KR20050020069A - Wireless lan access point with built-in antenna, and using detachable wireless lan card - Google Patents

Abstract

PURPOSE: A wireless LAN access point using a detachable wireless LAN card and having an embedded antenna is provided to on-board a pattern antenna or a chip antenna, thereby being usable regardless of a usage frequency band and a kind of a detachable wireless LAN card, while guaranteeing an optimum performance and stability. CONSTITUTION: A PCB is used for mounting ICs and parts for wireless LAN communication. A card detachable connector(31) is installed on the PCB. A main controller(33) decodes inputted data, respectively, and controls designated wireless LAN communication or wired LAN communication. A wireless LAN card(32) is detachably connected to the card detachable connector(31), and performs the wireless LAN communication. A wired LAN processor(34) performs the wired LAN communication. An embedded antenna(ANT) is on-boarded on the PCB, and is connected to the wireless LAN card(32).

Description

WIRELESS LAN ACCESS POINT WITH BUILT-IN ANTENNA, AND USING DETACHABLE WIRELESS LAN CARD}

The present invention relates to a wireless LAN access point using a detachable wireless LAN card, and in particular, by embedding an antenna such as a pattern antenna or a chip antenna on board (ON Board), the type of removable wireless LAN card and the frequency band used The present invention relates to a wireless LAN access point having a built-in antenna and using a detachable WLAN card that can be used regardless, guaranteeing optimum performance and stability, and possibly eliminating the use of an external antenna.

In general, a wireless LAN access point is a device supporting an interworking service between a wireless LAN service area and an existing wired LAN. The WLAN access point is connected to a wireless LAN card and wirelessly communicates with a wireless LAN in a wireless LAN network. It can also perform a wired LAN communication with a wireless LAN network and an external communication network (for example, the Internet). In particular, in a wireless LAN network, a wireless LAN card connected to an access point has an antenna for wireless communication with a wireless LAN card connected to each terminal (for example, a computer), and the wireless communication card has an antenna. shall.

In particular, as a method of applying an antenna for RF communication in a conventional access point, there is a method of using an external antenna and a method of using an internal antenna embedded in a WLAN card, as described below. It is used interchangeably.

1 is a schematic diagram of an access point using a conventional external antenna.

An external antenna ANT1 is installed in the access point 11 shown in FIG. 1, which is installed in an external mechanism of the access point 11 and is detachable from the access point 12. Connected to the wireless LAN card 12 and a cable.

If the external antenna ANT1 is a single band antenna, a 2.4 GHz or 5 GHz antenna will be used, and if the external antenna ANT1 is a dual band antenna, a common antenna of 2.4 GHz and 5 GHz Will be used.

2 is a schematic diagram of a WLAN system using a conventional built-in antenna.

In the access point 21 illustrated in FIG. 2, an antenna is installed in a wireless LAN card 22 that is detachably connected, and the internal antenna is built in an external protrusion of the wireless LAN card 22.

The built-in antenna of the WLAN card 22 may be a pattern antenna implemented as a pattern on a PCB of the WLAN card or a chip antenna mounted in a chip form on the board. In the form of a structure of a WLAN card, a small structure antenna may be applied.

However, in recent years, the development of an access point that satisfies both the 2.4 GHz band (IEEE 802.11b) and the 5 GHz band (IEEE 802.11b) is required for the WLAN access point. In this case, each frequency band is required. There is a tendency that at least two antennas are required for each frequency band when the antenna for the WLAN to be applied is required and the diversity of the antenna is considered.

However, adopting two or more external antennas in terms of product appearance does not have a favorable market response, and increases the price of an access point. In this case, a dual band external antenna may be employed. The antenna is not performing the required performance stabilization, and even if the performance of the dual band external antenna is stabilized to some degree, the circuit of the RF (radio signal) receiver is complicated, and the configuration is difficult, and factors such as a rise in product prices It is undesirable to apply a dual band external antenna.

In addition, even in the case of a single band access point, there is a trend to avoid the use of an external antenna for cost reduction.

On the other hand, in the case of the access point currently under development, a mini-PCI type of embedded WLAN card standardized for a small sized product such as a laptop is used. As it is used for desktop computer or notebook computer, it is not used for the purpose. If the Mini-PCI wireless LAN card has a built-in antenna like the conventional PCMCIA wireless LAN card, most of the computers adopt metal chassis for EMI. Due to the mechanical problem and the spatial problem that the Mini-PCI card is located inside the PC, there is a problem that the built-in antenna is difficult to achieve effectiveness. In addition, in the case of Mini-PCI type cards, since the size of the card is limited by the PCI standard, it is a waste of space and cost to mount a built-in antenna that requires a certain effective area in the limited area as described above only for the access point. There is a problem that follows.

The present invention has been proposed to solve the above problems, and its purpose is to embed an onboard (board) antenna such as a pattern antenna or a chip antenna, regardless of the type and removable frequency band of the removable WLAN card. It is possible to provide a wireless LAN access point having a built-in antenna that can be used without using, guaranteeing optimal performance and stability, and when using a detachable WLAN card, can eliminate the use of an external antenna as much as possible.

In order to achieve the above object of the present invention, the wireless LAN access point of the present invention

A circuit board for mounting an integrated circuit and components for wireless LAN communication;

A card detachable connector installed on the circuit board;

A main control unit mounted on the circuit board and adopting a mini PCI scheme to decode input data, respectively, and control a designated wireless LAN or wired LAN communication;

A wireless LAN card detachably connected to the card detachable connector and performing wireless LAN communication under the control of the controller;

A wired LAN processor configured to perform wired LAN communication under the control of the controller; And

Built-in antenna on the circuit board and connected to the wireless LAN card through a cable

Characterized in having a.

In addition, the wireless LAN access point of the present invention is characterized in that it further comprises an external connection for the antenna connection, and an external antenna connected through the external connection.

In addition, the built-in antenna is characterized in that it comprises at least one antenna for the frequency band formed in a conductive pattern on the circuit board and / and a chip antenna mounted in the form of a chip on the circuit board.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

3 is a block diagram of a WLAN access point according to the present invention.

Referring to FIG. 3, the WLAN access point according to the present invention includes a circuit board (PCB) for mounting an integrated circuit and components for WLAN communication, and a card detachable connector 31 installed on the circuit board (PCB). And a main control unit (33) mounted on the circuit board (PCB) and adopting a mini PCI scheme to decode the input data to control designated wireless LAN or wired LAN communication, and the card detachable connector 31. A wireless LAN card 32 detachably connected to the wireless LAN card 32 to perform wireless LAN communication under the control of the controller 33, and a wired LAN processing unit 34 to perform wired LAN communication under the control of the controller 33; It is mounted on the circuit board (PCB) includes a built-in antenna (ANT) connected to the wireless LAN card 32 through a cable.

The WLAN access point further includes a display unit for displaying an operation state, a power unit for supplying necessary power therein, and a console unit for checking internal data for A / S or error checking.

Here, the internal antenna is independent of the position of the circuit board, but the outermost edge of the circuit board or near the edge of the circuit board in order to reduce mutual interference with other circuit components and elements or signal patterns and improve radiation efficiency. It is preferable to install in.

4 is a configuration diagram of a wireless LAN card according to the present invention.

Referring to FIG. 4, the WLAN card 32 is connected to the main control unit 33 in a mini PCI scheme to modulate a signal from the main control unit 33, demodulates a received signal, and then performs the main control unit. Control unit 321 converts the signal into a recognizable signal form, and converts a transmission signal into a carrier frequency under control of the card control unit 321, and removes the carrier frequency from the received signal to the card control unit 321. An RF converter 322 for outputting, a transmission and reception processor 323 for filtering and amplifying a transmission signal from the RF converter 322, filtering and amplifying a received signal, and outputting the RF signal to the RF converter 322; Under the control of the card control unit 321 and electrically connected to the built-in antenna, and outputs a transmission (TX) signal from the transmission and reception processing unit 323 to the built-in antenna (ANT), the built-in antenna ( The bridge switch 324 outputs a reception (RX) signal from the ANT to the transmission / reception processing unit 323, and an impedance matching unit 325 matching impedances of both sides between the internal antenna and the bridge switch.

The transmission / reception processing unit 323 transmits a transmission bandpass filter for passing a transmission signal from the RF converter 322 to a predetermined transmission band for transmission (TX) signal processing, and a signal from the transmission bandpass filter. A reception bandpass filter which amplifies and outputs the power amplifier to the bridge switch 324 and passes the received signal from the bridge switch 324 to a predetermined reception band for RX signal processing; And a low noise amplifier for amplifying the signal from the reception bandpass filter with low noise and outputting the signal to the RF converter 322. In addition, a balance between the transmission bandpass filter and the RF converter 322 includes a balun (balun) for converting the balanced signal.

The built-in antenna may be a pattern antenna formed of a conductive pattern on the circuit board and at least one antenna of a chip antenna mounted in a chip form on the circuit board, and the pattern antenna and the chip antenna may be simultaneously applied together. .

In addition, the built-in antenna may include two pattern antennas, or may include two chip antennas, or may include one pattern antenna and one chip antenna.

 In this case, when two pattern antennas are applied, the internal antenna may include a first band pattern antenna formed of a conductive pattern on the circuit board and a second band pattern antenna formed of a conductive pattern on the circuit board. When the two chip antennas are applied, the internal antenna may include a first band antenna mounted on the circuit board in the form of a chip and a second band antenna mounted on the circuit board in the form of a chip.

On the other hand, in the WLAN access point, there is a method of connecting the WLAN card and the built-in antenna in a conductive pattern on the circuit board between the WLAN card and the built-in antenna, or a separate connector Is installed in each of the wireless LAN card and the internal antenna, and there is a method of connecting these connectors with a cable.

In this case, when connecting with a connector and a cable, the wireless LAN access point includes an antenna connection cable (U.FL) connector formed on the wireless LAN card and an antenna connection cable (U.FL) formed on the internal antenna. It may include a connector and a cable connecting the two antenna connection cable (U.FL) connector. Here, the type of connector can be changed according to the product situation and suitability.

As the antenna embedded in the WLAN access point of the present invention described above, a dual band antenna capable of receiving both a 2.4 GHz WLAN band and a 5 GHz WLAN band may be applied, or a 2.4 GHz WLAN band and a 5 GHz band. Two internal antennas for each band may be applied to receive the WLAN bands. Accordingly, the wireless LAN card can be connected and used regardless of the use band of the wireless LAN card.

On the other hand, when receiving both the 2.4GHz WLAN band and 5GHz WLAN band, and implements a diversity antenna in each band, at least four antennas are required. In this case, all four antennas may be implemented on the circuit board as an internal antenna, but an external antenna may be used when there is a problem in the installation space of the circuit board or other reasons.

When implemented as a diversity antenna in an access point of the present invention, the WLAN card portion further includes a diversity antenna selector for selecting an antenna having a good reception sensitivity among two diversity antennas.

In this case, the WLAN access point of the present invention may further include an external connection for an antenna connection, and an external antenna connected through the external connection.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 3, when the wireless LAN card 32 is inserted into the card detachable connector 31 of the wireless LAN access point according to the present invention, and connected to an internal antenna using a cable with a connector at both ends, the wireless LAN The built-in antenna ANT of the access point and the WLAN card 32 are electrically connected. At this time, the main control unit 33 of the wireless LAN access point is connected to the wireless LAN card 32 in a mini-PCI method, and decodes input data to control designated wireless LAN or wired LAN communication. Under the control of 33, the wireless LAN card 32 is connected to the internal antenna ANT to perform wireless LAN communication, and the wired LAN processing unit 34 performs wired LAN communication under the control of the controller 33. .

At this time, the built-in antenna installed in the circuit board (PCB) of the access point of the present invention is an antenna capable of receiving both the 2.4GHz WLAN band and 5GHz WLAN band, one dual-band internal antenna, or two Since the antenna is implemented as a single band, the WLAN card 32 can be used regardless of the band used.

First, an operation of a WLAN card of a WLAN access point according to the present invention will be described.

Referring to FIG. 4, a reception process of the WLAN card 32 will be described. The antenna is received by an internal antenna ANT mounted on a circuit board PCB of the WLAN access point, that is, a pattern antenna or a chip antenna. The WLAN signal is input to the transmission and reception processor 323 through the impedance matching unit 325 and the bridge switch 324, filtered, and then amplified. Thereafter, when the received signal output from the transmission / reception processing unit 323 is output to the card control unit 321 after the carrier frequency is removed from the RF converter 322, the card control unit 321 demodulates the received signal and then the main control unit. Is converted into a recognizable signal type and provided to the main controller 33 of the WLAN access point through the interface of the mini PCI.

The impedance matching unit 325 matches the impedance of both sides between the internal antenna and the bridge switch to minimize the loss of the signal, and the bridge switch 324 is a transmission path with the antenna or a reception path with the antenna. Select.

On the other hand, when a diversity antenna is implemented in an access point of the present invention, the diversity control selector provides a selection signal of an antenna having excellent reception sensitivity to the diversity antenna selector based on the reception state of each antenna. An antenna with a good reception state can be selected.

Referring to the transmission process of the WLAN card 32, when the card control unit 321 receives and modulates the transmission signal from the main control unit 33 of the WLAN access point to the RF converter 322, The RF converter 322 converts a transmission signal into a carrier frequency and provides the transmission / reception processing unit 323 under the control of the card control unit 321. In this case, the transmission and reception processing unit 323 filters and power-amplifies the transmission signal from the RF converter 322 and outputs the power to the internal antenna ANT through the bridge switch 324 and the impedance matching unit 325.

As described above, the access point of the present invention includes at least one internal antenna, which may be implemented as a pattern antenna, or may be implemented as a chip antenna, optionally with at least one internal antenna. It can also be used by installing an external antenna.

According to the present invention as described above, by embedding an antenna such as a pattern antenna or a chip antenna onboard (ON Board), can be used regardless of the type and removable frequency band of the removable WLAN card, the optimum performance And to ensure stability and to exclude the use of an external antenna as much as possible.

In addition, in the case of an access point using such a removable built-in wireless LAN card, by mounting the built-in antenna on the access point, it is possible to use a variety of built-in wireless LAN card that is widely used in personal computers, etc. without any further improvement, In the case of an access point using a plurality of WLAN cards, it is possible to obtain an economical effect of reducing the number of external antennas, which are usually used two per one WLAN card for diversity.

Since the above description is only a description of specific embodiments of the present invention, the present invention is not limited to these specific embodiments, and various changes and modifications of the configuration are possible from the above-described specific embodiments of the present invention. It will be apparent to those skilled in the art to which the present invention pertains.

1 is a schematic diagram of an access point using a conventional external antenna.

2 is a schematic diagram of a WLAN system using a conventional built-in antenna.

3 is a block diagram of a WLAN access point according to the present invention.

4 is a configuration diagram of a wireless LAN card according to the present invention.

Explanation of symbols on the main parts of the drawings

PCB: Circuit Board 31: Card Detachable Connector

32: wireless LAN card 33: main control

34: wired LAN processing unit ANT: built-in antenna

321: card control unit 322: RF converter

323: transmission and reception processing unit 324: bridge switch

325: impedance matching unit

Claims (9)

A circuit board (PCB) for mounting an integrated circuit and components for wireless LAN communication; A card detachable connector 31 installed on the circuit board (PCB); A main control unit (33) mounted on the circuit board (PCB) and adopting a mini PCI scheme to decode input data and control designated wireless LAN or wired LAN communication; A wireless LAN card 32 detachably connected to the card detachable connector 31 and performing wireless LAN communication under the control of the controller 33; A wired LAN processor 34 performing wired LAN communication under the control of the controller 33; And Built-in antenna on the circuit board (PCB) built-in antenna (ANT) connected to the wireless LAN card through a cable Wireless LAN access point having a built-in antenna, characterized in that it comprises a. The method of claim 1, wherein the wireless LAN card A card control unit 321 connected to the main control unit 33 in a mini PCI manner to modulate a signal from the main control unit 33, demodulate a received signal, and convert the signal into a signal form recognizable by the main control unit; An RF converter 322 for converting a transmission signal into a carrier frequency under the control of the card control unit 321 and removing the carrier frequency from the received signal and outputting the carrier frequency to the card control unit 321; A transmission and reception processing unit 323 for filtering and power-amplifying a transmission signal from the RF converter 322, filtering and amplifying a received signal, and outputting the filtered signal to the RF converter 322; Under the control of the card control unit 321 and electrically connected to the built-in antenna, and outputs a transmission (TX) signal from the transmission and reception processing unit 323 to the built-in antenna (ANT), from the built-in antenna (ANT) A bridge switch 324 for outputting a received (RX) signal to the transmit / receive processor 323; And Impedance matching unit for matching the impedance of both sides between the built-in antenna and the bridge switch Wireless LAN access point having a built-in antenna, characterized in that it comprises a. The method of claim 1, wherein the built-in antenna Wireless LAN access point having a built-in antenna, characterized in that consisting of at least one antenna for the frequency band formed in a conductive pattern on the circuit board. The antenna of any one of claims 1 to 3, wherein the built-in antenna A first band pattern antenna formed on the circuit board in a conductive pattern; And Pattern antenna for a second band formed of a conductive pattern on the circuit board Wireless LAN access point having a built-in antenna, characterized in that it comprises a. The method of claim 1, wherein the built-in antenna Wireless LAN access point having a built-in antenna, characterized in that consisting of at least one chip antenna mounted on the circuit board in the form of a chip. 6. The antenna according to any one of claims 1, 2 and 5, wherein the built-in antenna A first band antenna mounted on the circuit board in the form of a chip; And A second band antenna mounted on the circuit board in a chip form; Wireless LAN access point having a built-in antenna, characterized in that it comprises a. The method of claim 1, wherein the built-in antenna At least one frequency band antenna formed on the circuit board in a conductive pattern; And Chip antenna mounted on the circuit board in the form of a chip Wireless LAN access point having a built-in antenna, characterized in that it comprises a. The method of claim 1, wherein the WLAN access point is External connection for antenna connection; The wireless LAN access point having a built-in antenna further comprises an external antenna connected through the external connection. The method of claim 1, wherein the WLAN access point is An antenna connection cable connector formed on the WLAN card; An antenna connection cable connector formed on the internal antenna; Wireless LAN access point having a built-in antenna, characterized in that it further comprises a cable connecting the cable connector for connecting the two antennas.