KR19980050661A - Power control method of portable communication terminal - Google Patents

Abstract

Disclosed is a power control method of a portable communication terminal for reducing a call disconnection due to an error in power control. According to the disclosed power control method, when an error occurs in a power control bit of a slot received from a base station, the data of the error-produced power control bit is estimated through power control bits in the previous slot where the error does not occur. Determine the power to be transmitted according to the power control bit.

Description

Power control method of portable communication terminal

1 is a circuit block diagram of a typical portable communication terminal.

2 is a general power control flow chart of the conventional method.

3 is a diagram for explaining an estimation method of power control control according to the present invention;

4 is a flow chart of power control using the estimation technique in accordance with the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable communication terminal such as a cellular phone, and more particularly, to a power control method of a portable communication terminal capable of reducing sudden disconnection during a call.

Typically, portable communication terminals, such as cellular phones, provide the user with the performance of two-way mobile wireless communications. In order to enable the portable communication terminal to communicate with the called party, the mobile communication base station is configured to communicate with the cell site using a code division multiple access (CDMA) spread spectrum communication signal. The portable communication terminal performs radio frequency (RF) wireless communication. The base station is also connected to a public switched telephone network (PSTN) for a call connection between a user of a portable communication terminal and a wired subscriber. For example, when a user of the portable communication terminal attempts to make a call with a called party in an office, the user digitizes a telephone number installed in the called party's office through a keypad present in the portable communication terminal. Dialing is performed by a set operation between the base station and the base station. When the called person is not in a call, when the user hooks off, the call is formed and the call is performed by both parties.

In order to smoothly perform the dialing and call operation, power control of the radio frequency (RF) wireless communication signal between the base station and the terminal should be properly performed. That is, in the mobile communication using the CDMA method, a near-far problem of power strength inevitably occurs because one base station and a plurality of terminals must be able to communicate at the same time and each terminal must be free to move. . Therefore, the power control is to solve this. Closed loop power control is a method of controlling power of a terminal according to a power control bit transmitted from a base station. However, when a reception error of the power control bit occurs, power control is not properly performed, which often causes a problem of disconnection. This is described in detail below through the procedure of a conventional power control after explaining the structure of a portable communication terminal. Is explained.

Referring to Fig. 1, a circuit block diagram of a typical portable communication terminal is shown. In Figure 1, the transmission and reception radio frequency is input and output through one antenna. To this end, a duplexer (not shown) that performs a duplexing function is installed between the antenna, the song, and the receivers 4 and 2. The receiver 2 converts a high frequency signal received through the duplexer into a low frequency signal and provides it to the controller 10. The transmitter 4 receives a signal to be transmitted at low frequency from the controller 10, converts the signal into a high frequency signal, and outputs the converted signal to the antenna through the duplexer. The controller 10 is connected to the song, the receivers 4 and 2, the keypad 8, the memory 16 and the display unit 6 to control the processing of the baseband signal for the call of the call and the overall operation of the portable communication device. The speaker 14 outputs a signal provided by the controller 10 as a home audio signal, and the microphone 12 converts a user's voice into an electrical signal and provides the analog-to-digital converter of the controller 10. The memory 16 is composed of ordinary ROM, RAM, and EEPROM, and serves to permanently or temporarily store programs and data for the purpose. The display unit 6, which is composed of a keypad 8 having a large number of ten keys and function keys and a liquid crystal panel, is connected to the control unit 10 through a user interface to perform key input and display functions, respectively. In addition, subscriber identification module (SIM) 18 may be connected to the control unit 10 to allow only the authorized user. The controller 10 performs a flow as shown in FIG. 2 to perform power control.

2 is a flowchart illustrating a performance control of a conventional power control, which is performed by the controller 10 of FIG. 1. In step 101, it is determined whether an error occurs in a power control bit of a slot received by the terminal in step 98. When normal reception, that is, no reception error occurs, the power of the next transmission slot is determined in step 103 after the power control bit detection operation in step 102 is performed. These operations are the basis of the closed loop power control scheme described above. The power finally transmitted by the transmitter 4 through the transmitter 4 of FIG. 1 is determined by adding up the result of the closed loop control and the open loop control in step 104 and output through the slot transmission in step 105. However, since the power control bit is multiplexed and transmitted every 1.25 ms with the convolutional coded data at the base station, the terminal can only determine whether there is a reception error, but cannot correct an error. Accordingly, when the terminal receives the error of the power control bit in the received slot, the terminal performs the step 99 of FIG. 2 to ignore the information received at that time and transmit the final power only by the open loop power control. Will be determined as If the output power of the terminal is smaller than the required power, the call connection with the base station may be interrupted, and in the opposite case, the call of the other terminal may be interrupted by affecting the call of the other terminal.

Therefore, since power control as shown in FIG. 2 is conventionally performed, when a power control bit error occurs due to a fading phenomenon or a weak field strength, it is highly likely to cause a sudden disconnection during a call, thereby degrading the quality and service of the call. There is a problem.

Accordingly, an object of the present invention is to provide a power control method of a portable communication terminal which can reduce sudden disconnection during a call.

Another object of the present invention is to provide a power control method of a portable communication terminal capable of performing an improved power control operation only by changing a power control to a terminal without changing a communication protocol or a control method of a base station.

Another object of the present invention is to provide a power control method of a portable communication terminal that can improve the quality and service of a call by reducing the probability of causing a call breakage.

In order to achieve the above object, the power control method according to the invention step by step, the first step of receiving data including a field (field) for the power control information for each predetermined time interval, and the received power control A second step of determining whether an error has occurred in the information, a third step of estimating currently received power control information based on a predetermined number (K) of previous power control information when an error occurs in the second step; And a fourth step of adjusting power to be transmitted based on the power control information estimated in the third step.

Hereinafter, a power control method according to a preferred embodiment of the present invention will be described with the accompanying drawings. In the following description, specific details are set forth by way of example and in detail in order to provide a more thorough understanding of the present invention. However, for those skilled in the art, the present invention may be practiced by the above description without these details. In addition, the basic functions and detailed call operations of portable communication devices well known in the art are not described in detail in order not to obscure the subject matter of the present invention.

In the following description, a preferred embodiment of the present invention will be described by way of example only and with reference to the accompanying drawings.

4 shows an operation control flow chart of the power control according to the present invention. Each step of FIG. 4 is executed by the controller 10 of FIG. 1, and for this purpose, an execution program written in a programming language is written in a memory such as a ROM. The key point in FIG. 4 is to insert the estimation technique between step 101 and step 99 of FIG. That is, when an error occurs in the power control bit when the terminal receives the slot, the terminal may estimate the power control bit in which the error occurred through the previous power control bits to be used for the closed loop power control.

Before describing FIG. 4, the background of the estimation technique will be described for a more thorough understanding of the present invention. The signal transmitted from the base station to the base station in reverse link undergoes different fading from the fading experienced by the signal sent from the base station to the terminal. Thus, the base station sends a power control bit to the terminal to receive a signal of constant power from the terminal. In the conventional power control technique, when an error occurs in a power control bit received by the terminal, the bit is regarded as meaningless and power is not raised or lowered. However, in the present invention, when the control bit error occurs, the transmission power of the terminal is controlled by predicting the transmitted power control bit through an estimation technique. The power control bit is transmitted at a fixed period, for example, every 1.25 ms, as shown by the symbols S1, S2, S3, and Sn in Fig. 3C. This bit alert is transmitted to the terminal after the base station calculates the power of the signal received from the terminal. Power up-down information sent. The fading of the reverse link paper has a Rayleigh characteristic with random phase and magnitude, and the goal is repeated. As a result, the power control bit is often repeated with a logic 1 or 0 indicating the level of increase or decrease. Even if a power control bit error occurs at point E1 as in 3C, the fading is near the goal and the recent k bits are also zero, so the errored bit can be assumed to be zero. Similarly, it can be assumed that the power control bit is transmitted as 1 when an error occurs at the point E2. 3 is a view provided to explain an estimation method of power control control according to the present invention, and (3A), which is not described, shows the power level before the Peruvian power control. Here, A1 represents the power level and A2 represents the target power level to be controlled. (3B) represents the level after the power control, B1 represents the level trajectory of the power label which has undergone fading and B2 is to be controlled. Indicates the target power level.

Referring now to FIG. 4, steps 100a, 100b, 100c, and 100d are noted, and steps 97, 98, 99, 101, 102-105 are steps 97, 98, 99, 101, 102 of FIG. You can see that it is the same as -105 steps. In step 101, when an error occurs in the power control bit of the transmitted slot, steps 100a, 100b, 100c, and 100d are performed. The above steps are performed by estimating the previous K bits (where K is a natural number of 2 or more) transmitted without error, and estimating a power control bit having a current error as 1 or 0 when the rate at which 1 or 0 occurs is more than a preset ratio. Step to perform. The set ratio may be fixed to 1 or 1/2 and may be varied according to the cell environment, that is, whether it is a microcell or a picocell. If the Doppler frequency is large (when the user's moving speed is large), the edging is severe and the goal is repeated quickly. Therefore, if the pulsing is not severe, set K to be small. have. In order to reduce unnecessary estimation errors, it is preferable to make the K moderately small.

According to the present invention as described above, there is no need to change the protocol of the mobile communication or the control method of the base station using the current CDMA method, there is an effect that can solve the problem according to the conventional power control only by changing the control inside the terminal. . In addition, it is possible to reduce the probability of sudden disconnection due to inadequate power control operation has the advantage of providing improved call service to users of the portable communication terminal.

Although the above-described invention has been described and limited by way of example with reference to the drawings, the same will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention.

Claims (3)

A power control method of a portable communication terminal, comprising: a first step of receiving data including an item for power control information for each preset time interval; and a second step of determining whether an error occurs in the received power control information And a third step of estimating the currently received power control information based on a preset number of previous power control information when an error occurs in the second step, and transmitting based on the power control information estimated in the third step. The fourth step of adjusting the power. The power control bit of claim 1, wherein the third step is to examine previous K bits (where K is a natural number of 2 or more) transmitted without error, and if the rate at which 1 or 0 occurs is more than a preset rate, the power control bit in which the current error occurs. Performing an operation of estimating a to 1 or 0. The method of claim 2, wherein the preset ratio is variable depending on whether it is fixed or microcell or picocell.