KR20060001210A - System and method for switching antenna - Google Patents

Abstract

The present invention relates to an antenna switching system and method, and in particular, the reception signal level of each antenna continuously using a plurality of antennas in all terminals using a wireless communication network such as PDA, smart phone, WLL, GSM, WLAN, mobile communication terminal, etc. The present invention relates to an antenna switching system and method for maintaining a call quality that is most suitable for a wireless network environment by monitoring a signal and switching to an optimal antenna representing the largest received signal level.

According to the present invention, since a plurality of antennas are used and continuous reception signal level monitoring is performed for the antennas and the reception path setting is intelligent, the best call quality can be maintained in a wireless network environment. It can operate efficiently and flexibly compared to the existing antenna structure by setting the critical received signal level suitable for the user's wireless environment by simply adjusting the register value by operating it variably according to the environment, and also by using a small thin film, sticker type microstrip antenna array By installing a plurality of antennas in a limited space, an antenna suitable for a wireless environment can be selected.

Mobile terminal, antenna, signal level, GPIO

Description

Antenna switching system and method {System And Method For Switching Antenna}             

1 illustrates an antenna switching system according to an embodiment of the present invention.

2A shows a lookup table before alignment;

2B shows a lookup table after alignment.

3 is a flowchart illustrating an antenna switching method according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: antenna array unit 20: switching unit

30: signal receiver 40: register

50: comparator 51: buffer

60: control unit

The present invention relates to an antenna switching system and method, and more particularly, to a personal digital assistant (PDA), a smart phone, a wireless local loop (WLL), a global system for mobile communication (GSM), a wireless local area network (WLAN) Wireless network by setting the receiving path by monitoring the received signal level of each antenna continuously by using a plurality of antennas in all terminals using the wireless communication network such as mobile communication terminal and switching to the optimal antenna representing the largest received signal level. The present invention relates to an antenna switching system and method for maintaining a call quality most suitable for an environment.

In general, a conventional fixed, retractable, patch-mounted antenna, PCS (Personal Communication Service), DCS (Digital Cellular Service) and GPS (Global Positioning System) In dual & tri mode terminals that support, the call quality of the terminal is improved with fixed antenna gain through NOMINAL IMPEDANCE Matching for each mode between the terminal and the antenna.

Although the above-mentioned conventional technology can maintain a satisfactory call quality in domestic terminals using PCS-only or DCS-only single mode, the terminal used by switching several modes at the same time, especially the terminal In the Poor Coverage section, which is a measure of the call quality, the antenna characteristics of each mode are not independent, so it is difficult to satisfy the call quality with the optimum antenna gain for each mode in the correlation (Trade_Off).

In order to solve the problems as described above, an object of the present invention is to implement an antenna having the optimum antenna gain and nominal impedance matching conditions for each mode, and to monitor the continuous call quality level to enable intelligent antenna switching control It is.

Another object of the present invention is to obtain an optimal antenna gain for each band according to a user's request for a plurality of antennas.

In addition, another object of the present invention is to select an optimal antenna using the received signal level for matching the antenna with the mobile communication terminal.

In addition, another object of the present invention is to bring a superior call quality in the weak signal section without a difference in call quality for each mode such as DCS, PCS and GPS.

In order to solve the above object, the antenna switching system of the present invention, the antenna array unit consisting of a plurality of antennas for receiving a signal; A switching unit configured to sequentially switch the plurality of antennas according to a switching signal and switch to an antenna having the largest received signal level among the corresponding antennas according to an optimum switching selection control signal to set a reception path; A signal receiver for measuring a received signal level of a signal received through the sequentially switched antennas; A register for storing a threshold received signal level; A comparator for generating the switching signal, comparing the plurality of antenna reception signal levels with the threshold reception signal level, and sequentially storing and processing a reception signal level of an antenna smaller than a corresponding reception signal level in a buffer lookup table; And a control unit for detecting an optimal antenna GPIO indicating the largest received signal level in the lookup table and transmitting the optimal switching selection control signal for setting a reception path to the antenna corresponding to the corresponding GPIO.

In addition, the antenna switching method of the present invention includes the steps of switching to any one of the plurality of antennas in accordance with the switching signal and measuring the received signal level of the received signal; Storing the received signal level of the currently switched antenna in a look-up table when the measured received signal level is less than a threshold received signal level; When the currently switched antenna is the last one of the plurality of antennas, arranging received signal level data in ascending order of received signal levels in the lookup table and reporting that the terminal is in a weak electric field state; Retrieving the irradiation table according to the weak field condition report, recognizing a GPIO for an optimal antenna representing the largest received signal level, and transmitting an optimal switching selection control signal for setting a reception path to an antenna corresponding to the GPIO. Process; And switching to an antenna according to the optimum switching selection control signal to set a reception path.

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

First, an antenna switching system according to an exemplary embodiment of the present invention will be described with reference to FIG. 1.

1 is a view showing an antenna switching system according to an embodiment of the present invention.

An antenna switching system according to an exemplary embodiment of the present invention includes an antenna array unit 10, a switching unit 20, a signal receiving unit 30, a comparator 50, and a register 40. And a control unit 60.

The antenna array unit 10 is composed of a plurality of antennas (R1, R2, ..., RN) for receiving a signal. Here, the antenna structure is a micro strip film type and can be attached to the inner surface of the terminal in a small, lightweight sticker method. That is, the antenna structure is a micro film type pattern shape, which can be attached inside the terminal by designing a plurality of antenna patterns on one film. The number of applicable antennas is proportional to the internal space of the terminal and the number of antennas can be variably adjusted.

The switching unit 20 sequentially switches the plurality of antennas according to a switching signal and sets a reception path by switching to the antenna having the largest received signal level among the corresponding antennas according to an optimum switching selection control signal.

The signal receiver 30 measures a received signal level of a signal received through the sequentially switched antennas.

The register 40 stores a fixed threshold value of the weak field interval determination. Here, the threshold received signal level may be variably designated according to a wireless environment and has a threshold value determined as a weak electric field section.

The comparison unit 50 generates the switching signal, compares the plurality of antenna reception signal levels with the threshold reception signal level, and sequentially stores the reception signal level of the antenna smaller than the corresponding threshold reception signal level in the buffer 51. To be treated. Here, the buffer 51 is provided in the comparator 50 and has a look-up table in which the plurality of antenna received signal level data are sequentially stored. Here, as shown in FIG. 2, the survey table includes an antenna field indicating a unique number of the plurality of antennas, a general purpose input / output pin (GPIO) field which is an input / output pin number corresponding to each antenna one-to-one, and the respective fields. And a received signal level field indicating a received signal level of the antenna. FIG. 2A is a diagram showing a look-up table before alignment, and FIG. 2B is a diagram showing a look-up table after alignment.

The control unit 60 detects an optimum antenna GPIO indicating the largest received signal level in the lookup table and transmits the optimal switching selection control signal for setting a reception path to an antenna corresponding to the corresponding GPIO. To send.

Hereinafter, an antenna switching method according to an embodiment of the present invention will be described with reference to FIG. 3.

3 is a flowchart illustrating an antenna switching method according to an embodiment of the present invention.

First, the switching unit 20 according to the switching signal of the comparator 50, the first antenna (Rn = R1, which is any one of the plurality of antennas (R1, R2, ..., RN) provided in the antenna array unit 10) n = 1) (S101).

Thus, the signal receiver 30 measures the received signal level of the signal received through the switched antenna (S102).

Then, the comparison unit 50 determines whether the measured reception signal level of the antenna is smaller than the threshold reception signal level read from the register 40 (S103).

In this case, when the received signal level is not smaller than the threshold received signal level (S103), the comparison unit 50 controls that the terminal is in a medium electric field or a strong electric field state rather than a weak electric field. (S104).

Accordingly, the controller 60 searches the irradiation table stored in the buffer 51 of the comparator 50 according to the heavy field / strong field state report and recognizes the GPIO of the currently switched antenna (S105).

The controller 60 transmits an optimal switching selection control signal for setting a reception path to the antenna corresponding to the recognized GPIO to the switching unit 20 (S106).

Accordingly, the switching unit 20 sets the reception path to the switched current antenna according to the switching selection control signal (S107).

On the other hand, when the received signal level is smaller than the threshold received signal level (S103), the comparison unit 50 stores the received signal level of the currently switched antenna in the lookup table (S108). ).

The comparison unit 50 determines whether the currently switched antenna is the last antenna (Rn = RN, n = N) of the plurality of antennas of the antenna array unit 10 (S109).

At this time, when the determination result (S109), the current switched antenna is not the last antenna, the comparison unit 50 transmits a switching signal for switching to the next antenna to the switching unit 20. (S110).

Accordingly, the switching unit 20 switches to the next antenna (n = n + 1) according to the switching signal (S111). Then, the process returns to the received signal level measurement process (S102) of the signal received through the switched next antenna and repeats the above-described steps (S103 to S109).

On the other hand, in the determination result (S109), when the currently switched antenna is the last antenna, the comparison unit 50 arranges the received signal level data in the order of the received signal level in the survey table in order of increasing (S112). In step S113, the terminal reports that the terminal is in the weak electric field state. For example, FIG. 2A is a diagram showing a look-up table before alignment, and FIG. 2B is a diagram showing a look-up table after alignment.

Accordingly, the controller 60 searches the survey table according to the weak electric field status report and recognizes a GPIO regarding an optimal antenna representing the largest received signal level (S114).

The controller 60 transmits an optimal switching selection control signal for setting a reception path to the antenna corresponding to the recognized GPIO to the switching unit 20 (S115).

Accordingly, the switching unit 20 sets up a reception path by switching to an antenna according to the optimum switching selection control signal (S116).

In addition, the embodiment according to the present invention is not limited to the above-mentioned, and can be implemented by various alternatives, modifications, and changes within the scope apparent to those skilled in the art.

As described above, the present invention uses a plurality of antennas, the continuous reception signal level monitoring for the antenna is made, and the reception path setting is intelligent, it is possible to maintain the best call quality for the wireless network environment, the critical reception signal By operating the level variably according to the wireless network environment, by setting the threshold signal level suitable for the user's wireless environment by simply adjusting the register value, it is more efficient and elastic than the existing antenna structure. By using an array, a plurality of antennas can be installed in a limited space to select an antenna suitable for a wireless environment.

Claims (9)

An antenna array unit including a plurality of antennas for receiving a signal; A switching unit configured to sequentially switch the plurality of antennas according to a switching signal and switch to an antenna having the largest received signal level among the corresponding antennas according to an optimum switching selection control signal to set a reception path; A signal receiver for measuring a received signal level of a signal received through the sequentially switched antennas; A register for storing a threshold received signal level; A comparator for generating the switching signal, comparing the plurality of antenna reception signal levels with the threshold reception signal level, and sequentially storing and processing a reception signal level of an antenna smaller than a corresponding reception signal level in a buffer lookup table;  And a controller for detecting an optimal antenna GPIO indicating the largest received signal level in the lookup table and transmitting the optimal switching selection control signal for setting a reception path to an antenna corresponding to the corresponding GPIO. Switching system. The method of claim 1, The antenna structure is, Micro-strip film type antenna switching system, characterized in that attached to the inner surface of the terminal by a small, lightweight sticker method. The method of claim 1, The antenna number is An antenna switching system, characterized in that it is controlled in proportion to the internal space of the terminal. The method of claim 1, The threshold received signal level is, An antenna switching system, characterized in that it has a threshold that can be variably designated according to the wireless environment and is determined to be a weak electric field interval. The method of claim 1, The buffer is And a look-up table in which the plurality of antenna received signal level data are sequentially stored. The method of claim 1, The survey table, And an antenna field indicating a unique number of the plurality of antennas, a GPIO field which is an input / output pin number corresponding to each antenna one-to-one, and a reception signal level field indicating a reception signal level of each antenna. system. Switching to any one of a plurality of antennas according to the switching signal and measuring a received signal level of the received signal; Storing the received signal level of the currently switched antenna in a look-up table when the measured received signal level is less than a threshold received signal level; When the currently switched antenna is the last one of the plurality of antennas, arranging received signal level data in ascending order of received signal levels in the lookup table and reporting that the terminal is in a weak electric field state; Retrieving the irradiation table according to the weak field condition report, recognizing a GPIO for an optimal antenna representing the largest received signal level, and transmitting an optimal switching selection control signal for setting a reception path to an antenna corresponding to the GPIO. Process and; And switching to an antenna according to the optimum switching selection control signal to set a reception path. The method of claim 7, wherein Reporting that the terminal is in a medium electric field or a strong electric field state when the received signal level is not less than the threshold received signal level; Searching the survey table according to the heavy field / strong field state report to recognize a GPIO of a currently switched antenna and transmitting an optimum switching selection control signal for setting a reception path to an antenna corresponding to the GPIO; And setting a reception path to the switched current antenna according to the switching selection control signal. The method of claim 7, wherein Transmitting a switching signal for switching to a next antenna when the currently switched antenna is not the last antenna; And switching to a next antenna according to the switching signal and returning to a received signal level measurement process of the received signal.

Images