KR101310649B1 - Satellite RF transmitting/receiving signal distribution unit - Google Patents

Abstract

The present invention relates to a satellite RF transmission and reception signal distribution device, and more particularly, the satellite RF transmission and reception signal distribution device includes a switch unit of the RF transmission and reception signal distribution unit, so that a low and high speed remote reputation applied through transmission between the ground station and the satellite. Alternatively, the present invention relates to a satellite RF transmission / reception signal distribution device that enables a low-speed and high-speed RF transmission / reception data transmission service to be switched to a low-speed data RF transmission / reception configuration or a high-speed data RF transmission / reception configuration through a switch switching of the switch unit.

Description

Satellite RF transmitting / receiving signal distribution unit

The present invention relates to a satellite RF transmission and reception signal distribution apparatus, and more particularly, to a satellite RF transmission and reception signal distribution apparatus having a RF transmission and reception signal distribution unit including a switch unit to support a low speed and high speed data transmission service.

From satellite launch, the remote station transmits a remote command signal through the ground station to the satellite transponder receiver to control the satellite for normal track operation and check the satellite status, and the telemetry signal collected from the satellite is transmitted through the satellite transponder transmitter. A low speed RF transmission / reception distribution device is configured between the satellite transponder and the ground station antenna for transmission to the antenna.

In addition, satellites that have reached normal orbit after launching perform a variety of missions (weather, ocean, global and space environment observations), and for this purpose, payloads are simultaneously mounted on the satellite platform to perform multiple missions. have. In this case, the data collected from multiple payloads is greatly increased and high-speed telemetry data transmission is required, and a high-speed RF transmission and reception distribution device is configured as many payload control commands require high-speed remote command data transmission for simultaneous operation of payloads. have.

On the other hand, Korean Unexamined Patent Publication No. 1995-0022219 ("Connecting Device of Low Speed Data Terminal Terminal Station", Prior Art 1) implements a separate connecting device outdoors to reduce performance due to signal loss in transmitting and receiving low-speed RF data. The blocking structure is disclosed.

In addition, Figure 1 (prior art 2) is a diagram of a conventional low-speed data transmission RF transmission and reception signal distribution apparatus 100, the prior art 2 is changed to various postures while reaching the normal orbit after the satellite is launched accordingly In order to ensure a communication connection between the satellite and the ground station, a structure for handling omni antennas 10 and 20 that detects a 360 degree signal in any direction is disclosed. However, the prior arts 1 to 2 are limited to only low-speed RF data transmission and reception, so that a separate high-speed RF transmission / reception distribution apparatus is required for high-speed RF data transmission and reception.

Korean Laid-Open Patent No. 0022219 (published date 1995.07.28)

An object of the present invention for solving the above problems is a satellite RF transmission and reception signal distribution unit including a RF transmission and reception signal distribution unit consisting of a low-speed RF distribution device, a high-speed RF distribution device and a switch unit, for low-speed data transmission and reception and high-speed data transmission and reception It is to provide a satellite RF transmission and reception signal distribution device that eliminates the hassle and inconvenience of handling separate RF distribution devices, and enables low and high speed data transmission and reception signal distribution through a single RF distribution device by handling a switch.

Satellite RF transmission and reception signal distribution apparatus according to the present invention is connected to the antenna unit 200, the antenna unit 200, the communication between the satellite and the ground station, the low-speed data transmission and reception for normal orbit operation from the satellite launch from normal orbit RF transceiving unit 300 for supporting high-speed data transmission and reception, a transponder unit connected to the RF transmission and reception signal distribution unit 300 to transmit a signal applied from the RF transmission and reception signal distribution unit 300 to the satellite or ground station There is a feature that comprises 400.

Preferably, the antenna unit 200 includes an omnidirectional first antenna 201 and a second antenna 202 for transmitting and receiving low speed data, and a directional third antenna 203 for transmitting and receiving high speed data. There is a characteristic.

Preferably, the RF transmission and reception signal distribution unit 300 is connected to the first antenna 201 and the second antenna 202, the low-speed RF distribution device 310, the low-speed telemetry and remote command data is transmitted and received, It is connected to the third antenna 203, and connected to the high-speed RF distribution device 320, the low-speed RF distribution device 310 and the high-speed RF distribution device 320 for high-speed observation payload operation and payload data transmission and reception, It includes a switch unit 330 to switch the high-speed data transmission and reception mode.

Preferably, the transponder unit 400 includes a first transponder 410 and a second transponder 420 connected to the RF transmission / reception signal distribution unit 300 to include one receiver and a transmitter. There is a feature that is configured.

More preferably, the low speed RF distribution device 310 is connected to the antenna unit 200 and the transponder unit 400, the low-speed transmission and reception applied through the antenna unit 200 or the transponder unit 400 A first die connected to the 3dB combiner 311 and the 3dB combiner 311 to give a direction to the signal to the circuit to prevent the mutual interference between the low-speed transmission and reception signals applied through the 3dB combiner 311 to deliver to the circuit Features include a flexure 312 and a second diplexer 313.

More preferably, the high-speed RF distribution device 320 is connected to the antenna unit 200 and the transponder unit 400, the high-speed transmission and reception applied through the antenna unit 200 or the transponder unit 400 To prevent the interference between the signals to pass to the circuit The third diplexer 321 and the third diplexer 321 are coupled and the signals transmitted through the first transmitter 412 and the second transmitter 422 of the transponder unit 400 are combined. The first receiver 411 and the second receiver of the transponder unit 400 are connected to the combiner 322 and the third diplexer 321, and the signals received through the third diplexer 321. And a dispenser 323 distributed to 421.

More preferably, the switch unit 330 allows the low speed RF distribution device 310 and the high speed RF distribution device 320 to be connected to the transponder unit 400, and the first switch 331 and the third switch. The first diplexer 312 and the first transponder 410 are connected by a switch 333, and the second diplexer 313 by a second switch 332 and a fourth switch 334. ) And the second transponder 420 are connected to the low-speed data communication, the distributor 323, the first receiver 411 and the second receiver by the first switch 331 and the second switch 332. 421 is connected, and the first transmitter 412, the second transmitter 422, and the combiner 322 are connected by the third switch 333 and the fourth switch 334 to perform high-speed data communication. There is a characteristic.

Satellite RF transmission and reception signal distribution device of the present invention by the above configuration is composed of a low-speed RF data transmission and reception distribution device, a high-speed data transmission and reception distribution device and a switch unit, the low-speed RF data transmission and reception from the satellite launch to reach the normal orbit by handling the switch After the satellite reaches the normal orbit, it provides a high-speed RF data transmission / reception service.

Through the switch handling alone, it is possible to flexibly provide the low speed and high speed RF transmission / reception data transmission service required by the satellite transponder.

1 is a view showing a satellite RF transmission and reception signal distribution apparatus supporting a conventional low-speed data transmission.
2 is a diagram illustrating a satellite RF transmission and reception signal distribution apparatus supporting low speed and high speed data transmission according to the present invention.

Hereinafter, a satellite RF transmission / reception apparatus of the present invention will be described in detail with reference to the accompanying drawings. The drawings introduced below are provided by way of example so that the spirit of the invention to those skilled in the art can fully convey. Therefore, the present invention is not limited to the following drawings, but may be embodied in other forms. Also, throughout the specification, like reference numerals designate like elements.

Hereinafter, the technical and scientific terms used herein will be understood by those skilled in the art without departing from the scope of the present invention. Descriptions of known functions and configurations that may be unnecessarily blurred are omitted.

1 is a satellite RF transmission and reception signal distribution apparatus supporting a conventional low-speed data transmission.

The conventional low-speed RF transmission and reception signal distribution device 100 provides a low-speed RF transmission and reception data service from the launch of the satellite to the arrival of the normal orbit, and the omni antenna to ensure a communication link between the satellite and the ground station due to the satellite changing in various postures It is mounted on the satellite's + Z axis antenna 10 and the satellite's -Z axis antenna 20 to transmit and receive low speed telemetry and remote commands.

2 is a satellite RF transmission and reception signal distribution apparatus supporting low and high speed data transmission according to the present invention.

Referring to Figure 2 will be described in detail with respect to the satellite RF transmission and reception signal distribution apparatus of the present invention.

The satellite RF transmission and reception signal distribution device 1000 according to an embodiment of the present invention includes an antenna unit 200, an RF transmission and reception signal distribution unit 300, and a transponder unit 400.

The antenna unit 200 supports communication between the satellite and the ground station, the satellite is changed in various postures from launch to reach the orbit, thereby omnidirectional antenna that can cover the bulb to ensure the communication connection between the satellite and the ground station The first antenna 201 and the second antenna 202 are mounted on the + Z axis and the -Z axis of each satellite, and at this time, the satellite can be operated by transmitting and receiving low speed telemetry and remote command data. In addition, the third antenna 203, which is a directional antenna having a characteristic of increasing sensitivity to propagation in a specific direction in the case of increased high-speed telemetry and remote command data transmission and reception according to the use of multiple payloads after the satellite reaches a normal orbit. ) Ensures a stable satellite communication connection to operate the satellite. In this case, the directional antenna may be a horn antenna, a reflective antenna and a phased array antenna.

The RF transmission / reception signal distribution unit 300 is connected to the antenna unit 200, a low-speed RF distribution device 310 for transmitting and receiving low-speed telemetry and remote command data, high speed telemetry and remote command data transmission and reception And a switch unit 330 connected to the RF distribution device 320 and the low speed RF distribution device 310 and the high speed RF distribution device 320 to switch the low speed and high speed data transmission / reception modes.

The transponder unit 400 is connected to the RF transmission / reception signal distribution unit 300 and includes a first transponder 410 and a second receiver 421 including a first receiver 411 and a first transmitter 412. And a second transponder 420 composed of a second transmitter 422.

The low-speed RF distribution device 310 of the RF transmission and reception signal distribution unit 300 is between the first antenna 201 on the + Z axis, the second antenna 202 on the -Z axis and the transponder unit 400. And a 3dB combiner 311, a first diplexer 312 and a second diplexer 313.

The 3dB combiner 311 gives directivity to a low-speed transmit / receive signal applied through the first antenna 201 and the second antenna 202 or the transponder unit 400, and transfers the signal to the circuit. The lexer 312 and the second diplexer 313 are mutual interference between two signals of low speed transmission and reception applied through the first antenna 201 and the second antenna 202 or the transponder unit 400. Can be delivered to the circuit so that the outputs do not affect each other.

The first receiver 411 and the first receiver 411 of the transponder unit 400 transmit a low-speed remote command signal received from the first antenna 201 and the second antenna 202 through the low speed RF distribution device 310. 2 may be connected to the receiver 421. In addition, a low-speed telemetry signal transmitted from the first transmitter 412 and the second transmitter 422 of the transponder unit 400 may be connected to the first antenna 201 and the second antenna 202. Can be.

At this time, the remote command must be stably received for reliable satellite control from satellite launch to normal orbit. To this end, the first receiver 411 and the second receiver 421 which receive a low speed remote command signal are operated simultaneously, while the first transmitter 412 which connects the transmitted low speed telemetry signal and The second transmitter 422 is alternately performed.

The high speed RF distribution device 320 of the RF transmission and reception signal distribution unit 300 is connected between the third antenna 203 and the transponder unit 400, and a third diplexer 321, a combiner ( 322 and distributor 323.

The third diplexer 321 removes mutual interference between two signals of high speed transmission and reception applied through the third antenna 203 or the transponder unit 400 so that the output does not affect each other. The high speed telemetry data collected by the satellite payloads from the first transmitter 412 and the second transmitter 422 of the transponder unit 400 are combined through the combiner 322 to the circuit. After being connected to the third diplexer 321, the third diplexer 321 may be transmitted to the ground station via the third antenna 203, which is a directional antenna. In addition, the high-speed remote command data for controlling the performance of the observation payload after the satellite reaches the normal orbit is connected to the third diplexer 321 through the third antenna 203 and then through the distributor 323. The first receiver 411 and the second receiver 422 of the transponder unit 400 may be received.

The switch unit 330 is connected between the low speed RF distribution device 310 and the high speed RF distribution device 320 and the transponder unit 400, and the low speed RF distribution device 310 and the high speed RF distribution device ( 320 is connected to the antenna unit 200 and the transponder unit 400 to enable low and high speed RF data transmission and reception.

That is, the low speed RF data transmission mode may be switched to the high speed RF data transmission mode in order to perform the tasks of the payloads in a stable posture after the satellite reaches the normal orbit by handling the switch unit 330, and transmits the high speed RF data. High-speed RF data composed of the third antenna 203 for restoring communication connection with the ground station when the third antenna 203, which is a directional antenna, cannot be directed to the ground station because the attitude of the satellite is not stable in the mode. The transmission mode may be switched to be connected to the first antenna 201 and the second antenna 202 which are omnidirectional antennas.

Accordingly, in order to switch from the high speed RF data transmission mode to the low speed RF data transmission mode, the first switch 331 and the third switch 333 of the switch unit 330 are operated to be connected to the first diplex 312. The second switch 332 and the fourth switch 334 of the switch unit 330 may be manipulated to be connected to the second diplex 313. Accordingly, the transponder unit 400 recovers the communication connection between the satellite and the ground station by using the first antenna 201 of the + Z axis and the second antenna 202 of the -Z axis that are omnidirectional antennas. Telecommand and telemetry data can be transmitted and received.

In addition, in order to switch from the low speed RF data transmission mode to the high speed RF data transmission mode, it is possible to switch by handling the four switch positions of the switch unit 330, for this purpose, the first switch 331 of the switch unit 330 And operating the second switch 332 to be connected to the distributor 323 and operating the third switch 333 and the fourth switch 334 of the switch unit 330 to the combiner 322. Can be set to As a result, the transponder unit 400 may recover the communication connection between the satellite and the ground station by using the third antenna 203, which is a directional antenna, and transmit and receive high-speed telecommand and telemetry data.

The spirit of the present invention should not be limited to the described embodiments, and all of the equivalents and equivalents of the claims, as well as the following claims, are intended to fall within the scope of the present invention.

1000: satellite RF transmission and reception signal distribution device
200: antenna unit
201: first antenna 202: second antenna
203: third antenna
300: RF transmission and reception signal distribution unit
310: low speed RF distribution device
311: 3 dB combiner 312: first diplexer
313: second diplexer
320: high speed RF distribution device
321: third diplexer 322: combiner
323: Splitter
330: switch unit
331: first switch 332: second switch
333: third switch 334: fourth switch
400: transponder unit
410: first transponder
411: first receiver 412: first transmitter
420: second transponder
421: second receiver 422: second transmitter

Claims (7)

An antenna unit 200 for connecting communications between satellites and ground stations;
An RF transmission / reception signal distribution unit 300 connected to the antenna unit 200 to support low-speed data transmission and reception and high-speed data transmission and reception in normal orbit from satellite launch; And
And a transponder unit 400 connected to the RF transmission / reception signal distribution unit 300 to transmit a signal applied from the RF transmission / reception signal distribution unit 300 to a satellite or a ground station.
The RF transmission and reception signal distribution unit 300
A 3dB combiner 311 connected to the antenna unit 200 and the transponder unit 400 and directing the low-speed transmission / reception signal applied through the antenna unit 200 or the transponder unit 400 to a circuit. And a first diplexer 312 and a second diplexer connected to the 3dB combiner 311 to prevent mutual interference between the low-speed transmit and receive signals applied through the 3dB combiner 311 and to transmit the circuit to the circuit. Satellite RF transmission and reception signal distribution device (1000), characterized in that it comprises a low-speed RF distribution device (310) consisting of.
The method of claim 1,
The antenna unit 200
Omni-directional first and second antennas 201 and 202 through which low-speed data are transmitted and received;
And a directional third antenna (203) through which high-speed data is transmitted / received.
The method of claim 1,
The RF transmission and reception signal distribution unit 300
A low speed RF distribution device 310 connected to the first antenna 201 and the second antenna 202 and configured to transmit and receive low speed telemetry and remote command data;
A high speed RF distribution device 320 connected to the third antenna 203 and configured to perform high speed observation payload operation and payload data; And
And a switch unit 330 connected to the low speed RF distribution device 310 and the high speed RF distribution device 320 to switch between low speed and high speed data transmission / reception modes. Device 1000.
The method of claim 1,
The transponder unit 400
And a first transponder 410 and a second transponder 420 connected to the RF transmission / reception signal distribution unit 300, each of which includes a receiver and a transmitter. (1000).
delete The method of claim 3, wherein
The high speed RF distribution device 320 is
It is connected to the antenna unit 200 and the transponder unit 400,
Preventing mutual interference between the high-speed transmission and reception signals applied through the antenna unit 200 or the transponder unit 400 to transfer to the circuit A third diplexer 321;
A combiner 322 connected to the third diplexer 321 and coupled with a signal transmitted through the first transmitter 412 and the second transmitter 422 of the transponder unit 400;
A signal connected to the third diplexer 321 and received through the third diplexer 321 is distributed to the first receiver 411 and the second receiver 421 of the transponder unit 400. Satellite RF transmission and reception signal distribution apparatus (1000) comprising a.
The method according to claim 6,
The switch unit 330 is
The low speed RF distribution device 310 and the high speed RF distribution device 320 to be connected to the transponder 400,
The first diplexer 312 and the first transponder 410 are connected by a first switch 331 and a third switch 333 to the second switch 332 and the fourth switch 334. By the second diplexer 313 and the second transponder 420 is connected to the low speed data communication,
The distributor 323, the first receiver 411, and the second receiver 421 are connected by the first switch 331 and the second switch 332, and the third switch 333 and the fourth switch. And (334) the first transmitter (412), the second transmitter (422), and the combiner (322) are connected to each other for the high-speed data communication.

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