CN101247574A - Interface device for connecting main base station and radio remote unit - Google Patents

Abstract

The invention discloses an interface device for connecting a main base station and a radio remote unit (RRU), respectively configured in the main base station and the RUU and connected with a digital interface supporting a digital base-band signal configured in the main base station or the RRU, comprising: a digital interface supporting a digital base-band signal and an interface conversion module converted in format among protocol of interfaces of Ethernet physical layer, an interface of the Ethernet physical layer and a clock module receiving a reference clock from the interface conversion module to generate a work clock and an external work clock respectively provided to the interface conversion module and the interface of the Ethernet physical layer. The base-band processing unit is connected with the RUU with a twisted pair for accomplishing remote synchronous transmission of the digital signal by the interface of the Ethernet physical layer.

Description

The interface arrangement that connects dominant base and Remote Radio Unit

Technical field

The present invention relates to distributed base station, refer to connect in a kind of distributed base station the interface arrangement of dominant base and Remote Radio Unit (RRU, Radio Remote Unit) especially.

Background technology

In wireless base system, wireless access network provides wireless access function for the user, and dominant base and radio-frequency module such as RRU can carry out the networking of various forms, as: star-like, chain, tree type etc.

Wherein, RRU is the outdoor version Remote Radio Unit according to third generation partner program version 99/ edition 4 (3GPP R99/R4) Frequency Division Duplexing (FDD) (FDD) protocol development, the physical structure form of RRU generally adopts integral structure, adapt to multiple installation requirements, the outdoor version RRU of small size satisfies the requirement of installing near antenna, reduces the requirement that machine room is chosen greatly; Dominant base comprises indoor macro base station, outdoor macro base station, indoor type Base Band Unit (BBU, baseband Unit), outdoor version BBU etc.

At present, RRU is connected with dominant base by optical interface usually, shares the Base-Band Processing and the master clock resource of dominant base.Fig. 1 is the connection diagram that prior art adopts fiber optic stretch RRU, from Fig. 1 as seen, adopts optical fiber to be connected by optical interface between dominant base and the RRU, the transmission of realization base band data between dominant base and RRU.

For the implementation of employing fiber optic stretch RRU shown in Figure 1, when short-distance transmission, lay the cost height, difficulty of construction is big; In addition,, need in dominant base and RRU, increase optical module newly, thereby improve equipment cost, also reduce equipment dependability simultaneously in order to adopt fiber optic stretch RRU.And twisted-pair feeder, especially unshielded twisted pair are adopted in the wiring in the general building, if require to use optical fiber, need to lay again, are unfavorable for utilizing existing cable resource to carry out networking, have increased the cost of engineering construction.

Summary of the invention

In view of this, main purpose of the present invention is to provide a kind of interface arrangement that connects dominant base and Remote Radio Unit, can reduce the cost of engineering construction, improves equipment dependability, and guarantees the clock synchronization between Remote Radio Unit and the dominant base.

For achieving the above object, technical scheme of the present invention specifically is achieved in that

A kind of interface arrangement that connects dominant base and radio frequency remote unit RRU is separately positioned among dominant base and the RRU, and is connected with the digital interface that is used to carry digital baseband signal that is provided with among dominant base or the RRU, and this interface arrangement comprises:

Be used to carry out the interface modular converter of protocol conversion, receive from the digital baseband signal of the digital interface of carrying digital baseband signal and be converted to the signal that meets ethernet physical layer interface protocol form; Recover reference clock the digital baseband signal on the digital interface of carrying digital baseband signal, or receive from the clock signal of ethernet physical layer and through after the frequency inverted and obtain reference clock, the reference clock that obtains is sent to clock module;

Be used to connect the ethernet physical layer interface of dominant base and RRU, the digital baseband signal after reception is changed from interface modular converter also sends to opposite end ethernet physical layer interface; Or the extraction clock signal sends to interface modular converter from the digital baseband signal that receives;

Be used to guarantee the clock module of synchronous transmission between dominant base and RRU, receive reference clock, generate work clock and operate outside clock, and offer interface modular converter and ethernet physical layer interface respectively from interface modular converter.

Described clock module comprises: phase-locked loop pll, VCXO VCXO and X frequency dividing circuit;

Described PLL receives described reference clock, this reference clock is carried out PLL+VCXO locked in line recovered clock handle, and generates described work clock; Simultaneously the work clock that generates is sent to the X frequency dividing circuit, generate described operate outside clock.

Described ethernet physical layer interface is a gigabit Ethernet physical layer interface chip, and described frequency inverted is eight frequency divisions; Described X frequency dividing circuit is five frequency dividing circuits.

Ethernet physical layer interface in the described dominant base interface arrangement works in the clock holotype, recover described reference clock the digital baseband signal of interface modular converter in the described dominant base interface arrangement on the digital interface of carrying digital baseband signal, the ethernet physical layer interface in the described dominant base interface arrangement receives from the digital baseband signal after the interface modular converter conversion and sends to opposite end ethernet physical layer interface;

Ethernet physical layer interface in the described RRU interface arrangement works in clock from pattern, interface modular converter in the described RRU interface arrangement receives from the clock signal of ethernet physical layer and through after the frequency inverted and obtains described reference clock, ethernet physical layer in the described RRU interface arrangement connects from the digital baseband signal that receives and extracts clock signal, and this clock signal is sent to interface modular converter.

Connect by shielding or unshielded twisted pair between the described ethernet physical layer interface.

The described interface that is used to carry digital baseband signal is a high-speed interface, or other self defined interface;

Described high-speed interface is a common public radio interface CPRI.

Described interface modular converter comprises: the high speed serialization SERDES interface or the synchronous parallel interface that are connected with the interface of described carrying digital baseband signal, gigabit media independent interface GMII series that is connected with the ethernet physical layer interface or SERDES series interfaces;

Described GMII series interfaces comprises: GMII, simplify gigabit media independent interface RGMII or 10 and simplify interface RTBI interface; Described SERDES series interfaces is a 1.25G SERDES interface.

Described ethernet physical layer interface is 100,000,000 or the gigabit Ethernet physical chip.

Described interface arrangement is arranged on the cascade device that is used for cascade dominant base and RRU networking.

As seen from the above technical solution, interface arrangement of the present invention by being used to finish the carrying digital baseband signal digital interface such as high-speed interface with ethernet physical layer interface such as gigabit media independent interface (GMII), simplify GMII (RGMII), 10 interface modular converter and ethernet physical layer interfaces of simplifying protocol format conversion between interface (RTBI) or 1.25G high speed serialization (1.25GSERDES) interface, realized between dominant base and Remote Radio Unit, passing through especially unshielded twisted pair long-distance transmissions digital baseband signal of twisted-pair feeder; Simultaneously, the ethernet physical layer interface that is provided with in the dominant base side interface device works in the clock holotype, and the ethernet physical layer interface in the interface arrangement of Remote Radio Unit works in clock from pattern, interface arrangement of the present invention passes through clock module, make the work clock of radio frequency remoto module be synchronized with dominant base, guaranteed the synchronous transmission between Remote Radio Unit and dominant base.

Description of drawings

Fig. 1 is the connection diagram that prior art adopts fiber optic stretch RRU;

Fig. 2 is that interface arrangement of the present invention is formed schematic diagram;

Fig. 3 is that clock module is formed schematic diagram in the interface arrangement of the present invention;

Fig. 4 is that the present invention adopts twisted-pair feeder to zoom out connection embodiment one schematic diagram of RRU;

Fig. 5 is that the present invention adopts twisted-pair feeder to zoom out connection embodiment two schematic diagrames of RRU.

Embodiment

Core concept of the present invention is: comprise protocol format is changed between the digital interface that is used to finish the carrying digital baseband signal and ethernet physical layer interface interface modular converter, ethernet physical layer interface and clock module, clock module receives the reference clock from interface modular converter, generate work clock and operate outside clock, and offer interface modular converter and ethernet physical layer interface respectively, realize remote synchronous transmission by the ethernet physical layer interface between baseband processing unit and the Remote Radio Unit.

For making purpose of the present invention, technical scheme and advantage clearer, below with reference to the accompanying drawing preferred embodiment that develops simultaneously, the present invention is described in more detail.

Fig. 2 is that interface arrangement of the present invention is formed schematic diagram, in dominant base and RRU, included this interface arrangement, go up the digital interface that being used to of being provided with carry digital baseband signal with dominant base or RRU respectively and is connected, by the synchronous transmission of digital baseband signal between this interface arrangement realization dominant base and RRU.As shown in Figure 2, this interface arrangement comprises with the lower part:

(1) interface modular converter, be used to finish the conversion of protocol format between the digital interface of carrying digital baseband signal such as common public radio interface high speed interfaces such as (CPRI) or other interface and ethernet physical layer interface, be about to be converted to the signal that meets ethernet physical layer interface protocol form from the digital baseband signal of the digital interface of carrying digital baseband signal; Digital baseband signal after the conversion is sent to the ethernet physical layer interface; Always in the digital baseband signal that carries on the digital interface of digital baseband signal, recover reference clock or receive from the clock signal of ethernet physical layer and carry out frequency division and handle and obtain reference clock, and the reference clock that obtains is sent to clock module.This interface modular converter provides SERDES interface or synchronous parallel interface towards the high-speed interface of dominant base/RRU, provides GMII/SERDES series interfaces towards the ethernet physical layer interface.Wherein, the GMII series interfaces comprises the GMII/RGMII/RTBI series interfaces, and the SERDES series interfaces can be 1.25G SERDES interface.Need to prove, when the digital interface towards the carrying digital baseband signal of dominant base provides SERDES interface, when the ethernet physical layer interface provides the SERDES interface, interface towards dominant base is the SERDES interface that meets the CPRI agreement, interface towards ethernet physical layer is the SERDES interface that meets Ethernet protocol, both agreement differences need be carried out the protocol format conversion by interface modular converter equally.

(2) ethernet physical layer interface is used to connect dominant base and RRU, realizes the long Distance Transmission of digital baseband signal on CAT5/5E/6 class twisted-pair feeder between dominant base and RRU.In the dominant base side, the digital baseband signal after reception is changed from interface modular converter also sends to opposite end ethernet physical layer interface; Ethernet physical layer interface among the RRU receives from the Data Base band signal of opposite end ethernet physical layer interface and extracts clock signal, and this clock signal is sent to interface modular converter.

This ethernet physical layer interface can be existing 100,000,000 or the gigabit Ethernet physical chip.The ethernet physical layer chip provides GMII/RGMII/RTBI or 1.25G SERDES interface to dock with interface modular converter.

Adopt technology such as PAM-5 coding such as, gigabit Ethernet physical chip, can be on CAT5/5E/6 class twisted-pair feeder with the gigabit transfer of data distance of 100m at least.In the dominant base side, the steady job of gigabit Ethernet physical chip can be set in the gigabit pattern, will be sent to the outer RRU of 100m from the digital baseband signal of interface modular converter; RRU receives digital baseband signal from dominant base by the ethernet physical layer chip in its own interfaces device, and sends to the CPRI of RRU after with the digital baseband signal conversion that obtains by interface modular converter.

By above-mentioned ethernet physical layer interface and interface modular converter, realized that base band data is by the twisted-pair feeder especially long-distance transmissions of unshielded twisted pair between dominant base and RRU.

(3) clock module is used to guarantee that dominant base and RRU keep synchronousing working.

Usually in using, by the interconnective inter-entity clock of ethernet physical layer chip is asynchronous, but in the system of dominant base and RRU composition, require to keep between RRU and the dominant base synchronously, clock module shown in Figure 3 is in order to keep synchronous between the dominant base realizing connecting by the ethernet physical layer chip and the RRU.

Fig. 3 is that clock module is formed schematic diagram in the interface arrangement of the present invention, and as shown in Figure 3, this clock module comprises: phase-locked loop (PLL), VCXO (VCXO) and X frequency dividing circuit, wherein X represents a numerical value, is determined by practical application, such as 5 frequency divisions etc.Wherein, in the dominant base side, the reference clock that recovers the digital baseband signal of PLL receiving interface modular converter on the digital interface of carrying digital baseband signal, after this reference clock being carried out the processing of PLL+VCXO locked in line recovered clock, generate work clock and offer interface modular converter; Simultaneously the work clock that generates being carried out the X frequency division handles back generation operate outside clock and offers the ethernet physical layer interface such as the gigabit ethernet interface chip, after the inside phase-locked loop of supposing gigabit Ethernet physical layer interface chip carried out 5 frequencys multiplication with this operate outside clock, gigabit Ethernet physical layer interface chip also just had been operated on 32 times of clocks.PLL+VCXO handles and the processing of X frequency division belongs to techniques well known, is not described in detail implementation procedure here, and emphasizes that the clock module in the interface arrangement of the present invention has guaranteed that dominant base and RRU keep synchronousing working, and forms synchro system.

According to the requirement of IEEE802.3 agreement, during ethernet physical layer interface (1000BASE-T) butt joint, the clock work that requires the ethernet physical layer interface is in Loop Time pattern.The ethernet physical layer interface of a side worked in clock master (Master) pattern during Loop Time pattern referred to communicate by letter, and all adopted local clock during the transceive data of line side; And the ethernet physical layer interface of opposite side works in clock from (Slave) pattern in the communication, and line-recovered clock is all adopted in the line side transmitting-receiving.At dominant base with during the RRU system is connected, work in the clock holotype by ethernet physical layer interface in the interface arrangement that dominant base is set, and the ethernet physical layer interface works in clock from pattern in the interface arrangement of RRU, and cooperating clock module shown in Figure 3, the realization dominant base is synchronoused working with RRU's.Wherein, the clock work pattern determines and can realize by hardware or software setting.

Fig. 4 is that the present invention adopts twisted-pair feeder to zoom out connection embodiment one schematic diagram of RRU, suppose to work in the clock holotype, and the ethernet physical layer interface in the RRU interface arrangement works in clock from pattern by the ethernet physical layer interface in the software setting dominant base interface arrangement; Suppose that the reference clock that interface modular converter recovers from CPRI is 4 times of clocks, the inside phase-locked loop in the ethernet physical layer interface is 5 process of frequency multiplication, so the X frequency division in the interface arrangement is 5 frequency divisions; Be connected through CAT5/5E/6 class twisted-pair feeder by the RJ45 socket between dominant base and the RRU.

Like this, at dominant base, the interface modular converter in the interface arrangement carries out the protocol format conversion to the baseband digital signal from CPRI, and the twisted-pair feeder that connects by RJ45 connector behind the ethernet physical layer interface transmits outside dominant base.In dominant base, PLL in the clock module receives the i.e. 4 times of clocks of the reference clock that recovers from CPRI from interface modular converter, these 4 times of clocks is carried out generate after the processing of PLL+VCXO locked in line recovered clock the i.e. 32 times of clocks and offer interface modular converter of work clock; 32 times of clocks that will generate simultaneously carry out 5 frequency divisions to be handled back generation operate outside clock and offers the ethernet physical layer interface, and the inside phase-locked loop in the ethernet physical layer interface carries out synchronised clock to recover 32 times of clocks after 5 process of frequency multiplication.By this interface arrangement, interface modular converter in the dominant base and ethernet physical layer interface all work in 32 times of clocks, promptly are in the synchronous working state.

At RRU, twisted-pair feeder through connecting by RJ45 and ethernet physical layer interface receive the baseband digital signal from dominant base, and the interface modular converter in the interface arrangement carries out sending to CPRI after the protocol format conversion to the baseband digital signal from the ethernet physical layer interface.In RRU, the ethernet physical layer interface extracts from the digital baseband signal that receives and 32 times of synchronous clocks of dominant base, and this clock is delivered to interface modular converter, carries out 8 frequency divisions and handles, and produces 4 times of clocks that use synchronously for PLL; PLL in the clock module receives 4 times of clocks coming out from the interface modular converter frequency division, and these 4 times of clocks are carried out generating after the PLL+VCXO locking processing the i.e. 32 times of clocks and offer interface modular converter of work clock; 32 times of clocks that will generate simultaneously carry out offering the ethernet physical layer interface after 5 frequency divisions are handled, as the work clock of ethernet physical layer interface, the inside phase-locked loop in the ethernet physical layer interface carries out synchronised clock to recover 32 times of clocks after 5 process of frequency multiplication.By this interface arrangement, interface modular converter among the RRU and ethernet physical layer interface all work in 32 times of clocks, promptly are in the synchronous working state.Because 32 times of 32 times of clocks of RRU work and dominant base work is synchronous, so whole system also is in the synchronous working state.

From above-mentioned operation principle as seen, the dominant base that is connected by the ethernet physical layer interface in the interface arrangement of the present invention and RRU are in synchronouss working state, has realized that base band data is by the twisted-pair feeder especially long-distance transmissions of unshielded twisted pair between dominant base and RRU.

Fig. 5 is that the present invention adopts twisted-pair feeder to zoom out connection embodiment two schematic diagrames of RRU, as shown in Figure 5, when between dominant base and RRU during by cascade device such as remote signaling retransmission unit (RHUB) networking, interface arrangement can be arranged on the cascade device that is used for cascade dominant base and RRU networking, establish the realization of networking by cascade between dominant base and RRU and the present invention is irrelevant, can no longer describe in detail here with reference to relevant patent.This paper regards cascade device as the part of dominant base.Interface modular converter in the cascade device can connect a plurality of gigabit Ethernet phy interface chips, as shown in Figure 5 two; Each gigabit Ethernet phy interface chip can provide a plurality of interfaces, realizes star-like networking with a plurality of RRU, and as shown in Figure 5, each gigabit Ethernet phy interface chip provides four interfaces, the corresponding RJ45 socket of each interface; Adopt transformer isolation between gigabit Ethernet phy interface and the RJ45 interface; Interface modular converter is worked under the control of main control module, and clock module provides the operate outside clock to two gigabit Ethernet phy interfaces simultaneously.The RRU side, interface modular converter is worked under the control of main control module.Cascade device and RRU have realized long-distance transmissions by twisted-pair feeder, referring to the operation principle of Fig. 4, keep synchronousing working between cascade device and the RRU.

The above is preferred embodiment of the present invention only, is not to be used to limit protection scope of the present invention.

Claims (9)

1. an interface arrangement that connects dominant base and radio frequency remote unit RRU is characterized in that, is separately positioned among dominant base and the RRU, and is connected with the digital interface that is used to carry digital baseband signal that is provided with among dominant base or the RRU, and this interface arrangement comprises:

Be used to carry out the interface modular converter of protocol conversion, receive from the digital baseband signal of the digital interface of carrying digital baseband signal and be converted to the signal that meets ethernet physical layer interface protocol form; Recover reference clock the digital baseband signal on the digital interface of carrying digital baseband signal, or receive from the clock signal of ethernet physical layer and through after the frequency inverted and obtain reference clock, the reference clock that obtains is sent to clock module;

Be used to connect the ethernet physical layer interface of dominant base and RRU, the digital baseband signal after reception is changed from interface modular converter also sends to opposite end ethernet physical layer interface; Or the extraction clock signal sends to interface modular converter from the digital baseband signal that receives;

Be used to guarantee the clock module of synchronous transmission between dominant base and RRU, receive reference clock, generate work clock and operate outside clock, and offer interface modular converter and ethernet physical layer interface respectively from interface modular converter.

2. interface arrangement according to claim 1 is characterized in that, described clock module comprises: phase-locked loop pll, VCXO VCXO and X frequency dividing circuit;

Described PLL receives described reference clock, this reference clock is carried out PLL+VCXO locked in line recovered clock handle, and generates described work clock; Simultaneously the work clock that generates is sent to the X frequency dividing circuit, generate described operate outside clock.

3. interface arrangement according to claim 2 is characterized in that, described ethernet physical layer interface is a gigabit Ethernet physical layer interface chip, and described frequency inverted is eight frequency divisions; Described X frequency dividing circuit is five frequency dividing circuits.

4. interface arrangement according to claim 1 is characterized in that,

Ethernet physical layer interface in the described dominant base interface arrangement works in the clock holotype, recover described reference clock the digital baseband signal of interface modular converter in the described dominant base interface arrangement on the digital interface of carrying digital baseband signal, the ethernet physical layer interface in the described dominant base interface arrangement receives from the digital baseband signal after the interface modular converter conversion and sends to opposite end ethernet physical layer interface;

Ethernet physical layer interface in the described RRU interface arrangement works in clock from pattern, interface modular converter in the described RRU interface arrangement receives from the clock signal of ethernet physical layer and through after the frequency inverted and obtains described reference clock, ethernet physical layer in the described RRU interface arrangement connects from the digital baseband signal that receives and extracts clock signal, and this clock signal is sent to interface modular converter.

5. interface arrangement according to claim 1 is characterized in that: connect by shielding or unshielded twisted pair between the described ethernet physical layer interface.

6. interface arrangement according to claim 1 is characterized in that: the described interface that is used to carry digital baseband signal is a high-speed interface, or other self defined interface;

Described high-speed interface is a common public radio interface CPRI.

7. interface arrangement according to claim 1, it is characterized in that, described interface modular converter comprises: the high speed serialization SERDES interface or the synchronous parallel interface that are connected with the interface of described carrying digital baseband signal, gigabit media independent interface GMII series that is connected with the ethernet physical layer interface or SERDES series interfaces;

Described GMII series interfaces comprises: GMII, simplify gigabit media independent interface RGMII or 10 and simplify interface RTBI interface; Described SERDES series interfaces is a 1.25G SERDES interface.

8. interface arrangement according to claim 1 is characterized in that: described ethernet physical layer interface is 100,000,000 or the gigabit Ethernet physical chip.

9. interface arrangement according to claim 1 is characterized in that, described interface arrangement is arranged on the cascade device that is used for cascade dominant base and RRU networking.

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