KR20000015043A - Multiple board managing apparatus using a microprocessor - Google Patents

Abstract

PURPOSE: A multiple board managing apparatus is provided to control a slave board by a processor of a main board by managing a device of the slave board having no processor in a self. CONSTITUTION: The multiple board managing apparatus comprises: a board select signal generating part(20) which receives data from a microprocessor(10) and generates a board select signal for selecting a desired board; a control signal drive part(30) which receives a control signal from the microprocessor and controls reading and writing of a slave board device; a data line drive part(40) which makes the data line of the microprocessor extended up to the slave board; and an address line drive part(50) which makes an address line of the microprocessor extended up to the slave board.

Description

Multiboard Management Device Using Microprocessor

The present invention relates to the management of a slave board of a microprocessor. In particular, in a multi-board system implemented in a shelf unit, a main board having a processor manages a device of a slave board having no processor in a shelf and is managed by a processor of the main board. The present invention relates to a device for controlling a slave board.

In general, a microprocessor is an electronic circuit of one or several large scale integrated circuits (LSIs) that actually execute micro instructions, and has arithmetic, memory, and control functions. What is used for clocks and electronic calculators is a dedicated microprocessor for specific processing, and what is used for a CPU of a computer is a general purpose microprocessor that can cope with various processes in a program.

In the case of using the microprocessor in this way, when there is a device to be maintained on the board in the prior art, it was configured and operated as shown in FIG.

Thus, the microprocessor 1 is connected to the device 2 to perform a task regardless of the task to be processed.

However, in order for the microprocessor 1 to manage the device 2, logic for the microprocessor and its peripheral circuits has to be basically implemented.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to provide a slave board in which a main board having a processor does not have a processor in a shelf. The present invention provides a multi-board management apparatus using a microprocessor capable of managing a device and controlling a slave board by a processor of a main board.

In order to achieve the above object, the multi-board management apparatus using a microprocessor according to the present invention,

A board selection signal generator for receiving data from a microprocessor and generating a board selection signal for selecting a desired board; A control signal drive unit which receives a control signal from the microprocessor and controls reading, writing, etc. of the slave board device; A data line driver unit for extending the data line of the microprocessor to the slave board; The technical configuration is characterized in that the address line of the microprocessor consists of an address line drive unit for extending to the slave board.

1 is a block diagram of a main board for managing a conventional multi-board,

Figure 2 is a block diagram showing a multi-board management apparatus using a microprocessor according to the present invention,

3 is a configuration diagram of a control signal selector which is a slave board of a control signal driver in FIG. 2;

4 is a configuration diagram of a data bus selection unit that is a dependent board of a data line driver in FIG. 2;

5 is a configuration diagram of an address bus selector that is a slave board of an address line driver in FIG. 2;

FIG. 6 is a configuration diagram of a chip select signal generator that is a slave board of an address line driver in FIG. 2; FIG.

<Explanation of symbols for main parts of the drawings>

10: microprocessor 20: board selection signal generator

30: control signal drive unit 40: data line drive unit

50: address line drive unit

Hereinafter, with reference to the accompanying drawings an embodiment according to the technical concept of the multi-board management apparatus using the present invention microprocessor as described above in detail.

First of all, the present invention allows a microprocessor of a main board to maintain a device of a whole system board instead of having a microprocessor for each board in order to maintain each board in a system consisting of multiple boards. This is applicable in the case of boards that operate and perform task processing to the extent that each board can be processed without a microprocessor.

2 is a block diagram showing a multi-board management apparatus using a microprocessor according to the present invention.

As shown therein, a microprocessor 10 for overall maintenance of a system in which multiple boards are connected to a back board; A board selection signal generator 20 for receiving a data from the microprocessor 10 and generating a board selection signal for selecting a desired board; A control signal driver 30 which receives a control signal from the microprocessor 10 and controls reading, writing, etc. of the slave board device; A data line drive unit 40 for extending the data line of the microprocessor 10 to the slave board; The address line of the microprocessor 10 is composed of an address line drive unit 50 to extend to the slave board.

3 is a configuration diagram of a control signal selector 31 that is a slave board of the control signal driver 30 in FIG. 2, and a corresponding slave board may be selected by a board select signal of the board select signal generator 20. Control signal selector 31 for outputting a valid control signal.

4 is a configuration diagram of a data bus selector 31 that is a slave board of the data line drive unit 40 in FIG. 2, in which a data bus is commonly input and the slave board is desired to be accessed from the main board. In this case, the data bus selection unit 41 makes the data bus active by enabling the control terminal of the buffer by using the board selection signal of the board selection signal generator 20.

FIG. 5 is a configuration diagram of an address bus selector 51 that is a slave board of the address line drive unit 50 in FIG. 2, in which the address bus is commonly input and the slave board is desired to be accessed from the main board. In this case, the address bus selector 51 enables the address bus to be active by enabling the control terminal of the buffer by using the board select signal of the board select signal generator 20.

FIG. 6 is a configuration diagram of the chip select signal generator 52 that is a slave board of the address line driver 50 in FIG. 2, and the address bus selector 51 when the slave board is a board to be accessed from the main board. The chip select signal generator 52 accesses a desired device in the slave board by outputting a chip select signal by using the enabled signal outputted from the &lt; RTI ID = 0.0 &gt;

Thus, the data bus, address bus, and various control signals of the microprocessor 10 of the main board using the microprocessor 10 are extended to the respective boards through the back board through the driver.

The microprocessor 10 of the main board first generates a board select signal when accessing a device of each board in the same manner as accessing a device in the board. This board selection signal activates the control terminal of the buffer so that the data line, address line, and control signal line of the board to be accessed are enabled when the microprocessor 10 accesses it.

In addition, in each board, when the data bus line, address bus line, and various control lines of the main board are selected through the board selection signal, the chip selection signal of the on-board device is generated through the address decoder in the board and operated according to the corresponding control signal. do.

For example, if the main board is intended to initialize the N board, the board select signal section generates an N board select signal, and the reset signal is added to the entire reset signal section. The reset signal is held on all boards, but since only N boards are given a selection signal, only N boards are enabled inside the board to actually enable the reset signal.

Similarly, when accessing the A device of the L board, the processor sends the L board select signal and writes or reads a value to the desired address, and then sends the chip select signal of the device A from the address decoder in the L board. The device can be operated as desired according to the input control signal.

As described above, the present invention extends the data bus, address bus, and various control signal board selection signals of the microprocessor of the main board using the microprocessor to the back boards using a driver, and generates a selection signal for each board. By making the devices on the board accessible, the slave board can be maintained without the need for a microprocessor.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. That is, the present invention can be used not only in a broadband subscriber network device but also in a communication system implemented in a shelf unit or a rack unit.

Therefore, it is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the multi-board management apparatus using a microprocessor according to the present invention extends the data bus, address bus, various control signal board selection signals, etc. of the microprocessor to each board by a back board using a driver and each board. By generating select signals, the devices on the slave board can be accessed so that the slave board can be maintained without the need for a microprocessor.

Claims (5)

In a system in which multiple boards are connected to a back board, a multi-board management apparatus using a microprocessor for maintaining each device of a slave board using a microprocessor of a main board, A board selection signal generation unit configured to receive data from the microprocessor and generate a board selection signal for selecting a desired board; A control signal drive unit which receives a control signal from the microprocessor and controls reading, writing, etc. of the slave board device; A data line driver unit for extending the data line of the microprocessor to the slave board; And an address line drive unit configured to extend an address line of the microprocessor to the slave board. The method of claim 1, wherein the control signal drive unit, And a control signal selection unit for outputting a valid control signal when the subordinate board is selected by the board selection signal of the board selection signal generation unit. The method of claim 1, wherein the data line drive unit, When the data bus is commonly input and the subordinate board is a board to be accessed from the main board, the data is made active by enabling the control terminal of the buffer using the board selection signal of the board selection signal generator. Multi-board management apparatus using a microprocessor, characterized in that further comprising a bus selection unit. The method of claim 1, wherein the address line drive unit, When the address bus is commonly input and the subordinate board is a board to be accessed from the main board, the address which makes the address bus active by enabling the control terminal of the buffer using the board selection signal of the board selection signal generator Multi-board management apparatus using a microprocessor, characterized in that further comprising a bus selection unit. The method of claim 1, wherein the address line drive unit, If the slave board is a board to be accessed from the main board, a chip select signal generator for outputting a chip select signal using an enabled signal output from the address bus selector to access a desired device in the slave board is further included. Multi-board management apparatus using a microprocessor, characterized in that provided with.