KR100710064B1 - System for Controlling the ON/OFF-Switching of HDET in Mobile Terminal and Method thereof - Google Patents

Abstract

The present invention relates to a system for controlling a transmission high power detection unit of a mobile terminal, comprising: a power amplifier for amplifying and outputting a transmission signal to a predetermined size according to a low mode and a high mode; A transmission high power detection unit (HDET) which detects transmission high power at the output terminal of the power amplification unit and transmits it to a mobile station modem (MSM); And a transmission gain associated with the received power, and when the transmission gain changes beyond the first threshold, the power amplifier determines the high mode, and while the power amplifier operates in the high mode, the transmission gain increases to increase the second threshold. If it is exceeded, a control signal for turning on the transmission high power detection unit is transmitted to the transmission high power detection unit to turn on the transmission high power detection unit, and the transmission high power detection unit is turned off when the transmission gain decreases below the second threshold while the power amplifier operates in the high mode. And a mobile station modem which transmits a control signal to the transmission high power detection section to turn off the transmission high power detection section.

Description

System for controlling the ON / OFF-Switching of HDET in Mobile Terminal and Method

1 is a block diagram of a conventional mobile terminal transmission power control system;

2 is a block diagram of an on-off control system of a transmission high power detection unit according to the present invention;

3 is a graph showing the on-off operation of the transmission high power detection unit according to the determination of the power amplifier section mode and the change in transmission power (transmission gain);

4 is a flowchart for controlling on / off of a transmission high power detection unit based on a transmission gain.

-Explanation of symbols for the main parts of the drawings-

11: mobile station modem (MSM) 12: digital demodulator

13: automatic gain control amplifier 14: up-mixer

15: driving amplifier 16: power amplifier

17: transmit high power detector 18: gain adjuster

The present invention relates to a mobile communication terminal, and more particularly, to a system and method for controlling an on-off operation of a transmission high power detector, which is a transmission power monitoring device of a mobile communication terminal.

In the design of the CDMA system, if the transmission power of the mobile terminal received at the base station is low, the bit error rate is high and a good quality call cannot be expected. On the contrary, if the reception power is high at the base station, the call quality of the mobile terminal is good but the call quality is reduced by increasing the interference to other mobile terminals using the same channel.

For this reason, the mobile terminal detects the signal strength received from the base station and controls the magnitude of the transmission high power. For example, if the mobile terminal is located close to the base station or if the path loss is small and the strength of the signal received at the base station is high, the mobile terminal is controlled to lower the transmission power. As such, the mobile terminal transmits signals at low transmit power when close to the base station and at high transmit power when far away.

1 is a block diagram of a system for controlling transmission high power in a conventional mobile terminal. In the conventional transmission high power control system, an example of detecting transmission high power through coupling at an output terminal of a power amplification unit includes a mobile station modem (MSM) 11, a digital modulator 12, and an automatic gain control amplifier. 13), up-mixer 14, drive amplifier 15, power amplifier 16, transmit high power detector 17, gain adjuster 18 and the like.

In the conventional transmission high power control system, when high power exceeding a predetermined limit is transmitted, the transmission high power detection unit (HDET) 17 detects the transmission high power level and transmits it to the mobile station modem 11. The transmission high power detection unit 17 couples the transmission power at the output terminal of the power amplification unit 16, rectifies and filters the coupled electrical signal with a constant DC bias, and obtains a DC signal. A general purpose analog to digital converter (abbreviated to GPADC) of the digital modulator 12 is transmitted. The DC signal input to the GPADC is sampled in 256 steps, converted into an 8-bit digital signal, and then transmitted to the mobile station modem 11. With this digital signal, the mobile station modem 11 estimates the current transmission high power level and determines whether there is an abnormality in the generation of high power on the transmission side.

In this way, the transmission high power detection unit 17 monitors the transmission high power output from the power amplification unit 16, and when a transmission high power exceeding a predetermined value is detected, the transmission high power detection unit 17 transmits it to the mobile station modem 11 to adjust transmission high power. As a high power monitoring device, it has a usage range of -50 dBm to 30 dBm, but usually operates at a high power level of 20 dBm to 25 dBm to transmit a corresponding signal to the mobile station modem 11.

By the way, although the transmission high power detection unit 17 can fully exhibit its function even if it operates only in the high mode of the power amplification unit 16, the conventional transmission high power control system uses the mode or the transmission high power level of the power amplification unit 16. Irrespective of this, the transmission high power of the output stage of the power amplifier 16 is detected while keeping the transmission high power detection unit 17 always on. The operation of the transmission high power detector 17 causes a problem of lowering the efficiency of power usage of the mobile terminal.

The present invention is to solve the power efficiency problem of the conventional transmission high power detection unit, and to control the transmission high power detection unit to operate only in the set transmission high power level interval, an object of increasing the efficiency of power use of the mobile terminal.

In order to achieve this object, the present invention provides a control system and method for turning on the transmission high power detector only at a predetermined transmission high power level using a transmission gain interlocked with the reception power when the power amplifier is in high mode. In addition, in the on / off control of the transmission high power detector, a hysteresis period is set to prevent abnormal operation due to an operation error, and only when there is a large change in transmission power, the transmission high power detection unit is turned on and off to prevent abnormal operation. A detector control system and method are provided.

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

Figure 2 is a block diagram of a system for controlling the on-off operation of the transmission high power detection unit according to the present invention. As shown in FIG. 2, in the transmission high power detector ON / OFF control system, an on-off output terminal HDET_EN installed in the mobile station modem 11 and an on-off input terminal CONT_IN of the transmission high power detector 17 are connected to each other. The on-off control signal of the transmission high power detection unit 17 is transmitted from the modem 11 to the transmission high power detection unit 17.

The mobile station modem 11 senses a change in the transmission gain which is linked to the reception power of the reception side, and the transmission gain has a certain mathematical relationship with the output power of the output side of the power amplifying unit 16. Equation 1 below is an example of a relationship equation showing a relationship between a transmission gain Tx_AGC and a transmission power Tx_Po.

Equation 1 -52.25 + 0.0833 × Tx_AGC = Tx_Po

According to [Equation 1], when the transmission gain is 0, the transmission power is -52.25 dBm, when the transmission gain is 100, the transmission power is -43.92 dBm, and when the transmission gain is 300, the transmission power is -27.26 dBm or the like. In this way, if the transmission gain is known, the transmission power transmitted from the output terminal of the power amplifier 16 can be estimated.

3 is a graph showing the on-off operation of the transmission high power detection unit according to the mode determination of the power amplification unit and the transmission power (transmission gain).

On-off control of the transmission high power amplifier 17 turns on the transmission high power detection unit 17 only when the transmission power is high, that is, when the mode of the power amplifier 16 is in the high mode. When the level increases above the set threshold upper limit value, the transmission high power detection unit 17 is turned on. When the transmission power level drops below the set threshold lower limit value, the transmission high power detection unit 17 is turned off. Here, whether the mode of the power amplifier 16 is high or low depends on the set reference value, which may be set differently according to the specification of each mobile terminal. According to the present invention, the transmission power level at which the mode of the power amplifier 16 is converted from the low mode to the high mode is set to 14.5 dBm, and the transmission power level at the high mode to the low mode is set to 10 dBm. In addition, in the high mode, the transmission high power detection unit 17 sets the level of the transmission power changed from off to on to 21 dBm, and the transmission high power detection unit 17 sets the level of the transmission power changed from on to off to 17 dBm.

According to [Equation 1], the transmission power of 21 dBm corresponds approximately to the transmission gain 831, and the transmission power of 17 dBm corresponds approximately to the transmission gain 879. In this way, the transmission power of the output stage of the power amplifier 16 is matched one-to-one with the transmission gain detected by the mobile station modem 11. Therefore, by monitoring the change in the transmission gain that changes in accordance with the level of the received power, it is possible to estimate the mode of the transmission-side power amplifier 16, and to turn the transmission high-power detector 17 on and off in accordance with the change in the transmission gain. Can be controlled.

When the transmit power is changed from 21 dBm or less to 21 dBm or more (in the vicinity of the transmit power 21 dBm, the power amplifier is in the high mode state), the mobile station modem 11 monitors the change in the transmit gain which is linked to the level of the transmit power and correspondingly. When the transmission gain is changed, the on-off control terminal of the transmission high power detection unit 17 is transmitted from the on-off output terminal HDET_EN to the on-off input terminal CONT_IN of the transmission high power detection unit 17 to transmit the transmission high power detection unit 17. Turn on On the contrary, if the transmit power is changed from 17 dBm or more to 17 dBm or less (the power amplifier is in the high mode near the transmit power of 17 dBm), the mobile station modem 11 monitors the change in the transmit gain which is linked to the level of the transmit power. When the corresponding transmission gain is changed, the on-off output terminal HDET_EN is transmitted to the on-off input terminal CONT_IN of the transmission high power detection unit 17 to transmit the off control signal of the transmission high power detection unit 17 to transmit the high power detection unit 17. Off).

Here, when the transmission high power detector 17 is turned on and off, the on-off control signal that is the control signal of the transmission high power detector 17 is not changed at one transmission power level, but the transmission power is increased in the high mode. In this case, the transmit power is set at 21 dBm as the threshold, and when the transmit power is decreased in the high mode, the transmit power is set at the threshold of 17 dBm. In this way, the hysteresis section (or the switch section) is set when the change in the transmit power is large. The on / off of the high power detection unit 17 is controlled to prevent abnormal operation from occurring. Also, when determining the mode of the power amplifying unit 16, it is also possible to set the transmission power level changing from the low mode to the high mode to 14.5 dBm and the transmission power level changing from the high mode to the low mode to 10 dBm. This is to prevent abnormal operation due to errors.

4 is a flow chart for controlling the on and off of the transmission high power detection unit based on the transmission gain.

In step S31, the mobile station modem 11 checks the mode of the power amplifier 16 while detecting the transmission gain Tx_AGC which is the transmission power reference value at regular time intervals. The mode of the power amplifier 16 is divided into a low mode and a high mode based on a threshold of the selected transmission power (transmission gain). The present invention sets the transmission power 14.5 dBm as a threshold when moving from the low mode to the high mode and 10 dBm as the threshold when moving from the high mode to the low mode. Therefore, in step S31, when the transmission power is increased, it is determined that the transmission mode is in the low mode before the transmission power becomes 14.5 dBm, and the process moves to step S32 to keep the transmission high power detection unit 17 off, and the transmission power is 14.5 dBm or more. In this case, it is determined as the high mode and the process moves to step S33. On the other hand, in step S31, when the transmission power decreases, it is determined that the transmission mode is in the high mode before the transmission power becomes 10 dBm and moves to step S33. The transmission high power detection unit 17 is kept as it is.

In step S33, the power amplifier 16 compares the previous transmission gain with the current transmission gain in the high mode state. Here, if the previous transmission gain is larger than the current transmission gain, it is determined that the transmission power is reduced in the high mode state, and the flow advances to step S35. If the previous transmission gain is smaller than the current transmission gain, it is determined that the transmission power is increased in the high mode state, and the flow advances to step S37. If the previous transmission gain and the current transmission gain are the same, it is determined that the transmission power does not change in the high mode state, and the flow advances to step S34 to maintain the transmission high power detection unit 17 in the current state.

In step S35, when the transmission power is in the process of decreasing in the high mode, the current transmission gain is less than the transmission gain threshold lower limit, comparing the current transmission gain with the transmission gain corresponding to the transmission power of 17 dBm, that is, the transmission gain threshold lower limit. In other cases, the flow moves to step S36 to turn off the transmission high power detection unit 17 in the on state. However, as a result of the comparison, if the current transmission gain is larger than the lower limit of the transmission gain threshold, the current state of the transmission high power detection unit 17 in the on-state is shifted to step S34 to be maintained.

Step S37 is a case in which the transmission power is in the process of increasing in the high mode, and the current transmission gain is greater than the transmission gain threshold upper limit by comparing the current transmission gain with the transmission gain corresponding to the transmission power 21 dBm, that is, the transmission gain upper limit threshold. In other cases, the flow advances to step S38 to turn on the transmission high power detection unit 17 in the off state. However, as a result of the comparison, if the current transmission gain is smaller than the upper limit of the transmission gain threshold, the flow moves to step S34 to maintain the current state of the transmission high power detection unit 17 in the off state.

In the above embodiment, the hysteresis section is set, and the mode change of the power amplification section and the on-off operation of the transmission high power detection section are controlled at the upper limit value and the lower limit value of the section, but each hysteresis section is set according to one threshold value. The mode change of the power amplifier and the on / off operation of the transmission high power detector may be controlled.

According to the control system and method of the transmission high power detection unit, the transmission high power detection unit can be controlled to operate only in a section of a set transmission power level, that is, the high mode of the power amplification unit, thereby increasing the efficiency of power usage of the mobile terminal, and In the method, by setting the threshold of the on-off operation to the hysteresis section, abnormal operation and the like can be easily prevented.

Claims (6)

A system for controlling a transmission high power detector of a mobile terminal, A power amplifier for operating in a low mode or a high mode and generating a transmission power; A transmission high power detection unit (HDET) which detects the transmission power at an output terminal of the power amplification unit and transmits the transmission power to a mobile station modem (MSM); And Detects the transmission gain associated with the received power, and if the transmission gain is changed above the first threshold, determine the power amplification unit in the high mode, while the transmission gain is increased while the power amplification unit operates in the high mode. When the second threshold is exceeded, a control signal for turning on the transmission high power detection unit is transmitted to the transmission high power detection unit to turn on the transmission high power detection unit, and the transmission gain decreases while the power amplification unit operates in the high mode to be lower than or equal to the second threshold. The mobile station modem transmits a control signal to the transmission high power detection unit to turn off the transmission high power detection unit when it is dropped. Transmission high power detection unit control system of a mobile terminal comprising a. The method of claim 1, wherein the first threshold of the mobile station modem is It is set to a hysteresis section comprising a first lower limit threshold value and a first upper limit threshold value having a predetermined size interval, and when the transmission gain is increased, the power amplification unit is converted to the high mode at the first upper threshold value, and the transmission gain is increased. And if it decreases, converting the power amplifier into a low mode at the first threshold lower limit. 3. The method of claim 1 or 2, wherein the second threshold of the mobile station modem is A hysteresis section configured as a second threshold upper limit and a second threshold upper limit having a predetermined size interval, and when the transmission gain is increased, the transmission high power detection unit is turned on at the second threshold upper limit and the transmission gain is decreased. And the transmission high power detector is turned off at the second threshold lower limit. In the method for controlling the on-off of the transmission high power detection unit (HDET) in the mobile terminal, The power amplifying unit senses a transmission gain associated with the received power and determines the mode of the power amplifier unit as low when the transmission gain is less than or equal to the first threshold, and determines the mode of the power amplifier unit as high when the transmission gain is greater than or equal to the first threshold. Mode determination step; In the power amplifying unit mode determining step, (a) if it is determined in the low mode, the transmission high power detector is kept off; (b) if it is determined in the high mode, the transmission comparing the previous transmission gain with the current transmission gain. Determining a gain change; In the step of determining the transmission gain change, (a) if the previous transmission gain is equal to the current transmission gain, the state of the transmission high power detector is kept in the current state; and (b) the current transmission if the previous transmission gain is greater than the current transmission gain. Comparing the gain and the second threshold, if the current transmit gain is less than or equal to the second threshold, the mobile station modem transmits a control signal to the transmit high power detector to turn off the transmit high power detector, and the current transmit gain is greater than the second threshold. In this case, the transmission high power detector is kept in the current state. (C) When the previous transmission gain is less than the current transmission gain, the current transmission gain is compared with the second threshold, and when the current transmission gain is greater than or equal to the second threshold. The mobile station modem transmits a control signal for turning on the transmit high power detector to the transmit high power detector, and the current transmit gain If less than the second threshold, the on-off control method for transmitting high-power detecting portion of a mobile terminal comprising: a transmission high-power detection control step of maintaining a high-power transmission detector as is. The method of claim 4, wherein the first threshold of the power amplifier mode determination step is determined. It is set to a hysteresis section composed of a first threshold lower limit and a first threshold upper limit having a predetermined size interval, and when the transmission gain is increased, the power amplifier is determined to be a high mode at the first threshold upper limit, and the transmission gain is decreased. The on-off control method of the transmission high power detection unit of the mobile terminal, characterized in that for determining the power amplifier in the low mode at the first threshold lower limit. The method of claim 4 or 5, wherein the second threshold value of the control step of the transmission high power detection unit A hysteresis section configured as a second threshold upper limit and a second threshold upper limit having a predetermined size interval, and when the transmission gain increases, the transmission high power detection unit is turned on at the second threshold upper limit and the transmission gain decreases. And turning off the transmission high power detection unit at the second threshold lower limit value.

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