JP2002290263A - Wireless communication unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless communication unit that can carry out cable loss compensation in both incoming and outgoing directions with a required and sufficient function configuration and to provide its gain setting method. SOLUTION: An indoor unit(IDU) 2b amplifies an adjustment signal by a variable gain amplifier 21 and transmits the amplified signal to an outdoor unit(ODU) 2a through a coaxial cable 2c, the ODU 2a detects the level of the adjustment signal by a detection section 17, transmits a proper notice to the IDU 2b when the level reaches a proper value, and when the IDU 2b receives the proper notice, the IDU 2b sets the gain of the variable gain amplifier 21 and transmits the set value to the ODU 2a. Then the ODU 2a sets the gain of the variable amplifier 13 depending on the set value.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication system of a type in which a radio unit which mainly performs radio communication processing and a control unit which mainly performs control processing are connected by a cable, and cable communication is performed between these units. More particularly, the present invention relates to a technique for setting the gain of a variable gain amplifying function provided in these units to an appropriate value for compensating for cable communication loss. Furthermore, the present invention relates to a technique suitable for use in a subscriber wireless access system in which such a type of wireless communication device is used as a station device and wireless communication stations perform wireless communication with each other.

[0002]

2. Description of the Related Art For example, a wireless local loo (WLL) is used.
A subscriber wireless access system using wireless communication called p) or FWA (Fixed wireless access) is known. A subscriber wireless access system connects a base station fixedly installed by a telecommunications carrier and subscriber stations fixedly installed at a plurality of user premises by wireless communication. By performing wireless communication with the base station, data communication can be performed between subscriber terminal devices connected to different subscriber stations, and further via a backbone network such as a public communication network connected to the base station. Data communication with other subscriber terminal devices.
Note that the base station accommodates a large number of subscriber stations, and such a one-to-multi-directional radio equipment is a P-MP (Point-Mull).
ti Point) system.

In such a subscriber radio access system, a radio communication apparatus having a configuration in which a radio unit for controlling radio communication processing and a control unit for controlling processing are connected by a cable is used as a subscriber station or base station. The wireless unit is installed at a high place such as a tower or the roof of a building, and the control unit is installed indoors such as a building. In this sense, the wireless unit is an outdoor unit (OD
The control unit is also called an indoor unit (IDU: In Door Unit).

For example, as shown in FIG. 4, in a subscriber radio access system, an outdoor unit 1a of a base station 1 is installed on the roof of a building, and an indoor unit 1b is installed inside a building. Unit 1
and b are connected by a coaxial cable 1c.
The outdoor unit 2a of the subscriber station 2 is installed on the roof of a building, and the indoor unit 2b is installed inside a building. The outdoor unit 2a and the indoor unit 2b are connected by a coaxial cable 2c. By dividing the wireless station device into an outdoor unit and an indoor unit in this way, the wireless unit (outdoor unit) which must be installed at a high altitude outdoors to avoid a wireless communication failure can be reduced in size and weight. Installation work can be facilitated,
Advantages are obtained such that the subscriber terminal device and the control unit (indoor unit) to be connected to the network can be installed in a stable operation environment.

Japanese Patent Laid-Open Publication No. Hei 11-340844 discloses a radio transmitter having a configuration in which a high-frequency unit 51 and a control unit 52 are connected by a coaxial cable 53 as shown in FIG. There has been proposed an invention for compensating the attenuation of the signal level transmitted from 52 to the high frequency section 51. That is, in the present invention, the control unit 52
Based on the level change of the response signal received from the high frequency unit 51 through the coaxial cable 53, the coaxial cable 53
Is calculated to adjust the level of a signal (intermediate frequency signal) transmitted to the high frequency section 51 through the coaxial cable 53.

[0006]

SUMMARY OF THE INVENTION A radio unit for controlling a radio communication process and a control unit for controlling a control process are connected by a cable, and a communication signal transmitted by the control unit through the cable is transmitted to the radio unit. In a wireless communication device in which the control unit transmits wirelessly and receives a communication signal wirelessly received by the wireless unit via a cable, it is necessary to compensate for communication loss due to the cable. In particular, in the wireless communication device applied to the subscriber wireless access system, since the installation location of the outdoor unit and the indoor unit is set as necessary, the length of the cable connecting these units varies. Cable loss cannot be assumed in advance.

However, the above-mentioned conventional invention relates to a radio transmitting apparatus, which only compensates for a cable loss in one direction of a coaxial cable (from a control section to a radio section). (That is, a device that needs to compensate for loss in both directions in a cable). If it dares to apply, the function to transmit the response signal to both the radio unit and the control unit, and the function to detect the change in the response signal, calculate the loss amount, and adjust the level of the transmission signal. It must be provided, and the functional configuration of the device becomes complicated and large. In particular, the product value is also affected as a wireless communication device of a subscriber wireless access system that requires a small outdoor unit (radio unit). Invites big challenges.

The present invention has been made in view of the above-mentioned conventional circumstances, and provides a radio communication apparatus and a gain setting method capable of performing cable loss compensation in both the upstream and downstream directions with a necessary and sufficient functional configuration. The purpose is to provide. Further objects of the present invention will be apparent in the following description.

[0009]

According to the present invention, a wireless unit for controlling wireless communication and a control unit for controlling control are connected by a cable, and a communication signal transmitted by the control unit through the cable is wirelessly transmitted. A wireless communication device in which the control unit transmits wirelessly by the unit and the control unit receives the communication signal wirelessly received by the wireless unit through a cable, for example, a subscriber station or a base station that performs wireless transmission and reception in the subscriber wireless access system. It is used as a constituent wireless communication device.

In the wireless communication device according to the present invention,
The control unit has a transmission system variable gain amplification function for amplifying a signal to be transmitted to the wireless unit through a cable, and a function for amplifying an adjustment signal with the transmission system variable gain amplification function and transmitting the signal to the wireless unit through the cable. A function of setting the gain of the transmission system variable gain amplifying function when a proper notification is received from the wireless unit through the cable, and a function of transmitting the set value to the wireless unit through the cable; The unit has a receiving system variable gain amplifying function for amplifying a signal transmitted through the cable to the control unit, a function for detecting the level of the adjustment signal received from the control unit via the cable, and the detected level being a predetermined appropriate level. A function to send an appropriate notification to the control unit through a cable when the value is reached,
A function of setting the gain of the variable gain amplifying function of the receiving system according to the setting value received from the control unit through the cable.

Therefore, according to the radio communication apparatus of the present invention, the control unit amplifies the adjustment signal by the transmission system variable gain amplifying function and transmits it to the radio unit via the cable, and the radio unit is controlled by the control unit. When the level of the adjustment signal received from is detected and the detection level reaches a predetermined appropriate value, the appropriate notification is transmitted to the control unit through the cable, and the control unit receives the appropriate notification from the wireless unit. The gain of the transmission system variable gain amplifying function is set, and the fixed setting value is transmitted to the radio unit via the cable, and the radio system unit receives the variable gain gain according to the setting value received from the control unit. A gain setting method according to the present invention for setting a function gain can be implemented.

That is, in the radio communication apparatus according to the present invention, the control unit has the most functions for the gain value setting control processing for compensating for the cable loss, and the radio unit has the adjustment signal. And a function of notifying the control unit properly when the detected level becomes a predetermined appropriate value. Therefore, it is not necessary to add too many functions to the radio unit for compensating for the cable loss. In particular, when the radio unit is used as an outdoor unit (ODU) of a subscriber radio access system, the installation place is secured. And installation work can be facilitated.

Further, in addition to the above configuration, the wireless communication apparatus according to the present invention performs full-duplex communication by a TDD (Time Division Duplex) system, and a level detecting function provided in the wireless unit unit adjusts an adjustment signal. The radio unit detects the level from its own transmission system, and the radio unit transmits and receives a switch signal that switches the signal received from the control unit through the cable between the transmission system and the reception system, and transmits and receives the adjustment signal received from the control unit. And a function of inputting to a transmission system by a changeover switch function and stopping a transmission processing function downstream of a level detection unit of the transmission system. Therefore, in the gain setting process, the transmission / reception switch function of the radio unit is switched to the transmission system in order to receive the adjustment signal from the control unit.
For example, by stopping the transmission processing function by, for example, shutting off the power of the transmission amplifier, it is possible to prevent the adjustment signal from being wirelessly transmitted from the wireless unit and to transmit the fault radio wave to the wireless communication system. Can be prevented.

Further, in addition to the above configuration, the wireless communication apparatus according to the present invention performs full-duplex communication by an FDD (Frequency Division Duplex) method, and sets a set value to a receiving system variable gain amplifying function provided in a wireless unit. The function to set
The gain obtained by adding the correction based on the difference between the transmission and reception frequencies to the set value received from the control unit is fixedly set to the variable gain amplifier function of the receiving system. In the duplex communication by the FDD system, the transmission signal and the reception signal have different frequencies, so that the cable loss differs between the upstream signal and the downstream signal. Therefore, the gain value of the radio unit that amplifies the signal to be transmitted to the control unit is corrected for the gain set by the control unit based on the cable loss of the adjustment signal transmitted to the radio unit. It can be adjusted to correspond to the difference in cable loss caused by the difference in frequency.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A radio communication apparatus according to the present invention will be specifically described based on embodiments. In the embodiment described below, the present invention is applied to a subscriber wireless access system (particularly, the subscriber station 2), and redundant description will be omitted with reference to FIG. In the following, an example in which the transmission system and the reception system are connected by a coaxial cable is shown, but the transmission system, the reception system, and the control signal system may be connected by separate cables.

FIG. 1 shows the configuration of a main part of a subscriber station 2 according to a first embodiment of the present invention. In this embodiment, the subscriber station 2 is a radio communication device for performing TDD full-duplex communication. The subscriber station wireless communication device 2 of this example includes an outdoor unit (ODU, wireless unit) 2a that mainly performs wireless communication processing, and an indoor unit that mainly performs control processing of the device and communication processing with the backbone network (ODU). IDU, control unit) 2b,
It has a basic configuration connected by a coaxial cable 2c. The communication signal transmitted by the IDU 2b through the coaxial cable 2c is received by the ODI 2a and transmitted wirelessly from the antenna. Transmitted and received by IDU 2b. That is, a communication signal wirelessly transmitted and received by the antenna is transmitted to the ODU 2a and the IDU 2b through the coaxial cable 2c.
And a control signal for the IDU 2b to control the ODU 2a is also transmitted and received through the coaxial cable 2c.

The ODU 2a includes a transmission / reception separating unit 10 for separating a signal transmitted / received by the antenna into a transmission signal and a reception signal, a transmission amplifier 11 for amplifying a signal transmitted from the antenna with a predetermined gain, and a signal receiving a signal received from the antenna with a predetermined gain. And a variable gain amplifier 13 for amplifying the amplified received signal with a gain set by a gain control signal described later. And variable gain amplifier 13
And a receiving unit provided with:

The transmitting section and the receiving section have a conversion function between a radio frequency and an intermediate frequency and a modulation / demodulation function. The intermediate frequency signal is processed in a portion closer to the IDU 2b than the transmitting section and the receiving section by the conversion function. That is, in this example,
As shown in FIG. 1, a transmission amplifier 11 and a reception amplifier 12 amplify a relatively high frequency radio frequency signal such as a millimeter wave or a quasi-millimeter wave, and a variable gain amplifier 13 amplifies a relatively low frequency intermediate frequency signal. .

Furthermore, the ODU 2a distributes and combines a transmission / reception switch 14 for switching a signal path between a transmission unit and a reception unit, a communication signal for wireless transmission and reception, and a control signal for gain setting control and control by the IDU 2b. A distributing / combining unit 15, a control signal modulation / demodulation unit 16 for performing digital-analog conversion between a control signal and control data, and a detection unit 17 for detecting the level of the intermediate frequency signal before being input to the transmission amplifier 11 of the reception unit A control unit 1 that performs overall control of the functional units 10 to 17 and performs a notification process based on a signal level detected by the detection unit 17 and a gain setting process to the variable gain amplifier 13 based on a notification from the IDU 2b.
Eight.

That is, the control signal in the signal received from the coaxial cable 2c is converted into digital data by the distributor / synthesizer 15 and input to the control unit 18, and the intermediate frequency communication in the signal received from the coaxial cable 2c is performed. The signal is input to the transmission unit, and the intermediate frequency communication signal from the reception unit and the control signal converted into an analog signal from the control unit 18 are superimposed and combined and transmitted to the IDU 2b through the coaxial cable 2c. The same applies to the IDU 2b, but the control signal is, for example, ASK modulation (Amplitude Shift Ke
ying (amplitude modulation), different frequencies are used for transmission and reception, and the frequency is set to be sufficiently lower than the intermediate frequency, so that the transmission loss due to the coaxial cable 2c is sufficiently smaller than the intermediate frequency signal, and the cable is not adjusted. I have.

The IDU 2b includes a modulation / demodulation unit 20 for performing digital-to-analog conversion of wirelessly transmitted or wirelessly received communication data, and a variable gain for amplifying a signal transmitted through the coaxial cable 2c and the ODU 2a with a gain set by a gain control signal described later. It has a receiving amplifier 22 for amplifying a signal received through the amplifier 21, the ODU 2 a and the coaxial cable 2 c with a predetermined gain, and has a transmitting unit having the variable gain amplifier 21 and a receiving unit having the receiving amplifier 22. ing.

Further, the IDU 2b distributes and combines a transmission / reception switch 23 for switching a signal path between a transmission unit and a reception unit, a communication signal for wireless transmission / reception, and a control signal for controlling gain setting control and the ODU 2a. A distributing / synthesizing unit 24, a control signal modulation / demodulation unit 25 for performing digital-analog conversion between a control signal and control data,
The control unit 26 controls the ODUs 2 to 0 and the ODU 2a and performs a notification process to the ODU 2a and a gain setting process to the variable gain amplifier 21 based on the notification from the ODU 2a. That is, the signal related to the control among the signals received from the coaxial cable 2c is converted into digital data by the distributor / synthesizer 24 and input to the control unit 26, and the intermediate frequency communication signal among the signals received from the coaxial cable 2c is converted. Is input to the transmission unit, and the intermediate frequency communication signal from the transmission unit and the control signal converted into an analog signal from the control unit 26 are superimposed and combined and transmitted to the ODU 2a through the coaxial cable 2c.

The gain setting process of the variable gain amplifier 13 and the variable gain amplifier 21 for compensating for the transmission loss of the coaxial cable 2c, which is executed under the control of the control unit 18 and the control unit 26 having the above configuration, will be described. First, the control unit 26 of the IDU 2b converts the intermediate frequency signal (a signal different from the communication signal, for example, for level detection which has no meaning) as a signal for adjustment, from the modem 20, the variable gain amplifier 21, the transmission / reception switch 23, and the distribution / synthesis. And transmits the signal to the ODU 2a via the coaxial cable 2c. In this example, in this initial stage, the gain of the variable gain amplifier 21 is equal to that of the coaxial cable 2c.
The adjustment signal is amplified with the gain and transmitted to the ODU 2a.

In the ODU 2a, when a signal is received from the coaxial cable 2c, the transmission / reception switch 14 is switched to the path to the transmission unit, and the signal for adjustment is sent to the signal level by the detection unit 17 via the distributor / synthesizer 15 and the transmission / reception switch 14. Is detected. In the gain adjustment processing, the control unit 1
8 stops the function of the transmission unit after the detection unit 17 (in this example, shuts off the power supply of the transmission amplifier 11), prevents the adjustment signal from being wirelessly transmitted from the antenna, and generates the interference radio wave. Has been prevented. The control unit 18 of the ODU 2a determines whether the signal level obtained from the detection unit 17 is lower or higher than a preset reception level (that is, an appropriate level of an intermediate frequency signal to be wirelessly transmitted).
A notification for increasing or decreasing the amplification gain of the transmission signal is transmitted to the IDU 2b as a control signal through the control signal modulation / demodulation unit 16, the distributor / synthesizer 15, and the coaxial cable 2c.

In the IDU 2b, an amplification gain notification control signal received from the coaxial cable 2c is input to the control unit 26 via the distributor / synthesizer 24 and the control signal modulation / demodulation unit 25, and the control unit 26 responds to the notification of the amplification gain. The gain control signal is input to the variable gain amplifier 21 to increase or decrease the gain of the variable gain amplifier 21, and the adjustment signal is again transmitted to the modulation / demodulation unit 20, the variable gain amplifier 21, the transmission / reception switch 23,
ODU2a via distribution / synthesizer 24 and coaxial cable 2c
Send to As described above, the adjustment signal is amplified from the IDU 2b with a certain gain and transmitted to the ODU 2a. The ODU 2a detects the reception level of the adjustment signal and transmits a gain increase / decrease notification to the IDU 2b. The cycle of adjusting and transmitting the adjustment signal again is repeatedly executed as necessary.

When the ODU 2a detects a predetermined reception level (proper value) from the adjustment signal, the control unit 1
8 transmits the control signal of the appropriate notification to the IDU 2b through the control signal modulator / demodulator 16, the distributor / synthesizer 15, and the coaxial cable 2c. In the IDU 2b, the appropriate notification control signal received from the ODU 2a is input to the control unit 26 in the same manner as described above, and the control unit 26 responds to the notification by using the variable gain amplifier 21
Is completed, and the gain of the variable gain amplifier 21 is fixedly set to the value at that time. Therefore, by amplifying the variable gain amplifier 21 with the set gain, the ODU 2a can obtain a predetermined signal level, and the transmission loss of the coaxial cable 2c in the transmission direction is compensated.

When the gain of the variable gain amplifier 21 is set in response to the appropriate notification, the control unit 26 uses the gain setting value as a control signal to the ODU 2a through the control signal modulation / demodulation unit 25, the distributor / synthesizer 24, and the coaxial cable 2c. Send,
In the ODU 2a, the gain setting value notification control signal received from the IDU 2b is transmitted to the distribution / combiner 15 and the control signal modem 16
Is input to the variable gain amplifier 13 as the gain control signal, and the gain of the variable gain amplifier 13 is fixed to the notified value. Set to.

Since the transmission loss depends on the cable length except for the case where the cable transmission loss differs between transmission and reception as described later, the gain of the variable gain amplifier 13 in the receiving direction is set to a gain capable of paving the cable loss in the transmitting direction. By doing so, the transmission loss in the receiving direction of the coaxial cable 2c is also compensated. Therefore, the variable gain amplifiers 13 and 21 are configured to compensate for the transmission loss in both directions of the coaxial cable 2c without performing the detection processing on the IDU 2b side.
Can be set. Further, since the variable gain amplifier 13 on the receiving side is provided in the ODU 2a instead of the IDU side, necessary amplification can be performed at the time of input to the cable 2c, and the receiving sensitivity can be improved even when the cable length is considerably long. There are also advantages that can be achieved.

Note that, for example, a variable attenuator can be used as the variable gain amplifier. In addition, if the same variable gain amplifier is used for the transmission side and the reception side, the transmission side and the reception side may be set to the same amplification gain as described above, but different variable gain amplifiers are used. In such a case, a calibration value corresponding to this may be prepared in advance, and the corrected gain may be set in the variable gain amplifier.

Here, the same intermediate frequency signal as the communication signal is used as the cable loss adjustment signal as described above. For example, QAM (Quadrature Amplitude Modulatio) is used.
n) and D-QPSK (Differential Quadri-Phase Shift
In the case where the wireless communication apparatus adopts a modulation method in which the amplitude is not constant such as Keying), it may be difficult to perform accurate gain adjustment because the detection result in the detection unit 17 that performs amplitude detection is not stable. Conceivable. In such a case, the control unit 26 stops the function of the modulation / demodulation unit 20 with respect to the adjustment signal, or amplifies the adjustment signal with the variable gain amplifying unit 21 without passing through the modulation / demodulation unit 20 and uses the cable. A circuit may be designed so as to be transmitted, for example, and the adjustment signal may be transmitted by a cable using an unmodulated wave that is not modulated.

FIG. 2 shows a main configuration of a subscriber station 2 according to a second embodiment of the present invention. This embodiment is a radio communication apparatus for performing full-duplex communication of the FDD system. In this example,
Differences and features from the above-described example shown in FIG. 1 will be described, and similar parts will be denoted by the same reference numerals and description of other parts will be simplified. Since this example is of the FDD system, the ODU2a
Does not have the transmission / reception switch 14 provided in the TDD system, and differs from the TDD system in that the transmission / reception frequency is different. Therefore, the frequency of the intermediate frequency signal communicated by cable between the ODU 2a and the IDU 2b is Are also different in sending and receiving.

In this example, the gain setting processing of the variable gain amplifiers 13 and 21 for compensating for the transmission loss of the coaxial cable 2c is slightly different from that of the above example under the control of the control units 18 and 26. Is performed with the difference Similarly to the above example, first, the IDU 2b amplifies the adjustment signal (intermediate frequency signal) with the initial gain by the variable gain amplifier 21 and transmits the signal to the ODU 2a via the coaxial cable 2c. Cable 2c
And the detection unit 17 detects the signal level, determines the detected signal level, and sends a notification control signal to the IDU 2b to increase or decrease the amplification gain to the coaxial cable 2c.
, And the cycle in which the IDU 2b adjusts the gain of the variable gain amplifier 21 according to the notification and transmits the adjustment signal again is repeated as necessary.

In such a gain adjustment process, similarly, the control unit 18 stops the functions of the transmission unit after the detection unit 17 to prevent the adjustment signal from being wirelessly transmitted from the antenna. , Preventing the occurrence of radio interference. Similarly, when the ODU 2a detects a predetermined reception level (proper value) from the adjustment signal, it transmits a proper notification control signal to the IDU 2b through the coaxial cable 2c, and
When the DU 2b receives the appropriate notification control signal, the DU 2b ends the gain change control of the variable gain amplifier 21, and sets the gain of the variable gain amplifier 21 to a value at that time. Therefore, similarly to the above example, the gain of the variable gain amplifier 21 is set so that the transmission loss of the coaxial cable 2c in the transmission direction is compensated.

Here, also in this example, when the gain of the variable gain amplifier 21 is set according to the appropriate notification, the control unit 26 transmits the gain setting value as a control signal to the ODU 2a through the coaxial cable 2c. In the present example, the control unit 18 of the ODU 2a inputs the gain setting value obtained by adding the notified gain setting value based on the difference between the transmission and reception frequencies to the variable gain amplifier 13 as a gain control signal, and 13 is fixedly set to the value. That is, it is generally known that there is a certain relationship between cable loss and operating frequency. For example, transmission loss (attenuation) of an FB type coaxial cable
Is as shown in FIG. For example, when the transmission intermediate frequency is 100 MHz and the reception intermediate frequency is 200 MHz, it can be seen that (reception cable loss) = (transmission cable loss) × 1.5.

Therefore, the control unit 18 of the ODU 2a
Variable gain amplifier 2 on transmission side for compensating transmission cable loss
A correction operation derived from the frequency characteristics of cable transmission loss is added to the set gain of 1, and the corrected gain value is set in the variable gain amplifier 13 on the receiving side. Therefore, IDU2
The coaxial cable 2 does not perform the detection process on the b side.
The gains of the variable gain amplifiers 13 and 21 can be appropriately set so as to compensate for the transmission loss in both directions c.

Note that the variable gain amplifier 13 on the receiving side is
The provision of U2a makes it possible to improve the reception sensitivity even when the cable length is considerably long.
For example, a variable attenuator can be used as the variable gain amplifier.If different variable gain amplifiers are used on the transmission side and the reception side, a calibration value corresponding to this is prepared in advance, and correction is performed by that. This is the same as the above example in that the gain may be set in the variable gain amplifier. Also, if the wireless communication apparatus employs a modulation method in which the amplitude is not constant, the adjustment signal may be transmitted by cable using an unmodulated wave that is not subjected to modulation.
This is the same as the above example.

Although the subscriber station 2 has been described as an example, the present invention can be similarly applied to the base station 1. Further, the present invention is not limited to the subscriber-based wireless access system, and can be widely applied not only to the communication system but also to a wireless communication device that performs two-way communication through a cable.

[0038]

As described above, according to the present invention,
By simply adding necessary and sufficient functions to the radio unit and the control unit, it is possible to perform gain setting for compensating for cable loss in both transmission and reception directions. In particular,
Depending on the installation environment, the length of the cable connecting the radio unit and the control unit varies, and it is necessary to install the radio unit (ODU) at a high place outdoors. The gain can be easily set, and the installation workability can be maintained without increasing the size of the radio unit (ODU).

[Brief description of the drawings]

FIG. 1 is a main part configuration diagram of a subscriber station according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram of a main part of a subscriber station according to a second embodiment of the present invention.

FIG. 3 is a diagram illustrating frequency characteristics of coaxial cable loss.

FIG. 4 is a diagram illustrating an example of a subscriber wireless access system.

FIG. 5 is a diagram showing a conventional example.

[Explanation of symbols]

1: base station, 2: subscriber station, 1a, 2a: outdoor unit (ODU, radio unit), 1b, 2b: indoor unit (IDU, control unit), 1c, 2c: coaxial cable, 13: receiving unit Variable gain amplifier, 14: transmission / reception switch, 17: detection unit, 18: control unit, 20: modulation / demodulation unit, 21: transmission unit variable gain amplifier, 26: control unit,

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Naoto Inuchi 3-14-20 Higashinakano, Nakano-ku, Tokyo Stock Company Hitachi Kokusai Electric Inc. (72) Teruhisa Yoshida 3-14-20 Higashinakano, Nakano-ku, Tokyo Stock AJ02 AA09 BA01 DA07 EA02 FA01 FA02 JA02 KA05 MA01 QA01 SA01 SA02 5K011 BA01 BA09 DA12 DA21 EA03 FA07 JA01 KA02 KA13 5K060 BB07 CC01 CC04 DD03 FF06 HH09 LL01 5K06 AB

Claims (5)

[Claims] A wireless communication unit configured to control a wireless communication unit and a control unit configured to perform control processing by connecting the wireless unit to the wireless communication unit via a cable; In a wireless communication apparatus in which a control unit receives a communication signal wirelessly received by a control unit through a cable, the control unit includes a transmission system variable gain amplification function of amplifying a signal transmitted to the wireless unit through the cable, and an adjustment signal. A function of amplifying the transmission system variable gain amplification function and transmitting it to the wireless unit through the cable, and a function of setting the gain of the transmission system variable gain amplification function when receiving an appropriate notification from the wireless unit through the cable, Transmitting the set value to the wireless unit via a cable. The control unit has a receiving system variable gain amplification function of amplifying a signal transmitted through a cable to the control unit, a function of detecting a level of an adjustment signal received from the control unit through the cable, and a function of detecting the detected level by a predetermined value. It has a function of transmitting an appropriate notification to the control unit through the cable when the value becomes an appropriate value, and a function of setting the gain of the variable gain amplifier of the receiving system according to the setting value received from the control unit through the cable. A wireless communication device. 2. The wireless communication device according to claim 1, wherein communication is performed by a TDD method, and a level detection function provided in the wireless unit detects a level of the adjustment signal from its own transmission system. The radio unit has a transmission / reception switch function of switching a signal received from the control unit through a cable between a transmission system and a reception system, and inputs an adjustment signal received from the control unit to the transmission system by a transmission / reception switch function. And a function of stopping a transmission processing function downstream of the level detection unit of the transmission system. 3. The wireless communication apparatus according to claim 1, wherein the function of performing communication according to the FDD system and setting a set value in a variable gain amplifying function of a receiving system provided in the wireless unit includes receiving from the control unit. A wireless communication apparatus, wherein a gain obtained by adding a correction based on a difference between a transmission frequency and a set value to a set value is set in a variable gain amplification function of a reception system. 4. The radio communication apparatus according to claim 1, wherein the control unit modulates a signal transmitted to the radio unit through a cable, and modulates an adjustment signal. And a function of transmitting the adjustment signal without modulation to the wireless unit. 5. A wireless unit configured to perform wireless communication processing and a control unit to perform control processing are connected by a cable, and the control unit transmits a communication signal transmitted through the cable, and the wireless unit wirelessly transmits the communication signal. For a wireless communication device in which the control unit receives a communication signal wirelessly received by the control unit through a cable, a gain of a transmission system variable gain amplifying function provided in a transmission system of the control unit and a reception system of the wireless unit A method for setting the gain of the variable gain amplification function of the receiving system provided in the wireless communication unit by compensating for the cable loss, wherein the control unit amplifies the adjustment signal by the variable gain amplifying function of the transmission system and passes through the cable to the radio unit. Transmitted to the unit, the radio unit detects the level of the adjustment signal received from the control unit, and the detection level becomes a predetermined appropriate value. When the proper notification is transmitted to the control unit through the cable, the control unit sets the gain of the transmission system variable gain amplifying function when the proper notification is received from the wireless unit, and transmits the set value through the cable. A gain setting method for a wireless communication apparatus, comprising: setting a gain of a variable gain amplifying function of a reception system according to a setting value transmitted to a radio unit and received from the control unit by the radio unit.