KR100216402B1 - Line card for processing communication data in voice messaging system - Google Patents

Abstract

The present invention relates to a line card mounted to process various communication data in a voice mail system, and in particular, to enable simultaneous processing and separate processing on one line card without each communication data processing. A single hybrid card for communication data processing in a mailbox system.

An object of the present invention is to configure a single line card for controlling all communication data processing, and to be able to selectively mount a board for processing each communication data, so as to enable communication by distinguishing the mounted state and the processing data of the mounted board. By configuring the logic to perform the processing of multiple communication data simultaneously or selectively with a single line card.

Accordingly, it is possible to selectively mount desired data processing boards on one line card, thereby making it possible to remove unnecessary data processing boards, and to separately add boards that process only the data for the data processing boards to be added. Once developed, it becomes possible to mount, which can bring economic stability and system characteristics.

Description

Single Hybrid Line Card for Communication Data Processing in Voicemail Systems

The present invention relates to a line card mounted to process various communication data in a voice mail system, and in particular, to enable simultaneous processing and separate processing on one line card without processing each communication data on each line card. A single hybrid card for communication data processing in a mailbox system.

In general, communication data processed in a voicemail system includes voice, fax, and text data. Therefore, a line card for processing these data was also produced and used one by one for each data.

For example, the configuration of the fax processing line card is shown in FIG.

That is, the CPU 1 for controlling the entire line card, the memory 2 storing the operation program of the CPU 1, the call-related logic 3 interfaced with the call processing board, and the operation of the line card. SIO (4) for board debugging to transfer status to an external monitor, system synchronous clock interface logic (5) to interface with the clock generation board to generate a synchronous clock for signal processing of the line card, and PCM to interface with the PCM highway Accumulate in the data storage device the highway interface logic (6), the fax main processing logic (7) for processing fax data, the voice processing logic (8) for processing additional voice data along with the fax data processing, and the fax data. A data storage device interface logic 9 for interfacing the data storage device and a data storage device for storing data inputted from the data storage device interface logic 9. It is composed of Li (10), and the like.

Here, the voice processing logic 8 is used to send voice information necessary for the transmission of the fax data, which is different from the voice processing line card.

In addition, other line cards, such as a voice processing line card and a text processing line card, are configured as described above, except that only processing logic for processing each data is configured differently.

The operation of the fax processing line card is as follows.

When the CPU 1 is connected in communication with the call processing board through the call-related logic 3 in synchronization with the clock supplied from the system synchronization clock interface logic 5, the CPU 1 performs an operation required by the other party.

That is, when the other party requests voice or fax data, the user request data stored in the common memory 10 is read through the data accumulator interface logic 9 and processed by the fax main processing logic 7 or the voice processing logic 8. PCM highway interface logic (6) is exported to PCM highway, a network board.

At this time, a plurality of line cards connected to the PCM highway are connected in a time division manner.

In the case of storing data from the user, the data entered through the PCM highway interface logic 6 is processed by the processing logic and recorded in the common memory 110 through the data accumulator interface logic 9. The data thus recorded is read by the accumulator control board and stored in the accumulator.

Although the line cards manufactured as described above have similar operating states, the cards are manufactured for each processed data in order to be selectively mounted according to the user's requirements. Problems arise that are not effective even in area.

In order to solve the above problems, the present invention constitutes one line card that controls all communication data processing, and enables mounting of boards for processing each communication data. It is an object of the present invention to configure logic to distinguish and communicate data so that a single line card can simultaneously or selectively process multiple communication data.

In order to achieve the above object, the present invention provides an external monitor for a CPU for controlling an entire line card device, a memory storing an operation program of the CPU, call-related logic interfaced with a call processing board, and an operation state of a line card. It provides data on board debugging SIO, system synchronous clock interface logic interfaced with clock generation board generating synchronous clock for signal processing of line card, PCM highway interface logic interfaced with PCM highway, and various communication data. A line card for communication data processing of a voicemail system comprising a data storage device interface logic for interfacing to a storage device and a common memory for storing data input from the data storage device interface logic. Processing Voice main processing board optionally mounted for processing, a fax main processing board optionally mounted for processing fax data, a text main processing board optionally mounted for processing text data, and the voice main processing board and the Distinguish processing data for distinguishing between the board socket for selectively mounting the fax main processing board and the text main processing board, and whether the processing board is mounted on the board socket and distinguishing the data processed in each mounted processing board. Generating a corresponding control signal according to the confirmation logic and the type and transmission state of data processed by each processing board, and transmitting the processed data to the PCM highway interface logic or data measuring device interface logic in the corresponding transmission direction. Including control signal generation logic It is characterized by.

1 is a block diagram of a line card for general fax data processing;

2 is a block diagram of a single hybrid line card for communication data processing according to the present invention.

* Explanation of symbols for main parts of the drawings

1: CPU (Central Processing Unit) 2: Memory

3: Call related logic 4: SIO (Serial Input 0utput)

5: system synchronous clock interface logic

6: Pulse Coded Modulation (PCM) Highway Interface Logic

7: fax main processing logic 8: voice processing logic

9: Data accumulator interface logic 10: Common memory

20: voice main processing board 30: fax main processing board

40: Text Main Processing Board

50: logic to distinguish processing data and check board mounting status

60: board socket 70: control signal generation logic

Hereinafter, an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

2 is a block diagram of a single composite line card according to the present invention, the configuration of which includes a CPU 1, a memory 2, a call-related logic 3, an SIO 4, and a system synchronization clock. Interface logic 5, PCM highway interface logic 6, data accumulator interface logic 9, common memory 10, voice main processing board 20, fax main processing board 30, And a text main processing board 40, a board socket 61, processing data discrimination and board mounting status checking logic 50, and control signal generation logic 70.

Here, the CPU 1, the memory 2, the call related logic 3, the SIO 4, the system synchronous clock interface logic 5, the PCM highway interface logic 6, and data accumulation The device interface logic 9 and the common memory 10 have the functions as described in FIG. 1 as a configuration of performing control operations in order to connect each communication data process to a network related board or storage device. In the invention, the capacity, processing speed and the like are expanded and mounted.

The voice main processing board 20 is optionally mounted to process voice data.

The fax main processing board 30 is optionally mounted for processing fax data.

The text main processing board 40 is optionally mounted to process text data.

Here, the fax main processing board 30 and the text main processing board 40 may be integrated because their processing operations are the same. Each of the processing boards 20 to 40 is a daughter board about one third the size of an existing line card.

The board socket 60 is where each board is mounted.

The processing data discrimination and board mounting state checking logic 50 checks whether each data processing board is mounted on the board socket 60 and distinguishes data processed at each mounting position.

The control signal generation logic 70 generates a corresponding control signal according to the type and transmission state of data processed by each processing board, and transmits the processed data to the PCM highway interface logic 6 or the corresponding transmission direction. Transfer to data accumulator interface logic 9. The control signal generation logic 70 is provided separately with a circuit for generating a control signal in accordance with each processing data.

Operation of the present invention having the configuration as described above is as follows.

As the power is turned on, the CPU 1 reads the status register of the process data discrimination and board mount status check logic 50 to confirm which board is currently mounted.

After the confirmation, the CPU 1 controls the control signal generation logic 70 to generate a control signal according to the characteristics of each card.

Then, an initial value for each circuit is given and the states are displayed through the SIO 4.

Even if all of the circuits are initialized according to the board mounted as described above, the CPU 1 periodically reads the status register of the processing data discrimination and board mounting status check logic 50 to check card removal and data processing errors.

When the initialization of each circuit is completed, the CPU 1 synchronizes the call-related information with the call processing board in synchronization with the periodic clock coming from the system synchronization clock interface logic 5 so that each data can be loaded on the corresponding PCM highway. Set up the call processing board. At this time, when the call connection is made from the other party, the operation when delivering information to the other party will be described.

Here, if the information desired by the other party is the fax data together with the voice data, the CPU 1 controls the data storage device interface logic 9 to read data from the common memory 10 to control signal generation logic 70 and the board socket. 60 and the process data discrimination and board mounting status check logic 50 to transfer to the data processing board. The voice data is transmitted from the voice main processing board 20, and the fax data is transmitted from the fax main processing board 30. Then, the processing data is distinguished and the board mounting status check logic 50, the board socket 60, and the control signal are processed again. After being processed via the generation logic 70, it is loaded onto the PCM highway via the PCM highway interface logic 6.

On the other hand, the operation in the case of receiving and accumulating data from the other party is performed as follows.

Here, the data to be accumulated are given as voice data and fax data.

The data comes in through the PCM highway interface logic (6), but they are controlled by voice data and fax data through the control signal generation logic (70), the board socket (60), and the process data discrimination and board mounting status check logic (50). Separately, voice data is transmitted to the voice main processing board 20 and fax data is transferred to the fax main processing board 30.

Therefore, the voice main processing board 20 receives and processes data through a compression process, and the fax main processing board 30 receives and processes data without a compression process, and according to each data characteristic in the control signal generation logic 70. Each data is written to the common memory 10 via the data storage device interface logic 9 in synchronization with the control signal to be sent.

The data thus recorded is read by the accumulator control board and stored in the accumulator.

This series of data processing can be confirmed through the SIO (4).

As described above, according to the present invention, it is possible to selectively mount a desired data processing board on one line card, thereby making it possible to remove unnecessary data processing boards. If you develop a board that only handles data, you can mount it, which can bring economical and system stability.

Claims (1)

A CPU for controlling the entire device of the line card, a memory for storing the operation program of the CPU, call-related logic interfaced with the call processing board, a board debugging SIO for transmitting the operation state of the line card to an external monitor, and a line System synchronous clock interface logic interfaced with the clock generation board generating the synchronous clock for signal processing of the card, PCM highway interface logic interfaced with the PCM highway, and data interfaced to accumulate various communication data in the data storage device. A line card for communication data processing of a voicemail system having a storage device interface logic and a common memory for storing data input from the data storage device interface logic, the voice card being selectively mounted to process voice data. wife Board, a fax main processing board optionally mounted for processing fax data, a text main processing board optionally mounted for processing text data, the voice main processing board, the fax main processing board, and the text main processing board; A board socket for selectively mounting a processing board, processing data discrimination and board mounting confirmation logic for confirming whether a processing board is mounted on the board socket and distinguishing data processed in each mounted processing board, and each processing board A control signal generation logic for generating a corresponding control signal according to the type and transmission state of the data to be processed in the network, and transmitting the processed data to the PCM highway interface logic or data storage device interface logic in the corresponding transmission direction. Featured voicemail system Single hybrid line cards for data processing server communications.