JP2010166531A - Radio apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio apparatus in a radio base station for canceling complexity in laying a connection cable due to an installation form and positional relation of installation and avoiding an erroneous connection caused by an artificial error in implementing connection. <P>SOLUTION: In the radio apparatus 30 of a radio base station including an interface of CPRI standards, when connecting a cable to an interface connecting port, connection processing is performed while automatically switching an interface operation for a radio control device 20 of a higher-order system and an interface operation for a lower-order system. During switching of interface operations, a synchronism establishing command from the higher-order system is received from a connection system to which the cable is connected, to execute connection establishing processing by recognizing that the cable is a connection for the higher-order system. When connection processing to the higher-order radio control device 20 is executed, in switching of the interface operations, connection establishing processing for the lower-order system is executed for a connection system other than the connection system for the higher-order system. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a CPRI (Common Public Radio Interface) standard for a connection interface with a radio network controller in a radio base station equipped with a radio system (RE device: Radio Equipment) and a radio network controller (REC device: Radio Equipment Control). The present invention relates to a radio apparatus that employs an interface and has a plurality of connection forms.

  Conventionally, wireless base stations in the field of mobile phone systems, for example, have adopted CPRI (Common Public Radio Interface) standard interfaces as connection interfaces between wireless control devices (REC devices) and wireless devices (RE devices) ( For example, refer nonpatent literature 1.).

As the CPRI connection form between the radio control apparatus and the radio apparatus, there are a plurality of forms such as “Chain topology” shown in FIG. 5, “Tree topology” shown in FIG. 6, “Ring topology” shown in FIG. Exists.
“Chain topology” shown in FIG. 5 is a connection form in which a plurality of wireless devices 12, 13,... Are connected in cascade from the wireless control device 11 which is a host device. In this “Chain topology” connection mode, the radio control apparatus 11 that is the host apparatus performs a master operation on the subordinate intermediate radio apparatus 12. The intermediate radio apparatus 12 performs a slave operation on the upper radio control apparatus 11 and performs a master operation on the lower radio apparatus 13. Similarly, each wireless device performs a slave operation with respect to the upper intermediate wireless device and a master operation with respect to the lower wireless device.

  The slave operation and the master operation are distinguished from each other depending on the operation reference timing, the command transmission / reception reference, and the subject. The slave side receives the reference clock and performs an operation that takes a response stance to the command, and the master side supplies the reference clock and issues the command. That is, the system host system is a master operation interface, and the system lower system is a slave operation interface.

  The “Tree topology” shown in FIG. 6 is distributed in parallel in the intermediate wireless device 12 from the wireless control device 11 that is the host device, and thereafter, a plurality of wireless devices 13a,..., Like “Chain topology” in FIG. 14a, ... are connected in cascade. In this “Tree topology” connection mode, the intermediate radio apparatus 12 performs a slave operation on the upper radio control apparatus 11 and performs a master operation on the lower radio apparatuses 13a and 14a. In a system connected in parallel, each wireless device performs a slave operation on the upper intermediate wireless device and a master operation on the lower wireless device.

  The “Ring topology” shown in FIG. 7 is obtained by adding a connection from the final terminal wireless device 13 to the wireless control device 11 as a host device in the “Chain topology” of FIG. Can be looped. In the connection form of “Chain topology”, the final terminal wireless device 13 performs a slave operation (Slave) on the intermediate wireless device 12, but becomes a higher-level device for the wireless control device 11 and becomes a master. Operate.

  As described above, the wireless devices used in the connection forms of “Chain topology”, “Tree topology”, and “Ring topology” have a structure in which an upper interface, a lower interface, and a connection destination are designated. For this reason, when connecting a cable to the interface connection port of each device such as connection between the wireless control device 11 and the wireless device 12 or connection between the wireless device 12 and another wireless device, the connection connector is identified and correctly connected. There is a need. In addition, the connection cable needs to be routed depending on the installation form and the installation position, and the cable connection is very complicated.

  Further, as a known technique related to the present invention, in a terminator control system for an interface signal to which a plurality of devices are connected, a technology for automatically setting on / off of the terminator according to the connection order of the plurality of devices is known. (For example, refer to Patent Document 1).

JP-A-9-50334

Specification V3.0 (2006-10-20) (Common Public Radio Interface (CPRI); Interface Specification), December 1, 2008, Internet <URL: http://www.cpri.info/spec.html>

  Conventionally, when CPRI connection is performed between a wireless control device and a wireless device, connection forms such as “Chain topology”, “Tree topology”, and “Ring topology” are used. It has a structure in which an upper interface, a lower interface, and a connection destination are specified. For this reason, when connecting a cable to the interface connection port of each device, such as connection between the wireless control device and the wireless device, or connection between the wireless device and another wireless device, it is necessary to identify and correctly connect the connection connector . In addition, the connection cable needs to be routed depending on the installation form and the installation position, and the cable connection is very complicated.

  The present invention has been made in order to solve the above-described problems, and eliminates the complexity of routing the connection cable depending on the installation form and installation position relationship, and avoids erroneous connection due to human error in performing the connection. An object is to provide a radio apparatus in a base station.

  The present invention is a wireless device in a wireless base station in which a wireless control device and at least one or more wireless devices are connected in accordance with the CPRI standard, and the wireless device has a plurality of CPRI standard interfaces and is connected to an interface connection port. A synchronization establishment command receiving means for receiving a synchronization establishment command transmitted from a higher-level device of the connection system to which the cable is connected, and receiving the synchronization establishment command by the receiving means, so that the cable Recognizing that the connection is for a system device and performing connection establishment processing for the host system device, and after the connection establishment processing is executed by the connection device for the host system device, the host system A connection means for a lower-level device that executes connection establishment processing for the lower-level device for a connection system other than the connection system for the device. And features.

  According to the present invention, when connecting the higher-level device and the corresponding wireless device in accordance with the CPRI standard, it is not necessary to specify the connection connector of the connection cable for the higher-level device, so the connection to the closer connector, or It becomes possible to connect the connecting cables in the shortest without crossing the connecting cables between the devices, and the connecting cables can be easily handled.

  In addition, since it is not necessary to specify a connection connector for the host system when connecting the cable as described above, it is unnecessary to recognize the connection connector that has been necessary in the past, and it is possible to avoid erroneous connection due to human error such as erroneous recognition. it can.

It is a block diagram which shows schematic structure in the case of connecting a CPRI interface between the radio | wireless control apparatus and radio | wireless apparatus of the radio base station which concern on Example 1 of this invention. 3 is a functional block diagram showing a detailed configuration of a CPRI interface of the wireless device in the first embodiment. FIG. 3 is a flowchart showing the operation of the CPRI interface of the wireless device in the first embodiment. FIG. 3 is a block diagram illustrating an example when a plurality of CPRI links are established between a radio network controller and a radio device in the first embodiment. It is a block diagram which shows the CPRI connection form by "Chain topology" between a radio | wireless control apparatus and a radio | wireless apparatus. It is a block diagram which shows the CPRI connection form by "Tree topology" between a radio | wireless control apparatus and a radio | wireless apparatus. It is a block diagram which shows the CPRI connection form by "Ring topology" between a radio | wireless control apparatus and a radio | wireless apparatus.

  Hereinafter, embodiments of the present invention will be described in detail.

  FIG. 1 shows a case where a radio base station radio control apparatus (REC apparatus) 20 and a radio apparatus (RE apparatus) 30 according to the first embodiment of the present invention are connected by an interface of the CPRI (Common Public Radio Interface) standard. It is a block diagram which shows schematic structure of these.

  The present invention adopts a CPRI standard interface as a connection interface, and a wireless device that provides “Chain topology”, “Tree topology” or “Ring topology” as described in FIGS. In FIG. 2, a plurality of CPRI standard interfaces are provided, one of which is a slave operation interface to the system subordinate radio control apparatus 20, and one or more remaining CPRI interfaces are master operation interfaces to the system subordinate radio apparatus. However, since the master interface for wireless devices only performs the same operation in parallel even if the number of connections increases, in the first embodiment, the slave operation and the master operation are performed. An example in which each CPRI interface is one will be described. Further, since there is a possibility that the wireless device 30 is cascade-connected in multiple stages, the interface usage state is as described above. However, the terminal (terminal) wireless device has only a slave operation and an interface for master operation. Is unused.

  In FIG. 1, the radio network controller 20 includes a CPRI interface implementation circuit 21 and a SerDes (Serializer / Deserializer) circuit 22. The wireless device 30 includes a SerDes (Serializer / Deserializer) circuit 31 and a CPRI interface implementation circuit 32. The SerDes circuit 22 of the wireless control device 20 and the SerDes circuit 31 of the wireless device 30 are CPRI standard connection circuits that physically connect the wireless control device 20 and the wireless device 30, and a CPRI link 25 is connected between the two. Connected by The CPRI link 25 includes a downlink 25a and an uplink 25b.

  The configuration of the CPRI interface in the wireless control device 20 and the wireless device 30 and the inside of the CPRI link 25 are full duplex interfaces. That is, the CPRI interface is a circuit configuration for the purpose of establishing a CPRI data transmission format and establishing a link, and is a full-duplex serial facing interface using a SerDes circuit in the subsequent stage.

  FIG. 2 is a functional block diagram showing a detailed configuration of the CPRI interface of the wireless device 30. As shown in FIG. The SerDes circuit 31 in the wireless device 30 includes a serializer unit 311 and a deserializer unit 312, and the serializer unit 311 includes an enable terminal 313 as a function implementation control terminal.

  The CPRI interface implementation circuit 32 in the wireless device 30 includes a transmission (TX) processing unit 321, a reception (RX) processing unit 322, a frame (Frame) configuration unit 323, and a synchronization circuit 324, and includes a transmission (TX) processing unit 321. Includes an enable terminal 325 as a function realization control terminal. A downstream signal line 33 is provided between the Deserializer unit 312 of the SerDes circuit 31 and the reception processing unit 322 of the CPRI interface implementation circuit 32. Further, an upstream signal line 34 and an all “0 (zero)” data insertion circuit 35 are provided between the transmission processing unit 321 of the CPRI interface implementation circuit 32 and the serializer unit 311 of the SerDes circuit 31. The all “0” data insertion circuit 35 is configured by using a changeover switch 36 including, for example, fixed terminals a and b and a changeover terminal c for changing over the fixed terminals a and b, and switches the changeover terminal c as a function realization control terminal. A select terminal (SEL) 37 to be controlled is provided. A transmission signal output from the transmission processing unit 321 of the CPRI interface realizing circuit 32 is input to the fixed terminal a of the changeover switch 36 via the upstream signal line 34, and all “0” data is input to the fixed terminal b from the external circuit. (All “0”) is input. Then, the signal selected by the switching terminal c of the changeover switch 36 is input to the Serializer unit 311 of the SerDes circuit 31.

  In the state where the switching terminal c of the changeover switch 36 is switched to the fixed terminal a, the all “0” data insertion circuit 35 is connected between the transmission processing unit 321 and the serializer unit 311 by the upstream signal line 34, and the switching terminal When c is switched to the fixed terminal a, the upstream signal line 34 is turned off, and all “0” data (all “0”) input to the fixed terminal b is selected and transmitted to the serializer unit 311. It is done.

  The wireless device 30 does not send an uplink signal until it receives a synchronization establishment command (K28.5: CPRI standard synchronization command) from the wireless control device 20 or a wireless device higher in the system (cascade connection). Structure. In other words, the circuit configuration using Enable / Desable of the SerDes circuit 31, the CPRI transmitter circuit itself is stopped, or the output data for the subsequent SerDes circuit is forcibly set to “0” by an external circuit. is doing.

  The wireless device 30 has an interface for a plurality of upper / lower system devices, and the connection port of the connection interface is not specified for the higher system device or the lower system device. By connecting a higher-level device and a lower-level device, the interface operation for the higher-level device and the interface operation for the lower-level device are automatically switched.

  The operation of the CPRI interface of the wireless device 30 configured as described above will be described below with reference to the flowchart shown in FIG. By turning on the power of the apparatus, the processing operation of the CPRI interface is started. First, initial processing for realizing a function determined by the CPRI standard, for example, auto-negotiation (determination of transmission speed, etc.), output of all-system CPRI interface output stop, and the like are performed (step A1). That is, when the wireless device 30 is turned on, there is no master operation in the entire system, in the first embodiment, in the two CPRI interfaces, and both interfaces are activated as slave operations for the wireless device.

  Next, the wireless device 30 executes a process of detecting a synchronization establishment command (K28.5 code) sent from the wireless control device 20 (step A2), and waits as it is if no synchronization establishment command is detected. The slave operation is an operation start from the state waiting for the synchronization establishment command (K28.5 code) from the wireless control device 20, and is therefore a status waiting for the synchronization establishment command (K28.5 code). The status waiting for the synchronization establishment command (K28.5 code) is maintained until a state transition to the link establishment status occurs due to reception of the synchronization establishment command (K28.5 code). At this time, since there is no self-supporting (independent) operation when no higher system exists in the wireless device 30, the link establishment waiting status is held without limitation.

  When the synchronization establishment command is detected in step A2, it is next determined whether the detection system is the 1 system (interface number) or the 2 system (interface number) (step A3). Is permitted (slave operation) (step A4), and if it is the second system, the second system output is permitted (slave operation) (step A5).

  When the process of step A4 or step A5 is completed, a link establishment process according to the CPRI standard is executed (step A6). When the synchronization establishment command (K28.5 code) is received, the link establishment is triggered. When the synchronization establishment command (K28.5 code) is received, the received system (interface number) is identified and Allows system signal output (Uplink). By permitting the signal output, the CPRI interface realizing circuit 32 can perform bidirectional communication, and performs the following operation for establishing synchronization defined in the CPRI standard.

・ C & M channel negotiation during start-up sequence
・ Reset indication
・ Start-up sequence
In step A7, it is determined whether or not the start-up sequence is completed. If not completed, the process returns to step A6 to continue the link establishment process. When it is determined in step A7 that the start-up sequence has been completed, a link is established and the higher-level device is recognized (step A8).

When the link between the radio apparatus 30 and the upper radio control apparatus 20 is established, the other system is not established, and it is necessary to transition the operation status to the master operation and establish the CPRI link to the lower radio apparatus. .
In the link establishment processing of the interface for the lower-level device, it is determined whether the established system determined to have established the link in step A8 is the 1 system or the 2 system (step A9), and the established system is the 1 system. Then, after completing the preparation for the 1st system operation, the 2nd system output of the subordinate system that has been stopped is permitted (transmission of the CPRI interface (downlink): master operation) (step A10), and the established system is 2 If it is a system, after completing the preparation for the second system operation, the first system output of the lower system that has been stopped is permitted (transmission of the CPRI interface (Downlink): master operation) (step A11). The processing of steps A10 and A11 is a spontaneous operation. However, since the reference for the spontaneous operation is triggered by the reception of the above-mentioned synchronization establishment command (K28.5 code), all the synchronization is established systematically. When it is determined in step A9 whether the established system is the 1 system or the 2 system, it is determined that the established system is a subordinate radio apparatus that has been stopped or a radio apparatus for termination. .

Then, by permitting output to the lower system in step A10 or step A11, the CPRI interface realizing circuit 32 becomes capable of bidirectional communication, and performs the following operation for establishing synchronization defined in the CPRI standard (step A12). ).
・ C & M channel negotiation during start-up sequence
・ Reset indication
・ Start-up sequence
In step A13, it is determined whether or not the start-up sequence is completed. If it is not completed, it is determined whether or not a preset specified time has elapsed (step A14). If the specified time has not elapsed, step A12 is determined. Return to and continue the link establishment process. When it is determined in step A13 that the start-up sequence has been completed, a link is established and the lower-level device is recognized (step A16). If it is determined in step A14 that the specified time has elapsed, it is determined that the lower-level device is not connected (step A15). In this case, depending on the requirements of the system to be realized, for example: • Infinite low-order device search without time-up • Re-search by high-order command • Device recognition method such as device recognition by the factory setting file Selection is possible.

When it is determined in Step A13 that the Start-up sequence has been completed, the link is established, the lower-level device is recognized (Step A16), and the operation is started (Step A17).
As described above, in the interface switching process, after the connection establishment process for the upper system apparatus is executed, the connection establishment process for the lower system apparatus is executed for the connection system other than the connection system for the upper system apparatus, and the operation is started. The

  In the first embodiment, the wireless device 30 having a plurality of CPRI interfaces has been described on the assumption that only one interface is connected to the host system. However, the actual CPRI standard is shown in FIG. Since the connection of “Multiple point-to-point links between one REC and one RE” is also defined, even if synchronization of a plurality of CPRI interfaces is established between the wireless control device 20 and the wireless device 30, the hardware Anomaly detection is not performed. When multiple links are established, commands for multiple links including signal selection instructions on the C & M command are inserted, so it is possible to detect anomalies at the software (application) level in operation. This is because.

  Further, there is no lower-level wireless device in the last-connected wireless device that is the terminal. For this reason, as described above, even if a signal is transmitted to the CPRI interface for the lower-level wireless device, the link is not established. For this reason, several options are assumed as operations, and some examples will be described below.

・ Continuing to transmit the synchronization establishment command (K28.5 code) as it is without being aware of the presence of the lower system, and waiting for the set-up sequence activation condition to be satisfied.
-Software / hardware is not required, but if the set-up activation condition is not satisfied after starting the timer and waiting for the specified time, it is determined that there is no lower wireless device, and the CPRI interface for the lower wireless device is not used. As a result, the link establishment operation is stopped.

  If the above-mentioned operation stop is selected, in order to respond to the start-up timing or expansion of the wireless device 30 due to power-off by system start-up or future system expansion, etc., the command, hardware switch, etc. Realizes link establishment operation and link search function.

  According to the first embodiment, in the wireless device 30 having the CPRI standard interface, when the cable is connected to the interface connection port, the interface operation for the upper device and the interface operation for the lower device are automatically switched to perform the connection process. Therefore, there is no need to specify the connection interface connection port for the higher-level device and lower-level device, and the interface operation is automatically switched and executed simply by connecting the higher-level device and lower-level device. The

  In addition, it is not necessary to specify the connection connector of the connection cable (including optical fiber) from the host system when connecting the cable, so it can be connected to a closer connector, or the connection cable between the devices does not cross and is as short as possible. It becomes possible to connect. That is, the restriction on the arrangement of the installation form of the wireless device is reduced, or the cable management between the wireless device connections becomes easy.

In addition, as described above, when CPRI connection is made between a higher-level device and a lower-level device, there is no need to specify a connection connector. It is possible to avoid erroneous connection due to human error.
Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying constituent elements without departing from the scope of the invention in the implementation stage.

  DESCRIPTION OF SYMBOLS 11 ... Radio control apparatus 12, 13, 13a, 14a ... Radio apparatus, 20 ... Radio control apparatus, 21 ... Interface implementation circuit, 22 ... SerDes circuit, 25 ... CPRI link, 25a ... Down link, 25b ... Up link, 30 ... Wireless device, 31 ... SerDes circuit, 32 ... Interface realization circuit, 33 ... Downstream signal line, 34 ... Upstream signal line, 35 ... Data insertion circuit, 36 ... Changeover switch, 37 ... Select terminal, 313 ... Enable terminal, 321 ... Transmission processing unit, 322... Reception processing unit, 323... Frame configuration unit, 324... Synchronization circuit, 325.

Claims (1)

A wireless device in a wireless base station in which a wireless control device and at least one or more wireless devices are connected according to the CPRI standard,
The wireless device has a plurality of CPRI standard interfaces, and a synchronization establishment command receiving means for receiving a synchronization establishment command transmitted from a host system device of a connection system to which the cable is connected when the cable is connected to the interface connection port; ,
Receiving a synchronization establishment command by the receiving means, recognizing that the cable is a connection for a higher-level apparatus, and executing connection establishment processing for the higher-level apparatus,
After the connection establishment process is executed by the connection means for the upper system apparatus, the connection means for the lower system apparatus that executes the connection establishment process for the lower system apparatus for a connection system other than the connection system for the upper system apparatus,
A wireless device comprising:

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