KR100205111B1 - Automatic hdd changing apparatus of pc - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a personal computer, wherein a personal computer having a plurality of hard disk drives automatically replaces and operates a hard disk drive according to a user's request, thereby improving the convenience of using a personal computer. Disc drive automatic replacement device.

In the conventional personal computer, when the user wants to boot by replacing the hard disk drive connected to the main connector and the hard disk drive connected to the sub connector, the user has to inconvenience physically replacing the connection between the main connector and the sub connector directly.

The present invention automatically replaces and operates a hard disk drive in accordance with a user's request in a personal computer having a plurality of hard disk drives, thereby improving usability in using a personal computer.

Description

Hard disk drive autochanger for personal computers

1 is a block diagram of an automatic hard disk drive replacement apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

11 ~ 13: multiplexer 14: main connector

15: secondary connector

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a personal computer. In particular, in a personal computer having a plurality of hard disk drives, it is possible to automatically replace and operate the hard disk drive according to a user's request so as to improve the convenience of using the personal computer. It is about a hard disk drive automatic replacement device.

Conventional personal computers have two connectors for connecting hard disk drives (main connector and secondary connector), which can be used by connecting four hard disk drives (including CD drives), two in each connector. It is supposed to be. For convenience of explanation, if the hard disk drives connected to the primary connector are C and D drives in order, and the hard disk drives connected to the secondary connector are called E and F drives in order, from the conventional personal computer to the C drive. When you want to boot the operating system (Operating System) to E drive, you need to open the personal computer case, change the connector, and then turn on the power switch to boot the E drive. Therefore, in order to boot a particular OS with different OS installed on different hard disk drives, users have to open the case of the personal computer and change the connection of the connector to connect the hard disk drive with the OS installed. There is this.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. In the personal computer having a plurality of hard disk drives, it is possible to automatically replace and operate the hard disk drive according to a user's demand, thereby making it convenient to use a personal computer. The aim is to improve sex.

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

Among the signal lines applied to the main connector and the sub connector connecting the hard disk drive, the data transmission paths, control signals, and address signals are commonly used signal lines, except that the main connector is accessed and the sub connector is accessed. Are separated into different ports. In addition, the signals necessary for the protocol for transferring data stored in the hard disk drive or the DMA (Direct Memory Access) signals are different from each other. Depending on the hard disk drive, data is transmitted using DMA and data using interrupts. In some cases, it also sends. In the case of operating the hard disk drive, the different signals among the signals applied to the primary connector and the secondary connector are listed in Table 1 below.

In the present invention, by changing the signals applied to the main connector and the sub-connectors listed in Table 1 above, it is configured to automatically replace and operate the hard disk drive connected to the main connector and the sub-connector according to user's request.

The automatic hard disk drive replacement apparatus according to the present invention includes a plurality of multiplexers 11 to 13, a main connector 14, and a sub connector 15, as shown in FIG. 1. When operating the hard disk drives connected to the main connector 14 and the sub connector 15, the DMA request signal (DRQ0), the DMA response signal (DACK0 #), for operating the hard disk drive connected to the main connector 14, The interrupt signal IRQ14, the input / output port access signal DCS01 #, the input / output port access signal DCS03 # are applied, and the DMA request signal DRQ1 for operating the hard disk drive connected to the sub connector 15, the DMA response. The signal DACK1 #, the interrupt signal IRQ15, the input / output port access signal DCS11 # and the input / output port access signal DCS13 # are applied, and the multiplexers 11 to 13 select the signals according to the selection signal SELECT. By replacing and applying to the main connector 14 and the sub connector 15, the hard disk drive connected to the main connector 14 and the sub connector 15 can be automatically replaced and operated.

That is, the multiplexer 11 includes a DMA request signal DRQ0, a DMA response signal DACK0 #, an interrupt signal IRQ14, and an input / output port access signal DCS01 # for operating the hard disk drive connected to the main connector 14. And the DMA request signal DRQ1, the DMA response signal DACK1 #, the interrupt signal IRQ15, and the input / output port access signal DCS11 # for operating the hard disk drive connected to the sub connector 15 are selected. It selects according to the signal SELECT and outputs it to the main connector 14 side. When the low level selection signal SELECT is applied, the DMA request signal DRQ0, the DMA response signal DACK0 #, and the interrupt signal IRQ14 are selected. ) Input / output port access signal DCS03 # is selected and output to the main connector 14 side. When a high level selection signal SELECT is applied, the DMA request signal DRQ1, the DMA response signal DACK1 #, The interrupt signal IRQ15 and the input / output port access signal DCS11 # are selected and output to the main connector 14 side. In addition, the multiplexer 12 selects an input / output port access signal DCS03 # for operating a hard disk drive connected to the main connector 14 and an input / output port access signal DCS13 # connected to the sub connector 15. DMA request signal (DRQ0), DMA response signal (DACK0 #), interrupt signal (IRQ14) and the like to be outputted to the main connector (14) side for operation of the hard disk drive connected to the main connector (14). The DMA request signal DRQ1, the DMA response signal DACK1 #, and the interrupt signal IRQ15 are applied to operate the hard disk drive connected to the sub connector 15, and are selected according to the selection signal SELECT to select the sub connector ( 15) side, when the low-level selection signal SELECT is applied, the input / output port access signal DCS03 # is selected and output to the main connector 14, and at the same time, the DMA request signal DRQ1 and DMA Select the response signal (DACK1 #) and interrupt signal (IRQ15) to select To the main connector 14 when the high-level selection signal SELECT is applied, selects the input / output port access signal DCS13 # and outputs it to the main connector 14 side, and at the same time, the DMA request signal DRQ0. , The DMA response signal DACK0 # and the interrupt signal IRQ14 are selected and output to the sub connector 15 side. Meanwhile, the multiplexer 13 includes an input / output port access signal DCS01 #, an input / output port access signal DCS03 #, and a hard disk drive connected to the sub-connector 15 for operating the hard disk drive connected to the primary connector 14. The input / output port access signal DCS11 # and the input / output port access signal DCS13 # for operating the controller are applied according to the selection signal SELECT and are output to the sub-connector 15. The low level selection signal SELECT ), When the input / output port access signal DCS11 # and the input / output port access signal DCS13 # are selected and output to the sub connector 15 side, and when the high level selection signal SELECT is applied, The port access signal DCS01 # and the input / output port access signal DCS03 # are selected and output to the sub connector 15 side.

In addition, the select signal SELECT applied to the multiplexers 11 to 13 may use an extra port provided in the keyboard controller or a similarly available pin provided by the chipset. By selecting a hard disk drive, the signal output of the multiplexers 11 to 13 can be selected to select and boot a hard disk drive connected to the main connector 14 and the sub connector 15.

The automatic hard disk replacement apparatus of the present invention configured as described above operates as follows. For example, if the user wants to boot the OS installed in the E drive connected to the sub-connector 15 while the user is operating the personal computer using the OS installed in the C drive connected to the main connector 14, the user Selects the E drive on the keyboard, a high-level selection signal is applied to the multiplexers 11-13. At this time, the multiplexer 11 receives the DMA request signal DRQ1, the DMA response signal DACK1 #, the interrupt signal IRQ15, and the input / output port access signal DCS11 # for operating the hard disk drive of the sub connector 15. Selects and outputs to the main connector 14 side, and the multiplexer 12 selects the input / output port access signal DCS13 # for operating the hard disk drive of the sub-connector 15 to output to the sub-connector 14 side. At the same time, the DMA request signal DRQ0, the DMA response signal DACK0 #, and the interrupt signal IRQ14 for operating the hard disk drive of the main connector 14 are selected and output to the sub connector 15, and the multiplexer ( 13 selects an input / output port access signal DCS01 # and an input / output port access signal DCS03 # for operating the hard disk drive of the main connector 14, and outputs them to the sub connector 15 side. In this manner, the multiplexers 11 to 13 output a signal for operating the hard disk drive connected to the main connector 14 to the sub connector 15 and simultaneously operate the hard disk drive connected to the sub connector 15. Since the signal for outputting is outputted to the main connector 14 side, the E drive connected to the sub connector 15 is operated as the main hard disk drive to boot the OS installed in the E drive.

That is, for example, if a user wants to boot and use a Windows OS installed in the C drive connected to the main connector 14 and then boot and use a DOS related OS installed in the E drive connected to the sub connector 15, Selects the main hard disk drive on the keyboard and replaces and outputs the signals applied to the main connector 14 and the sub connector 15 by the multiplexers 11 to 13 to output the E drive connected to the sub connector 15 to the main hard drive. It will run as a disk drive, allowing you to boot the DOS-related OS on drive E.

As described above, the present invention automatically replaces and operates a hard disk drive in accordance with a user's request in a personal computer having a plurality of hard disk drives, thereby improving the usability of the personal computer.

Claims (4)

A personal computer comprising a main connector 14 for connecting first and second hard disk drives and a sub connector 15 for connecting third and fourth hard disk drives, wherein the main connector 14 is provided. DMA request signal DRQ0, DMA response signal DACK0 #, interrupt signal IRQ14, input / output port access signal DCS01 #, and the hard disk connected to the sub connector 15 for driving the hard disk drive connected thereto. The main connector receives the DMA request signal DRQ1, the DMA response signal DACK1 #, the interrupt signal IRQ15, and the input / output port access signal DCS11 # for operating the drive, and selects the main connector according to the selection signal SELECT. A first multiplexer 11 outputting to the (14) side; I / O port access signal DCS03 # for operating the hard disk driver connected to the main connector 14 and I / O port access signal DCS13 # connected to the sub connector 15 are selected according to the selection signal SELECT. The DMA request signal DRQ0, the DMA response signal DACK0 #, the interrupt signal IRQ14, and the sub-connector, which are outputted to the main connector 14 side and for operating a hard disk drive connected to the main connector 14, are operated. 15) the DMA request signal DRQ1, the DMA response signal DACK1 #, and the interrupt signal IRQ15 for driving the hard disk drive connected thereto are selected and selected according to the selection signal SELECT to select the sub-connector 15. A second multiplexer 12 output to the side; I / O port access signal DCS01 #, I / O port access signal DCS03 # for operating the hard disk drive connected to the main connector 14, and I / O port for operating the hard disk drive connected to the sub connector 15 And a third multiplexer 13 which receives a port access signal DCS11 # and an input / output port access signal DCS13 #, selects according to a selection signal SELECT, and outputs the same to the sub connector 15. Automatic hard disk drive replacement for personal computers. The method of claim 1, wherein the first multiplexer 11, when the selection signal SELECT of the first level is applied, the DMA request signal DRQ0, the DMA response signal DACK0 #, the interrupt signal IRQ14, The input / output port access signal DCS01 # is selected and output to the main connector 14, and when the second level selection signal SELECT is applied, the DMA request signal DRQ1 and the DMA response signal DACK1 #. And an interrupt signal (IRQ15) and an input / output port access signal (DCS11 #) are selected and output to the main connector (14). The second multiplexer 12 selects an input / output port access signal DCS03 # and outputs the same to the main connector 14 when the selection signal SELECT of the first level is applied. At the same time, the DMA request signal DRQ1, the DMA response signal DACK1 #, and the interrupt signal IRQ15 are selected and output to the sub connector 15. When the second level selection signal SELECT is applied, the input / output port is selected. An access signal DCS13 # is selected and output to the main connector 14, and at the same time, a DMA request signal DRQ0, a DMA response signal DACK0 #, and an interrupt signal IRQ14 are selected and the sub connector 15 is selected. Hard disk drive automatic replacement device for a personal computer, characterized in that output to the side. The third multiplexer 12 selects the input / output port access signal DCS11 # and the input / output port access signal DCS13 # when the selection signal SELECT of the first level is applied to the third multiplexer 12. When the output signal is supplied to the connector 15 and the selection signal SELECT of the second level is applied, the input / output port access signal DCS03 # and the input / output port access signal DCS03 # are selected, and the secondary connector 15 is selected. Hard disk drive automatic replacement device for a personal computer, characterized in that output to the side.