentially so thatOccurrenceA switching signal generating circuit to perform,The first and second switching signals are sequentially input, the input signal is sampled for a period when the input switching signal sampling command is generated, and the input switching signal is sampled for a period when the hold command is generated First and second for holding the level of the input signalA sample-and-hold circuit;The level of the signal held by the first sample hold circuit and the second sample hold circuit is selected and output, and the level of the signal held by each of the first sample hold circuit and the second sample hold circuit is selected. Even after the input signal falls, the level held just before the fall of the input signalAnd an output circuit that continues to output.
[0009]
  In such an automatic sample and hold device,First and secondSample hold circuitThe pulse waveform input signal isWhile typingInput signalRepeated sample hold operationBecause it returnsThe output circuit is the clock pulse just before the falling edge of the input signal.OccurrenceThe output of the sample and hold circuit that is sometimes held may continue to be output even after the input signal falls.it can. ThatTherefore, even if the pulse width of the input signal changes, the output of the sample hold circuit that is held immediately before the fall of the pulse width can be output, and the correct amplitude of the pulse wave can be detected.
[0010]
  Moreover, the automatic sample and hold device according to claim 2,Pulse waveformClock pulses only during periods when the input signal is presentRecursThe clock pulse generator and the sample command and hold command based on the clock pulseAre made up of first to Nth signals consisting of alternating signalsSwitching signalEach switching signal is generated sequentially so that the period for generating the sampling command is longer than the period for generating the holding command, and the holding command for each switching signal is aligned with the holding command for the next switching signal to be generated.A switching signal generation circuit;The first to Nth switching signals are sequentially input, the input signal is sampled for the period when the input switching signal sample command is generated, and the input signal is sampled for the period during which the hold command for the switching signal is generated 1st to Nth to hold the level of the input signalA sample-and-hold circuit;The level of the signal held by each of the first to Nth sample and hold circuits is selected and output, and the signal level held by each of the N sample and hold circuits is immediately before the input signal falls. Even after the input signal falls below the held levelAnd an output circuit that continues to output.
[0011]
  In such an automatic sample-and-hold device, N sample-and-hold circuits operate to sample and hold each pulse wave of the input signal while the pulse width of the input signal is input.repeatTherefore, the output circuit can continue to output the output of the sample hold circuit held at the time of the clock pulse just before the input signal falls even after the input signal falls.wear. ThatTherefore, even if the pulse width of the input signal changes, the output of the sample hold circuit that is held immediately before the fall of the pulse width can be output, and the correct amplitude of the pulse wave can be detected. In particular, since the time of the sample command is longer than the time of the hold command, the switching signal can hold a sufficiently raised voltage value using the long sample command time.
[0012]
  Next, the present invention relates to a high-frequency oscillator that outputs a high-frequency signal, a pulse modulator that forms a pulse-modulated high-frequency signal by pulse-modulating the high-frequency signal according to a pulse input, and a power amplifier that amplifies and outputs the pulse-modulated high-frequency signal And a part of the amplified pulse modulated high frequency signalWaveform signalDetector and pulse formingWaveform signalA sample-and-hold device that samples and holds the signal and outputs a sample-hold signal, and a comparison amplifier that provides the power amplifier with a gain control signal that makes the output level of the pulse-modulated high-frequency signal constant compared to the sample-hold signal and the reference value And a pulse-modulated high-frequency signal generating device.
[0013]
  The pulse modulation high frequency signal generator according to claim 3ThenAutomatic sample and hold deviceA clock pulse generator that repeatedly generates a clock pulse only during a period in which a pulse waveform signal exists, and a first and second switching signal comprising a signal in which a sample command and a hold command are alternately switched based on the clock pulse, A switching signal generation circuit that sequentially generates a hold command for each switching signal and a next switching signal hold command, and a first switching signal and a second switching signal that are sequentially input. First and second sample and hold circuits that sample a pulse waveform signal during a period in which the sample command is generated and hold the level of the sampled signal during the period in which the hold command for the input switching signal is generatedWhen,The level of the signal held by the first sample hold circuit and the second sample hold circuit is selected and output, and the level of the signal held by each of the first sample hold circuit and the second sample hold circuit is selected. Among them, an output circuit is provided that continues to output the level held immediately before the fall of the pulse waveform signal even after the input signal falls.It is characterized by that.
[0014]
  In such a pulse modulation high-frequency signal generator, the two sample-and-hold circuits of the automatic sample-and-hold device repeat the operation of alternately sampling and holding the pulse wave of the input signal while the pulse width of the input signal is input, Since the output circuit continues to output the output of the sample-and-hold circuit held at the time of the clock pulse just before the input signal falls, even after the input signal falls, the rise of the pulse width of the input signal changes. The output of the sample and hold circuit that is held immediately before the fall can be output, the correct amplitude of the pulse wave can be detected even if the pulse width changes, and the high frequency output level is controlled to be constant Can do.
[0015]
  The pulse modulation high frequency signal generator according to claim 4ThenAutomatic sample and hold deviceHowever, the first to Nth switching signals are composed of a clock pulse generator that repeatedly generates a clock pulse only during a period in which a pulse waveform signal exists, and a signal in which a sample command and a hold command are alternately switched based on the clock pulse. The period in which the sampling command is generated is longer than the period in which each switching signal generates the hold command, and the switching command hold command and the next switching signal hold command are sequentially arranged. Switching signal generation circuit to generateWhen,A period in which the first to Nth switching signals are sequentially input, a sample of the input switching signal is sampled, a pulse waveform signal is sampled, and a holding command for the input switching signal is generated The first to Nth sample and hold circuits that hold the level of the sampled signal and the levels of the signals held by the first to Nth sample and hold circuits are selected and output, and N sample and hold circuits are provided. An output circuit that continues to output the level held immediately before the input signal falls, even after the input signal falls, among the levels of the signals heldIt is characterized by that.
[0016]
  In such a pulse-modulated high-frequency signal generator, the N sample-and-hold circuits of the automatic sample-and-hold device repeatedly repeat the operation of sampling and holding the pulse wave of the input signal while the pulse width of the input signal is being input. Since the output of the sample hold circuit held by the circuit at the clock pulse just before the falling edge of the input signal continues to be output after the falling edge of the input signal, the falling edge of the pulse width even if the pulse width of the input signal changes The output of the sample hold circuit that is held immediately before can be output, the correct amplitude of the pulse wave can be detected even if the pulse width changes, and the high frequency output level can be controlled to be constant . In particular, since the switching signal has a longer sample command time than the hold command time, a sufficiently raised voltage value can be held using the long sample command time.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
  FIG. 1 shows a first example of an embodiment of an automatic sample and hold device according to the present invention.
[0018]
  This automatic sample-and-hold device generates a pulse-like output during the period when the input terminal 1 to which an input signal is input and the pulse wave of the input signal input to the input terminal 1 exceeds the reference voltage of the reference power supply 2. The pulse width detection circuit 3 comprising a comparator for detecting the pulse width of the input signal, the clock pulse generator 4 for outputting the clock pulse, the output of the pulse width detection circuit 3 and the output of the clock pulse generator 4 are output together. The AND circuit 5 that outputs a pulse for a period of time, and the output of the AND circuit 5 is input to the clock terminal. In other words, the clock pulse is output to the clock terminal while the pulse width of the input signal is detected from the pulse width detection circuit 3. When the signal is input to, the sample command and the hold command are alternately switched with the same time width based on the clock pulse.First and secondA switching signal generation circuit 6 comprising a flip-flop circuit that sequentially outputs a switching signal so that the next holding command is aligned with the holding command of the previous switching signal in the next switching signal, and the switching signal from the switching signal generation circuit 6 Are sequentially applied, the input signal is sampled and held alternately and output.First and secondSample hold circuit 7Aas well as7B and the sample-and-hold circuit 7A or 7B that selects and outputs the output sampled and held by these two sample-and-hold circuits 7A and 7B and samples and holds the output just before the pulse width of the input signal falls. The output circuit 8 includes a semiconductor switch that continues to output the hold output even after the pulse width of the input signal falls.
[0019]
  In this automatic sample and hold device, when a pulse wave of an input signal is input to the input terminal 1, this pulse wave is compared with the reference voltage of the reference power source 2 by a pulse width detection circuit 3 comprising a comparator and exceeds the reference voltage. As shown in FIG. 2A, a pulsed output P is generated. On the other hand, the clock pulse generator 4 generates a clock pulse C as shown in FIG. This clock pulse C is input to the AND circuit 5, and during the period when the pulse-like output P is input, the AND circuit 5 outputs a pulse at the same interval as the clock pulse C, and the switching signal generating circuit 6 comprising a flip-flop circuit is provided. Input to the clock terminal. The switching signal generation circuit 6 switches between the sample command and the hold command at the same time interval with reference to the clock pulse.First and secondThe switching signal is sequentially generated from the two output terminals so that the next hold command is aligned with the hold command of the previous switching signal in the next switching signal. theseFirst and secondSwitching signal isFirst and secondSample hold circuit 7Aas well asThe sample and hold circuits 7A and 7B sample the input signal when the switching signal is applied, hold it, and output it. The output circuit 8 composed of a semiconductor switch selects and outputs the output sampled and held by the two sample and hold circuits 7A and 7B, and samples and holds the output just before the falling edge of the pulse width of the input signal. The sample hold output of 7A or 7B is continuously output even after the pulse width of the input signal falls. The next-stage circuit controlled by the output of the output circuit 8 is controlled by a hold output that has a long time width and is held immediately before the pulse width of the input signal falls.
[0020]
  Therefore, according to this automatic sample and hold device, even if the pulse width of the input signal changes, the correct amplitude of the pulse wave can be detected by performing sample and hold immediately before the fall of the pulse width.
[0021]
  FIG. 3 shows a second example of the embodiment of the automatic sample and hold device according to the present invention.
[0022]
  In this automatic sample and hold device, the switching signal generating circuit 6 is composed of a counter, and the sample and hold circuit is1st to Nth (N)It consists of sample and hold circuits 7A to 7N. The switching signal generation circuit 6 outputs a sample command S and a hold command H as shown in FIG. 4D with reference to the clock pulse C while the pulse width of the input signal is detected from the pulse width detection circuit 3. The sample command is alternately switched so that the time of the sample command is longer than the time of the hold command.1st to NthThe switching signal is sequentially output so that the next hold command H is aligned with the hold command H of the previous switching signal in the next switching signal. these1st to NthSwitching signal is1st to NthThe sample and hold circuits 7A to 7N are sequentially applied. The other structure is the same as that of the automatic sample and hold apparatus of the first example shown in FIG.
[0023]
  The operation of the automatic sample and hold device of the second example will be described with reference to FIGS. FIG. 4 shows the case where there are four sample and hold circuits. FIG. 4A shows a time scale. One time scale has a time width of about 1 μs, for example.
[0024]
  FIG. 4B shows a pulse waveform of the input signal.
[0025]
  FIG. 4C shows an output pulse (clock pulse) that has passed through the AND circuit 5.
[0026]
  FIG. 4D shows switching signals # 1 to # 4 output by the switching signal generation circuit 6 based on the output pulse after the gate of the AND circuit 5, and these switching signals are the sample command S and the hold command. H is alternately switched so that the time of the sample command S is longer than the time of the hold command H, and the next hold command H is aligned with the hold command H of the previous switching signal in the next switching signal. Are output sequentially.
[0027]
  FIG. 4E shows the sample and hold outputs of the sample and hold circuits 7A to 7D # 1 to # 4. These sample hold outputs of # 1 to # 4 are held at a constant time when a hold command H for the corresponding switching signals of # 1 to # 4 shown in FIG. However, in this example, the sample hold circuit 7C # 3 holds the sample hold output sampled and held immediately before the fall of the pulse width of the input signal shown in FIG. 4B after the fall of the pulse width of the input signal. Will continue to output.
[0028]
  FIG. 4F shows the output of the output circuit 8. The output of the output circuit 8 is selected and output sequentially from the outputs held by the sample hold circuits 7A to 7D of # 1 to # 4, and sampled and held immediately before the fall of the pulse width of the input signal. The sample hold output is output continuously at the end.
[0029]
  For this reason, even if the pulse width of the input signal changes, the correct amplitude of the pulse wave can be detected by sampling and holding immediately before the fall of the pulse width. In particular, since the time of the sample command S is longer than the time of the hold command H, the switching signal can hold and output a sufficiently raised voltage value using the long sample command time St.
[0030]
  The difference from the automatic sample-and-hold device shown in FIG. 1 is that even if sample-and-hold circuits 7A to 7N having a long acquisition time are used, the high-speed clock pulse generator 4 is used, and the amplitude at a time point closer to the fall is obtained. It can be detected.
[0031]
  FIG. 5 shows an example of a pulse modulation high frequency signal generator incorporating the automatic sample and hold device described above.
[0032]
  The pulse modulation high frequency signal generator includes a high frequency oscillator 9 that outputs a high frequency signal, and a pulse that modulates the high frequency signal output from the high frequency oscillator 9 according to a pulse input from an input terminal 10 to form a pulse modulated high frequency signal. A modulator 11, a power amplifier 12 that amplifies and outputs this pulse-modulated high-frequency signal, and a part of the amplified pulse-modulated high-frequency signal is fed back and detected at the directional coupler 13 to form a pulse wave , A sample and hold device 15 that samples and holds a pulse wave output from the detector 14 and outputs a sample and hold signal, a sample and hold signal output from the automatic sample and hold device 15 and a reference value Compared to the gain control signal, the power level is increased so that the output level of the pulse-modulated high-frequency signal is constant It has a configuration that includes a comparison amplifier 16 to be supplied to the vessel 12. In such a pulse modulation high frequency signal generator, the automatic sample and hold device 15 shown in FIG. 1 or the automatic sample and hold device shown in FIG.
[0033]
  In the pulse-modulated high-frequency signal generator using the automatic sample-and-hold device 15 shown in FIG. 1, the two sample-and-hold circuits 7A and 7B are sampled by a switching signal that is sequentially applied while the pulse width of the input signal is input. Each hold operation is repeated, and the output hold of the sample hold circuit that has sampled and held just before the falling edge of the pulse width of the input signal is continuously output as the final output by the output circuit 8, so the pulse width of the input signal changes Even so, the sample and hold can be detected immediately before the fall of the pulse width, and the correct amplitude of the pulse wave can be detected, and the high frequency output level can be kept constant by following and holding the change in the pulse width. can do.
[0034]
  In the pulse modulation high-frequency signal generator using the automatic sample and hold device 15 shown in FIG. 3, the N sample and hold circuits 7A to 7N are sampled by the switching signal sequentially applied while the pulse width of the input signal is input. Since the output circuit 8 continuously outputs the sample-and-hold output of the sample-and-hold circuit that has sampled and held immediately before the falling of the pulse width of the input signal as the final output, the hold operation is repeated. The sample and hold can be detected just before the fall of the pulse width to detect the correct amplitude of the pulse wave, and it can be controlled to keep the high frequency output level constant by following the change in the pulse width. . In particular, since the switching signal has a longer sample command time than the hold command time, a sufficiently raised voltage value can be held using the long sample command time.
[0035]
  In this pulse-modulated high-frequency signal generator, the output of the automatic sample and hold device 15 can be used as an output power monitoring output.
[0036]
  In the above example, the output circuit 8 sequentially outputs the output at the time of holding of each sample and hold circuit, and finally the sample and hold output of the sample and hold circuit that is sampled and held immediately before the fall of the pulse width of the input signal is used as the final output. Although it was structured to output continuously, each output at the time of hold of each sample hold circuit is not a valid sample hold output, so it is cut and sampled and held just before the falling edge of the input signal pulse width. Alternatively, only the sample and hold output of the sample and hold circuit can be output.
[0037]
  1 and 3, the pulse width detection circuit 3, the clock pulse generator 4, and the AND circuit 5 are integrated to form a clock pulse generator 4A that outputs a clock pulse only during a period in which an input signal exists. You can also
[0038]
【The invention's effect】
  Claim 1According to the described invention, while the input signal having the pulse waveform is input, the two sample and hold circuits alternately repeat the operation of sampling and holding the pulse wave of the input signal, and the output circuit has two sample and hold circuits. Select and output the level of the signal held by the circuit, and input signalClock pulse just before fallingOccurrenceSometimesHold operation was performedThe output of the sample and hold circuit,Continue to output after the input signal fallsSo that the input signalThe pulse width ofEven if you doHold just before the fall of the pulse widthPerformed the actionOutput of sample hold circuitLet meThe correct amplitude of the pulse wave can be detected.
[0039]
  Further, in claim 2According to the described invention, while the input signal of the pulse waveform is input,N sample holdThe circuit repeats the operation of sampling and holding the input signal, and the output circuit selects and outputs the level of the signal held by each of the N sample and hold circuits.Clock pulse just before the falling edge of the input signalOccurrenceSometimes holdPerformed the actionThe output of the sample hold circuit continues to be output after the input signal falls.I did soThe pulse width of the input signal changesEven if you doHold just before the fall of the pulse widthPerformed the actionOutput of sample hold circuitLet meThe correct amplitude of the pulse wave can be detected. In particular,In the present invention,Switching signalofSince the sample command time is longer than the hold command time, a sufficiently raised voltage value can be held using the long sample command time.
[0040]
  Claim 3According to the described invention, while the pulse waveform signal is input from the detector to the automatic sample and hold device, the two sample and hold circuits of the automatic sample and hold device alternatelyInput signalThe operation of sampling and holding the pulse wave is repeated, and the output circuit selects and outputs the level of the signal held by the two sample and hold circuits.Clock pulse just before the falling edge of the input signalOccurrenceSometimes holdThe server that performed the operationThe output of the sample hold circuit continues to be output even after the input signal falls.I didSo the pulse width of the input signal isEven if it changes,Hold just before the fall of the pulse widthPerformed the actionThe output of the sample and hold circuit can be output.it can. Therefore, it is input from the detector to the automatic sample and hold device.The pulse width of the signal isEven if it changesThe correct amplitude of the pulse waveDetect,Pulse modulationHigh frequency signalofKeep output level constantControl can be performed.
[0041]
  Claim 4According to the described invention, while the signal of the pulse waveform is input from the detector to the automatic sample and hold device,N sample and hold circuits of automatic sample and hold deviceThe operation of sampling and holding the pulse wave of the input signal is repeated, and the output circuit selects and outputs the level of the signal held by each of the N sample and hold circuits.Clock pulse just before the falling edge of the input signalOccurrenceSometimes holdPerformed the actionThe output of the sample hold circuit continues to be output after the input signal falls.I didSo the pulse width of the input signal isEven if it changes,Hold just before the fall of the pulse widthPerformed the actionThe output of the sample hold circuit can be output. Therefore,Input from the detector to the automatic sample and hold deviceThe pulse width of the signal isEven if it changesThe correct amplitude of the pulse waveDetect,Pulse modulationhigh frequencySignalControl that keeps output level constantTo dobe able to. In particularIn the present invention,Switching signalofSince the sample command time is longer than the hold command time, a sufficiently raised voltage value can be held using the long sample command time.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first example of an embodiment of an automatic sample and hold device according to the present invention.
FIGS. 2A and 2B are waveform diagrams showing the relationship between a pulse wave output and a clock pulse in the first example.
FIG. 3 is a block diagram showing a second example of the embodiment of the automatic sample and hold device according to the present invention.
4A to 4F are waveform diagrams showing the operation of the second example. FIG.
FIG. 5 is a block diagram showing an example of an embodiment of a pulse-modulated high-frequency signal generator according to the present invention.
[Explanation of symbols]
  1 Input terminal
  2 Reference power supply
  3 Pulse width detection circuit
  4 Clock pulse generator
  4A Clock pulse generator
  5 AND circuit
  6 Switching signal generator
  7A ~ 7N Sample hold circuit
  8 Output circuit
  9 High frequency oscillator
  10 Input terminal
  11 Pulse modulator
  12 Power amplifier
  13 Directional coupler
  14 Detector
  15 Automatic sample hold device
  16 Comparison amplifier

Claims (4)

In the automatic sample and hold device that samples and holds the input signal of the pulse waveform and outputs the hold value,
A clock pulse generator (4A) that repeatedly generates a clock pulse only during a period in which the input signal of the pulse waveform exists;
The first and second switching signals, which are signals that alternately switch the sample command and the hold command with reference to the clock pulse, are arranged so that the hold command for each switching signal and the hold command for the next generated switching signal are aligned. A switching signal generation circuit (6) that sequentially generates
A period in which the first and second switching signals are sequentially input and a sample command for the input switching signal is generated; a period in which the input signal is sampled and a hold command for the input switching signal is generated First and second sample and hold circuits (7A and 7B) for holding the level of the sampled input signal ;
The level of the signal held by the first sample hold circuit (7A) and the second sample hold circuit (7B) is selected and output, and the first sample hold circuit (7A) and the second sample hold circuit are output. An output circuit (8) that continues to output the level held immediately before the fall of the input signal among the levels of the signals held by the circuit (7B), even after the input signal falls ;
And an automatic sample and hold device. In the automatic sample and hold device that samples and holds the input signal of the pulse waveform and outputs the hold value,
A clock pulse generator (4A) that repeatedly generates a clock pulse only during a period in which the input signal of the pulse waveform exists;
The first to Nth switching signals, which are signals that alternately switch between the sample command and the hold command with reference to the clock pulse, are generated in the period in which the sample command is generated rather than the period in which each switching signal generates the hold command. And a switching signal generation circuit (6) that sequentially generates a hold command for each switching signal and a hold command for the next switching signal to be generated,
A period in which the first to Nth switching signals are sequentially input and a sample command for the input switching signal is generated. A period in which the input signal is sampled and a hold command for the input switching signal is generated. First to Nth sample and hold circuits (7A to 7N) for holding the level of the sampled input signal ;
The level of the signal held by each of the first to Nth sample and hold circuits is selected and output, and the falling edge of the input signal is selected from the levels of the signals held by the N sample and hold circuits. An output circuit (8) that continues to output the level held immediately before the input signal falls ;
An automatic sample and hold device comprising: A high-frequency oscillator that outputs a high-frequency signal; a pulse modulator that forms a pulse-modulated high-frequency signal by pulse-modulating the high-frequency signal according to a pulse input; a power amplifier that amplifies and outputs the pulse-modulated high-frequency signal; a detector which forms a signal of a pulse waveform by detecting a portion of the pulse modulation high-frequency signal, an automatic sample-and-hold device for outputting a sample hold signal to sample and hold a signal of the pulse waveform, the sample-and-hold signal and the reference In a pulse modulation high frequency signal generator comprising a comparison amplifier that provides a gain control signal to the power amplifier such that the output level of the pulse modulation high frequency signal is constant compared to a value,
The automatic sample and hold device is
A clock pulse generator (4A) that repeatedly generates a clock pulse only during a period in which the signal of the pulse waveform exists;
The first and second switching signals, which are signals that alternately switch the sample command and the hold command with reference to the clock pulse, are arranged so that the hold command for each switching signal and the hold command for the next generated switching signal are aligned. A switching signal generation circuit (6) that sequentially generates
The first and second switching signals are sequentially input, the pulse waveform signal is sampled during a period when the input switching signal sample command is generated, and the input switching signal hold command is generated. First and second sample and hold circuits (7A and 7B) for holding the level of the sampled signal for a period of time ;
The level of the signal held by the first sample hold circuit (7A) and the second sample hold circuit (7B) is selected and output, and the first sample hold circuit (7A) and the second sample hold circuit are output. An output circuit (8) that continues to output the level held immediately before the fall of the pulse waveform signal among the levels of the signals held by the circuit (7B) even after the input signal falls. ,
Pulse modulated high-frequency signal generating apparatus characterized in that it comprises a. A high-frequency oscillator that outputs a high-frequency signal; a pulse modulator that forms a pulse-modulated high-frequency signal by pulse-modulating the high-frequency signal according to a pulse input; a power amplifier that amplifies and outputs the pulse-modulated high-frequency signal; a detector which forms a signal of a pulse waveform by detecting a portion of the pulse modulation high-frequency signal, an automatic sample-and-hold device for outputting a sample hold signal to sample and hold a signal of the pulse waveform, the sample-and-hold signal and the reference In a pulse modulation high frequency signal generator comprising a comparison amplifier that provides a gain control signal to the power amplifier such that the output level of the pulse modulation high frequency signal is constant compared to a value,
The automatic sample and hold device is
A clock pulse generator (4A) that repeatedly generates a clock pulse only during a period in which the signal of the pulse waveform exists;
The first to Nth switching signals, which are signals that alternately switch between the sample command and the hold command with reference to the clock pulse, are generated in the period in which the sample command is generated rather than the period in which each switching signal generates the hold command. And a switching signal generation circuit (6) that sequentially generates a hold command for each switching signal and a hold command for the next switching signal to be generated ,
The first to Nth switching signals are sequentially input, the pulse waveform signal is sampled during a period in which the input switching signal sample command is generated, and the input switching signal hold command is generated. First to Nth sample and hold circuits (7A to 7N) for holding the level of the sampled signal for a certain period;
The level of the signal held by each of the first to Nth sample and hold circuits is selected and output, and the falling edge of the input signal is selected from the levels of the signals held by the N sample and hold circuits. An output circuit (8) that continues to output the level held immediately before the input signal falls;
Pulse modulated high-frequency signal generating apparatus characterized in that it comprises a.

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