KR100600969B1 - Mobile communication terminal for controling backward power - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a mobile communication terminal for reverse power control.

2. The technical problem to be solved by the invention

The present invention relates to the transmission conductivity spurious emission and the controlled minimum power reference in the IS-98 specification which defines the minimum standard of the mobile communication terminal of the CDMA cellular system using the level of the forward received power signal, the power control bit and the power correction value table. It is intended to provide a mobile communication terminal for controlling reverse transmission power to the extent that sufficient provisions for the specified regulations can be satisfied.

3. Summary of the Solution of the Invention

The present invention bypasses the main processor to control the reverse transmission power of the mobile communication terminal to minimize the noise layer and the spurious generated at the terminal of the mobile communication terminal and satisfy the IS-98 regulation with sufficient margin. Bypass switches operated by control signals bypass the transmission signals applied to the drive amplifiers among the drive amplifiers and power amplifiers having a fixed fixed amplification gain or bypass the transmission signals applied to the power amplifiers, The drive amplifier with fixed amplification gain is replaced by a separate drive amplifier with variable amplification gain, driven by the drive gain control signal from the main processor.

4. Important uses of the invention

The present invention is used for the reverse power control of the mobile communication terminal.

Code Division Multiple Access, Mobile Terminals, Cellular Systems, Drive Amplifiers

Description

Mobile communication terminal for control backward power}

1 is an exemplary configuration diagram of a conventional mobile communication terminal.

2 is a block diagram of a first embodiment of a mobile communication terminal according to the present invention;

3 is a block diagram of a second embodiment of a mobile communication terminal according to the present invention;

4 is a block diagram of a third embodiment of a mobile communication terminal according to the present invention;

* Explanation of symbols for the main parts of the drawings

10: transmitting and receiving antenna 20: low noise amplifier

30: down mixer 40: RX automatic gain controller

50: demodulator 60,61,62,63: main processor

70 modulator 80 TX auto gain controller

90: up mixer 100: drive amplifier

101: individual drive amplifier 110: power amplifier

120: bypass switch

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal for reverse power control, and more particularly, to a transmission conductivity spurious in IS-98, which defines a minimum standard of a mobile communication terminal of a code division multiple access (CDMA) cellular system. The present invention relates to a mobile communication terminal capable of controlling reverse transmission power with sufficient margin to satisfy a regulation specifying a radiated and controlled minimum power reference.

In general, a mobile communication terminal of a conventional CDMA cellular system has a low noise amplification of a received signal and a power control bit signal transmitted from a base station and applied via a receiving end RX of a transmit / receive antenna 10 as shown in FIG. 1. The low-noise amplifier 20, the down-mixer 30 outputting the received intermediate frequency signal by mixing the output signal of the low-noise amplifier 20 and the local oscillation signal for reception, and the reception intermediate output from the down mixer 30. An RX automatic gain controller 40 for automatically adjusting gain of a frequency signal, a demodulator 50 for detecting a received signal from the base station and a power control bit signal from an output signal of the RX automatic gain controller 40; The operation of the RX automatic gain controller 40 is controlled according to the received signal level from the base station detected by the demodulator 50, and corresponding to the received signal. And a main processor 60 for outputting a gain control signal for automatically controlling the specific transmission signal level in accordance with the power control bit signal at the same time as outputting a specific transmission signal. A modulator 70 for modulating a transmission signal and a TX automatic gain controller 80 for automatically controlling the gain of a modulated transmission signal output from the modulator 70 in accordance with a gain control signal output from the main processor 60. And an up mixer 90 for outputting a transmission intermediate frequency signal by mixing the output signal of the automatic gain controller 80 and the local oscillation signal for transmission, and the output signal of the up mixer 90 with a drive signal of a predetermined level. A drive amplifier 100 that amplifies the signal and amplifies the output signal of the drive amplifier 100 into a power signal of a predetermined level to transmit and receive the transmission and reception antenna 10. It consists of a power amplifier 110 for transmission to the base station through the stage (TX).

Looking at the operation of the conventional mobile communication terminal having the configuration as described above are as follows.

Initially, the main processor 60 is driven according to the level of the received signal applied to the main processor 60 via the low noise amplifier 20, the down mixer 30, the RX automatic gain controller 40, and the demodulator 50. A transmission open loop formed by the modulator 70, the TX automatic gain controller 80, the up mixer 90, the drive amplifier 100, and the power amplifier 110, that is, a transmission signal transmitted to the base station via a transmission path. When the radio frequency is adjusted to a specific level determined initially, the base station detects a transmission signal level of the mobile communication terminal and transmits a predetermined power up / down bit signal to maintain a desired transmission signal level. By transmitting to the terminal to control the reverse transmission power of the mobile communication terminal.

In this case, in the transmission path of the mobile communication terminal, the gain of the transmission signal level is simultaneously output by the main processor 60 according to the power control bit signal applied to the main processor 60 and corresponding to a specific received signal. In addition, a gain control signal for automatically controlling a specific transmission signal level is outputted so as to be controlled by controlling the gain adjusting operation of the TX automatic gain controller 80.

That is, the conventional mobile communication terminal can control the reverse transmission power of the terminal only by controlling the gain adjustment operation of the TX automatic gain controller 80 according to the power control bit signal of the base station.

However, when controlling only the TX automatic gain controller 80 of the mobile communication terminal as described above to control the reverse transmission power of the mobile communication terminal, the drive amplifier 100 and the cascade connected to each other have a fixed amplification gain. Since the summation gain (about 55 dB) of the amplifier 110 is too large, there is a problem that the noise floor and the spurious are too large at the terminal of the mobile communication terminal.

Therefore, the TX dynamic range of 23 to 30 dBm maximum power and -50 dBm minimum power can only be satisfied, but the reverse transmission power of the terminal cannot be controlled to such an extent that it can be satisfied with sufficient margin according to the above IS-98 regulations. There is a problem.

In addition, there is a problem in that the reverse transmission power of the mobile communication terminal cannot be controlled to such an extent that the TX conductive spurious emission standard can be satisfactorily satisfied in the transmission path of the mobile communication terminal. Here, the TX conductivity spurious emission specification is equal to, for example, when the transmission power is -13 dBm / 1.23 MHz, when -42 dBc / 30 kHz ± 900 kHz to ± 1.98 MHz, and when -54 dBc / 30 kHz ± 1.98 MHz or more.

The present invention has been proposed to solve the above-mentioned problem, which is defined in the IS-98 regulation that defines the minimum specification of the mobile communication terminal of the CDMA cellular system using the level of the forward received power signal, the power control bit and the power correction value table. It is an object of the present invention to provide a mobile communication terminal for controlling reverse transmission power such that the transmission conductivity, spurious emission and controlled minimum power reference can be satisfied with sufficient margin.

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A first embodiment of the present invention for achieving the above object, in the mobile communication terminal, amplification for low noise amplification of the received signal and the power control bit signal transmitted from the base station via the receiving terminal (RX) of the transmission and reception antenna Way; Downlink frequency mixing means for mixing the output signal of the amplifying means and the receiving local oscillating signal to output a received intermediate frequency signal; Reception gain control means for automatically adjusting the gain of the received intermediate frequency signal output from the downlink frequency mixing means; Demodulation means for detecting a received signal from the base station and a power control bit signal from an output signal of the received gain control means; Controlling the operation of the reception gain control means in accordance with the received signal level from the base station detected by the demodulation means, outputting a specific transmission signal corresponding to the received signal, and in accordance with the power control bit signal. A bypass control signal for outputting a gain control signal for automatically controlling a specific transmission signal level, detecting a transmission signal fed back from the following power amplification means, and bypassing the transmission signal applied to the following drive amplification means; Main control means for outputting; Modulation means for modulating a transmission signal output from said main control means; Transmission gain control means for automatically controlling the gain of the modulated transmission signal output from the modulation means in accordance with the gain control signal output from the main control means; Uplink frequency mixing means for mixing the output signal of the transmission gain control means and the local oscillation signal for transmission to output a transmission intermediate frequency signal; The drive amplifying means for amplifying the output signal of the uplink frequency mixing means into a drive signal of a predetermined level; The power amplifying means for amplifying an output signal of the drive amplifying means into a power signal of a predetermined level and transmitting the signal to the base station through a transmitting end TX of the transmitting and receiving antenna; And a transmission provided between the uplink frequency mixing means and the drive amplifying means and between the drive amplifying means and the power amplifying means and operated by a bypass control signal output from the main control means to be applied to the drive amplifying means. And by-pass switching means for bypassing the signal.
According to the first embodiment of the present invention having the above configuration, the reverse transmission power can be controlled by bypassing the transmission signal applied to the drive amplifying means having the fixed fixed amplification gain.
A second embodiment of the present invention for achieving the above object is, in the mobile communication terminal, amplifying means for low-noise amplifying the received signal and the power control bit signal transmitted from the base station via the receiving end (RX) of the transmission and reception antenna ; Downlink frequency mixing means for mixing the output signal of the amplifying means and the receiving local oscillating signal to output a received intermediate frequency signal; Reception gain control means for automatically adjusting the gain of the received intermediate frequency signal output from the downlink frequency mixing means; Demodulation means for detecting a received signal from the base station and a power control bit signal from an output signal of the received gain control means; Controlling the operation of the reception gain control means in accordance with the received signal level from the base station detected by the demodulation means, outputting a specific transmission signal corresponding to the received signal, and in accordance with the power control bit signal. Outputs a gain control signal for automatically controlling a specific transmission signal level, detects a transmission signal fed back from the following power amplification means, and bypasses the bypass control signal for bypassing the transmission signal applied to the following power amplification means. Main control means for outputting; Modulation means for modulating a transmission signal output from said main control means; Transmission gain control means for automatically controlling the gain of the modulated transmission signal output from the modulation means in accordance with the gain control signal output from the main control means; Uplink frequency mixing means for mixing the output signal of the transmission gain control means and the local oscillation signal for transmission to output a transmission intermediate frequency signal; The drive amplifying means for amplifying the output signal of the uplink frequency mixing means into a drive signal of a predetermined level; The power amplifying means for amplifying an output signal of the drive amplifying means into a power signal of a predetermined level and transmitting the signal to the base station through a transmitting end TX of the transmitting and receiving antenna; And between the drive amplifying means and the power amplifying means and between the power amplifying means and the transmitting end TX of the transmitting / receiving antenna and operated by a bypass control signal output from the main control means to the power amplifying means. And bypass switching means for bypassing the applied transmission signal.
According to the second embodiment of the present invention having the above configuration, the reverse transmission power can be controlled by bypassing the transmission signal applied to the power amplification means having the fixed fixed amplification gain.
A third embodiment of the present invention for achieving the above object, in the mobile communication terminal, amplification for low noise amplification of the received signal and power control bit signal transmitted from the base station via the receiving terminal (RX) of the transmission and reception antenna Way; Downlink frequency mixing means for mixing the output signal of the amplifying means and the receiving local oscillating signal to output a received intermediate frequency signal; Reception gain control means for automatically adjusting the gain of the received intermediate frequency signal output from the downlink frequency mixing means; Demodulation means for detecting a received signal from the base station and a power control bit signal from an output signal of the received gain control means; Controlling the operation of the reception gain control means in accordance with the received signal level from the base station detected by the demodulation means, outputting a specific transmission signal corresponding to the received signal, and in accordance with the power control bit signal. Outputting a gain control signal for automatically controlling a specific transmission signal level, and outputting a drive gain control signal for varying the amplification gain of the individual drive amplifying means described below by detecting the transmission signal fed back from the following power amplifying means; Main control means; Modulation means for modulating a transmission signal output from said main control means; Transmission gain control means for automatically controlling the gain of the modulated transmission signal output from the modulation means in accordance with the gain control signal output from the main control means; Uplink frequency mixing means for mixing the output signal of the transmission gain control means and the local oscillation signal for transmission to output a transmission intermediate frequency signal; Said individual drive amplifying means for variably amplifying the output signal of said uplink frequency mixing means into a drive signal of a predetermined level in accordance with a drive gain control signal output from said main control means; And the power amplifying means for amplifying the output signal of the self drive amplifying means into a power signal having a predetermined level and transmitting the signal to the base station through the transmitting end TX of the transmitting / receiving antenna, while feeding back the transmitting signal to the main control means. Characterized in that consisting of.
According to the third embodiment of the present invention having the above configuration, the reverse transmission power can be controlled by replacing the drive amplifier having the fixed fixed amplification gain with the individual drive amplifying means having the variable amplification gain.
The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram of a first embodiment of a mobile communication terminal according to the present invention.

The low noise amplifier 20 low noise amplifies the received signal and the power control bit signal transmitted from the base station and applied via the receiving end RX of the transmit / receive antenna 10.

The down mixer 30 mixes the output signal of the low noise amplifier 20 and the reception local oscillation signal to output the reception intermediate frequency signal.

The RX automatic gain controller 40 automatically adjusts the gain of the received intermediate frequency signal output from the down mixer 30.

The demodulator 50 detects the received signal from the base station and the power control bit signal from the output signal of the RX automatic gain controller 40.

The main processor 61 controls the operation of the RX automatic gain controller 40 in accordance with the received signal level from the base station detected by the demodulator 50, outputs a specific transmission signal corresponding to the received signal, Outputs a gain control signal for automatically controlling the specific transmission signal level according to a control bit signal, detects a transmission signal fed back from the power amplifier 110 below, and transmits the transmission signal to the lower drive amplifier 100. Outputs a bypass control signal for bypassing

The modulator 70 modulates the transmission signal output from the main processor 61.

The TX automatic gain controller 80 automatically controls the gain of the modulated transmission signal output from the modulator 70 in accordance with the gain control signal output from the main processor 61.

The up mixer 90 mixes the output signal of the TX automatic gain controller 80 and the transmission local oscillation signal to output the transmission intermediate frequency signal.

The drive amplifier 100 amplifies the output signal of the up mixer 90 into a drive signal of a predetermined level. Drive amplifier 100 has a fixed amplification gain.

The power amplifier 110 amplifies the output signal of the drive amplifier 100 into a power signal of a predetermined level and transmits the transmitted signal to the base station through the transmitting terminal TX of the transmitting and receiving antenna 10, and transmits the transmitting signal to the main processor 61. Feedback.

The bypass switch 120 is installed between the up mixer 90 and the drive amplifier 100 and between the drive amplifier 100 and the power amplifier 110. The bypass switch 120 is connected to the bypass control signal output from the main processor 61. It operates by bypassing the transmission signal applied to the drive amplifier 100.

3 is a configuration diagram of a second embodiment of a mobile communication terminal according to the present invention.

The low noise amplifier 20 low noise amplifies the received signal and the power control bit signal transmitted from the base station and applied via the receiving end RX of the transmit / receive antenna 10.

The down mixer 30 mixes the output signal of the low noise amplifier 20 and the reception local oscillation signal to output the reception intermediate frequency signal.

The RX automatic gain controller 40 automatically adjusts the gain of the received intermediate frequency signal output from the down mixer 30.

The demodulator 50 detects the received signal from the base station and the power control bit signal from the output signal of the RX automatic gain controller 40.

The main processor 62 controls the operation of the RX automatic gain controller 40 in accordance with the received signal level from the base station detected by the demodulator 50, outputs a specific transmission signal corresponding to the received signal, and simultaneously generates power. Outputs a gain control signal for automatically controlling a specific transmission signal level according to the control bit signal, detects the transmission signal fed back from the power amplifier 110 below, and bypasses the transmission signal applied to the power amplifier 110. Outputs a bypass control signal to make

The modulator 70 modulates the transmission signal output from the main processor 61.

The TX automatic gain controller 80 automatically controls the gain of the modulated transmission signal output from the modulator 70 in accordance with the gain control signal output from the main processor 61.

The up mixer 90 mixes the output signal of the TX automatic gain controller 80 and the transmission local oscillation signal to output the transmission intermediate frequency signal.

The drive amplifier 100 amplifies the output signal of the up mixer 90 into a drive signal of a predetermined level. Drive amplifier 100 has a fixed amplification gain.

The power amplifier 110 amplifies the output signal of the drive amplifier 100 into a power signal of a predetermined level and transmits the transmitted signal to the base station through the transmission terminal TX of the transmission / reception antenna 10, and transmits the transmission signal to the main processor 62. Feedback.

The bypass switch 120 is installed between the drive amplifier 100 and the power amplifier 110 and between the power amplifier 110 and the transmitting end TX of the transmit / receive antenna 10 and is output from the main processor 62. It operates by the bypass control signal to bypass the transmission signal applied to the power amplifier 110.

4 is a configuration diagram of a third embodiment of a mobile communication terminal according to the present invention.

The low noise amplifier 20 low noise amplifies the received signal and the power control bit signal transmitted from the base station and applied via the receiving end RX of the transmit / receive antenna 10.

The down mixer 30 mixes the output signal of the low noise amplifier 20 and the reception local oscillation signal to output the reception intermediate frequency signal.

The RX automatic gain controller 40 automatically adjusts the gain of the received intermediate frequency signal output from the down mixer 30.

The demodulator 50 detects the received signal from the base station and the power control bit signal from the output signal of the RX automatic gain controller 40.

The main processor 63 controls the operation of the RX automatic gain controller 40 according to the received signal level from the base station detected by the demodulator 50, outputs a specific transmission signal corresponding to the received signal, Outputs a gain control signal for automatically controlling a specific transmission signal level according to the control bit signal, detects the transmission signal fed back from the power amplifier 110 below, and varies the amplification gain of the individual drive amplifier 101 below. Outputs a drive gain control signal for use.

The modulator 70 modulates the transmission signal output from the main processor 63.

The TX automatic gain controller 80 automatically controls the gain of the modulated transmission signal output from the modulator 70 in accordance with the gain control signal output from the main processor 63.

The up mixer 90 mixes the output signal of the TX automatic gain controller 80 and the transmission local oscillation signal to output the transmission intermediate frequency signal.

The individual drive amplifier 101 variably amplifies the output signal of the up mixer 90 into a drive signal of a predetermined level according to the drive gain control signal output from the main processor 63.

The power amplifier 110 amplifies the output signal of the individual drive amplifier 101 into a power signal of a predetermined level and transmits the signal to the base station through the transmitting end TX of the transmitting and receiving antenna 10, while transmitting a signal to the main processor 63. Feedback.

The operation of the mobile communication terminals according to the first to third embodiments of the present invention having the above configuration will be described below.
The present invention minimizes the noise layer and the spurious generated at the terminal of the mobile terminal, so that the main processor (61, 62) to control the reverse transmission power of the mobile terminal to a sufficient margin to satisfy the IS-98 regulations Transmit signal applied to the drive amplifier 100 among the drive amplifier 100 and the power amplifier 110 having a fixed amplification gain by using the bypass switch 120 operating by the bypass control signal of Bypassing or bypassing the transmission signal applied to the power amplifier 110, drive amplifier 100 having a fixed amplification gain is operated by the drive gain control signal of the main processor 63 and a variable amplification gain is applied. It is to be replaced by a separate drive amplifier 101 having.

In the first embodiment of the present invention, a received signal initially applied to the main processor 61 via the low noise amplifier 20, the down mixer 30, the RX automatic gain controller 40, and the demodulator 50. Depending on the level of the main processor 61, the modulator 70, TX automatic gain controller 80, up mixer 90, bypass switch 120, drive amplifier 100, bypass switch 120, power When the radiated open loop formed by the amplifier 110, that is, the level of the transmission signal transmitted to the base station via the transmission path is adjusted and radiated to a predetermined level, the base station senses the transmission signal level of the mobile communication terminal. A predetermined power up / down bit signal for maintaining a desired transmission signal level is transmitted to the mobile communication terminal to control reverse transmission power of the mobile communication terminal.

At this time, in the transmission path of the mobile communication terminal, the gain of the transmission signal level is simultaneously output by the main processor 61 according to the power control bit signal applied to the main processor 61 and corresponding to a specific received signal. The output signal is controlled by outputting a gain control signal for automatically controlling a specific transmission signal level to control the gain adjusting operation of the TX automatic gain controller 80.

In the present invention, the initial transmission signal level determined as described above, i.e., the reverse transmission power, is obtained as "-73-reception power", and the value obtained in this manner is determined by the main processor 61 in the TX automatic gain control RAM table. The gain control signal for controlling the amplification gain of the TX automatic gain controller 80 which is output from the main processor 61 is selected according to the result of comparison with.

In addition, the main processor 61 detects the feedback signal of the power amplifier 110 according to the level of the transmission signal required by the base station to determine whether to output the bypass control signal. In the present invention, the transmission signal level is 0 dBm. Is selected as the bypass time point.

As described above, after the bypass switch 120 operates by the bypass control signal of the main processor 61 to bypass the transmission signal applied to the drive amplifier 100, a gain loss is basically generated. The gain loss generated is compensated for using the power correction value table of the main processor 61.

For example, when the drive amplifier 100 having a gain of +20 dB is bypassed, the main processor 61 may determine the automatic gain control value corresponding to the correction value in the power correction value table indicating a difference from the automatic gain control value before the bypass. Is corrected in the TX automatic gain control RAM table to control the operation of the TX automatic gain controller 80.

That is, in the first embodiment according to the present invention, the reverse transmission power required by the base station is controlled by controlling the amplification gain of the drive amplifier 100 bypassed by the conventional TX automatic gain controller 80 and the bypass switch 120. Is to be changed.

Meanwhile, in the second embodiment of the present invention, the bypass switch 120 in the first embodiment is installed at the input / output terminal of the power amplifier 110 so that the power amplifier 110 may be used instead of the drive amplifier 100 of the first embodiment. Is to bypass.

In the second embodiment of the present invention, the main processor 62 detects the feedback signal of the power amplifier 110 according to the level of the transmission signal required by the base station to determine whether to output the bypass control signal, and the main processor When the bypass switch 120 operates according to the bypass control signal output from 62, the transmission signal applied to the power amplifier 110 is bypassed.

That is, in the second embodiment of the present invention, the reverse transmission power required by the base station is controlled by controlling the amplification gain of the power amplifier 110 bypassed by the conventional TX automatic gain controller 80 and the bypass switch 120. To be variable.

On the other hand, in the third embodiment of the present invention, instead of the conventional drive amplifier 100 having a fixed fixed amplification gain as shown in FIG. 1, an individual drive amplifier 101 capable of varying the amplification gain is shown. By using the variable transmission power amplified backward transmission power required by the base station.

In the third embodiment of the present invention, the main processor 63 outputs the drive gain control signal in accordance with the result of detecting the feedback signal of the power amplifier 110 in accordance with the level of the transmission signal required by the base station. In addition, when the drive gain control signal is output from the main processor 63, the individual drive amplifier 101 transmits to the base station through the power amplifier 110 by variably amplifying the output signal of the up mixer 90 into a drive signal of a predetermined level. The reverse transmission power is varied.

That is, in the third embodiment of the present invention, the variable transmit power required by the base station is varied by controlling the variable amplification operation of the conventional TX automatic gain controller 80 and the individual drive amplifier 101.
The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the present invention controls the reverse transmission power by bypassing the transmission signal applied to the drive amplifier or bypassing the transmission signal applied to the power amplifier among the drive amplifier and the power amplifier having a fixed fixed gain. Or by replacing the drive amplifier with an individual drive amplifier having a variable amplification gain, thereby controlling the reverse transmission power, thereby minimizing the noise layer and the spurious generated at the end of the mobile communication terminal. There is an effect that the reverse transmission power of the mobile communication terminal can be controlled to such an extent that the IS-98 regulation can be satisfied with sufficient margin.

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Claims (3)

In the mobile communication terminal, Amplifying means for low noise amplifying the received signal and the power control bit signal transmitted from the base station and applied via the receiving end RX of the transmitting and receiving antenna; Downlink frequency mixing means for mixing the output signal of the amplifying means and the receiving local oscillating signal to output a received intermediate frequency signal; Reception gain control means for automatically adjusting the gain of the received intermediate frequency signal output from the downlink frequency mixing means; Demodulation means for detecting a received signal from the base station and a power control bit signal from an output signal of the received gain control means; Controlling the operation of the reception gain control means in accordance with the received signal level from the base station detected by the demodulation means, outputting a specific transmission signal corresponding to the received signal, and in accordance with the power control bit signal. A main control for outputting a gain control signal for automatically controlling a specific transmission signal level and for outputting a bypass control signal for detecting a transmission signal fed back from the power amplifying means and bypassing a transmission signal applied to the drive amplifying means. Way; Modulation means for modulating a transmission signal output from said main control means; Transmission gain control means for automatically controlling the gain of the modulated transmission signal output from the modulation means in accordance with the gain control signal output from the main control means; Uplink frequency mixing means for mixing the output signal of the transmission gain control means and the local oscillation signal for transmission to output a transmission intermediate frequency signal; The drive amplifying means for amplifying the output signal of the uplink frequency mixing means into a drive signal of a predetermined level; The power amplifying means for amplifying an output signal of the drive amplifying means into a power signal of a predetermined level and transmitting the signal to the base station through a transmitting end TX of the transmitting and receiving antenna; And A transmission signal provided between the uplink frequency mixing means and the drive amplifying means and between the drive amplifying means and the power amplifying means and operated by a bypass control signal output from the main control means and applied to the drive amplifying means. Switching means for bypassing Mobile communication terminal for reverse power control comprising a. In the mobile communication terminal, Amplifying means for low noise amplifying the received signal and the power control bit signal transmitted from the base station and applied via the receiving end RX of the transmitting and receiving antenna; Downlink frequency mixing means for mixing the output signal of the amplifying means and the receiving local oscillating signal to output a received intermediate frequency signal; Reception gain control means for automatically adjusting the gain of the received intermediate frequency signal output from the downlink frequency mixing means; Demodulation means for detecting a received signal from the base station and a power control bit signal from an output signal of the received gain control means; Controlling the operation of the reception gain control means in accordance with the received signal level from the base station detected by the demodulation means, outputting a specific transmission signal corresponding to the received signal, and in accordance with the power control bit signal. Outputting a gain control signal for automatically controlling a specific transmission signal level, and outputting a bypass control signal for detecting a transmission signal fed back from the power amplifying means and bypassing the transmission signal applied to the power amplifying means. Control means; Modulation means for modulating a transmission signal output from said main control means; Transmission gain control means for automatically controlling the gain of the modulated transmission signal output from the modulation means in accordance with the gain control signal output from the main control means; Uplink frequency mixing means for mixing the output signal of the transmission gain control means and the local oscillation signal for transmission to output a transmission intermediate frequency signal; Drive amplifying means for amplifying the output signal of the uplink frequency mixing means into a drive signal of a predetermined level; The power amplifying means for amplifying an output signal of the drive amplifying means into a power signal of a predetermined level and transmitting the signal to the base station through a transmitting end TX of the transmitting and receiving antenna; And It is provided between the drive amplifying means and the power amplifying means and between the power amplifying means and the transmitting end TX of the transmitting and receiving antenna, and is operated by a bypass control signal output from the main control means and applied to the power amplifying means. Bypass switching means for bypassing the transmitted signal to be transmitted Mobile communication terminal for reverse power control comprising a. In the mobile communication terminal, Amplifying means for low noise amplifying the received signal and the power control bit signal transmitted from the base station and applied via the receiving end RX of the transmitting and receiving antenna; Downlink frequency mixing means for mixing the output signal of the amplifying means and the receiving local oscillating signal to output a received intermediate frequency signal; Reception gain control means for automatically adjusting the gain of the received intermediate frequency signal output from the downlink frequency mixing means; Demodulation means for detecting a received signal from the base station and a power control bit signal from an output signal of the received gain control means; Controlling the operation of the reception gain control means in accordance with the received signal level from the base station detected by the demodulation means, outputting a specific transmission signal corresponding to the received signal, and in accordance with the power control bit signal. Main control means for outputting a gain control signal for automatically controlling a specific transmission signal level, and outputting a drive gain control signal for detecting a transmission signal fed back from the power amplifying means and for varying the amplification gain of the individual drive amplifying means; Modulation means for modulating a transmission signal output from said main control means; Transmission gain control means for automatically controlling the gain of the modulated transmission signal output from the modulation means in accordance with the gain control signal output from the main control means; Uplink frequency mixing means for mixing the output signal of the transmission gain control means and the local oscillation signal for transmission to output a transmission intermediate frequency signal; Said individual drive amplifying means for variably amplifying the output signal of said uplink frequency mixing means into a drive signal of a predetermined level in accordance with a drive gain control signal output from said main control means; The power amplifying means for amplifying an output signal of the individual drive amplifying means into a power signal of a predetermined level and transmitting the signal to the base station through the transmitting end TX of the transmitting / receiving antenna, and feeding back a transmission signal to the main control means Mobile communication terminal for reverse power control comprising a.

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