JPH07281963A - Inter-device connection system - Google Patents

Abstract

PURPOSE:To markedly increase the distance between the devices connected together by using an optical fiber, etc., for connection of these devices. CONSTITUTION:A peripheral equipment side device 1 contains a peripheral equipment control part 6 which controls the drive of a data bus interface 5a and an optical transmission/reception part 7a to control the transmission/ reception of the transfer data and also monitors the state of a state line interface 4 to recognize the state of a peripheral equipment 13 and to sends the state of the equipment 13 to a computer main body 14 as the state information. This device 1 is placed at the side of the equipment 13. Meanwhile a main body side device 9 is placed at the side of the main body 14 and contains a state holding part 12 which drives a state line 2b base on a control signal, a main body control part 10 which outputs a control signal to the part 12 based on the state information, and a deciding part 11 which sends the received transfer data to a data bus interface 5b and sends the received state information to the part 10 respectively.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device-to-device connection system suitable for application to device-to-device connection in a system configuration in which a computer main body monitors the status of peripheral devices via a status line, and more particularly to serial / parallel mutual connection. The present invention relates to an inter-device connection method that enables connection by an optical fiber or the like that requires conversion and realizes a great extension of connection distance.

[0002]

2. Description of the Related Art A method for checking the state of an input / output device side (hereinafter referred to as a device side) on a computer main body side (hereinafter referred to as a main body side) in an inter-device connection system applied to a connection between a computer main body and an input / output device As a method, the main body side first issues a command to the device side and checks by the response of the device side to the command, and the device side always outputs the state on the interface, and the main body side appropriately outputs the state of the device side. There are ways to be able to find out.

In the latter method, each time the state of the device changes, the state is immediately transmitted to the main body side, and the main body side can also know the state of the device side when it is convenient. It will be possible.

Further, when a plurality of devices are connected, the device to be investigated is designated by an address line or the like, and the designated device side outputs the state.

On the other hand, in recent years, connection between devices has been said to be made by an optical fiber or the like which is not easily affected by disturbance. The purpose of this is to dramatically extend the connection distance without degrading the performance by changing the data transfer conventionally performed in parallel to high-speed serial transfer using an optical fiber or the like.

However, in data transmission / reception using an optical fiber or the like, it is necessary to convert parallel data into serial data once for transmission and reception, and then to convert back to original parallel data. In a system that uses a connection method that directly outputs changes in the status of various devices as a status line and examines it directly, it is necessary to perform data transfer and status information transfer on a single line. Is very difficult. The state on the device side here indicates the presence or absence of media, the type, the operating state on the device side, and the like.

[0007]

As described above, in the inter-device connection method applied to the system in which the conventional computer main body monitors the state of the peripheral device through the state line, serial / parallel conversion, etc. It is difficult to connect with an optical fiber or the like that requires the connection, and thus it has been impossible to realize a dramatic extension of the connection distance.

The present invention has been made in view of the above circumstances, and in a device-to-device connection system applied to a system in which a computer main body monitors the state of peripheral devices via a status line, serial / parallel mutual connection is performed. An object of the present invention is to provide an inter-device connection method that enables connection by an optical fiber or the like that requires conversion and can dramatically extend the connection distance.

[0009]

According to the present invention, a computer main body and peripheral devices are connected by a predetermined number of status lines and data lines, and the computer main body recognizes the state of the peripheral devices via these status lines. In the system-to-device connection method of the system configuration, a computer main body side device that performs serial data transfer with the peripheral device side between the computer main body and peripheral devices and a peripheral device side device that performs serial data transfer with the computer main body side are provided. The peripheral device side device includes a status line interface unit connected to the status line of the peripheral device, a data bus interface unit connected to the data line of the peripheral device, and parallel / serial mutual conversion of data. A transmission / reception means for transmitting / receiving data to / from the computer main body, a data bus interface means and a transmission / reception means are driven. Control means for controlling transmission / reception of transfer data between the computer main body and peripheral equipment, monitoring the status line interface means, recognizing a change in the status of the peripheral equipment, and transmitting as status information to the computer main body And a transmission / reception means for performing parallel / serial mutual conversion of data and transmission / reception of data to / from the peripheral device, and a state line of the computer body connected to the state machine based on a control signal. For holding the state until the next control signal is received, data bus interface means connected to the data line of the computer main body, and controlling the state holding means according to the state information. Control means for outputting a signal and status information indicating whether the data received by the transmitting / receiving means is the transfer data or not. To determine the Runoka,
And a determination means for transmitting the transfer data to the data bus interface means when the determination result is transfer data, and transmitting the status information to the control means when the determination result is status information, The transmitting and receiving means of the peripheral device side device and the transmitting and receiving means of the computer main body side device are connected by a serial data transmission path that can extend a predetermined distance,
It is characterized in that the status information of the peripheral device is transmitted to the computer body and the transfer data is transmitted and received between the computer body and the peripheral device.

Further, the present invention is characterized in that the serial data transmission path is composed of an optical fiber. Further, the present invention is characterized in that the serial data transmission path is constituted by wireless communication.

Further, according to the present invention, an apparatus having a system structure in which a computer main body and peripheral devices are connected by a predetermined number of status lines and data lines, and the computer main body recognizes the status of the peripheral devices via these status lines. In the inter-connection method, the computer main body side device that performs serial data transfer with the peripheral device side and the peripheral device side device that performs serial data transfer with the computer main body side are interposed between the computer main body and the peripheral device, and the peripheral device In the device side device, a status line interface means connected to the status line of the peripheral device, a data bus interface means connected to the data line of the peripheral device, parallel / serial mutual conversion of data, and the computer body. The transmission / reception means for transmitting / receiving the data, and the drive control of the data bus interface means and the transmission / reception means. Controlling transmission / reception of transfer data between the computer main body and peripheral equipment, monitoring the status line interface means, recognizing a change in the status of the peripheral equipment, and transmitting as status information to the computer main body. It is characterized by being prepared.

Further, according to the present invention, the computer main unit and the peripheral device are connected by a predetermined number of status lines and data lines, and the computer main unit recognizes the state of the peripheral device through these status lines. In the inter-connection method, a computer main body side device that performs serial data transfer with the peripheral device side and a peripheral device side device that performs serial data transfer with the computer main body side are interposed between the computer main body and the peripheral device, and the computer The main body side device is connected to a transmitting / receiving means for performing parallel / serial mutual conversion of data and transmitting / receiving data to / from the peripheral device, and is connected to a status line of the computer main body, and drives the status line based on a control signal, And a state holding means for holding the state until the next control signal is received, and a data bus in connected to the data line of the computer body. A face means, a control means for outputting a control signal to the state holding means in accordance with the state information transmitted from the peripheral device, and a judgment as to whether the data received by the transmitting / receiving means is transfer data or state information. A judgment means for transmitting the transfer data to the data bus interface means when the judgment result is transfer data and for transmitting the status information to the control means when the judgment result is the status information. It is characterized by

[0013]

According to the structure of the present invention, the control means of the peripheral device side apparatus recognizes the change in the state of the peripheral equipment by monitoring the status line interface means. When a change is recognized in the state of the peripheral device, the control means transmits the recognition result as state information to the main body side device via the transmitting / receiving means. On the other hand, when no change is recognized in the state of the peripheral device, the control means drives and controls the data bus interface means and the transmission / reception means to control transmission / reception of transfer data between the computer main body and the peripheral device, which is a normal process. To do.

Further, the determining means of the main body side device determines whether the data from the peripheral equipment side device received by the transmitting / receiving means is transfer data between the computer main body and the peripheral equipment or status information indicating the state of the peripheral equipment. If the judgment result is status information, the status information is notified to the control means, and if it is transfer data, the transfer data is transmitted to the data bus interface means.

Upon receiving the notification of the status information, the control means outputs a control signal based on the status information to the status holding means. Then, the state holding means that has received the control signal from the control means drives and controls the state line connected to the computer main body based on this control signal, and holds this state until the next control signal is received. On the other hand, the data bus interface means which has received the transfer data from the judging means transmits this transfer data to the computer main body.

The transmission of the transfer data from the computer main body to the peripheral equipment is performed via the data bus interface means of the main body side device, the transmitting / receiving means, the transmitting / receiving means of the peripheral equipment side device, and the transmitting / receiving means.

As a result, the status information output from the status line of the peripheral device is always reproduced in the status line of the computer main body without affecting the transmission / reception of the transfer data between the computer main body and the peripheral device. The computer main body can appropriately recognize the state of the peripheral device. Along with this, it becomes possible to connect the devices with an optical fiber or the like, and it is possible to greatly extend the distance.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing a schematic configuration of an inter-device connection system according to the embodiment. The peripheral device-side device 1 includes a status line interface 4, a data bus interface 5a, a peripheral device-side control unit 6, and an optical transceiver 7a. The status line interface 4 is a status line 2 of the peripheral device 13.
a and the data bus interface 5a are connected to the data line 3a of the peripheral device 13, respectively.

The main body side device 9 includes an optical transmitter / receiver 7b,
The main body side control unit 10, the determination unit 11, the state holding unit 12, and the data bus interface 5b are provided, and the state holding unit 12 is the state line 2b of the computer main body 14 and the data bus interface 5b is the data line of the computer main body 14. 3b, respectively.

Then, the peripheral device side device 1 and the main body side device 9
Are connected to each other via an optical fiber 8. The optical transmission / reception units 7a-7b perform serial / parallel mutual conversion, are connected to the optical fiber 8 and the in-device data bus, and perform transmission / reception of transfer data and status information, superposition of commands / data, separation, and the like. In addition, the peripheral device side control unit 6 controls the entire peripheral device side device 1, and the status line interface 4
The output of the status line 2a is monitored via the, and a command to that effect is added as status information and transmitted to the optical transceiver 7a.

The determination unit 6 of the apparatus 9 on the main body side determines the state of the peripheral device 13 by the command added to the data transmitted from the apparatus 1 on the peripheral device side via the optical transmission / reception unit 7b. It is determined whether it is the state information or the transfer data shown, and if it is the transfer data, it is transmitted to the data bus interface 5b, and if it is the state information, the main body side control unit 10 is notified. The state holding unit 12 holds instruction information from the main body side control unit 10 and drives the main body side state line according to the information.

The main body side control unit 8 controls the entire main body side device 9, receives the status information from the peripheral device side device 1 according to the notification from the determination unit 6, and the status holding unit 12 as instruction information.
Output an instruction signal to.

Next, the operation of the embodiment will be described. The peripheral device 13 is connected to the peripheral device side device 1, and the state of the peripheral device 13 is immediately notified to the peripheral device side device 1 by the status line 2a when the state changes, so the peripheral device side control unit 6 The computer main body 14 monitors the status of the peripheral device 13 via the status line interface 4 more frequently than it checks the status line 2b. Then, if there is a change in the state of the peripheral device 13, a command to that effect is added as state information and transmitted to the main body side device 9 via the optical transmission / reception unit 7a.

The main unit device 9 receives the data and the added command from the optical transmission / reception unit 7b through the optical fiber 8, and when the determination unit 6 determines that the status information is received, the main unit control unit 10 receives the status information. Notice. The main body control unit 10 recognizes the state of the peripheral device 13 by receiving the instruction information, and outputs the instruction information to the state holding unit 12 in the same manner as the state line 2a of the peripheral device 13. Upon receiving this instruction information, the state holding unit 12 drives the state line 2b to the computer main body 14 as instructed to drive the computer main body 1
Tell 4 about the status of peripheral devices.

That is, when the state of the peripheral device 13 changes and the output of the state line 2a of the peripheral device 13 changes, the peripheral device side device 1 uses the value of the state line 2a at that time as the state information. 9, and when the main body side device 9 receives the status information, the status line 2b of the computer main body 14 is driven according to the status information, and the status of the peripheral device 13 can be notified to the computer main body. .

Further, when transmitting / receiving data between the computer main body 14 and the peripheral device 13, regarding the data transmission from the peripheral device 13, the data from the peripheral device 13 is received by the data bus interface 5a, and the optical transmitting / receiving unit 7a, It is transmitted to the apparatus 9 on the main body side via the optical fiber 8. Then, the apparatus 9 on the main body side determines the data from the optical transmission / reception unit 7b by the determination unit 1
Data bus interface 5
It is realized by transmitting to the computer main body 14 via b.

On the other hand, regarding the data transmission from the computer main body 14, the main body side device 9 receives the data from the computer main body 14 at the data bus interface 5b, and the peripheral device side device through the optical transmission / reception section 7b and the optical fiber 8. Send to 1. Then, the peripheral device-side device 1 is realized by transferring the data from the optical transceiver 7b to the peripheral device 13 via the data bus interface 5a.

As described above, serial / parallel conversion or the like is required in the device-to-device connection in which the status of the peripheral device is constantly output on the status line and the status line is monitored to recognize the status of the peripheral device. Enables connection extension using optical fibers.

[0029]

As described in detail, according to the present invention, in the inter-device connection in which the state of the peripheral device is constantly output to the state line and the state of the peripheral device is recognized by monitoring the state line, Connection extension by an optical fiber or the like that requires serial / parallel conversion or the like can be performed without specially providing an optical fiber or the like dedicated to the status line. Along with this, the connection distance can be dramatically extended.

[Brief description of drawings]

FIG. 1 is a diagram showing a schematic configuration of an inter-device connection system according to the embodiment.

FIG. 2 is a diagram showing a schematic configuration of a conventional inter-device connection system.

[Explanation of symbols]

1 ... Peripheral device side device, 2a, 2b ... Status line, 3a,
3b ... data line, 4 ... state line interface,
5a, 5b ... Data bus interface, 6 ... Peripheral device side control section, 7a, 7b ... Optical transmission / reception section, 8 ... Optical fiber,
9 ... Main body side device, 10 ... Main body side control unit, 11 ... Judgment unit,
12 ... State holding unit, 13 ... Peripheral device, 14 ... Computer main body 14.

Claims (5)

[Claims] 1. In an inter-device connection system having a system configuration in which a computer main body and peripheral devices are connected by a predetermined number of status lines and data lines, and the computer main body recognizes the status of the peripheral devices via these status lines. , The computer main unit and the peripheral device have a computer main unit side device that performs serial data transfer with the peripheral device side and a peripheral device side device that performs serial data transfer with the computer main unit side. Is a status line interface means connected to the status line of the peripheral device, a data bus interface means connected to the data line of the peripheral device, parallel / serial mutual conversion of data, and data with the computer body. The transmission / reception means for transmitting / receiving data, the data bus interface means, and the transmission / reception means are drive-controlled to operate with the computer main body. The computer main body side is provided with a control means for controlling transmission / reception of transfer data to / from a device, monitoring the status line interface means, recognizing a change in the status of the peripheral equipment, and transmitting the status information to the computer body as status information. The device is connected to a transmitting / receiving means for performing parallel / serial mutual conversion of data and transmitting / receiving data to / from the peripheral device, and is connected to the status line of the computer body, drives the status line based on a control signal, and State holding means for holding the state until the next control signal is received, data bus interface means connected to the data line of the computer main body, and control means for outputting the control signal to the state holding means according to the state information. , Determine whether the data received by the transmitting / receiving means is the transfer data or status information, and The transfer data is sent to the data bus interface means when the result is transfer data, and the status information is sent to the control means when the result is status information. The transmission / reception means of the device side device and the transmission / reception means of the computer main body side device are connected by a serial data transmission path that can extend a predetermined distance, and the state information of the peripheral device is transmitted to the computer main body and the computer main body and the peripheral device. A device-to-device connection method characterized by transmitting and receiving transfer data. 2. The inter-device connection system according to claim 1, wherein the serial data transmission path is composed of an optical fiber. 3. The inter-device connection system according to claim 1, wherein the serial data transmission path is configured by wireless communication. 4. An inter-device connection system having a system configuration in which a computer main unit and peripheral devices are connected by a predetermined number of status lines and data lines, and the computer main unit recognizes the peripheral device status via these status lines. , The computer main unit and the peripheral device have a computer main unit side device that performs serial data transfer with the peripheral device side and a peripheral device side device that performs serial data transfer with the computer main unit side. Is a status line interface means connected to the status line of the peripheral device, a data bus interface means connected to the data line of the peripheral device, parallel / serial mutual conversion of data, and transmission / reception of data to / from the computer body. And the data bus interface means and the transmission / reception means are drive-controlled to control the computer main body and the peripheral. Controlling transmission and reception of transfer data to and from the device, monitoring the status line interface means, recognizing a change in the status of the peripheral device, and sending the status information to the computer body as status information. Characteristic inter-device connection method. 5. An inter-device connection system having a system configuration in which a computer main body and peripheral devices are connected by a predetermined number of status lines and data lines, and the computer main body recognizes the peripheral device status via these status lines. , Between the computer main unit and the peripheral device, the computer main unit side device that performs serial data transfer with the peripheral device side and the peripheral device side device that performs serial data transfer with the computer main unit side are interposed. Is connected to a transmitting / receiving means for performing parallel / serial mutual conversion of data and transmitting / receiving data to / from the peripheral device, and is connected to the status line of the computer main body, drives the status line based on a control signal, and State holding means for holding until the next control signal is received, and data bus interface means connected to the data line of the computer main body , A control means for outputting a control signal to the status holding means according to the status information transmitted from the peripheral device, and whether the data received by the transmission / reception means is transfer data or status information, and the judgment is made. And a determination means for transmitting the transfer data to the data bus interface means when the result is transfer data and transmitting the state information to the control means when the determination result is the status information. Condition monitoring method characterized by.