KR101185939B1 - Wireless Lan Bi-Directional Amplifier and Wireless LAN communication system using the amplifier - Google Patents

Abstract

The present invention relates to a bidirectional amplifier for WLAN communication, and in particular, receives a wireless LAN wireless signal and a DC power signal transmitted from an AP, and outputs a wireless LAN wireless signal through a first output terminal, and through a second output terminal. A bias tee for outputting a direct current signal; A coupler configured to receive a branch wireless LAN signal output through the first output terminal of the bias tee and transmit the branched signal; A gain adjusting unit for adjusting and outputting a gain value of the WLAN wireless signal received from the coupler; A second switch for switching and outputting an output signal of the gain adjusting unit according to a transmission and reception mode; An amplifier for amplifying the output signal of the second switch; And a first switch for switching the signal amplified by the amplifier according to a transmission and reception mode and outputting the signal to a 3G-WLAN router for interworking a 3G public communication network and a wireless LAN network.

Description

Bi-directional amplifier for wireless LAN communication and wireless LAN communication system using the same {Wireless Lan Bi-Directional Amplifier and Wireless LAN communication system using the amplifier}

The present invention relates to a bi-directional amplifier, and more particularly, by using an amplifier to compensate for the loss when trying to connect an access point (AP) for WLAN using a router in a 3G mobile communication network. The present invention relates to a wireless LAN communication bidirectional amplifier capable of reducing the requirement of an AP and a wireless LAN communication system using the same.

Recently, the development of wireless communication technology is changing many things around life. Among them, the field of connecting large-scale carriers and many general consumers, such as IMT2000 and wireless Internet, is actively researched and developed.

In general, unlike a public wireless network in which an operator provides a service using a licensed band, a private wireless network (eg, WLAN, Bluetooth, etc.) utilizing an unlicensed band is directly accessed by a user. By purchasing and installing a device, you can build a network at a very low cost and use it for free. However, since private wireless networks have very small coverage, they can be used only in extremely limited areas where access point devices are installed, unlike public mobile telecommunication networks that can be accessed anytime and anywhere. These WLANs are conducting intense research and development by related companies and venture companies to develop core modules and application technologies based on spectrum spreading methods and to preoccupy the market.

On the other hand, in recent years, as the spread of smart phones and tablet PCs expands, as an alternative to efficiently distribute the rapidly increasing wireless data traffic (traffic), by sharing the AP using the 3G mobile communication infrastructure already installed coverage ( A method of expanding the area of use has been proposed.

In other words, in order to build a WLAN network in a building, an AP must be installed. In general, multiple APs must be installed in a separate space because the service is provided using one antenna attached to the AP. There are disadvantages. In addition, due to interior problems in the building, the AP is often installed on the ceiling, so it is difficult to maintain the daytime in places where many people gather. Therefore, as described above, a method of sharing a WLAN facility with an existing 3G mobile communication infrastructure installed in a building has been proposed.

1 is a diagram illustrating a WLAN AP installation method using a 3G mobile communication network. Referring to FIG. 1, a 3G-WLAN router 120 is used between a plurality of distributors 110 installed in a 3G mobile communication network (eg, WCDMA) to interwork a 3G network and a wireless LAN network, and the 3G-wireless wireless network. The WLAN router 120 connects and installs the AP 130 that allows each wireless terminal to access the WLAN network. By installing in this way, it is possible to share the AP for WLAN using the 3G network, thereby extending coverage.

However, when the AP is constructed using the 3G network as described above, the 3G-WLAN router 120 and the AP 130 may be connected to the antenna as shown in FIG. 1 due to the loss caused by the feeder and the distributor 110. There is a problem that must be installed in close proximity. Accordingly, since a plurality of 3G-WLAN router 120 and the AP 130 is required, there is a disadvantage that it is uneconomical. In addition, since the AP 130 should be installed in close proximity to the antenna, there are limitations in the installation location, and there is a problem that A / S is difficult when installing in the ceiling duct.

Disclosure of Invention An object of the present invention is to provide a WLAN communication bidirectional amplifier and a WLAN communication system using the same, by adding a WLAN communication bidirectional amplifier between an AP interworking a 3G network and a wireless LAN network and a loss of a feeder and a splitter. Is in.

In addition, an object of the present invention is a wireless LAN communication for enabling efficient signal amplification by adding a gain adjusting unit that can set and change the amplification gain in the WLAN communication bidirectional amplifier added between the router and the AP interworking the 3G network and the wireless LAN network The present invention provides a bidirectional amplifier and a wireless LAN communication system using the same.

In addition, an object of the present invention can be operated without using a separate power supply by using the DC power of the signal input from the AP in the bidirectional amplifier for wireless LAN communication added between the router and the AP interworking the 3G network and the wireless LAN as a driving power The present invention provides a bidirectional amplifier for WLAN communication and a WLAN communication system using the same.

In order to achieve the above object, the WLAN communication bidirectional amplifier according to the present invention receives a wireless LAN wireless signal and a DC power signal transmitted from the AP, and outputs the wireless LAN wireless signal through the first output terminal, A bias tee for outputting a DC current signal through the second output terminal; A coupler configured to receive a branch wireless LAN signal output through the first output terminal of the bias tee and transmit the branched signal; A gain adjusting unit for adjusting and outputting a gain value of the WLAN wireless signal received from the coupler; A second switch for switching and outputting an output signal of the gain adjusting unit according to a transmission and reception mode; An amplifier for amplifying the output signal of the second switch; And a first switch for switching the signal amplified by the amplifier according to a transmission and reception mode and outputting the signal to a 3G-WLAN router for interworking a 3G public telecommunication network and a wireless LAN network.

In order to achieve the above object, the wireless LAN communication system according to the present invention, in the mobile communication system in which a signal of the 3G mobile communication network is transmitted and received through a plurality of antennas by at least one distributor, by sharing the 3G mobile communication network A wireless LAN communication system for providing a LAN communication network, comprising: a 3G-WLAN router located between two distributors and interworking a signal of the 3G mobile communication network with a signal of a wireless LAN network; A bidirectional amplifier for wireless LAN communication, positioned between the 3G-WLAN router and an AP, for amplifying a signal transmitted and received between the 3G-WLAN router and the AP; And an AP connected to the bidirectional amplifier for wireless LAN communication and providing a wireless connection to a wireless terminal capable of accessing a wireless LAN.

According to the present invention, by compensating for the loss of the feeder and the splitter by the bidirectional amplifier for WLAN, the requirement of the 3G-WLAN router and the AP is reduced, thereby reducing the cost.

In addition, there is less restriction on the AP installation place by the bidirectional amplifier for wireless LAN according to the present invention, in particular, when the AP is installed in the bit chamber, etc., there is an advantage that A / S is easy.

In addition, by receiving the driving power of the wireless LAN bidirectional amplifier according to the present invention through the feed line from the AP there is an advantage that it is possible to operate the bidirectional amplifier without a separate driving power.

In addition, there is an advantage that an efficient signal amplification is possible by adding a gain adjusting unit for setting and changing the amplification gain in the bidirectional amplifier for WLAN according to the present invention.

1 is a view showing a WLAN AP installation structure using a general 3G mobile communication network.
2 is a diagram illustrating an embodiment of a WLAN AP installation structure using a bidirectional amplifier for WLAN communication according to the present invention;
3 is a diagram illustrating a detailed configuration of a bidirectional amplifier for WLAN communication according to an embodiment of the present invention.

In the present invention, when a 3G mobile communication network (e.g., WCDMA, HSDPA) uses a router to connect an access point (WLAN) for a WLAN, a small number is compensated for by the feeder and the distributor. The present invention proposes a WLAN communication bidirectional amplifier and a method for configuring a WLAN communication system using the bidirectional amplifier, which enable a WLAN to establish a wide coverage wireless network.

That is, according to the present invention, by adding a bidirectional amplifier between the router and the AP interworking with the 3G mobile communication network and the wireless LAN network, the location of the router and the AP does not need to be installed in close proximity to the antenna. Accordingly, the number of routers and APs used can be reduced, resulting in economic benefits. In addition, the constraints of the AP installation place is reduced, and the A / S of the equipment is facilitated because the AP can be installed in the bit seal.

In addition, according to an embodiment of the present invention, by adding a gain adjusting unit for setting and changing the amplification gain to the bidirectional amplifier for WLAN communication, efficient signal amplification is possible. In addition, by using the DC power of the signal input from the AP in the bidirectional amplifier for wireless LAN communication according to the present invention as a driving power it is possible to operate without a separate power supply.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 is a diagram illustrating a WLAN AP installation structure using a bidirectional amplifier for WLAN communication according to the present invention. Referring to FIG. 2, in a typical 3G mobile communication network, signals are distributed through a plurality of distributors 110, and signals are transmitted to a wireless space through a plurality of antennas. In this case, the 3G-WLAN router 120 is installed between the plurality of distributors 110 to interwork with the 3G mobile communication network and the wireless LAN network for interworking with the wireless LAN network through the 3G mobile communication network. In addition, by connecting and installing the AP 130 that allows each wireless terminal to access the WLAN network to the 3G-WLAN router 120, the WLAN AP is shared using the 3G mobile communication network.

On the other hand, according to the present invention by installing a WLAN Bi-Directional Amplifier (200) between the 3G-WLAN router 120 and the AP 130, the installation constraints of the AP 130 is reduced. Therefore, as shown in FIG. 2, since the AP 130 does not need to be installed close to the antenna, the demand of the AP 130 to be installed can be reduced, and the A / S can be easily installed since the AP 130 can be installed in the bit chamber.

In addition, according to an embodiment of the present invention, the WLAN communication bidirectional amplifier 200 receives DC power simultaneously with the WLAN wireless signal from the AP 130 and uses it as a driving power of the WLAN communication bidirectional amplifier 200. It may be. Therefore, the additional power supply according to the additional installation of the bidirectional amplifier 200 for WLAN communication is not required. Of course, according to the embodiment of the present invention, the WLAN may provide its own power supply to the bidirectional amplifier 200 for communication, and may select and supply power and its own power provided from the AP 130. Detailed description thereof will be described later with reference to FIG. 3.

3 is a diagram illustrating a detailed configuration of a bidirectional amplifier for WLAN communication according to an embodiment of the present invention. Referring to FIG. 3, a bidirectional amplifier 200 for WLAN communication according to an embodiment of the present invention may include a first switch 301, a low pass filter (hereinafter referred to as LPF) 302, and a band. Band pass filter (hereinafter referred to as 'BPF') 303, amplifier 304, low noise amplifier 305, second switch 306, gain adjuster 307, Bias Tee 311, Third Switch 309, DC-DC Converter 310, Coupler 308, RF Detector 312, TDD The control unit may include a time division duplex controller 313.

The signal transmitted from the AP 130 is a signal in which a WLAN wireless signal and a DC (direct current) power signal are mixed as described above with reference to FIG. 2, and the coupler 308 and the third switch 309 through the bias tee 311. Branch to. The signal input to the bias tee 311 is separated into a WLAN wireless signal (ie, an RF signal) and a DC signal according to the characteristics of the bias tee 311 and output. That is, the DC signal among the output signals of the bias tee 311 is supplied to the third switch 309, and the WLAN wireless signal is transmitted to the coupler 308.

The wireless signal transmitted from the bias tee 311 is branched to the gain adjuster 307 and the RF detector 312 through the coupler 308. The gain adjusting unit 307 automatically or manually adjusts the gain setting according to the feed line loss. For example, a dip switch or the like may be installed in the gain adjusting unit 307 to manually change the gain from the outside. The gain-adjusted WLAN signal from the gain adjuster 307 is transmitted to the amplifier 304 through the second switch, and the signal amplified by the amplifier 304 is filtered by the LPF 302 and then the first switch 301. It is transmitted to the 3G-WLAN router 120 through.

Meanwhile, the signal branched from the coupler 308 and input to the RF detector 312 detects a signal from the RF detector 312 and provides a signal detected by the TDD controller 313. The TDD controller 313 checks the received detection signal and performs transmission / reception control based on time synchronization.

That is, as a result of confirming the received signal, when the wireless LAN signal is transmitted from the AP 130 to the router 120, the first switch 301 is controlled to switch to the LPF 302, and the second The switch 306 controls to switch to the amplifier 304. On the contrary, when the received signal is confirmed, when the wireless LAN signal is transmitted from the router 120 to the AP 130, the first switch 301 is controlled to switch to the BPF 303 and the second switch. 306 controls to switch to LNA 305.

Therefore, when the wireless LAN signal is transmitted from the router 120 to the AP 130 under the control of the TDD controller 313, the signal received from the router 120 may be configured to operate the first switch 301. Signals input to the BPF 303 and filtered by the BPF 303 are amplified in the LNA 305. Then, the second switch 306, the gain adjusting unit 307, the coupler 308, and the bias tee 311 are transmitted to the AP 130.

On the other hand, the DC power branched from the bias tee 311 is input to the third switch 309, the third switch is provided from the self-power provided through the DC adapter (DC adapter) and provided from the bias tee 311 It selects DC power and outputs it.

The DC power selected by the third switch 309 is regulated by the DC-DC converter 310 and then supplied to the VDD power for driving the device of the bidirectional amplifier 200 for WLAN communication.

That is, the bidirectional amplifier 200 for WLAN communication according to the embodiment of the present invention selects a DC power source provided through its own DC adapter and a DC power source that is simultaneously transmitted from the AP 130 with the WLAN wireless signal and uses a self-driving power source. Will be used. In this case, the AP 130 supplies DC power (eg, 48V) provided from a Power of Ethernet (PoE) to an RF output port. That is, it is possible to simultaneously drive one AP 130 and one bidirectional amplifier 200 for WLAN communication using power provided from one PoE port.

On the other hand, in the embodiment of the present invention has been described with respect to specific embodiments, various modifications are possible without departing from the scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

110: Splitter 120: 3G-Wireless Router
130: AP 200: bidirectional amplifier for wireless LAN
301, 306, 309: switch 302: LPF
303: BPF 304: Amplifier
305: LNA 307: gain adjustment unit
311: Bias Tee 310: DC-DC Converter
308: Coupler 312: RF Detector
313: TDD control unit

Claims (8)

A bias tee receiving a WLAN wireless signal and a DC power signal transmitted from an AP, outputting a WLAN wireless signal through a first output terminal, and outputting a DC current signal through a second output terminal;
A coupler configured to receive a branch wireless LAN signal output through the first output terminal of the bias tee and transmit the branched signal;
A gain adjusting unit for adjusting and outputting a gain value of the WLAN wireless signal received from the coupler;
A second switch for switching and outputting an output signal of the gain adjusting unit according to a transmission and reception mode;
An amplifier for amplifying the output signal of the second switch; And
And a first switch for switching the signal amplified by the amplifier according to a transmission and reception mode and outputting the signal amplified to a 3G-WLAN router for interworking a 3G public telecommunications network and a wireless LAN network.
According to claim 1, The bidirectional amplifier for wireless LAN communication,
An RF detector for detecting a radio signal from a WLAN radio signal received from the AP; And
And a TDD control unit which checks the signal detected by the RF detector and controls the first switch and the second switch according to a time-synchronizing transmission / reception mode.
According to claim 1, The bidirectional amplifier for wireless LAN communication,
And a third switch for selecting and outputting a DC current signal output through the second output terminal of the bias tee and a DC current signal provided from a DC adapter. 2.
The method of claim 1, wherein the gain adjusting unit,
A bidirectional amplifier for WLAN communication, characterized in that the gain can be changed by a dip switch provided outside the device.
In a wireless communication system in which a signal of a 3G mobile communication network is transmitted and received by a plurality of antennas by at least one distributor, the wireless LAN communication system for providing a wireless communication network by sharing the 3G mobile communication network,
A 3G-WLAN router positioned between two splitters and interworking a signal of the 3G mobile communication network with a signal of a wireless LAN network;
A bidirectional amplifier for wireless LAN communication, positioned between the 3G-WLAN router and an AP, for amplifying a signal transmitted and received between the 3G-WLAN router and the AP; And
And an AP connected to the bidirectional amplifier for wireless LAN communication and providing a wireless connection to a wireless terminal capable of wireless LAN connection.
The bidirectional amplifier for wireless LAN communication,
A WLAN communication system comprising: branching a DC current signal by a bias tee from a WLAN wireless signal and a DC power signal received from the AP to use as driving power of the bidirectional amplifier for WLAN communication.
delete The method of claim 5, wherein the bidirectional amplifier for wireless LAN communication,
An RF detector for detecting a radio signal from a WLAN radio signal received from the AP; And
And a TDD control unit which checks the signal detected by the RF detector and controls the transmission / reception mode based on time synchronization.
The method of claim 5, wherein the bidirectional amplifier for wireless LAN communication,
And a gain adjusting unit for adjusting and outputting a gain value of a wireless signal to be transmitted and received.

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