CN102609754B - Smart card control board, smart card control node, smart card control subnet and smart card control warehouse - Google Patents

Abstract

The invention provides a smart card control board comprising a plurality of smart card hardware interfaces, a control board control chip, and a seat slot interface of the smart card control board; provides a smart card control node comprising a plurality of smart card control boards, a smart card control main board, an internal wiring network, and an external interface of the smart card control node; provides a smart card control subnet comprising a smart card control station, the smart card control node, and a smart card cable deployment network; and provides a smart card control warehouse comprising the smart card control subnet and an application server. Therefore, the mode of flexibly selecting and connecting card reading devices in batches can be realized, the one-to-one card reading mode is avoided, and therefore, the number of controlled smart cards is greatly increased, and the networking cost is reduced.

Description

Smart card control panel, smart card Controlling vertex, smart card control subnet and smart card controls warehouse

Technical field

The present invention relates to field of intelligent cards, particularly a kind of smart card control panel, smart card Controlling vertex, smart card control subnet and smart card control warehouse.

Background technology

Smart card is widely used in different field, general is all have fixing purposes, such as: SIM/USIM card is used for the communications field, fiscard is used for financial field etc., therefore smart card is used to correspond to fixing equipment, such as: SIM/USIM is stuck on mobile phone and uses, and fiscard uses on financial POS machine.If need to realize the Read-write Catrol to smart card on computers, generally realized by smart card reader, but use smart card reader to have very large limitation: first, must directly connect, computing machine needs to read and write smart card, must pass through external hardware interface common interfaces such as () serial ports, parallel port, USB and directly connect smart card reader; Secondly, only can serve one to one, namely a card reader to a sheet smart card service, can only need to manipulate multiple smart card simultaneously, must connect multiple smart card reader simultaneously.As shown in Figure 1, for the connection diagram of prior art Computer and smart card reader, a computing machine 11 is connected to two smart card readers 111,112, each card reader 111,112 all only can insert a sheet smart card 1111,1121, therefore, this computing machine 11 just can only control two sheet smart cards 1111,1121 simultaneously.Due to external hardware interface (common interfaces such as serial ports, parallel port, USB) limited amount of computing machine, the smart card reader that therefore at most simultaneously can connect also is limited, even if use the expansion equipment as usb hub, can the interface quantity of expansion also be limited, can not manipulate the smart card of tens or more simultaneously; Again, the cost of networking is high, if need to carry out concentrating read-write to a large amount of smart card, that just must to smart card reader networking.As shown in Figure 2, for the operational network structural representation of intelligent card reader in prior art, every platform computing machine 21,22,23 only can connect tens limited smart card readers 211,212,221,222,231,231 etc., every platform computing machine connecting Internet, application server 24 connects each terminal computer and forms a larger smart card manipulation network 20, but the capacity of this kind of network is also limited, expansion amount can only be the hundreds of order of magnitude, and numerous terminal computers and card reader can make the cost of networking very high.Therefore, need further improvement.

Summary of the invention

Object of the present invention is intended at least solve one of above-mentioned technological deficiency, propose a kind of smart card control panel, smart card Controlling vertex, smart card controls subnet and smart card controls warehouse, achieve can select flexibly to connect card-reading apparatus mode, break away from man-to-man card-reading mode, greatly expand in check smart card quantity and the cheap object of networking cost.

According to an aspect of the present invention, propose a kind of smart card control panel, comprising: multiple smart card hardware interface, for inserting smart card; Control panel control chip, for by the driving that each described smart card hardware interface realizes and host-host protocol, controls the read-write of described smart card; The base slot interface of smart card control panel, as the external hardware interface connecting out from described control panel control chip.

The present invention also proposes a kind of smart card control panel, comprises, multiple smart card hardware interface with smart card reader chip, for inserting smart card and the driving and the host-host protocol that realize described smart card hardware interface; Control panel control chip, for going out the data retransmission of described smart card; The base slot interface of smart card control panel, as the external hardware interface connecting out from described control panel control chip.

The invention allows for a kind of smart card Controlling vertex, comprising: smart card controls mainboard, can insert multiple smart card control panel, for holding and being connected described smart card control panel; Internal wiring network, for connecting described multiple smart card control panel; And the external interface of smart card Controlling vertex, be arranged at smart card and control on mainboard, for providing described smart card Controlling vertex and extraneous connection.

Wherein, described in described Controlling vertex, multiple smart card control panel interweaves connection between two, with avoid wherein certain connect disconnection and cause part smart card control panel cannot transmission of information, the four pieces of smart card control panels being positioned at two ends are connected on the external interface of described smart card Controlling vertex.

The present invention also proposes a kind of smart card Controlling vertex, comprise: the smart card with mainboard control chip controls mainboard, multiple smart card control panel can be inserted, for holding, connecting and control described multiple smart card control panel and provide the interface communicated with the external world, described mainboard control chip internally controls described multiple smart card control panel, and for correspondence with foreign country; Internal wiring network, for connecting described multiple smart card control panel; And the external interface of smart card Controlling vertex, be arranged at smart card and control on mainboard, for providing described smart card Controlling vertex and extraneous connection.

Wherein, described internal wiring network is directly connect, described multiple smart card control panels in described Controlling vertex interweave connection between two, with avoid wherein certain connect disconnection and cause part smart card control panel cannot transmission of information, the four pieces of smart card control panels being positioned at two ends connect described mainboard control chip, and described mainboard control chip is connected on the external interface of described smart card Controlling vertex.

Wherein, described internal wiring network is that bus or inner Ethernet connect, described in described Controlling vertex, multiple smart card control panel and described mainboard control chip are connected to bus or inner Ethernet, described mainboard control chip for control bus or inner Ethernet connection and be connected to the external interface of described smart card Controlling vertex.

Present invention further proposes a kind of smart card and control subnet, comprise, smart card control desk, for distributing and managing the home address that described smart card controls the multiple smart card Controlling vertex in subnet, the information that described smart card control subnet receives is done address resolution, and be sent to correct smart card Controlling vertex, and send out after the Data Analysis encapsulation of the described smart card that the described smart card Controlling vertex received is transmitted; Multiple smart card Controlling vertex, for doing the information after address resolution by described smart card control desk be sent to correct smart card control panel by what receive, and the data of the described smart card obtained by described smart card control panel send described smart card control desk to; Subnet routing network, for connecting multiple described smart card Controlling vertex.

Wherein, described subnet routing network is connected in series, and described smart card Controlling vertex directly connects adjacent smart card Controlling vertex by the external interface of described smart card Controlling vertex, and head and the tail two smart card Controlling vertex are connected to described smart card control desk.

Wherein, described subnet routing network is directly connect, described smart card control desk comprises the external interface of multiple smart card control desk, smart card Controlling vertex described in the multichannel of direct connection respective number, described smart card Controlling vertex in each road directly connects adjacent smart card Controlling vertex by the external interface of smart card Controlling vertex, and the connection that interweaves between two between the multiple intelligent control node of adjacent two-way, in each road, the smart card Controlling vertex of end all to be formed with the Controlling vertex on other roads by the external interface of smart card Controlling vertex and is connected, the connection between every two smart card Controlling vertex is made to disconnect the transmission that also can not affect described smart card console message.

The invention allows for a kind of smart card and control subnet, comprise: smart card control desk, for distributing and managing the home address that described smart card controls the multiple described smart card Controlling vertex in subnet, the information that described smart card control subnet receives is done address resolution, and be sent to correct smart card Controlling vertex, and send out after the Data Analysis encapsulation of the described smart card that the described smart card Controlling vertex received is transmitted; Multiple smart card Controlling vertex, for doing the information after address resolution by described smart card control desk be sent to correct smart card control panel by what receive, and the data of the described smart card obtained by described smart card control panel send described smart card control desk to; Subnet routing network or wireless network, for connecting multiple described smart card Controlling vertex.

Wherein, described subnet routing network or wireless network are that Ethernet connects, described smart card Controlling vertex and described smart card control desk are all connected to inner Ethernet, described mainboard control chip, realize Ethernet protocol for the connection that controls between described smart card Controlling vertex.

Wherein, described subnet routing network or wireless network are wireless network, comprise WAP, and described smart card control desk is connected by switch with described WAP, described mainboard control chip, realizes WLAN agreement for the connection that controls between described smart card Controlling vertex.

Preferably, described smart card control desk comprises application controls layer, the management that described application controls layer controls the address administration of the described smart card Controlling vertex in subnet for controlling described smart card, described smart card controls the management of the described smart card control panel in subnet, described smart card controls the described smart card in subnet, also for resolving the data received, through extracting or sending out after encapsulation.

Present invention further proposes a kind of smart card and control warehouse, it is characterized in that, comprising: application server and multiple smart card control subnet, wherein, described smart card controls subnet and is connected to internet by described smart card control desk; Described application server, controls warehouse for controlling described smart card.

Wherein, comprise in described smart card control desk for the ICP/IP protocol of internet and application instruction agreement and the specific Routing Protocol controlling subnet for smart card.

Wherein, described smart card control desk comprises application controls layer, described application controls layer controls the address administration of the described smart card Controlling vertex in subnet for controlling described smart card, the management of described smart card control panel, described smart card controls the management of described smart card in subnet and the control and management for receiving described application server, also for resolving the data received, through extracting or sending out after encapsulation.

Described smart card control panel of the present invention can connect multiple smart card, broken away from traditional man-to-man limitation, thus expanded capacity terminal computer connecting smart card; Smart card Controlling vertex of the present invention can be selected to connect card-reading apparatus mode, optional Ethernet, LAN (Local Area Network) and traditional external interface by intelligent console flexibly; Described application server controls warehouse by smart card can control millions of even up to ten million smart card, and in check smart card quantity is increased greatly; The cost of smart card control panel is lower than the cost of existing smart card reader, and a station terminal computing machine just can control up to ten million smart cards, thus greatly reduces terminal cost.

Accompanying drawing explanation

The present invention above-mentioned and/or additional aspect and advantage will become obvious and easy understand from the following description of the accompanying drawings of embodiments, wherein:

Fig. 1 is computing machine of the prior art and smart card reader connection diagram;

Fig. 2 is the operational network structural representation of smart card reader of the prior art;

Fig. 3 is the smart card control panel structural representation according to the embodiment of the present invention;

Fig. 4 is the smart card control panel structural representation of the smart card reader chip portfolio according to the embodiment of the present invention;

Fig. 5 is the smart card Controlling vertex structural representation according to the embodiment of the present invention;

Fig. 6 is the direct connection diagram not controlling smart card control panel on mainboard with control chip according to the embodiment of the present invention;

Fig. 7 is the direct connection diagram controlling smart card control panel on mainboard according to the band control chip of the embodiment of the present invention;

Fig. 8 is with bus or Ethernet connection diagram according to the smart card control panel on the band control chip control mainboard of the embodiment of the present invention;

Fig. 9 is the structural representation controlling subnet according to the smart card connected in series of the embodiment of the present invention;

Figure 10 is the structural representation that the smart card connected according to the intertexture of the embodiment of the present invention controls subnet;

Figure 11 is the structural representation that the smart card connected according to the Ethernet of the embodiment of the present invention controls subnet;

Figure 12 is the structural representation controlling subnet according to the smart card of the wireless connections of the embodiment of the present invention;

Figure 13 is the schematic diagram of the smart card control desk protocol stack according to the embodiment of the present invention

Figure 14 is the structural representation controlling warehouse chart according to the smart card of the embodiment of the present invention.

Embodiment

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

Referring to Fig. 3, be a kind of smart card control panel 30 of the present invention, comprise: multiple smart card hardware interface (not shown), for inserting smart card 31; Control panel control chip 32, for by the driving that each described smart card hardware interface realizes and host-host protocol, controls the read-write of each smart card 31; The base slot interface (not shown) of smart card control panel, as the external hardware interface connecting out from described control panel control chip, described external hardware interface can be used for controlling mainboard by smart card and connect to form smart card Controlling vertex, and this will specifically describe below.Wherein, each smart card hardware interface does not have respective Card Reader chip, but is controlled the read-write of each sheet smart card on it by control panel control chip.Alternately, shown in Fig. 4, each smart card hardware interface also can have respective Card Reader chip 33, described Card Reader chip 33 can realize the host-host protocol of described smart card hardware interface, control the read-write of smart card 31, described control panel control chip 32 for the data retransmission of smart card 31 is gone out, owing to there is Card Reader chip in each smart card hardware interface, so the cost of this scheme is higher.Smart card control panel 30 provided by the invention can connect multiple smart card 31, broken away from traditional man-to-man limitation thus, thus expanded capacity terminal computer connecting smart card.

Referring to Fig. 5, be smart card Controlling vertex 50 of the present invention, comprise: the smart card that can insert multiple smart card control panel 30 controls the external interface of mainboard, internal wiring network, cabinet and smart card Controlling vertex.Wherein routing network can comprise multiple wire laying mode, includes but not limited to that direct connection, bus or Ethernet connect.

In one embodiment of the present of invention, provide a kind of example of direct connection, as shown in Figure 6, wherein: described multiple smart card control panel 30 interweaves connection between two, the four pieces of smart card control panels 30 being positioned at two ends are connected on the external interface on described smart card Controlling vertex, transmit information to other smart card control panels, thus wherein certain connection is avoided to disconnect and cause the information of part smart card control panel to transmit.Under this connected mode, smart card controls mainboard and without mainboard control chip, for holding and being connected described smart card control panel 30, can not have the function controlled; This mode connects simply, and cost is low, but Routing Protocol is underground, needs specific control protocol.

Selectively, an alternative embodiment of the invention additionally provides a kind of example of direct connection, as shown in Figure 7, under this connected mode, smart card controls mainboard with mainboard control chip, described multiple smart card control panel 30 ' interweaves connection between two, with avoid wherein certain connect disconnection and cause part smart card control panel 30 ' cannot transmission of information, the four pieces of smart card control panels 30 ' being positioned at two ends connect described mainboard control chip 32 ', and described mainboard control chip is connected on the external interface of described smart card Controlling vertex.Described mainboard control chip is used for internally controlling described multiple smart card control panel 30 ', comprises and distributes home address, address is changed and/or base attribute is collected, and for correspondence with foreign country; This mode connects also very simple, and cost is low, but Routing Protocol is underground, needs specific control protocol.

Selectively, one embodiment of the present of invention additionally provide the example of a kind of bus or Ethernet connection, as shown in Figure 8, under this connected mode, smart card controls mainboard with mainboard control chip, described multiple smart card control panel 30 " and mainboard control chip 32 " be all connected to bus or inner Ethernet, described mainboard control chip 32 " be also connected on the external interface of described smart card Controlling vertex.In this case, described mainboard control chip is used for internally controlling described multiple smart card control panel, comprises and distributes home address, address is changed and/or base attribute is collected, and for correspondence with foreign country.This connected mode realizes simple, connected, but cost is higher by Ethernet protocol.

In smart card Controlling vertex, smart card control panel is inserted in the socket on smart card control mainboard is diversified, to facilitate hardware design and expansion, common serial line interface can be selected, such as: serial ports, USB etc., also optional general bus, such as: the interfaces such as ISA, PCI, receive by this socket the information that smart card control mainboard transmits and control mainboard with transmission intelligent card data to smart card.

Be described above smart card control panel and Controlling vertex according to an embodiment of the invention, multiple above-mentioned smart card Controlling vertex can also be connected to form smart card and control subnet.Specifically, referring to Fig. 9 to 12, for a kind of smart card of the present invention controls subnet, comprise, smart card control desk 90, for distributing and managing the home address that described smart card controls the multiple smart card Controlling vertex 50 in subnet, does address resolution by the information that described smart card control subnet receives, and be sent to correct smart card Controlling vertex 50, and send out after the Data Analysis encapsulation of the smart card that the smart card Controlling vertex 50 of reception is transmitted; Multiple smart card Controlling vertex 50, for doing the information after address resolution by described smart card control desk be sent to correct smart card control panel by what receive, and the data of the described smart card obtained by described smart card control panel send described smart card control desk 90 to; And subnet routing network, for connecting multiple described smart card Controlling vertex.Wherein subnet routing network can comprise multiple wire laying mode, includes but not limited to direct connection, Ethernet connection or wireless connections.

In one embodiment of the invention, provide the example that serial directly connects, as shown in Figure 9, described smart card Controlling vertex 50 directly connects adjacent smart card Controlling vertex 50 by the external interface of described smart card Controlling vertex, and head and the tail two smart card Controlling vertex are connected to described smart card control desk 90.Again as shown in Figure 10, interweave in the example of directly connection at another, described smart card control desk 90 comprises the external interface of multiple smart card control desk, smart card Controlling vertex 50 described in the multichannel of direct connection respective number, described smart card Controlling vertex 50 in each road directly connects adjacent smart card Controlling vertex 50 by the external interface of smart card Controlling vertex, and the connection that interweaves between two between the multiple intelligent control node of adjacent two-way, in each road, the smart card Controlling vertex of end all to be formed with the smart card Controlling vertex 50 on other roads by the external interface of smart card Controlling vertex and is connected, the connection between every two smart card Controlling vertex 50 is made to disconnect the transmission that also can not affect described smart card console message.Preferably, the number of described external interface is 4, namely can connect at most 4 road smart card Controlling vertex.Described external interface can be serial ports or USB interface.In this networking mode, it can be with or without mainboard control chip that smart card in smart card Controlling vertex controls mainboard, this kind of networking mode networking is simple, directly can add smart card Controlling vertex by circuit, cost is minimum, but Routing Protocol not opening, need specific control protocol, and it is large to connect restriction, each smart card Controlling vertex must be furnished and be connected with adjacent smart card Controlling vertex together.

In another embodiment of the present invention, additionally provide the example that Ethernet connects, as shown in figure 11, described smart card Controlling vertex 50 and described smart card control desk 90 are all connected to inner Ethernet, in this connected mode, smart card in smart card Controlling vertex controls mainboard with mainboard control chip, realizes Ethernet protocol for the connection that controls between smart card Controlling vertex 50.This kind of connected mode networking is simple, directly pass through Ethernet protocol access network based on ethernet with netting twine, but cost is higher.

In yet another embodiment of the present invention, additionally provide the example of wireless connections, as shown in figure 12, described smart card control desk 90 is connected by switch 120 with WAP, in this connected mode, smart card in smart card Controlling vertex controls mainboard can with mainboard control chip, realizes WLAN agreement for the connection that controls between described smart card Controlling vertex 50.This kind of connected mode networking is simple, and smart card Controlling vertex placement location is random, and does not need extra routing network, but needs to realize the WLAN agreement more complicated than Ethernet, and cost is the highest.

Be described above and control subnet according to the smart card of the embodiment of the present invention, multiple described smart card controls subnet can be connected to form smart card control warehouse.Be that smart card of the present invention controls warehouse referring to Figure 14, comprising: application server and multiple smart card control subnet 41, wherein, described smart card controls subnet 41 and is connected to internet by described smart card control desk 90; Described application server 40, controls warehouse for controlling described smart card.Described smart card controls warehouse and is made up of multiple smart card control subnet 41, and therefore each smart card controls subnet 41 and can be distributed in different places, and need not, in the same network segment or areal, can realize controlling subnet 41 by function and region to manage each smart card.

Preferably, described application server 40 can be used for monitoring intelligent card, can be used for batch and reads and writes smart card, can be used for controlling described smart card control panel, also for controlling described smart card Controlling vertex.

Referring to Figure 13, comprise two cover procotols in described smart card control desk, be connected with internet by ICP/IP protocol; The specific Routing Protocol of subnet is controlled and smart card controls Subnetwork connection by smart card.Wherein, described smart card control desk comprises application controls layer, controls subnet for controlling smart card, comprising, smart card controls the address administration of the smart card Controlling vertex in subnet, the management of smart card control panel, and smart card controls the management of the smart card in subnet; And for receiving the control and management of application server; Meanwhile, described application controls layer, for resolving the data received, sends out after being extracted or encapsulating.

Described smart card control panel of the present invention can connect multiple smart card, broken away from traditional man-to-man limitation, thus expanded capacity terminal computer connecting smart card; Smart card Controlling vertex of the present invention can be selected to connect card-reading apparatus mode, optional Ethernet, LAN (Local Area Network) and traditional external interface by intelligent console flexibly; Described application server controls warehouse by smart card can control millions of even up to ten million smart card, and in check smart card quantity is increased greatly; The cost of smart card control panel is lower than the cost of existing control with the smart card reader collection of quantity smart card, and a station terminal computing machine just can control up to ten million smart cards, thus greatly reduces terminal cost.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (12)

1. a smart card Controlling vertex, is characterized in that, comprising:

Smart card controls mainboard, can insert multiple smart card control panel, for holding and being connected described smart card control panel; Internal wiring network, for connecting described multiple smart card control panel, described multiple smart card control panel interweaves connection between two, and the four pieces of smart card control panels being positioned at two ends are connected on the external interface of described smart card Controlling vertex;

The external interface of described smart card Controlling vertex, is arranged at smart card and controls on mainboard, for providing described smart card Controlling vertex and extraneous connection;

Described smart card control panel comprises: multiple smart card hardware interface, for inserting smart card; Control panel control chip, for by the driving that each described smart card hardware interface realizes and host-host protocol, controls the read-write of described smart card; The base slot interface of smart card control panel, as the external hardware interface connecting out from described control panel control chip; Or

Described smart card control panel comprises: multiple smart card hardware interface with smart card reader chip, for inserting smart card and the driving and the host-host protocol that realize described smart card hardware interface; Control panel control chip, for going out the data retransmission of described smart card; The base slot interface of smart card control panel, as the external hardware interface connecting out from described control panel control chip.

2. a smart card Controlling vertex, is characterized in that, comprising:

Smart card with mainboard control chip controls mainboard, multiple smart card control panel can be inserted, for holding, connecting and control described multiple smart card control panel and provide the interface communicated with the external world, described mainboard control chip internally controls described multiple smart card control panel, and for correspondence with foreign country; Described smart card control panel comprises: multiple smart card hardware interface, for inserting smart card; Control panel control chip, for by the driving that each described smart card hardware interface realizes and host-host protocol, controls the read-write of described smart card; The base slot interface of smart card control panel, as the external hardware interface connecting out from described control panel control chip;

Internal wiring network, described multiple smart card control panel is connected for the wire laying mode by directly connecting, described multiple smart card control panel interweaves connection between two, the four pieces of smart card control panels being positioned at two ends connect described mainboard control chip, and described mainboard control chip is connected on the external interface of described smart card Controlling vertex;

The external interface of described smart card Controlling vertex, is arranged at smart card and controls on mainboard, for providing described smart card Controlling vertex and extraneous connection.

3. a Controlling vertex as claimed in claim 2, it is characterized in that, described internal wiring network is that bus or inner Ethernet connect, described in described Controlling vertex, multiple smart card control panel and described mainboard control chip are connected to bus or inner Ethernet, described mainboard control chip for control bus or inner Ethernet connection and be connected to the external interface of described smart card Controlling vertex.

4. smart card controls a subnet, it is characterized in that, comprises,

Smart card control desk, for distributing and managing the home address that described smart card controls the multiple smart card Controlling vertex in subnet, the information that described smart card control subnet receives is done address resolution, and be sent to correct smart card Controlling vertex, and send out after the Data Analysis encapsulation of the described smart card that the described smart card Controlling vertex received is transmitted;

Multiple smart card Controlling vertex as claimed in claim 1, for doing the information after address resolution by described smart card control desk be sent to correct smart card control panel by what receive, and the data of the described smart card obtained by described smart card control panel send described smart card control desk to;

Subnet routing network, for connecting multiple described smart card Controlling vertex.

5. one kind controls subnet as claimed in claim 4, it is characterized in that, described subnet routing network is connected in series, described smart card Controlling vertex directly connects adjacent smart card Controlling vertex by the external interface of described smart card Controlling vertex, and head and the tail two smart card Controlling vertex are connected to described smart card control desk.

6. one kind controls subnet as claimed in claim 4, it is characterized in that, described subnet routing network connects for interweaving, described smart card control desk comprises the external interface of multiple smart card control desk, smart card Controlling vertex described in the multichannel of direct connection respective number, described smart card Controlling vertex in each road directly connects adjacent smart card Controlling vertex by the external interface of smart card Controlling vertex, and the connection that interweaves between two between the multiple intelligent control node of adjacent two-way, in each road, the smart card Controlling vertex of end all to be formed with the Controlling vertex on other roads by the external interface of smart card Controlling vertex and is connected, the connection between every two smart card Controlling vertex is made to disconnect the transmission that also can not affect described smart card console message.

7. smart card controls a subnet, it is characterized in that, comprising:

Smart card control desk, for distributing and managing the home address that described smart card controls the multiple described smart card Controlling vertex in subnet, the information that described smart card control subnet receives is done address resolution, and be sent to correct smart card Controlling vertex, and send out after the Data Analysis encapsulation of the described smart card that the described smart card Controlling vertex received is transmitted;

Multiple smart card Controlling vertex as claimed in claim 2, for doing the information after address resolution by described smart card control desk be sent to correct smart card control panel by what receive, and the data of the described smart card obtained by described smart card control panel send described smart card control desk to;

Subnet routing network or wireless network, for connecting multiple described smart card Controlling vertex.

8. one kind controls subnet as claimed in claim 7, it is characterized in that, described subnet routing network or wireless network are that Ethernet connects, described smart card Controlling vertex and described smart card control desk are all connected to inner Ethernet, described mainboard control chip, realizes Ethernet protocol for the connection that controls between described smart card Controlling vertex.

9. one kind controls subnet as claimed in claim 7, it is characterized in that, described subnet routing network or wireless network are wireless network, comprise WAP, described smart card control desk is connected by switch with described WAP, described mainboard control chip, realizes WLAN agreement for the connection that controls between described smart card Controlling vertex.

10. the control subnet according to any one of claim 4 to 9, it is characterized in that, described smart card control desk comprises application controls layer, the management that described application controls layer controls the address administration of the described smart card Controlling vertex in subnet for controlling described smart card, described smart card controls the management of the described smart card control panel in subnet, described smart card controls the described smart card in subnet, also for resolving the data received, through extracting or sending out after encapsulation.

11. 1 kinds of smart cards control warehouse, it is characterized in that, comprising: application server and multiple smart card according to any one of claim 4 to 9 control subnet, and wherein, described smart card controls subnet and is connected to internet by described smart card control desk; Comprise for the ICP/IP protocol of internet and application instruction agreement and the specific Routing Protocol controlling subnet for smart card in described smart card control desk;

Described application server, controls warehouse for controlling described smart card.

12. 1 kinds control warehouse as described in claim 11, it is characterized in that, described smart card control desk comprises application controls layer, described application controls layer controls the address administration of the described smart card Controlling vertex in subnet for controlling described smart card, the management of described smart card control panel, described smart card controls the management of described smart card in subnet and the control and management for receiving described application server, also for resolving the data received, through extracting or sending out after encapsulation.