JP2003218766A - Satellite communication system, satellite communication terminal station equipment and radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that the constitution of a satellite communication terminal equipment having a repeater function of a conventional satellite communication system is complicated by the presence of two kinds of air interfaces, one in a base station and another in a terminal. <P>SOLUTION: A satellite communication terminal station 1 is so constituted that communication is enabled via a base station 3 and a satellite 4. In order to use the satellite communication terminal station 1 as a repeater between a base station 3 and a satellite communication terminal station 2, two antennas are installed for communication with the base station 3 and the satellite communication terminal station 2. The receiving destination and transmitting destination of a receiving RF part and a transmitting RF part which are connected in cascade are switched over depending upon the direction of communication, thereby enabling bilateral communication. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a satellite communication system having a satellite communication base station device and a satellite communication terminal station device that communicate via a satellite, a satellite communication terminal station device used in this satellite communication system, and a radio. The present invention relates to a wireless communication system having a wireless communication base station device and a wireless communication terminal station device that communicate with each other.

[0002]

2. Description of the Related Art As a conventional wireless transmission / reception system, Japanese Patent Laid-Open No.
000-68921. This document discloses a satellite communication system composed of a satellite communication base station apparatus and a satellite communication terminal station apparatus. The satellite communication terminal station apparatus is an RF interface with the satellite communication base station apparatus. 2) a wireless interface with another terminal device (referred to here as a terminal air interface for convenience).
It has two wireless interfaces and realizes the repeat function. This satellite communication terminal station device has a repeater function by providing a digital cellular radio interface or an exchange function to enable communication with the digital cellular terminal, and has satellite communication from a general digital cellular terminal. And a satellite communication system that relieves an overcall of the terrestrial wireless network by satellite communication is being constructed.

[0003]

However, in such a conventional satellite communication system, a satellite communication terminal station apparatus having a repeater function requires two types of base station air interface and terminal air interface. There is a problem that the device configuration becomes complicated.

The present invention has been made to solve the above problems, and a first object of the present invention is to obtain a satellite communication system in which a repeater can be easily configured by using a satellite communication terminal station device. Has an aim. A second object is to obtain a satellite communication terminal station device that can easily configure a repeater used in a satellite communication system. A third object is to obtain a wireless communication system in which a repeater can be easily configured using a wireless communication terminal station device.

[0005]

In a satellite communication system according to the present invention, a reception RF section and a transmission arranged so as to transmit / receive via a satellite between a satellite communication base station device and a satellite communication base station device. In a satellite communication system having a satellite communication terminal station apparatus provided with an RF section, one of the receiving destination of the receiving RF section and the transmitting destination of the transmitting RF section is changed from the satellite communication base station apparatus to another satellite communication terminal station apparatus. It is provided with a first satellite communication terminal station device configured to be switched to.

[0006] Further, the satellite communication base station apparatus includes a satellite communication terminal station apparatus provided with a receiving RF section and a transmitting RF section arranged to transmit and receive via the satellite to and from the satellite communication base station apparatus. RF reception in satellite communication systems
The second satellite communication terminal station device is configured so that the reception destination of the unit and the transmission destination of the transmission RF unit can be switched from the satellite communication base station device to another satellite communication terminal station device. Further, the satellite communication terminal station device is configured such that the receiving destination of the receiving RF unit and the transmitting destination of the transmission RF unit can be switched to each other.

[0007] Further, a plurality of satellite communication terminal station devices, each of which has a reception RF unit arranged to receive from a reception destination and a transmission RF unit arranged to transmit to a transmission destination different from the reception destination, are sequentially connected. And a satellite communication base station device configured to transmit and receive via a satellite between satellite communication terminal station devices arranged at the ends of a plurality of satellite communication terminal station devices connected in sequence. The terminal station device is configured to be able to switch between the reception destination of the reception RF unit and the transmission destination of the transmission RF unit.

[0008] Further, a plurality of satellite communication terminal station devices, each having a receiving RF unit arranged to receive from a receiving destination and a transmitting RF unit arranged to transmit to a destination different from the receiving destination, are connected in sequence. And the other end of the plurality of satellite communication terminal station devices while receiving via the satellite from the third satellite communication terminal station device arranged at one end of the plurality of satellite communication terminal station devices connected in sequence. And a satellite communication base station device configured to transmit via a satellite to a fourth satellite communication terminal device arranged in the section.

Further, in the satellite communication terminal station apparatus according to the present invention, satellite communication is provided with a reception RF section and a transmission RF section arranged to transmit / receive via the satellite to / from the satellite communication base station apparatus. In the terminal station device, one or both of the receiving destination of the receiving RF unit and the transmitting destination of the transmitting RF unit is configured to be switched from the satellite communication base station device to another satellite communication terminal station device. .

The receiver of the receiving RF unit and the receiver of the transmitting RF unit can be switched to each other. Further, different frequencies are used as the reception frequency received by the reception RF unit and the transmission frequency transmitted by the transmission RF unit, and the reception frequency and the transmission frequency are configured to be switched between transmission and reception.

In addition, in the wireless communication system according to the present invention, the wireless communication base station apparatus is provided with a receiving RF section and a transmitting RF section arranged to transmit and receive between the wireless communication base station apparatus. In a wireless communication system including a communication terminal station device, either or both of a receiving destination of a receiving RF unit and a transmitting destination of a transmitting RF unit can be switched from a wireless communication base station device to another wireless communication terminal station device. The wireless communication terminal station device is provided. Further, the wireless communication terminal station device is configured such that the receiving destination of the receiving RF unit and the transmitting destination of the transmission RF unit can be switched to each other.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiment 1. 1 is a diagram showing a satellite communication system according to a first embodiment of the present invention. In FIG. 1, reference numeral 1 is a satellite communication terminal station (first satellite communication terminal station apparatus), 2 is the same satellite communication terminal station as the satellite communication terminal station 1 (another satellite communication terminal station apparatus), each of which transmits R
It has an F section and a reception RF section. Reference numeral 3 is a base station (satellite communication base station device), and 4 is a satellite connecting the satellite communication terminal station 1 and the base station 3. Reference numeral 6 is an antenna for the satellite communication terminal station 2 of the satellite communication terminal station 1. The radio frequency used by the satellite communication terminal station 1 for communication with the base station 3 is the transmission frequency f1,
The reception frequency is f2.

FIG. 2 is a diagram showing a structure of a satellite communication terminal station of the satellite communication system according to the first embodiment of the present invention. In FIG. 2, 6 is the same as that in FIG. 8 is a repeat mode for relaying communication between the base station 3 and the satellite communication terminal station 2, 9 is a transmission RF unit (TX), 1
0 is a reception RF unit (RX), 11 and 12 are switches, 13
Is a mixer (DIP) arranged on the side of the base station 3 for mixing the transmitted wave and the received wave, and 14 is a mixer (DIP) arranged on the side of the satellite communication terminal station 2 for mixing the transmitted wave and the received wave. Is. Reference numeral 15 is an antenna for the base station 3. In the configuration of FIG. 2, the signals input from the base station 3 side or the satellite communication terminal station 2 side are switched by the switches 11 and 12 via the mixers 13 or 14, respectively, to receive RF signals.
The signal received by the unit 10 is frequency-converted in the repeat mode 8 to be transmitted from the transmission RF unit 9 to the switch 11,
It is switched by 12 and is transmitted to the satellite communication terminal station 2 or the base station 3 via the mixer 14 or the mixer 13. That is, the satellite communication terminal station 1
Relays between the satellite communication terminal station 2 and the base station 3.

Normally, the satellite communication terminal stations 1 and 2 transmit radio waves to the base station 3 at the frequency f1 and the base station 3 at the frequency f2.
Receives radio waves from each of them and individually configures a terminal station. On the other hand, when the normal terminal form is difficult due to the visibility and the power supply environment and the communication request is made from another terminal station (satellite communication terminal station 2), the satellite communication terminal station 1 relays It operates as follows as a container (repeater).

First, the antenna 6 for the satellite communication terminal station 2 is installed in the satellite communication terminal station 1. The satellite communication terminal station 1 has two antennas, an antenna 15 for the satellite base station 3 and an antenna 6. When transmitting from the satellite communication terminal station 2, the satellite communication terminal station 2 once transmits a radio wave to the satellite communication terminal station 1. The satellite communication terminal station 1 receives this radio wave with the antenna 6 and the reception RF unit 10. Next, the satellite communication terminal station 1 transmits this radio wave to the base station 3 through the transmission RF unit 9 and the antenna 15 provided from the beginning. On the contrary, when transmitting from the base station 3 and receiving by the satellite communication terminal station 2, the situation is as follows. The base station 3 first transmits to the satellite communication terminal station 1. The satellite communication terminal station 1 receives this radio wave from the antenna 15 and the reception RF unit 10 which are provided from the beginning. Next, the satellite communication terminal station 1 transmits this radio wave to the satellite communication terminal station 2 by the transmission RF unit 9 and the antenna 6. Then, the satellite communication terminal station 2 receives.

In such a satellite communication system, the radio frequencies used for communication are as follows. First, regarding the radio frequencies of the satellite communication terminal station 1 and the base station 3, the transmission frequency of the satellite communication terminal station 1 is f1 and the reception frequency is f2. Regarding the radio frequency with the satellite communication terminal station 2,
The transmission frequency of the satellite communication terminal station 1 is f1, and the reception frequency is f
Set to 2. Since the satellite communication terminal station 2 has a transmission and reception frequency opposite to that of the satellite communication terminal station 1, the reception frequency is f1 and the transmission frequency is f2. In addition, such a relay function is usually achieved by connecting the receiving RF section and the transmitting RF section in cascade.
One-way communication exhausts the functions of the terminal station. for that reason,
A transmission RF unit 9 commonly used for transmission and reception as shown in FIG.
It is necessary to change the connection configuration of the receiving RF unit 10 and half-duplex communication.

Next, the repeat mode will be described in more detail with reference to FIG. FIG. 3 is a diagram showing a repeat mode of the satellite communication terminal station of the satellite communication system according to the first embodiment of the present invention, and FIG. 3 (a) shows a configuration when the satellite communication terminal station is used as a terminal. Figure, Figure 3 (b)
FIG. 6 is a diagram in which a device using a satellite communication terminal station as a repeater is added. 3, 6 and 9 to 15 are the same as those in FIG. 31 is a mixer, 32
Is a demodulator, 33 is a local oscillator, 34 is a filter, 35 is an AD converter (ADC) that converts an analog signal into a digital signal, 36 is a signal deframing unit, 37 is an interface unit, 38 is a handset or data terminal (modem or PC). 39 is an interface unit, 40
Is a signal framing unit, and 41 is a DA converter (DAC) that converts a digital signal into an analog signal. 42
Is a filter, 43 is a modulator, 44 is a local oscillator, 45 is a mixer, and 46 is a frequency synthesizer.

In FIG. 3A, that is, when the satellite communication terminal station is used as a terminal, the received radio wave (RF frequency) is received by the antenna 15, the mixer (DIP) 13 extracts the received wave, and the receiving RF section. The (RX) 10 amplifies (and filters (not shown), etc.), and the mixer 31 converts it to an IF frequency. After that, it is demodulated by the demodulator 32 to become a baseband signal, the filter 34 performs band limitation, and the AD converter (ADC) 35 becomes a digital signal. The digital signal is decomposed into data and control signals in the signal deframing unit 36, and the data is further subjected to necessary signal processing in the interface unit 37 and sent to the handset or the data terminal 38. If the interface unit 37 is a voice signal, a conversion circuit from a digital signal to an analog signal and a voice compression (decompression) circuit such as a CELP signal are inserted.

When transmitting, the opposite is true. The signal sent from the handset or the data terminal 38 is sent to the signal framing unit 40 via the interface unit 39. The signal framing unit 40 assembles these data and line control signals. Up to this point, the signal is a digital signal, and then converted into a baseband signal by the DA converter (DAC) 41, band-limited by the filter 42, and modulated by the modulator 43. The IF signal is output from here. After that, the frequency is converted by the mixer 45 into an RF signal, which is combined with the received signal by the mixer (DIP) 13 through the output amplifier of the transmission RF unit (TX) 9 and is emitted from the antenna 15.

When the repeat function shown in FIG. 3B is provided, the configuration of FIG. 3A is changed as follows. (1) Antennas 6, 15 and mixer (DIP) 13, 1,
Set up 2 of 4. (2) The antennas 6 and 15 are switched by SW11 and SW12. At this time, the feature of this machine is to switch the transmitting antenna and the receiving antenna separately. (3) The received signal is returned to the transmitting side by the signal deframing unit 36 in the above description. There is also a method of frequency-converting the IF signal to convert it into an analog signal, but in this case, an additional circuit such as a local frequency generator for folding (frequency synthesizer or the like) is required. Assuming that the terminal is used as a terminal, if the digital signal (between the signal deframing unit 36 and the signal framing unit 40) is returned, the configuration change will be considerably reduced. (4) The difference between the A type and the B type to be described later (Embodiments 2 and 3) is that the local oscillator 33 is supplied to the modulation / demodulation unit,
It is obtained by changing the frequency of 44 for A type and B type.

According to the first embodiment, as a result of constructing such a satellite communication system, conventionally, an expensive radio interface which has dual base station air interface and terminal air interface is provided. With the exception of the antenna, it is not necessary to have almost double equipment, and the satellite communication terminal station with a simple structure can realize the relay function of satellite communication.

Embodiment 2. In the second embodiment, in addition to the first embodiment, a plurality of satellite communication terminal stations (satellite communication terminal station devices) are continuously connected. For example, this configuration example is effective when the line-of-sight distance cannot be maintained, or when the transmission output is insufficient due to the power supply situation. The frequency relationship at this time is shown in FIG. FIG. 4 is a diagram showing a satellite communication system according to the second embodiment of the present invention. 4, 1 to 4 are the same as those in FIG. In FIG. 4, the satellite communication terminal station 1 (other satellite communication terminal station apparatus) is of type B, and the satellite communication terminal station 2 (second satellite communication terminal station apparatus) is of type A. Reference numeral 17 denotes the same B type satellite communication terminal station (other satellite communication terminal station device) as the satellite communication terminal station 1, and 18 denotes the same A type satellite communication terminal station as the satellite communication terminal station 2. The B type satellite communication terminal station transmits at 2.6 GHz and receives at 2.4 GHz.
A type satellite communication terminal station transmits at 2.4 GHz,
Receive at 2.6 GHz.

Next, the operation will be described. Satellite communication terminal station 1 (satellite communication terminal station device arranged at the end)
It transmits at 2.6 GHz and receives at 2.4 GHz. The adjacent satellite communication terminal station 2 transmits at 2.4 GHz and receives at 2.6 GHz. The satellite communication terminal station 17 next to it, like the satellite communication terminal station 1,
It transmits at 2.6 GHz and receives at 2.4 GHz. Thus, there are two types of B type such as satellite communication terminal stations 1 and 17 and A type such as satellite communication terminal stations 2 and 18.
Each type of satellite communication terminal station can take a radio frequency of a type.

According to the second embodiment, by continuously connecting a plurality of terminal stations, effective communication can be performed when the line-of-sight distance cannot be maintained or when the transmission output is insufficient due to the power supply situation. .

Embodiment 3. FIG. 5 is a diagram showing a satellite communication system according to a third embodiment of the present invention. 5, 3 and 4 are the same as those in FIG. 20, 22, 24 and 26 are B type satellite communication terminal stations, and 21, 23 and 25 are A type satellite communication terminal stations. The satellite communication terminal station 2 is arranged in the order of reception of radio waves from the base station 3.
6, 25, 24, 23, 22, 21, and 20 are sequentially connected in a chain shape.

Next, the operation will be described. In Figure 4,
Relay was only half-duplex, but full-duplex communication is required depending on the application. The case where this full-duplex communication is performed is shown in FIG. In FIG. 5, the cascade connection of the satellite communication terminal station 20 (fourth satellite communication terminal station apparatus) transmitting toward the base station 3 and the connection of the satellite communication terminal station 26 (third satellite communication terminal station apparatus) receiving 2 cascade connections
It is realized side by side.

According to the third embodiment, in addition to the effect of the second embodiment, full-duplex communication between the satellite communication terminal station and the base station becomes possible.

In the first to third embodiments,
Although the communication between the satellite communication terminal station and the base station has been described, the same applies to the communication between the terrestrial radio communication terminal station and the terrestrial radio communication base station.

[0029]

Since the present invention is constructed as described above, it has the following effects. A reception RF unit and a transmission RF arranged to transmit and receive via satellite between the satellite communication base station device and the satellite communication base station device.
In a satellite communication system having a satellite communication terminal station device provided with a section, one of the receiving destination of the receiving RF unit and the transmitting destination of the transmitting RF unit is transferred from the satellite communication base station device to another satellite communication terminal station device. Since the first satellite communication terminal station device configured to be switched is provided, the relay function can be realized with a simple configuration by the first satellite communication terminal station device.

Further, it has a satellite communication base station apparatus, and a satellite communication terminal station apparatus provided with a reception RF section and a transmission RF section arranged to transmit and receive via the satellite to and from the satellite communication base station apparatus. RF reception in satellite communication systems
Since the second satellite communication terminal station device configured to switch the receiver of the transmission section and the transmission destination of the transmission RF section from the satellite communication base station apparatus to another satellite communication terminal station apparatus, the second satellite The communication terminal station device can realize the relay function with a simple configuration. In addition, the satellite communication terminal station device,
Since the reception destination of the reception RF unit and the transmission destination of the transmission RF unit can be switched to each other, it can be used as a relay device.

Further, a plurality of satellite communication terminal station devices each having a reception RF unit arranged to receive from a reception destination and a transmission RF unit arranged to transmit to a transmission destination different from the reception destination are sequentially connected. And a satellite communication base station device configured to transmit and receive via a satellite between satellite communication terminal station devices arranged at the ends of a plurality of satellite communication terminal station devices connected in sequence. Since the terminal station device is configured so that the receiving destination of the receiving RF unit and the destination of the transmitting RF unit can be switched to each other, by connecting the relay function, when the transmission output of the satellite communication terminal station device is not sufficient. However, it is possible to communicate with the satellite communication base station device.

Further, a plurality of satellite communication terminal station devices each having a reception RF unit arranged to receive from a reception destination and a transmission RF unit arranged to transmit to a transmission destination different from the reception destination are sequentially connected. And the other end of the plurality of satellite communication terminal station devices while receiving via the satellite from the third satellite communication terminal station device arranged at one end of the plurality of satellite communication terminal station devices connected in sequence. Since the satellite communication base station device configured to transmit via the satellite to the fourth satellite communication terminal station device arranged in the section is provided, the satellite communication terminal station device can be transmitted by connecting the relay function. Even when the output is not sufficient, full-duplex communication with the satellite communication base station device can be performed.

Furthermore, in the satellite communication terminal station apparatus according to the present invention, satellite communication is provided with a reception RF section and a transmission RF section arranged to transmit / receive via the satellite to / from the satellite communication base station apparatus. In the terminal station device, one or both of the receiving destination of the receiving RF unit and the transmitting destination of the transmitting RF unit is configured to be switched from the satellite communication base station device to another satellite communication terminal station device. The relay function can be realized with various configurations.

Further, since the receiver of the receiving RF unit and the receiver of the transmitting RF unit can be switched to each other, it can be used as a relay device. Further, different frequencies are used as the reception frequency received by the reception RF section and the transmission frequency transmitted by the transmission RF section, and the reception frequency and the transmission frequency are configured to be switched by transmission and reception, so that they are sequentially connected. Can be used.

In addition, in the wireless communication system according to the present invention, a wireless communication base station apparatus is provided with a receiving RF section and a transmitting RF section arranged to transmit and receive between the wireless communication base station apparatus. In a wireless communication system including a communication terminal station device, either or both of a receiving destination of a receiving RF unit and a transmitting destination of a transmitting RF unit can be switched from a wireless communication base station device to another wireless communication terminal station device. Since the wireless communication terminal station device configured is provided, the relay function can be realized by the wireless terminal station device with a simple configuration. Also, the wireless communication terminal station device is
Since the receiver of the unit and the receiver of the transmission RF unit can be switched to each other, it can be used as a relay device.

[Brief description of drawings]

FIG. 1 is a diagram showing a satellite communication system according to a first embodiment of the present invention.

FIG. 2 is a diagram showing a configuration of a satellite communication terminal station of the satellite communication system according to the first embodiment of the present invention.

FIG. 3 is a diagram showing a repeat mode of a satellite communication terminal station of the satellite communication system according to the first embodiment of the present invention.

FIG. 4 is a diagram showing a satellite communication system according to a second embodiment of the present invention.

FIG. 5 is a diagram showing a satellite communication system according to a third embodiment of the present invention.

[Explanation of symbols]

1, 2 satellite communication terminal stations, 3 base stations, 4 satellites, 6
Antenna, 8 repeat modes, 9 transmission RF section (T
X), 10 reception RF unit (RX), 11, 12 switch, 13, 14 mixer (DIP), 15 antennas,
17, 18, 20, 21, 22, 23, 24, 25, 2
6 satellite communication terminal station, 31 mixer, 32 demodulator,
33 local oscillator, 34 filter, 35 AD converter (ADC), 36 is signal deframing unit, 37
The interface section 38 is a handset or data terminal,
39 interface section, 40 signal framing section,
41 DA converter (DAC), 42 filter, 4
3 modulator, 44 local oscillator, 45 mixer, 46
Frequency synthesizer.

Claims (10)

[Claims] 1. A satellite communication base station apparatus and a satellite communication terminal station apparatus provided with a reception RF section and a transmission RF section arranged to transmit and receive via the satellite between the satellite communication base station apparatus. In the satellite communication system having the first receiver configured to switch from one of the receiver of the reception RF unit and the receiver of the transmission RF unit to the other satellite communication terminal station device from the satellite communication base station device. A satellite communication system comprising a satellite communication terminal station device. 2. A satellite communication base station apparatus, and a satellite communication terminal station apparatus provided with a reception RF section and a transmission RF section arranged to transmit and receive via the satellite between the satellite communication base station apparatus. In a satellite communication system having the second satellite communication terminal configured so that the receiving destination of the receiving RF unit and the transmitting destination of the transmission RF unit can be switched from the satellite communication base station device to another satellite communication terminal station device. A satellite communication system comprising a station device. 3. The satellite according to claim 1 or 2, wherein the satellite communication terminal station device is configured to be capable of switching between the reception destination of the reception RF unit and the transmission destination of the transmission RF unit. Communications system. 4. A plurality of satellite communication terminal stations sequentially connected, each having a reception RF unit arranged to receive from a reception destination and a transmission RF unit arranged to transmit to a transmission destination different from the reception destination. A satellite communication base station device configured to transmit and receive via a satellite to and from a satellite communication terminal station device arranged at an end of the plurality of satellite communication terminal station devices connected in sequence, The satellite communication terminal device is
A satellite communication system, characterized in that the receiving destination of the receiving RF unit and the transmitting destination of the transmission RF unit can be switched to each other. 5. A plurality of satellite communication terminal stations sequentially connected, each having a reception RF unit arranged to receive from a reception destination and a transmission RF unit arranged to transmit to a transmission destination different from the reception destination. A device for receiving via a satellite from a third satellite communication terminal station device arranged at one end of the plurality of satellite communication terminal station devices connected in sequence, and the other of the plurality of satellite communication terminal station devices. A satellite communication base station apparatus configured to transmit via a satellite to a fourth satellite communication terminal station apparatus arranged at an end of the satellite communication base station apparatus. 6. A satellite communication terminal station device provided with a reception RF unit and a transmission RF unit arranged to transmit and receive via satellite to and from a satellite communication base station device,
The satellite communication terminal is configured so that either one or both of the receiver of the F section and the transmitter of the transmission RF section can be switched from the satellite communication base station apparatus to another satellite communication terminal station apparatus. Station equipment. 7. The satellite communication terminal station device according to claim 6, wherein the receiving destination of the receiving RF unit and the transmitting destination of the transmission RF unit are configured to be switched to each other. 8. The reception frequency received by the reception RF unit and the transmission frequency transmitted by the transmission RF unit are different from each other, and the reception frequency and the transmission frequency are configured to be switched between transmission and reception. The satellite communication terminal station device according to claim 6 or 7. 9. A wireless communication system having a wireless communication base station apparatus and a wireless communication terminal station apparatus provided with a receiving RF section and a transmitting RF section arranged to transmit and receive between the wireless communication base station apparatus. In the wireless communication terminal station device, either or both of the receiving destination of the receiving RF unit and the transmitting destination of the transmitting RF unit can be switched from the wireless communication base station device to another wireless communication terminal station device. A wireless communication system comprising: 10. The wireless communication system according to claim 9, wherein the wireless communication terminal station device is configured to be able to switch between the receiving destination of the receiving RF unit and the transmitting destination of the transmission RF unit.