KR20000034444A - Pcmcia/ieee p1394 connection device - Google Patents

Abstract

PURPOSE: A PCMCIA/IEEE P1394 connection device is provided so that an IEEE P1394 audio/video(A/V) device can be connected to a PCMCIA portable computer. CONSTITUTION: A PCMCIA/IEEE P1394 connection device includes the following units. A data format converting unit(31) converts a PCMCIA data into an IEEE P1394 data, or vice versa. A packet transmitting/receiving unit(32) composes the IEEE P1394 data in the form of a packet suitable for IEEE P1394 transmission, or vice versa. An encoding/decoding unit(33) encodes or decodes the IEEE P1394 packet. As a result, digital communication can be performed between a PCMCIA portable computer and an A/V device, and thus various A/V devices can be controlled by using the portable computer.

Description

PCMCIA / IEEEPC13.4 Repeater (A PCMCIA / IEEE P1394 repeater)

The present invention relates to a PCMCIA / IEEE P1394 relay device, and more particularly, to a PCMCIA / IEEE P1394 relay device for connecting an IEEE P1394 type A / V (Audio / Video) device to a PCMCIA type portable computer (notebook computer). .

In general, high-performance serial buses that overcome the problems of parallel buses have been widely studied in order to implement high-speed buses required by computer technology.

The high performance serial bus is a digital serial bus standardized by IEEE P1394, and is defined as a node, a module, and a unit.

In the above, the node is an addressable entity, and reset and recognition may be performed independently. A module consists of one or more nodes. A node is a logical addressing concept, whereas a module is a physical package.

In addition, a node is a logical entity with a unique address, which can be independently reset with an ID ROM and a series of standardized control registers. The address space provided by a node may be mapped to one or more units. A unit is a logical object, such as a disk controller, that corresponds to its own I / O driver software.

Meanwhile, the IEEE P1394 standard is adopted as an interface standard for digital communication between various A / V devices (cameras, camcorders, etc.) and a computer, and a personal computer (PC) is an add-on of a PCI (Programmable Communication Interface) method. It is connected to IEEE P1394 type A / V device by using an add-on card.

However, a portable computer having a wide range of applications because it is more mobile than the personal computer does not have an interface system (card or port) for connecting IEEE P1394 type A / V devices, and an add-on card can be used like a personal computer. In order to connect IEEE P1394 type A / V devices to portable computers, a separate relay device was needed.

An object of the present invention is to provide a PCMCIA / IEEE P1394 relay device capable of connecting an IEEE P1394 type A / V device to a PCMCIA type card slot provided in a portable computer. .

In order to achieve the above object, the PCMCIA / IEEE P1394 relay device according to the present invention is a system for operating an IEEE P1394 type A / V device using a PCMCIA type portable computer, the PCMCIA type input from the portable computer. A data format conversion unit for converting the data of the data into the IEEE P1394 method and outputting the data to the next step, converting the IEEE P1394 method data received from the previous step into PCMCIA data and outputting the data to the portable computer; The data of the IEEE P1394 system received from the data format converter is configured into a packet suitable for transmission of the IEEE P1394 system and output to the next stage, or the data is converted from the IEEE P1394 system received from the previous stage to the data format converter. An output packet transceiver; Encode the packet of the IEEE P1394 method received from the packet transmission / reception unit and output it to the IEEE P1394 type A / V device, or decode the packet of the IEEE P1394 type received from the IEEE P1394 type A / V device. Characterized in that the encoding and decoding unit for outputting to the transceiver.

1 is a physical topology of the IEEE P1394 standard high performance serial bus,

2 is a protocol stack of the IEEE P1394 standard high performance serial bus,

3 is a block diagram showing the configuration of a PCMCIA / IEEE P1394 relay device according to an embodiment of the present invention.

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

10: Notebook Computer 11: PCMCIA Card Slot

20: IEEE P1394 type A / V device 21: IEEE P1394 type transmission cable

30: PCMCIA / IEEE P1394 relay device 31: data format converter

32: packet transceiver 33: encoding and decoding unit

34: control unit

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

First of all, the IEEE P1394 standard high performance serial bus which is applied to IEEE P1394 type A / V device will be briefly described for the purpose of understanding the present invention.

The physical topology of the IEEE P1394 standard high performance serial bus is divided into a serial bus in a backplane environment and a serial bus in a cable environment as shown in FIG. 1, and the serial buses of different environments are connected to the bridges BRIDGE 120 and 140. Is connected by.

In FIG. 1, the CPU 111, the memory MEMORY 112, the I / O 113, and the CPU 114 included in the systems 110 and 130 of the backplane environment are interconnected through the serial bus 115. have. Input / output devices (I / O) 150 and 160 in a cable environment are interconnected via serial bus 154, and cable media 152, 153 and 154 connect ports of different nodes. Here, the cable mediums 152 to 154 consist of two pairs of conductor cables for signal transmission and one pair of cables for power supply.

2 is a protocol stack of the IEEE P1394 standard high performance serial bus, which is layered into a physical layer 220, a link layer 230, and a transaction layer 240; The serial bus management layer 210 manages layered protocols.

The physical layer 220 includes connectors / media, arbitration, bus initialization, data resynch, signal levels, encode / decode. ) Function.

The link layer 230 includes a packet transmitter, a packet receiver, and a cycle control function.

The serial bus management layer 210 includes a node controller 211 including a standard CSR 211a, an isochronous resource manager 212 including an isochronous CSR 212a, and a management CSR. There is a Bus Manager (213) function, including (213a).

In addition, request (* .req), acknowledgment (* .conf), indication (* .ind), and response (* .resp) primitives are transferred between layers to exchange information. For example, PH_DATA.ind, PH_CLOCK.ind, and PH_ARB.conf primitives are transmitted from the physical layer 220 to the link layer 230, and PH_DATA.req, from the link layer 230 to the physical layer 220. The PH_ARB.req primitive is passed.

In the layered protocol as described above, the link layer 230 provides a half-duplex data packet transmission service. Here, the operation of transmitting one packet is called a subaction, and such subactions include asynchronous subactions and isochronous subactions. The asynchronous subaction carries variable length data and a few bytes of transaction layer information by an explicit address, and a response to the transferred operation is required. On the other hand, the isochronous subaction transmits variable length data at regular intervals by a simple address, and does not need a response to the transferred operation.

In addition, a packet transmitted through the link layer 230 includes an asynchronous packet and an isochronous packet, and each packet is a sequence of aligned quadlets (32 bits).

Details of such high performance serial buses are described in the IEEE P1394 standard book published in November 1995.

3 is a block diagram showing the configuration of a PCMCIA / IEEE P1394 relay device according to an embodiment of the present invention, wherein the PCMCIA / IEEE P1394 relay device 30 includes a data format conversion unit 31 and a packet transceiver unit 32. ), An encoding and decoding unit 33, and a control unit 34 to connect the IEEE P1394 type A / V device 20 to the PCMCIA type card slot 11 included in the notebook computer 10. Let's do it.

In the above, the encoding and decoding unit 33 and the IEEE P1394 type A / V device 20 are connected to each other via the IEEE P1394 type transmission cable 21, and the PCMCIA type card included in the notebook computer 10 is provided. The slot 11 is a conventionally known technique as a PC card to which external devices such as a memory, a modem, a Floppy Disk Drive (FDD), a Hard Disk Drive (HDD), a Compact Disk-ROM (CD-ROM), and the like are connected.

The data format conversion unit 31 converts the PCMCIA system data received from the notebook computer 10 through the PCMCIA system card slot 11 into IEEE P1394 system data and outputs the data to the packet transceiver unit 32. The IEEE P1394 system data received from the packet transceiver unit 32 is converted into PCMCIA system data and output to the PCMCIA system card slot 11 of the notebook computer 10.

The packet transmitter / receiver 32 is composed of an asynchronous packet or isochronous packet suitable for IEEE P1394 type transmission of the IEEE P1394 type data received from the data format converter 31, and outputs to the encoding and decoding unit 33. Data is obtained from the IEEE P1394 type asynchronous packet or isochronous packet received from the encoding and decoding unit 33 and output to the data format conversion unit 31.

The encoding and decoding unit 33 encodes an IEEE P1394 type asynchronous packet or an isochronous packet received from the packet transmitting and receiving unit 32 to the IEEE P1394 type A / V device 20 through the transmission cable 21. The asynchronous packet or the isochronous packet of the IEEE P1394 type received from the IEEE P1394 type A / V device 20 through the transmission cable 21 is decoded and outputted to the packet transmitting / receiving unit 32.

The controller 34 controls the operations of the data format converter 31, the packet transceiver 32, and the encoder 33. The controller 34 is not shown in the drawings, but may include a memory, a microcomputer, and a logic circuit. And so on.

That is, the packet transceiver 32 performs the function of the link layer 230 shown in FIG. 2, the encoding and decoding unit 33 performs the function of the physical layer 220, and the controller 34. ) Performs the functions of the transaction layer 240 and the serial bus management layer 210.

Referring to the operation of the PCMCIA / IEEE P1394 relay device according to an embodiment of the present invention configured as described above in more detail.

First, when the notebook computer 10 transmits predetermined data to the IEEE P1394 type A / V device 20, the PCMCIA type transmission data output from the PCMCIA type card slot 11 of the notebook computer 10 is PCMCIA. / Input to the data format conversion section 31 of the IEEE P1394 relay device 30.

The PCMCIA system data inputted to the data format converter 31 is converted into IEEE P1394 system data under the control of the controller 34 and output to the packet transceiver unit 32.

The IEEE P1394 data inputted to the packet transmitter / receiver 32 is composed of an asynchronous packet or isochronous packet suitable for the IEEE P1394 system transmission under the control of the controller 34 and is output to the encoding and decoding unit 33. .

The asynchronous packet or isochronous packet of the IEEE P1394 method inputted to the encoding and decoding unit 33 is encoded under the control of the control unit 34 to be transferred to the IEEE P1394 method A / V device 20 through the transmission cable 21. Is output.

Thereafter, the IEEE P1394 type A / V device 20 performs a predetermined operation according to the data transmitted from the notebook computer 10.

On the contrary, when the IEEE P1394 type A / V device 20 transmits predetermined data to the notebook computer 10, the IEEE P1394 type A / V device 20 is transmitted through the transmission cable 21 of the IEEE P1394 type A / V device 20. An asynchronous packet or an isochronous packet is input to the encoding and decoding unit 33.

The asynchronous packet or isochronous packet of the IEEE P1394 type inputted to the encoding and decoding unit 33 is decoded under the control of the control unit 34 and output to the packet transceiver unit 32.

The asynchronous packet or isochronous packet of the IEEE P1394 type inputted to the packet transmitting / receiving unit 32 is divided into the IEEE P1394 type data of the A / V device 20 under the control of the control unit 34, and the data format converter 31 Will be displayed.

The IEEE P1394 type data input to the data format converting unit 31 is also converted into PCMCIA type data under the control of the control unit 34 and output to the PCMCIA type card slot 11 of the notebook computer 10.

Thereafter, the notebook computer 10 performs a predetermined operation according to the data transmitted from the A / V device 20 of the IEEE P1394 system.

As described above, the PCMCIA / IEEE P1394 relay device according to the present invention enables digital communication between a portable computer and an IEEE P1394 type A / V device, so that various A / V devices can be operated using the portable computer. have.

Claims (1)

In a system for operating an IEEE P1394 type A / V device using a PCMCIA type portable computer, Converts PCMCIA data inputted from the portable computer into IEEE P1394 data and outputs the data to the next stage, and converts IEEE P1394 data input from the previous data into PCMCIA data and outputs the data to the portable computer. A format converter; The data of the IEEE P1394 system received from the data format converter is configured into a packet suitable for transmission of the IEEE P1394 system and output to the next stage, or the data is converted from the IEEE P1394 system received from the previous stage to the data format converter. An output packet transceiver; Encode the packet of the IEEE P1394 method received from the packet transmission / reception unit and output it to the IEEE P1394 type A / V device, or decode the packet of the IEEE P1394 type received from the IEEE P1394 type A / V device. PCMCIA / IEEE P1394 relay device characterized in that the encoding and decoding unit for outputting to the transceiver.