KR20020085520A - Reset status of hardware - Google Patents

Abstract

PURPOSE: A device for resetting a remote hardware is provided to simultaneously transmit a reset signal withdrawn from a microprocessor of a communication system of a transmission part and a data signal transmitted from a link adapter to a reception part communication system via an OR gate when the reset signals are transmitted to the communication system of the reception part from the transmission part. CONSTITUTION: The microprocessor(300a) of a transmission part communication system(300) controls the data stream of the communication system and exchanges specific data. The link adapter(300b) receives the data signal and the reset signal via the microprocessor. The OR gate(300c) applies the data transmitted from the link adapter and the reset data transmitted from the microprocessor to the OR operation. A driver(300d) transmits the data transmitted from the OR gate to a reception part communication system(400).

Description

Remote Hardware Reset Device {RESET STATUS OF HARDWARE}

TECHNICAL FIELD The present invention relates to a communication system, and more particularly, to a remote hardware device in which a reset signal drawn from a microprocessor of a transmitting side communication system is transmitted to a receiving side communication system along with data transmitted from a link adapter.

In recent years, due to the rapid development of information and communication technology, even people who are far away can transmit and receive desired information using a communication device.

1 is a diagram showing a system for resetting hardware of a conventional receiving side communication system.

As shown in FIG. 1, the transmitting side communication system 100 and the receiving side communication system 200 may be connected to each other by an RS-422 transmission line to exchange information with each other.

The transmitting-side communication system 100 uses a microprocessor 100a and CO11 that exchange data with the outside through a peripheral device, and the predetermined data is extracted from a memory (not shown) under the control of the microprocessor 100a. Or a link adapter 100b for converting the received data into a format suitable for a communication environment, a 422 driver 100c for transmitting data transmitted from the link adapter 100b to the receiving side communication system 200, and a receiving side communication system. And a 422 receiver 100d for receiving predetermined data received from the 200 and transmitting the predetermined data to the link adapter 100b.

The receiving side communication system 200 uses CO11, and the microprocessor 100a of the transmitting side communication system 100 and the reset signal transmission line RF are connected to reset signals from the microprocessor 100a of the transmitting side communication system. It receives the link adapter 200a, the predetermined data received from the transmission-side communication system 100, and transmits through the 422 receiver 200b and the link adapter 200a for transmitting to the link adapter 200a And a 422 driver 100c for transmitting the data to the receiving side communication system 200.

Referring to a process of transmitting predetermined data from the transmitting side communication system 100 to the receiving side communication system 200, the predetermined data stored in the memory (not shown) by the microprocessor 100a is a link adapter. Is sent to 100b. Then, in the link adapter 100b, the data extracted from the memory (not shown) is transmitted to the receiving side communication system 200 through the 422 driver 100c.

However, when communicating through an asynchronous communication controller, that is, a UART (Universal Asynchronous Receiver / Transmitter) as described above, communication often occurs due to predetermined noise. In this case, in general, the microprocessor 100a of the transmitting side communication system 100 detects an abnormality of communication and transmits a predetermined reset signal to the link adapter 100b to initialize the transmitting side communication system 100. Let's do it. In this case, since the reception side communication system 200 cannot determine whether or not there is an abnormal communication by itself, it is possible to initialize the communication system by receiving a reset signal from the transmission side communication system 200.

However, when the transmitting side communication system 100 transmits a reset signal to the receiving side communication system 200, the reset signal is transmitted through a separate transmission line RF. Therefore, a problem arises in that a separate transmission line is provided.

In order to effectively solve the problems of the prior art described above, the present invention provides a reset signal that is output from a microprocessor of a transmitting communication system and a link adapter when a reset signal is transmitted from a transmitting communication system to a receiving communication system. It is an object of the present invention to provide a remote hardware reset device that simultaneously transmits a data signal to a receiving side communication system through an OR gate.

1 is a diagram showing an apparatus for resetting hardware of a conventional receiving side communication system.

2 is a view showing a remote hardware reset device according to an embodiment of the present invention.

3A is a diagram illustrating a communication signal of data transmitted from a transmitting side communication system to a receiving side communication system.

3B is a diagram illustrating a reset signal transmitted from a transmission side communication system when an abnormality occurs in communication.

<Explanation of symbols for the main parts of the drawings>

100, 300: Sender side communication system

200, 400: receiving side communication system

100a, 300a: microprocessor

100b, 200a, 300b, 400a: link adapter

100c, 200c, 300d, 400c: 422 driver

100d, 200b, 300e, 400b: 422 receiver

300c: OR gate

400d: Pulse check unit

400e: Reset signal generator

The present invention for achieving the above technical problem is to control the data flow of the communication system, a microprocessor for exchanging predetermined data;

A link adapter receiving a data signal and a reset signal through the microprocessor;

An OR gate for ORing data received from the link adapter and reset data received from the microprocessor;

And a driver for transmitting the data received through the OR gate to a receiving side communication system.

Hereinafter, with reference to the accompanying Figures 2 and 3 will be described in detail with respect to the remote hardware device according to the present invention.

As shown in Fig. 2, the transmission side communication system 300 of the remote hardware device according to the present invention includes a microprocessor 300a, a link adapter 300b, an OR gate 300c, a 422 driver 300d and a 422 receiver. 300e.

The microprocessor 300a controls the entire data flow of the computer system and exchanges data with the outside through a peripheral device.

The link adapter 300b uses CO11, and is suitable for an environment of a communication system that intends to transmit predetermined data drawn from a memory (not shown) or data received from the outside under the control of the microprocessor 300a. Convert to

The OR gate 300c ORs the reset signal transmitted by the microprocessor 300a and the data transmitted through the link adapter 300b.

The 422 driver 300d receives the data signal and the reset signal transmitted through the OR gate 300c and transmits the received data signal to the receiving side communication system 400.

The 422 receiver 300e receives predetermined data received from the outside and transmits the predetermined data to the link adapter 300b.

The receiving side communication system 400 of the present invention includes a link adapter 400a, a 422 receiver 400b, a 422 driver 400c, a pulse check unit 400d, and a reset signal generator 400e.

The link adapter 400a is a hardware component of a communication system connecting a communication system and a network, and uses CO11 provided by IMS.

The 422 receiver 400b receives predetermined data received from the outside and transmits the predetermined data to the link adapter 400a.

The 422 driver 400c receives a data signal and a reset signal transmitted through the link adapter 400a and transmits the received data signal and the reset signal to the receiving side communication system 400.

The pulse check unit 400d checks the data signal received through the 422 receiver 400b. In this case, the pulse checking unit 400d checks the high signal of the transmitted data signal and draws a trigger signal when there are 11 or more high signals.

The reset signal generator 400e generates a reset signal and transmits the reset signal to the link adapter 400a when the trigger signal drawn from the pulse checker 400d is received.

In the communication method of the remote hardware device according to the present invention, the predetermined data drawn from the memory (not shown) by the microprocessor 300a is transmitted to the link adapter 300b. Then, the link adapter 300b transmits a high signal of two clocks to inform the receiving communication system 400 that data transmission starts. Then, the LSB to MSB of the data to be transmitted are sequentially transmitted. When the transmission is completed, the signal is kept low for one clock. In this case, the data unit transmitted by the transmission side communication system 300 is 1 byte. Therefore, the high signal of the data signal transmitted from the transmitting side communication system 300 to the receiving side communication system 400 becomes 10 clocks or less.

However, in the above communication system, communication may fail due to noise or the like. In this case, the microprocessor 300a of the transmission-side communication system 300 typically detects an abnormality in communication and draws out a reset signal. In this case, the transmitting side communication system 300 initializes the communication system by the reset signal drawn from the microprocessor 300a.

Then, the microprocessor 300a extracts a reset signal to reset the receiving side communication system 400 and transmits the reset signal to the OR gate 300c.

FIG. 3A illustrates a normal data signal transmitted from the transmitting side communication system to the receiving side communication system, and FIG. 3B illustrates a reset signal transmitted from the transmitting side communication system to the receiving side communication system when a communication error occurs. .

As shown in FIG. 3A, when the transmitting side communication system 300 transmits data to the receiving side communication system 400, two clocks are turned high to notify the receiving side communication system 300 that data transmission is started. After transmitting the signal, the data signal is transmitted. When one byte of data transfer is completed, a low signal of one clock is transmitted. In this case, the data signal is transmitted 8 bits, that is, eight high signals. At this time, since a high signal of two clocks is drawn to indicate the start of data transmission, one unit of the data signal transmitted to the transmission-side communication system 300 is 10 clocks or less.

As shown in FIG. 3B, the microprocessor 300a of the transmitting side communication system 300 generates a reset signal consisting of a high signal of at least 11 clocks or more to reset the receiving side communication system 400. The data signal transmitted through the adapter 300b and the reset signal are ORed by the OR gate 300c to become a high signal of 11 clocks or more. In this case, when the reset signal is transmitted to the receiving side communication system 400, the receiving side communication system 400 detects the reset signal received through the 422 receiver 400b by the pulse checking unit 400d.

The pulse checking unit 400d generates a trigger signal immediately after detecting the reset signal. The trigger signal is transmitted to the reset signal generator 400e. In this case, the reset signal generator 400e receives a trigger signal and generates a reset signal. Then, the reset signal is applied to the link adapter 400a, and the receiving communication system 400 receiving the reset signal is initialized.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. . Therefore, the true technical protection scope of the present invention will be defined by the appended claims technical spirit.

According to the remote hardware device according to the present invention as described above, it is not necessary to provide a separate transmission line for the reset signal between the transmitting communication system and the receiving communication system, it is possible to easily reset the hardware of the receiving communication system. .

Claims (4)

A microprocessor for controlling the data flow of the communication system and exchanging predetermined data; A link adapter receiving a data signal and a reset signal through the microprocessor; An OR gate for ORing data received from the link adapter and reset data received from the microprocessor; And a driver for transmitting data received through the OR gate to a receiving side communication system. The system of claim 1, wherein the receiving side communication system A link adapter for converting a signal received from a transmitting communication system into a form suitable for a communication environment of the receiving communication system; A receiver for transmitting a signal transmitted from the transmission side communication system to the link adapter; A driver for receiving a predetermined signal from the link adapter and transmitting the predetermined signal to a transmission side communication system; A pulse checking unit for detecting a reset signal from the data signal transmitted through the receiver and extracting a trigger signal; And a reset signal generator for receiving a trigger signal from the pulse checker and generating a reset signal. The method of claim 2, wherein the reset signal is And a high signal of at least 11 clocks. The method according to claim 1 or 2, Wherein said driver and receiver are 422 drivers and 422 receivers.