JP2003006147A - Interface card, and device and method for transferring data - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication interface card, capable of performing high-speed communication connection, while maintaining compatibility with the existing connector and communication control system. SOLUTION: High-speed communication is made possible, while maintaining connection compatibility with the existing interface card by providing an interface board 10 with an interface controlling part 12 for high-speed communication and a first connection connector part 13 for connecting its communication line to a main board 20 of a peripheral device separately from a second connection connector part 14, which is connector for the existing communication line.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an interface card, a data transfer device and a data transfer method for data communication between a host device and peripheral devices.

[0002]

2. Description of the Related Art In various systems such as PC or POS,
A plurality of peripheral devices such as a printer, a display device, and a scanner are connected to a PC main body or a main control unit (hereinafter referred to as a host device), and print and display data transmitted from the host device. There is. Further, various data including status and the like are transmitted from the peripheral device to the host device. There are various communication methods such as synchronous communication, asynchronous communication, serial communication, and parallel communication as data communication methods between the host device and the peripheral device, depending on the function and capability of the host device or each peripheral device. Various communication methods are adopted.

Data communication between the host device and the peripheral device is
Data is transmitted and received between each other by a predetermined communication method. Therefore, peripheral devices that cannot support the communication system of the host device cannot be connected to the host device. Therefore, it is desirable that the peripheral device be compatible with various communication methods adopted by the host device. However, it is structurally and economically unfavorable to provide each peripheral device with a function capable of supporting all of various communication methods. Therefore, a method has been adopted in which data communication is performed through an interface card compatible with the communication system of the host device while adjusting the difference in the communication system of the host device and the peripheral device.

In this system, data communication can be performed between the host device and the interface card by the communication system adopted by the host device, and data communication can be performed between the interface card and the peripheral device by a predetermined communication system. This interface card is connected between the host device and the peripheral device. That is, when the communication method between the host device and the peripheral device is different, the protocol is converted by the interface card to enable data communication between them. The type of interface card used is selected according to the communication method with the host device. As a result, the data communication according to the communication system requested by the host can be performed only by preparing various interface cards corresponding to the communication system of the host device. For example, when connecting a peripheral device, by selecting an interface card suitable for the communication system of the host device and interposing it between the host device and the peripheral device, data communication with the host device becomes possible.

FIG. 4 shows the structure of a conventional interface card 60 and a main board 70 of a peripheral device. The interface card 60 includes a connection connector portion 61 (hereinafter, “connection connector portion” is simply referred to as “connector”) to which a signal line (including a data line) from a host device (not shown) is connected, and a host device. And an interface control unit 62 (hereinafter, I / F) that performs data communication with peripheral devices.
And a main board 70 of the peripheral device.
A connector 64 for connecting to a peripheral device and a connector 66 for transferring data from the host device to another peripheral device such as a display device. I / F control unit 62
Receives data from the host device or the peripheral device, performs protocol conversion processing when the communication methods of the host device and the peripheral device are different, and then transmits the received data to the peripheral device or the host device. Peripheral device main board 7
Reference numeral 0 denotes a connection connector 74, a reception interface unit (reception I / F unit) 71, a reception buffer 72, a transmission interface unit (transmission I / F unit) 75, and a connector 76 for transferring reception data to another peripheral device. Is equipped with.

It is possible to freely set which communication method is used to transmit and receive data between the interface card 60 and the peripheral device. A specific example will be described. For example, R
The interface card 60 of S232C is configured to directly transmit the data received from the host to the main board 70, and the interface card 60 of the synchronous serial or parallel communication system converts the data received from the host device into a predetermined protocol. After that, the data can be transmitted from the connector 64 to the reception I / F unit 71 of the main board 70 via the connector 74.

Further, a plurality of peripheral devices may be serially connected to the host device. In such a case, it is necessary to sequentially transfer the data received from the host device to another peripheral device, but there is a problem in that the communication method differs depending on the connected peripheral device. Using a specific example, in which data is transferred to the display device (second peripheral device) connected to the printer (first peripheral device), the data communication of the display device is performed by RS.
It will be described as being performed by the H.232C. In the following description, it is assumed that the RS232C interface card 60 transmits the received data from the host device to the printer as it is, and the interface card 60 of another type transmits it after the protocol conversion by the interface card.

When the printer and the host device communicate with each other via RS232C, the RS232C interface card is used. When the RS232C interface card 60 is used, the data received from the host device is directly transmitted via the connector 64 to the main board 70.
Is input to the connector 74. On the main board 70, the received RS232C data is directly transferred to the display device via the connector 76.

However, in interface cards other than RS232C, the received data is converted into a predetermined protocol by the I / F control unit 62, so the main board 70 converts the received data into the RS232C protocol and then transfers it to the display device. Must. This complicates the structure of the main board 70. Therefore, conventionally, in interface cards other than RS232C,
The display data is not sent to the main board 70, and the received data is sent to the RS23 by the I / F control unit 52.
The data was converted into 2C data and directly transferred from the connector 66 of the interface card 60 to the display device.

[0010]

As described above, the interface card is extremely useful for flexibly adapting to various data communication systems of the host device without changing the basic configuration of the peripheral device. Therefore, with the diversification of communication methods, many types of interface cards have already been used. Furthermore, in the future, it is necessary to provide an interface card for high speed communication in order to cope with the increase in data communication speed. Even when designing such a new interface board for high-speed communication, the structure of the connection parts (connectors 64, 74) with the main board 70 of the peripheral device maintains connection compatibility with the existing interface card. Must.

However, it is necessary to maintain the shape of the connector 64 provided in the existing interface card while supporting the existing communication system and supporting various communication systems including high-speed communication. Because there are many, it is already difficult.

Further, when a plurality of peripheral devices are connected in series, it is necessary to transfer the received data from the first peripheral device to the second peripheral device. In the parallel communication type interface card, the connector 61 is used. Due to the large size of the interface card, it may be difficult to provide the connector 66 on the interface card due to the size and shape of the interface card. Further, although the main board 70 has the transfer connector 76, direct data transfer from the interface card has a problem that the connector 76 cannot be effectively used.

The present invention has been made in view of the above problems of the prior art, and it is an object of the present invention to provide a connection structure for a high-speed communication interface card and peripheral devices having connection compatibility with the conventional interface card. And

Still another object of the present invention is to provide a connection structure between a peripheral device and a high-speed communication interface card capable of efficiently transferring data to another peripheral device via a main board of the peripheral device. That is.

[0015]

In order to achieve the above object, the present invention provides a first connecting connector portion for high speed communication on an interface card and uses an existing connecting connector as a second connecting connector portion. By leaving the peripheral device as it is, a high-speed communication interface for processing data received from the first connection connector unit is provided in addition to the existing communication interface, thereby enabling high-speed communication with the host device.

Further, when the data received from the first connector section is data for another peripheral device, the peripheral device transmits medium and low speed communication data (eg RS
(232C data), and the converted data is returned to the interface card via the first connector section. The medium / low speed communication data (RS232C) returned to the interface card is transferred to the second connection connector part which is an existing communication line, and then transmitted to the peripheral device again, like the original medium / low speed communication data. It is transferred to another peripheral device (display device or the like) through a connector in the peripheral device. In this way, even in the case of high-speed communication, it is possible to effectively utilize the existing data transfer line to transfer data.

An interface card according to a first aspect of the present invention is an interface card which is provided between a host device and a peripheral device and which mediates data communication between the host device and the peripheral device. A first connecting connector portion for connecting the line to the peripheral device and a first connecting connector portion separately for connecting the second communication line different from the first communication line to the peripheral device. The interface control unit includes a second connection connector unit provided and an interface control unit that transmits data received from the host device to the peripheral device and transmits data received from the peripheral device to the host device. The data communication with the peripheral device is performed through either one of the connection connector section of 1) and the second connection connector section.

According to this aspect, it is possible to divide the communication system into two specific groups and divide the communication line according to the property of the communication system. This is useful when the support for a plurality of communication methods by one set of communication lines has reached the limit. That is, the communication line between the existing interface and the peripheral device is left as the second connection line, and the first communication line is used for the new communication method to maintain the connection compatibility with the existing line. It becomes possible to provide an interface card of a communication system. Incidentally, it is possible to provide three or more communication lines and connection connector portions.

In the interface card according to the second aspect of the present invention, the first connection connector section is a connection connector section for connecting a high-speed communication line to the peripheral device.
The connection connector unit of is a connection connector unit for connecting the medium-low speed communication line to the peripheral device. This aspect uses the first communication line as a high-speed communication line,
The second communication line is used as a medium / low speed line.

In the interface card according to the third aspect of the present invention, the first connection connector section is a connection connector section for connecting a communication line according to a high speed communication system to a peripheral device, and the second connection connector section is an existing one. It is characterized in that it is a connection connector portion for connecting a communication line according to a communication method to a peripheral device. In this aspect, the first communication line is used as a high-speed communication line, and the second communication line is used as a communication line used in an existing communication method. While maintaining compatibility with the existing interface, high speed communication is possible. It enables the introduction of communication interface cards.

The data transfer device according to the first aspect of the present invention is used for medium and low speed data communication, and a first connector part for transmitting data received from a host device to a peripheral device by a high speed communication system. A high-speed communication interface card having a second connection connector section, a third connection connector section to which the first connection connector section of the high-speed communication interface card is connected, and a second connection connector section are connected. And a communication unit of a peripheral device capable of transferring the data received from the fourth connection connector unit to the outside, the communication unit further receiving from the third connection connector unit. A third interface for connecting the converted data to a communication interface unit that converts the received data into a medium-to-low speed communication protocol when the created data is transmission data to another peripheral device. Connector portion and through the first connector portion, characterized in that it comprises a transfer line for transferring the high-speed communication interface card.

Thus, while enabling high-speed communication between the host device and the peripheral device, it becomes possible to perform data transfer using the existing connection line and connector to the peripheral device which is connected further downstream and has a different communication protocol. .

According to a first aspect of the present invention, there is provided a data transfer method, wherein a first connection connector section for performing data communication with a peripheral device via a first communication line and a peripheral device via a second communication line. In an interface card having a second connection connector section for performing data communication and a peripheral device for performing data communication with a host device via the interface card, (a) receiving the transmission data from the host device by the interface card; And (b) transmitting the received data from the interface card to the peripheral device via the first connection connector unit, and (c) in the peripheral device, the data received from the first connection connector unit is transmitted to other peripheral devices. And (d) if the received data is data to be sent to another peripheral device, the step of confirming whether the received data is to the device or not. Converting the data into a predetermined communication protocol and returning it to the first connector section of the interface card, and (e) in the interface card, the converted data received from the peripheral device is transferred to the second connector connector. And a step of (f) transferring the conversion data received from the interface card from the peripheral device to another peripheral device.

[0024]

DETAILED DESCRIPTION OF THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. In the following example, a printer will be used as the first peripheral device and a display device will be used as the second peripheral device, as necessary. FIG. 2 is a perspective view showing the appearance of a high-speed communication interface card 10 used in the connection structure according to the embodiment of the present invention. In the figure,
Reference numeral 11 is a connector portion for connecting a cable from the host device, 13 is a first connection connector portion for high-speed communication, and 14 is a second connection connector portion having the same form as the connector 64 of the existing interface card 60. Is.

The connection structure of the present invention will be described in more detail with reference to FIG. FIG. 1 is a diagram showing a schematic configuration of an interface card having a connection structure and a main board 20 of a peripheral device according to a first embodiment of the present invention. Connector part 1
The data received from the host device via the I / F controller 12 is protocol-converted by the I / F controller 12, or is not converted and is directly transmitted to the first connection connector unit 13 and the third connection connector 23 of the main board 20. Via the main board 20. In the I / F control unit 12, for example, in the case of the USB system, it can be configured to directly transmit to the main board 20 without protocol conversion. In the high-speed communication interface card 10, the second connector section 14, which is an existing connector, is not connected but separated from the I / F control section 12.

The main board 20 is connected to the first connection connector section 13 and the third connection connector section 23, the second connection connector section 14 is connected to the fourth connection connector section 24, and to the display device. The data transfer connector unit 26 of FIG. The third connector 23 for the high-speed communication line is connected to the first reception interface section (first reception I / F section) 27. The first reception I / F unit 27 is a control unit for high speed communication and processes data received from the high speed communication interface card 10. The second connection connector section 24, which is a connector of the existing communication line, is connected to the second reception interface section (reception I / F section) 28. The second reception I / F unit 28 supports communication by the existing interface card. The data received by the first reception I / F unit 27 and the second reception I / F unit 28 is temporarily stored in the reception buffer 29, and is appropriately stored.
It is read inside by the main controller (not shown) of the peripheral device. Further, the data transmitted from the peripheral device to the host device is transmitted from the transmission buffer (not shown) to the transmission interface unit (transmission I / F unit) 25, and high-speed communication is performed via the third connection connector unit 23. Is transmitted to the interface card 10.

The third connection connector section 23, the fourth connection connector section 24, the transmission I / F section 25, the first reception I / F section 27, and the second reception I / F in the main board 20. Part 2
8, the transfer connector unit 46, the reception buffer 49, and the transmission buffer constitute the communication unit of the peripheral device.

A second embodiment will be described with reference to FIGS. 1 and 3. FIG. 3 is a diagram showing a schematic configuration of the high-speed interface card 30 and the main board 40 used in the connection structure according to the second embodiment of the present invention.

For example, when displaying data on the display device provided in the printer, the data from the host can be transferred to the display device (second peripheral device) via the printer (first peripheral device). desirable. If the display device supports RS232C, for example, US
Consider a case where display data is transmitted from the host device by the B method. In this case, according to the conventional technique, as shown by a broken line in FIG.
It is possible to convert the USB data into RS232C data by the / F control unit 12 and transfer the RS232C data to the display device via the data line indicated by the broken line and the connector 16.

However, in such an embodiment, RS232
Main board 2 corresponding to C interface card 60
Even though the connector 26 is provided at 0, it cannot be used, and the connector 16 is further provided at the interface 10. Further, as described above, in the case of the parallel interface card, the connector 16 cannot be provided, so that in the case of the parallel communication system, the display device cannot be connected to the printer.

From this point of view, in the second embodiment, the USB data received by the high-speed communication interface card 30 is once transmitted to the main board 40 of the printer, and the first reception I / F section 47 converts the USB data into RS232C data. Convert to. Then, the converted RS232C data is output to the first connection connector unit 33 of the interface card 30 via the predetermined connection terminal of the third connection connector unit 43. In FIG. 3, a connection line from the first reception I / F unit 47 to the first connection connector unit 33 of the interface card 30 is shown as a communication line 51.

RS232C of the first connector section 33
The reception terminal for receiving data is connected to the RS232C connection terminal of the second connection connector 34, which is the communication line of the existing interface board, by the line shown as the signal line 52. The RS232C data connected to the second connector section 34 is the existing RS232C data.
The data is transmitted to the second reception I / F unit 48 by the digital line 53 and is also transmitted to the display device via the communication line 54 and the connector 46. Therefore, the display data transmitted from the host device via the USB is converted to RS232C data in the main board 40 and then returned to the interface card 30. The RS232C data transmitted to the interface card 30 is transmitted again to the main board 40 via the existing communication line of the second connection connector unit 34, and transferred to the display device.

With the connection structure of the second embodiment, the connector 16 is not provided on the interface board,
Data can be transferred to the display device by using the connector 45 of the main board. Here, it should be noted that the second connector 34 corresponding to the existing connector is used.
Further, it is not necessary to change the wiring of the existing communication line of the main board 40 and the existing communication line of the second receiving I / F unit 48 and the like corresponding thereto. That is, since there is no change in the wiring of the existing connector 34 of the interface card 30, the existing connector 44 of the main board, and the existing communication line, the existing interface board can be used as it is for the main board 40. .

[0034]

As described above, according to the present invention, the interface card is provided with the first connecting connector portion for high speed communication, and the existing connecting connector is left as it is as the second connecting connector portion, and the peripheral device is By providing a high-speed communication interface for processing data received from the first connection connector unit in addition to the existing communication interface, high-speed communication with the host device becomes possible.

If the data received from the first connector section is data for another peripheral device, the peripheral device will receive medium and low speed communication data (eg RS
(232C data), and the converted data is returned to the interface card via the first connector section. The medium / low speed communication data (RS232C) returned to the interface card is transferred to the second connection connector part which is an existing communication line, and then transmitted to the peripheral device again, like the original medium / low speed communication data. It is transferred to another peripheral device (display device or the like) through a connector in the peripheral device. In this way, even in the case of high-speed communication, it is possible to effectively utilize the existing data transfer line to transfer data.

[Brief description of drawings]

FIG. 1 is a diagram showing a schematic configuration of an interface card having a connection structure according to a first embodiment of the present invention and a main board of a peripheral device.

FIG. 2 is a perspective view showing the external appearance of the interface card according to the embodiment of the present invention.

FIG. 3 is a diagram showing a schematic configuration of a high-speed interface card and a main board used in the connection structure according to the second embodiment of the present invention.

FIG. 4 is a diagram showing a configuration of a conventional interface card and a main board of a peripheral device.

[Explanation of symbols]

10 interface card 11 Connector for connection with host device 12 Interface control unit 13 First connection connector part 14 Second connection connector section 16 Transfer connector 20 Peripheral device main board 23 Third connector 24 Fourth connector 26 Transfer connector in main board

Claims (5)

[Claims] 1. An interface card provided between a host device and a peripheral device for mediating data communication between the host device and the peripheral device, the interface card comprising a first communication line for connecting the first communication line to the peripheral device. 1
Second connection connector provided separately from the first connection connector section in order to connect the connection connector section and the second communication line different from the first communication line to the peripheral device. And an interface control unit that transmits data received from the host device to the peripheral device and transmits data received from the peripheral device to the host device, the interface control unit including the first connection. An interface card for performing data communication with the peripheral device through either one of a connector section and the second connection connector section. 2. The first connection connector section is a connection connector section for connecting a high-speed communication line to the peripheral device, and the second connection connector section is a connection for connecting a medium-low speed communication line to the peripheral device. The interface card according to claim 1, which is a connector unit. 3. The first connection connector unit is a connection connector unit for connecting a communication line based on a high-speed communication system to the peripheral device, and the second connection connector unit is a connection line based on an existing communication system. The interface card according to claim 1, wherein the interface card is a connection connector portion for connecting to a device. 4. A high-speed communication comprising a first connection connector section for transmitting data received from a host device to a peripheral device by a high-speed communication system, and a second connection connector section used for medium-low speed data communication. Interface card, and a third connection connector part to which the first connection connector part of the high-speed communication interface card is connected and a fourth connection connector part to which the second connection connector part is connected. And a communication unit of a peripheral device capable of transferring the data received from the fourth connection connector unit to the outside, wherein the communication unit is further provided with the data received from the third connection connector unit. A communication interface unit that converts the received data into a medium-to-low speed communication protocol when the data is transmission data to the device, and the converted data into the third connection connector unit. And a transfer line for transferring to the high-speed communication interface card via the first connection connector section, wherein the high-speed communication interface card further receives from the peripheral device via the first connection connector section. And a transfer connection line for connecting the converted data to the medium-to-low speed communication line of the second connection connector unit, wherein the converted data is transferred from the second connection connector unit to the fourth connection connector unit of the peripheral device. A data transfer device for transmitting the data to the communication unit of the peripheral device via the. 5. A first connection connector section for performing data communication with a peripheral device via a first communication line, and a second connection connector section for performing data communication with a peripheral device via a second communication line. A data transfer method for transferring data received from a host device to another peripheral device, comprising the following steps in an interface card provided and a peripheral device that performs data communication with a host device via the interface card. (a) receiving the transmission data from the host device by the interface card, and (b) transmitting the received data from the interface card to the peripheral device via the first connector section, (c)
In the peripheral device, a step of confirming whether the data received from the first connection connector unit is transmission data to another peripheral device, and (d) transmitting the received data to the other peripheral device. If the received data is data, converting the received data into a predetermined communication protocol and returning the converted data to the first connection connector section of the interface card, and (e) receiving from the peripheral device in the interface card. The converted data is converted into the second data
And (f) transferring the conversion data received from the interface card from the peripheral device to the other peripheral device via the connection connector unit of (1).