KR100438534B1 - Apparatus of detecting fan failure - Google Patents

Abstract

The present invention relates to a fan failure detection apparatus, and in the related art, there is a problem in that an improper load is applied to the CIF processing multiple operations by periodically checking the buffer regardless of whether or not the CFI fails. Therefore, the present invention comprises: a plurality of fans each outputting a signal according to its failure; A programmable logic element unit configured to output an interrupt request signal when a fan failure signal is generated from a signal according to whether the plurality of fans have failed; When the interrupt request signal is input from the programmable logic element unit, the interrupt logic signal is outputted to the programmable logic element unit, the interrupt disable mode is entered, and the fault handling unit can cope with a fan failure through an interrupt service routine. When the interrupt service routine is terminated and the interrupt service routine is terminated, it provides a fan failure detection device composed of CPI, which returns to the interrupt enable mode until the interrupt request signal is generated according to the fan failure in the programmable logic device. Since no operation related to the fan is performed, unnecessary load on the fan can be eliminated, thereby improving the operational efficiency of the CPI.

Description

Fan Failure Detection Device {APPARATUS OF DETECTING FAN FAILURE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fan failure detection device, and more particularly, to a fan failure detection device capable of detecting a fan failure using a programmable logic device (PLD) in a gigabit Ethernet switch.

Referring to the accompanying drawings, a conventional fan failure detection apparatus is as follows.

1 is a block diagram showing a conventional fan failure detection device, as shown therein; fans 1 to 3 for outputting signals according to their own failure; A buffer 4 for temporarily storing a signal according to whether or not the fan 1 to 3 is broken; If there is a fan 1 to 3 in which a failure occurs by checking a signal according to whether or not the fan 1 to 3 stored in the buffer 4 occurs at a predetermined time, an alarm is generated by outputting a control signal to the failure processing unit 5 CPI (6) to ring or display on the web (web) to control the administrator to take action.

Hereinafter, the operation process of the conventional fan failure detection device configured as described above will be described in detail.

First, the fans 1 to 3 continuously output signals according to their failure.

The buffer 4 temporarily stores a signal according to whether or not the fan 1 to 3 is broken and continuously outputs a signal to the CPI 6.

The CPI 6 checks the buffer 4 every predetermined time, and outputs a control signal to the failure processing unit 5 when a failure signal of the fans 1 to 3 occurs in the buffer 4.

When the control signal of the CPI 6 is input, the failure processing unit 5 sounds an alarm or displays it on the web so that the administrator can take action.

On the other hand, Figure 2 is a flow chart showing the operation of the conventional fan failure detection device as described above.

However, the conventional fan failure detection apparatus as described above has a problem in that an inappropriate load is applied to the CIF processing multitask as CIF checks the buffer periodically regardless of whether a fan malfunction occurs. .

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and an object of the present invention is to provide a fan failure detection apparatus capable of eliminating an improper load of CAPI oil by applying a programmable logic element.

1 is a block diagram showing a conventional fan failure detection device.

Figure 2 is a flow chart according to the operation of the fan failure detection apparatus of FIG.

Figure 3 is a block diagram showing an embodiment of a fan failure detection apparatus according to the present invention.

*** Explanation of symbols for main parts of drawing ***

11 to 13: Fan 14: Programmable logic element

15: Failure processing unit 16: C

Fan failure detection apparatus for achieving the object of the present invention as described above comprises a plurality of fans each outputting a signal according to its failure; A programmable logic element unit configured to output an interrupt request signal (IRQ) when a fan failure signal is generated from a signal according to whether the plurality of fans have failed; When an interrupt request signal is input from the programmable logic device unit, an interrupt acknowledgment signal (IACK) is output to the programmable logic device unit, and an interrupt disable mode is entered and an interrupt service is performed. The interrupt service routine (ISR) is used to control the fault handling unit in response to a fan failure, and when the interrupt service routine is terminated, it is configured to include a CPU to return to the interrupt enable mode (interrupt enable mode). It features.

The fan failure detection apparatus according to the present invention as described above will be described in detail with reference to the accompanying drawings.

Figure 3 is a block diagram showing an embodiment of a fan failure detection apparatus according to the present invention, as shown in the fan (11 to 13) for outputting a signal according to its own failure; A programmable logic element unit (14) for outputting an interrupt request signal (IRQ) when a fan failure signal is generated from a signal according to whether or not the fans (11 to 13) are broken; When an interrupt request signal IRQ is input from the programmable logic element unit 14, an interrupt acknowledgment signal IACK is output to the programmable logic element unit 14, and an interrupt disable mode is entered. The control unit 15 controls the failure processing unit 15 to cope with the fan failure through the service routine, and then, when the interrupt service routine is terminated, the CUI 16 returns to the interrupt enable mode.

Hereinafter, the operation of the fan failure detection apparatus according to an embodiment of the present invention configured as described above will be described in detail.

First, the fans 11 to 13 continuously output signals according to their failures.

The programmable logic element 14 maintains a normal state when the fans 11 to 13 are reset or operate normally from a signal according to whether the fans 11 to 13 fail. Is generated, it moves to a fault state, outputs an interrupt request signal IRQ, and returns to a normal state again.

The CPU 16 outputs an interrupt acknowledgment signal IACK to the programmable logic element unit 14 when the interrupt request signal IRQ is input from the programmable logic element unit 14, and the programmable logic. The element unit 14 enters an interrupt disable mode in which the interrupt request signal IRQ cannot be received.

Thus, namely, until the interrupt request signal IRQ is generated in the programmable logic element unit 14, the CPI 16 does not perform any operation related to the fans 11 to 13, and thus the fan 11 to 13. Can eliminate the load on the

After entering the interrupt disable mode, the failure processing unit 15 controls the failure processing unit to cope with the fan failure through the interrupt service routine.

Accordingly, the failure processing unit 15 sounds an alarm or displays the web through the interrupt service routine of the CPI 16 so that the administrator can take action.

When the interrupt service routine ends, the interrupt service routine returns to the interrupt enable mode to receive the interrupt request signal IRQ from the programmable logic device unit 14.

As described above, the fan failure detection apparatus according to the present invention eliminates unnecessary load on the fan because the CPI does not perform any operation related to the fan until the interrupt request signal according to the fan failure is generated in the programmable logic element unit. As it is there is an effect that can improve the operating efficiency of the CAPI.

Claims (1)

A plurality of fans each outputting a signal according to its failure; A programmable logic element unit configured to output an interrupt request signal when a fan failure signal is generated from a signal according to whether the plurality of fans have failed; When the interrupt request signal is input from the programmable logic element unit, the interrupt logic signal is outputted to the programmable logic element unit, the interrupt disable mode is entered, and the fault handling unit can cope with a fan failure through an interrupt service routine. And a CPU to return to the interrupt enable mode when the interrupt service routine is terminated.