KR20000010151A - Error managing method of a television micom - Google Patents

Abstract

PURPOSE: A method of a TV micom for error managing is provided to enhance the effectiveness in fixing TV as the service time for fixing and handling TV is reduced and reduce the time in developing new products as the time needed in fixing the error has been reduced. CONSTITUTION: The method of a TV micom(110) comprises steps of storing the control data of the micom(110) at the EEPROM; sensing whether there is error in operation or not; correcting the false operation of the TV system by inputting the control data into the micom (110) when the TV system is in false operation; carrying out a timer interrupt which is counted with a certain interval; initializing the interval number ratio of the timer at the time of normal operation of the TV; deciding whether the interval number ratio of the timer has exceeded or not; and deciding the TV operation to be wrong if the number ratio of the timer has exceeded.

Description

TV Micom error handling method

The present invention relates to a TV microcomputer, and more particularly to a method for handling errors of the TV and microcomputer.

As information technology progresses, TV makers are continuously developing new products of TV systems with various functions in order to meet various and advanced needs of general consumers. As a result, the product's life cycle is shortened, and eventually TV makers are attempting to standardize circuits and software to shorten the development timeframe, further reducing the release cycle of new products.

A schematic diagram of a general TV system is shown in FIG. 1. Referring to the block diagram of Figure 1 will be described the operation of the TV system.

First, a signal input through the antenna 11 or the cable box 12 is applied to the tuner unit 13. This signal is converted into a baseband signal (CVBS) and an audio signal through the intermediate wave converter 14 and input to the A / V switch unit 15. Then, any one signal selected by the user among the external input signal and the TV signal is output from the A / V switch unit 15.

Of the signals output from the A / V switch section 15, the video signal is applied to the video processing and deflection control section 16, and the audio signal is applied to the audio processing section 24, respectively.

The video processing and deflection control unit 16 compensates the video signal applied by the A / V switch unit 15 with reference to the image data set by the user, and references the deflection data set by the TV manufacturer to RGB. It applies to the matrix part 17. The image signal applied to the RGB matrix unit 17 is implemented as an image by the CPT 18 and provided to the user.

The voice processor 24 compensates the voice signal by applying the voice signal applied from the A / V switch unit 15 to the audio amplifier 25 by referring to the volume and other voice adjustment data set by the user. . The audio signal applied to the audio amplifier 25 is output through the speaker 26 and delivered to the user. As a result, the user can watch the video and the audio at the same time.

In this case, the user manipulates the remote controller 20 or a key input pad (local key: 20 ') attached to the front of the TV to change or control additional functions of the TV and the state of the TV. The command signal corresponding to the desired function is transmitted to the TV microcomputer 21. Then, the TV microcomputer 21 receiving the command signal controls the tuner unit 13, the A / V switch unit 15, the video processing and deflection control unit 16, and the audio processing unit 24, respectively. The result corresponding to the command signal, that is, the result of the function desired by the user, is output through the CPT 18 and the left and right speakers 26.

The TV micom 21 stores various data including video data and audio data reset by a command signal input by the remote controller 20 or the local key 20 'in the EEPROM 22, Even if the main power supply 23 is cut off, that is, the power is turned off, the data set by the user is maintained.

By the way, the conventional TV has a problem that the countermeasure against the malfunction occurring in the development process is not complete.

The reason is that the conventional TV is released by correcting the error value generated during its development process as much as possible, because the error value may not be completely corrected during the development process. Thus, due to the uncorrected error, the manufacturer may be asked for TV after-sales service or a refund request from the consumer. In addition, the conventional TV has a problem that once released, it is not easy to correct the error of the TV microcom.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problem, and an object of the present invention is to make it possible to modify error values of TVs that occur during the development of TVs as much as possible and to easily correct errors of TVs that are generated after being released.

1 is a block diagram schematically showing a typical TV system.

Figure 2 is a block diagram schematically showing a TV driving circuit of the present invention.

3 is a flowchart illustrating an error correction method according to the present invention;

4A and 4B are flow charts illustrating the present invention's detection and correction method for watchdog errors.

5A and 5B are flow charts illustrating the present invention's detection and correction method for latch-up errors.

6 is a flowchart illustrating a detection and correction method of the present invention in a case where data stored in an IC chip is changed by an external factor.

7 is a flowchart illustrating a detection and correction method of the present invention in a case where no carrier data occurs in an IC chip.

Explanation of symbols for main parts of the drawings

100: remote control 100 ': local key (key pad)

110: microcomputer 120: power unit

130: nonvolatile memory (EEPROM) 140 display unit

200: TV drive unit

A feature of the present invention is to check all the operating state of the TV system and the operating state of the microcomputer, and to store the video and audio data according to the operating state in the EEPROM, when the error occurs later, the video and audio data stored in the EEPROM By duplicating to the microcomputer, all the error values of the TV are corrected.

The driving circuit of the TV system according to the present invention includes an input unit (100, 100 ') for generating a control signal, a microcomputer (200) for controlling the operation of the TV system by generating data corresponding to the control signal, and a microcomputer and data. And a display unit 140 for monitoring the data value.

The input unit generates a control signal by manipulation of a TV user as one of the remote controller 100 or the key input pad 100 ′. That is, when the TV user presses various buttons configured on the remote controller 100 or the key input pad 100 ′, a control signal corresponding to a function set to the buttons is generated.

The microcomputer 110 receives a control signal generated from the input unit and generates data corresponding to the control signal. The microcomputer 110 inputs / outputs the data to the nonvolatile memory 130 and controls various operations of the TV system 200. Since the TV system 200 is the same as the structure of a conventional TV including a tuner unit and an A / V switch unit, a detailed description thereof will be omitted.

The nonvolatile memory 130 is composed of an EEPROM (Electronic Erased Program ROM). The EEPROM does not erase the stored information even when the power is turned off like the general ROM (Read Only Memory), but unlike the ROM, the EEPROM has the advantage of freely deleting and updating the stored information.

The display unit 140 displays information stored in the nonvolatile memory 130, that is, data to a user or a developer. The display unit 140 may be replaced with an OSD function of the TV system 200, but may be configured as an EEPROM data controller having a separate display device attached thereto. In the present invention, if the display unit 140 is to be replaced by the OSD function of the TV system 200, the content of the nonvolatile memory 130 is displayed so that a general user cannot search the contents of the nonvolatile memory 130. The security must be increased by setting a predetermined encryption key for the function.

The error correction method of the TV system according to the present invention comprises the steps of storing the data of the microcomputer in the EEPROM when the TV system operates normally as shown in the flowchart of FIG. 3, and detecting the malfunction of the TV system ( s100) and correcting the malfunction of the TV by inputting control data previously stored in the EEPROM to the microcomputer when the TV malfunctions (S300). In addition, the error correction method of the TV system according to the present invention may further include a step of forcibly initializing the microcomputer by operating a hardware reset port when the TV system malfunctions (s400 in FIG. 5). At this time, forcibly initializing the microcomputer means to reset the microcomputer.

Before describing the TV system error correction method of the present invention will be described a problem that occurs during the development of the TV driving circuit and a method for solving the problem.

The first problem that occurs during the development of the TV drive circuit is the instability of the program embedded in the microcomputer, which is found during the initial development of the microcomputer, that is, the incomplete part of the software. Indefinite loops in a program caused by unexpected parts of a developer can cause the microcomputer to stop working. In this case, the driving circuit must be restarted by forcibly resetting the microcomputer.

The method for solving the above-described first problem is the same as the flowchart shown in FIGS. 4A and 4B. The present invention uses the watchdog timer function in which the timer interrupt flow chart of FIG. 4A and the main routine of FIG. 4B are performed together to detect the first problem. The main routine periodically sets the Watchdog counter to '0' (s140), and the timer interrupt continues to increase the Watchdog counter (s110). If an infinite loop occurs in the program of the microcomputer, the microcomputer stops operating and the watchdog counter cannot be initialized. Therefore, the watchdog counter value will continuously increase. If the watchdog counter value exceeds a predetermined reference value (s120), an error code corresponding to this case is stored in the EEPROM (s130).

The second problem is the miscommunication of the microcomputer due to lack of durability of each element of the driving circuit at the beginning of development, that is, the latch-up error. In this case, special functions that use timer interrupts may not be available. In other words, the program of the microcomputer is normally executed, but the timer interrupt does not operate so that the remote control input for performing the special functions of the microcomputer may not be performed. As a result, the TV system operates normally, no matter how the user presses a button on the remote control, the TV system is not controlled.

The solution of this second problem is as shown in Figs. 5a and 5b. The present invention simultaneously performs the flowchart of FIG. 5A and the flowchart of FIG. 5B to solve the second problem described above. The timer interrupt periodically sets the counter value to '0' (s150), and periodically increases the counter value in the main routine (s160). If the timer interrupt does not operate, the counter value is not set to '0' and the counter value exceeds a predetermined reference value. When the counter value exceeds a predetermined reference value (s170), the driving circuit of the present invention stores the error code corresponding to this case in the EEPROM (s130). Then, the microcomputer is reset by applying a signal to the hardware reset port in order to artificially initialize the timer interrupt (S400).

The third problem is that various IC chips of the driving circuit are reset by the electrostatic discharge shock. In this case, when the microcomputer drives the TV system by reading various data of the IC chip, the TV system does not operate normally.

In the method for solving the above-described third problem, as shown in the flowchart of FIG. 6, the data stored in the IC chip is read periodically (S180) and the change of the data is detected (S190). Thus, if the data stored in the IC chip has changed, the present invention determines that the IC chip has been reset, and stores the error code at this time in the EEPROM (s130).

The fourth problem is that the transfer operation between the microcomputer and various IC chips is not performed normally due to the instability of the driving circuit itself. Accordingly, when the microcomputer applies control data to each IC chip, an IC chip to which the control data is applied may not respond. TV's microcomputer and various IC chips exchange data in IIc. However, when an error occurs in the IC chip, data cannot be input / output through the IIc communication port. Therefore, the microcomputer cannot control the TV system normally.

Here's how to solve the fourth problem: First, after defining an error code for each IC chip (s180 '), the microcomputer applies control data to each IC chip (s180 "). Thus, whether or not the carrier data is output to each IC chip is detected (s190 '), and the error code defined in the IC chip that does not output the carrier data is stored in the EEPROM (s130).

When all four problems described above are solved, all the error codes corresponding to these problems are stored in the EEPROM 130 embedded in the driving circuit of the present invention. The error correction method of the TV system according to the present invention is to detect and correct a malfunction of the TV by using the error code stored in the EEPROM (130).

If the TV user asks the manufacturer or the service provider for the after-sales service of the TV, the technician who performs the after-sales service reads the error code stored in the EEPROM 130 embedded in the TV's driving circuit. Read it. Then, appropriate measures are taken to correct the error.

In this case, the error code stored in the EEPROM may be read using the OSD function built in the TV or using an EEPROM data controller having a separate display window. When using the OSD function embedded in the TV to read the error code, a predetermined encryption key may be set in the TV driving circuit by the manufacturer in order to maintain security.

The present invention has the effect that the technician can easily grasp the problem caused by the TV during the development of the TV or after-sales service. Therefore, during the development of the TV, the time for correcting the error is shortened, so that not only the new product development period is shortened, but also the completion time of the after-sales service is shortened, thereby effectively repairing the TV.

Claims (4)

In the driving circuit for operating the TV system by installing a microcomputer to store control data in the EEPROM, Storing control data of the microcomputer in the EEPROM during normal operation of the TV system; Detecting whether the TV system is malfunctioning; And correcting a malfunction of the TV system by inputting control data previously stored in the EEPROM to the microcomputer when the TV system malfunctions. The method of claim 1, wherein detecting whether the TV is malfunctioning Executing a timer interrupt that is counted at a predetermined period; Initializing the timer interrupt value during normal operation of the TV; Determining whether the timer interrupt value is exceeded with respect to a predetermined reference value; And, And determining the operation of the TV as a malfunction when the timer interrupt value exceeds a predetermined reference value. The method of claim 1, wherein detecting whether the TV is malfunctioning Reading internal data of a predetermined IC chip installed in the driving circuit of the TV; Comparing the internal data with control data previously stored in the EEPROM and corresponding to internal data of the IC chip; And determining the TV as a malfunction when the values of the internal data and the control data are different. The method of claim 1, wherein correcting the malfunction of the television comprises: Initializing internal data of the IC chip; And, And replacing the internal data of the IC chip with control data corresponding to the internal data of the IC chip stored in the EEPROM.