KR20050049070A - Passive intermodulation distortion measurement apparatus and method in communication satellite payload - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to an apparatus and a method for measuring passive intermodulation distortion in a communication satellite payload.

2. The technical problem to be solved by the invention

The present invention provides a signal input coupler and an output signal detecting coupler between a communication repeater and an antenna in a transmitting / receiving satellite communication payload consisting of a communication repeater, an antenna, and a bus structure for RF signal application and passive intermodulation distortion signal detection. An object of the present invention is to provide an apparatus and method for measuring passive intermodulation distortion in a communication satellite payload to enable measurement of a passive intermodulation distortion signal in a general EMC measurement facility without additional equipment.

3. Summary of Solution to Invention

According to an aspect of the present invention, there is provided an apparatus for measuring a passive cross-modulation distortion signal of a communication satellite payload, comprising: input signal generating means for generating and synthesizing a signal corresponding to each channel of a satellite repeater; Input signal connecting means for inputting a signal synthesized from the input signal generating means into an input signal of the satellite repeater through an input coupler installed at an input of the satellite repeater; Distortion signal extraction means for amplifying the signal input from the input signal connection means through the satellite repeater and extracting the output signal from an output coupler installed at an output terminal of the satellite repeater; And distortion signal detection means for detecting a passive intermodulation distortion signal by analyzing a channel characteristic by receiving the signal extracted from the distortion signal extraction means.

4. Important uses of the invention

The present invention is used in the communication satellite payload.

Description

Passive intermodulation distortion measurement apparatus and method in communication satellite payload}

The present invention relates to a communication satellite payload for measuring a passive intermodulation distortion (PIMD) signal in a system using an antenna as a transmission / reception in a communication payload system including an antenna mounted on a communication satellite and a communication repeater. The present invention relates to a passive intermodulation distortion measuring apparatus and a method thereof, and more particularly, to a communication satellite payload enabling measurement of a PIMD in a general EMC measurement facility without using a dedicated facility required for measuring a passive intermodulation distortion signal in a satellite communication payload. The present invention relates to a device for measuring passive intermodulation distortion and a method thereof.

Passive intermodulation distortion in satellite payloads can occur in various passive components such as waveguides, polarizers, multiplexers, horn antennas, reflectors, etc. in antenna subsystems through which high-power multicarrier signals pass. In the case of a dual transmit / receive antenna, a distortion signal of a reception band, which may be generated due to passive mutual modulation distortion, is fed back to a receiver of a satellite communication payload, which may affect the radio frequency (RF) performance of the system.

In order to measure the passive intermodulation distortion signal in the satellite communication payload, it was possible to measure in the electromagnetic anechoic chamber for satellite test equipped with a passive intermodulation distortion signal detector composed of a signal generator, a transmission antenna, a reception antenna and a low noise amplifier. . However, such a measuring facility is difficult to find not only in Korea but also abroad, and even if the measurement is performed in a foreign country, there is a problem of paying a lot of time and expensive use of the measuring facility.

The present invention has been proposed to solve the above problems, and inserts a signal input combiner and an output signal combiner between a communication repeater and an antenna in a satellite communication payload consisting of a communication repeater, an antenna and a bus structure. The present invention provides a passive intermodulation distortion measuring apparatus and a method for measuring a passive intermodulation distortion signal in a general EMC measurement facility without an additional facility for applying an RF signal and detecting a passive intermodulation distortion signal. The purpose is.

In order to achieve the above object, the present invention provides a device for measuring a passive intermodulation distortion signal of a communication satellite payload, comprising: input signal generating means for generating and synthesizing a signal corresponding to each channel of a satellite repeater; Input signal connecting means for inputting the synthesized signal from the input signal generating means into an input signal of the satellite repeater through an input coupler installed at an input of the satellite repeater; Distortion signal extraction means for amplifying the signal input from the input signal connection means through the satellite repeater and extracting the output signal from an output coupler installed at an output terminal of the satellite repeater; And distortion signal detection means for detecting a passive intermodulation distortion signal by analyzing channel characteristics by receiving the signal extracted from the distortion signal extraction means.

In addition, the present invention is a method for measuring a passive intermodulation distortion signal of a communication satellite payload, the first step of generating a signal corresponding to each channel of the satellite repeater and synthesizing it; A second step of inputting the synthesized signal as an input signal of the satellite repeater through an input coupler installed at an input of the satellite repeater; A third step of amplifying the input signal through the satellite repeater and extracting the output signal through an output coupler installed at an output terminal of the satellite repeater; And a fourth step of detecting a passive intermodulation distortion signal by analyzing channel characteristics by receiving the extracted signal.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary view showing an overview of a passive intermodulation distortion signal measuring apparatus of a conventional communication satellite payload.

As shown in FIG. 1, when performing a measurement by a conventional method, an electromagnetic anechoic chamber 100 for PIM measurement requiring an antenna 100 interface for signal input to a satellite payload and passively intermodulated distortion signal detection is required. And an input signal bandpass filter 150, an output bandpass filter 170 for extracting only the output passive intermodulation distortion signal, a low noise amplifier 180 for amplifying the passive intermodulation distortion signal, a measurement receiver 190 including a spectrum analyzer, etc. Is required.

2 is an exemplary view showing an overview of a passive intermodulation distortion signal measuring equipment of the communication satellite payload according to the present invention.

As shown in FIG. 2, the input signal generators 230, 231, and 232, the signal synthesizer 240, and the measurement receiver are connected to the outside of the electromagnetic anechoic chamber by using an RF cable to measure using an existing passive intermodulation distortion signal measuring apparatus. Compared to the conventional EMC measurement facility, passive intermodulation distortion signals can be measured without additional equipment.

3 is a configuration diagram of an apparatus for measuring passive intermodulation distortion signal of a communication satellite payload according to the present invention.

As shown in FIG. 3, the apparatus for measuring passive intermodulation distortion signal of a communication satellite payload according to the present invention includes an input signal generator 370 for generating and synthesizing a signal corresponding to each channel of the satellite repeater 320. And an input signal injection unit 310 for inputting a signal synthesized from the input signal generator 370 as an input signal of the satellite repeater 320 through an input coupler 313 installed at an input terminal of the satellite repeater 320. And a PIM signal extracting unit 330 for amplifying the signal input from the input signal injector 310 through the satellite repeater 320 and extracting it through an output coupler 333 installed at the output of the satellite repeater 320. And a PIM signal measurement receiver 380 for detecting a passive intermodulation distortion signal by analyzing channel characteristics by receiving the signal extracted from the PIM signal extractor 330.

Here, the input signal injector 310 receives an input signal generated from the input signal generator 370 and inputs the input coupler 313 for injecting the synthesized signal into the satellite repeater 320 and a signal transmitted from an antenna. 311 or an input switch 312 for connecting to the satellite repeater 320, and an input termination resistor 311 connected when the antenna and the repeater are separated.

In addition, the PIM signal extractor 330 may include an output coupler 333 for transmitting a signal output from the satellite repeater 320 to the antenna and the PIM signal measuring receiver 380, and a signal input from the satellite repeater 320. It includes an output switch 332 for connecting to the output termination resistor 331 or an antenna, and an output termination resistor 331 connected when the antenna and the repeater are separated.

The operation of the apparatus for measuring passive intermodulation distortion signal of the communication satellite payload according to the present invention having the above structure will be described in detail as follows.

As illustrated in FIG. 3, an input signal corresponding to the center frequencies f1, f2, and f3 of the satellite repeater is generated using the input signal generators 1 371, 2 372, and 3 373, and the signal synthesizer ( In 374). The combined signal is input as an input signal of the satellite repeater 320 through an input coupler 313 of the input signal injection unit 310 installed at the input terminal of the satellite repeater 320. The input signal is amplified by the satellite repeater 320 and extracted through the output coupler 333 of the PIM signal extractor 330 installed at the output terminal. The extracted signal is input to a PIM signal measuring receiver 380 composed of a variable attenuator 381, a spectrum analyzer 382, a power meter 383, and the like through a RF cable to check whether a passive intermodulation distortion signal has been generated. .

On the other hand, the signal input to the satellite repeater 320 is amplified by a high power signal through a low noise amplifier, a frequency converter, a filter, a channel amplifier, a traveling wave amplifier, etc. in the satellite repeater, and the amplified signal is amplified by the noise component of the repeater itself. It contains harmonic components due to the nonlinear characteristics of the repeater. The passive intermodulation distortion signal is generated from a passive component through which a large power signal passes. In the present invention, the passive intermodulation distortion signal generated from the antenna system is fed back and measures the effect on the payload system. In order to eliminate the effects of noise and various undesired signals generated at 320), the characteristics of the repeater itself and the characteristics of the satellite payload system including the antenna system are measured and compared with each other to determine whether a passive intermodulation distortion signal is generated. Check it. Termination resistors 311 and 331 are connected to the input switch 312 of the input signal injector and the output switch 332 of the PIM signal extractor 330 in order to check the channel characteristics due to the noise signal and various unwanted wave signals generated by the repeater itself. It is controlled by the terrestrial command transceiver 360 so as to be positioned toward the C-axis, and the channel characteristics are measured by the PIM signal measuring receiver 380. The channel characteristic of the satellite payload including the antenna system is such that the input switch 312 of the input signal injection unit 310 is connected to the input coupler 312 and the output switch 332 is connected to the antenna system 340. Measure the characteristics. In this case, passive interference modulation signals generated by the antenna system 340 and the waveguide 350 connecting the antenna and the satellite repeater may be compared with the channel characteristics of the satellite repeater, and the magnitude and magnitude thereof may be checked. .

FIG. 4 is an exemplary explanatory diagram of a passive intermodulation distortion reference characteristic of a communication satellite payload according to the present invention and shows channel characteristics due to noise signals and various unwanted signals of the repeater itself.

FIG. 5 is an exemplary explanatory diagram of a passive intermodulation distortion characteristic in a communication satellite payload antenna system according to the present invention. The input / output switch is controlled so that the satellite repeater and the antenna system are connected, and whether the passive intermodulation distortion signal is generated. Channel characteristics are measured to confirm. When compared with the channel characteristics of the repeater of FIG. 4, it can be seen that a distortion signal is generated due to passive intermodulation around 12328 MHz.

The method of the present invention as described above may be implemented as a program and stored in a computer-readable recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.). Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the present invention can measure PIMD in a general EMC measurement facility without the use of a dedicated facility required for measuring passive signal modulation distortion signals in conventional satellite communication payloads and various measurement components such as a filter and a low noise amplifier. A new structure is implemented to measure the generation and size of the passive intermodulation distortion signal by comparing the channel characteristics of the satellite repeater and the channel characteristics of the satellite payload system including the antenna system using the input / output coupler and the switch. It can be effective.

In addition, the present invention by connecting a switch connected to the input and output coupler to the satellite repeater / antenna or terminating resistor through a ground command transceiver installed outside the electromagnetic anechoic chamber, it is possible to measure the passive intermodulation distortion signal without changing the measurement setup. There is an effect that can contribute to achieving precision, reliability and convenience.

1 is an exemplary view showing an overview of a passive intermodulation distortion signal measuring apparatus of a conventional communication satellite payload.

Figure 2 is an exemplary view showing an overview of the passive intermodulation distortion signal measuring equipment of the communication satellite payload according to the present invention.

Figure 3 is a configuration diagram of an apparatus for measuring passive intermodulation distortion signal of a communication satellite payload according to the present invention.

Figure 4 is an illustration of one embodiment of the passive cross-modulation distortion reference characteristics of the communication satellite payload according to the present invention.

5 is an exemplary explanatory diagram of passive intermodulation distortion characteristics in a communication satellite payload antenna system according to the present invention;

* Explanation of symbols for the main parts of the drawings

311: input termination resistor 312: input switch

313: input coupler 320: satellite repeater

331: output termination resistor 332: output switch

333: output coupler 340: antenna system (DUT)

350 input waveguide 360 ground command transceiver

371, 372, 373: input signal generator 374: signal synthesizer

381: variable attenuator 382: spectrum analyzer

383: power meter

Claims (6)

In the apparatus for measuring passive intermodulation distortion signal of a communication satellite payload, Input signal generating means for generating a signal corresponding to each channel of the satellite repeater and synthesizing it; Input signal connecting means for inputting the synthesized signal from the input signal generating means into an input signal of the satellite repeater through an input coupler installed at an input of the satellite repeater; Distortion signal extraction means for amplifying the signal input from the input signal connection means through the satellite repeater and extracting the output signal from an output coupler installed at an output terminal of the satellite repeater; And Distortion signal detection means for detecting a passive intermodulation distortion signal by analyzing the channel characteristics by receiving the signal extracted from the distortion signal extraction means Passive intermodulation distortion signal measuring apparatus of the communication satellite payload comprising a. The method of claim 1, The distortion signal detecting means, The passive intermodulation distortion signal generated by the antenna system is fed back to measure the effect on the payload system, and the characteristics of the repeater itself and the characteristics of the repeater itself are removed to remove the effects of noise and various unwanted signals generated by the satellite repeater. And measuring the characteristics of the satellite payload system including the antenna system and comparing them with each other to determine whether a passive intermodulation distortion signal is generated. The method according to claim 1 or 2, The channel characteristic analysis process, In order to confirm the channel characteristics due to the noise signal and various unwanted wave signals generated by the satellite repeater itself, the ground command transceiver is positioned so that the input switch of the input signal connection means and the output switch of the distortion signal extraction means are located toward the termination resistor. And controlling the channel characteristics by means of the distortion signal detection means. The method of claim 3, wherein The channel characteristic analysis process, In order to check the channel characteristics of the satellite payload including the antenna system, the input switch of the input signal connecting means is connected to an input coupler, and the output switch is connected to the antenna system to measure the channel characteristics. A passive intermodulation distortion signal generated in a waveguide connecting a system and an antenna and the satellite repeater is compared with a channel characteristic of the satellite repeater previously measured, and the occurrence and size of the communication satellite payload are determined. Passive cross modulation signal measurement device. In the method of measuring the passive intermodulation distortion signal of the communication satellite payload, Generating a signal corresponding to each channel of the satellite repeater and synthesizing it; A second step of inputting the synthesized signal as an input signal of the satellite repeater through an input coupler installed at an input of the satellite repeater; A third step of amplifying the input signal through the satellite repeater and extracting the output signal through an output coupler installed at an output terminal of the satellite repeater; And A fourth step of detecting a passive intermodulation distortion signal by analyzing channel characteristics by receiving the extracted signal; Passive intermodulation distortion signal measuring method of a communication satellite payload comprising a. The method of claim 5, The fourth step, The passive intermodulation distortion signal generated by the antenna system is fed back to measure the effect on the payload system, and the characteristics of the repeater itself and the characteristics of the repeater itself are removed to remove the effects of noise and various unwanted signals generated by the satellite repeater. A method for measuring a passive intermodulation distortion signal of a communication satellite payload, comprising measuring the characteristics of a satellite payload system including an antenna system and comparing each other to determine whether a passive intermodulation distortion signal is generated.