KR100779214B1 - Apparatus and method for controlling pod in integrating system of broadcasting and telecommunication - Google Patents

Abstract

An apparatus for controlling a POD(Point Of Deployment) unit in a communication broadcasting convergence type home server and a method thereof are provided to implement a broadcasting function in a home server system which is developed on the basis of a communication function, and to realize a cable broadcasting function in a wider system environment by being driven in a general interface based platform on the Linux OS. A method for controlling a POD(Point Of Deployment) unit in a communication broadcasting convergence type home server comprises the following several steps. A POD unit controlling apparatus initializes operations needed in controlling the POD unit accepted for subscriber authentication and copy prevention at a receipt terminal in a cable broadcasting service(S100). The apparatus detects whether the POD unit is accessed(S200). If the POD unit is accessed, the apparatus performs initialization for transmitting or receiving corresponding information to or from the POD unit(S300). The apparatus transmits or receives a corresponding service instruction to the POD unit on the basis of the initialization for transmitting or receiving information in order to receive the cable broadcasting service(S400).

Description

Apparatus and Method for controlling POD in integrating system of broadcasting and telecommunication

1 is a view showing a cable card control apparatus of a communication broadcasting converged home server system according to an embodiment of the present invention;

FIG. 2 illustrates a hierarchical structure for interworking control interfaces between components of the cable card control apparatus of FIG. 1 according to an embodiment of the present invention; FIG.

3 is a flowchart illustrating a cable card access control method of a communication broadcasting converged home server system according to an exemplary embodiment of the present invention;

4 is a flow chart illustrating in more detail the PCMCIA cable card search step of FIG. 3 in accordance with an embodiment of the present invention;

5 is a flow chart illustrating in more detail the cable card transmission and reception initialization setting step of FIG.

6 is a diagram illustrating a detailed configuration example of the interfaces shown in FIG. 2 according to an embodiment of the present invention.

The present invention relates to a telecommunication broadcasting converged home server system, and more specifically, to control a point of deployment (COD) device required for accommodating cable broadcasting, and to mix it through cable broadcasting subscriber authentication and copy protection. And a POD control apparatus of a communication broadcasting converged home server system for performing a scrambling & Descrambling function.

Recently, in a home network environment based on a communication and broadcast convergence service, a broadcasting function based on a television (TV) has emerged more than a simple home gateway function in the early stages, with a multifunctional high performance home server equipment as the main axis.

However, in addition to terrestrial broadcasting, cable broadcasting through cable networks is expanding at home and abroad. In particular, in the United States and the like, the broadcasting environment is mainly focused on cable broadcasting. Therefore, in order to accommodate the broadcasting function in the telecommunication broadcasting converged home server, the cable broadcasting function should be added.

To this end, the Open Cable standard is adopted as the digital cable broadcasting standard. The open cable standard defines that a Pod (Point Of Deployment) device, a reception limiter, operates as a separate device. Such a POD device performs essential security functions and reception restriction functions such as subscriber authentication and copy protection for digital broadcasting. In general, a POD device may be referred to as a cable card. Therefore, hereinafter, the POD device is described as a cable card.

By defining such a separate cable card, the independence between cable set-top equipment manufacturers and cable broadcasters is ensured and balanced. That is, in selecting a cable broadcast receiver, a broadcaster or a user does not depend on a specific head-end equipment company, and allows a cable set-top device of various companies to be selected through an open competition method.

Therefore, cable card support is essential to support cable broadcasting in a communication broadcasting converged home server. Accordingly, most existing cable cards are implemented in embedded equipment such as cable set tops.

However, recently, a convergence broadcasting technology such as VoD (Video on Demand) has been proposed by integrating broadcasting functions into an existing home network communication environment through a home network system environment in which broadcasting and communication can be converged.

In this regard, independent of the cable set-top equipment, there is a need for a technology that provides a communication interface with a cable card in a broadcast communication converged home server system and thereby controls the operation of the cable card. In other words, in the communication broadcasting converged home server system based on the general x86 processor-based PC architecture and a specific operating system (Linux, etc.), the operation of the communication broadcasting converged home server system that can generalize the cable card operating platform through the operation of the cable card. Cable card control techniques are required.

The first object of the present invention for solving the above problems, the cable card control apparatus and method of a communication broadcasting converged home server system that can accommodate a cable broadcasting function based on communication in a home network communication environment through a cable card To provide.

A second object of the present invention is a cable card of a communication broadcasting converged home server system capable of providing a communication interface capable of accommodating a cable card performing a reception authentication function of cable broadcasting in a home network communication environment based on a communication function. It is to provide a control apparatus and method.

A third object of the present invention is a cable card control apparatus of a communication broadcasting converged home server system capable of accommodating a cable broadcast reception function by controlling a cable card through a communication interface accessible in a home network communication environment based on a communication function; To provide a way.

A cable card control method of a communication broadcasting converged home server system according to an embodiment of the present invention for achieving the above object is a cable card (POD) accommodated for subscriber authentication and copy protection at a receiving end in a cable broadcasting service. Initiating an operation required for operation control of the apparatus; Detecting whether the cable card is connected after the operation is initialized; If it is detected that the cable card is connected, performing initialization for transmitting and receiving corresponding information with the cable card; And transmitting and receiving a corresponding service command to the cable card based on the transmission and reception initialization state in order to receive the cable transmission service.

Preferably, the detecting of the cable card comprises: setting an interface mode to which the cable card is accessible; Performing interface stack processing for the cable card recognition in the interface mode; And detecting the cable card connected via the stacked interface.

Preferably, the initializing of the cable card transmission and reception comprises: setting a cable card mode to operate the cable card operating in the interface mode in a cable card mode; Initializing an operation of the cable card so as to perform a cable card function necessary for providing the cable broadcast service when the cable card mode is set; And when the cable card is initialized, setting a buffer for transmitting and receiving the corresponding command information to the inside of the cable card.

The interface mode is a PCMCIA interface mode.

On the other hand, the cable card control apparatus of the communication broadcasting converged home server system according to an embodiment of the present invention for achieving the above object, the cable card (received for receiving subscriber authentication and copy protection at the receiving end in the cable broadcast service ( A central processing unit (CPU) for controlling an interface connection of a POD) and transmission and reception of a corresponding command with the connected cable card; Providing a connection interface with the central processing unit through a first bus, detecting the cable card connected to the first interface connected through a second bus, and receiving the cable broadcasting service under the control of the central processing unit Interface conversion chip for transmitting and receiving a corresponding command for; And an erasable programmable logic device (EPLD) chip for changing and setting the operation mode of the cable card connected through the first interface from the initial first operation mode to the cable card operation mode.

The first bus is a PCI bus, the second bus is a PCMCIA bus, and the first interface is a PCMCIA interface.

The initial first operation mode is a PCMCIA operation mode, and the interface conversion chip is a PCI-PCMCIA conversion chip capable of interworking between the PCI interface and the PCMCIA interface.

The central processing unit includes a cable card upper layer stack for transmitting and receiving a corresponding command to the cable card for the cable broadcasting service.

The PCI-PCMCIA conversion chip, PCMCIA stack for detecting the cable card connected to the interface through the PCMCIA stack processing; A cable card driver module configured to perform initialization for performing a corresponding operation in a cable card operating mode for the cable card connected through the interface; And a cable card physical layer module configured to set a transmission / reception buffer necessary for transmitting and receiving a corresponding command for the cable broadcasting service to the initialized cable card.

An application programming interface (APIs) interface is established between the cable card upper layer stack and the cable card physical layer module.

An IOCTLs (Input / Output Controls) interface is established between the cable card physical layer module and the cable card driver module. An IOCMDs interface is established between the cable card driver module and the PCMCIA stack.

According to the present invention, a cable card essential for accommodating cable broadcasting in a universal home server platform supporting a PCI bus and a PCMCIA interface is recognized through a PCMCIA interface and internally recognized as a cable card recognized through a PCI-PCMCIA conversion. By transmitting and receiving a corresponding command required for cable broadcasting viewing, it is possible to more easily accommodate a cable broadcasting function based on communication in a home network communication environment through a cable card.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

The present invention provides a device driver function and a cable card physical layer function for controlling a cable card in the form of a personal computer memory card international association (PCMCIA) card through a Peripheral Component Interconnect (PCI) bus interface in an x86 based communication broadcasting converged home server. The present invention proposes a cable card control apparatus and method for a communication broadcasting converged home server that can accommodate a cable card having a PCMCIA interface through a PCI bus.

1 is a diagram illustrating a cable card control apparatus of a communication broadcasting converged home server system according to an exemplary embodiment of the present invention.

As shown, the cable card control unit 100 of the communication broadcasting converged home server system is a central processing unit (CPU) 110, PCI bus 120, PCI-PCMCIA conversion chip 130, PCMCIA bus ( 140, and an erasable programmable logic device (EPLD) chip 150.

The central processing unit 110 is a main processor of a home server, and is a general-purpose CPU (Central Processing Unit) based on an x86 architecture such as Intel or Advanced Micro Devices (AMD). In this embodiment, the central processing unit 110 controls the interface connection of the cable card 50 and the overall operation of the connected cable card 50.

The PCI bus 120 provides a connection interface between the central processing unit 110 and the PCI-PCMCIA conversion chip 130, and is used as a transmission and reception path of the corresponding signal.

The PCI-PCMCIA conversion chip 130 performs a function of matching the cable card 50 recognized in the PCMCIA mode to the PCI bus 120. That is, the PCI-PCMCIA conversion chip 130 supports the cable card 50 can be implemented in a universal interface.

The PCMCIA bus 140 provides a connection interface between the PCI-PCMCIA conversion chip 130 and the PCMCIA interface provided in the cable card 50, and is used as a transmission / reception path for a corresponding signal.

The EPLD chip 140 performs functions such as synchronization selection for each mode and selection of control lines for the host interface of the central processing unit 110 and the video display processor (VDP) at the digital broadcast receiving side. That is, the EPLD chip 140 performs a kind of simple connection function for manipulating a control signal such that the communication between the interface protocol and chips having different power levels, such as the central processing unit 110 and the VDP, can be performed. In addition, the EPLD chip 140 makes it easy to apply the modifications later, which can be easily changed by reprogramming the EPLD chip 140 without changing the hardware when the purpose of the control line is changed or needs to be manipulated. In this embodiment, the EPLD chip 140 controls the cable card 50 to control additional functions such as an interrupt and an image data path.

The cable card (POD) 50 is a device to be controlled in the present invention and performs subscriber authentication, copy protection, and the like in a cable broadcast service. In this embodiment, the cable card 50 operates in the PCMCIA mode or the cable card mode.

2 is a diagram illustrating a hierarchical structure for interworking control interfaces between components of the cable card control apparatus of FIG. 1 according to an exemplary embodiment of the present invention.

As shown, the cable card upper layer stack 200 represents a higher layer for a cable broadcast service operated based on the present invention.

The cable card upper layer stack 200 and the physical layer module 210 are detailed modules for controlling the cable card 50 of FIG. 1 and perform higher functions such as user authentication / replication and program information processing.

The cable card upper layer stack 200 is an upper layer for cable broadcasting service operated according to an embodiment of the present invention. The cable card physical layer module 210 is matched with the cable card upper layer stack 200 to provide APIs (Application Programming Interfaces; APIs) 400 required by the upper layer 200. In addition, the cable card physical layer module 210 matches the cable card driver module 220 through an input / output control (IOCTL) interface 410. Through this, the cable card physical layer module 210 provides a command for controlling the cable card 50 to the cable card driver module 220 to perform a function of calling the cable card 50.

The cable card driver module 220 is a driver module for controlling the PCI-PCMCIA conversion chip 130 of FIG. 1 and directly controls the cable card 50 through the PCI bus. Accordingly, in this embodiment, the cable card 50 of FIG. 1 is initially recognized as a PCI device, but is operated as a cable card device by the cable card driver module 220. The cable card driver module 220 operates based on the PCMCIA stack 230 provided universally through the IOCMDs interface 420 in the Linux operating system of the present embodiment. Accordingly, the cable card driver module 220 controls the cable card 50 through an input / output command.

The PCMCIA stack 230 is a module for controlling the PCI-PCMCIA conversion chip 130 of FIG. 1 like the cable card driver module 220 and supports the connection of a PCMCIA type card. The PCMCIA stack 230 performs a function of retrieving and recognizing the cable card 50 as a PCMCIA device and initializing the cable card driver module 220 before driving. Then, the PCMCIA stack 230 additionally searches whether the card recognized as a PCMCIA device is a cable card type, and transfers the control authority of the cable card 50 to the cable card driver module 220. The PCMCIA stack 230 initially recognizes the cable card 50 connected through the hardware layer 55 as a type of PCMCIA card upon registration in a general purpose system. Thereafter, the cable card 50 is recognized and operated in the cable card mode again by the cable card driver module 220.

The EPLD driver module 240 is a function module for controlling the EPLD chip 150 of FIG. 1, and includes hardware modes such as operation modes, interrupt settings, and broadcast data path control of the cable card 50 through the hardware layer 55. Provide mode setting function.

3 is a flowchart illustrating a cable card connection control method of a communication broadcasting converged home server system according to an exemplary embodiment of the present invention.

First, when a reset signal of the PCI bus 120 to which the PCI-PCMCIA conversion chip 130 is connected is input, the PCMCIA stack 230 provided in the PCI-PCMCIA conversion chip 130 may control the operation of the cable card 50. The initial mode setting and inspection function of the operation required for PCMCIA device control are performed (S100).

When the operation for controlling the cable card operation is initialized, the PCMCIA stack 230 provided in the PCI-PCMCIA conversion chip 130 searches for the cable card 50 connected through the PCMCIA bus 140 (S200).

When the cable card 50 connected through the PCMCIA bus 140 is detected, the EPLD driver module 240 provided in the EPLD chip 150 and the cable card driver module 220 provided in the PCI-PCMCIA conversion chip 130 and The cable card physical layer module 210 sets the operation mode to the cable card mode and sets initialization for transmission and reception of the corresponding information through the cable card 50 (S300).

When the initialization for transmitting and receiving the corresponding information is set, the cable card physical layer module 210 according to the control command input from the cable card upper layer stack 200 based on the set initialization state, the corresponding command with the cable card 50 Control transmission and reception of information (S400).

4 is a flow chart illustrating in more detail the PCMCIA cable card search step 200 of FIG. 3 in accordance with an embodiment of the present invention.

First, the PCMCIA stack 230 sets the corresponding operation mode to the PCMCIA mode so that the cable card that has been initialized can operate in the PCMCIA mode (S220).

In the PCMCIA mode, the PCMCIA stack 230 performs PCMCIA stack processing on the cable card (S240), and detects the cable card connected through the PCMCIA bus 140 (S260). As a result, the PCMCIA stack 230 recognizes that the connected card is a cable card. When the connected card is recognized as a cable card, the PCMCIA stack 230 transfers control rights to the cable card 50 to the cable card driver module 220.

FIG. 5 is a flowchart illustrating the cable card transmission and reception initialization setting step S300 of FIG. 3 in more detail.

First, the cable card driver module 220 transfers the control authority of the cable card 50, and sets the cable card 50 to perform a substantial function as a cable card according to the defined detailed function procedure.

That is, the EPLD driver module 240 provided in the EPLD chip 150 sets the cable card mode to operate the cable card operating in the PCMCIA mode in the cable card mode (S320).

When the cable card mode is set, the cable card driver module 220 transmits the cable mode initialization instructions to the mounted cable card 50 to perform a function as a cable card (S340).

When the cable card 50 is initialized, the cable card driver module 220 sets a transmission and reception buffer of the corresponding command information for the inside of the cable card 50 (S360). Here, the buffer is used when the cable card upper layer stack 200 transmits and receives various commands with the cable card 50.

6 is a diagram illustrating a detailed configuration example of the interfaces shown in FIG. 2 according to an embodiment of the present invention.

As shown, the API interface 400 includes a 'PODPhysicalOpen () / PODPhysicalClose ()' function, and a 'GetBufferSizeDataCh / ExtCh ()' and 'SetBufferSizeDataCh / ExtCh ()' functions.

The PODPhysicalOpen () / PODPhysicalClose () 'function is a basic function for the use of the cable card 50. 'GetBufferSizeDataCh / ExtCh ()' and 'SetBufferSizeDataCh / ExtCh ()' are functions for reading or changing the channel buffer size of the cable card 50 to set the size of the internal buffer for each channel of the cable card 50. .

In addition, the API interface 400 supports 'GetDataFromDataCh / ExtCh ()' and 'WriteDataViaDataCh () / ExtCh ()' functions, which are used when reading or transmitting data from the actual cable card 50, respectively.

These functions of the API interface 400 are again mapped to internal functions of the IOCTL interface 410. In more detail, the IOCTL interface 410 finally implements a function of registering and releasing a device when using a device in Linux through a 'podphy_open () / close ()' function. In addition, the IOCTL interface 410 implements a buffer setting function through a 'write_ch_size () / read_ch_size ()' function. At this time, the channel value is specified as a function argument.

In addition, the IOCTL interface 410 implements a data transmission / reception function through a 'write_host_data () / read_pod_data ()' function. In this case, the channel value is designated as a function argument.

The functions of the IOCTL interface 410 implemented in this way must access the internal registers of the cable card 50 to control the physical cable card 50. For this purpose, the IOCMD interface 420 uses the 'inb ()' function and the ' Use outb () 'function respectively.

In the above, specific preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications and other equivalents without departing from the gist of the present invention attached to the claims. Implementation will be possible. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

According to the present invention as described above, in the general-purpose home server platform supporting the PCI bus and PCMCIA interface, the cable card essential for accommodating cable broadcasting is recognized through the PCMCIA interface and internally recognized through the PCI-PCMCIA conversion. By transmitting and receiving a corresponding command required for viewing cable broadcasts with the cable card, the cable card function based on communication can be more easily accommodated in the home network communication environment through the cable card.

Accordingly, the present invention can be used to implement a broadcasting function in a home server system developed mainly for communication functions, and in particular, on a Linux operating system in a platform based on an x86-based central processing unit and general-purpose interfaces such as PCI and PCMCIA. Since it is driven, the cable broadcasting function can be implemented in a wide system environment.

Claims (15)

Initiating an operation required for operation control of a cable card (POD) accommodated for subscriber authentication and copy protection in a cable broadcasting service; Detecting whether the cable card is connected after the operation is initialized; If it is detected that the cable card is connected, performing initialization for transmitting and receiving corresponding information with the cable card; And And transmitting and receiving a corresponding service command to the cable card based on the transmission and reception initialization state in order to receive the cable broadcast service. The method of claim 1, The cable card detection step, Setting the interface mode to which the cable card is accessible; Performing interface stack processing for the cable card recognition in the interface mode; And And detecting the cable card connected through the stacked interface. The method according to claim 1 or 2, The cable card transmission and reception initialization step, Setting a cable card mode to operate a cable card operating in the interface mode in a cable card mode; Initializing an operation of the cable card so as to perform a cable card function necessary for providing the cable broadcast service when the cable card mode is set; And And setting a buffer for transmitting / receiving the corresponding command information to the inside of the cable card when the cable card is initialized. The method of claim 3, wherein The interface mode is a cable card control method of a communication broadcasting converged home server system, characterized in that the PCMCIA interface mode. A central processing unit (CPU) for controlling an interface connection of a cable card (POD) accepted for subscriber authentication and copy protection at a receiving end in a cable broadcasting service and transmitting and receiving a corresponding command with the connected cable card; Providing a connection interface with the central processing unit through a first bus, detecting the cable card connected to the first interface connected through a second bus, and receiving the cable broadcasting service under the control of the central processing unit Interface conversion chip for transmitting and receiving a corresponding command for; And A communication broadcast fusion type home server system comprising an EPLD (Erasable Programmable Logic Device) chip for changing and setting an operation mode of a cable card connected through the first interface from an initial first operation mode to a cable card operation mode. Cable card control unit. The method of claim 5, And a first bus is a PCI bus. The method of claim 5, And the second bus is a PCMCIA bus. The method of claim 5, And the first interface is a PCMCIA interface. The method of claim 5, And the initial first operation mode is a PCMCIA operation mode. The method of claim 5, The interface conversion chip is a cable card control device of a communication broadcasting convergence type home server system, characterized in that the PCI-PCMCIA conversion chip capable of interworking between the PCI interface and PCMCIA interface. The method of claim 10, The central processing unit has a cable card upper layer stack for transmitting and receiving a corresponding command to the cable card for the cable broadcasting service cable card control apparatus of a converged home server system. The method of claim 11, The PCI-PCMCIA conversion chip, A PCMCIA stack for detecting the cable card connected to the interface via PCMCIA stack processing; A cable card driver module configured to perform initialization for performing a corresponding operation in a cable card operating mode for the cable card connected through the interface; And The cable card control of the communication cable fusion type home server system, characterized in that it comprises a cable card physical layer module for setting the transmission and reception buffer for transmitting and receiving the command to the cable broadcasting service to the initialized cable card Device. The method of claim 12, Cable card control apparatus of the communication broadcasting converged home server system, characterized in that the API (Application Programming Interfaces) API is set between the cable card upper layer stack and the cable card physical layer module. The method of claim 13, Cable card control device of a communication broadcasting converged home server system, characterized in that the IOCTLs (Input / Output Controls) interface is set between the cable card physical layer module and the cable card driver module. The method of claim 14, Cable card control device of the communication broadcasting converged home server system, characterized in that the IOCMD interface is set between the cable card driver module and the PCMCIA stack.

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