KR100202427B1 - Method for setting factory control mode using by remote control pin in microprocessor - Google Patents

Abstract

The present invention relates to a method for setting a factory adjustment mode using a remote control pin which transmits predetermined data to a remote control pin formed in the microcomputer and stops the input / output operation of the bus of the microcomputer. The test system comprising a microcomputer 10 for controlling a plurality of devices through a bus, and a controller 20 connected through the microcomputer 10 and the connector 14 to control the microcomputer 10. In this case, the controller 20 applies a bus stop code signal to the remote control pin of the microcomputer 10 through the connector 14 and input / output operations of the data bus and the clock bus by the microcomputer 10. It characterized in that for stopping.

Description

How to set factory adjustment mode using remote control pin

The present invention relates to a method of setting a factory adjustment mode using a remote control pin, and more particularly, to transmit predetermined data to a remote control pin formed in a microcomputer to stop input / output operations of the microcomputer bus. A factory control mode setting method using a remote control pin is provided.

Normally, a microcomputer employed in various devices including a television to control the overall device has a two-way communication with a controller installed in a factory in order to check the operation state of the microcomputer or record a specific program in the microcomputer. Is doing.

In this case, before the microcomputer and the controller can perform bidirectional communication, the input / output data transmission between the data bus and the clock bus connected to the microcomputer has to be stopped. As shown in FIG. 1, the microcomputer 10 and the controller 20 ) Is connected via the connector 14, the controller 20 to the predetermined level signal 'high' level signal or 'low' level signal to the bus stop terminal (BUS-STOP PIN) of the microcomputer 10 When transmitting, the microcomputer 10 stops the input / output data transmission of each bus based on the level signal input through the bus stop stage.

However, in the above case, if the connector 14 is old or chattering occurs in the process of connecting the microcomputer 10 and the connector 14 of the controller 20, the connection of the connector 14 is not normally performed. When the controller 20 does not apply the predetermined level signal to the bus stop terminal of the microcomputer 10, the predetermined level signal is applied to the bus stop terminal of the microcomputer 10 so that the microcomputer 10 malfunctions. It is difficult to expect accurate data transmission between the microcomputer 10 and the controller 20.

Accordingly, the present invention was created in view of the above circumstances, and a factory using a remote control pin capable of transmitting predetermined data to a remote control pin formed in the microcomputer to stop input / output operation of the bus of the microcomputer. The purpose is to provide a method of setting the adjustment mode.

According to an embodiment of the present invention for realizing the above object, a microcomputer for controlling a plurality of devices through a data bus and a clock bus, and a controller connected to the microcomputer and a connector to control the microcomputer A test system, comprising: a remote control pin for applying a bus stop code signal to the remote control pin of the microcomputer through the connector and stopping input / output operations of the data bus and the clock bus by the microcomputer; Provided is a method for setting a factory adjustment mode.

According to the present invention having the above-described configuration, the controller applies a predetermined signal by using a remote control pin without using the bus stop pin formed on the microcomputer to input / output data and a clock bus through the microcomputer. Output data transmission will be interrupted.

1 is a block diagram of a device to which a factory adjustment mode method using a conventional bus stop pin is applied;

2 is a block diagram of an apparatus to which a factory adjustment mode setting method using a remote control pin is applied according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: microcomputer, 12: device,

14: connector, 20: controller,

22: infrared signal transmitter, 24: infrared signal receiver.

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

FIG. 2 is a block diagram of a device to which a factory adjustment mode setting method using a remote control pin is applied according to an embodiment of the present invention. In FIG. 10, reference numeral 10 denotes a bus via a remote control pin (RC). When the stop code is input, the microbus controls the data bus and the clock bus to stop input / output operations of the data bus and the clock bus.

Reference numeral 12 is a device connected to the data bus and the clock bus to receive a control signal from the microcomputer 10 through the data bus and the clock bus, and to perform a unique operation based on the control signal. Is a connector for connecting the microcomputer 10 and the controller 20, and 20 is a controller for performing a control operation for the microcomputer 10.

In the present invention, the controller 20 applies a bus stop code directly to the remote control pin of the microcomputer 10 or stops the input / output operations of the data bus and the clock bus of the microcomputer 10, or applies an infrared signal. Apply a bus stop code to the remote control pin.

In the figure, reference numeral 22 denotes an infrared signal transmitter which transmits an infrared signal corresponding to a bus stop code, for example, '01010101 (55)' under the control of the controller 22, and 24 receives the infrared signal and The infrared signal receiving unit converts an infrared signal into a code signal corresponding thereto and inputs it to the recoat control pin of the microcomputer 10.

Next, a factory adjustment mode setting method using the remote control pin according to an embodiment of the present invention having the above configuration will be described in detail.

In the first method, when the controller 20 directly applies a bus stop code, for example, '10101010 (AA)' to the remote control pin while the connector 14 is connected, the microcomputer 10 has the same code. After determining that the signal is continuously input, the code signal is recognized as a bus stop code, and the input / output operations of the data bus and the clock bus are stopped.

In the second method, the controller 20 applies a predetermined control signal to the infrared signal transmitter 22 so that the infrared signal corresponding to the bus stop code, for example, '01010101 (55)' is transmitted from the infrared signal transmitter 22. When the signal is transmitted, the infrared signal transmitted from the infrared signal transmitter 22 is received by the infrared signal receiver 24, converted into a code signal corresponding thereto, and then applied to the remote control pin of the microcomputer 10. .

Accordingly, the microcomputer 10 determines a state in which the same code signal is continuously input through the remote control pin, recognizes the code signal as a bus stop code, and stops input / output operations of the data bus and the clock bus. .

In the third method, the controller 20 applies a predetermined control signal to the infrared signal transmitter 22, and the infrared signal transmitter 22 uses a bus stop code, for example, an infrared signal corresponding to '01010101 (55)'. Is transmitted, the infrared signal transmitted from the infrared signal transmitter 22 is received by the infrared signal receiver 24, converted into a code signal corresponding thereto, and then applied to the remote control pin of the microcomputer 10.

Thereafter, when the connector 14 is connected, the controller 20 directly applies a bus stop code, for example, '10101010 (AA)' to the remote control pin, so that the microcomputer 10 applies the remote control pin. When '01010101 (55)' is input through and then '10101010 (AA)' is sequentially input, the state is recognized as a bus stop code input state and the input / output operations of the data bus and the clock bus are stopped.

As described above, according to the method for setting the factory adjustment mode using the remote control pin according to the embodiment of the present invention, the controller does not use the bus stop pin configured separately for the microcomputer, but uses the remote control pin. By inputting, the controller and the microcomputer are chattering or error occurs while the connector is connected through the connector, and the error can be prevented during the transmission of the bus stop code.

Claims (3)

The microcomputer 10 controls a plurality of devices through a data bus and a clock bus, and a controller 20 connected through the microcomputer 10 and the connector 14 to control the microcomputer 10. In the configured test system, The controller 20 applies a bus stop code signal to the remote control pin of the microcomputer 10 through the connector 14 to stop input / output operations of the data bus and the clock bus by the microcomputer 10. Factory adjustment mode setting method using a remote control pin, characterized in that. The infrared transmitter according to claim 1, wherein after the controller 20 receives the bus stop code signal through the remote control pin, the infrared transmitter according to the bus stop signal having a different code from the infrared signal receiver 24 is used. 22) A method for setting a factory adjustment mode using a remote control pin, characterized in that the input / output operations of the data bus and the clock bus are interrupted when further authorized. The method of claim 1, wherein the microcomputer 10 recognizes the code data as a bus stop code signal only when continuous code data is input through the remote control pin. .

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