KR100479579B1 - Method and apparatus for resetting system - Google Patents

Abstract

The present invention is for resetting the system. In particular, by resetting the system using UART (Universal Asynchronous Receiver / Transmitter) character format without using SPI, the keyword is used even when SPI is malfunctioning or not working. Relates to a device and method for resetting the system by entering a command.

The present invention comprises the steps of inputting a command to the system by using input means; Inputting the input signal to a serial driver and a receiver through a serial port; Inputting a serial signal output from the serial receiver to an ayotite control unit and a reset control unit; And outputting a reset signal by using the signal input to the reset controller.

In the present invention, the operator directly applies a signal using a keyboard as an input device and resets the system by using the UART Character format, so that the system can be reset by using keywords when a malfunction or malfunction does not occur. have.

Description

Method and apparatus for system reset {Method and apparatus for resetting system}

The present invention is for resetting the system. In particular, by resetting the system using UART (Universal Asynchronous Receiver / Transmitter) character format without using SPI, the keyword is used even when SPI is malfunctioning or not working. Relates to a device and method for resetting the system by entering a command.

More specifically, the present invention inputs a command to the system using a keyboard of the system, wherein the input signal is inputted to the serial driver and the receiver through the serial port of the system and the serial signal output from the serial receiver is present. The present invention provides an apparatus and method for inputting an art control unit and a reset control unit and outputting a reset signal for resetting a system by regularly sampling a signal input to the reset control unit.

In general, the reset of a system is that a watch dog chip, which is a monitoring device that monitors the sieve oil, may apply a reset signal to the sieve oil after a certain time when the sieve oil does not periodically access the system. If a reset occurs while monitoring various status signals, a reset signal is applied to the sipeu through a reset control unit to reset the system.

In addition, a user may intentionally apply a status signal to the reset controller to apply a reset signal.

1 is a block diagram for applying a conventional system reset signal.

Looking at the configuration for resetting the system of Figure 1, the watchdog (10) and the watchdog (10) which is a monitoring device for monitoring the sipeil 11 and applies a reset signal to the sipeu after a predetermined time when the sipeil periodically does not access the system; And a reset control unit which monitors various signals of the system and, when a reset occurs, receives a signal from the state signal generator 12 and generates a state signal, and applies a reset signal to the sipe oil 11. 13) is configured to include.

In this case, the signal applied from the status code generator to the reset controller includes a status signal that the operator intentionally applies while monitoring the board of the system.

Hereinafter, the system reset operation of FIG. 1 will be described.

As shown in the figure, there are two cases in which the reset signal is applied to the sipeu.

First, when the watchdog 10 that monitors the system detects the signal of the sipe oil 11 and applies a reset signal to the sipe oil when the system is not accessed periodically.

Secondly, when the status signal generator 12 needs to reset the system signals while monitoring the status signals of the system, the reset signal is output through the reset control unit 13 through the reset controller 13. This is the case where it is applied to the sipe oil 11.

However, in the case of resetting the conventional system as described above, there is no problem in the function of the watchdog that monitors the signals of Sipeu, and there is no problem in the system even when the status signal applied to the reset control unit has no problem. There may be no response or malfunctions even though the system is normal.

In this case, the operator must restore the system to normal, and no commands, including resets, can be performed with the serial port (RS-232 PORT) currently being monitored by the operator.

Therefore, in order to solve the above problems, the operator directly applies a signal using the keyboard as an input device when the signal is not applied to the operator even though the system is malfunctioning or abnormal. The present invention provides an apparatus and method for resetting a system by converting and inputting it to a reset control unit.

The invention includes means for inputting a command to the system to reset the system; A serial driver and a receiver for receiving the input signal through a serial port; An uite control unit configured to receive signals output from the serial driver and the receiver; And a reset control unit for sampling the signals output from the serial driver and the receiver and outputting a reset signal of the system to the sipeil.

The present invention also includes the steps of inputting a command to the system using an input means to reset the system; Inputting the input signal to a serial driver and a receiver through a serial port; Inputting a serial signal output from the serial driver and the receiver into an ayite control unit and a reset control unit; And outputting a reset signal by using the signal input to the reset control unit.

In addition, the present invention comprises the steps of sampling or oversampling and storing the signals output from the serial driver and the receiver; And outputting a reset signal to the sipeu when it is a signal necessary for resetting by comparing the stored data with a signal already input.

In addition, the present invention is characterized by sampling using the received clock when the signal input to the reset control unit is synchronous, and over-sampling at a clock of about 8 or 16 times the baud rate when asynchronous, and then sampling the data. It is done.

Other objects and features of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, an apparatus and method for resetting a system according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram for applying a system reset signal of the present invention.

Looking at the configuration for resetting the system of Figure 2, a keyboard 20 for inputting commands and signals to the system, and a serial driver and receiver for receiving the input signal through the serial port 21 (RS-232port) ( 22) an RS232 driver / receiver, an uart controller 23 for receiving and transmitting serial signals (data) output from the serial driver and receiver, and a signal output from the serial driver and receiver. And a reset control unit 24 (Reset control logic) for sampling and outputting the reset signal of the system to the sipe oil (25).

3 is a block diagram illustrating in detail the reset controller 24 of FIG. 2.

As shown in the figure, serial data is input in a constant form according to synchronous and asynchronous, and the input signal is determined through a serial / parallel conversion unit 24a to determine whether to reset to parallel data form 24b (decision). logic), and when a reset is required, a system reset signal is applied to the sieve oil (25).

4 is a flowchart illustrating a detailed embodiment of the present invention in which a user may apply a reset signal using a keyboard or the like as an input device using FIGS. 2 and 3.

The user applies a command to the RS-232 PORT (FIG. 2, 21), which is a serial port of the system, using the keyboard K / B (FIG. 2, 20) as an input means. (Step 40).

The signal applied by the keyboard through the RS-232 PORT is input to an RS-232 driver and a driver / receiver (Figs. 2 and 22) (step 41).

The serial data output from the RS-232 driver and the receiver are input to the UART controller (FIGS. 2 and 23) and the reset controller (FIGS. 2 and 24). (Step 42).

In addition, the UART control unit outputs serial data to the RS-232 DRIVER / RECEIVER.

When the serial signal outputted from the RS-232 driver / receiver is asynchronous mode when it is input to the reset controller (Figs. 2 and 24) (Fig. 3), the baud rate is 8 Or 16 Oversampling is generated by generating a clock, and major data is sampled therein (steps 43, 44, 45, and 46).

On the other hand, when the serial signal outputted from the RS-232 driver / receiver is in the synchronous mode when inputted to the reset controller (FIGS. 2 and 24) (FIG. 3), data is received using the received clock without oversampling. Sample the. (Step 47,48).

Data in the asynchronous mode or the synchronous mode is sampled and stored in a register (not shown) in the reset control unit (Figs. 2 and 24) in accordance with the data length. (Step 49).

After sampling or oversampling and storing the signal output from the serial receiver 22 of FIG. 2, the reset signal is output to the receiver when the signal is necessary for resetting compared to a signal input by the user. (Steps 50, 51).

As described above, in the present invention, if the serial data outputted from the RS-232 driver / receiver to the UART controller is also received by the reset control unit, and regularly sampled and stored according to the synchronous / asynchronous state, the keyboard input satisfies a condition required by the user. It generates a reset signal and applies it to the sipe oil.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. 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.

According to the present invention, the operator directly applies a signal using a keyboard as an input device and resets the system using the UART Character format, so that the system can be reset by using a keyword in case of malfunction or inoperation. .

1 is a block diagram for applying a conventional system reset signal

2 is a block diagram for applying a system reset signal of the present invention.

3 is a block diagram illustrating in detail the reset controller 24 of FIG. 2.

4 is a flowchart illustrating a detailed embodiment of the present invention in which a user may apply a reset signal using a keyboard or the like as an input device using FIGS. 2 and 3.

Claims (4)

Means for entering a command into the system; A serial driver and a receiver for receiving the input signal through a serial port; An uite control unit configured to receive a serial signal output from the serial driver and the receiver; And a reset control unit for outputting the reset signal of the system to the sipeu when the serial signal output from the serial driver and the receiver is oversampled or sampled according to an asynchronous signal or a synchronous signal and corresponds to a condition set by the user. System reset device characterized in that. In resetting the system, Inputting a command to the system using input means; Inputting the input signal to a serial driver and a receiver through a serial port; Inputting a serial signal output from the serial driver and the receiver to an ayite control unit and a reset control unit; Sampling or oversampling and storing the signals output from the serial driver and the receiver; And outputting a reset signal to the sipeu when it is a signal necessary for resetting by comparing the stored data with a signal already input. The method of claim 2, wherein when the signal input to the reset control unit is synchronous, sampling is performed by using the received clock. When the signal is asynchronous, the sampling is performed after oversampling at a clock of about 8 or 16 times the baud rate. System reset method characterized in that. delete