KR100908354B1 - Transmission power control method of mobile communication terminal - Google Patents

Abstract

The present invention relates to a transmission power control method in a specification related to step F and step H among ILPC test conditions in a mobile communication terminal to which an inner loop power control (ILPC) technique is applied, and a TPC command is received. If the maximum power is reached, the maximum power and actual AGC (Auto) is controlled. Gain Control) to be the sum of the error values, and the transmission power is set to approach the maximum power limit by filtering the AGC error value to satisfy the condition of -1. According to the present invention, according to the present invention, in performing the high power transmission control of the mobile communication terminal, the steps of the high power transmission control technology of the mobile communication terminal are maintained by maintaining step F and step H in a specification not exceeding the limit power value. Power instability that may occur in F and step H can be eliminated.

ILPC, TPC, HDET, MSM

Description

Transmission power control method of mobile communication terminal {METHOD FOR CONTROLING TRANSMISSION POWER IN MOBILE COMMUNICATION TERMINAL}

1 is a block diagram illustrating a mobile communication terminal for implementing a transmission power control method according to the present invention;

2 is a flowchart of a transmission power control process of a mobile communication terminal according to an embodiment of the present invention.

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

100: antenna 102: receiver

104: MSM (Mobile Station Modem) 106: Transmitter

108: power amplification unit 110: HDET (High Power Detection)

The present invention relates to a power control technique of a mobile communication terminal, and more particularly, to a transmission power control method of a mobile communication terminal suitable for solving the power instability factor after reaching the maximum power.

In general, the mobile terminal outputs a signal through a process called TX automatic gain control (TX AGC_ADJ) to compensate for the linearity of the output power of the transmission signal, and in addition, the maximum output limited according to specifications or electromagnetic wave regulations required by the mobile communication operator. It will output a signal within the range.

However, even when the output power is adjusted through the transmission automatic gain control adjustment process as described above, when the temperature change occurs in the CDMA terminal itself or the surroundings, the maximum output change cannot be adjusted. In this case, there is a problem that the maximum power is increased.

Therefore, in order to prevent the maximum output of the terminal from changing according to the temperature change of the terminal itself or the external temperature, the maximum output power is effectively used by the HDET (High Power Detection) circuit in the mobile communication terminal according to the prior art. The control method is used.

The above-described HDET circuit is an output control circuit which is connected to the power amplifier output terminal of the transmitting terminal of the mobile communication terminal, couples the signal output from the power amplifier and converts it into a DC voltage. Let this be done.

On the other hand, W-CDMA terminal using HDET has been applied design criteria called inner loop power control (ILPC). ILPC is defined as the capability of the terminal's output power when the mobile terminal receives a TPC (Traffic Power Control) command on the downlink.

In general, a total of 8 steps (A to H) of test conditions are applied to the ILPC method, and the test conditions of each step are set to allowable power tolerance and max power, respectively.

Test conditions for each step are as follows.

1. Step A: A command of " 1 " or " 0 " is repeatedly transmitted, or " 1 " or " 0 "

2. Step B: Deliver "1" command for 50 times.

3. Step C: Deliver a command of "0" for 50 times.

4. Step D: If the message "PHYSICAL CHANNEL RECONFIGURATION" is delivered, redefine the up-link channel, and if the message "PHYSICAL CHANNEL RECONFIGURATION COMPLETE" is delivered, the value will remain until the mobile terminal reaches maximum power. Pass TPC command of 1 ".

5. Step E: Deliver the command of "0" for 150 times.

6. Step F: Deliver "1" command for 150 times.

7. Step G: If the message "PHYSICAL CHANNEL RECONFIGURATION" is delivered, redefine the up-link channel. If the message "PHYSICAL CHANNEL RECONFIGURATION COMPLETE" is delivered, the value will remain until the mobile terminal reaches maximum power. Delivers the TPC command of 1 "to raise the mobile terminal to the maximum power and delivers the command of" 0 "for 75 times.

8. Step H: Command of "1" is delivered for 75 times.

In addition, step A has a specification of -10 + -9 dB, with specifications of +0.4 to +1.6 dB for the remaining B, D, and F steps, specifications of -0.4 to 1.6 dB for the C and E steps, and G step for The specification of +1.3 to +4.7 dB and the H step have specifications of -1.3 to 4 dB.

In this case, step F is a test for verifying the capability of increasing the minimum power by 1 dB when receiving the TPC command to increase the minimum power by 1 dB as described above. The mobile communication terminal should increase with an allowable power increase of 0.5 to 1.5 dB within a constant time boundary (25 ms) in 1 dB increments.

This TPC command continues to increase (150 slots), but at the point where the maximum power (eg 24 dB) increases, the power of the mobile communication terminal must be saturated. The fractionated power must also have an allowable power increase of 0.6 to 1.6 dB.

The test conditions for step H differ only in the allowable power increase of 1.5 to 4.5 dB per 75 slots, and the maximum power of 1.3 to 4.7 dB. The rest of the experimental method is identical to that of step F.

However, in step F and step H of the ILPC method, the allowable power increase for each step is relatively easy to meet the specification, but it is not possible to exceed or exceed the allowable power increase when the power is severed when the maximum power is exceeded or when it is reached. Cases may occur. For example, a maximum power of 24 dB may cause problems such as power control errors and power instability that exceed or fall short of the maximum power.

The present invention is to solve the above-mentioned problems of the prior art, by performing the AGC (Auto Gain Control) error value to satisfy the condition of -1 in performing the high-power transmission control to approach the maximum power limit, high power It is an object of the present invention to provide a transmission power control method of a mobile communication terminal that can solve the power instability caused by steps F and H of the transmission control technology.

According to a preferred embodiment of the present invention for achieving the above object, as a transmission power control method in the specifications related to step F and step H of the ILPC test conditions in a mobile communication terminal to which the ILPC technique is applied, when a TPC command is received Controlling the transmission power of the mobile communication terminal to increase by the first set dB by the lowest power that the mobile communication terminal can produce; determining whether the maximum power has been reached, and when the maximum power has been reached, the threshold power value reaches the maximum power. Setting a transmission power to approach a maximum power limit by filtering to satisfy a condition of reducing the AGC error value by a second set dB by a sum of power and an actual AGC error value; It provides a transmission power control method of.

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

1 is a schematic block diagram of a mobile communication terminal for implementing a transmission power control method according to the present invention. The antenna 100, the receiver 102, a mobile station modem (MSM) 104, and a transmitter 106 are shown in FIG. , A power amplifier 108, and a high power detection (HDET) 110.

The antenna 100 receives a signal transmitted from a mobile communication network (not shown) or transmits a signal to be transmitted by the mobile communication terminal to the outside.

The receiver 102 amplifies and converts a signal received through the antenna 100 and transmits the signal to the MSM 104. The signal received through the receiver 102 may be, for example, a TPC command.

The MSM 104 calculates and transmits the power of the corresponding terminal to the transmitter 106 according to a signal transmitted from the receiver 102, for example, a TPC command. In particular, the MSM 104 performs an AGC (Auto Gain Control) error value to satisfy the condition of -1 in performing the high power transmission control according to the present embodiment, for example, to satisfy the condition of reducing the AGC error value by a predetermined dB. Filter to get closer to the maximum power limit.

The transmitter 106 transmits the power value provided from the MSM 104 to the power amplifier 108, and the power amplifier 108 transmits a high power signal to a long distance through the antenna 100. It amplifies the signal.

The HDET 110 determines whether the power value transmitted from the power amplifying unit 108 exceeds the maximum power value, and delivers the determined result to the MSM 104.

Hereinafter, the transmission power control process of the mobile communication terminal according to the preferred embodiment of the present invention will be described in detail with reference to the flowchart of FIG. 2.

Prior to the description of the embodiment, this process relates to the specifications related to step F and step H of the ILPC test conditions in the W-CDMA terminal to which the inner loop power control (ILPC) technique is applied, and for convenience of description, step F By way of example, the test conditions of. The test condition of step F is characterized in that when the TPC command is received, the power value is increased by 1 dB at the lowest power but is segmented at the maximum power (24 dB).

As shown in FIG. 2, in step S200, the MSM 104 determines whether a TPC command is received through the receiver 102, and when the TPC command is received, the process proceeds to step S202 to perform step F. . The TPC command includes a command to increase by 1 dB at the lowest power that the mobile terminal can produce.

Then, the MSM 104 proceeds to step S204 to control the transmitter 106 so that the power value is increased by 1 dB at the lowest power, and the power amplifier 108 transmits the power of the current mobile communication terminal according to the command of the transmitter 106. Increase power by 1 dB.

Thereafter, the MSM 104 determines whether the maximum power, that is, 24 dB, has been reached through the HDET 110, and if the maximum power has been reached, the process proceeds to step S208.

In step S208, the MSM 104 controls the transmitter 106 such that the threshold power value is the sum of the maximum power (24 dB) and the actual AGC error value.

At this time, ILPC step F is a specification that boosts the power by 1dB and must not exceed the limit power value.The ILPC step F must maintain the correct 1dB step, and should not exceed the limit power value, You must be close.

However, due to power control error and power instability, it is practically impossible to always satisfy the above conditions.

Therefore, in the present embodiment, the same filtering process as in step S210 is performed.

That is, in step S210, the MSM 104 performs filtering to ensure that the AGC error value satisfies the condition of -1, for example, to satisfy the condition of reducing the AGC error value by a predetermined dB in performing the high power transmission control. Get close to the limit. If this is expressed as function, it is as follows.

`` If (filtered_agc_error <0) filtered_agc_error = -1 ''

In this case, the value of "filtered_agc_error" is a value calculated based on the value of one command, and the negative value means that there is a difference between the preset power and the power of the current terminal, for example, the preset power. Since the output power of the current terminal is large, in the present embodiment, even if the AGC error value becomes a negative value, the filtering is performed unconditionally with a small value of -1.

By going through such a filtering process of the MSM 104, in step S212, the transmission power by the power amplifier 108 is set.

The ILPC step H is the same as the step F except that the power value is increased by 3 dB at the lowest power. Therefore, a detailed operation process will be omitted.

As described above, the present invention is implemented to maintain step F and step H in a specification that does not exceed the limit power value in performing the high power transmission control of the mobile communication terminal.

According to the present invention, the step F and the step H of the high power transmission control technology of the mobile communication terminal by maintaining the step F and step H in the specification that does not exceed the limit power value in performing the high power transmission control of the mobile communication terminal Eliminate possible power instability.

As described above, the embodiments of the present invention have been described in detail, but the present invention is not limited to these embodiments, and various modifications may be made by those skilled in the art within the spirit and scope of the present invention described in the claims below.

Claims (5)

A transmission power control method in a mobile communication terminal to which an inner loop power control (ILPC) technique is applied, Controlling a transmission power of the mobile communication terminal to increase by a first predetermined dB from the lowest power of the mobile communication terminal when a traffic power control (TPC) command for the ILPC scheme is received; When a transmission power of the mobile communication terminal reaches a maximum power, the threshold power value is a sum of the maximum power and an actual AGC (Auto Gain Control) error value; Setting transmit power to approach a maximum power limit by filtering to satisfy the condition of decreasing the AGC error value by a second set dB; Transmission power control method of a mobile communication terminal comprising a. delete The method of claim 1, The first predetermined dB is 1dB in step F of the test conditions of the ILPC method, the transmission power control method of the mobile communication terminal. The method of claim 1, The first setting dB is 3dB in step H of the test conditions of the ILPC method, the transmission power control method of the mobile communication terminal. The method of claim 1, The maximum power is a 24dB transmission power control method of the mobile communication terminal.

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