CN207625724U - A kind of ATCA device and system of optical signal and electrical communication and control - Google Patents

Abstract

The utility model discloses the ATCA devices of a kind of optical signal and electrical communication and control, are related to the fields ATCA, including：Server and network shunt device；The side of the network shunt device is connect with the server, the other side optical signal data of the network shunt device（a）And electrical signal data（b）Connection；The network shunt device, for controlling the optical signal data（a）Upstream data flow and the electrical signal data（b）Transmission and the server feedback of the upstream data flow to the server described in optical signal data（a）Downlink data flow and the electrical signal data（b）Downlink data flow.With the ATCA systems of a kind of optical signal and electrical communication and control.Can solve the user that data processing bandwidth is smaller, current divider is small is unable to optical signal and electrical communication and control problem.

Description

A kind of ATCA device and system of optical signal and electrical communication and control

Technical field

The utility model is related to the fields ATCA, the ATCA devices of specifically a kind of optical signal and electrical communication and control And system.

Background technology

Present society is the society of a high speed development, and science and technology is flourishing, information flow, and the exchange between people is increasingly Closely, the data that information interchange generates expand rapidly, wherein the feature of several protrusions is：It is a large amount of property, high speed, various Property, authenticity.Exactly these characteristic let us can generate huge economic benefit by analyzing data, more and more public Department, enterprise start to focus on the analysis of the network information.

Network shunt device（Abbreviation current divider below）As data collection and analysis equipment, focus in data analysis process performance It acts on.The concatenation current divider of mainstream needs one external smooth protector of collocation to use at present, and light protector is concatenated Onto data link, concatenation current divider is connected to light protector, decides whether current divider being concatenated into link by light protector. And light protector is a kind of card-type device, even if using one piece of light protector board, it is also desirable to which cabinet is placed.For number For the user smaller according to business processing bandwidth, current divider is small, this undoubtedly increases cost.As people are to data point Analysis, the enhancing of information security demand, this application scenarios can be more and more extensive, such as residential area, company etc..It can adapt to this Low cost, the strong adaptability data analysis acquisition scheme of kind application scenarios are extremely urgent.

Invention content

In view of this, the utility model provides a kind of ATCA devices of optical signal and electrical communication and control, to solve The user's that data processing bandwidth is smaller, current divider is small is unable to optical signal and electrical communication and control problem.

In a first aspect, the utility model provides a kind of ATCA devices of optical signal and electrical communication and control, including：

Server and network shunt device；

The side of the network shunt device is connect with the server, the other side optical signal data of the network shunt device It is connected with electrical signal data；

The network shunt device, upstream data flow and the electrical signal data for controlling the optical signal data The downlink data flow of optical signal data described in transmission and the server feedback of the upstream data flow to the server With the downlink data flow of the electrical signal data.

Preferably, the network shunt device, further comprises：Service data handler and business datum interface；

The service data handler is connect respectively with the server and the business datum interface, for controlling Transmission of the upstream data flow of the upstream data flow and the electrical signal data of stating optical signal data to the server, with And the downlink data flow of optical signal data described in the server feedback and the downlink data flow of the electrical signal data；

The business datum interface is respectively connected to the optical signal data and is connected with the electrical signal data.

Preferably, the server is blade server.

Preferably, the blade server, further comprises：Blade server processor, the first network interface of blade server With the second network interface of blade server；

The blade server processor, respectively with the first network interface of the blade server and the blade server second Network interface connection, the upper line number of upstream data flow and the electrical signal data for receiving or abandoning the optical signal data According to flow and discarding or send the downlink data flow of optical signal data and the electric signal described in the server feedback The downlink data flow of data；

The first network interface of the blade server is used for transmission the upstream data flow of the optical signal data and the telecommunications Under the downlink data flow of number, or the upstream data flow and the optical signal data of the transmission optical signal data Row data traffic；

The second network interface of the blade server is used for transmission the upstream data flow of the electrical signal data and the telecommunications The lower line number of the downlink data flow of number or the upstream data flow of the electrical signal data and the optical signal data According to flow.

Preferably, there is backboard between the server and the network shunt device；

The backboard is used for transmission the upstream data flow of the optical signal data and the upper line number of the electrical signal data According to the downlink data flow of the downlink data flow and the electrical signal data of flow and the optical signal data.

Preferably, the backboard, including：Backboard first passage, backboard second channel and backboard data transmit-receive circuit；

The backboard data transmit-receive circuit is connect with the backboard first passage and the backboard second channel respectively；

The backboard first passage, the first network interface connection with the server, is used for transmission the optical signal data The downlink data flow of upstream data flow and the electrical signal data, or transmit the upstream of the optical signal data The downlink data flow of amount and the optical signal data；

The backboard second channel, the second network interface connection with the server, is used for transmission the electrical signal data The upstream data flow of the downlink data flow or the electrical signal data of upstream data flow and the electrical signal data and The downlink data flow of the optical signal data；

The backboard data transmit-receive circuit, the upstream data flow for receiving or sending the optical signal data and institute State the upstream data flow of electrical signal data and the downlink data flow of the optical signal data and the electrical signal data Downlink data flow.

Preferably, the backboard further includes：Backboard first interface circuit and backboard second interface circuit；

The backboard first interface circuit connects with the backboard data transmit-receive circuit and the backboard first passage respectively It connects；

The backboard second interface circuit, respectively with state backboard data transmit-receive circuit and the backboard second channel is connect.

Second aspect, the utility model provide a kind of ATCA systems of optical signal and electrical communication and control, including：

Such as a kind of above-mentioned ATCA devices of optical signal and electrical communication and control；And

Master station server and client side；

The optical signal and electrical communication and the ATCA platforms of control are serially connected in total site server and the client Between end；

The client, the uplink of upstream data flow and the electrical signal data for sending the optical signal data Data traffic, and the ATCA platforms for receiving the optical signal and electrical communication and control feed back the downlink of the optical signal data The downlink data flow of data traffic and the electrical signal data；

Total site server, for receiving described in the ATCA platforms transmission of the optical signal and electrical communication and control The upstream data flow of optical signal data and the upstream data flow of the electrical signal data, and send the optical signal data The downlink data flow of downlink data flow and the electrical signal data.

Preferably, also there is bypass mode data path between total site server and the client；

The bypass mode data path is connect with the optical signal and electrical communication and the ATCA platforms of control, described Optical signal and electrical communication and the ATCA platforms of control have memory；

The memory, the uplink of upstream data flow and the electrical signal data for storing the optical signal data Data traffic；

The ATCA platforms of the optical signal and electrical communication and control are used for optical signal described in the feedback client The upstream data flow of data and the upstream data flow of the electrical signal data.

Preferably, have between total site server and the optical signal and electrical communication and the ATCA platforms of control Server switch or router；

Between the client and the optical signal and electrical communication and the ATCA platforms of control there is client to exchange Machine or router.

The utility model at least has the advantages that：

The utility model provides a kind of ATCA devices of optical signal and electrical communication and control, and network shunt device can To control transmission of the upstream data flow to server of the upstream data flow and electrical signal data of optical signal data, and clothes The downlink data flow of the downlink data flow and electrical signal data of device light signal fed back data of being engaged in.And a kind of optical signal and electricity Signal exchange and the ATCA systems of control, it can be achieved that master station server and client side upstream data flow and downlink data flow Control.Solve the user that data processing bandwidth is smaller, current divider is small is unable to optical signal and electrical communication And control problem；The group network topological structure for simplifying previous scheme strengthens compatibility and stability, greatly reduces networking Complexity and cost meet various network environment, enhance adaptability and maintainability.

Description of the drawings

By the description below with reference to attached drawing to the utility model embodiment, the above-mentioned and other mesh of the utility model , feature and advantage it is apparent, in the accompanying drawings：

Fig. 1 is that a kind of optical signal of the utility model embodiment and electrical communication and the structure of the ATCA devices of control are shown It is intended to；

Fig. 2 is the network of a kind of optical signal and electrical communication and the ATCA devices of control of the utility model embodiment Splitter circuit functional block diagram；

Fig. 3 is the blade of a kind of optical signal and electrical communication and the ATCA devices of control of the utility model embodiment The schematic block circuit diagram and optical signal data of server and backboard and electrical signal data flow to schematic diagram；

Fig. 4 is the blade of a kind of optical signal and electrical communication and the ATCA devices of control of the utility model embodiment The schematic block circuit diagram and optical signal data of server and backboard and the another of electrical signal data flow to schematic diagram；

Fig. 5 is that a kind of optical signal of the utility model embodiment and the structure of electrical communication and the ATCA systems of control are shown It is intended to.

Specific implementation mode

The utility model is described below based on embodiment, but it is worth noting that, the utility model is simultaneously unlimited In these embodiments.It is detailed to describe some specific detail sections below in the datail description of the utility model.So And for the part of no detailed description, those skilled in the art can also understand the utility model completely.

In addition, it should be understood by one skilled in the art that the attached drawing that is provided is simply to illustrate that the utility model Objects, features and advantages, attached drawing are not to be actually drawn to scale.

Meanwhile unless the context clearly requires otherwise, "include", "comprise" etc. otherwise throughout the specification and claims Similar word should be construed as the meaning for including rather than exclusive or exhaustive meaning；That is, being " including but not limited to " Meaning.

Fig. 1 is that a kind of optical signal of the utility model embodiment and electrical communication and the structure of the ATCA devices of control are shown It is intended to.As shown in Figure 1, the ATCA devices of a kind of optical signal and electrical communication and control, including：Server and network shunt Device；The side of network shunt device is connect with server, the other side of network shunt device respectively with first group of upstream data flow 1, First group of downlink data flow, 2, second groups of upstream data flows 3 are connected with second group of downlink data flow 4, line number on first group It is optical signal data, second group of upstream data flow 3 and second group of downlink data according to flow 1 and first group of downlink data flow 2 Flow 4 is electrical signal data.Alternatively, first group of 1, first group of upstream data flow, 2, second groups of downlink data flow upstream data Flow 3 and second group of downlink data flow 4 are optical signal data and electrical signal data and combination.

Further, in Fig. 1, server is blade server 5.

Specifically, in Fig. 1,1, first group of downlink data flow of blade server 5 and first group of upstream data flow 2, network shunt device is concatenated between second group of upstream data flow 3 and second group of downlink data flow 4 simplifies user's wiring, branch Hold optical signal and electric signal, meet plurality of application scenes, solve because equipment is disperseed, hardware configuration disunity, caused by safeguard Problem complicated, hardware cost is high, occupied space is big, power consumption is high.And network shunt device can control control optical signal data Upstream data flow and electrical signal data transmission and blade server 5 of the upstream data flow to blade server 5 it is anti- Present the downlink data flow of the downlink data flow and electrical signal data of optical signal data.

Further, in Fig. 1, the ATCA devices of a kind of optical signal and electrical communication and control, including：12 blades Server and 2 network shunt devices.12 blade servers are respectively：First blade server 5a, the second blade server 5b, third blade server 5c, fourth blade server 5d, the 5th blade server 5e, the 6th blade server 5l, the 7th knife Piece server 5f, the 8th blade server 5g, the 9th blade server 5h, the tenth blade server 5i, the 11st blade service Device 5j and the 12nd blade server 5k.2 network shunt devices are first network current divider 6a and the second network shunt device respectively 6b.One end of first network current divider 6a respectively with the first blade server 5a, the second blade server 5b, third blade service Device 5c, fourth blade server 5d, the 5th blade server 5e, the 6th blade server 5l, the 7th blade server 5f, the 8th Blade server 5g, the 9th blade server 5h, the tenth blade server 5i, the 11st blade server 5j and the 12nd blade The other end of server 5k connections, first network current divider 6a inputs or exports first group of upstream data flow 1 and first group Downlink data flow 2；One end of second network shunt device 6b respectively with the first blade server 5a, the second blade server 5b, Third blade server 5c, fourth blade server 5d, the 5th blade server 5e, the 6th blade server 5l, the 7th blade Server 5f, the 8th blade server 5g, the 9th blade server 5h, the tenth blade server 5i, the 11st blade server 5j and the 12nd blade server 5k connections, second group of upstream data of other end input or output of the second network shunt device 6b Flow 3 and second group of downlink data flow 4.

In Fig. 1, ATCA cabinets are given and support that 2 exchange slot position, 2 exchange slot position and are used for current divider；12 services Tank position is used for the embodiment of blade server, and those skilled in the art can also be according to the exchange slot position and service that ATCA cabinets support Tank position provides other structures, such as：ATCA cabinets support that 1 exchanges slot position, exchange slot position and are used for current divider；3 servers Slot position is used for blade server；For another example：ATCA cabinets support that 1 exchanges slot position, and 1 exchanges slot position and is used for current divider；5 services Tank position is used for blade server.Network shunt device and blade server 5 will be opened from hardware configuration according to ATCA standards Hair, can uniformly apply on ACTA cabinets, realize network topology normalization, simplify group net topology.

Fig. 2 is the network of a kind of optical signal and electrical communication and the ATCA devices of control of the utility model embodiment Splitter circuit functional block diagram.As shown in Fig. 2, by taking first network current divider 6a as an example, first network current divider 6a, including：Industry Be engaged in data processor 6ac and business datum interface 6aa；Service data handler 6ac, respectively with server and business datum interface 6aa connections, the upstream data flow of upstream data flow and electrical signal data b for controlling optical signal data a is to server Transmission and the downlink data flow of server feedback optical signal data a and the downlink data flow of electrical signal data b.Industry The business data transmission software being engaged in data processor 6ac is the prior art, not new software development, business datum interface 6aa can be that either serial line interface or digital interface or analog interface, those skilled in the art can be according to optical signals for parallel interface The downlink data flow and electricity of the upstream data flow of data a and the upstream data flow of electrical signal data b and signal data a The selection of signal data b data characteristics is suitble to interface, such as：1GE interfaces and 10GE interfaces.

Fig. 3 is the blade of a kind of optical signal and electrical communication and the ATCA devices of control of the utility model embodiment The schematic block circuit diagram and optical signal data of server and backboard and electrical signal data flow to schematic diagram.Fig. 4 is this practicality The circuit of a kind of optical signal and the blade server and backboard of electrical communication and the ATCA devices of control of new embodiment Functional block diagram and the another of optical signal data and electrical signal data flow to schematic diagram.

As shown in Figure 3 and Figure 4, and in conjunction with Fig. 2 it illustrates, blade server 5 further comprises：At blade server Manage device 51, the first network interface of blade server 52 and the second network interface of blade server 53；Blade server processor 51, respectively with knife The first network interface of piece server 52 and the second network interface of blade server 53 connect；The first network interface of blade server 52, is used for transmission light The upstream data flow of signal data a and the downlink data flow of electrical signal data b, or transmit the uplink of optical signal data a The downlink data flow of data traffic and optical signal data a；The second network interface of blade server 53, is used for transmission electrical signal data b Upstream data flow and electrical signal data b downlink data flow or electrical signal data b upstream data flow and light letter The downlink data flow of number a.

Specifically, in figs. 3 and 4, and illustrated in conjunction with Fig. 2, blade server processor 51 is default to judge journey Sequence, blade server processor 51 receive or abandon the upstream of the optical signal data a according to default determining program The upstream data flow and discarding of amount and the electrical signal data b send optical signal data described in the server feedback The downlink data flow of the downlink data flow of a and the electrical signal data b；The default judgement journey of blade server processor 51 Sequence is the prior art, not new software development.

In figs. 3 and 4, there is backboard 6 between server and network shunt device；Backboard 6, is used for transmission optical signal data The downlink data flow and electricity of the upstream data flow of a and the upstream data flow of electrical signal data b and optical signal data a The downlink data flow of signal data b.

Further, in figs. 3 and 4, it and in conjunction with Fig. 2 illustrates, backboard 6, including：Backboard first passage 61, the back of the body Plate second channel 62 and backboard data transmit-receive circuit 65；Backboard data transmit-receive circuit 65, respectively with backboard first passage 61 and the back of the body Plate second channel 62 connects；Backboard first passage 61, the first network interface connection with server, is used for transmission optical signal data a's The downlink data flow of upstream data flow and electrical signal data b, or transmit the upstream data flow and light of optical signal data a The downlink data flow of signal data a；Backboard second channel 62, the second network interface connection with server, is used for transmission electric signal The upstream data flow of the upstream data flow of data b and the downlink data flow of electrical signal data b or electrical signal data b With the downlink data flow of optical signal data a；Backboard data transmit-receive circuit 65, for receiving or sending optical signal data a's The downlink data flow and electric signal of the upstream data flow and optical signal data a of upstream data flow and electrical signal data b The downlink data flow of data b.

Specifically, in figs. 3 and 4, the physics that blade server 5 and network shunt device pass through ATCA case back plates 6 Channel connects, and the data exchange capability of backboard 4 enables the utility model to cooperate with other slot position equipment in same cabinet, Realize increasingly complex various business function.

Further, in figs. 3 and 4, backboard 6 further include：Backboard first interface circuit 63 and backboard second interface electricity Road 64；Backboard first interface circuit 63 is connect with backboard data transmit-receive circuit 65 and backboard first passage 61 respectively；Backboard second Interface circuit 64, respectively with state backboard data transmit-receive circuit 65 and backboard second channel 62 is connect.

Specifically, in figs. 3 and 4, and illustrated in conjunction with Fig. 2, backboard first interface circuit 63 and backboard second Interface circuit 64 be pluggable interface, be used for optical signal data a and electrical signal data b transmission, can be parallel interface or Either digital interface or analog interface, those skilled in the art can be according to the upstream data flows of optical signal data a for serial line interface It is selected with the upstream data flow of electrical signal data b and the downlink data flow of signal data a and electrical signal data b data characteristics Suitable interface is selected, such as：Fabric interfaces.

Fig. 5 is that a kind of optical signal of the utility model embodiment and the structure of electrical communication and the ATCA systems of control are shown It is intended to.As shown in figure 5, and illustrate in conjunction with Fig. 2, a kind of ATCA systems of optical signal and electrical communication and control, including： Such as a kind of above-mentioned ATCA devices A of optical signal and electrical communication and control；And total site server 8 and client 9；Optical signal And electrical communication and the ATCA devices A of control are serially connected between total site server 8 and client 9；Client 9, for sending The upstream data flow of optical signal data a and the upstream data flow of electrical signal data b, and receive optical signal and electrical communication With the downlink data flow of the downlink data flow and electrical signal data b of the ATCA device A light signal fed back data a of control；Always Site server 8, the ATCA devices A for receiving optical signal and electrical communication and control send the upper line number of optical signal data a According to the upstream data flow of flow and electrical signal data b, and send the downlink data flow and electrical signal data of optical signal data a The downlink data flow of b.

Further, in Figure 5, also there is bypass mode data path between total site server 8 and client 9；Bypass Mode data access is connect with optical signal and electrical communication and the ATCA devices A of control, optical signal and electrical communication and control The ATCA devices A of system has memory；Memory, the upstream data flow for storing optical signal data a and electrical signal data b Upstream data flow；The ATCA device A of optical signal and electrical communication and control are used for feedback 9 optical signal number of client According to the upstream data flow of a and the upstream data flow of electrical signal data b.

Further, in Figure 5, between total site server 8 and optical signal and electrical communication and the ATCA devices A of control With server switch or router 10；Between client 9 and optical signal and electrical communication and the ATCA devices A of control With client's end switch or router 7.

It is briefly described in conjunction with the course of work of Fig. 1~5, and the utility model：Optical signal and electrical communication and control The ATCA devices A of system is serially connected between total site server 8 and client 9；Client 9 sends the upstream data of optical signal data a The upstream data flow of flow and electrical signal data b, and receive optical signal and electrical communication and the ATCA devices A feedbacks of control The downlink data flow of optical signal data a and the downlink data flow of electrical signal data b；Total site server 8 receive optical signal and Electrical communication and the ATCA devices A of control send the upper line number of the upstream data flow and electrical signal data b of optical signal data a According to flow, and send the downlink data flow of optical signal data a and the downlink data flow of electrical signal data b.ATCA platforms A's Network shunt device control client 9 optical signal data a upstream data flow and electrical signal data b upstream data flow to The transmission of blade server 5 and blade server 5 feed back the optical signal data a of total site server 8 downlink data flow and The downlink data flow of electrical signal data b.Meanwhile also having bypass mode data logical between total site server 8 and client 9 Road；Bypass mode data path is connect with optical signal and electrical communication and the ATCA devices A of control, and optical signal and electric signal are handed over The ATCA devices A for changing and controlling has memory；Memory, the upstream data flow for storing optical signal data a and telecommunications The upstream data flow of number b；The ATCA device A of optical signal and electrical communication and control are used for feedback 9 light of client The upstream data flow of signal data a and the upstream data flow of electrical signal data b；At this point, optical signal and electrical communication and The ATCA devices A of control only serve the upstream data flow, electrical signal data b of monitoring optical signal data a upstream data flow, The effect of the downlink data flow of optical signal data a and the downlink data flow of electrical signal data b, can not control optical signal number According to the transmission of the downlink data flow of the downlink data flow and electrical signal data b of a.

Embodiment described above is only to express the embodiment of the utility model, the description thereof is more specific and detailed, but simultaneously Cannot the limitation to the utility model patent range therefore be interpreted as.It should be pointed out that the ordinary skill people of this field For member, without departing from the concept of the premise utility, several deformations, same replacement can also be made, improved etc., these Belong to the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. the ATCA devices of a kind of optical signal and electrical communication and control, which is characterized in that including：

Server and network shunt device；

The side of the network shunt device is connect with the server, the other side optical signal data of the network shunt device（a） And electrical signal data（b）Connection；

The network shunt device, for controlling the optical signal data（a）Upstream data flow and the electrical signal data（b） Transmission and the server feedback of the upstream data flow to the server described in optical signal data（a）Lower line number According to flow and the electrical signal data（b）Downlink data flow.

2. the ATCA devices of a kind of optical signal and electrical communication and control according to claim 1, it is characterised in that：

The network shunt device, further comprises：Service data handler（6ac）With business datum interface（6aa）；

The service data handler（6ac）, respectively with the server and the business datum interface（6aa）Connection, is used for The upstream data flow of the optical signal data and the upstream data flow of the electrical signal data are controlled to the server The downlink data of the downlink data flow and the electrical signal data of optical signal data described in transmission and the server feedback Flow；

The business datum interface（6aa）, it is respectively connected to the optical signal data（a）With the electrical signal data（b）Connection.

3. the ATCA devices of a kind of optical signal and electrical communication and control according to claim 1, it is characterised in that：

The server is blade server（5）.

4. the ATCA devices of a kind of optical signal and electrical communication and control according to claim 3, it is characterised in that：

The blade server（5）, further comprise：Blade server processor（51）, the first network interface of blade server（52） With the second network interface of blade server（53）；

The blade server processor（51）, respectively with the first network interface of the blade server（52）With the blade server Second network interface（53）Connection, for receiving or abandoning the optical signal data（a）Upstream data flow and the electric signal Data（b）Upstream data flow and discarding or send optical signal data described in the server feedback（a）Lower line number According to flow and the electrical signal data（b）Downlink data flow；

The first network interface of the blade server（52）, it is used for transmission the optical signal data（a）Upstream data flow and described Electrical signal data（b）Downlink data flow, or the transmission optical signal data（a）Upstream data flow and the light letter Number（a）Downlink data flow；

The second network interface of the blade server（53）, it is used for transmission the electrical signal data（b）Upstream data flow and described Electrical signal data（b）Downlink data flow or the electrical signal data（b）Upstream data flow and the optical signal number According to（a）Downlink data flow.

5. according to a kind of any one of Claims 1 to 4 ATCA devices of optical signal and electrical communication and control, feature It is：

There is backboard between the server and the network shunt device（6）；

The backboard（6）, it is used for transmission the optical signal data（a）Upstream data flow and the electrical signal data（b）'s Upstream data flow and the optical signal data（a）Downlink data flow and the electrical signal data（b）Downlink data Flow.

6. the ATCA devices of a kind of optical signal and electrical communication and control according to claim 5, it is characterised in that：

The backboard（6）, including：Backboard first passage（61）, backboard second channel（62）With backboard data transmit-receive circuit（65）；

The backboard data transmit-receive circuit（65）, respectively with the backboard first passage（61）With the backboard second channel（62） Connection；

The backboard first passage（61）, the first network interface connection with the server is used for transmission the optical signal data（a） Upstream data flow and the electrical signal data（b）Downlink data flow, or the transmission optical signal data（a）It is upper Row data traffic and the optical signal data（a）Downlink data flow；

The backboard second channel（62）, the second network interface connection with the server is used for transmission the electrical signal data（b） Upstream data flow and the electrical signal data（b）Downlink data flow or the electrical signal data（b）Upper line number According to flow and the optical signal data（a）Downlink data flow；

The backboard data transmit-receive circuit（65）, for receiving or sending the optical signal data（a）Upstream data flow With the electrical signal data（b）Upstream data flow and the optical signal data（a）Downlink data flow and the electricity Signal data（b）Downlink data flow.

7. the ATCA devices of a kind of optical signal and electrical communication and control according to claim 6, it is characterised in that：

The backboard（6）, further include：Backboard first interface circuit（63）With backboard second interface circuit（64）；

The backboard first interface circuit（63）, respectively with the backboard data transmit-receive circuit（65）With the backboard first passage （61）Connection；

The backboard second interface circuit（64）, respectively with state backboard data transmit-receive circuit（65）With the backboard second channel （62）Connection.

8. the ATCA systems of a kind of optical signal and electrical communication and control, which is characterized in that including：

A kind of ATCA devices of optical signal and electrical communication and control as described in any one of claim 1~7（A）；And

Total site server（8）And client（9）；

The ATCA platforms of the optical signal and electrical communication and control（A）It is serially connected in total site server（8）With the visitor Family end（9）Between；

The client（9）, for sending the optical signal data（a）Upstream data flow and the electrical signal data（b） Upstream data flow, and receive the ATCA platforms of the optical signal and electrical communication and control（A）Feed back the optical signal Data（a）Downlink data flow and the electrical signal data（b）Downlink data flow；

Total site server（8）, the ATCA platforms for receiving the optical signal and electrical communication and control（A）Send institute State optical signal data（a）Upstream data flow and the electrical signal data（b）Upstream data flow, and send light letter Number（a）Downlink data flow and the electrical signal data（b）Downlink data flow.

9. the ATCA systems of a kind of optical signal and electrical communication and control according to claim 8, it is characterised in that：

Total site server（8）With the client（9）Between also have bypass mode data path；

The ATCA platforms of the bypass mode data path and the optical signal and electrical communication and control（A）Connection, it is described The ATCA platforms of optical signal and electrical communication and control（A）With memory；

The memory, for storing the optical signal data（a）Upstream data flow and the electrical signal data（b）It is upper Row data traffic；

The ATCA platforms of the optical signal and electrical communication and control（A）, it is used for the feedback client（9）The light letter Number（a）Upstream data flow and the electrical signal data（b）Upstream data flow.

10. the ATCA systems of a kind of optical signal and electrical communication and control according to claim 8 or claim 9, it is characterised in that：

Total site server（8）With the ATCA platforms of the optical signal and electrical communication and control（A）Between have service Device interchanger or router（10）；

The client（9）With the ATCA platforms of the optical signal and electrical communication and control（A）Between have client hand over It changes planes or router（7）.