DE10157948A1 - Mobile radio terminal with reduced current consumption has modem unit, application unit, man-machine unit, central unit that changes at least one other unit from standby state to active state - Google Patents

Abstract

The mobile radio terminal has a modem unit (1), an application unit (2), a man-machine unit (3) and a central unit (20) that changes at least one other unit from a standby state to an active state. The unit whose state is changed is at least one of the modem unit, application unit and man-machine unit. AN Independent claim is also included for the following: a method of operating an inventive device.

Description

The invention relates to a mobile radio terminal with a Modem unit, an application unit and one Human-machine unit, and a method for operating a mobile radio Terminal.

To make mobile devices more independent of the regular charging of the To make the battery, it is necessary to set the stand-by time, i.e. H. to increase the standby time of the mobile radio terminal. The stand-by time depends on the power consumption of the Cellular phone in standby mode. First mobile devices had a power consumption of several 100 mA, whereas in today's mobile devices in the stand-by state required current was reduced to approx. 3 to 4 mA.

Nevertheless, it is desirable to reduce the power consumption Mobile devices in standby mode to further reduce the mobile device is even more independent of the fixed voltage network do.

More and more application functions such as B. improved Text entry systems or cellular radio services are used in the Mobile devices integrated. For this reason, the mobile devices future storage capacities for the other Functions. As a result, the power consumption of the Memory modules for the energy balance of a mobile device increasingly important. The current consumption of today's SRAMs is between 120 and 2400 µA and the current consumption of eDRAMs between 50 and 900 µA. When using larger ones Memory modules will therefore increase power consumption.

To reduce the current required in the standby state, the structure of the mobile radio device has already been changed. There was a division between the units modem, application area and man-machine interface such as. B. is shown in Fig. 2. There, the modem 1 comprises a central control unit (CPU) 30 with integrated read / write memory (RAM) 31 . The control unit 30 is connected to the fast memory (flash memory) 5 via the connection 33 . Furthermore, the control unit 30 is connected to the peripheral units and interfaces 4 . The application unit 2 has a central control unit (CPU) 9 , a non-volatile memory (flash memory) 10 and a read-write memory (RAM) 11 . The central control unit 9 is connected to the peripheral units and interfaces 8 or the memory modules 10 , 11 . The central control unit 9 is connected to the display and man-machine interface 3 via the line 13 . All units are always ready for use. All memory elements 5 , 31 , 10 , 11 consume electricity even if they are not written to or read out.

As described, the memories will continue to grow in the future, and the CPUs and digital signal processing units (DSPs - Digital Signal Processing Units) are getting faster and faster Show processing times. Even the peripheral devices are becoming increasingly complex and the display and man-machine Interface will offer more and more possibilities. Consequently is the change of the known from the prior art Architecture insufficient, a further reduction of the im Standby status of the mobile radio device required power guarantee.

Accordingly, the present invention has the object Basically, a mobile terminal and a method of operation a mobile terminal with reduced power consumption in the Ready state to provide.

This object is achieved according to the invention by a mobile radio terminal with the features of claim 1 and a method for operating a mobile radio terminal with the features of claim 13 . Further developments of the invention result from the dependent claims.

The present invention relates to a mobile radio terminal a modem unit, an application unit and a human Machine unit. The terminal has a central unit, which is at least one other unit of one Ready state put into an active state.

Standby in this context means that the unnecessary units are switched off or in the case of central control unit are clocked down. Corresponding active state means a state in which the respective Unit works in normal operating condition.

The present invention further relates to a method for operating a mobile radio terminal with a modem unit, an application unit and a human-machine unit.

The modem unit contains a central control unit. (CPU), a digital signal processing unit (DSP) with integrated random access memory (RAM), a non-volatile memory (ROM - Read Only Memory) and a fast memory (flash Memory). Furthermore, the modem unit points Peripheral units and interfaces.

The application unit performs all application functions the mobile terminal. This includes e.g. B. the Phonebook function or integrated games. The application function also includes a central control unit (CPU), a digital signal processing unit (DSP), a read / write Memory (RAM), a fast memory (flash memory) and Peripherals or interfaces.

The human-machine unit comprises one display and one Human-machine interface, d. H. Devices such. B. Keyboard or voice control.

The mobile radio terminal has an additional unit Central unit on. The central unit is a control unit and can each of the units modem unit, application unit or human-machine unit from a standby state put into an active state. Behind the use of a The central unit for controlling other units is plugged in Idea that not all during the standby state Units must be active. Because active units are energy consume, it is desirable to use the units only Demand from a standby state (the so-called sleep Mode).

For example, the modem unit is only Receive operation required. For this reason, it makes no sense keep the modem unit active in standby mode. The same applies to the application unit and the human Machine unit.

The memory modules contained in the respective units the stored information should also be without power to keep. Non-volatile are preferred for the memory elements Storage elements, such as. B. FeRAMs (Ferro-Electric RAMs) used. FeRAMs have the advantage that they can be used in Ready state does not consume electricity, the stored However, information is not lost.

If one of the units modem unit, application unit or Man-machine unit needed, so the Central unit the corresponding unit in the active state. After Activation, the respective unit is fully functional. The central unit can also all units at the same time activate. For example, the user wants one The mobile unit places a call, so the central unit activates the modem unit for call setup. If the user of the Mobile device a phone number from the in the mobile device contained phone book, so the Application unit activated. In such cases, the Human-machine unit used for input or output. As a result, the central unit controls the other units. For the control, the central unit must also keep the status of the other units.

In a preferred embodiment of the present Invention, the transfer of units from that Ready state in the active state time-optimized. Since the User wants to use the units immediately, and after the State of the art are constantly active, an activation of units in a short time interval.

In a further preferred embodiment of the present invention is the central processing unit in normal Paging mode, the so-called paging mode, is active. When paging built a "one-way street" in terms of radio technology, d. H. it will only receive information from a base station (Transmitter) are broadcast. The other units are located is in an inactive state in paging mode. Consequently in paging operation, only the central unit consumes electricity, whereas the other units are switched off.

In a development of the present invention Central unit a microprocessor. The central unit is a specially developed one for such applications Microprocessor that uses little electricity. The Central unit should be less than or equal to 1 µA in standby mode consume. To be sufficient even in paging mode The central unit has to provide control functions an activation time of less than or equal to 6 µs. A such activation time is about a hundred times faster than with usually used microprocessors.

Are preferred in the modem unit and Application unit also microprocessors with a short activation time used.

The central unit can also have a power saving function be combined. Energy saving function means in this Context in particular that unused timers and parts of the Terminal devices, such as VCC (Voltage Controlled Oscillator), receiver or display, can be temporarily switched off. The The energy saving function controls, for example, in an intelligent way, when a timer for the operation of the terminal in Standby status is not necessary.

In a development of the present invention Central unit combined with a burst mode control unit. A burst is a data packet that is between the mobile device and base station (Base Transceiver Station - BTS) is exchanged. The burst mode control unit is constantly running recurring tasks such as channel coding or radio set-up. The burst mode control unit is only used for paging Operation used and is preferably carried out in hardware.

In a further development of the present invention the central unit again the at least one other unit back to standby. after the Central unit at least one of the units modem unit, Application unit or human-machine unit activated, and the appropriate unit, after executing the desired one Function that is no longer required can be returned to the Standby status can be reset. The central unit controls when one of the units is no longer required is put back into standby mode can be. It is conceivable to move back in the standby state, a certain time interval wait to see possible immediate reactivations avoid.

In a preferred embodiment of the present Invention has the terminal in the standby state Power consumption of less than or equal to 300 µA. At a such power consumption in standby mode it is possible meet the electricity needs with the help of solar cells. It would be consequently conceivable a series of solar cells, similar to a calculator on the housing of the mobile device to install. For example, the mobile device is at normal room lighting on the user's desk, the energy obtained with the help of solar cells is sufficient for the power requirement in standby mode. For users, who rarely use their mobile device is in addition, it is possible that compensation by the Talk time consumed energy with the help of solar cells takes place.

The invention is described below with reference to the attached drawings using exemplary embodiments explained. The features shown there and also those already Features described above can not only be mentioned in the Combination, but also individually or in others Combinations be essential to the invention. Show it:

Fig. 1 is a schematic representation of the system architecture of a mobile radio device; and

Fig. 2 is a schematic representation of the system architecture of a mobile radio device according to the prior art.

Fig. 1 shows an embodiment of the present invention. The schematic representation reveals the system architecture of a mobile radio device. The modem unit 1 comprises a central control unit 6 with integrated read / write memory, fixed memory and fast memory 7 . The central control unit 6 is, as shown by the arrow 18 , connected to the peripheral units or interfaces 4 . The application unit 2 in turn has a central control unit 9 , a non-volatile memory 10 , a read / write memory 11 and peripheral units or interfaces 8 . Furthermore, the display and the human-machine interface 3 are shown in FIG. 1. In addition, FIG. 1 shows the central unit 20. As can be seen by the arrows 25 , 26 and 27 , the central unit 20 controls the modem unit 1 , the application unit 2 and the display or man-machine unit 3 . The central unit 20 also knows the current status of the units 1 , 2 , 3 . The central unit 20 is coupled to a power saving function 21 via the connections 23 . Furthermore, a burst mode control unit 22 is coupled to the central unit 20 via the connection 24 .

In the standby state, only the central unit 20 , the power saving function 21 and the burst mode control unit 22 are active. As soon as an additional unit is required, the central unit 20 can activate it. For example, if a call is to be set up, the central unit 20 activates the function of the modem unit 1 via the connection 25 . The same takes place if necessary for the application unit 2 and the display or human-machine unit 3 .

It is also conceivable for parts that are functionally separated summarize. It could e.g. B. a common computer core, or common hardware (all in one integrated Circuit) can be used. The division of modem and Application unit is not in particular with simple devices mandatory.

The components of modem, Application unit and human-machine interface only then powered or activated when needed. Using the proposed architecture is a significant one Energy saving possible, which is independence Cellular device increased from the charger.

Claims (24)

1. Mobile radio terminal, comprising:
a modem unit ( 1 );
an application unit ( 2 ); and
a human-machine unit ( 3 ),
characterized by
that the mobile radio terminal has a central unit ( 20 ) which sets at least one other unit ( 1 , 2 , 3 ) from a standby state to an active state. 2. Mobile radio terminal according to claim 1, characterized in that the at least one other unit is at least one of the units modem unit ( 1 ), application unit ( 2 ) or human-machine unit ( 3 ). 3. Mobile radio terminal according to one of the preceding Expectations, characterized, that the transfer to the active state optimizes time he follows. 4. Mobile radio terminal according to one of the preceding claims, characterized in that the central unit ( 20 ) is active in normal paging operation. 5. Mobile radio terminal according to one of the preceding claims, characterized in that the central unit ( 20 ) is a microprocessor. 6. Mobile radio terminal according to one of the preceding claims, characterized in that the central unit ( 20 ) consumes less than or equal to 1 µA in the ready state. 7. Mobile radio terminal according to one of the preceding claims, characterized in that the central unit ( 20 ) can be activated in less than or equal to 6 µs. 8. Mobile radio terminal according to one of the preceding claims, characterized in that the central unit ( 20 ) is combined with a power saving function ( 21 ). 9. Mobile radio terminal according to one of the preceding claims, characterized in that the central unit ( 20 ) is combined with a burst mode control unit ( 22 ). 10. Mobile radio terminal according to one of the preceding claims, characterized in that the central unit ( 20 ) puts the at least one other unit ( 1 , 2 , 3 ) back into the ready state. 11. Mobile radio terminal according to one of the preceding Expectations, characterized, that the mobile terminal in standby mode Has power consumption of less than or equal to 300 µA. 12. Mobile radio terminal according to one of the preceding Expectations, characterized, that the standby current of Solar cells. 13. Method for operating a mobile radio terminal with a modem unit ( 1 ), an application unit ( 2 ) and a human-machine unit ( 3 ), characterized in that a central unit ( 20 ) in the mobile radio terminal has at least one other unit ( 1 , 2 , 3 ) from a standby state to an active state. 14. The method according to claim 13, characterized in that the at least one other unit is at least one of the units modem unit ( 1 ), application unit ( 2 ) or man-machine unit ( 3 ). 15. The method according to any one of claims 13 to 14, characterized, that the transfer to the active state optimizes time he follows. 16. The method according to any one of claims 13 to 15, characterized in that the central unit ( 20 ) is active in normal paging. 17. The method according to any one of claims 13 to 16, characterized in that the central unit ( 20 ) is a microprocessor. 18. The method according to any one of claims 13 to 17, characterized in that the central unit ( 20 ) consumes less than or equal to 1 µA in the ready state. 19. The method according to any one of claims 13 to 18, characterized in that the central unit ( 20 ) is activated in less than or equal to 6 µs. 20. The method according to any one of claims 13 to 19, characterized in that the central unit ( 20 ) is combined with a power saving function ( 21 ). 21. The method according to any one of claims 13 to 20, characterized in that the central unit ( 20 ) is combined with a burst mode control unit ( 22 ). 22. The method according to any one of claims 13 to 21, characterized in that the central unit ( 20 ) puts the at least one other unit ( 1 , 2 , 3 ) back into the ready state. 23. The method according to any one of claims 13 to 22, characterized, that the mobile terminal in standby mode Has power consumption of less than or equal to 300 µA. 24. The method according to any one of claims 13 to 23, characterized, that the standby current of Solar cells.