KR20070071665A - Mobile phone having power detector stabilization equipment exclusing impedance alteration of antenna and method thereof - Google Patents

Abstract

A mobile communication terminal having a power detector stabilization device for removing impedance change of an antenna and a stabilization method thereof are provided to prevent output change of a power detector from occurring when impedance of a terminal antenna is changed by peripheral environmental change to make power of the antenna flow backward and added to forward power of a transmitter, by using a duplex impedance table. Temperature of a mobile communication terminal is measured at certain time(t.sub.a), and a frequency of a transmitter is checked(S100). A loss value of a duplexer corresponding to a temperature to frequency is brought from a memory(S200). The second switch is connected to a port B to measure power at the certain time(S300). The loss value is subtracted from a power value(S400). A power detector changes the power and the loss value into voltages, and sends the voltages to a CPU(Central Processing Unit)(S500). The transmitted voltage values become voltage values of the terminal(S600).

Description

MOBILE PHONE HAVING POWER DETECTOR STABILIZATION EQUIPMENT EXCLUSING IMPEDANCE ALTERATION OF ANTENNA AND METHOD THEREOF}

1 is a circuit diagram showing a power detector device for removing the impedance variation of the conventional antenna.

2 is a circuit diagram according to an embodiment of the present invention.

FIG. 3 is a diagram illustrating a duplexer loss table for explaining a power detector stabilization device for removing impedance variation of an antenna according to an exemplary embodiment of the present invention. FIG.

4 and 5 is a flow chart for explaining a power detector stabilization method for removing the impedance variation of the antenna according to an embodiment of the present invention.

** Description of symbols for the main parts of the drawing **

10: power amplifier

20: duplexer

30: first switch unit

40: antenna

50: power detector

60: resistance unit for measuring the power of the duplexer unit

70: coupling capacitor

80: power measuring equipment

90: second switch unit

100: second resistance unit for measuring the power of the power amplification unit

The present invention relates to a mobile communication terminal having a power detector stabilization device for removing the impedance variation of the antenna, and more particularly, to a stabilization method thereof. The present invention relates to a technique for preventing the occurrence of an error in the output of the power detector by combining with the forward power of the transmitter during the reverse flow using a duplex impedance table.

In the related art, as shown in FIG. 1, the power transmitter includes a power amplifier 10, a duplexer 20, a switch 30, and an antenna 40. It operates by applying power of the detection circuit. The power detector circuit receives the sum of the back-end power from the transmitter 40 and the antenna 40 passing through the power amplifier 10 and the duplexer 20. After going through the attenuator, the input power is reduced and the power detector converts the power to voltage and sends it to the CPU. If the received voltage is higher than the reference voltage, the CPU decreases the gain of the automatic gain control unit of the transmitter and increases it if it is low. Through this process, the power of the transmitter is kept constant.

Therefore, a reverse flow of power from the antenna 40 occurs due to the impedance variation of the antenna 40, which causes a problem that the power detector circuit cannot read the power of the transmitter accurately. This is because the power backflow from the antenna and the forward power of the transmitter are added together so that the output of the power detector is read higher.

Thus, the CPU assumes that high power has been transmitted and reduces the power of automatic gain control (AGC). This reduces the overall power of the transmitter, preventing smooth calls or even shorting or making calls impossible.

The present invention has been made in view of the above-described circumstances. In the high power transmission, the impedance of the antenna of the mobile communication terminal fluctuates according to the change of the surrounding environment, the power flows back from the antenna, and is combined with the forward power of the transmitter to change the output of the power detector. The purpose of this is to prevent the generation using a duplex impedance table.

In order to achieve the above object, a mobile communication terminal having a power detector stabilization device for removing the impedance variation of the antenna according to the present invention and a stabilizing method thereof is a power detector stabilization method for removing the impedance variation of the antenna according to the present invention is moved A power detector stabilization device for removing impedance fluctuation of an antenna of a communication terminal, comprising: a duplexer, a power transmitter for transmitting power through the antenna; A power detector circuit unit measuring power of the power transmitter; And a memory for storing a power loss value of the duplexer measured according to the temperature and frequency of the mobile communication terminal.

시간에 이동통신단말기의 온도를 측정하고 송신부의 주파수를 확인하는 제 1단계; 듀플렉서의 전력손실값(

)을 메모리에 저장된 듀플렉서 전력손실표로부터 가져오는 제 2단계;

시간에 전력 증폭부의 전력(

)을 측정하는 제 3단계; 상기 듀플렉서 전력 손실표에서 가져 온 듀플렉서의 전력손실값(

)을 전력 증폭부의 전력값에서 빼는 (

-

)제 4단계; 및 상기

-

를 파워 디텍터가 전압으로 변경하여 상기 이동통신단말기의 CPU로 전송하는 제 5단계를 포함하는 것을 특징으로 한다.In addition, in order to achieve the above object, in the power detector stabilization method for removing the impedance variation of the mobile communication terminal antenna

A first step of measuring the temperature of the mobile communication terminal in time and confirming the frequency of the transmitter; Power loss of the duplexer

A second step of bringing a) from the duplexer power loss table stored in the memory;

Power of the power amplifier in time (

Measuring a third step; The power loss value of the duplexer taken from the duplexer power loss table (

) Is subtracted from the power value of the power amplifier

-

Fourth step; And said

-

It characterized in that it comprises a fifth step of changing the power detector to a voltage to the CPU of the mobile communication terminal.

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

2 is a circuit diagram according to an embodiment of the present invention. When the first switch unit 30 is connected to the power measuring equipment, the circuit is connected to 50 kHz and the antenna is in an open state. This is a process for measuring the power value when the antenna 40 is opened by snapping the first switch unit 30 to the equipment and connecting the cable to know the reference value. In fact, when the power of the transmitter is measured and sent to the CPU using the power detection circuit, the first switch unit 30 is connected to the C terminal to be connected to the antenna 40.

시간에 제 2 스위치부(90)를 B단자(

)에 연결하여 전력1을 측정한다.

(단,

시간은

시간보다 늦은시간임)시간에는 제 2 스위치부(90)를 A단자(

)에 연결하여 전력2를 측정한다. 그러면 전력1에서 전력2를 뺀 값은 듀플렉서(20)의 손실값이 된다. Next, the drawing shown in FIG. 2 will be described in detail. Send one high power (for example 20 DBm)

At the time, the second switch unit 90 is connected to the B terminal (

) And measure power1.

(only,

time is

At the time later than the time), the second switch unit 90 is connected to the A terminal (

), And measure power2. Then, the value obtained by subtracting the power 2 from the power 1 becomes a loss value of the duplexer 20.

3, this loss value (not shown) is stored in the memory area in the mobile communication terminal. Since the loss value of the duplexer 20 is determined according to the temperature and the frequency, the loss value is measured and stored for all the temperature and the frequency.

시간에 이동통신단말기의 온도를 측정하고 송신부의 주파수를 측정한다. 이후, 상기 메모리에 저장된 해당 온도와 주파수에 해당하는 듀플렉서(20)의 손실값을 가져온다. Output any high power (e.g. 24 dBm)

Measure the temperature of the mobile communication terminal in time and measure the frequency of the transmitter. Thereafter, a loss value of the duplexer 20 corresponding to the corresponding temperature and frequency stored in the memory is obtained.

시간에 제 2 스위치부(90)를 B단자(

)에 연결하여 전력 증폭부의 전력을 측정한다. 전력 증폭부(10)의 전력에서 듀플렉서(20)의 손실값을 뺀 것이 듀플렉서(20)의 전력이며 송신부 이동통신단말기의 전력이다.

At the time, the second switch unit 90 is connected to the B terminal (

) To measure the power of the power amplifier. The power of the power amplifier 10 minus the loss value of the duplexer 20 is the power of the duplexer 20 and the power of the transmitter mobile communication terminal.

Therefore, the power detector can transmit the normal power value to the CPU by subtracting the loss value of the duplexer as the power detector reads the power of the transmitter high due to the impedance variation of the antenna using the loss value of the duplexer.

Next, a power detector stabilization apparatus and method for removing impedance variation of an antenna according to an exemplary embodiment of the present invention will be described in detail with reference to the flowcharts illustrated in FIGS. 4 and 5.

시간에 제 2스위치부(90)를 B단자에 연결하여 전력(

)을 측정한다(S10). 그 후,

시간에 제 2스위치부(90)를 A단자에 연결하여 전력(

)를 측정한다(S20). 메모리에

-

값을 저장하고(S30), 듀플렉서부(20)의 온도 대비 주파수에 해당하는 손실값을 도면 3에 도시한 보정표로 완성한다(S40). As shown in Figure 4,

Connect the second switch unit 90 to the B terminal at

) Is measured (S10). After that,

Connect the second switch unit 90 to the A terminal at

) Is measured (S20). In memory

-

The value is stored (S30), and the loss value corresponding to the frequency vs. temperature of the duplexer 20 is completed with the correction table shown in FIG. 3 (S40).

시간에 이동통신단말기의 온도를 측정하고 송신부의 주파수를 확인한다(S100). 도 3에서 상기 온도 대비 주파수에 해당하는 듀플렉서부(20)의 손실값(

)을 메모리로부터 가져 온다(S200). 그 후,

시간에 제 2스위치부(90)를 B 단자에 연결하여 전력(

)을 측정한다(S300). 상기 전력값에서 S200 단계에서 가져 온 듀플렉서부(20)의 손실값을 빼고(S400) 상기

-

를 파워 디텍터(50)가 전압으로 변경하여 CPU로 전송한다(S500). As shown in FIG. 5,

Measure the temperature of the mobile communication terminal in time and check the frequency of the transmitter (S100). In FIG. 3, the loss value of the duplexer unit 20 corresponding to the frequency vs. the temperature (

) From the memory (S200). After that,

Connect the second switch unit 90 to the B terminal at

) Is measured (S300). Subtract the loss value of the duplexer 20 brought in step S200 from the power value (S400)

-

The power detector 50 changes the voltage to transmit to the CPU (S500).

The transmitted voltage value becomes a voltage value of the mobile communication terminal (S600).

As described above, in the present invention, by subtracting the lost power value of the duplexer 20 from the power of the power amplifier 10, the power detector corrects as much as the power of the transmitter is read by the impedance variation of the antenna. Will do.

As described above, according to the mobile communication terminal having a power detector stabilization device for removing the impedance fluctuation of the antenna according to the embodiment of the present invention and the stabilization method, the impedance of the mobile communication terminal antenna during the high power transmission to the change of the surrounding environment According to the present invention, there is an effect of preventing the power from flowing back from the antenna to be combined with the forward power of the transmitter to generate an output change of the power detector using the duplex impedance table.

On the other hand, the present invention is not limited to the above-described embodiments, but can be modified and modified within the scope not departing from the gist of the present invention, such modifications and changes should be regarded as belonging to the following claims. will be.

Claims (7)

In the power detector stabilization device for removing the impedance variation of the antenna of the mobile communication terminal, A power transmitter comprising a duplexer and transmitting power through the antenna; A power detector circuit unit measuring power of the power transmitter; And And a memory for storing the power loss value of the duplexer measured according to the temperature and frequency of the mobile communication terminal. The power transmitter of claim 1, wherein And a power amplifier stabilizing device positioned at a front end of the duplexer, and an RF switch unit connecting the duplexer and the antenna. The method of claim 2, wherein the RF switch unit A mobile communication terminal having a power detector stabilization device that removes impedance fluctuations of the antenna, characterized in that the resistance value of 50Ω appears when connected to the power measurement equipment, and the antenna becomes open to measure the reference power. The power detecting circuit of claim 1, wherein A power detector for measuring power, a first resistor unit for measuring power of the duplexer, a second resistor unit for measuring power of the power amplifier, a second switch unit for alternatingly measuring power of the power amplifier and the duplexer, A mobile communication terminal having a power detector stabilization device for removing impedance variation of an antenna, characterized in that it comprises a coupling capacitor connected to the second switch unit. The method of claim 4, wherein the second switch unit When the power of the power amplifier is measured, it is connected to the second resistor, which is a resistor of the power amplifier, and when measuring the power of the duplexer, it is connected to the first resistor, which is a resistor of the duplexer. A mobile communication terminal having a power detector stabilization device. In the power detector stabilization method for removing the impedance variation of the antenna of the mobile communication terminal,

A first step of measuring the temperature of the mobile communication terminal in time and confirming the frequency of the transmitter; Power loss of the duplexer

A second step of bringing a) from the duplexer power loss table stored in the memory;

Power of the power amplifier in time (

Measuring a third step; The power loss value of the duplexer taken from the duplexer power loss table (

) Is subtracted from the power value of the power amplifier

-

Fourth step; And remind

-

And a fifth step of converting the power detector into a voltage and transmitting the voltage to the CPU of the mobile communication terminal. The method of claim 6, The duplexer power loss value is measured according to the temperature and frequency of the mobile communication terminal to remove the impedance variation of the antenna of the mobile communication terminal stored in the memory.

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