KR100235632B1 - Rom bios data correction method - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rombios of a personal computer, and in particular, by receiving the contents of the rombios wirelessly through an infrared port provided in the personal computer and modifying the rombios, the system can be easily tested and a new rom. The present invention relates to a device and method for modifying ROMBIOS data using an infrared port of a personal computer that can be updated by the BIOS.

Conventional personal computers have many applications designed to test the functions of the personal computers, but since they can only run on an operating program such as MSDOS or Windows, there is no serious problem in any part of the personal computer. If it happens, even the operating program may not work properly, which creates limitations depending on the usage environment. In addition, application programs can always exchange data with each device through an operating program or a bios, and thus can perform simple tests using only a standardized interface.

The present invention wirelessly receives the ROMBIOS data from an external system test apparatus through an infrared port provided in a personal computer, so that the system can be easily tested and an error can be detected. It is possible to upgrade the BIOS.

Description

ROMBIOS Data Modification Apparatus and Method Using Infrared Port of Personal Computer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rombios of a personal computer, and in particular, by receiving the contents of the rombios wirelessly through an infrared port provided in the personal computer and modifying the rombios, the system can be easily tested and a new rom. The present invention relates to a device and method for modifying ROMBIOS data using an infrared port of a personal computer that can be updated by the BIOS.

As shown in FIG. 1, a general personal computer has a structure of a central processing unit (10), a ROM basic input / output system (20), and a random access memory (RAM). ) And a plurality of devices 50a to 50n. The CPU 10 is a central processing unit of the computer, and the ROMBIOS 20 has a built-in BIOS program. When power is supplied to the computer system, the system checks the system according to the contents of the BIOS, and then transfers control to the operating system program so that the user can use the computer system. The ROMBIOS 20 stores a program necessary for basic operation of the computer, and the RAM 40 stores code and data generated while the computer is executing the program. The plurality of devices 50a to 50n refer to controllers or processors that control peripheral devices such as hard disks, floppy disk drives, CD-ROM drives, and mouse ports, keyboard ports, serial ports, and parallel ports.

In the personal computer configured as described above, for example, when MSDOS (Disk Operating System) is used as the operating system, when power is first applied, the ROMBIOS 20 is powered on such as a memory test, a device test, or the like. After the test, the bootstrap loader reads the boot sector, which is the first sector of the disk, loads the contents into the RAM 40, and transfers control to the boot sector. The boot sector includes information on the file system of the disk. There is another bootstrap, and this routine loads MSDOS.SYS, the kernel for DOS, into memory. The kernel then calls IO.SYS, which initializes DOS's own BIOS and system, reads CONFIG.SYS, processes any configured device drivers, calls COMMAND.COM, and then gives control to COMMAND. Pass it to COM. Thus, COMMAND.COM executes the AUTOEXEC.BAT file if it exists in the root directory, and outputs a cursor on the monitor waiting for input from the user, so that the user can use the computer.

On the other hand, when mass-producing personal computers, even a fully developed personal computer may cause problems. Therefore, in the process of developing a personal computer, all hardware is tested through a BIOS program, and the most suitable register for each component is developed. The value will be determined.

The conventional personal computer as described above has many applications designed to test the functions of the personal computer, but it can be operated only in an operating program such as MSDOS or Windows. If a serious problem occurs in the system, even the operating program may not work properly, resulting in limitations depending on the usage environment. In addition, application programs can always exchange data with each device through an operating program or a bios, and thus can perform simple tests using only a standardized interface.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and the system can be easily received by wirelessly receiving the data of the ROMBIOS from an external system test apparatus through an infrared port provided in a personal computer, thereby easily testing the system. It is an object of the present invention to provide a device and method for modifying ROMBIOS data using an infrared port of a personal computer that can detect errors in the PC and correct them with new ROMBIOS data.

In order to achieve the above object, the present invention, the central processing unit of the personal computer CPU; A RAM for storing data generated while the CPU is executing a program; A ROM BIOS which has a built-in BIOS program, which is a program necessary for basic operation of the computer, and supplies power to the operating system program so that the system can be checked and the user can use the computer system when power is supplied to the computer system; A personal computer having a plurality of devices for data input / output of a personal computer, comprising: a first IrDA module for inputting / outputting data applied by using infrared rays to the CPU and the device side; An I / O controller connecting the first IrDA module and a system bus inside the personal computer; Monitors the data applied from the first IrDA module, and when a predetermined control code is applied, outputs a control signal and at the same time outputs a data write signal to the ROM bios, and then receives the data received after the control code. A first microcontroller for outputting to the BIOS side; A first ROM storing an operation program of the first microcontroller; A control switch for disconnecting the ROM of the personal computer from the system bus when a control signal is applied from the first microcontroller; And an external test device for transmitting data to the first IrDA module.

On the other hand, the external test device, the second IrDA module for transmitting and receiving data with the first IrDA module; A data input / output device for storing data to be transmitted to the ROM BIOS side; A second microcontroller that controls the second IrDA module and reads data stored in the data input / output device and applies the read data to the second IrDA module side according to an IrDA data transmission protocol; And a second ROM storing a program for driving the second microcontroller and an IrDA data transmission protocol.

On the other hand, the ROM bios data modification method using an infrared port of the personal computer, the first microcontroller monitors the first IrDA module when the power is applied, and checks whether the IrDA data is received from the external test device; In the first step, when the IrDA data is received, a second step of inspecting a packet of the received IrDA data to check whether a predetermined control code for performing the operation on the ROMBIOS data is included; In the second process, when a predetermined control code is applied, the control switch is controlled to separate the system bus of the ROMBIOS and the personal computer, and then the write protection mode set in the ROMBIOS is released and the ROMBIOS is written. Converting to a mode; A fourth process of converting serial data applied through the first IrDA module into parallel data after the third process; A fifth process after the fourth process, transferring the converted parallel data to the ROM bios and writing the converted parallel data to the ROM bios; A sixth process after the fifth process, checking whether data transmission from the external test apparatus is completed and returning to the fourth process if it is not completed; In the sixth step, if the transmission of the data is completed, it is checked whether an error has occurred in the transmitted data, and if the error has not occurred, transmitting a predetermined end code indicating that the data transmission is completed to the external test apparatus. And a seventh step of returning to the first step; In the seventh step, if an error occurs, an eighth step of transmitting a predetermined error generation code and a data retransmission request signal to the external test apparatus, and then returning to the fourth step.

1 is a block diagram of a general personal computer.

2 is a ROM bio data using an infrared port of a personal computer according to the present invention

The configuration block of the personal computer to which the correction device is applied.

Figure 3 is a detailed block diagram of the external test apparatus shown in FIG.

4 is a format of a ROMBIOS data packet according to an embodiment of the present invention.

5 is a ROM bio data using an infrared port of a personal computer according to the present invention

A flowchart of the modification method.

Explanation of symbols on the main parts of the drawings

10: CPU (Central Processing Unit) 20: ROMBIOS

30a: first ROM 30b: second ROM

40 RAM 50 First IrDA Module

51: second IrDA module 50a to 50n: device

60a: first microcontroller 60b: second microcontroller

70: data input / output device 80: control switch

90: I / O controller 100: external test device

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The ROMBIOS data correction apparatus using the infrared port of the personal computer according to the present invention may include a CPU 10, a ROMBIOS 20, a first ROM (Read Only Memory 30a), as shown in FIG. RAM 40, first IrDA module 50, first microcontroller 60a, control switch 80, I / O controller 90, a plurality of devices 50a-50n and external test device 100 Equipped.

The CPU 10 is a central processing unit of a personal computer, and the ROMBIOS 20 has a built-in BIOS program. When the power is supplied to the computer system, the ROM BIOS 20 performs an operation check of the system and allows the user to use the computer system. Give control. The first ROM 30a stores the operation program of the first microcontroller 60a, and the RAM 40 stores code or data generated while the CPU 10 executes the program. The first IrDA module 50 inputs / outputs data applied using infrared rays to the I / O controller 90. In general, IrDA (Infra-red Data Association) is a standard association for communication using infrared rays. Several years ago, SIR (Serial Infra-Red) with a transmission rate of 115kbps and FIR (Fast Infra-Red) with a transmission rate of 4Mbps were standardized to incorporate this infrared serial communication into personal computers. In addition, the term IrDA itself means association, but also refers to the serial communication method between a personal computer and a peripheral device using infrared rays. The first microcontroller 60a operates according to an operation program stored in the first ROM 30a, observes IrDA data applied from the first IrDA module 50, and generates a control signal when a predetermined control code is applied. After outputting to the control switch 80 and outputting a data write signal to the ROMBIOS 20 side, the data received after the control code is output to the ROMBIOS 20 side. When the control signal is applied from the first microcontroller 60a, the control switch 80 blocks the connection between the system bus of the personal computer and the ROMBIOS 20. Many devices 50a to 50n perform data input and output in the operation of the personal computer. The external test apparatus 100 transmits data to the first IrDA module 50 side.

Meanwhile, as illustrated in FIG. 3, the external test apparatus 100 includes a second IrDA module 51, a second ROM 30b, a second microcontroller 60b, and a data input / output device 70. ). The second IrDA module 51 transmits / receives data to and from the first IrDA module 50 using infrared rays, and the second ROM 30b stores a program and an IrDA data transmission protocol for driving the second microcontroller 60b. . The second microcontroller 60b controls the second IrDA module 51, reads data stored in the data input / output device 70, and reads data read in accordance with the IrDA data transfer protocol. To the side. The data input / output device 70 stores data to be transmitted to the ROMBIOS 20 side.

Meanwhile, an embodiment of an IrDA data packet format transmitted / received between the first and second IrDA modules 50 and 51 is shown in FIG. 4, as shown in FIG. 4. The control code 2 bytes are allocated to the first 2 bytes of data. In the present embodiment, when the two-byte control code is 55 AA 55 AA, the first microcontroller 60a performs a data modification operation of the ROMBIOS 20.

The operation of the present invention configured as described above will be described in detail with reference to the operation flowchart of FIG. 5 as follows.

First, when power is applied to the personal computer, the IrDA data applied from the external test apparatus 100 is received by the first IrDA module 50 built in the personal computer. The received IrDA data is received by the I / O controller 90, which is again transferred to the CPU 10 by the system bus. The first microcontroller 60a is connected to the Rxd pin of the first IrDA module 50. It always monitors (step 1) and checks whether IrDA data is received from the external test apparatus 100 (step S2). When the IrDA data is received, the packet of the received IrDA data is examined (step S3), and it is checked whether a predetermined control code for performing the operation on the ROMBIOS 20 data is included (step S4). That is, when the control code of the first two bytes of the actual data following the IrDA header in the content of IrDA data is 55 AA 55 AA, the first microcontroller 60a performs a modification operation of the ROMBIOS 20. First, the first microcontroller 60a controls the control switch 80 to separate the ROMBIOS 20 from the system bus of the personal computer, and then connects to the WE (Write Enable) pin of the low-active ROMBIOS 20. By applying the low level signal, the ROM bios 20 are converted to the write mode. Thereafter, the predetermined specific value is transmitted to the ROMBIOS 20 in accordance with the system bus protocol so that the write protection mode set in the ROMBIOS 20 can be released (step S5). When released, the first microcontroller 60a sequentially converts serial data coming after the control code applied through the first IrDA module 50 into parallel 8-bit data (step S6), and sequentially converts the converted parallel data into a system bus. By transmitting to the ROMBIOS 20 side in accordance with the protocol, it is stored in the ROMBIOS 20 (step S7), and it is checked whether data transmission is completed from the external test apparatus 100 (step S8), and the transmission is completed. If not, the flow returns to step S6. If data transfer is completed, it is checked whether an error has occurred in the transferred data (step S9). If no error has occurred, data transfer is completed. After transmitting the predetermined end code indicating that the pre-set to the outside the test device 100, and returns to the aforementioned step S1 (step S10). On the other hand, if an error occurs in step S9, the predetermined predetermined error generation code and data retransmission request signal are transmitted to the external test apparatus 100, and then the flow returns to step S6 (step S11). Therefore, after storing a new BIOS program or test program in the ROMBIOS 20, the system is rebooted, and when a problem occurs in the personal computer and does not operate properly, it can be tested. In the meantime, the external test apparatus 100 downloads certain data from a storage device such as a floppy disk, a hard disk, a tape, or an SRAM Personal Computer Memory Card Industry Association (PCMCIA) card, and converts the data into IrDA data packets to the counterpart. As a device capable of transmitting, it is desirable to design a battery so that it can be used as a main power source, and the second microcontroller 60b provided therein operates according to the IrDA protocol program. May be input from the data input / output device 70 and may be stored in the second ROM 30b.

As described above, the present invention wirelessly receives the data of the ROMBIOS from an external system test apparatus through an infrared port provided in the personal computer, so that the system can be easily tested and an error can be detected. The BIOS can be upgraded easily without disassembling the computer.

Claims (3)

A CPU 10 which is a central processing unit of a personal computer; A RAM (40) for storing data generated while the CPU (10) is executing a program; A ROM BIOS 20 having a built-in BIOS program which is a program necessary for basic operation of a computer, and when power is supplied to the computer system, the system checks and transfers control to an operating system program so that a user can use the computer system; In a personal computer having a plurality of devices 50a to 50n for data input and output of a personal computer, input / output of data applied by using infrared rays to the CPU 10 and the plurality of devices 50a to 50n. A first IrDA module 50; An I / O controller (90) connecting the first IrDA module (50) to a system bus inside the personal computer; After monitoring the data applied from the first IrDA module 50, if a predetermined control code is applied, it outputs a control signal and outputs a data write signal to the ROMBIOS 20 side. A first microcontroller (60a) outputting the received data to the rombios (20) side; A first ROM 30a for storing an operation program of the first microcontroller 60a; A control switch 80 for disconnecting the system bus of the personal computer from the ROM bus 20 when a control signal is applied from the first microcontroller 60a; And an external test device (100) for transmitting data to the first IrDA module (50). The apparatus of claim 1, wherein the external test apparatus (100) comprises: a second IrDA module (51) for transmitting and receiving data with the first IrDA module (50); A data input / output device 70 for storing data to be transmitted to the ROMBIOS 20 side; A second controlling the second IrDA module 51 and reading data stored in the data input / output device 70 and applying the read data according to an IrDA data transfer protocol to the second IrDA module 51. A microcontroller 60b; And a second ROM (30b) for storing a program for driving the second microcontroller (60b) and an IrDA data transmission protocol. A method for modifying a ROMBIOS data using an infrared port of a personal computer, comprising: a first process of checking whether IrDA data is received from an external test device by monitoring a first IrDA module when power is applied; In the first step, when the IrDA data is received, a second step of inspecting a packet of the received IrDA data to check whether a predetermined control code for performing the operation on the ROMBIOS data is included; In the second process, when a predetermined control code is applied, the control switch is controlled to separate the system bus of the ROMBIOS and the personal computer, and then the write protection mode set in the ROMBIOS is released and the ROMBIOS is written. Converting to a mode; A fourth process of converting serial data applied through the first IrDA module into parallel data after the third process; A fifth process after the fourth process, transferring the converted parallel data to the ROM bios and writing the converted parallel data to the ROM bios; A sixth process after the fifth process, checking whether data transmission from the external test apparatus is completed and returning to the fourth process if it is not completed; In the sixth step, if the transmission of the data is completed, it is checked whether an error has occurred in the transmitted data, and if the error has not occurred, transmitting a predetermined end code indicating that the data transmission is completed to the external test apparatus. And a seventh step of returning to the first step; In the seventh step, if an error has occurred, an eighth step of transmitting a predetermined predetermined error code and data retransmission request signal to the external test apparatus, and then returns to the fourth step ROMBIOS data modification method using infrared port of computer.

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