JP3971206B2 - Wireless communication device, outdoor device and indoor device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
This invention relates to wireless communication devices, in particular, it is composed of a outdoor unit and the indoor unit, relates to radio communication equipment for use in a radio access system or the like.
[0002]
[Prior art]
In general, in a wireless communication device used in a wireless access system or the like, a wireless processing device installed outdoors is called an ODU (Out Door Unit), and a modulation / demodulation processing device installed indoors is called an IDU (In Door Unit). It is. The ODU and IDU are connected by a coaxial cable by an intermediate frequency signal (IF signal) or the like.
[0003]
The ODU converts the IF signal transmitted from the IDU into a radio signal, converts the frequency into a radio signal, amplifies the power by a power amplifier circuit (output amplifier), and transmits the radio signal received by the antenna as an IF signal. It is composed of a receiving system function that converts the frequency and sends it to the IDU.
[0004]
By the way, in the wireless processing apparatus, the back-off amount of the output amplifier of the ODU is appropriately set corresponding to the modulation method employed in the IDU.
[0005]
That is, as the IDU modulation scheme becomes multi-level modulation, the amount of information increases and a low distortion characteristic is required. Therefore, in order to cope with this, the ODU output amplifier takes a large backoff amount and outputs it. The highly linear area of the amplifier must be used.
[0006]
For example, when the IDU modulation method is QPSK (Quadrature Phase Shift Keying), the output amplifier of the ODU must be operated with a back-off of at least about 4 dB from P1 dB (1 dB compression point). When the system is 16QAM (Quadrature Amplitude Modulation), it is necessary to operate the output amplifier of the ODU with a back-off of at least about 7 dB from P1 dB.
[0007]
Therefore, in the conventional radio processing apparatus, the back-off amount of the output amplifier of the ODU is individually set according to the IDU modulation method, so that if the IDU modulation method is different, the corresponding ODU is Therefore, it is necessary to manufacture a plurality of types of ODUs corresponding to the IDU modulation method.
[0008]
Therefore, for example, when the IDU is exchanged in order to change the modulation scheme of the IDU, it is necessary to exchange the ODU while maintaining the same radio frequency.
[0009]
[Problems to be solved by the invention]
As described above, in a wireless communication device used in a conventional wireless access system or the like, it is necessary to manufacture a plurality of types of ODUs with different output amplifier back-off amounts corresponding to the IDU modulation method. As a result, there is a problem in that the complexity of management increases, and as a result, the manufacturing cost of the entire apparatus increases.
[0010]
Therefore, the present invention enables an ODU to be shared for a plurality of types of IDUs having different modulation schemes, thereby reducing the complexity of management in manufacturing and reducing the cost, and an outdoor device, An object is to provide an indoor device .
[0011]
[Means for Solving the Problems]
In order to achieve the above-described object, the invention of claim 1 includes an outdoor device connected to a transmission / reception antenna, and an indoor device connected to the outdoor device via a coaxial cable and connected to a user terminal device. The outdoor device converts a radio signal received by the transmission / reception antenna into an intermediate frequency signal and transmits the signal to the indoor device via the coaxial cable, and is transmitted from the indoor device via the coaxial cable. After the intermediate frequency signal is converted into a radio signal, the transmission power amplifying circuit amplifies the power and outputs to the transmission / reception antenna, and the indoor device performs a predetermined modulation on the intermediate frequency signal transmitted from the outdoor device. Demodulated by a method and output to a user terminal device, and a signal from the user terminal device is modulated to an intermediate frequency signal by the modulation method, A wireless communication device which performs modulation and demodulation processing to be output to the outdoor unit via a coaxial cable, wherein the indoor unit includes a modulation method information generating means for generating a modulation scheme information indicating a modulation scheme used in the modulation and demodulation processing, the modulation scheme Modulation method information transmitting means for transmitting the modulation method information generated by the information generating means to the outdoor device via the coaxial cable superimposed on an intermediate frequency signal transmitted to the outdoor device, the outdoor device comprising : Separating means for separating the modulation scheme information from the intermediate frequency signal transmitted from the indoor unit via the coaxial cable, and backoff of the transmission power amplifier circuit based on the modulation scheme information separated by the separation means characterized by comprising a back-off amount varying means for varying the amount.
[0012]
According to a second aspect of the present invention, in the first aspect of the present invention, the back-off amount varying means is disposed in a preceding stage of the transmission power amplifier circuit and is input to the transmission power amplifier circuit based on the modulation scheme information. An attenuator for varying the attenuation of the signal is provided.
[0013]
The invention of claim 3 is connected to an indoor unit that is connected to a transmission / reception antenna and performs modulation / demodulation processing of a transmission / reception signal to / from a user terminal via a coaxial cable, and receives a radio signal received by the transmission / reception antenna as an intermediate frequency signal. And is transmitted to the indoor device via the coaxial cable, and after the intermediate frequency signal transmitted from the indoor device via the coaxial cable is converted to a radio signal, the transmission power amplifier circuit amplifies the power. An outdoor device that performs transmission / reception processing to be output to the transmission / reception antenna, from an intermediate frequency signal on which modulation scheme information indicating a modulation scheme of the modulation / demodulation processing transmitted from the indoor device via the coaxial cable is superimposed separating means for separating the modulation level information, the transmission power amplifier based on the separated by separating means and the modulation method information Characterized by comprising a back-off amount varying means for varying the back-off amount of the road.
[0014]
According to a fourth aspect of the present invention, in the third aspect of the present invention, the back-off amount varying means is disposed in a preceding stage of the transmission power amplifier circuit and is input to the transmission power amplifier circuit based on the modulation scheme information. An attenuator for varying the attenuation of the signal is provided.
[0015]
The invention according to claim 5 is connected to an outdoor device that performs transmission / reception processing of a radio signal via a coaxial cable, and demodulates an intermediate frequency signal transmitted from the outdoor device by a predetermined modulation method to a user terminal device. An indoor device that performs modulation / demodulation processing that outputs and modulates a transmission signal from the user terminal device to an intermediate frequency signal by the modulation method and outputs the intermediate signal to the outdoor device, and indicates a modulation method used in the modulation / demodulation processing Modulation method information generating means for generating method information, and modulation method information generated from the modulation method information generating means is superimposed on an intermediate frequency signal to be transmitted to the outdoor device and transmitted to the outdoor device via the coaxial cable. modulation level information and a transmitter unit, the modulation method information reception processing of the radio signal of the indoor unit on the basis of the transmitted said modulation level information in a transmission means for Characterized in that varying the back-off amount of the transmission power amplifying circuit to be used in.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a wireless communication apparatus according to the present invention will be described below in detail with reference to the accompanying drawings.
[0017]
FIG. 1 is a block diagram showing an example of the configuration of a wireless communication apparatus according to the present invention.
[0018]
In FIG. 1, a wireless communication device performs modulation / demodulation processing of a communication signal from an outdoor unit (ODU) 1 composed of a high-frequency circuit that mainly performs transmission / reception processing of a wireless signal by connecting to a transmission / reception antenna (not shown). And an indoor unit (IDU) 2 composed of analog / digital circuits. The ODU 1 and the IDU 2 are connected by a single coaxial cable 3.
[0019]
In such a wireless communication apparatus, a radio wave received by an antenna (not shown) is amplified by a low noise amplifier (LNA) 121 via a duplexer (DUP) 11 of the ODU 1 and is converted to an intermediate frequency (IF) by a down converter 122. After being converted, it is sent onto the coaxial cable 3 via the splitter (SP) 14 and supplied to the IDU 2.
[0020]
The intermediate frequency (IF) signal supplied from the ODU1 to the IDU2 is demodulated by the demodulator (DEM) 222 via the splitter 23, and an interface unit (INF) including a 10Base-T interface that is a LAN interface, a USB interface, and the like. ) To a user terminal (not shown) via 21.
[0021]
A communication signal (hereinafter referred to as a user signal) from the user terminal is input to the IDU 2 from the interface unit 21, modulated by the modulator (MOD) 221, transmitted from the splitter 23 to the coaxial cable 3, and supplied to the ODU 1.
[0022]
Here, the monitoring control unit (CONT) 24 of the IDU 2 performs a frequency multiplexing process of the transmission signal (user signal) and the reception signal, the DC power to the ODU 1, and the control signal between the IDU 2 and the ODU 1. Furthermore, the supervisory control unit 24 multiplexes a signal (modulation method signal) carrying information on the modulation method of IDU2 with the above-mentioned various signals and sends the multiplexed signal to ODU1.
[0023]
FIG. 2 shows an example of the modulation system signal.
[0024]
In FIG. 2, the modulation method signal is carried as a 2-bit quaternary modulation method signal fm in a frame subsequent to the reception frequency fR in the control signal frame transmitted by the monitoring control unit 24. In this modulation method signal fm, “00” is associated with a QPSK (Quadrature Phase Shift Keying) method, “01” is associated with a 16 QAM (Quadrature Amplitude Modulation) method, and “10” is associated with a 64 QAM method.
[0025]
The splitter 14 of the ODU 1 separates and extracts the various signals from the frequency multiplexed signal input from the IDU 2, sends the user signal to the up-converter 132, and sends the modulation method signal to the monitoring control unit 17. The DC power is sent to the DC / DC converter 18 and used as a power source for each unit.
[0026]
The monitoring control unit (CONT) 17 generates an attenuation rate setting signal for setting the attenuation rate of the attenuator 15 based on the input modulation method signal fm, and this attenuation rate setting signal is converted into a D / A converter. 16 is sent to an attenuator (ATT) 15 via 16. Thereby, the attenuation factor of the attenuator (ATT) 15 is set to a value corresponding to the modulation scheme of IDU2.
[0027]
Here, a method for adjusting the attenuation factor of the attenuator 15 will be described with a specific example.
[0028]
In general, in a radio apparatus, it is desirable to increase the transmission output as much as possible because the transmittable distance can be increased. However, since fixed deterioration occurs when the amplifier is operated in the saturation region of the amplifier, for example, in the case of the QPSK system, P1 dB (1 dB It is necessary to operate with at least 4 dB back-off from the compression point. However, this back-off amount needs to be increased as multi-level modulation is performed. For example, in the case of 16QAM, it is necessary to operate with a back-off of at least 7 dB (see FIG. 3).
[0029]
Therefore, for example, when P1 dB of the power amplifier 131 is 21 dBm, the supervisory control unit 17 recognizes the modulation scheme of IDU2 based on the input modulation scheme signal, and when the modulation scheme of IDU2 is QPSK, The attenuation rate of the attenuator 15 is adjusted so that the operating point of the amplifier 131 becomes 17 dBm. When the modulation method of the IDU 2 is 16 QAM, the attenuation rate of the attenuator 15 is adjusted so that the operating point of the power amplifier 131 becomes 14 dBm. .
[0030]
As a result, even if the modulation scheme of IDU2 changes, the operating point of the power amplifier 131 can be automatically adjusted according to the modulation scheme. Therefore, one ODU is assigned to a plurality of types of IDUs having different modulation schemes. Can be shared.
[0031]
FIG. 4 is a block diagram showing another example of the circuit configuration of the wireless communication apparatus according to the present invention.
[0032]
In the wireless communication device shown in FIG. 4 , the attenuator (ATT) 15 of the wireless communication device shown in FIG. 1 is replaced with a digital attenuator (ATT) 15 ′, and the D / A converter 16 is omitted. Its function is the same as that shown in FIG.
[0033]
【The invention's effect】
As described above, according to the present invention, since the ODU automatically sets the operating point of the output amplifier according to the modulation scheme of the IDU, one ODU is shared with a plurality of types of IDUs having different modulation schemes. It is possible to reduce the type of ODU, and the manufacturing cost can be reduced.
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of a configuration of a wireless communication apparatus according to the present invention.
FIG. 2 is a diagram illustrating an example of a modulation scheme signal.
FIG. 3 is a diagram illustrating operating characteristics of an amplifier.
FIG. 4 is a diagram showing another example of the configuration of the wireless communication apparatus according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Outdoor device 2 Indoor device 3 Coaxial cable 11 Duplexer 121 Low noise amplifier 122 Down converter 131 Power amplifier 132 Up converter 14 Splitter 15 Attenuator 16 D / A converter 17 Monitoring control part 18 D / D converter 21 Interface part 222 Demodulator 221 Modulation 23 Splitter 24 Monitoring and Control Unit

Claims (5)

An outdoor device connected to a transmission / reception antenna and an indoor device connected to the outdoor device via a coaxial cable and connected to a user terminal device, the outdoor device receiving a radio signal received by the transmission / reception antenna Is converted into an intermediate frequency signal and transmitted to the indoor device via the coaxial cable, and the intermediate frequency signal transmitted from the indoor device via the coaxial cable is converted into a radio signal, and then a transmission power amplification circuit The indoor device performs power transmission amplification at the transmission / reception antenna and outputs to the user terminal device by demodulating the intermediate frequency signal transmitted from the outdoor device with a predetermined modulation method. A transformation that modulates a signal from a terminal device into an intermediate frequency signal by the modulation method and outputs the signal to the outdoor device via the coaxial cable Processing a wireless communication device which performs,
The indoor device is
Modulation scheme information generating means for generating modulation scheme information indicating a modulation scheme used in the modulation / demodulation processing;
Modulation method information transmitting means for transmitting the modulation method information generated by the modulation method information generating means to the outdoor device via the coaxial cable superimposed on an intermediate frequency signal transmitted to the outdoor device ;
The outdoor device is
Separating means for separating the modulation scheme information from an intermediate frequency signal transmitted from the indoor device via the coaxial cable;
Radio communication apparatus characterized by comprising a back-off amount varying means for varying the back-off amount of the transmission power amplifying circuit based on the modulation scheme information separated by the separating means. The back-off amount varying means is
The wireless communication according to claim 1, further comprising: an attenuator that is disposed in a preceding stage of the transmission power amplifier circuit and that varies an attenuation amount of an input signal input to the transmission power amplifier circuit based on the modulation scheme information. apparatus. Connected to a transmission / reception antenna and connected to an indoor device that performs modulation / demodulation processing of a transmission / reception signal to / from a user terminal via a coaxial cable, and converts a radio signal received by the transmission / reception antenna into an intermediate frequency signal via the coaxial cable. Transmission / reception processing for transmitting to the indoor unit, converting the intermediate frequency signal transmitted from the indoor unit via the coaxial cable into a radio signal, amplifying the power by a transmission power amplification circuit, and outputting the amplified signal to the transmission / reception antenna An outdoor device that performs
Separating means for separating the modulation scheme information from an intermediate frequency signal on which modulation scheme information indicating the modulation scheme of the modulation / demodulation processing transmitted from the indoor device is transmitted through the coaxial cable;
An outdoor apparatus comprising: backoff amount varying means for varying the backoff amount of the transmission power amplifier circuit based on the modulation scheme information separated by the separating means . The back-off amount varying means is
The outdoor apparatus according to claim 3, further comprising an attenuator that is disposed in a preceding stage of the transmission power amplifier circuit and varies an attenuation amount of an input signal input to the transmission power amplifier circuit based on the modulation method information. . Connected to an outdoor device that performs radio signal transmission / reception processing via a coaxial cable, demodulates an intermediate frequency signal transmitted from the outdoor device with a predetermined modulation method, and outputs the demodulated signal to the user terminal device. An indoor device that performs modulation / demodulation processing to modulate the transmission signal of the transmission signal to an intermediate frequency signal by the modulation method and output the signal to the outdoor device,
Modulation scheme information generating means for generating modulation scheme information indicating a modulation scheme used in the modulation / demodulation processing ;
Modulation scheme information transmitting means for transmitting the modulation scheme information generated from the modulation scheme information generating means to the outdoor device via the coaxial cable superimposed on an intermediate frequency signal transmitted to the outdoor device ;
An indoor apparatus characterized in that a back-off amount of a transmission power amplifier circuit used in radio signal transmission / reception processing of the indoor apparatus is varied based on the modulation system information transmitted by the modulation system information transmitting means .

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