KR20060095307A - Method for calibrating a power amplifier in a mobile communication terminal - Google Patents

Abstract

The present invention relates to a power amplifier verification method of a mobile communication terminal.

The present invention includes the steps of checking the output level of the transmission signal output by applying a reference adjustment voltage to the power amplifier module of the mobile communication terminal; If the output level of the checked transmission signal satisfies the standard range within the valid period, checking whether the standard range is satisfied within the ramp-up period or the ramp-down period; And rechecking the output level of the transmission signal by storing the level of the reference adjustment voltage corresponding to the output level of the transmission signal or adjusting the arrival time until reaching the reference adjustment voltage according to the verification result. It is configured by.

Therefore, the present invention is connected to the power measurement equipment in the manufacturing process of a mobile communication terminal of the Global System for Mobile communication (GSM) / General Packet Radio Service (GPRS) method to calibrate a power amplifier module (PAM). ), Check whether the output level of the transmission signal output from the power amplifier module satisfies the GSM PVT characteristic curve in the ramp-up period and the ramp-down period as well as the valid period. Therefore, by setting the appropriate adjustment voltage level of the power amplifier module, it is possible to obtain the output level of the transmission signal that satisfies the GSM standard despite the change of the wireless environment such as high temperature or low temperature.

Description

METHOD FOR CALIBRATING A POWER AMPLIFIER IN A MOBILE COMMUNICATION TERMINAL}

1 is a graph showing the adjustment voltage and the transmission signal output as a result of the verification of the transmission path of the transmission signal transmitted from the conventional mobile communication terminal to the base station.

Figure 2 is a block diagram showing the configuration of a power amplifier module for implementing a power amplifier verification method of a mobile communication terminal of the present invention.

Figure 3 is a flow chart showing the operation of the power amplifier verification method of the mobile communication terminal of the present invention.

Figure 4 is a graph showing the adjustment voltage and the transmission signal applied or output to the power amplifier module in accordance with the power amplifier verification method of the mobile communication terminal of the present invention.

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

11 to 14 matching circuit 20 PA controller

30: power amplifier

The present invention relates to a mobile communication terminal, and in particular, a power amplifier module (PAM) by connecting power measurement equipment in a manufacturing process of a mobile communication terminal of a Global System for Mobile communication (GSM) / General Packet Radio Service (GPRS) method. In performing the calibration of the module, the GSM VP (Power Vs Time) characteristic curve is applied to the output level of the transmission signal output from the power amplifier module in the ramp-up period and the ramp-up period as well as the effective period. Mobile communication that can obtain the output level of the transmission signal that satisfies the GSM standard despite the change of the wireless environment such as high temperature or low temperature by checking whether it satisfies and setting the appropriate adjustment voltage level of the power amplifier module accordingly The present invention relates to a power amplifier verification method of a terminal.

In general, a mobile communication terminal receives various certifications such as safety standards, electromagnetic compatibility (EMC), communication standards, and electromagnetic wave harmfulness tests (SAR) from an authorized agency before launching the device. In the process, the test for the transmission path of the transmission signal transmitted from the mobile communication terminal of the Global System for Mobile communication (GSM) / General Packet Radio Service (GPRS) method to the base station is output from the terminal, as shown in FIG. After defining the output level of the transmission signal, it is made through the task of finding the adjustment voltage for controlling the power amplifier (PA) corresponding to each output level.In this case, the output level of the transmission signal output from the corresponding terminal is the GSM standard. The control voltage is reset again by checking whether the characteristic curve of PVT (Power Vs Time) is satisfied.

Here, the PVT characteristic curve of the GSM standard is divided into the details of the ramp-up section (A), the effective section (B), and the ramp-down (Ramp Down) section (C). The test for is performed only within the validity interval (B) and the ramp-up and ramp-down intervals (A, C) apply one reference PVT data.

In this case, the PVT characteristic curve is set in a room temperature condition. When the surrounding environment of the mobile communication terminal is a high temperature or a low temperature, the output characteristic of the transmission signal is changed, and thus the specification is performed in the ramp-up and ramp-down periods (A, C). There was a problem that the probability of not meeting the PVT characteristic specification increases.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, by connecting the power measurement equipment in the manufacturing process of the mobile communication terminal of the GSM (Global System for Mobile communication) / GPRS (General Packet Radio Service) method In performing the calibration of the power amplifier module (PAM), the output level of the transmission signal output from the power amplifier module is determined not only in the valid period but also in the ramp-up and ramp-down periods. It is an object of the present invention to provide a method of determining whether the power Vs Time characteristic curve is satisfied and setting an appropriate adjustment voltage level of the power amplifier module accordingly.

In order to achieve the above object, the present invention includes the steps of: checking the output level of the transmission signal output by applying a reference adjustment voltage to the power amplifier module of the mobile communication terminal; If the output level of the checked transmission signal satisfies the standard range within the valid period, checking whether the standard range is satisfied within the ramp-up period or the ramp-down period; And rechecking the output level of the transmission signal by storing the level of the reference adjustment voltage corresponding to the output level of the transmission signal or adjusting the arrival time until reaching the reference adjustment voltage according to the verification result. do.

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

Figure 2 is a block diagram showing the configuration of a power amplifier module (Power Amplifier Module) for implementing a power amplifier verification method of the mobile communication terminal of the present invention, as shown, the power amplifier (PA) controller 20 is the main control A band of a signal to be amplified is selected according to a band select signal (BAND SELECT) and an adjustment voltage (VAPC) outputted from a mobile station modem (MSM) (not shown), and the output of the power amplifier 30 is controlled. Matching circuits 11 to 14 function to match impedance with external circuits at the input / output terminals, and the power amplifier 30 adjusts the input signals GSM IN and DCS / PCS IN according to the adjustment voltage. Amplified by the output signal (GSM OUT, DCS / PCS OUT).

That is, when the main controller (not shown) in charge of overall control in the mobile communication terminal determines that the level of the transmission signal needs to be adjusted in consideration of the received signal strength, power state, and wireless environment, an adjustment voltage having a DC value Is output to the power amplifier module to control the output level of the power amplifier 30. In the manufacturing process of the mobile communication terminal, the verification of the transmission path of the transmission signal defines the output level of the transmission signal as a reference, and then the PVT ( Power Vs Time) to check whether the characteristic curve is satisfied by resetting the adjustment voltage.

Through the above configuration, the present invention provides a power amplifier module (PAM) by connecting power measurement equipment in a manufacturing process of a Global System for Mobile communication (GSM) / General Packet Radio Service (GPRS) type mobile communication terminal. Programmatically implements a method of performing a calibration of the main control unit (MSM) to control the level of the transmission signal output from the power amplifier module when the power amplifier module of the mobile communication terminal is calibrated. In determining the level of the adjustment voltage applied to the power amplifier module in the Mobile Station Modem, the GSM standard is applied not only in the effective period of the output of the power amplifier module which becomes a specific output level but also in the ramp-up period and the ramp-down period. By checking whether the characteristic curve called PVT (Power Vs Time) is satisfied and setting the appropriate adjustment voltage level, Despite the change in the wireless environment such as low temperature, it is possible to obtain the output level of the transmission signal satisfying the GSM standard.

3 is a flowchart illustrating an operation of a power amplifier verification method of a mobile communication terminal according to the present invention. As shown in FIG. 3, an output level of a transmission signal output by applying a reference adjustment voltage to a power amplifier module of a mobile communication terminal is output. Inspecting (S30, S31); If the output level of the checked transmission signal satisfies the standard range within the valid period, checking whether the standard level is satisfied within the ramp-up period or the ramp-down period (S32). S33); Rechecking the output level of the transmission signal by storing the level of the reference adjustment voltage corresponding to the output level of the transmission signal or adjusting the arrival time until the reference adjustment voltage according to the result of the confirmation (S34, S35); If the output level of the checked transmission signal does not satisfy the standard range within the valid period, step S36 is performed after adjusting the level of the applied reference adjustment voltage and rechecking the output level of the transmission signal.

First, in order to implement the present invention, a mobile communication terminal should be connected to a power measuring device (not shown) to prepare for verification of a power amplifier module. In this case, the power measuring device (not shown) may include a microcomputer, an input means, and a display. Means, an object to be tested, and a means for connection to be tested, thereby verifying the output level of the transmission signal of the mobile communication terminal to be tested.

Initially, the power measuring device (not shown) controls the main control part (not shown) of the mobile communication terminal, and outputs a transmission signal having a specific output level from the main control part (not shown) to the power amplifier module. After applying the reference adjustment voltage of (S30), and checks the output level of the transmission signal output from the output terminal of the power amplifier module (S31).

At this time, as shown in the graph of FIG. 4, the power measuring device (not shown) displays the adjustment voltage for obtaining a specific transmission signal output level and, as a result, the output level of the transmission signal output from the power amplifier module through the display means. Then, the microcomputer checks whether the output level of the transmission signal displayed in the step S31 satisfies the standard range within the valid period, as shown in the graph at the bottom of FIG. 4 (S32).

As a result of the check, when the output level of the transmission signal does not satisfy the standard range within the valid period, it means that a specific output level does not come out by the initially applied reference adjustment voltage, and thus the arbitrarily applied reference adjustment After adjusting the voltage level in a manner of lowering or raising the voltage level by a predetermined amount, the process returns to step S31 to recheck the output level of the transmission signal (S36).

On the other hand, when the output level of the transmission signal satisfies the specification range within the effective section, it is secondarily checked whether the specification range is met within the ramp-up section or the ramp-down section. (S33), if the specification range is satisfied in the ramp-up period or the ramp-down period, the level of the reference adjustment voltage corresponding to the output level of the transmission signal at this time is stored (S34), otherwise the ramp-up or ramp The output level of the transmission signal is re-inspected by adjusting the arrival time until the adjustment voltage reaches the reference adjustment voltage in the -down period (S35).

For example, in the case of checking whether the output level of the transmission signal satisfies the standard range within the valid period first, and then whether the standard range is satisfied in the ramp-up period or the ramp-down period, As shown in FIG. 4, the output level of the transmission signal inspected by applying the reference adjustment voltage corresponding to the graph 'b' in the ramp-up period or the ramp-down period is output as shown in the graph '2' to satisfy the specification range. On the other hand, if it is output as graph '1' or graph '3', the transmission signal is applied by adjusting the time until reaching the reference adjustment voltage in step S35 to graph 'c' or graph 'a'. The output level of is adjusted as shown in the graph '2'.

Here, the adjustment voltages until the specific reference adjustment voltage is reached in the ramp-up period or the ramp-down period may be set differently depending on the characteristics of each mobile communication terminal.

As described above, the present invention provides a power amplifier module (PAM) by connecting power measurement equipment in a manufacturing process of a mobile communication terminal of a global system for mobile communication (GSM) / general packet radio service (GPRS) method. In performing the calibration of the power amplifier module, the output level of the transmission signal output from the power amplifier module satisfies the PVT (Power Vs Time) characteristic curve of the GSM standard in the ramp-up period and the ramp-down period as well as the effective period. By checking whether or not and setting the appropriate adjustment voltage level of the power amplifier module accordingly, it is possible to obtain the output level of the transmission signal satisfying the GSM standard despite the change in the wireless environment such as high temperature or low temperature.

Claims (2)

Checking an output level of a transmission signal output by applying a reference adjustment voltage to a power amplifier module of the mobile communication terminal; If the output level of the checked transmission signal satisfies the standard range within the valid period, checking whether the standard range is satisfied within the ramp-up period or the ramp-down period; And rechecking the output level of the transmission signal by storing the level of the reference adjustment voltage corresponding to the output level of the transmission signal or adjusting the arrival time until reaching the reference adjustment voltage according to the verification result. The power amplifier test method of the mobile communication terminal. The method of claim 1, wherein the checking of the output level of the transmission signal output by applying a reference adjustment voltage to the power amplifier module of the mobile communication terminal comprises: setting a standard range within an effective section of the checked transmission signal. If not satisfied, further comprising the step of adjusting the level of the applied reference adjustment voltage and rechecking the output level of the transmission signal.

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