KR20040103205A - Apparatus for decreasing generation of heat of handset and method thereof - Google Patents

Abstract

PURPOSE: A device for reducing generation of heat of a terminal and a method therefor are provided to increase battery usage time, reduce caloric value, and prevent noise amplification in a transmitting signal band by appropriately turning on and off a power amplifier according to the receiving sensitivity. CONSTITUTION: A control unit(210) modulates transmitting data into analog signals, and generates the first and second controls signals according to the receiving sensitivity of receiving data. An automatic gain amplifier(220) receives the analog signals for amplifying the analog signals. An RF(Radio Frequency) SAW filter(230) removes harmonic components of the signal output from the automatic gain amplifier. If turned on by the first control signal, a power amplifier(240) amplifies the signals output from the RF SAW filter(230) and transits the amplified signals through an antenna. A switch part(250) is connected with the power amplifier(240) in parallel for flowing or interrupting the signals output from the RF SAW filter(230) according to the control of the second control signal.

Description

Device and method for reducing heat of terminal {APPARATUS FOR DECREASING GENERATION OF HEAT OF HANDSET AND METHOD THEREOF}

The present invention relates to an apparatus and method for reducing heat generation of a terminal, and in particular, to be applied to an RF transmitter of a CDMA terminal, thereby improving problems related to reduction of battery usage time due to high current consumption, heat generation of a terminal during a call, and elimination of spurious transmitters. The present invention relates to an apparatus and a method for reducing heat of a terminal.

Currently, the CDMA system controls all transmit and receive power through automatic gain amplifiers (RX AGC AMP, TX AGC AMP), and has the only continuously variable gain. In other words, these two locations automatically control transmit and receive power in accordance with the IS-95 specification.

1 is a block diagram showing a conventional RF transmitter, which includes a control unit 110 for modulating transmission data into an analog signal; An automatic gain amplifier (120) for receiving an analog signal output from the control unit (110) and amplifying the signal according to the transmission output required by the antenna port; An RF SAW filter 130 for removing harmonic components of the signal output from the auto gain amplifier 120; And a power amplifier 140 for amplifying the signal output from the RF SAW filter 130.

Referring to the operation of the conventional RF transmitter described above, the baseband signal output from the controller 110 is amplified while passing through the automatic gain amplifier 120, and the ambient noise signal is removed while passing through the RF SAW filter 130. And amplified while passing through the power amplifier 140 is radiated to the antenna. That is, the power amplifier 140 is always kept in operation when the transmission signal is output.

However, according to the conventional RF transmitter, the power amplifier 140 consumes the largest current among the components mounted in the portable terminal and generates the most heat. Since the operation, the terminal is heated due to high heat or there is a problem that causes a sharp decrease in the remaining battery charge when a long call. In addition, the developer side has a problem in that when the design of the transmitter is a noise or oscillation occurs in the transmission band, this signal is amplified through the power amplifier 140, which is difficult to improve.

In order to solve the above problems, the present invention increases power consumption of the battery, decreases the amount of heat generated by the power amplifier by turning on / off the power amplifier appropriately according to the reception sensitivity even during a call, and transmits the signal within the transmission signal band within a certain period. It is an object of the present invention to provide an apparatus and method for reducing heat generation of a terminal for preventing noise amplification.

1 is a block diagram showing a conventional RF transmitter;

2 is a block diagram showing an apparatus for reducing heat of a terminal according to an embodiment of the present invention;

3 is a flowchart illustrating a method of reducing heat generation of a terminal according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

210: control unit 220: automatic gain amplifier

230: RF SAW filter 240: power amplifier

250: switch unit

In order to achieve the above object, the apparatus for reducing heat generation of a terminal of the present invention includes: a control unit for modulating transmission data into an analog signal and generating a first control signal and a second control signal according to a reception sensitivity of the reception data; An automatic gain amplifier for receiving and amplifying the analog signal; An RF SAW filter for removing harmonic components of the signal output from the auto gain amplifier; A power amplifier which, when turned on by the first control signal, amplifies the signal output from the RF SAW filter and transmits the amplified signal through an antenna; And a switch unit connected in parallel to the power amplifier to conduct or block a signal output from the RF SAW filter according to the control of the second control signal.

In addition, the heat reduction method of the terminal of the present invention in order to achieve the above object, the step of receiving the received data of the received power; Determining whether the received power is equal to or greater than a value obtained by adding an abnormal mobile power to a transmission power before amplification; And if the received power is equal to or greater than a value obtained by adding an abnormal mobile power to the transmission power before the amplification, deactivating the power amplification process and directly outputting the SAW filtered signal through the antenna.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

First, Figure 2 is a block diagram showing a heat generation reducing device of the terminal according to an embodiment of the present invention, the heat reduction device of the terminal of the present invention, the control unit 210, automatic gain amplifier 220, RF SAW filter 230, a power amplifier 240, and a switch unit 250.

The control unit 210 modulates the transmission data into an analog signal, outputs the analog data to an automatic gain amplifier 220 to be described later, and turns on / off the power amplifier 240 described later according to the reception sensitivity of the received data. It serves to generate a first control signal for controlling and a second control signal for controlling the conduction / blocking of the switch unit 250 to be described later.

In addition, the automatic gain amplifier 220 receives the analog signal output from the control unit 210, amplifies the output according to the transmission output required by the antenna port, and outputs the amplified signal to the RF SAW filter 230 which will be described later. It plays a role.

The RF SAW filter 230 removes the harmonic component of the signal output from the automatic gain amplifier 220 and outputs the filtered signal to the power amplifier 240 which will be described later.

In addition, when the power amplifier 240 is turned on by the first control signal output from the controller 210, the power amplifier 240 amplifies the signal output from the RF SAW filter 230 and transmits the amplified signal through an antenna. It plays a role.

On the other hand, the switch unit 250 is connected in parallel to the power amplifier 240, the signal output from the RF SAW filter 230 under the control of the second control signal output from the controller 210 It acts as a barrier or conduction. The switch unit 250 may be an active switching filter having a bandwidth equal to a transmission RF band.

Referring to the operation of the heat reduction device of the terminal of the present invention described above are as follows.

First, the control unit 210 receives the received data to measure the reception sensitivity, the first control to control the power amplifier 240 to turn on, if the reception signal is weak and needs a transmission power of about -5dBm or more in the terminal While generating a signal, a second control signal for controlling to block the switch unit 250 is generated. Thereafter, the power amplifier 240 is turned on by the first control signal output from the controller 210 to amplify the signal output from the RF SAW filter 230 and transmit the amplified signal through the antenna. .

On the other hand, when the reception signal is strong and the terminal transmission power is about -5 dBm or less, the first control signal for controlling to turn off the power amplifier 240 is generated, and the control unit is controlled to conduct the switch 250. 2 Generate a control signal. Thereafter, the power amplifier 240 is turned off by the first control signal output from the controller 210, and the switch unit 250 is controlled by the RF according to the control of the second control signal output from the controller 210. The signal output from the SAW filter 230 is conducted to the antenna to transmit.

3 is a flowchart illustrating a method for reducing heat generation of a terminal according to an embodiment of the present invention.

First, the control unit 210 receives the received data and measures the received power (S301).

Thereafter, the controller 210 determines whether the received power is equal to or greater than a value obtained by adding an abnormal mobile power to the transmission power before amplification (S302). Here, the value obtained by adding the ideal mobile power to the aforementioned transmission power before amplification may be determined as -5 dBm. The current CDMA system knows in advance the TX power to be output according to the RX power, so that even if there is no power amplifier in the terminal, the TX auto gain amplifier compensates for the output according to the adjusted NV data. That is, the terminal recognizes its maximum transmit power limit that can be output without a power amplifier, and also recognizes the lowest received power limit at this time. Therefore, the value obtained by adding the ideal mobile power to the transmission power before amplification corresponds to the minimum reception power limit. When the reception power is higher than this, normal output of transmission data is possible by compensation of the TX automatic gain amplifier. Will be done.

If the received power is equal to or larger than a value obtained by adding an ideal mobile power to the transmission power before amplification, the power amplification process is deactivated and the SAW filtered signal is directly output through the antenna (S303). Here, instead of deactivating the power amplification process, a gain value may be increased in transmission automatic gain control.

On the other hand, if the received power is less than the value obtained by adding the abnormal mobile power to the transmission power before amplification, the power amplification process is activated, and the SAW filtered signal is amplified and output (S303). Here, instead of activating the power amplification process, the gain value may be reduced in the automatic transmission control.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to the drawings shown.

The present invention has an advantage of increasing the battery life of the terminal, reducing the amount of heat generated, and preventing noise amplification in the transmission signal band below a certain section by appropriately turning on / off the power amplifier according to the reception sensitivity even during a call. .

Claims (6)

A control unit for modulating the transmission data into an analog signal and generating a first control signal and a second control signal according to a reception sensitivity of the reception data; An automatic gain amplifier for receiving and amplifying the analog signal; An RF SAW filter for removing harmonic components of the signal output from the auto gain amplifier; A power amplifier which, when turned on by the first control signal, amplifies the signal output from the RF SAW filter and transmits the amplified signal through an antenna; And A switch unit connected in parallel to the power amplifier to conduct or block a signal output from the RF SAW filter according to the control of the second control signal; Device for reducing heat generation of a terminal comprising a. The method of claim 1, The switch unit is an active switching filter having a bandwidth equal to the transmission RF band. Heat reduction device of the terminal, characterized in that. Measuring received power by receiving received data; Determining whether the received power is equal to or greater than a value obtained by adding an abnormal mobile power to a transmission power before amplification; And If the received power is greater than or equal to the transmission power before amplification plus the abnormal mobile power, deactivating the power amplification process and directly outputting the SAW filtered signal through the antenna. Heat reduction method of the terminal comprising a. The method of claim 3, If the received power is less than the transmission power before amplification plus the abnormal mobile power, activating a power amplification process, power amplifying and outputting the SAW filtered signal Heat reduction method of the terminal comprising a. The method of claim 3, The step of directly outputting the SAW filtered signal through an antenna, Raising the gain value in automatic transmission control Heat reduction method of the terminal comprising a. The method of claim 4, wherein Amplifying and outputting the SAW filtered signal includes: Reducing the gain value in automatic transmission control Heat reduction method of the terminal comprising a.