KR20060076486A - Mobile terminal - Google Patents

Abstract

The present invention provides an amplifying unit for amplifying a signal, a reflected signal removing unit for receiving the amplified signal, removing the reflected signal using a phase of the reflected signal, and outputting two signals during transmission of the amplified signal, and the reflected signal. An antenna unit for receiving the first output signal from the removing unit and transmitting it to the outside; and receiving the second output signal from the reflection signal removing unit and converting an AC voltage value of the second output signal into a DC voltage value. A mobile communication terminal comprising a transmission signal detector for receiving a DC voltage value from the transmission signal detector, and a control unit for controlling the amplification unit, and removes the reflected signal using a 90-degree hybrid coupler, A transmission signal of good transmission quality can be transmitted.

Transmission, reflection, hybrid

Description

Mobile terminal

1 is a block diagram showing a conventional mobile communication terminal.

2 is a configuration diagram of an embodiment of a mobile communication terminal according to the present invention.

The present invention relates to a mobile communication terminal, and more particularly, to a mobile communication terminal for removing a reflected wave using a 90-degree hybrid coupler.

1 is a block diagram showing a conventional mobile communication terminal.

Referring to Fig. 1, an amplifier 1 amplifies a signal to be transmitted and outputs it to an antenna 2.

The antenna unit 2 receives a transmission signal from the amplifier 1 and transmits it to the outside.

The RF Tx Signal Detector 3 receives the transmission signal from the amplifier 1, converts the AC voltage of the transmission signal into a DC voltage, and converts the DC voltage value of the transmission signal into a mobile station modem. To (4).

The RF Tx Signal Detector 4 consists of a diode D and an integrated circuit 3a.

The diode D receives a transmission signal from the wireless transmission unit and half-wave rectifies the transmission signal.

The integrating circuit 3a has one end connected to a resistor R connected to the cathode of the diode and one end connected to the other end of the resistor R, and the other end to ground and the mobile station modem 1. ) Is connected to the capacitor (C).

The integrating circuit 3a integrates the half-wave rectified transmission signal, converts it into a DC voltage, and transfers the same to the mobile station modem 1.

The mobile station modem (MSM) 4 receives a DC voltage value of the transmission signal from the transmission signal detector 3 and compares it with a preset threshold to perform the amplifier 1 when an abnormality occurs. To control.

However, when detecting the transmission signal, in order to couple the main transmission path (Main Pass) of the amplifier 2 and the antenna unit 3 and the path of the transmission signal detector (Detector Pass) Although a resistor was used, this caused a problem in that the reflected signal of the transmission signal detector affected the main transmission path (Main Pass), thereby degrading the quality of the transmission signal.

The mobile communication terminal according to the present invention is to provide a transmission signal of good transmission quality by removing the reflected wave generated during the transmission of the signal using a 90-degree hybrid coupler.

A mobile communication terminal according to the present invention for achieving the above object, the amplification unit for amplifying a signal, and during the transmission of the received amplified signal, using the phase of the reflected signal to remove the reflected signal, two A reflection signal removal unit for outputting a signal; an antenna unit for receiving the first output signal from the reflection signal removal unit; and transmitting the second output signal from the reflection signal removal unit; And a transmission signal detector for converting an AC voltage value of the two output signals into a DC voltage value, and a controller for receiving the DC voltage value from the transmission signal detector and controlling the amplifier.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram of an embodiment of a mobile communication terminal according to the present invention.

2, the mobile communication terminal according to the present invention, the amplification unit 100 for amplifying a signal, and during the transmission of the amplified signal received, using the phase of the reflected signal to remove the reflected signal, From the reflected signal removing unit 200 for outputting two signals, the antenna unit 300 for receiving the first output signal from the reflected signal removing unit 200, transmits to the outside and the reflected signal removing unit Receives the second output signal, the transmission signal detector 400 for converting the AC voltage value of the second output signal into a DC voltage value, and receives the DC voltage value from the transmission signal detector 400, The control unit 500 controls the amplification unit 100.

The reflected signal remover 200 may be configured such that the first 90 degree hybrid coupler 210 and the second 90 degree hybrid coupler 220 are connected to each other.

The first 90 degree hybrid coupler 210 receives the amplified transmission signal through an input port (a port) and outputs two signals having a 90 degree phase difference from each other.

The second 90 degree hybrid coupler 220 receives the first output signal and the second output signal through an input port (b 'port, c' port), and each of the first output signal and the second output signal, respectively. Output two signals having a phase difference of 90 degrees with respect to.

Table 1 shows the paths of the output signals to the input signals of the first 90 degree hybrid coupler.

Input port Output port a port 1.port a → port b 2.port a → port c d port Insulation

Next, Table 2 shows the path of the output signal to the input signal of the second 90 degree hybrid coupler.

Input port Output port b 'port 1.b 'port → a' port 2.b 'port → d'port c 'port 1.c 'port → d'port 2. c 'port → a' port

The first output signal of the second 90 degree hybrid coupler 220 is input to the antenna unit 300, and the second output signal is input to the transmission signal detector 300.

Table 3 is a table illustrating a reflection signal removal method using the first 90 degree hybrid coupler 210 and the second 90 degree hybrid coupler 220.

Reflection signal generation point Reflection signal reflection path Phase shift result a 'port 1.a 'port → b' port → b port → a port 0 degrees Reflected signal eliminated out of phase 2.a 'port → c' port → c port → a port 180 degrees d'port 1.d'port → c'port → cport → dport 0 degrees Reflected signal eliminated out of phase 2.d 'port → b' port → b port → a port 180 degrees b'port 1.port b '→ port b → port a 0 degrees Reflected signal eliminated out of phase 2.b 'port → b port → d port → b port → a port 180 degrees b port 1.port b → port a 0 degrees Reflected signal eliminated out of phase 2.port b → port d → port b → port a 180 degrees a port No reflection

Referring to Table 3, when reflection occurs in the a 'port, the first output signal is reflected in a path of a' port → b 'port → b port → a port and the phase change is 0 degrees.

Referring to Table 3, when reflection occurs in the a 'port, the first output signal is reflected in the path of the a' port → c 'port → c port → a port and the phase change is 180 degrees. Therefore, since the phase difference between the two signals is 180 degrees apart, the two signals cancel each other out of phase and the reflection signal is removed.

Referring to Table 3, when reflection occurs in the d 'port, the second output signal is reflected in the path of the d' port → c 'port → c port → d port and the phase change is 0 degrees.

Referring to Table 3, when reflection occurs in the d 'port, the second output signal is reflected in the path of the d' port → b 'port → b port → a port and the phase change is 180 degrees. Therefore, since the phase difference between the two signals is 180 degrees apart, the two signals cancel each other out of phase and the reflection signal is removed.

Referring to Table 3, when reflection occurs in the b 'port, the reflection path is reflected by the path of the b' port → the b port → the a port and the phase change is 0 degrees.

Referring to Table 3, when the reflection occurs at the b 'port, since the d port is insulated, another reflection path is a path of the b' port → the b port → the d port → the b port → the a port. Reflected, the phase change is 180 degrees. Therefore, since the phase difference between the two signals is 180 degrees apart, the two signals cancel each other out of phase and the reflection signal is removed.

Referring to Table 3, when reflection occurs at the b port, the reflection path is reflected from the b port to the a port, and the phase change is 0 degrees.

Referring to Table 3, when reflection occurs at the b port, since the d port is insulated, another reflection path is reflected from the b port → d port → b port → a port, and the phase change is 180. Is also Therefore, since the phase difference between the two signals is 180 degrees apart, the two signals cancel each other out of phase and the reflection signal is removed.

The transmission signal detector 300 receives the second output signal from the second 90 degree hybrid coupler 220 and transmits the diode D for half-wave rectifying and the half-wave rectified from the diode D. An integrated circuit 310 receives a signal, integrates the signal, and converts the signal into a DC voltage.

The integrating circuit 310 includes a resistor R having one end connected to the cathode of the diode and one end connected to the other end of the resistor R, and the other end being grounded. .

The control unit (MSM) 400 receives the DC voltage value converted by the transmission signal detector 300, compares the DC voltage value with a threshold value set therein, and compares the amplifier unit 100 according to a comparison result. To control.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

The mobile communication terminal according to the present invention can remove the reflected signal using a 90-degree hybrid coupler, and thus can transmit a transmission signal having a good transmission quality.

Claims (7)

An amplifier for amplifying a signal; A reflection signal removal unit that removes the reflection signal by using the phase of the reflection signal and outputs two signals while receiving the amplified signal; An antenna unit configured to receive the first output signal from the reflected signal remover and transmit the received signal to the outside; A transmission signal detector which receives the second output signal from the reflected signal remover and converts an AC voltage value of the second output signal into a DC voltage value; And A control unit which receives a DC voltage value from the transmission signal detector and controls the amplifier; Mobile communication terminal comprising a. The method of claim 1, The control unit is a mobile station modem, characterized in that the mobile station modem (MSM). The method of claim 1, The controller compares the DC voltage value with a preset threshold and controls the amplifier when an abnormality occurs. The method of claim 1, wherein the reflected signal removing unit, A first 90 degree hybrid coupler configured to receive the amplified signal and output two signals having a 90 degree phase difference from each other; And And a second 90 degree hybrid coupler which receives the two output signals and outputs two signals having a phase difference of 90 degrees from each other. The method of claim 4, wherein And the reflection signal removing unit removes the reflection signal by changing the phase difference between the two output signals in reverse phase when the two output signals are reflected. The method of claim 1, wherein the transmission signal detector, A diode receiving the second output signal at an anode (+) and half-wave rectifying; And And an integrating circuit which receives the second output signal rectified by the half wave from the diode, integrates and converts the second output signal into a DC voltage. The method of claim 6, wherein the integration circuit, A resistor (R) having one end connected to the cathode (-) of the diode; And One end is connected to the other end of the resistor (R), the other end of the mobile terminal comprising a capacitor (C) is grounded (Ground).

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