Abstract:
This invention discloses a method for smooth capacity expansion of data communication product, and a smooth capacity expandable system of data communication. Architecture of the system at least comprises circuit card and switched network card; and further comprises interface card of switched network, interface transfer card and connection optical fiber. Based on these, it provides one kind of multiple frameworks structure with interconnection between frameworks. When the capacity is expanded, the original circuit cards and switched network cards keep unchanged, only smoothly increases the switched network cards and numbers of circuit card frameworks. Therefore, it implements smooth capacity expansion and client investment protection at the same time. With adding backup cards, it also implements capacity expansion without interrupting the service.

Description:
FIELD OF THE INVENTION  
       [0001]     The present invention relates generally to a data communication system, and more particularly to a method for implementing smooth capacity expansion of data communication products and a data communication system, which is available for smooth capacity expansion.  
       BACKGROUND OF THE INVENTION  
       [0002]     At present, users increasingly require more and more capacity of data communication products, such as ATM exchanges, routers, etc. The architecture of current ATM exchanges, routers, etc. mainly includes circuit cards, switched network cards, and a back plane connecting the circuit cards and switched network. Generally, such data communication products have a single framework structure. Accompanying the increased demand for capacity, the design of the products faces the following technical problems:  
         [0003]     a) When capacity is more than hundreds of Gbit, there are many circuit cards, such as POS interface circuit cards, ATM interface circuit cards and Giga-bit interface cards etc. Power consumption of the whole machine is larger, and it is difficult to implement them with only one framework. Especially when the capacity of the product is over 160 Gbit, with present technology, the technical problems of structure cannot be solved with a single framework, and multiple frameworks may be required. With multiple frameworks, there are problems, such as interconnection between frameworks, main card and backup card switching etc., without successful design scheme.  
         [0004]     b) Different markets of data communication have different requirements of rated capacity. Therefore, the manufacturer is asked to provide a series of products, such as 10 Gbit, 40 Gbit, 80 Gbit, 160 Gbit, 320 Gbit, 640 Gbit, 1.2 Tbit and several tens Tbit. At present, different series products provided by different manufacturers have different architectures. Although some manufacturers implement circuit card compatibility for one or two series in a single framework, the architecture needs to be changed. There is no successful solution with smooth capacity expansion for all series or from 40 Gbit to Tbit series.  
         [0005]     c) As data communication develops rapidly, capacity requirements will increase. When a client purchases a data communication product, it is according to the capacity requirement at that time. Later, usually the capacity needs to be expanded. At present, when capacity expansion is needed, most manufacturers ask a client to purchase the new generation product so that most old products cannot be used again. In this case, the client needs to invest more for capacity expansion. Therefore, when capacity expansion is needed, it is valuable to protect as much as possible the original investment of a client. For data communication products investment of circuit cards occupies more than 60% of the hardware cost. Obviously, when a system is upgraded, circuit card compatibility will directly influence the client investment and expansion cost. According to the present technology, when capacity expansion is needed, it is often solved by replacing the product. Thus expansion problems are often solved by replacing a lower capacity product with a larger capacity product. Yet an upgrade of client equipment is expensive.  
       SUMMARY OF THE INVENTION  
       [0006]     The present invention provides a method to implement smoothly capacity expansion for data communication products, and a smooth capacity expandable system for data communication. The invention allows a user to implement smooth capacity expansion from Gbit to Tbit. When capacity is expanded, the original equipment can also be used and the client investment is protected.  
         [0007]     The present invention provides a method of implementing smooth capacity expansion for data communication products, in which the architecture of the data communication product includes at least a circuit card, a switched network card and a back plane. The method of the invention includes the following steps.  
         [0008]     A special framework is set up for a switched network card. A switched network card, which is set in the framework, interconnects with an interface card of a switched network through the interface with a circuit card on it and a back plane.  
         [0009]     Multiple frameworks are set up for a circuit card. A circuit card, which is set in the framework, interconnects with an interface transfer card through the interface switched network on it and a back plane, and each circuit card corresponds to one interface transfer card.  
         [0010]     The interface card and interface card of the switched network correspond with each other one to one, and can be interconnected by optical fiber.  
         [0011]     When increasing capacity, one can increase smoothly switched network cards and numbers of circuit card frameworks to implement smooth capacity expansion.  
         [0012]     The above mentioned interface card of the switched network can be designed as a miniature structure. Multiple miniature interface cards of the switched network are inserted on a passive base card. Each of the miniature interface cards of the switched network can be inserted or removed independently. It connects with the switched network card through the passive base card and back plane.  
         [0013]     The above mentioned interface transfer card can also be designed as a miniature structure. Multiple miniature cards of the interface transfer are inserted on a passive base card. Each of the miniature cards of the interface transfer can be inserted or removed independently. It connects with the circuit card through the passive base card and back plane.  
         [0014]     The above mentioned switched network card can be equipped with a backup card. If the main card stops working, the backup card can replace the main card to assure the system works continuously.  
         [0015]     The above mentioned circuit card can also be equipped with a backup card. When the main card stops working, the backup card can replace the main card to assure the system works continuously.  
         [0016]     The present invention also provides a smooth capacity expandable system for data communication, its architecture comprising at least a circuit card and a switched network card. The system includes the following.  
         [0017]     The data communication system includes an interface card for the switched network and an interface transfer card. The circuit card connects with the switched network card through the interface transfer card and interface card of the switched network.  
         [0018]     The architecture of the data communication system of the invention further comprises a back plane. The switched network card connects with the interface card of the switched network through the interface of the circuit card on it and the back plane. The circuit card connects with the interface transfer card through interface of the switched network on it and the back plane.  
         [0019]     The data communication system of the invention further includes a special framework for the switched network card. The switched network card and interface card of the switched network are included in the framework; the switched network card interconnects with the interface card of the switched network through the interface of the circuit card on it and the back plane. The system can further include multiple frameworks for the circuit cards. The circuit card and interface transfer card are within the frameworks; the circuit card interconnects with the interface transfer card through the interface of the switched network on it and the back plane. Each circuit card corresponds with an interface transfer card. An interface transfer card corresponds with an interface card of a switched network one to one, and their connections can be set by optical fiber.  
         [0020]     When capacity of the system is expanded, the original switched network cards, circuit cards and back planes are unchanged. Smooth capacity expansion is implemented by increasing smoothly switched network cards and numbers of circuit card frameworks.  
         [0021]     The data communication system of the invention can further comprise a passive base card. The interface card of the switched network can be a miniature structure. Multiple interface cards of the switched network can be inserted on a passive base card. Each of the miniature cards can be inserted and removed independently. They connect with switched network cards through the passive base card and the back plane.  
         [0022]     The data communication system of the invention can further comprise another passive base card. The interface transfer card can be a miniature structure. Multiple interface transfer cards are inserted on a passive base card. Each of the miniature cards can be inserted and removed independently. They connect with circuit cards through the passive base card and the back plane.  
         [0023]     According to the data communication system of the invention, the switched network cards can be further equipped with backup cards. When the main card stops working, the backup card can replace it to assure the system works continuously.  
         [0024]     According to the data communication system of the invention, the circuit cards can also be equipped with back up cards. When the main card stops working, the backup card will replace it to assure the system works continuously.  
         [0025]     The interface for the circuit card, which is on the switched network card, and the interface for the switched network, which is on the circuit card, all preferably use the same interface standard. Multiple pairs of the interfaces also preferably use the same speed.  
         [0026]     The invention solves the interconnection between frameworks by using the interface transfer card, interface card of switched network and optical fiber. It has broken the limitation of framework space and volume, and makes capacity expansion possible. When the capacity is expanded, all original circuit cards and switched network cards are unchanged; in this way, client investment is protected and the cost of upgrade and capacity expansion is decreased greatly. 
     
    
     THE DRAWINGS  
       [0027]      FIG. 1  schematically illustrates the structure of a circuit card.  
         [0028]      FIG. 2  schematically illustrates the structure of a switched network card.  
         [0029]      FIG. 3  schematically illustrates the interconnection between a switched network card and a circuit card in a single framework structure.  
         [0030]      FIG. 4  is an outside view of an exemplary mechanical structure for a single framework.  
         [0031]      FIG. 5  schematically illustrates the interconnection of the invention.  
         [0032]      FIG. 6  is an outside view of an exemplary mechanical structure of the invention.  
         [0033]      FIG. 7  is a schematic diagram of a base card. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0034]     In the following combining with the Figures, the invention is described in detail from circuit card structure, single framework structure to multiple frameworks structure in sequence. Among them, multiple frameworks structure and the expansion mode from single framework to multiple frameworks are more important to the invention.  
         [0035]      FIGS. 1 and 2  illustrate schematic structures of a circuit card  10  and a switched network card  20 , respectively. The circuit card  10  includes interfaces and processing control logic of various kinds. Except when the interface  2  connecting with a switched network needs to be restricted, a user according to a particular product requirement can define the interface  1  connecting with outsides and the others. The switched network card  20  has exchange function and logic processing function of various kinds, and includes the interface  3 , which connects with circuit card  10 . The interface  3  interconnects with the circuit card&#39;s switched network interface  2 , and they have the same standard.  
         [0036]      FIG. 3  illustrates the interconnection between switched network card  20  and circuit card  10 . There are two switched network cards  20 , one of which is the main and the other is the backup. The two switched network cards  20  are connected with circuit card  10  by standard interface  2  and  3 . The purpose of two switched network cards  20  is reliability.  
         [0037]     The interconnection between switched network card  20  and circuit card  10  is an internal standard interface, such as an electric signal interface. In order to smoothly expand capacity, the interface must be standardized. When capacity is less, for example less than 160 G, the product can be designed within a single framework, and the interface is connected through back plane  4 . The physical requirements of the interface signals are: signal transmission mode is high speed, serial and differential mode; and transmission rate is over 1 G. In order to better select an interface device, it is suggested using a standard interface device, such as interface standard of Fiber channel, Gigabit Ethernet, OIF and Infiniband and so on. General transmission rate is 1 Gb/s, 1.25 Gb/s, 1.5 Gb/s, 2.5 Gb/s and 3.125 Gb/s and supports 8 B/10B signals coding. For a product only one of the transmission rate can be selected, otherwise it is difficult to have a smooth expansion. Therefore, multiple internal interfaces use the same transmission rate. When the capacity is larger, it is suggested using the 2.5 Gb/s.  
         [0038]      FIG. 3  is the scheme of basic capacity. The switched network cards  20  and the circuit cards  10  are interconnected by back plane  4 . The main card and backup card of switched network cards  20  occupy one slot, respectively. Each circuit card  10  occupies one slot. The schematic mechanical structure is shown in  FIG. 4 . The numbers of circuit cards  10  can be changed according to the port numbers of switched network card  20 . In  FIG. 4 , there are 16 circuit cards  10 , two switched network cards (NET)  20  and two cards of main processing unit (MPU). Switched network card  20  and other cards are interconnected by the back plane  4 . The main functions of the MPU card are system management and maintenance. Two MPU cards are used for main and backup, respectively.  
         [0039]     When system capacity is to be increased, connection between frameworks is needed. In this case for the system reliability, the expansion and reliability must be better solved. The smooth expansion scheme according to the invention is: 
        Without changing the original circuit card  10 , switched network card  20  and back plane  4 .     Increasing the numbers of switched network cards  20  and putting them in a special framework for switched network card.     Increasing the numbers of circuit cards  10 , which compose framework for circuit card. The multiple frameworks of circuit cards are interconnected with the special framework of switched network card by parallel optical fiber. At the same time, the slot originally for switched network card  20  is used for an interface card which interconnects with the special framework of the switched network card.        
 
         [0043]     Referring to  FIG. 5 , the dotted line  4  is the back plane, and  50  is optical fiber. In this scheme, two kinds of cards are added: one is an interface transfer card  30  and the other is an interface card  40  of a switched network. The interface transfer cards  30  are inserted in the slots, in which originally the switched network cards  20  were inserted when there was only one framework. Each circuit card  10  corresponds to one interface transfer card  30 . The interface card  40  of the switched network and the increasing switched network cards  20  are put in a special framework of switched network cards. Each circuit card  10  corresponds with one interface card  40  of a switched network, that is the interface cards  40  of a switched network and interface transfer cards  30  correspond one to one. The schematic outside view of a mechanical structure of the scheme is shown in  FIG. 6 .  
         [0044]      FIG. 6  illustrates two kinds of frameworks: one is the circuit card framework  80  including circuit cards  10  and interface transfer cards  30 , and another is a special framework  70  including switched network cards  20  and interface cards  40  of the switched network. This provides the smooth capacity expansion scheme. When increased capacity is desired, if the capacity of switched network card  20  is enough to support the desired increase, smooth capacity expansion can be achieved by increasing the numbers of interconnecting circuit card frameworks  80 .  FIG. 6  shows only four circuit frameworks and four switched network cards. In a real situation, the numbers of circuit card frameworks  80  can be more and the numbers of switched network cards  20  can be more too. Smoothly increasing capacity is implemented by smoothly increasing the circuit card frameworks  80  and switched network cards  20 .  
         [0045]     Therefore, the invention breaks the limitation of a single framework and makes the implementation of smooth expansion to be real.  
         [0046]     In the invention, in order to use sufficiently and without influence of back plane  4  in circuit card framework, the design of interface transfer card  30  must be more compact. As the function is simple and the devices are less for interface transfer card  30 , its structure can be in miniature. Many interface transfer cards  30  in miniature can be inserted in a base card, so that each one of them can be inserted and removed independently. When replacing an interface transfer card  30 , it is assured that another circuit card  10  will not be influenced, and this is an on-line exchange. The base care is a passive card.  FIG. 7  illustrates the schematic connection of the base card. Multiple . pieces of interface transfer card  30  in miniature are all inserted on the passive base card  60 . Passive base card  60  is inserted on the back plane by interface  61 , which creates the corresponding connecting relationship between circuit card  10  and interface card  30 . Interface  62  is an optical fiber interface.  
         [0047]     Similarly, the interface card  40  of a switched network inserted on the special framework of switched network card can employ the same structure to make the structure more compact.  
         [0048]     In addition, circuit card  10  and switched network card  20  can all have backup cards. When the main card is removed, or is at fault, or stops working, the backup card will replace the work of main card, to keep the system operating continuously and provide uninterrupted service. Therefore, when the expansion is from a signal framework to multiple frameworks, the backup card can be first removed, then exchanged the interface transfer card  30 , interface card of switched network  40  etc. After the exchanging, it is switched to operate on the backup switched network card, then exchanging the main switched network card without interrupting the service.  
         [0049]     Simulation test shows that the invention implements smooth expansion, without interrupting the service and with reliable performance.  
         [0050]     The above is only one embodiment of the invention, and does not limit the scope of the invention. The invention implements the framework interconnection by adding the interface transfer card, interface card of a switched network and optical fiber between the circuit card and the switched network card. When expanding capacity, the original circuit card and switched network card need not be changed. One only need to increase smoothly the numbers of switched network cards and frameworks of circuit cards. This implements the smooth expansion and protects the client investment. Under the spirit and principle of the invention, any update, replacement or improvement, etc. are all included within the scope of the claims of the invention.