KR100648918B1 - Device capable of detecting a power reset - Google Patents

Abstract

A device for detecting power reset is provided to detect a reset state by momentary power abnormality with simple configuration outputting the first level signal in case that the power reset is not caused from the power abnormality and outputting the second level signal in the case of the power abnormality. A power monitor(110) outputs the first level signal to an output terminal in the case that power voltage applied to an input terminal is over a reference level and outputs the second level signal in the case that the power voltage applied to the input terminal is under a reference level. A state information changer(120) includes the first input terminal combined to the power voltage, the second imputer terminal combined with the power monitor, and the output terminal for outputting information. The state information changer keeps the first input terminal and the output terminal in the first level signal in a normal operation mode receiving the first level signal from the power monitor through the second input terminal.

Description

Device capable of detecting a power reset

1 is a view showing the internal configuration of the power reset detection device 100 according to the present invention.

******* Brief description of the main parts of the drawing *******

110: power monitoring unit, 120: state information conversion unit,

C: capacitor, R: pull-up resistor.

The present invention relates to a power reset detection device that enables to accurately determine whether the cause of the reset is caused by a power failure when a reset occurs in the communication equipment.

In general, communication equipment is configured to perform reset processing for a reset command or various abnormal states by an administrator. Here, the abnormal state in which the reset process occurs may include a power supply error, a software problem, a module failure, or the like. If a reset occurs due to a fault in the equipment, the communication equipment manager shall take appropriate measures corresponding to the cause. For example, the manager may perform a process of replacing a power supply unit or a module of a communication device or modifying a program.

However, since the conventional communication equipment is to simply generate a reset alarm for the reset operation, the administrator can take appropriate measures sequentially in accordance with the cause that the reset may occur when the reset occurs due to a malfunction of the equipment. Maintenance of the equipment will be performed. That is, the administrator estimates the causes of the reset occurrence based on his or her own experience, and performs maintenance according to the priority. Therefore, in the conventional apparatus, when a reset occurs in the apparatus, the administrator has to perform unnecessary maintenance in order to eliminate the cause of the reset, thereby increasing the amount of work according to the maintenance and the maintenance time. There was a problem that lengthened.

Accordingly, a power reset detection method has been proposed and used to confirm whether the cause of reset is caused by a power failure. This power reset detection method is a software method, in which specific data is written in a predetermined nonvolatile memory, and specific data written in the memory is changed in response to a power failure. It is to determine whether or not to reset. However, when the power reset detection method is applied to a communication device, for example, an instantaneous power failure within 1 second may cause the data written in the memory to be preserved due to the capacitance of the board itself or the characteristics of the memory itself. have. That is, the power reset detection method is difficult to detect the momentary power failure.

In particular, the repeater installed to solve the communication shadow area in the wireless communication system is configured to provide its various status information to the server performing the repeater management function. That is, the repeater provides the reset generation information to the server when the reset occurs. However, when a reset occurs due to an instantaneous power failure in an arbitrary repeater, it may be difficult to properly manage the repeater because it is difficult for the server to determine that the reset has occurred due to power failure.

Accordingly, the present invention has been made in view of the above circumstances, and has a technical object of providing a power reset detection device capable of efficiently performing reset detection due to a power failure.

The power reset detection device according to the present invention for achieving the above object is to output the first level signal to the output terminal when the power supply voltage applied to the input terminal is higher than the reference level, and to the output terminal when the power supply voltage applied to the input terminal is less than the reference level. A power supply monitoring means for outputting a second level signal, a first input coupled to a power supply voltage, a second input coupled to the power monitoring means, and an output for outputting information, the second input being connected from the power monitoring means. In the normal operation mode in which the first level signal is applied, the first input terminal and the output terminal maintain the first level signal, and in the power abnormality mode in which the second level signal is applied from the power monitoring means through the second input terminal. And state information converting means for changing and setting the first level signal of the input terminal and the output terminal into the second level signal. The features.

The state information converting means may be configured to set the first input terminal to the first level state based on a predetermined enable signal and to shift the first level signal of the first input terminal to the output terminal.

In addition, between the power monitoring device and the state information converting means is characterized in that the one end is coupled to the pull-up resistor coupled to the power supply voltage.

That is, according to the above, a simple configuration of outputting the first level signal when the cause of reset is not caused by a power failure and outputting the second level signal when it is caused by a power failure is provided for the instantaneous power failure. Even the reset state can be detected.

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

1 is a diagram showing the internal configuration of a power reset detection device according to the present invention.

As shown in FIG. 1, the power reset detection apparatus 100 according to the present invention includes a power monitoring unit 110 and a power monitoring unit 110 that output a predetermined detection signal when the power supply voltage Vcc is less than or equal to a predetermined reference level. And a state information converting unit 120 configured to change its output information based on a detection signal applied from the same.

Here, when one end is grounded and the power supply voltage Vcc provided to the input terminal VCC is less than or equal to a predetermined reference level, for example, 2.7 V or less, the power monitoring unit 110 of the state information converting unit 120 may be configured. And transmits a "LOW" signal to the second input terminal MR. In this case, the power monitoring unit 110 may be implemented as, for example, a “DS1818 IC”. In addition, the power monitoring unit 110 is configured by coupling the first capacitor C1 for noise removal between the input terminal VCC and the ground GND.

In addition, a first pull-up resistor R1 is coupled between the power monitoring unit 110 and the state information converting unit 120. One end of the first resistor R1 is coupled to a signal path between an output terminal RES of the power monitoring unit 110 and a second input terminal MR of the state information conversion unit 120, and the other end thereof is a power supply voltage ( Vcc).

On the other hand, the state information converter 120 is configured such that the power supply voltage Vcc is provided to the power supply input terminal VCC and the first input terminal P0. The state information converting unit 120 shifts the input value of the first input terminal P0 to the output terminal Q0 based on a predetermined enable signal RESET and resets the first input terminal P0 to an initial state. Configured to set. In this case, the second pull-up resistor R2 is coupled between the enable signal RESET input terminal and the power supply voltage Vcc. In addition, the state information converting unit 120 operates in an initialization mode when power abnormality state information is applied from the second input terminal MR. That is, the state information conversion unit 120 changes the values of the first input terminal P0 and the first output terminal Q0 to "LOW" when the power supply abnormal state information is applied from the second input terminal MR. . At this time, the first input terminal P0 is automatically set to "LOW" by the second pull-up resistor R2. In addition, the state information converting unit 120 is configured to operate based on, for example, a 12 MHz clock CLK. A second capacitor C2 for noise removal is coupled between the power input terminal VCC and the ground CND. do. Here, the state information converter 120 may be implemented as a device such as a counter or flip-flop IC that can store predetermined data. For example, the state information converter 120 may be embodied as "74HC181 IC".

Next, the operation of the power reset detection device 100 having the above-described configuration will be described.

First, the power supply voltage Vcc of a predetermined level is provided to the power monitoring unit 110 and the state information converting unit 120 in a normal state. Accordingly, the "HIGH" signal is applied to the first input terminal P0 of the state information converter 120.

In the above state, the power reset detecting apparatus 100 according to the present invention operates in two modes: a reset due to a power failure and a reset due to a cause other than a power failure.

1. Power failure mode

The power monitor 110 provides a "HIGH" signal to the second input terminal MR of the state information converter 120 through the output terminal RST in a normal state. In this state, the power monitoring unit 110 checks whether the voltage level of the power voltage Vcc applied to the power input terminal VCC is 2.7 V or less, and determines that the current input voltage level is 2.7 V or less. ) Provides a "LOW" signal to the second input terminal MR of the state information converter 120. That is, the power monitoring unit 110 provides a "LOW" signal to the second input terminal MR of the state information conversion unit 120 even when the power is momentarily 2.7V or less.

The state information converting unit 120 is set to the initialization mode based on this when the "LOW" signal is applied from the power monitoring unit 110. That is, the state information converting unit 120 changes the values of the first input terminal P0 and the first output terminal Q0 to "LOW".

Thereafter, the communication device performs a reset function according to a power failure. That is, when the reset operation is performed due to a power failure, the output terminal Q0 of the state information converting unit 120 outputs a "LOW" signal.

Subsequently, the communication device applies a predetermined enable signal RESET for setting the state information converter 120 to the "normal operation mode" to the third input terminal PE. That is, when the "LOW" signal is applied to the third input terminal PE, the state information converting unit 120 sets the input value of the first input terminal P0 to "HIGH" and of the first input terminal P0. The value is shifted to the first output terminal Q0 to set the first output terminal Q0 to "HIGH".

2. Power failure mode

The power monitor 110 provides a "HIGH" signal to the second input terminal MR of the state information converter 120 through the output terminal RST in a normal state. That is, when a power failure does not occur, the "HIGH" signal is continuously applied to the second input terminal MR of the state information conversion unit 120, and the state information conversion unit 120 is in the "normal operation mode". That is, the first input terminal P0 and the first output terminal Q0 are in a state in which "HIGH" is maintained.

That is, when the communication device performs the reset function in the above state, the output terminal Q0 of the state information converting unit 120 is in a state of maintaining the "HIGH" signal.

Subsequently, the communication device applies a predetermined enable signal RESET for setting the state information converter 120 to the "normal operation mode" to the third input terminal PE. That is, when the "LOW" signal is applied to the third input terminal PE, the state information converting unit 120 sets the input value of the first input terminal P0 to "HIGH" and of the first input terminal P0. The value is shifted to the first output terminal Q0 to set the first output terminal Q0 to "HIGH".

On the other hand, the power reset detection device can be applied to a variety of communication equipment for performing a reset function for other abnormal conditions including a power failure. In this case, the communication device may be configured to display and output the power reset detection result information detected by the power reset detection apparatus through a predetermined display means. In addition, in the case of a communication device configured to manage a corresponding communication device in an external device such as a repeater, the server may transmit power reset detection information through a predetermined transmission means for communicating with the server.

That is, according to the above, a simple configuration of outputting the first level signal when the cause of reset is not caused by a power failure and outputting the second level signal when it is caused by a power failure is provided for the instantaneous power failure. Even the reset state can be detected.

Therefore, it is possible to more clearly detect the reset state due to a power failure, the communication equipment manager can more efficiently manage the communication equipment when applied to the communication equipment, as well as analyze the cause of the reset faster By taking appropriate measures, the quality of communication service can be improved.

On the other hand, the present invention is not limited to the above embodiment and can be carried out in various modifications within the scope without departing from the technical spirit of the present invention.

As described above, according to the present invention, when the cause of reset is not caused by power failure, the first level signal is output, and when it is caused by power failure, the power supply failure is instantaneously with a simple configuration of outputting the second level signal. Even the reset status for can be detected.

Claims (3)

Power monitoring means for outputting a first level signal to an output terminal when the power supply voltage applied to the input terminal is greater than or equal to the reference level, and outputting a second level signal to the output terminal if the power supply voltage applied to the input terminal is less than the reference level; In the normal operation mode having a first input coupled to the power supply voltage, a second input coupled to the power monitoring means and an output stage for information output, the first level signal is applied from the power monitoring means through the second input terminal. The first input terminal and the output terminal maintain the first level signal, and in the power failure mode in which the second level signal is applied from the power monitoring means through the second input terminal, the first level signal of the first input terminal and the output terminal is second level. And a status information converting means for changing and setting the signal. The method of claim 1, The state information converting means is configured to set the first input terminal to the first level state based on a predetermined enable signal and to shift the first level signal of the first input terminal to the output terminal. Device. The method according to claim 1 or 2, And a pull-up resistor having one end coupled to the power supply voltage between the power monitoring device and the state information converting means.

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