KR20020064271A - Boardband Wireless LAN using a IEEE1394 - Google Patents

Abstract

PURPOSE: A superspeed wireless LAN system using IEEE 1394 is provided to give convenience in use by integrating an IEEE 1394 application device and an IEEE 802.11b wireless LAB device by wireless. CONSTITUTION: An IEEE 802.11x radio part(40) converts a radio signal, received through an antenna(39), into a baseband signal, executes digital conversion, and supplies it to a radio access interface(42). The radio access interface(42) executes digital signal processing for the signal. Then the signal is transmitted to a web server CPU(56) via a PC card/Ethernet interface(50). The signal transmitted to the web server CPU(56) is transmitted to an IEEE 1394 link layer(63) through an Ethernet interface(59) for transfer to an IEEE 1394 protocol. An IEEE 1394 physical layer(64) carries out signal modulation for the protocol-transferred signal. An IEEE 1394 transceiver(65) converts the modulated signal into a serial analog signal and transmits the converted signal to an IEEE application device.

Description

Board Wireless LAN using a IEEE1394

The present invention uses IEEE1394, a high speed serial bus interface standard jointly proposed by Apple and Texas Instruments, to combine multimedia information such as high-capacity AV (Audio Video) data wirelessly by combining it with IEEE802.11b, which is represented by a high-speed wireless LAN. In particular, the present invention relates to a digital camcorder, a digital camera, an IEEE1394 hard disk, which supports IEEE1394 by incorporating a wireless LAN function into an external device that provides a connection terminal capable of connecting IEEE1394 capable of high-speed data transmission through a wired connection. The present invention relates to a high-speed wireless LAN device using IEEE1394 that provides a function for connecting a personal computer that supports IPover1394 to allow connection between devices. In general, a wireless LAN is a wireless network structure that can be viewed as IEEE802.11b having a maximum transmission rate of 11 Mbps based on the TCP / IP protocol. The wireless LAN shown in FIG. 1 is a means of transmitting / receiving short-range data in the ISM band. Infrared and FHSS (Frequency Hopping Spreading Spectrum) techniques were initially used in the 2.4 GHz band. It was not utilized. However, the IEEE 802.11b DSSS (Direct Sequence Spread Spectrum) method provides speeds of up to 11Mbps, and interest in wireless LAN in the general communication market. In addition, the market and developers increased rapidly due to the low-cost supply of parts of Intersil, a representative chip vendor of 11 Mbps. Therefore, the equipment price also dropped so much that WNIC (Wireless Network Interface Card) was about $ 100 and AP (Access Point) 300. The market is forming at around $ 500. In IEEE1394 shown in FIG. 2, as the boundary between computer and home appliance is broken due to the development of digital technology, the establishment of mutually compatible communication environment has become the core. The necessity of new communication technology has emerged due to the need for high-speed data communication of computer peripherals and automation equipment. The IEEE1394 high-speed serial bus specification enables the interconnection of digital home appliances, computer peripherals and automation equipment, and high-speed multimedia data communication. Doing. IEEE1394 is a high speed serial bus protocol that supports Isochroous transmission, which enables 400Mbps speed and real-time video transmission, and is rapidly being adopted in digital home appliances, PCs and peripherals, aviation and automation equipment. The advantage of IEEE1394 is that the current supported speed is 400Mbps, which can support the transmission of multiple digital video channels and high resolution scan data. IEEE1394 is a peer-to-peer protocol that allows cameras, printers, scanners, and printers to communicate directly without the control of the host computer. Also, the devices are hot-plug-in that can be inserted into or removed from the bus during operation. It automatically recognizes and manages each other between devices without having to assign IDs and terminate them like SCSI. Since IEEE1394 is powered by a cable, peripheral devices do not need to be powered. As digitalization of home appliances is accelerating around TVs and set-top boxes, the necessity of tying them together and connecting them with PCs and peripheral devices is emerging. IEEE 1394 technology enables this. So far, complex connectors and cables from audio and video equipment and PCs can be unified with one IEEE1394 cable.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to provide an IEEE1394 method for transmitting high-speed data over a wired cable to a high-speed wireless LAN of IEEE802.11b. The high-speed data of multimedia data, video equipment, and storage devices are integrated wirelessly to provide convenience for use. In order to achieve the above object, the ultra-high speed wireless LAN apparatus using the IEEE1394 according to an embodiment of the present invention,

A technical feature of the technical structure is that the server CPU links the link layer of the IEEE1394 device with the MAC of the IEEE802.11b.

1 is a conceptual diagram illustrating a network configuration using a general wireless LAN.

2 is a general conceptual diagram of an IEEE 1394 device.

3 is a block diagram illustrating a combination of IEEE 1394 and IEEE 802.11b wireless LAN.

Explanation of symbols on the main parts of the drawings

39: antenna, 40: IEEE802.11x wireless section, 41: physical layer interface, 42: wireless connection interface, 43: clock generator DLL, 44: IEEE802.11x MAC protocol engine, 45: WEP engine algorithm section, 46: memory controller 47: SRAM, 48: flash memory, 49: processor interface, 50: PC card / Ethernet interface, 51: USB interface, 52: USB transceiver, 53: DRAM, 54: flash memory, 55: memory controller, 56: Web server CPU, 57: 10/100 Base Ethernet MAC, 58: 10/100 Base TX Transceiver, 59: Ethernet Interface, 60: Flash Memory, 61: SRAM, 62: EEPROM, 63: IEEE1394 Link Layer, 64: IEEE1394 Physical layer, 65: IEEE1394 transceiver, 66: DC power supply

Hereinafter, embodiments of the present invention configured as described above, according to the technical spirit of the high-speed wireless LAN apparatus using IEEE1394 will be described in detail with reference to the drawings.

FIG. 3 is a block diagram of a high speed wireless LAN apparatus using IEEE 1394 according to an embodiment of the present invention.

As shown in the drawing, it includes a MAC 201 for processing data of a wireless LAN, a web server CPU 56, and an IEEE 1394 link layer 63.

The IEEE802.11x wireless unit which processes the wireless LAN frequency of the wireless LAN circuit converts the wireless signal received through the antenna 39 into baseband and is applied to the wireless access interface 42 through digital conversion to perform digital signal processing. It is transmitted to the web server CPU 56 via the PC card / Ethernet interface 50. It is transmitted to the IEEE1394 link layer 63, which is an integral part of the IEEE1394, through the Ethernet interface 59 which is in charge of the interface with the IEEE1394, and is converted to the IEEE1394 protocol, which is then modulated by the IEEE1394 physical layer 64 which is in charge of the IEEE1394 physical layer. It is converted into a serial analog signal by the IEEE1394 transceiver 65 for transmission back to the 1394 cable and transmitted to the 1394 application. In addition, the 1394 data is converted into wireless data in the IEEE802.11x unit through the reverse process described above, and the data is transmitted to the wireless LAN-equipped computer or the Internet via an antenna.

As described above, the present invention allows an IEEE 1394 application device to use an IEEE 1394 device wirelessly at a short distance or a remote location by using a high-speed wireless LAN device.

Although preferred embodiments of the present invention have been described above, various changes, modifications, and equivalents of the present invention may be used. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. That is, the next-generation wireless LAN of IEEE802.11a with a frequency band of 5 GHz band and data transmission rate of 54 Mbps, and the next-generation wireless LAN of IEEE802.11g with a frequency band of 2.4 GHz band identical to IEEE802.11b and a data transmission rate of 54 Mbps Can be combined with the method. Therefore, the above description does not limit the scope of the invention defined by the limits of the claims.

As described above, the high-speed wireless LAN device using the IEEE1394 according to the present invention by integrating the IEEE1394 application device and the IEEE802.11b wireless LAN device in each of the independent areas through the ultra-high speed wireless LAN device It is possible to use heterogeneous multimedia data. In addition, the present invention has the additional advantage that the data between the IEEE1394 can be transmitted via the WLAN device, the transmission and installation of the data between the IEEE1394 is free.

Claims (3)

An ultra-high speed WLAN apparatus using IEEE1394, characterized in that configured to perform an interface between the MAC of the IEEE802.11b wireless LAN and the link layer of the IEEE1394 wireless LAN. The ultra-high speed WLAN apparatus of claim 1, wherein the apparatus is configured to perform an interface between the IEEE 802.11a wireless LAN of the next standard and the link layer of the IEEE1394 wireless LAN. The wireless LAN MAC and the IEEE1394 link according to claim 1 or 2, wherein the data transmission between the applications using the IEE1394 method is performed using the IEEE802.11b and the IEEE802.11a methods. Ultra-high speed wireless LAN device using IEEE1394, characterized in that configured in a way to perform the interface between the layers.