KR20070062737A - Mobile terminal and method enabling control over signal reception by diversity path - Google Patents

Abstract

A mobile communication terminal and a method for controlling signal reception through a diversity path are provided to minimize the interference between a signal received through a main path and a signal received through a diversity path while improving the reception performance due to the signal reception through the diversity path in wireless communication. A signal level detecting module(100) detects the level of a signal received through a main path among received signals under a communication environment with multiple paths including the main path and a diversity path. An electric field level comparator(200) receives the level of the signal through the main path to compare the signal level with a predetermined reference electric field level. A diversity controller(300) controls signal reception through the diversity path according to the comparison of the electric field level comparator.

Description

Mobile communication terminal and method for controlling signal reception by diversity path {MOBILE TERMINAL AND METHOD ENABLING CONTROL OVER SIGNAL RECEPTION BY DIVERSITY PATH}

1 is a diagram showing a configuration for signal reception mode control adopted in a mobile communication terminal according to the present invention;

2 is a flow chart showing a method according to the invention.

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

100 signal level detector

200 field level comparator

300 diversity control

The present invention relates to a mobile communication terminal and a method capable of controlling signal reception by a diversity path, and more particularly, when a signal reception by a main path is interfered by a signal reception by a diversity path, a diver The present invention relates to a mobile communication terminal and a method for solving an interference problem by stopping signal reception by a predetermined path.

In a wireless mobile communication environment using a multipath, an Rx signal reception method using a diversity path is often used to enhance reception performance of a mobile communication terminal. In the case of receiving the Rx signal using the diversity path, there is an advantage that the reception performance can be improved as compared with the case of receiving the signal only by the main path.

However, in the case where the electric field level of the radio signal is large, the reception of the signal by the diversity path may have an adverse effect of interfering with the signal received by the main path. However, currently commercially available mobile communication terminals do not take into account the electric field situation of the wireless signal and always perform signal reception by the diversity path when the mobile communication terminal is in communication. As a result, there is a problem in that the field level is large, resulting in poor communication quality than in the case of receiving a signal through the main path only.

The present invention has been made to solve the problems described above, and provides a mobile communication terminal that can adjust the utilization of the diversity path in consideration of the electric field of the received signal through the main path received by the mobile communication terminal in communication. Let it be a 1st objective.

In addition, the present invention improves the reception performance in wireless communication through the signal reception by the diversity path, and minimizes the phenomenon that the signal reception by the diversity path interferes with the signal received by the main path. It is a second object to provide a method.

In order to achieve the first object, the mobile communication terminal according to the present invention, the signal level for detecting the received signal level through the main path of the signal received in a communication environment consisting of a multi-path including a main path and a diversity path Detection unit; An electric field level comparator which receives the received signal level through the main path from the signal level detector and compares it with a predetermined reference electric field level; And a diversity controller configured to control whether to receive a signal through the diversity path according to a comparison result of the electric field level comparator.

Thus, it is possible to adjust whether or not a signal is received by the diversity path while always monitoring the received signal level through the main path.

Here, the diversity controller stops receiving a signal through the diversity path when receiving a comparison result that the received signal level through the main path is higher than the predetermined reference electric field level, and receives the received signal through the main path. When receiving a comparison result that the level is lower than the predetermined reference field level, it is preferable to maintain the signal reception through the diversity path, wherein the predetermined reference field level is such that the received signal through the diversity path is the main signal. More preferably, the electric field level of the received signal through the main path at the time when the received signal through the path is interrupted.

In addition, after the reception of the signal through the diversity path is stopped, the diversity controller determines a predetermined range from the predetermined reference electric field level even if the received signal level through the main path becomes lower than the predetermined reference electric field level. Until it is lower than the hysteresis interval, it is better not to resume signal reception through the diversity path, which indicates that too much diversity path on / off occurs when the electric field changes from time to time before and after the reference field level. This is to prevent. In other words, once it is detected that an electric field is enough to cause interference, it adopts a configuration that maintains the diversity off mode even if the received signal level transitions to an electric field section which is less likely to cause interference. To stop it.

On the other hand, the method according to the present invention, a method for receiving a signal in a communication environment consisting of a multi-path including a main path and a diversity path, comprising: a first step of detecting a received signal level through the main path; A second step of comparing the detected received signal level with a predetermined reference electric field level; And if it is determined that the detected received signal level is higher than the predetermined reference electric field level, stopping the signal through the diversity path and receiving the signal only through the main path. do.

For the same reason as described above, after the third step is executed, the first step and the second step are repeatedly executed, and the received signal level detected after the third step is the predetermined reference electric field level. Even if it is lower, it is preferable to include a fourth step of receiving a signal only through the main path until it exits a predetermined hysteresis period.

However, when the received signal level detected after the fourth step becomes lower than the predetermined hysteresis period from the predetermined reference electric field level, it is possible to resume signal reception through the diversity path to improve communication quality. good.

In addition, the predetermined reference electric field level may be an electric field level of the received signal through the main path at the time when the received signal through the diversity path interferes with the received signal through the main path. This is because the basic reason for turning the signal reception on and off by is to eliminate interference in a strong electric field situation.

Hereinafter, an embodiment of a mobile communication terminal according to the present invention will be described in detail with reference to FIG. 1.

In FIG. 1, the signal level detector 100 detects an electric field level of an Rx signal, which is a received signal that a mobile communication terminal (not shown) receives while communicating with another communication means (not shown). The function of the signal level detector 100 may be performed by the main CPU (not shown) of the mobile communication terminal, but may be configured separately from the CPU (not shown) as shown in FIG. 1. However, the electric field level detected by the signal level detector 100 is an electric field level of the Rx signal received through the main path among the multiple paths. This is because the electric field level strength of the Rx signal received through the main path is an important criterion for determining the degree of interference of signal reception by the diversity path.

Next, the electric field level comparator 200 receives an electric field level of the Rx signal from the signal level detector 100 and compares the predetermined electric field level with a magnitude. This is a configuration for checking whether the signal reception by the diversity path is a strong electric field such that it reaches a level causing interference with the received signal through the main path, and the comparison result is transmitted to the diversity controller.

The diversity control unit 300 determines whether or not the electric field situation at the time of communication is a strong electric field situation based on the comparison result from the electric field level comparison unit 200 so as to turn off the diversity path. If, it serves to control the reception mode of the mobile communication terminal (not shown) to stop receiving the signal by the diversity path. Of course, when it is determined that the weak electric field situation, by maintaining the signal reception operation by the diversity path, the call quality is improved.

As an example of the operation of the diversity controller 300, when the reference electric field level of turning off the diversity path is -35 dBm, the comparison result received by the diversity controller 300 from the electric field level comparator 200 is as follows. Is +5 dBm higher than the reference electric field level, the diversity control unit 300 generates a control signal for stopping signal reception through the diversity path and notifies the CPU (not shown).

Since the electric field level of the received signal through the main path is -30 dBm, even after the diversity controller 300 turns off the diversity path, the electric field level detection of the signal through the main path of the signal level detector 100 continues. However, once the diversity off mode is executed by the diversity controller 300, the electric field level comparator 200 sets a margin of about 5 dBm rather than -35 dBm and receives the signal below -40 dBm. Diversity off mode is not released until the field level of the signal drops. This means that if the electric field at the time of communication is maintained at a value before and after the reference electric field level, too much diversity on / off is repeated and the call quality changes too often or the reception mode of the mobile terminal (not shown) is too frequent. In order to solve the problem of the change, the above-described spare section is called a hysteresis section.

In this example, the reference field level -35 dBm, which turns off the diversity path, has been described as an example. However, the reference field level that keeps the diversity path on is set to, for example, -40 dBm, and the received signal through the main path immediately after the call. The diversity level may be maintained at -45 dBm so that the diversity on mode is maintained, and the diversity on mode may be maintained until the field level of a subsequent received signal is greater than or equal to -35 dBm, which is greater than the hysteresis period.

Next, an embodiment of the method according to the present invention will be described in detail with reference to FIG. 2.

First, when communication of a mobile communication terminal (not shown) is started, signal reception by both the main path and the diversity path is started to increase the call quality (step S1). Then, during the call, the electric field status of the Rx signal through the main path is continuously checked (step S2), and the detected Rx signal level is compared with a predetermined reference electric field level (step S3). Here, the predetermined reference electric field level means a reception signal level through the main path at a level where signal reception by the diversity path interferes with a signal received by the main path.

If the received signal level through the main path is not higher than the predetermined reference electric field level (NO in step S3), the flow returns to step S1 to maintain signal reception through the multipath. However, if the determination result of step S3 is YES, the signal reception through the diversity path is stopped and the signal is received only through the main path, thereby minimizing the interference problem caused by the diversity path (S5).

Of course, as described above, once the diversity off mode is executed, the frequent reception mode is made by comparing the electric field level of the detected Rx signal with (the predetermined reference electric field level-hysteresis interval value) instead of the predetermined reference electric field level. The change does not occur (S7). Only when the comparison result in step S7 is YES, the flow proceeds to step S8 to resume signal reception through the diversity path, otherwise, the flow returns to step S5 to receive the signal only through the main path and check the electric field state of the received signal. Keep checking.

In the above embodiment, the reference electric field level is a criterion for determining whether the diversity is off. However, when an electric field condition lower than the reference electric field level is detected after setting the reference electric field level that determines the diversity on mode, the diversity on is turned on. It may be possible to selectively and / or additionally adopt a method of executing the diversity off mode if the electric field condition is detected while maintaining the mode but larger than the sum of the hysteresis interval at the reference electric field level.

According to the present invention, it is possible to improve reception performance in wireless communication through signal reception by diversity path and to minimize the phenomenon that signal reception by diversity path interferes with signal received by main path. It is possible.

Claims (7)

A signal level detector for detecting a received signal level through the main path among signals received in a multipath communication environment including a main path and a diversity path; An electric field level comparator which receives the received signal level through the main path from the signal level detector and compares it with a predetermined reference electric field level; And And a diversity controller configured to control whether or not a signal is received through the diversity path according to a comparison result of the electric field level comparator. The method of claim 1, The diversity controller stops receiving a signal through the diversity path when receiving a comparison result that the received signal level through the main path is higher than the predetermined reference electric field level, and the received signal level through the main path is increased. And a signal reception through the diversity path is maintained when the comparison result is lower than the predetermined reference electric field level. The method according to claim 1 or 2, The predetermined reference electric field level is a mobile communication terminal, characterized in that the electric field level of the received signal through the main path when the received signal through the diversity path interferes with the received signal through the main path. The method of claim 2, After the signal reception through the diversity path is stopped, the diversity controller may determine a predetermined hysteresis period from the predetermined reference electric field level even if the received signal level through the main path becomes lower than the predetermined reference electric field level. The mobile communication terminal does not resume receiving the signal through the diversity path until it becomes lower. In the method for receiving a signal in a communication environment consisting of a multi-path including a main path and a diversity path, Detecting a received signal level through the main path; A second step of comparing the detected received signal level with a predetermined reference electric field level; And And if it is determined that the detected received signal level is higher than the predetermined reference electric field level, stopping the signal reception through the diversity path and receiving the signal only through the main path. Way. The method of claim 5, After the third step is executed, the first step and the second step are repeatedly executed, even if the received signal level detected after the third step is lower than the predetermined reference electric field level. A fourth step of receiving a signal only through the main path until the departure from the first path; And And a fifth step of resuming signal reception through the diversity path when the received signal level detected after the fourth step becomes lower than the predetermined hysteresis period from the predetermined reference electric field level. Way. The method according to claim 5 or 6, And the predetermined reference electric field level is an electric field level of a received signal through the main path at a time when the received signal through the diversity path interferes with the received signal through the main path.

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