KR100342527B1 - Method for controlling current of receiver in wireless communication system - Google Patents

Abstract

The present invention provides a method for controlling a current of a terminal in a wireless communication system. Low current mode; and if the operation mode of the terminal is a transmit / receive mode, causing active elements of the receiver to operate in the “high current mode”.

Description

Current control method of receiver in wireless communication system {METHOD FOR CONTROLLING CURRENT OF RECEIVER IN WIRELESS COMMUNICATION SYSTEM}

The present invention relates to a current control method of a wireless communication system, and more particularly to a current control method according to the operation mode of the terminal.

In general, in the wireless communication system, the linearity of active devices such as a low noise amplifier provided in the receiver should be good in order to analyze a desired received signal well under a strong interference signal even at a low level. That is, an intermodulation (hereinafter referred to as IMD) signal between an interference signal (eg, an adjacent channel signal) received from an antenna and a desired reception signal operates as noise within a band of the reception signal. As a result, the signal-to-noise ratio of the received signal is deteriorated, which reduces the reception performance. For example, when a band of a desired reception signal is f0 + 615 KHz in a code division multiple access (CDMA) mobile radio system, the interference signal # 1 is received on f0 + 900 KHz. When the interference signal # 2 is received on f0 + 1.7 MHz, the IMD by the interference signal # 1 and the interference signal # 2 occurs on fo + 100 KHz in the reception signal band, thereby lowering the reception sensitivity.

In addition, in the transmission / reception mode of the terminal, the power of the Tx signal is leaked to the receiving end. In this case, the transmission signal and the reception signal may generate cross modulation with each other at the antenna terminal. For example, in a CDMA mobile radio system, a cross modulation product generated by cross modulation between a power component derived from a transmission signal and a desired reception signal operates as noise in a band of a desired reception signal. As a result, the signal-to-noise ratio of the received signal is deteriorated, which reduces the reception performance.

Therefore, in order to reduce the effect of the reception degradation, the linearity of active elements such as a low noise amplifier provided in the receiver should be good. For example, the P1 dB of a low noise amplifier should be high. The P1 dB refers to a point where the gain decreases by 1 dB in a small signal gain that can be linearly amplified by the low noise amplifier (see FIG. 4). However, the linearity of the active elements is proportional to current consumption. In other words, in order to prevent the degradation of the reception performance, the active element should be supplied with sufficient current. In the case of a terminal using a battery, a problem of shortening the battery usage time occurs.

1 is a diagram illustrating an example of a conventional receiving end in a wireless communication system.

The low noise amplifier 103 amplifies a signal received from the antenna 101. The RF filter 105 band-filters the signal of the reception band. The down converter 107 outputs a signal of the difference between the received signal and the local oscillation signal input from the local oscillator 109, that is, an intermediate frequency signal. The intermediate frequency amplifier 111 amplifies the intermediate frequency signal. The intermediate frequency filter 113 band filters the received signal of a desired band with respect to the intermediate frequency signal. The automatic gain amplifier 115 adjusts the gain of the signal band-filtered at the intermediate frequency by the reception gain control signal 117 so that the demodulator 119 can demodulate the received signal well. The demodulator 119 demodulates the band-filtered signal to output the received data 121, and the reception strength detector 123 detects the reception strength of the output of the demodulator to automatically output the reception gain control signal 117. Output to gain amplifier 115.

In the description of FIG. 1, the low noise amplifier 103, the down converter 107, the intermediate frequency amplifier 111, and the like correspond to active devices, and the active devices described above may be used to prevent the degradation of reception performance due to interference components. It can be seen that sufficient current must be supplied.

Accordingly, an object of the present invention is to provide a method for adjusting a current supplied to active elements of a receiver according to an operation mode of a terminal in a wireless communication system.

Another object of the present invention is to sufficiently supply the current supplied to the active elements provided in the receiver in the transmission / reception mode in the wireless communication system, and to adjust the amount of the current periodically or aperiodically in the reception standby mode. To provide a way to.

According to an aspect of the present invention, a method of controlling a current of a terminal in a wireless communication system controls the amount of current supplied to active elements of a receiving end when the operating mode of the terminal is a receiving standby mode. Current mode 'or' low current mode ', and if the operating mode of the terminal is a transmit / receive mode, causing active elements of the receiver to operate in the' high current mode '. It is done.

1 is a diagram illustrating an example of a conventional receiving end in a wireless communication system.

2 is a diagram illustrating a receiving end according to a first embodiment of the present invention in a wireless communication system.

3 illustrates a receiving end according to a second embodiment of the present invention in a wireless communication system.

4 illustrates a P1 dB point in a wireless communication system.

5A to 5B are diagrams showing examples of periodic or aperiodic mode signals output to active elements of a receiving end according to an embodiment of the present invention, respectively.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In the following description of the present invention, detailed descriptions of related well-known functions or configurations are omitted when it is determined that the detailed description may unnecessarily obscure the subject matter of the present invention.

The mobile wireless terminal receives a pilot channel signal and a paging channel signal in a reception standby state, and receives a traffic channel signal when a call is connected. However, since the received power of the pilot channel signal is generally larger than the received power of the traffic channel, the mobile wireless terminal can easily detect the received signal in the reception standby state. Therefore, the present invention adjusts the amount of current supplied to the active element of the receiver according to the operation mode of the mobile wireless terminal. That is, in the case of the transmission / reception mode, the present invention supplies sufficient current to the active elements of the receiver.

In the reception standby mode, intermodulation due to an interference signal may occur. However, since the intermodulation by the interference signal does not always occur, the present invention adjusts the amount of current supplied to the active element periodically or aperiodically in the reception standby mode.

2 illustrates a receiving end according to a first embodiment of the present invention in a wireless communication system.

In FIG. 2, except for the configuration of the OR gate 210, the control voltage generator 220, and the operation mode control signal 230, the remaining components are the same as those of FIG. 1.

The OR gate 210 outputs a 'high' or 'low' signal. When the 'high' is low, the low noise amplifier 103 and the intermediate frequency amplifier 111 operate in a 'HIGH current mode' and the 'low' In this case, the low noise amplifier 103 and the intermediate frequency amplifier 111 operate in the 'LOW Current mode'.

The operation mode control signal 230 is generated from an upper processor (not shown) and may be a reception standby mode signal or a transmission / reception mode signal. The operation mode control signal 230 becomes 'high' in the transmission / reception mode. Therefore, when the operation mode control signal 230 is in the transmit / receive mode, the OR gate 210 outputs a 'high' signal to operate the low noise amplifier 103 and the intermediate frequency amplifier 111 in the 'HIGH current mode'. .

The control voltage generator 220 adjusts the amount of supply current of the active end devices periodically or aperiodically. 5A illustrates an example of a periodic signal output from the control voltage generator 220, and FIG. 5B illustrates an example of an aperiodic signal output from the control voltage generator 220.

That is, the control voltage generator 220 controls the receiver current periodically or aperiodically, thereby preventing the reception performance degradation caused by the receiver operating in the 'LOW Current mode' and always operating the battery in the 'HIGH Current mode'. It can reduce the use time. However, if the error of the received data becomes larger than the set threshold in the reception standby mode due to the influence of intermodulation, the higher processor may recognize this and set the operation mode of the control voltage generator 220 to the 'HIGH Current mode'. .

3 shows a receiving end according to a first embodiment of the present invention in a wireless communication system.

2 is a heterodyne method, while in the case of FIG. 3, the received signal is amplified by the low noise amplifier 103, filtered by the filter 105, and amplified by the auto gain amplifier 115. Demodulation at). Otherwise, as in the case of FIG. 2, the signal for controlling the supply current of the control voltage generator 220 and the operation mode control signal 230 are connected to the low noise amplifier 103 and the auto gain amplifier 115 through the OR gate 210. To control the supply current.

As described above, the present invention has the advantage of reducing the current consumption of the average receiver by controlling the current consumption of the terminal receiving terminal, which is important for the use time of the battery, periodically or aperiodically, and increasing the battery usage time without degrading the reception performance. have.

Claims (3)

A method of controlling a current of a wireless circuit in a terminal of a code division multiple access wireless communication system, When the operation mode of the terminal is the reception standby mode, when the performance of the reception signal is degraded, the active elements control the amount of current supplied to the active elements of the reception terminal of the wireless circuit in the 'high current mode', If the performance is good, controlling to output in 'low current mode', And controlling the active elements of the receiver to output the high current mode when the operation mode of the terminal is a transmit / receive mode. delete The method of claim 1, wherein the active elements, A low voltage amplifier, a radio frequency filter, a down converter, a local oscillator, and an intermediate frequency amplifier.