RU195451U1 - SHF SIGNAL SHAPER - Google Patents

Abstract

The invention relates to the field of computer technology. The technical result consists in the ability to generate signals of the first and second heterodyne signals at four outputs for each local oscillator. The microwave signal generator comprises: a control and synchronization signal generator, a frequency converter, a first frequency driver, a second frequency driver, a third frequency driver, a first power amplifier, and a second power amplifier. 1 ill.

Description

The utility model relates to the field of radio engineering and can be used in centimeter-wave radars as a driver of continuous heterodyne signals, pulsed probing signals, quasi-continuous signals of a transmitting system with the level of required radiated power.

The well-known "multi-channel signal conditioner." [RU No. 2390908, Н03С 5/00, 2008], comprising a first power divider, a second power divider, a third power divider, a first frequency converter, a second frequency converter, a third frequency converter, a fourth frequency converter , frequency multiplier, reference generator, frequency grid synthesizer, first amplitude modulator, second amplitude modulator, third amplitude modulator generator, frequency trimmer, frequency divider, often you, phase modulator, modulator, commutator, synchronizer, control device.

The closest, in technical essence, to the proposed utility model is a “Signal conditioner with a low level of fluctuations” [RU No. 154752 U1, IPC Н03С 5/00, 2015] containing a frequency synchronizer, a first generator, a control device, a synthesizer, a first shaper frequencies, the second frequency driver, the first frequency converter, the second frequency converter, the synchronization and control signal generator, the second generator, the fifth output of the control device is connected to the second input of the synthesizer, the output of the second converter The frequency converter is connected to the fourth input of the first frequency converter, the first output of the control and synchronization signal generator is connected to the fourth input of the second frequency driver, the first output of the second frequency driver is connected to the third input of the first frequency driver. In addition, a first amplifier, a first voltage stabilizer, a first frequency multiplier, a signal splitter, a second frequency multiplier, a filter, a second voltage stabilizer, a second amplifier, a third frequency driver, a third amplifier are introduced, moreover, the first output of the frequency synchronizer is connected to the first input of the control device, the second the output of the frequency synchronizer is the first output of the signal conditioner with a low level of fluctuations, the output of the first generator is connected to the first input of the signal splitter, the first the output of the first amplifier is connected to the first input of the second frequency driver, the second output of the first amplifier is the fifth output of the low-fluctuation signal conditioner, the third output of the first amplifier is the fourth output of the low-level signal conditioner, the fourth output of the first amplifier is the third output of the low-level signal conditioner fluctuation level, the fifth output of the first amplifier is the second output of the signal generator with a low level of fluctuations, the first output of the device the control is connected to the input of the first generator, the second output of the control device is connected to the second input of the second frequency multiplier, the third output of the control device is connected to the first input of the first frequency multiplier, the fourth output of the control device is connected to the second input of the signal splitter, the sixth output of the control device is connected to the second input filter, the seventh output of the control device is connected to the second input of the first frequency converter, the eighth output of the control device is connected to the fifth input of t of the third frequency driver, the ninth output of the control device is connected to the second input of the second frequency converter, the tenth output of the control device is connected to the second input of the first frequency driver, the eleventh output of the control device is connected to the second input of the frequency synchronizer, the first output of the first voltage regulator is connected to the third input of the control device , the second output of the first voltage stabilizer is connected to the third input of the second frequency driver, the third output of the first stabilizer the voltage regulator is connected to the input of the second voltage stabilizer, the fourth output of the first voltage stabilizer is connected to the third input of the third amplifier, the fifth output of the first voltage stabilizer is connected to the first input of the control and synchronization signal generator, the sixth output of the first voltage stabilizer is connected to the fourth input of the first amplifier, the input of the first stabilizer voltage is the first input of the signal generator with a low level of fluctuations, the output of the first frequency multiplier is connected to the first input of the first frequency converter, the first output of the signal splitter is connected to the second input of the first frequency multiplier, the second output of the signal splitter is the eighth output of the signal shaper with a low level of fluctuations, the third output of the signal splitter is the ninth output of the signal shaper with a low level of fluctuations, the fourth output of the signal splitter connected to the first input of the second frequency multiplier, the fifth output of the signal splitter is connected to the first input of the first frequency driver, the output of the signal splitter is connected to the first input of the synthesizer, the seventh output of the signal splitter is connected to the third input of the first amplifier, the eighth output of the signal splitter is connected to the second input of the first amplifier, the ninth output of the signal splitter is connected to the first input of the first amplifier, the tenth output of the signal splitter is connected to the first the input of the frequency synchronizer, the output of the synthesizer is connected to the first input of the filter, the second output of the second frequency driver is the thirteenth output of the signal driver in with a low level of fluctuations, the second input of the second frequency driver is the fourth input of the signal generator with a low level of fluctuations, the first output of the second frequency converter is the sixth output of the signal generator with a low level of fluctuations, the second output of the first frequency converter is connected to the seventh input of the third frequency driver, the output the second frequency multiplier is connected to the first input of the second frequency converter, the first filter output is connected to the third input of the second converter In fact, the second filter output is connected to the third input of the first frequency converter, the first output of the first frequency driver is connected to the second input of the third frequency driver, the second output of the first frequency driver is the eleventh output of the signal generator with a low level of fluctuations, the third output of the first frequency driver is the twelfth output of the driver signals with a low level of fluctuations, the output of the second generator is connected to the first input of the second amplifier, the output of the second stabilizer voltage is connected to the second input of the second amplifier, the first output of the second amplifier is the seventh output of the signal generator with a low level of fluctuations, the second output of the second amplifier is connected to the first input of the third frequency driver, the third output of the second amplifier is connected to the input of the second generator, the first output of the third frequency driver is the tenth input of the signal generator with a low level of fluctuations, the second output of the first frequency converter is connected to the first input of the third amplifier, the first output One of the third amplifier is the fourteenth output of the low-fluctuation signal conditioner, the second output of the third amplifier is connected to the fourth input of the control and synchronization signal generator, the second output of the control and synchronization signal generator is connected to the sixth input of the third frequency driver, the third output of the control and synchronization signal with the fourth input of the third frequency driver, the fourth output of the control and synchronization signal generator is connected the third input of the third frequency driver, the fifth output of the control and synchronization signal generator is connected to the second input of the third amplifier, the sixth output of the control and synchronization signal generator is connected to the second input of the control device, the second input of the control and synchronization signal generator is the second input of the signal generator with a low level of fluctuations , the third input of the control and synchronization signal conditioner is the third input of the low flux signal conditioner ctuations.

The disadvantages of the known devices is the inability to generate signals in the frequency range of the first and second heterodyne signals and in the frequency range of the probing channel and the backlight channel with the radar output power level.

The technical result of the proposed microwave signal generator consists in the possibility of generating signals of the first and second heterodyne signals at four outputs for each local oscillator, generating pulsed signals in the frequency range of the probing channel and quasi-continuous signals in the frequency range of the backlight channel with output power levels in the channels required for radar radiation.

The essence of the proposed technical solution is that the microwave signal generator comprises a control and synchronization signal generator, a frequency converter, a first frequency driver, a second frequency driver, a third frequency driver, a first power amplifier, a second power amplifier, and the first input of a control signal generator is the first input of the microwave signal generator, the second input of the control signal generator is the second input of the microwave signal generator, the first output of the forms the control and synchronization signal generator is connected to the first input of the first frequency driver, the second output the control and synchronization signal generator is connected to the second input of the first frequency driver, the fourth output the control and synchronization signal generator is connected to the first input of the third frequency driver, the first output of the frequency converter is the first output microwave signal conditioner, the second output of the second frequency driver is the eleventh output of the microwave signal generator, output d of the first power amplifier is the tenth output of the microwave signals, a first output of the third frequency generator connected to a third input of the second frequency generator, the third output of the third driver is the twelfth frequency output of the microwave signals, a second power amplifier output is the output of the fourteenth microwave signals. In addition, a switch and a modulator are introduced, moreover, the third input of the control and synchronization signal generator is the third input of the microwave signal generator, the fourth input of the control and synchronization signal generator is the fourth input of the microwave signal generator, the fifth input of the control and synchronization signal is the fifth input of the microwave signal generator the third output is a control and synchronization signal shaper connected to the third modulator input, the fifth output is a signal shaper control and synchronization is connected to the second input of the second frequency driver, the sixth output of the control and synchronization signal generator is connected to the first input of the second frequency driver, the seventh output of the control and synchronization signal is connected to the third input of the switch, the eighth output of the control and synchronization signal is connected to the first input modulator, the ninth output of the control and synchronization signal generator is connected to the second input of the third frequency driver, the tenth the output of the control and synchronization signal generator is connected to the second input of the frequency converter, the eleventh output of the control and synchronization signal generator is connected to the third input of the third frequency generator, the twelfth output of the control and synchronization signal generator is connected to the second input of the modulator, the thirteenth output of the control and synchronization signal generator is connected to the first input of the frequency converter, the second output of the frequency converter is the second output of the SV driver H signals, the third output of the frequency converter is the third output of the microwave signal generator, the fourth output of the frequency converter is the fourth output of the microwave signal generator, the fifth output of the frequency converter is the fifth output of the microwave signal generator, the sixth output of the frequency converter is the sixth output of the microwave signal generator, the seventh output of the frequency converter is the seventh output of the microwave signal generator, the eighth output of the frequency converter is the eighth output of the microwave signal generator Nalov, the ninth output of the frequency converter is the ninth output of the microwave signal shaper, the output of the first frequency shaper is connected to the first input of the switch, the output of the switch is connected to the first input of the first power amplifier, the first output of the second frequency shaper is connected to the second input of the switch, the third output of the second frequency shaper is connected with the third input of the frequency converter, the first output of the modulator is connected to the second input of the first power amplifier, the second output of the modulator is connected to the first input the house of the second power amplifier, the second output of the third frequency driver is connected to the fourth input of the modulator, the fourth output of the third frequency driver is the thirteenth output of the microwave signal generator, the fifth output of the third frequency driver is connected to the second input of the second power amplifier, the sixth output of the third frequency driver is connected to the seventh input frequency converter, the seventh output of the third frequency driver is connected to the sixth input of the frequency converter, the eighth output of the third For frequencies, it is connected to the fifth input of the frequency converter, the ninth output of the third frequency driver is connected to the sixth input of the control signal generator, the tenth output of the third frequency driver is connected to the third input of the first frequency driver, the eleventh output of the third frequency driver is connected to the fourth input of the frequency converter, the output of the second amplifier power is the fourteenth output of the microwave signal shaper.

In FIG. 1 shows a functional diagram of a microwave signal generator.

The microwave signal generator comprises a control and synchronization signal generator 1, a frequency converter 2, a first frequency driver 3, a switch 4, a second frequency driver 5, a first power amplifier 6, a modulator 7, a third frequency driver 8, a second power amplifier 9.

The first input of the shaper control signals 1 is the first input of the shaper of microwave signals.

The second input of the control and synchronization signal generator 1 is the second input Y2 of the microwave signal generator.

The third input of the shaper of control and synchronization signals 1 is the third input Y3 of the shaper of microwave signals.

The fourth input of the shaper of control and synchronization signals 1 is the fourth input Y4 of the shaper of microwave signals.

The fifth input of the control and synchronization signal generator 1 is the fifth input Y5 of the microwave signal generator.

The first output driver control signals and synchronization 1 is connected to the first input of the first driver 3.

The second output driver of control and synchronization signals 1 is connected to the second input of the first driver 3.

The third output driver of control and synchronization signals 1 is connected to the third input of the modulator 7.

The fourth output driver of control and synchronization signals 1 is connected to the first input of the third frequency driver 8.

The fifth output driver of control and synchronization signals 1 is connected to the second input of the second frequency driver 5.

The sixth output driver of control and synchronization signals 1 is connected to the first input of the second frequency driver 5.

The seventh output driver control signals and synchronization 1 is connected to the third input of the switch 4.

The eighth output driver of control and synchronization signals 1 is connected to the first input of the modulator 7.

The ninth output driver of control and synchronization signals 1 is connected to the second input of the third frequency driver 8.

The tenth output of the driver signal control and synchronization 1 is connected to the second input of the frequency Converter 2.

The eleventh output driver control signals and synchronization 1 is connected to the third input of the third frequency driver 8.

The twelfth output driver of control and synchronization signals 1 is connected to the second input of the modulator 7.

The thirteenth output of the driver signal control and synchronization 1 is connected to the first input of the frequency Converter 2.

The first output of the frequency converter 2 is the first output U1 of the microwave signal generator.

The second output of the frequency converter 2 is the second output U2 of the microwave signal generator.

The third output of the frequency converter 2 is the third output U3 of the microwave driver.

The fourth output of the frequency converter 2 fourth output U4 of the transmitting radar system.

The fifth output of the frequency converter 2 is the fifth output U5 of the microwave driver.

The sixth output of the frequency converter 2 is the sixth output U6 of the radar transmitting system.

The seventh output of the frequency converter 2 is the seventh output U7 of the microwave shaper.

The eighth output of the frequency converter 2 is the eighth output U8 of the microwave shaper.

The ninth output of the frequency converter 2 is the ninth output U9 of the radar transmitting system.

The output of the first frequency driver 3 is connected to the first input of the switch 4.

The output of the switch 4 is connected to the first input of the first power amplifier 6.

The first output of the second frequency driver 5 is connected to the second input of the switch 4.

The second output of the second frequency driver 5 is the eleventh output U11 of the microwave driver.

The third output of the second frequency driver 5 is connected to the third input of the frequency converter 2.

The output of the first power amplifier 6 is the tenth output U10 of the microwave shaper.

The first output of the modulator 7 is connected to the second input of the first power amplifier 6.

The second output of the modulator 7 is connected to the first input of the second power amplifier 9.

The first output of the third frequency driver 8 is connected to the third input of the second frequency driver 5.

The second output of the third frequency driver 8 is connected to the fourth input of the modulator 7.

The third output of the third frequency driver 8 is the twelfth output U12 of the microwave driver.

The fourth output of the third frequency driver 8 is the thirteenth output U13 of the microwave driver.

The fifth output of the third frequency driver 8 is connected to the second input of the second power amplifier 9.

The sixth output of the third frequency driver 8 is connected to the seventh input of the frequency converter 2.

The seventh output of the third frequency driver 8 is connected to the sixth input of the frequency converter 2.

The eighth output of the third frequency driver 8 is connected to the fifth input of the frequency converter 2.

The ninth output of the third frequency driver 8 is connected to the sixth input driver of the control and synchronization signals 1.

The tenth output of the third frequency driver 8 is connected to the third input of the first frequency driver 3.

The eleventh output of the third frequency driver 8 is connected to the fourth input of the frequency converter 2.

The output of the second power amplifier 9 is the fourteenth output U14 of the microwave shaper.

The microwave signal generator operates as follows.

The inputs of the shaper control signals and synchronization 1 receives signals. To the first input, which is the first input Y1 of the microwave signal generator, codes for generating the level of control signals KS-0 in channel “O” and KS-P in channel “P”, one-time commands for controlling the operation of components of the microwave signal generator and reception of health signals. To the second input, which is the second input Y2 of the microwave signal generator, a radio-frequency chirp (linear-frequency-manipulated) signal of the second intermediate frequency fpr.2 = 28 MHz when the channel "O" is in chirp mode. To the third input, which is the third input Y3 of the microwave signal shaper, the video pulse signal of the LFM LFD is used to generate the microwave signal foi in channel “O” in LFM mode. To the fourth input, which is the fourth input Y4 of the microwave signal shaper, a video pulse signal from KPI-IZP for generating a microwave signal in channel “P” in the KNI mode (quasi-continuous pulsed). To the fifth input, which is the fifth input Y5 of the microwave signal shaper, the video pulse signal IKKP is used to generate the microwave signal fпj in channel “P”. At the sixth input, which is the sixth input Y6 of the microwave signal generator, the reference frequency signal fop = 56 MHz - to generate and synchronize all codes, commands and signals.

The driver of control and synchronization signals 1 of the signals received at its inputs generates at its outputs, from the first to the thirteenth, the following signals: - from the first output, control signals to the first input of the first frequency driver 3; - from the second output, the video pulse signal to the second input of the first frequency driver 3; - from the third output, control signals to the third input of the modulator 7; - from the fourth output, the video pulse signal to the first input of the third frequency former 8; - from the fifth output, the video pulse signal to the second input of the second frequency driver 5; - from the sixth output, control signals to the first input of the second frequency driver 5; - from the seventh output, control signals to the third input of the switch 4; - from the eighth output, the video pulse signal to the first input of the modulator 7; - from the ninth output, control signals to the second input of the third frequency shaper 8; - from the tenth output, a one-time command to the second input of the frequency converter 2; - from the eleventh output, the radio-frequency chirp signal of the second intermediate frequency to the third input of the third frequency former 8; - from the twelfth output, the video pulse signal to the second input of the modulator 7; from the thirteenth output, control signals to the first input of the frequency converter 2.

Frequency converter 2, upon receipt of control signals to its first input from the thirteenth output of the driver of control and synchronization signals 1, to the second input of a one-time command, to the third input of a continuous microwave signal (grid of switched carrier frequencies of the decimeter range) from the third output of the second frequency former 5, to the fourth input of the microwave signal (grid switchable carrier frequencies of the decimeter range) from the eleventh output of the third frequency former 8, to the fifth input of the continuous RF signal of the reference frequency with the eighth output of the third frequency driver 8, to the sixth input of a continuous decimeter frequency signal from the seventh output of the third frequency driver 8, to the seventh input of a continuous microwave signal from the sixth output of the third frequency driver 8, generates the following signals at its outputs from the first to the ninth. At the first, second, third and fourth outputs, which are, respectively, the first U1, second U2, third U3 and fourth U4 outputs of the microwave signal generator, generates a continuous microwave signal at each of the four outputs. At the fifth, sixth, seventh, eighth and ninth outputs, which are, respectively, the fifth U5, sixth U6, seventh U7, eighth U8 and ninth U9 outputs of the microwave signal generator, generates a continuous microwave signal at each of the five outputs.

The first frequency driver 3, when the control signals arrive at its first input from the first output of the control and synchronization signal generator 1, when the video signal arrives at its second input a pulse signal from the second output of the control and synchronization signal generator 1, when the reference signal arrives at its third input frequency from the tenth output of the third frequency former 8, generates at its output a microwave pulse signal supplied to the first input of the switch 4.

The second frequency driver 5, when the control signals arrive at its first input from the sixth output of the control and synchronization signal generator 1, when the video signal is received at its second input from the fifth output of the control and synchronization signal generator 1, when the reference signal arrives at its third input frequency from the first output of the third frequency former 8, generates a microwave pulse signal arriving at the second input of the switch 4 at its first output, generates a control radio signal at the second output pulse microwave signal arriving at the eleventh U11 output of the microwave signal former.

Switch 4, when a radio-frequency microwave signal arrives at its first input from the output of the first frequency driver 3, when a second radio-frequency microwave signal arrives at its second input from the first output of the second frequency driver 3, when control signals are received from the seventh output of the control signal generator to its third input and synchronization 1, generates at its output a microwave pulse signals that are fed to the first input of the first power amplifier 6.

The third frequency driver 8, when a pulse video signal arrives at its first input from the fourth output of the control and synchronization signal generator 1, when its second signal receives control signals from the ninth output of the control and synchronization signal generator 1, when a radio-frequency chirp arrives at its third input the signal of the second intermediate frequency from the eleventh output of the shaper of control and synchronization signals 1, generates at its outputs from the first to the eleventh the following signals: - at the first ohm, fourth, fifth, eighth, ninth, tenth outputs, the reference frequency signal, respectively, arriving at the third input of the second frequency driver 5, at the thirteenth U13 output of the microwave signal generator, at the fifth input of the frequency converter 2, at the sixth input of the control signal generator and synchronization 1, to the third input of the first frequency driver 3; - at the second output, a continuous pulse signal (meander) supplied to the fourth input of the modulator 7; - at the third output, a control microwave pulse microwave signal received at the twelfth U12 output of the microwave signal former; - on the fifth output, a microwave pulse signal supplied to the second input of the second power amplifier 9.

Modulator 7, when a pulse video signal arrives at its first input from the eighth output of the control and synchronization signal generator 1, when a second pulse video signal arrives at its second input from the twelfth control and synchronization signal generator 1, when control signals from the third signal are received at its third input the output of the driver of the control and synchronization signals 1, when a continuous pulse signal (meander) arrives at its fourth input from the second output of the third frequency driver 8, generates and the first output is a high voltage, modulating pulse signal supplied to the second input of the first power amplifier 6, and at the second output forms a high voltage, modulating pulse signal supplied to the first input of the second power amplifier 9.

The first power amplifier 6, upon receipt of a radio pulse microwave signal or microwave pulse from the output of the switch 4 at the first input, upon receipt of a modulating pulse signal from the first output of modulator 7 to the second input, generates at its output the tenth U10 output of the microwave signal generator, microwave pulse microwave signal of the required power.

The second power amplifier 9, upon receipt of the first pulse of the microwave signal from the fifth output of the third frequency driver 8, when the second input of the modulating pulse signal from the second output of the modulator 7, generates at its output, which is the fourteenth U14 output of the microwave signal generator, the microwave pulse signal foi required power. The proposed microwave signal generator circuitry allows you to generate signals in the frequency range of the first and second local oscillators, in our case, at four outputs for each local oscillator, in the frequency range of the probing channel and the backlight channel with the output power level required for radar radiation.

Claims (1)

A microwave signal generator comprising a control and synchronization signal generator, a frequency converter, a first frequency driver, a second frequency driver, a third frequency driver, a first power amplifier, a second power amplifier, wherein the first input of the control and synchronization signal generator is the first input of the microwave signal generator, the second input of the driver of control signals and synchronization is the second input of the driver of microwave signals, the first output of the driver of control signals I and synchronization are connected to the first input of the first frequency driver, the second output of the control and synchronization signal generator is connected to the second input of the first frequency driver, the fourth output of the control and synchronization signal generator is connected to the first input of the third frequency driver, the first output of the frequency converter is the first output of the microwave driver signals, the second output of the second frequency driver is the eleventh output of the microwave signal generator, the output of the first power amplifier is the tenth output of the microwave signal conditioner, the first output of the third frequency driver is connected to the third input of the second frequency driver, the third output of the third frequency driver is the twelfth output of the microwave signal generator, the output of the second power amplifier is the fourteenth output of the microwave signal generator, characterized in that a switch is additionally introduced and a modulator, wherein the third input of the driver of control and synchronization signals is the third input of the driver of microwave signals, the fourth input of the control signal generator is the fourth input of the microwave signal generator, the fifth input of the control and synchronization signal generator is the fifth input of the microwave signal generator, the third output of the control and synchronization signal generator is connected to the third input of the modulator, the fifth output of the control and synchronization signal generator is connected to the second input the second frequency driver, the sixth output of the control and synchronization signal generator is connected to the first input of the second form frequency converter, the seventh output of the control and synchronization signal generator is connected to the third input of the switch, the eighth output of the control and synchronization signal generator is connected to the first input of the modulator, the ninth output of the control and synchronization signal generator is connected to the second input of the third frequency driver, the tenth output of the control signal generator and synchronization is connected to the second input of the frequency converter, the eleventh output of the control signal generator and synchronization is connected n with the third input of the third frequency driver, the twelfth output of the control and synchronization signal generator is connected to the second input of the modulator, the thirteenth output of the control and synchronization signal generator is connected to the first input of the frequency converter, the second output of the frequency converter is the second output of the microwave signal generator, the third output of the frequency converter is the third output of the microwave signal former, the fourth output of the frequency converter is the fourth output of the microwave former signals, the fifth output of the frequency converter is the fifth output of the microwave signal generator, the sixth output of the frequency converter is the sixth output of the microwave signal generator, the seventh output of the frequency converter is the seventh output of the microwave signal generator, the eighth output of the frequency converter is the eighth output of the microwave signal generator, the ninth output of the frequency converter is the ninth output of the microwave driver, the output of the first frequency driver is connected to the first input of the switch, the output the switch is connected to the first input of the first power amplifier, the first output of the second frequency driver is connected to the second input of the switch, the third output of the second frequency driver is connected to the third input of the frequency converter, the first output of the modulator is connected to the second input of the first power amplifier, the second output of the modulator is connected to the first input the second power amplifier, the second output of the third frequency driver is connected to the fourth input of the modulator, the fourth output of the third frequency driver is trin the twentieth output of the microwave signal generator, the fifth output of the third frequency driver is connected to the second input of the second power amplifier, the sixth output of the third frequency driver is connected to the seventh input of the frequency converter, the seventh output of the third frequency driver is connected to the sixth input of the frequency converter, the eighth output of the third frequency driver is connected to the fifth input of the frequency converter, the ninth output of the third frequency driver is connected to the sixth input of the driver of control signals and synchronization and tenth output of the third frequency generator connected to a third input of the first frequency generator, eleventh output of the third frequency generator connected to a fourth input of the frequency converter, the output of the second power amplifier is the fourteenth output of the microwave signals.

Images