KR20080068990A - Apparatus and method for communication between digital unit and remote rf unit in broadband wireless communication system bts - Google Patents

Abstract

A communication device between a DU(Digital Unit) and an RRU(Remote RF Unit) in a base station of a broadband wireless communication system and a method therefor are provided to map broadband I/Q sample data to a frame defined in standard size, and to store information additionally on the mapped I/Q sample data included in the frame, thereby performing communication between the DU and the RRU even without newly defining standard of the frame. A DU(100) maps broadband I/Q sample data to be transmitted to a frame of standard size, and stores I/Q information on the mapped I/Q sample data to transmit the stored information to an RRU(150). The RRU confirms the I/Q information included in the frame when the frame is received from the DU, and reversely maps the broadband I/Q sample data included in the frame by using the I/Q information to extract/output the reversely mapped data.

Description

TECHNICAL APPARATUS AND METHOD FOR COMMUNICATION BETWEEN DIGITAL DEVICE AND REMOTE LF DEVICE AT A BROADBAND WIRELESS COMMUNICATION SYSTEM

1 is a diagram illustrating a configuration of a base station of a broadband wireless communication system in which communication between a digital device and a remote RF device is in a CPRI form of a standard standard according to an embodiment of the present invention;

2 is a diagram illustrating a configuration of a mapper that maps wideband IQ sample data to a frame of a standard standard in a base station of a broadband wireless communication system according to an embodiment of the present invention;

FIG. 3 is a diagram illustrating a configuration of a history receiver extracting wideband IQ sample data using IQ information in a frame of a standard specification in a base station of a broadband wireless communication system according to an embodiment of the present invention; FIG.

4 is a flowchart illustrating a process of outputting wideband IQ sample data at a base station of a broadband wireless communication system according to an embodiment of the present invention;

5 is a flowchart illustrating a process of receiving wideband IQ sample data at a base station of a broadband wireless communication system according to an embodiment of the present invention;

FIG. 6 is a diagram illustrating a form mapped to a frame of a standard standard in a mapper included in a base station of a broadband wireless communication system according to an embodiment of the present invention;

FIG. 7 is a diagram illustrating a form of mapping to a frame of a standard standard according to the number of antennas in a mapper included in a base station of a broadband wireless communication system according to an exemplary embodiment of the present invention.

The present invention relates to a communication apparatus and a method between a digital device and a remote RF device in a base station of a broadband wireless communication system. In particular, a frame in which IQ sample data according to various channel bandwidths in a broadband wireless communication system is defined as a standard. The present invention relates to a communication device and a method between a digital device of a base station and a remote RF device that additionally store and transmit / receive information on IQ sample data included in a mapped frame.

In general, a base station is mainly composed of a digital unit (DU) for processing baseband and an RF unit (RU; RF Uinit) for processing an analog radio signal of RF. In this way, the base station is composed of a digital device and the RF device, the digital device and the RF device may be configured as a single device or may be configured by separating the digital device and the RF device by a certain distance. The RF device controlled from the digital device by being separated from the digital device is a remote radio frequency unit (RRU) and may be configured by connecting a plurality of remote RF devices to one digital device.

In the 3rd generation wireless communication system, when one or more remote RF devices are connected to one digital device to configure a base station, the digital devices and the remote RF devices are generally connected by optical cables. For communication between a remote RF device and another remote RF device, a common public radio interface (CPRI) standard such as IQ sample data and synchronization information is defined and used for communication.

The third generation wireless communication system generally has a chip rate of 3.84 MHz, so the clock has an integer multiple of 3.84 MHz in the CPRI standard for transmitting / receiving IQ sample data between digital devices and remote RF devices. Based frame structure was used. However, the IEEE 802.16 system, a broadband wireless communication system, requires various channel bandwidths such as 4.375 MHz, 5 MHz, 8.75 MHz, 10 MHz, 17.5 MHz, and 20 MHz, and each sampling frequency is different. Since the device must extract the system clock corresponding to an integer multiple of the sampling frequency used by the digital device from the IQ sample data, the digital device and the remote device are required to apply the existing CPRI standard to the broadband wireless communication system. Each of the RF devices needs to add a device that converts clocks or define a new frame structure. However, adding a device to convert the clock increases the cost of the system and increases the complexity of the system. When defining a new frame structure, compatibility problems may occur due to the use of non-standard frames.

Accordingly, there is a need for an apparatus and method for communicating by mapping IQ sample data of a broadband wireless communication system to a frame of a standard without the addition of an apparatus for converting a clock.

SUMMARY OF THE INVENTION An object of the present invention is to provide a communication device and method between a digital device and a remote RF device in a base station of a broadband wireless communication system.

It is another object of the present invention to provide a communication device and method between a digital device and a remote RF device for communicating by wideband IQ sample data of a broadband wireless communication system in a frame of a standard specification.

It is still another object of the present invention to provide a communication device and method between a digital device and a remote RF device for mapping wideband IQ sample data of a broadband wireless communication system to a frame of a standard standard and including information on the IQ sample data in the frame. To provide.

According to a first aspect of the present invention for achieving the above objects, a base station of a wideband wireless communication system maps wideband IQ sample data to be transmitted to a frame of standard specification, and to the wideband IQ sample data mapped to the frame. A digital unit (DU) for storing IQ information, which is information about the information, and transmitting the same to a remote radio frequency unit (RRU), and receiving the frame from the digital device and receiving the IQ information included in the frame. And the remote RF device for identifying, extracting and outputting the wideband IQ sample data included in the frame by using the IQ information.

According to a second aspect of the present invention for achieving the above objects, a data transmission method of a base station in a broadband wireless communication system, if the wideband IQ sample data to be transmitted from the digital device in the base station is generated, the broadband IQ sample data is temporary; Storing; and identifying a mappable number according to the number of output antennas; and mapping the mappable number of the broadband IQ sample data to a frame of a standard standard in the stored order among the stored wideband IQ sample data. And inputting IQ information which is information on the wideband IQ sample data included in the frame, and transmitting the frame having the IQ information to a remote RF device in the base station. .

According to a third aspect of the present invention for achieving the above objects, a method of receiving data of a base station in a broadband wireless communication system, when receiving a wideband IQ sample data from a terminal in a remote RF device in the base station; And temporarily storing the mapped IQ sample data according to the number of antennas, and mapping the mapped number of the wideband IQ sample data to a frame of a standard standard in the stored order among the stored wideband IQ sample data. And inputting IQ information which is information on the wideband IQ sample data included in the frame, and transmitting the frame having the IQ information to a digital device in the base station.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. If it is determined that the gist of the present invention may be unnecessarily obscured, detailed description thereof will be omitted.

 The present invention maps wideband IQ sample data according to various channel bandwidths to a frame defined by a standard in a broadband wireless communication system, and further stores and transmits information on IQ sample data included in the mapped frame. And a communication device and method between a digital device of a receiving base station and a remote RF device.

1 is a diagram illustrating a configuration of a base station of a broadband wireless communication system in which communication between a digital device and a remote RF device is in a CPRI form of a standard standard according to an exemplary embodiment of the present invention. Referring to FIG. 1, a base station of a broadband wireless communication system of the present invention may be largely divided into a digital unit (DU) 100 and a remote radio frequency unit (RRU) 150.

The digital device 100 includes a modem 102, a mapper 104, a history generator 106, and a CPRI processor 108, and the remote RF device 150 includes a common public radio interface (CPRI). Processor 152, Inverter 154, Digital Up Converter (DUC) 156, Digital to Analog Converter (158), Amplifier 160, A / D Converter ( And an analog to digital converter (162), a digital down converter (DDC) 164, and a mapper 166.

When the digital device 100 outputs 16-bit, 32-bit, or 64-bit wideband IQ sample data output from the modem 102 during data transmission, the mapper 104 maps the wideband IQ sample data to CPRI frames of a standard specification. In addition, IQ information, which is information on the wideband IQ sample data mapped to the frame, is output to the CPRI processor 108. Detailed description of the mapper 104 will be described later with reference to FIG. 2. The CPRI processor 108 then includes the wideband IQ sample data mapped by the mapper 104 in a frame according to a standard CPRI standard, and further receives the IQ received from the mapper 104 in the last byte. The information is stored and transmitted to the remote RF device 150. For details on the standard CPRI specification, refer to the "CPRI specification". The frame and IQ information will be described later with reference to FIGS. 6 and 7.

In addition, when the digital apparatus 100 receives a frame having a standard format including IQ information from the CPRI processor 108 when data is received, the digital apparatus 100 is included in history using the IQ information included in the history generator 106. Wideband IQ sample data is extracted and provided to the modem 102. A detailed description of the history generator 106 will be given below with reference to FIG. 3.

On the other hand, when the remote RF device 150 receives the frame of the standard format including the IQ information from the digital device 100 in the CPRI processor 152 at the time of data transmission, the IQ included in the history unit 106 Extracts the broadband IQ sample data included in history by using the information, increases the phase of the frequency of the wideband IQ sample data extracted by the digital frequency raising converter 156, and outputs the wideband IQ sample data obtained by the phase raising to D. The analog signal is converted into an analog signal through the / A converter 162, and amplified by the amplifier 160 and output through an antenna (not shown).

In addition, the remote RF device 150 amplifies the signal received from the terminal in the cell area through the amplifier 160 when receiving data, and the wideband IQ sample data of the digital signal through the A / D converter 162. And the wideband IQ sample data is provided to the mapper 166 by lowering the phase of the frequency through the digital frequency down converter 164. Subsequently, the mapper 166 maps wideband IQ sample data to a CPRI frame of a standard specification, and further outputs IQ information, which is information about wideband IQ sample data mapped to the frame, to the CPRI processor 152. do. The CPRI processor 152 then includes the broadband IQ sample data mapped by the mapper 166 in a frame conforming to the standard CPRI standard, and additionally receives the IQ received from the company 166 in the last byte. The information is stored and transmitted to the digital device 100.

FIG. 2 is a diagram illustrating a configuration of a mapper that maps broadband IQ sample data to a frame of a standard standard in a base station of a broadband wireless communication system according to an exemplary embodiment of the present invention. Referring to FIG. 2, the mappers 104 and 166 included in the base station of the present invention include a first-in-first-out (FIFO) storage unit 202, a mapping controller 204, and a mapping unit 206. ).

The first-in, first-out storage unit 202 stores the broadband IQ sample data input as a temporary storage location and provides the mapping controller 204 with the number of the stored broadband IQ sample data, and under the control of the mapping controller 204. The stored wideband IQ sample data is provided to the mapping unit 206 in the order of input.

The mapping control unit 204 checks the number of antennas and the number of the broadband IQ sample data stored in the first-in first-out storage unit 202 and provides quantity information of the broadband IQ sample data to be included in one frame. 202 and the mapping unit 206 to provide wideband IQ sample data to be mapped to the mapping unit 206.

The maximum number of wideband IQ sample data that can be included in a standard frame according to the number of antennas is expressed as shown in Table 1 below.

Antenna quantity One 2 3 Max IQ Samples 7 3 One

The mapping unit 206 sequentially converts the broadband IQ sample data provided from the first-in, first-out storage unit 202 to the frames of the standard standard generated by the CPRI processors 108 and 152 under the control of the mapping control unit 204. In the last byte of the frame, IQ information having the number of antennas and the quantity information of the included broadband IQ sample data is input. The type of the IQ information input to the last byte is shown in Table 2 below.

Bit Bit [7: 6] Bit [5: 3] Bit [2: 0] Usage Reserved Number of antennas Number of wideband IQ sample data

That is, referring to Table 2, the IQ information stores quantity information of wideband IQ sample data in 3 bits from 0 to 2nd bits of the last byte of a frame, and antennas in 3 bits from 3 to 5th bits. Save quantity information of.

Then, the structure of the standard frame including the wideband IQ sample data of the present invention will be described with reference to FIGS. 6 and 7 below. FIG. 6 is a diagram illustrating a form mapped to a frame of a standard standard in a mapper included in a base station of a broadband wireless communication system according to an exemplary embodiment of the present invention.

6 (a) is a diagram in which the wideband IQ sample data received when receiving 16-bit wideband IQ sample data is mapped to a basic frame of 614.4 Mbit / s mode of a standard standard, and (b) When the 32-bit wideband IQ sample data is received, the wideband IQ sample data received is mapped to the standard frame of 1228.8 Mbit / s mode of the standard, and (c) shows the received data when receiving the 64-bit wideband IQ sample data. The figure shows mapping of wideband IQ sample data to a standard frame of standard type 2457.6 Mbit / s.

6 (a), 6 (b) and 6 (c) indicate that up to seven sample data may be included when one antenna is used. Next, referring to FIG. 7, a mapping form of a frame when there are multiple antennas will be described.

FIG. 7 is a diagram illustrating a form of mapping to a frame of a standard standard according to the number of antennas in a mapper included in a base station of a broadband wireless communication system according to an exemplary embodiment of the present invention. FIG. 7A is a diagram of receiving 32-bit wideband IQ sample data and mapping wideband IQ sample data received when two antennas are provided to a frame of standard specification, and (b) of 32bit wideband IQ sample data. Is a diagram in which the wideband IQ sample data received when three antennas are mapped to a frame of a standard standard.

Next, a history instructor for extracting wideband IQ sample data in history by mapping the frame generated through the mapper 104 and 166 will be described in detail with reference to FIG. 3 below. FIG. 3 is a diagram illustrating a configuration of a history receiver extracting wideband IQ sample data using IQ information in a frame of a standard specification in a base station of a broadband wireless communication system according to an exemplary embodiment of the present invention. Referring to FIG. 3, the history generators 106 and 154 included in the base station of the present invention may include a history part 302, a history control part 304, and a first in first out (FIFO) storage part 306. ).

When the history unit 302 receives the IQ sample data and the IQ information included in the frame from the CPRI processors 108 and 152, the history unit 302 provides the IQ information to the history controller 304, and the history controller 304. The IQ sample data is stored in the first-in, first-out storage unit 306 under the control of.

When the historical controller 304 receives the IQ information from the historical controller 302, the controller 304 checks the IQ information to confirm the number of antennas and the number of broadband IQ sample data included to determine the number of broadband IQ samples. Control to store data in the first-in, first-out storage unit 306.

The first-in, first-out storage unit 306 stores the broadband IQ sample data input from the history unit 302 as a temporary storage location, and provides the stored wideband IQ sample data in the order of output in response to an output request.

Hereinafter, a communication method between a digital device and a remote RF device in a base station of a broadband wireless communication system according to the present invention configured as described above will be described with reference to the accompanying drawings.

4 is a flowchart illustrating a process of outputting wideband IQ sample data at a base station of a wideband wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 4, when the digital device in the base station of the present invention detects generation of wideband IQ sample data to be transmitted in step 400, the digital device proceeds to step 402 to temporarily store the wideband IQ sample data, and proceeds to step 404. The number of maps is determined according to the number of antennas to be mapped, and the wideband IQ sample data is mapped to a frame of a standard CPRI standard in the stored order among the stored wideband IQ sample data. The IQ information having the quantity information of the wideband IQ sample data is input. In step 408, the frame data having the IQ information is transmitted to the remote RF device in the base station.

In step 410, the remote RF device receiving the frame data checks the IQ information in the received frame data to confirm the number of antennas and the number of the wideband IQ sample data included therein, and proceeds to step 412. Temporarily storing the wideband IQ sample data included according to the IQ information, and proceeds to step 414 to increase the phase of the wideband IQ sample data in the order of storage in accordance with the output request, converts into an analog signal and amplifies the antenna. Output through

5 is a flowchart illustrating a process of receiving wideband IQ sample data at a base station of a wideband wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 5, when the remote RFID device in the base station of the present invention receives the broadband IQ sample data from the terminal in the cell area in step 50, the remote RF device proceeds to step 502 and temporarily stores the broadband IQ sample data, and proceeds to step 504. The number of maps is determined according to the number of antennas to be output, and the wideband IQ sample data is mapped to a frame of a standard CPRI standard in the stored order among the stored wideband IQ sample data. And input IQ information having quantity information of the wideband IQ sample data included therein, and proceed to step 508 to transmit the frame data having the IQ information to the digital device in the base station.

In step 510, the digital device receiving the frame data checks the IQ information in the received frame data to confirm the number of antennas and the number of the wideband IQ sample data included therein, and proceeds to step 512. The broadband IQ sample data included according to the IQ information is temporarily stored, and the process proceeds to step 514 to provide the broadband IQ sample data to the modem in the digital device in the order of storage.

Apparently, there are many ways to modify these embodiments while remaining within the scope of the claims. In other words, there may be many other ways in which the invention may be practiced without departing from the scope of the following claims.

As described above, the present invention maps wideband IQ sample data according to various channel bandwidths to a frame defined by a standard in a wideband wireless communication system, and additionally stores and transmits information on IQ sample data included in the mapped frame. A communication device and method between a digital device of a receiving base station and a remote RF device of a receiving base station, without converting a clock or defining a new frame specification to extract a system clock corresponding to an integer multiple of a sampling frequency. Communication between digital devices and remote RF devices is possible.

Claims (25)

A base station of a broadband wireless communication system, A digital device that maps the wideband IQ sample data to be transmitted to a frame of a standard standard, and stores IQ information, which is information about the wideband IQ sample data, mapped to the frame and transmits the same to the remote radio frequency unit (RRU). (DU; Digital Unit), And receiving the frame from the digital device, checking the IQ information included in the frame, using the IQ information, and extracting and outputting the broadband IQ sample data included in the frame. A base station of a broadband wireless communication system, characterized in that. The method of claim 1, The remote RF device, A broadband wireless communication system characterized by mapping wideband IQ sample data received from a terminal to a frame of a standard standard, storing IQ information which is information on the wideband IQ sample data mapped to the frame, and transmitting the same to the digital device. Base station. The method of claim 2, The digital device, When the frame is received from the remote RF device, the IQ information included in the frame is identified, and the broadband IQ sample data included in the frame is historically extracted using the IQ information. Base station of the system. The method of claim 3, wherein The digital device, A modem for outputting the wideband IQ sample data; A mapper for mapping the wideband IQ sample data output from the modem to the frame and outputting the IQ information which is information on the wideband IQ sample data; And a common public radio interface (CPRI) processor which generates the frame including the wideband IQ sample data and the IQ information mapped by the mapper and transmits the frame to the remote RF device. Base station. The method of claim 4, wherein The CPRI processor provides the received frame to the history receiver upon receiving the frame from the remote RF device. The base station of the broadband wireless communication system, characterized in that for further using the IQ information included in the frame to extract the broadband IQ sample data included in the history to provide to the modem. The method of claim 2, The remote RF device, A common public radio interface (CPRI) processor for receiving the frame from the digital device; And a history generator extracting the broadband IQ sample data included in the frame using the IQ information included in the frame received by the CPRI processor. The method of claim 6, The remote RF device, Mapping the wideband IQ sample data received from the terminal to the frame and outputting the IQ information which is information on the wideband IQ sample data; And the CPRI processor generates the frame including the wideband IQ sample data and the IQ information mapped by the mapper and transmits the frame to the digital device. The method according to claim 4 and 7, The casualty machine, First-in, first-out for storing the input wideband IQ sample data and providing the number of the stored wideband IQ sample data to the mapping controller, and providing the stored wideband IQ sample data to a mapping section in the order of input. (FIFO: First In First Out) storage, Wideband to be mapped by providing antenna quantity information and quantity information of the broadband IQ sample data stored in the first-in first-out storage unit to be included in one frame by providing the quantity information of the broadband IQ sample data to the first-in first-out storage unit and the mapping unit. The mapping control unit which controls to provide IQ sample data to the mapping unit; And a mapping unit configured to sequentially map the wideband IQ sample data provided from the first-in, first-out storage unit to the frame under the control of the mapping control unit, and input the IQ information into the frame. Base station. The method according to claim 5 and 6, The history reminder, Providing the IQ information included in the frame to a historical controller, extracting the wideband IQ sample data included in a frame according to the historical controller's control, and storing the IQ information in a first-in first-out storage (FIFO). With history to say, Upon receiving the IQ information from the history part, the IQ information is checked to confirm the number of antennas and the number of broadband IQ sample data included to store the identified number of broadband IQ sample data in the first-in, first-out storage unit. The historical controller to control, And a first-in, first-out storage unit for storing the wideband IQ sample data inputted from the history part and outputting the stored wideband IQ sample data in a stored order according to an output request. The method according to claim 1, wherein The frame, And the wideband IQ sample data and the IQ information. The method of claim 10, The frame, It can include up to seven wideband IQ sample data when the number of antennas is one, and can contain up to three wideband IQ sample data when the number of antennas is two, and up to two when the number of antennas is three. A base station in a wideband wireless communication system, characterized in that it can include wideband IQ sample data. The method of claim 10, The IQ information is And a quantity of information of the wideband IQ sample data included in the frame represented by three bits and quantity information of the antenna represented by three bits. The method of claim 12, The IQ information is The quantity information of the wideband IQ sample data is expressed as 3 bits from 0 to 2nd bits of the last byte of the frame, and the quantity information of the antenna is 3 to 5th bits of the last byte of the frame. A base station of a broadband wireless communication system, characterized in that represented by up to 3 bits. In the data transmission method of a base station in a broadband wireless communication system, Temporarily storing the wideband IQ sample data when the wideband IQ sample data to be transmitted from the digital device in the base station occurs; Checking the number that can be mapped according to the number of antennas to output, Mapping the widest number of the wideband IQ sample data into a frame of a standard standard in the stored order among the stored wideband IQ sample data; Inputting IQ information which is information on the wideband IQ sample data included in the frame; And transmitting the frame having the IQ information to a remote RF device in the base station. The method of claim 14, Checking the IQ information included in the frame received by the remote RF device; Storing the wideband IQ sample data included according to the IQ information; And outputting the stored wideband IQ sample data in the order of being stored. The method of claim 15, The frame, And the wideband IQ sample data and the IQ information. The method of claim 15, The frame, It can include up to seven wideband IQ sample data when the number of antennas is one, and can contain up to three wideband IQ sample data when the number of antennas is two, and up to two when the number of antennas is three. A method for transmitting data at a base station in a broadband wireless communication system, characterized in that it can include wideband IQ sample data. The method of claim 16, The IQ information is And quantity information of the wideband IQ sample data included in the frame represented by 3 bits and quantity information of the antenna represented by 3 bits. The method of claim 18, The IQ information is The quantity information of the wideband IQ sample data is expressed as 3 bits from 0 to 2nd bits of the last byte of the frame, and the quantity information of the antenna is 3 to 5th bits of the last byte of the frame. A data transmission method of a base station in a broadband wireless communication system, characterized in that expressed as three bits up to. In the broadband wireless communication system, the base station data receiving method, Temporarily storing the wideband IQ sample data when the wideband IQ sample data is received from a terminal in a remote RF device in the base station; Determining the number of maps according to the number of antennas, Mapping the widest number of the wideband IQ sample data into a frame of a standard standard in the stored order among the stored wideband IQ sample data; Inputting IQ information which is information on the wideband IQ sample data included in the frame; And transmitting the frame having the IQ information to a digital device in the base station. The method of claim 20, Checking the IQ information included in the frame received by the digital device; Storing the wideband IQ sample data included according to the IQ information; And providing the stored wideband IQ sample data in a stored order. The method of claim 21, The frame, And the wideband IQ sample data and the IQ information. The method of claim 21, The frame, It can include up to seven wideband IQ sample data when the number of antennas is one, and can contain up to three wideband IQ sample data when the number of antennas is two, and up to two when the number of antennas is three. A method for receiving data at a base station in a wideband wireless communication system, characterized in that it can include wideband IQ sample data. The method of claim 22, The IQ information is And quantity information of the wideband IQ sample data included in the frame represented by 3 bits and quantity information of the antenna represented by 3 bits. The method of claim 24, The IQ information is The quantity information of the wideband IQ sample data is expressed as 3 bits from 0 to 2nd bits of the last byte of the frame, and the quantity information of the antenna is 3 to 5th bits of the last byte of the frame. A method for receiving data of a base station in a broadband wireless communication system, characterized in that expressed in three bits up to.

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