KR20010053911A - Universal communication system - Google Patents

Abstract

PURPOSE: The integrated communication system is provided to effectively perform the serial and parallel communication between a compute and a peripheral. CONSTITUTION: The system comprises a serial optical communication port(34), an auxiliary optical communication port(33), an optical communication adapter(18), an optical connector(5), and a choice controller(35). The serial optical communication port includes an optical send-receive module and is mounted on the peripheral. The auxiliary optical communication port includes the optical send-receive module and is mounted on a place close to the serial optical communication port in order to perform the function of a parallel optical communication port as well as the serial optical communication port. The optical communication adapter includes the optical send-receive module responding to the serial and auxiliary optical communication port, and is connected with a serial and parallel communication card(17,16) of the computer(1). The optical connector connects the serial and auxiliary optical communication port with the optical communication adapter. The choice controller makes a parallel communication controller(31) of the peripheral(3) operate while an optical signal is received via the auxiliary optical communication port, otherwise, makes a serial communication controller(32) of the peripheral operate.

Description

Unified communication system

The present invention relates to a data communication system, and more particularly, to a system for allowing data communication between a computer and a peripheral device.

Peripherals of the computer include hard disks and storage devices such as Digital Versatile Disk, or multimedia such as digital camcorders. Such peripheral devices may be connected on a network and used in common, or may be connected to an expansion bus of a computer and used exclusively. In general, serial communication protocols are used for network communication, and parallel communication protocols are used for expansion buses of computers.

1 shows a connection state of a conventional bus peripheral device 2. Referring to FIG. 1, a parallel communication port 213 provided in a peripheral device 21 for a bus is connected to a parallel communication card of a computer, for example, an expansion bus bridge, by an electric cable 12 and a plug 11. . Protocols used for this parallel communication include Peripheral Component Interconnect or Enhanced Integrated Device Electronics.

2 shows a connection state of a conventional peripheral device for a network. Referring to FIG. 2, the serial communication port 223 provided in the peripheral device 22 for a network is connected to a serial communication card of a computer, for example, a network card by an electric cable 14 and a plug 13. Protocols used for this serial communication include the Institute of Electrical and Electronics Engineers 1394 or Universal Serial Bus.

As described above, the peripherals of a conventional computer are divided into buses and networks. However, due to the development of the home network and the Internet and the integration of digital devices, all peripheral devices are changing to be both bus and network. Accordingly, there is a need for a system that allows both serial and parallel communication to be performed between a computer and a peripheral device.

It is an object of the present invention to provide an integrated communication system that allows serial and parallel communication to be efficiently performed between a computer and a peripheral device.

1 is a perspective view showing a connection state of a conventional bus peripheral device.

2 is a perspective view showing a connection state of a conventional network peripheral device.

3 is a block diagram illustrating a communication system according to an embodiment of the present invention.

4 is a perspective view showing a peripheral device of the system of FIG. 3.

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

1 computer, 21 bus peripherals,

22 ... network peripherals, 3 ... compound peripherals,

11, 13 plug, 12, 14 electrical cable,

15, 17 ... serial communication card, 16 ... parallel communication card,

18 ... optical adapter, 5 ... optical connector,

31 parallel communication control unit, 32 serial communication control unit,

33 ... secondary optical port, 34 ... serial optical port,

35 ... Selection control.

The system of the present invention for achieving the above object is a system that allows serial and parallel communication to be performed between a computer and a peripheral device. The system includes a serial optical communication port, an auxiliary optical communication port, an optical communication adapter, an optical connector, and a selection controller.

The serial optical communication port includes an optical transceiver module and is installed in the peripheral device. The auxiliary optical communication port includes an optical transmission / reception module and is installed close to the serial optical communication port to perform a function of a parallel optical communication port together with the serial optical communication port. The optical communication adapter includes an optical transmission and reception module corresponding to the serial and auxiliary optical communication ports and is connected with the serial and parallel communication cards of the computer. The optical connector is connected between the optical communication ports and the adapter. The selection control unit causes the parallel communication control unit of the peripheral apparatus to be operated while an optical signal is received through the auxiliary optical communication port, and otherwise, the serial communication control unit of the peripheral apparatus is operated.

Hereinafter, preferred embodiments according to the present invention will be described in detail.

3 shows a communication system according to an embodiment of the present invention. 4 shows a peripheral device of the system of FIG. 3.

3 and 4, the communication system according to the present invention is a system that allows serial and parallel communication to be performed between the computer 1 and the peripheral device 3. The system includes a serial optical communication port 34, an auxiliary optical communication port 33, an optical communication adapter 18, an optical connector 5, and a selection controller 35.

The serial optical communication port 34 includes an optical transmission / reception module and is installed in the peripheral device 3. Here, the optical transmission / reception module is, for example, a module including a laser diode array for converting and outputting an electrical signal into an optical signal, a photodiode array for converting and outputting an optical signal into an electrical signal, and an auxiliary circuit. Say

The auxiliary optical communication port 33 includes an optical transmission / reception module and is installed close to the serial optical communication port 34 to perform the function of the parallel optical communication port together with the serial optical communication port 34. Therefore, when the number of channels of the serial optical communication port 34 and the number of channels of the auxiliary optical communication port 33 are combined, the number of channels of the parallel optical communication port is obtained.

The optical communication adapter 18 includes optical transmission and reception modules corresponding to the serial and auxiliary optical communication ports 34 and 33 and is connected with the serial and parallel communication cards 17 and 16 of the computer 1. The serial communication card 17 of the computer 1 may be a network card, for example, and the parallel communication card 16 may be, for example, an expansion bus bridge.

The optical connector 5 is connected between the optical communication ports 33 and 34 and the optical communication adapter 18. Therefore, since the number of channels of the optical connector 5 is the same as the number of channels of the parallel optical communication port, there is an effect of reducing the number of channels of the serial optical communication port 34. Although the optical connector 5 shown in FIG. 3 is shown to be used for both serial and parallel communication, only a serial optical communication cable can be connected when mainly performing only serial communication.

The selection control unit 35 causes the parallel communication control unit 31 of the peripheral device 3 to operate while the optical signal is received through the auxiliary optical communication port 33, and otherwise, the serial communication control unit 32 of the peripheral device 3 is operated. ) Will work.

The parallel communication control unit 31 includes a circuit for analyzing an extension bus signal according to a protocol applied, for example, a protocol of PCI or EIDE. In addition, the serial communication control unit 32 performs communication control according to an applied network protocol, for example, the IEEE 1394 or the USB protocol.

The selection control unit 35 shown in FIG. 4 causes the parallel communication control unit 31 or the serial communication control unit 32 to be selectively operated by a user's operation. However, automatic switching can be made logically. That is, the control signal input to the enable terminal (EN) of the parallel communication control unit 31 and the control signal input to the enable terminal (EN) of the serial communication control unit 32 are inverted with each other, thereby automatically switching. It is possible. For example, while an optical signal is received through the auxiliary optical communication port 33, a control signal of a high logic state is input to the enable terminal EN of the parallel communication control unit 31, and a control signal of a low logic state is serially communicated. Input is made to the enable terminal EN of the control part 32. On the contrary, while the optical signal is not received through the auxiliary optical communication port 33, a control signal of a low logic state is input to the enable terminal EN of the parallel communication control unit 31, and a control signal of a high logic state is serially communicated. The enable terminal EN of the controller 32 is input.

As described above, according to the integrated communication system according to the present invention, various effects as follows can be obtained.

1. In communication by including a serial communication port in a parallel communication port, the difference in signal specifications between serial and parallel communication can be overcome by performing an optical communication method.

2. Since all peripheral devices are changing to be both bus and network compatible, the manufacture of redundant peripheral devices can be prevented by adopting the integrated communication system according to the present invention.

3. It is economical to reduce the number of channels corresponding to the serial communication port in the connection of the computer and the peripheral device.

4. By implementing the optical communication method, the limit distance between the computer and the peripheral device can be further extended.

The present invention is not limited to the above embodiments, but may be modified and improved by those skilled in the art within the spirit and scope of the invention as defined in the claims.

Claims (1)

In a system that allows serial and parallel communication between a computer and a peripheral device, A serial optical communication port including an optical transceiver module and installed in the peripheral device; An auxiliary optical communication port including an optical transmission / reception module and installed in close proximity to the serial optical communication port to perform a function of a parallel optical communication port together with the serial optical communication port; An optical communication adapter including an optical transmission / reception module corresponding to the serial and auxiliary optical communication ports and connected with the serial and parallel communication cards of the computer; An optical connector connected between the optical communication ports and an adapter, and And a selection control unit for operating the parallel communication control unit of the peripheral apparatus while the optical signal is received through the auxiliary optical communication port, and operating the serial communication control unit of the peripheral apparatus while the optical signal is received through the auxiliary optical communication port.