JP2010252274A - Repeater apparatus and communication control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To stabilize repeater output even if input level (path loss) variation exceeds a gain control range, by adding a predetermined attenuation amount to donor input and combining it with an ALC function in a repeater apparatus for repeating and connecting wireless communication. <P>SOLUTION: The repeater apparatus 1, for relaying and connecting a small-sized base station 3 and a wireless communication terminal 2 through wireless communication, comprises: a donor antenna D-ANT for receiving a radio signal from the small-sized base station 3; an output terminal 16 for transmitting the radio signal received by the donor antenna D-ANT to the communication terminal as repeater output; and a gain control section 13 and a fixed ATT 15 for maintaining the repeater output at a fixed value when a strength of the signal received by the donor antenna D-ANT is out of a gain control range. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a repeater apparatus and a communication control method for relay-connecting a radio base station and a communication terminal by radio communication.

  Conventionally, for example, in mobile communication in which a wireless communication terminal is connected to a communication network through a wireless base station, such as a mobile phone system or PHS (Personal Handyphone System), the wireless communication terminal and the wireless base are connected via a so-called repeater device. A system for relaying communication with a station has been developed (see, for example, Patent Document 1). As this repeater device, there is a case where a small base station installed indoors is used as a donor station, and relaying is performed between the donor station and a radio communication terminal indoors. In this case, the repeater device receives the radio wave from the donor station by the donor antenna (D-ANT) and retransmits the radio signal to the wireless communication terminal.

  By the way, in an environment where the distance between the donor station and the donor antenna is short, such as indoors, the input level (path loss) fluctuates (decreases) just by slightly changing the installation location of the repeater (closer to the base station). ) And there is a high possibility of over-input. Conventionally, as a countermeasure against such an excessive input, an apparatus provided with an ALC (Automatic Level Control) function for controlling the output to a certain level has been developed (for example, see Patent Document 1).

JP 2007-295135 A

  However, in the method of controlling the output to a constant level using ALC as in the technique disclosed in Patent Document 1 described above, when the gain control range is small, the path loss is reduced by a slight change in the installation location of the repeater device. May not be sufficiently absorbed. In particular, in low-power repeaters for mobile phones and PHS, the installation location can be changed by the user himself / herself under the Radio Law, so the installation location can be changed by the user's own operation even after installation / adjustment. The frequency is expected to increase.

  On the other hand, if the gain control range is increased too much, performance deterioration of radio characteristics is likely to occur, and there is a limit to cope with increasing the gain control range. As a countermeasure when exceeding the control range of the ALC function, there is a method of adjusting the level by inserting a fixed attenuator between the donor antenna and the repeater. However, with this method, local support is essential for installation and setting of the device, which makes immediate response difficult, and there is a possibility that installation costs and maintenance costs such as maintenance costs will increase as a telecommunications carrier.

  Therefore, the present invention solves the above-described problems. By adding a predetermined attenuation to the donor input and combining it with the ALC function, the fluctuation of the input level (path loss) exceeds the gain control range. An object of the present invention is to provide a repeater device and a communication control method that can stabilize the output of a repeater even in the case of a failure.

  In order to solve the above-described problems, the present invention provides a repeater device that relay-connects a radio base station and a communication terminal by radio communication, the antenna unit receiving a radio signal from the radio base station, and the antenna unit receiving A re-output unit that transmits the received radio signal as a repeater output to the communication terminal, and an output control unit that maintains the repeater output at a constant value when the signal strength received by the antenna unit is outside the gain control range. .

Another invention is a communication control method using a repeater device that relay-connects a wireless base station and a communication terminal by wireless communication,
(1) In the repeater device, a receiving step of receiving a radio signal from the radio base station by an antenna unit;
(2) a level control step of reducing the signal strength of the radio signal by a level control unit when the signal strength of the radio signal received by the antenna means is outside a certain gain control range;
(3) a gain control step of controlling the output level of the signal strength received by the antenna means or the output level of the signal strength reduced by the level control unit by the gain control unit within the constant gain control range; ,
(4) a re-output step of transmitting the radio signal whose output level is controlled in the gain control step as a repeater output while maintaining a constant value to the communication terminal.

  According to these inventions, since the repeater output can be maintained at a constant value even when the signal intensity received by the antenna means is outside the gain control range, for example, between the donor station and the donor antenna, such as indoors. Even if the installation location of the repeater device is changed and the input level fluctuates greatly in an environment where the distance is short, the possibility of excessive input can be reduced.

  In the present invention, the antenna means is composed of a first antenna part and a second antenna part, and the output control means is provided in one of the first antenna part and the second antenna part. It is preferable to include an attenuating unit and a switching unit that switches between the first antenna unit and the second antenna unit.

  In this case, the signal can be received with the signal intensity attenuated from the antenna section provided with the attenuating means, and can be received with the signal strength as it is from the antenna section not provided with the attenuating means. For this reason, according to the present invention, by switching between the first and second antennas, the received signal strength can be attenuated as necessary, and the repeater output can be maintained at a constant value.

  In the above invention, the antenna device further includes a housing that covers the outside of the repeater device and shields electromagnetic waves, and the antenna means is a first antenna portion disposed outside the housing and a second antenna disposed inside the housing. The output control means preferably includes switching means for switching between the first antenna part and the second antenna part.

  In this case, since the first and second antennas are respectively installed inside and outside the casing that shields electromagnetic waves, the signal intensity can be attenuated and received from the antenna portion provided in the casing. The signal can be received as it is from the antenna portion provided outside the housing. For this reason, according to the present invention, by switching between the first and second antennas, the received signal strength can be attenuated as necessary, and the repeater output can be maintained at a constant value.

  In the present invention, the antenna means includes a first antenna unit separated from the radio base station by a first distance, and a second antenna unit separated from the radio base station by a second distance shorter than the first distance. The output control means preferably includes switching means for switching between the first antenna part and the second antenna part.

  In this case, since the first and second antennas are installed such that the distances from the radio base station are different from each other, the antennas that are separated from the radio base station by the first distance are provided. The signal can be received with the signal intensity attenuated from the unit, and the signal can be received with a stronger signal strength from the antenna unit provided at a second distance so as to be close to the radio base station. For this reason, according to the present invention, by switching between the first and second antennas, the received signal strength can be attenuated as necessary, and the repeater output can be maintained at a constant value.

  In the above invention, the output control means is disposed between the amplifier for amplifying the signal strength received by the antenna means within a certain gain control range and the antenna means, and the signal strength received by the antenna means is gain. It is preferable to provide a variable attenuator that variably attenuates the signal intensity to be within the gain control range when the control range is exceeded.

  In this case, if the received signal strength is within a certain gain control range, the amplifier can maintain the repeater output at a constant value, while if the received signal strength exceeds the gain control range, the signal strength is Can be received, the received signal strength can be amplified or attenuated as necessary, and the repeater output can be maintained at a constant value.

  In the above invention, it is preferable that the antenna means has a connection function capable of being integrally connected to a radio base station. In this case, the antenna on the repeater device side can be connected to the radio base station so that it can be integrated, and the radio wave from the radio base station can be received directly. By separating the antenna means from the radio base station and taking a distance, the intensity of the received signal can be attenuated.

  As described above, according to the present invention, in a repeater device that relays and connects wireless communications, a predetermined attenuation is added to a donor input, and combined with an ALC function, a fluctuation in input level (path loss) is gained. The repeater output can be stabilized even when the control range is exceeded. More specifically, the following effects can be expected.

(1) Since there is no restriction due to the gain control range of the received signal, the number of antennas, ATT amount, ATT step width, etc. can be freely designed, and a wide repeater input range can be supported.

(2) Since it can correspond to a wide range of repeater inputs, it is not necessary to fix and install the donor antenna. Therefore, it can be directly connected to or built in the repeater device body, and indoor wiring work can be avoided.

(3) Since the antenna or ATT amount is adaptively selected according to the output level, it is not necessary to strictly adjust the installation location of the repeater device body, so even if the input level (path loss) fluctuates after installation No local response is required.

It is a conceptual diagram which shows the whole structure of the communication system containing the repeater apparatus which concerns on embodiment. It is a block diagram showing typically an example of composition of a repeater device concerning an embodiment. It is a block diagram showing typically an example of composition of a repeater device concerning an embodiment. It is a flowchart figure which shows operation | movement of the communication system which concerns on embodiment. It is explanatory drawing which shows the specific example of the amplifier and attenuator which concern on embodiment. It is a conceptual diagram which shows the whole structure of the communication system containing the repeater apparatus which concerns on the example of a change.

(Overall configuration of communication system)
Embodiments of a repeater device and a communication method according to the present invention will be described below in detail with reference to the accompanying drawings. FIG. 1 is a conceptual diagram showing an overall configuration of a communication system including a repeater device according to the present embodiment.

  As shown in the figure, in this embodiment, the small base station 3 installed in the indoor A1 is used as a donor station, and the repeater device 1 relays between the small base station 3 and the wireless communication terminal 2 in the indoor A1. I do. In the repeater device 1, the radio wave from the donor station is received by the donor antenna D-ANT and retransmitted from the retransmission antenna S-ANT toward the radio communication terminal 2.

  The small base station 3 is, for example, a small wireless base station installed indoors, and is a base station that performs communication connection to a mobile terminal through a wireless base station such as a mobile phone system or a PHS. In this example, a small-sized mobile phone base station called a femtocell, which covers a narrow area with a radius of about 10 m, is taken as an example. Connected to a public network 31 such as

  The wireless communication terminal 2 is a mobile phone using wireless communication, communicates wirelessly with a relay point such as a general base station, and can receive a communication service such as a call or data communication while moving. The wireless communication terminal 2 also has a function of performing wireless communication with the small base station 3, a function of storing downloaded content data, and a function of executing stored content data. Examples of the communication system of the cellular phone include an FDMA system, a TDMA system, a CDMA system, a W-CDMA, a PHS (Personal Handyphone System) system, and the like. In addition, as a wireless communication interface different from the communication method described above, a function corresponding to a communication method based on transmission / reception of IP packets in accordance with wireless LAN standards and the like is also provided. Furthermore, the wireless communication terminal 2 is equipped with functions such as a digital camera function, an application software execution function, or a GPS function, and also functions as a personal digital assistant (PDA).

(Configuration of repeater device)
As a basic configuration of the repeater apparatus 1, a radio wave from a donor station is received by a donor antenna D-ANT, a reception signal is amplified by an amplifier 12, and is output from an output terminal 16 for a retransmission antenna S-ANT. More specifically, the repeater device 1 outputs a donor antenna D-ANT that receives a radio signal from the small base station 3 and a radio signal received by the donor antenna D-ANT to the radio communication terminal 2 as a repeater output. The output terminal 16, the control unit 18 that performs general control of communication and the like, and the output control means that maintains the repeater output at a constant value are basically configured.

  The donor antenna D-ANT is an antenna for performing wireless communication with the small base station 3. A radio signal received from the small base station 3 by the donor antenna D-ANT is input to the amplifier 12 and output. A wireless signal input from the terminal 16 side is wirelessly transmitted to the small base station 3. The output terminal 16 is a connection terminal for re-output to which the re-transmission antenna S-ANT is connected, and transmits a repeater output to the re-transmission antenna S-ANT. The re-transmission antenna S-ANT is an antenna for performing radio communication with the radio communication terminal 2, and inputs a radio signal received from the radio communication terminal 2 side to the amplifier 12 side and is output from the amplifier 12 side. A wireless signal is wirelessly transmitted to the wireless communication terminal 2.

  The control unit 18 is an arithmetic processing unit that controls each unit of the repeater device 1 such as the amplifier 12, the switch unit 14, or the ATT. The control unit 18 may be connected to a detector that detects the output level of the radio signal received by the donor antenna D-ANT. Depending on the detection result of the detector, the switch unit 14 can be switched. The control of each unit such as the amplifier 12, ATT and ALC may be automatically performed.

  The output control means is a device group for maintaining the output level of the radio signal received by the donor antenna D-ANT constant. Specifically, this output control means adjusts the gain (signal amplification width) so that oscillation does not occur when the received signal strength (reception level) is within a range that can be increased or decreased (a constant gain control range). On the other hand, when the signal strength of the radio signal is outside a certain gain control range, the output level is shifted (reduced) so that the signal strength of the radio signal is within the gain control range, and within the gain control range. , The gain of the radio signal is controlled to keep the repeater output from the output terminal 16 constant.

Various configuration examples are conceivable as the output control means. 2 and 3 are block diagrams schematically showing a configuration example of the repeater device 1 according to the present embodiment.
(1) Configuration Example Using Fixed ATT FIG. 2A shows a configuration example of a repeater device when a fixed ATT is used. In this configuration example, the donor antenna D-ANT is composed of a first donor antenna D-ANT1 and a second donor antenna D-ANT2. The output control means includes a fixed ATT 15 provided in one of the first donor antenna D-ANT1 and the second donor antenna D-ANT2, and the first donor antenna D-ANT1 and the second donor. The switch part 14 which switches antenna D-ANT2 is comprised.

  The fixed ATT 15 is a fixed attenuator, and attenuates the signal level when the signal strength received by the second donor antenna D-ANT2 is outside the gain control range. The radio signal whose output level is reduced by the fixed ATT 15 is input to the amplifier 12 via the switch unit 14.

  The switch unit 14 is a switching unit that alternatively inputs a signal input from the first donor antenna D-ANT1 or the second donor antenna D-ANT2 to the amplifier 12. The switching of the switch unit 14 may be performed by an operation by an operator, or may be automatically switched by the control unit 18 according to the received signal strength.

  The amplifier 12 is an amplifying device that amplifies the received signal. In the present embodiment, the amplifier 12 has an ALC (automatic level control) function, and controls the gain of the received radio signal within a predetermined gain control range. The output level for the output terminal 16 is controlled.

  According to the repeater device 1 having such a configuration example, the signal strength can be received from the second antenna unit D-ANT2 with the fixed ATT 15 being attenuated, and the first antenna unit having no attenuation means is provided. D-ANT1 can be received with the same signal strength. Therefore, the first and second antennas can be selected by switching the switch unit 14, and when the received signal strength is outside the gain control range of the amplifier 12, the signal strength is attenuated and the amplifier 12 and the repeater output from the output terminal 16 can be maintained at a constant value.

(2) Configuration Example Using Electromagnetic Shielding Material for Case FIG. 2B shows a configuration example using an electromagnetic shielding material for the case. In this configuration example, the donor antenna D-ANT is composed of a first donor antenna D-ANT1 and a second donor antenna D-ANT2.

  In this configuration example, the outside of the apparatus is covered with a housing formed of a material that shields electromagnetic waves (electromagnetic shielding material), and the donor antenna D-ANT is the same as the first donor antenna D-ANT1. And a second donor antenna D-ANT2. The first donor antenna D-ANT1 is arranged outside the housing 11, and the first donor antenna D-ANT1 and the second donor antenna D-ANT2 are switched by the switch unit 14.

  The case 11 is a case for containing the amplifier 12, the switch unit 14, and other devices described above. For example, in addition to a metal plate, a metal net (wire mesh, expanded metal, punching metal, etc.), metal Molded with film (metal foil, vapor deposition, plating), metal spraying, conductive coating, conductive plastic, etc.

  The amplifier 12 is an amplifying device that amplifies the received signal, similarly to the configuration example described above. In this embodiment, the amplifier 12 is provided with an ALC (automatic level control) function, and the received signal strength is within a predetermined gain control range. The output level for the output terminal 16 is controlled.

  According to the repeater device 1 having such a configuration example, the signal strength can be attenuated and received by the electromagnetic shield from the second antenna unit D-ANT2 in the housing, and the first antenna unit D outside the housing can be received. -It is possible to receive from ANT1 with the same signal strength. Therefore, the first and second antennas can be selected by switching the switch unit 14, and when the received signal strength is outside the gain control range of the amplifier 12, the signal strength is attenuated and the amplifier 12 and the repeater output from the output terminal 16 can be maintained at a constant value.

(3) Configuration Example Using Variable ATT FIG. 2C illustrates a configuration example using variable ATT. In this configuration example, the donor antenna D-ANT is a single antenna, and a variable ATT 17 is disposed between the donor antenna D-ANT and the amplifier 12.

  The variable ATT 17 is a variable attenuator that variably attenuates the signal strength when the signal strength received by the donor antenna D-ANT exceeds the gain control range of the amplifier 12 to be within the gain control range. . Specifically, as shown in FIG. 5A, a plurality of resistors R are connected in series, and the resistance value is variable by turning on / off the connection switch. Thus, the output level can be strictly adjusted.

  In this embodiment, as shown in FIG. 2C, the variable ATT 17 and the amplifier 12 are connected in series. However, the present invention is not limited to this, and for example, as shown in FIG. As shown, it may be an operational amplifier that performs negative feedback. More specifically, as shown in the figure, a part of the output from the amplifier 121 is inverted through the attenuator 122 to be a negative value, and then returned to the input side of the amplifier 121 to be compared with the amplifier 121. Input. With this operational amplifier format, the input signal Vin to the amplifier 121 can be reduced by an inversion Vb and input as Vi. According to this, even when an abnormal value is input to the amplifier 121 due to excessive input, the output is stabilized by canceling the abnormal value by the differential input (negative feedback) obtained by inverting the abnormal value. Can do.

  According to the repeater device 1 having such a configuration example, when the received signal strength is within a certain gain control range, the amplifier output having the ALC function can be appropriately amplified to maintain the repeater output at a constant value. On the other hand, when the received signal strength exceeds the gain control range of the amplifier 12, the signal strength can be attenuated and received by the variable ATT 17. As a result, according to this embodiment, the received signal strength can be amplified or attenuated as necessary, and the repeater output can be maintained at a constant value.

(4) Configuration Example Using Input Level Difference According to Antenna Installation Position FIG. 3 shows a configuration example using input level difference according to the antenna installation position. In this configuration example, the donor antenna D-ANT is positioned away from the small base station 3 and the first donor antenna D-ANT1 installed near the small base station 3 (position separated by the first distance). It is composed of a second donor antenna D-ANT2 installed at (a position separated by a second distance). Then, the first donor antenna D-ANT1 and the second donor antenna D-ANT2 are switched by the switch unit 14.

  The amplifier 12 is an amplifying device that amplifies the received signal, similarly to the above-described configuration example. In the present embodiment, the amplifier 12 is provided with an ALC (automatic level control) function, and the received radio signal is within a predetermined gain control range. The output level of the radio signal with respect to the output terminal 16 is kept constant.

According to the repeater apparatus 1 having such a configuration example, the first donor antenna D-ANT1 and the second donor antenna D-ANT2 are installed at different positions and are installed so that the reception levels from the radio base stations are different. Therefore, by selecting the first and second antennas by switching the switch unit 14, when the received signal strength is outside the gain control range of the amplifier 12, the signal strength is attenuated to reduce the amplifier 12. Enter
More specifically, as shown in FIG. 3A, when there is an obstacle 19 between the small base station 3 and the repeater device 1, the donor antenna D closer to the small base station 3 in order to secure a gain. -When ANT1 is used and then the environment changes, such as when the obstacle 19 is removed, and the donor antenna D-ANT1 is over-input, switching to the donor antenna D-ANT2 reduces the reception level. The repeater output from the output terminal 16 is set to a constant value.

(Communication control method)
By operating the communication system having the above configuration, the communication control method of the present invention can be implemented. FIG. 4 is a flowchart showing the operation of the communication system according to this embodiment. In this example, the attenuation value (ATT value) by the variable ATT is changed stepwise by a predetermined step size (XdB), and the repeater output is attenuated by the ATT value by adding the variable ATT. Explained.

  As shown in FIG. 4, when the repeater device 1 is installed or when power is input (ON), output detection is performed with the initial value of ATT set to α dB (maximum value) (S101). For this detected output, if the ATT value is αdB and the repeater output is lower than the ALC level (“N” in S103 and S105), the ATT value αdB is reduced to (α−X) dB (S107). On the other hand, when the output is higher than the ALC level (“Y” in S105), the ATT value αdB is increased to (α + X) dB (S106). Here, XdB is the step size of output control. In the case of a method of switching between the fixed ATT and the first and second donor antennas, this step size is switched in two stages.

  Here, since the variable ATT is used, the ATT value can be adjusted stepwise until the output reaches the ALC level by repeating the steps S103 to S107 using the increased or decreased ATT value. For example, when the ATT value is reduced to α-XdB in step S107, the output is detected using the reduced ATT value α-XdB (S102), and the output is lower than the ALC level again. ("N" in S103 and S105), the ATT value is changed from α-XdB to α-2XdB. By repeating this process, the ATT value is adjusted until the output reaches the ALC level.

  The output control is also performed when there is a change in the surrounding environment where the repeater device 1 is installed. Specifically, for example, when the repeater device 1 approaches the small base station 3 or an obstacle is removed, the output becomes larger than the ALC level and an over-input state occurs. After adding ATT15 and 17 and shifting the output within the ALC operating range, strict level adjustment is performed by ALC. On the other hand, for example, when the repeater apparatus 1 is far from the small base station 3 or an obstacle occurs, the output becomes ALC level or lower, and the ATTs 15 and 17 are deleted.

(Example of change)
In the above embodiment, the donor antenna D-ANT may be provided with a connection function that can be integrally connected to the main body of the small base station 3. As this connection function, the bottom of the small base station 3 is placed on the plate-shaped donor antenna D-ANT, and the engaging means on the bottom of the small base station 3 and the engaging means on the donor antenna D-ANT side The structure which connects and fixes can be considered. As the engaging means, various methods such as fitting the other convex portion into one concave portion and fixing with a screw or a bolt can be considered.

  In such a modified example, as shown in FIG. 6A, it is possible to adopt a proximity installation system in which the donor antenna D-ANT on the repeater device 1 side is connected to the bottom of the small base station 3 and the like. The radio wave from the small base station 3 can be received directly. On the other hand, as shown in FIG. 6B, the donor antenna D-ANT is separated from the small base station 3 as necessary, and for example, the distance from the small base station 3 can be taken by installing it on the wall surface. And the intensity of the received signal can be attenuated.

  For example, in the examples shown in FIGS. 2A, 2B, and 3, the above-described connection function is provided in either D-ANT1 or D-ANT2, and the main base of the small base station 3 is configured to receive signals. D-ANT1 or D-ANT2 may be switched according to the signal strength. Also, in the example shown in FIG. 2C, the D-ANT is provided with the above connection function and docked to the main body of the small base station 3, and the small base station 3 and the donor antenna D according to the reception strength. -You may make it adjust the intensity | strength of a received signal also with the distance between the small base station 3 and the donor antenna D-ANT together with the level adjustment by ATT, attaching and detaching.

(Function and effect)
According to the present embodiment, since the repeater output can be maintained at a constant value even when the signal intensity received by the antenna is outside the gain control range, for example, between the donor station and the donor antenna, such as indoors. In an environment where the distance between them is short, even if the input level fluctuates greatly due to a change in the installation location of the repeater device or the presence or absence of an obstacle, the possibility of excessive input can be reduced.

  Specifically, according to the present embodiment, since the attenuation function by ATT or the like is combined with ALC, the repeater output can be stabilized even when the fluctuation of the input level (path loss) exceeds the gain control range.

  As a result, according to the present embodiment, the number of antennas, the ATT amount, the ATT step width, etc. can be freely designed without being restricted by the gain control range, so that a wide range of repeater input ranges can be accommodated and the repeater installation conditions are flexible. Is increased. Moreover, since it can respond to a wide input range, the necessity to fix and install the donor antenna is reduced. For example, the donor antenna can be directly connected to or built in the repeater, and complicated indoor wiring work can be avoided.

  Furthermore, because the antenna or ATT amount is adaptively selected according to the output level, strict adjustment of the installation location is not required, and even if the input level (path loss) fluctuates after installation, no local response is required. Become.

D-ANT ... Donor antenna S-ANT ... Retransmission antenna 1 ... Repeater device 2 ... Wireless communication terminal 3 ... Small base station 11 ... Housing 12 ... Amplifier 13 ... Gain control unit 14 ... Switch unit 15 ... Fixed ATT
16 ... Output terminal 17 ... Variable ATT
18 ... Control unit 31 ... Public network 121 ... Amplifier 122 ... Attenuator

Claims (12)

A repeater device that relay-connects a wireless base station and a communication terminal by wireless communication,
Antenna means for receiving a radio signal from the radio base station;
A re-output unit that transmits the wireless signal received by the antenna means as a repeater output to the communication terminal;
A gain controller for controlling the gain of the radio signal received by the antenna means within a certain gain control range;
A repeater apparatus comprising: a level control unit that maintains the repeater output at a constant value when a signal strength of a radio signal received by the antenna unit is outside a gain control range. The antenna means includes a first antenna unit and a second antenna unit,
The level controller is
Attenuating means provided in one of the first antenna unit and the second antenna unit;
The repeater apparatus according to claim 1, comprising a switching unit that switches between the first antenna unit and the second antenna unit. Covering the outside of the repeater device, further comprising a housing for shielding electromagnetic waves,
The antenna means includes
A first antenna unit disposed outside the housing;
A second antenna unit disposed inside the housing;
The repeater apparatus according to claim 1, wherein the level control unit includes a switching unit that switches between the first antenna unit and the second antenna unit. The antenna means includes
A first antenna unit spaced from the radio base station by a first distance;
A second antenna unit spaced apart from the radio base station by a second distance shorter than the first distance;
The repeater apparatus according to claim 1, wherein the level control unit includes a switching unit that switches between the first antenna unit and the second antenna unit.   The level control unit is disposed between the antenna unit and the gain control unit, and when the signal strength received by the antenna unit exceeds the gain control range, the signal strength is variably attenuated, The repeater device according to claim 1, further comprising a variable attenuator within the gain control range.   The repeater apparatus according to claim 1, wherein the antenna unit has a connection function capable of being integrally connected to the radio base station. A communication control method using a repeater device that relay-connects a wireless base station and a communication terminal by wireless communication,
In the repeater apparatus, a receiving step of receiving a radio signal from the radio base station by an antenna unit;
A level control step of reducing the signal strength of the radio signal by a level control unit when the signal strength of the radio signal received by the antenna means is outside a certain gain control range;
A gain control step of controlling the output level of the signal strength received by the antenna means or the output level of the signal strength reduced by the level control unit by the gain control unit within the constant gain control range;
A communication control method comprising: a re-output step of transmitting the radio signal whose output level is controlled in the gain control step as a repeater output while maintaining a constant value to the communication terminal. The antenna means comprises a first antenna part and a second antenna part,
Attenuating means is provided on one of the first antenna part and the second antenna part,
8. The communication control method according to claim 7, wherein, in the level control step, signal strength of the radio signal is reduced by switching the first antenna unit and the second antenna unit by a switching unit. . Cover the outside of the repeater device with a casing that shields electromagnetic waves,
The antenna means comprises a first antenna portion disposed outside the housing and a second antenna portion disposed inside the housing,
8. The communication control method according to claim 7, wherein, in the level control step, signal strength of the radio signal is reduced by switching the first antenna unit and the second antenna unit by a switching unit. . A first antenna unit that is separated from the radio base station by a first distance, and a second antenna unit that is separated from the radio base station by a second distance shorter than the first distance. And consisting of
8. The communication control method according to claim 7, wherein, in the level control step, signal strength of the radio signal is reduced by switching the first antenna unit and the second antenna unit by a switching unit. .   In the level control step, when the signal strength received by the antenna means exceeds the gain control range by a variable attenuator disposed between the antenna means and the gain control unit, the signal strength is variable. The communication control method according to claim 7, wherein the communication control method is adjusted to fall within the gain control range.   The communication control method according to claim 7, wherein the antenna unit has a connection function capable of being integrally connected to the radio base station.