KR20050095913A - Method for controlling power for a mobile communications terminal - Google Patents

Abstract

The invention relates to a method for controlling power for a mobile communications terminal, which comprises a battery with a time-dependent battery voltage and comprises a power amplifier. The invention provides that before the transmission of a signal, the battery voltage is determined by a control and testing unit and is compared to a predetermined upper threshold voltage U nominal*. The signal is transmitted with a predetermined transmit power while creating a voltage dip Delta U1, which is correlated with the predetermined transmit power, when the battery voltage is greater than the upper threshold voltage U nominal*. The signal is transmitted with a reduced transmit power while creating a voltage dip Delta U2, which is correlated with the reduced transmit power, when the battery voltage is less than or equal to the upper threshold voltage U nominal*. The reduced transmit power is selected in such a manner that the battery voltage minus the voltage dip Delta U2, which is correlated with the reduced transmit power, is greater than or equal to a predetermined lower threshold voltage U burst.

Description

METHOD FOR CONTROLLING POWER FOR A MOBILE COMMUNICATIONS TERMINAL}

The present invention relates to a power regulation method for a mobile communication terminal device, a suitable circuit and a mobile communication terminal device having such a type of circuit. Mobile communication terminal devices, in particular mobile phones according to the GSM standard, must meet the requirements of the GSM standard TS45005. Mobile communication terminal devices generally operate on batteries. In this specification, what characteristics can be met in which battery type are described in Appendix D 2.2 Volts. The battery has a maximum battery voltage U_nenn when fully charged. In the above specification, in particular, the specific transmission power or performance must be guaranteed even when the battery voltage falls to a specified voltage value, for example, U_nenn ^* = 0.85 to 0.9 * U_nenn. Thus, for example, a signal having a transmission power reaching a specific value P_reduc_spec should be able to be transmitted.

The standard also stipulates that the neighboring channel should be guaranteed to be uninterrupted at all when operating below the voltage value specified above, e.g. 0.85 to 0.9 * U_nenn.

So far, in mobile phones and GSM modules, the specification is interpreted very strictly so that the transmit power can reach at least one value (P_reduc_spec) even under specified voltage values, such as U_nenn ^* = 0.85 to 0.9 * U_nenn. Was drunk. If the transmission power cannot be reached, the mobile communication terminal device is automatically switched off. However, in connection with the specification TS45005, the mobile communication terminal device is not necessary.

A major disadvantage of the above known measures is that the accumulator is not best utilized in terms of capacity. Rather, the mobile communication terminal device is already switched off long before the battery is used. As a result, talk time was severely limited for mobile phones.

An object of the present invention is to provide a possibility of consuming the battery capacity of a mobile communication terminal device more excellently.

1 shows a waveform of a battery voltage of a battery of a mobile communication terminal device as a function of time according to an embodiment of the method according to the invention (FIG. 1b) and a mobile communication as a function of time according to an operation guide according to the prior art (FIG. 1a). It is a waveform comparison chart which compared and showed the waveform of the battery voltage of the battery of a terminal device,

2 is a schematic diagram of one embodiment of a circuit according to the invention.

This object is achieved by a method according to claim 1, a circuit according to claim 5 and a mobile communication terminal device according to claim 7. Further preferred embodiments are embodied in the corresponding dependent claims.

According to claim 1, there is provided a power control method for a mobile communication terminal device comprising a power amplifier and a battery having a battery voltage that depends on time.

The battery voltage is detected and compared with a predetermined upper threshold voltage U_nenn ^* before the signal is transmitted from the control- and regulating unit,

If the battery voltage is above the upper threshold voltage U_nenn ^* , a signal having a predetermined transmission power is transmitted when a voltage drop ΔU1 is formed that correlates with the predetermined transmission power,

If the battery voltage is less than or equal to the upper threshold voltage U_nenn ^* , the signal with reduced transmit power detected by the control unit is formed by a voltage drop Δ U2 that is correlated with the reduced transmit power. And the reduced transmit power is greater than the predetermined lower threshold voltage U_Burst in the state except for the voltage drop ΔU2 correlated with the reduced transmit power, or It is chosen to be the same.

It is generally known that the voltage of the battery decreases as the capacity of the battery decreases. The power amplifier in the mobile communication terminal device is inside the device of the largest power consumer. When a signal is transmitted, a current flow is formed, so that a voltage drop is always formed through the internal resistance of the battery. In the case of transmitting a series of signals, the current waveform appears in the form of a pulse with time, thereby forming a voltage drop in the form of a pulse. As a result, the voltage drop determines the switch-off time point of the mobile communication terminal device. The voltage drop is correlated with the corresponding transmit power. According to the specification TS45005 described above, the voltage drop ΔU1 must be constant until the battery voltage drops to a specific voltage value, for example, U_nenn ^* = 0.85 to 0.9 * U_nenn. Below the prescribed voltage value U_nenn ^* , the transmission power has been reduced to P_reduc_spec by the power amplifier's output limit until now, and this reduction was made simultaneously with the voltage drop decreasing to the voltage drop Δ U2. In that case, however, the voltage drop ΔU2 remains constant. At that time, when the battery voltage falls below the predetermined switch-off voltage U_Abschalt in the state excluding the voltage drop ΔU2, the mobile communication terminal device is switched off. By the method according to the invention, the maximum transmit power required according to the specification is supplied up to a defined voltage value, for example U_nenn ^* = 0.85 to 0.9 * U_nenn. However, below the prescribed voltage value, contrary to the measures up to now, the mobile communication terminal device with the reduced transmission power can remain in operation until the battery is almost completely discharged, because the above-defined voltage value This is because a constant voltage drop ΔU2, that is, a constant transmit power is not supplied below (U_nenn ^* ). However, according to the present invention, the battery voltage is greater than or equal to the predetermined lower threshold voltage U_Burst in the state except for the voltage drop ΔU2 correlated with the reduced transmission power. Accordingly, sufficient power is supplied to all circuit elements to be supplied, thereby ensuring the readiness of the elements. Important circuit elements in this case are voltage regulators and power amplifiers.

In one preferred embodiment of the method according to the invention, the mobile communication terminal device is switched off if the voltage drop ΔU2 is equal to or greater than the predetermined threshold voltage drop.

Particularly preferred in this case is that the transmission power correlating with the particular voltage drop continues to decrease until a predetermined minimum transmission power is required, for example by the base station. At that time, the mobile communication terminal device is switched off.

If the battery voltage is less than or equal to the upper threshold voltage U_nenn ^* , the battery voltage is equal to the predetermined lower threshold voltage U_Burst without the voltage drop Δ U2 correlated with the transmit power. It is desirable that the transmit power is reduced in accordance with the battery voltage. The decrease in transmit power over the battery discharge time is continuous.

Significant advantages are shown by the method according to the invention. Thus, existing battery capacity can be utilized much better. In addition, in the case of a mobile phone, the talk time is significantly increased. At the same time, by the method according to the invention, the technical parameters disclosed in the specification TS45005 are also observed under extreme conditions. It is suitable for the specification that the transmit power is reduced below the prescribed voltage value U_nenn ^* of the battery voltage as previously determined according to the invention.

The present invention also includes a power regulation circuit for a mobile communication terminal device. The circuit according to the invention comprises at least the following elements:

Batteries having a battery voltage which depends on time,

A receiving and transmitting unit for wirelessly receiving and transmitting signals,

A power amplifier for setting the transmit power of the signal to be transmitted,

-Basic band regulator,

The control and regulation unit, in this case the control and regulation unit, is connected to the battery to query the battery voltage, to the receiving and transmitting unit to query the minimum transmission power required, and to the control and regulation unit. It is connected to a power amplifier to set the transmit power that can be detected by.

In one preferred embodiment of the circuit according to the invention, the control and regulation unit is integrated in the base band regulator. It is also conceivable to integrate the control and regulation unit into a power amplifier or a receive and transmit unit. Preferably, the integration takes place in the so-called baseband regulator, since all information for calculating the control-to-adjustment value of the power amplifier is present in the baseband regulator.

Finally, the present invention also relates to a mobile communication terminal device, in which case the circuit according to the invention is integrated in the mobile communication terminal device.

Further advantages of the invention are described in detail with reference to the figures below.

1A shows the waveform of a battery voltage as a function of time, such as during operation of a mobile communication terminal device according to the prior art. For example, as in the waveform section 1, even if no signal is transmitted, the battery voltage starts from the maximum voltage U_ and decreases with time. If it is desired to transmit a signal, as mentioned in the foreword, a voltage drop ΔU1 appears. The voltage drop ΔU1 is combined with a specific transmit power P. When the battery voltage reaches a predefined voltage value U_nenn ^* , for example represented by U_nenn ^* x (factor x = 0.85 or 0.9 in this case), the transmit power (P) is reduced to P_reduc_spec, which decreases. Is coincident with the voltage drop ΔU2. Then, the voltage drop ΔU2 is constant. If the operating voltage during transmission, i.e., excluding the voltage drop ΔU2, is lower than the predetermined switch-off voltage U_Abschalt, the mobile communication terminal device is switched off.

In comparison, the mobile communication terminal device of FIG. 1B is switched off much later, even at the same transmission frequency, while applying one embodiment of the method according to the invention. Below the pre-defined voltage value U_nenn ^* , the voltage drop Δ U2 which appears individually at the time of signal transmission is reduced to a specific value only once and then remains constant for all subsequent transmission operations, Rather, the reduced transmit power is selected such that the battery voltage is greater than or equal to a predetermined lower threshold voltage U_Burst, with the exception of the voltage drop ΔU2 correlated with the reduced transmit power. In other words, the voltage drop ΔU 2, which correlates with the reduced transmit power, is continuously reduced. This process is continuous. If the base station requires a minimum transmit power, the voltage drop Δ U2 correlated with the reduced transmit power, which is preferably previously determined indirectly by the base station, for example, is a predetermined predetermined threshold voltage drop. Decrease to value. The lower threshold U_Burst is predetermined by all circuit elements powered in the mobile communication terminal device. Preferably, the mobile communication terminal device is switched off only when the voltage drop ΔU2 falls below a predetermined threshold voltage drop. The threshold voltage drop in combination with a particular threshold transmit power may be predetermined by a base station which requires a predefined threshold transmit power, for example in the sense of minimum transmit power.

As can be seen from the comparison of the two waveforms shown in FIGS. 1A and 1B, the power regulated mobile communication terminal device according to an embodiment of the method according to the invention can transmit much longer. The capacity of the battery is better utilized.

2 shows a schematic diagram of one embodiment of a circuit according to the invention. Storage battery 1 is shown. The storage battery 1 is connected to the control and regulation unit 2 via a connection a. The control and regulation unit 2 is again connected to the transmit and receive units 3 via a connection part b and to the power amplifier 4 via a connection part c. Through the connection a of the battery 1 and the control and regulation unit 2, the control and regulation unit 2 obtains information about the actual battery voltage being used. Through connection b, the control and regulation unit 2 obtains information on the minimum-to-threshold transmission power requested by the base station, for example. Within the control and regulation unit 2 it is determined, according to the invention, which transmission power should be implemented in the power amplifier 4 in relation to the voltage drop correlated with the transmission power. The information or control instruction is continuously transmitted to the power amplifier 4 via the connection part c, which implements a corresponding transmit power corresponding to the control instruction. There is also provided another basic band adjuster, in which the control and regulation unit 2 is preferably integrated. In addition to the elements described above, there is further a receive amplifier 5, a so-called low noise amplifier, for the signal being transmitted.

Claims (7)

In the power control method for a mobile communication terminal device comprising a battery 1 and a power amplifier 4 having a battery voltage depending on time, Before the signal is transmitted from the control- and regulating unit 2, the battery voltage is detected and compared with a predetermined upper threshold voltage U_nenn ^* , If the battery voltage is above the upper threshold voltage U_nenn ^* , transmit a signal having a predetermined transmission power when a voltage drop ΔU1 is formed that correlates with the predetermined transmission power, If the battery voltage is less than or equal to the upper threshold voltage U_nenn ^* , a voltage drop ΔU2 correlating the signal with the reduced transmit power detected by the control unit is formed. And the reduced transmit power is greater than the predetermined lower threshold voltage U_Burst in the state except for the voltage drop ΔU2 correlated with the reduced transmit power, or And selected to be equal. The method of claim 1, And when the voltage drop ΔU2 is less than or equal to a predetermined threshold voltage drop, the mobile communication terminal device is switched off. The method of claim 2, And a threshold transmission power correlated with the threshold voltage drop and the voltage drop in advance is determined in advance by a base station. The method according to claim 1, 2 or 3, The lower threshold voltage (U_Burst) is determined in advance by the control and regulation unit (2), characterized in that the power regulation method for a mobile communication terminal device. A power regulation circuit for a mobile communication terminal device, said circuit being at least A battery 1 having a battery voltage that depends on time, A receiving and transmitting unit 3 for wirelessly receiving and transmitting signals, A power amplifier 4 for setting the transmit power of the signal to be transmitted, -Basic band regulator, A control and regulation unit 2, in which case the control and regulation unit 2 is connected to the battery 1 to query the battery voltage, and to receive and to query the minimum transmit power required. A power regulation circuit for a mobile communication terminal device, connected to a transmission unit (3) and configured to be connected to a power amplifier (4) for setting transmission power that can be detected by said control- and regulation unit. The method of claim 5, Power control circuit for a mobile communication terminal device, characterized in that the control and regulation unit (2) is integrated in a basic band adjuster or a receive and transmit unit (3). A mobile communication terminal device incorporating the circuit according to claim 5 or 6.