KR101437168B1 - Apparatus and Method for controlling Power Management - Google Patents

Abstract

The present invention manages power by detecting movement of a communication device.

Power management can be efficiently performed by applying power to a module and / or a processing device to perform communication based on a result of checking the movement of the communication device equipped with the communication module.

      Power management, motion, communication device, communication module, acceleration

Description

Technical Field [0001] The present invention relates to a power management apparatus,

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a general block diagram illustrating a communication device incorporating a communication module according to the present invention connected to a connection via a network; FIG.

2 is a block diagram showing an example of a configuration of a communication device equipped with a communication module

3 is a flowchart showing the operation of the communication apparatus based on the result of detection of the acceleration sensing unit in the present invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to power management by sensing movement of a communication device, and more particularly, to power management control applicable to all devices or parts capable of entering a power saving mode.

The present invention can be applied to a portable computer equipped with a communication module or a portable device equipped with an apparatus capable of detecting motion, for example, an acceleration sensor, and when the acceleration sensor is not operated for a predetermined time, It is possible to save the power by controlling the power supply to each part of the system except the acceleration sensing part.

According to another embodiment of the present invention, when the communication device enters an area where communication service can not be received, the power management mode enters a predetermined power management mode, and the power management mode is continuously maintained or higher The power management mode can be efficiently performed by entering the power management mode. Accordingly, when the communication device does not move, the power supply can be continuously stopped and power can be saved.

Hereinafter, a related art related to the present invention will be described.

Generally, even when the conventional portable communication apparatus enters an area where service can not be received, the portable communication apparatus periodically wakes up to confirm a communication signal.

The conventional communication module continues to consume power even if the user continues to stay in an area where radio waves can not be connected due to the radio wave not reaching the user.

     In other words, even in a region where wireless communication service is impossible, power is supplied to the RF / baseband to search for a base station (for a cell phone) or an AP (for a wireless LAN) Power is continuously consumed

In the meantime, the terms and operating states / power states mentioned in the present invention are shown as one embodiment, and in certain cases, there are some terms selected arbitrarily by the applicant. It is to be understood that the present invention should be grasped as an operation / state / meaning of a term that is not a name of a simple term.

According to the present invention, an acceleration sensor capable of detecting movement of a communication device is mounted on the communication device, and a communication signal is confirmed by applying power to a communication module based on a result of checking the operation of the acceleration sensor.

In the case where the communication device is moved to an area where the communication device can not receive the communication signal, the mode is shifted to a predetermined power management mode. When the acceleration sensor mounted on the communication device is not operated, Or to transition to a higher power management mode.

In the case where the communication device is moved to an area where it can not receive a communication signal, the transition is made to a predetermined power management mode. When the operation of the acceleration sensor mounted on the communication device is confirmed, It is proposed to supply power to an RF unit which is at least a radio frequency transmitting / receiving unit for connection with a base station or an AP to perform communication.

It is proposed that the power management mode can be performed differently based on the remaining amount of the auxiliary power source currently used among the power source units. For example, when the battery capacity is 75% or more and the operation of the acceleration sensing unit is not operated for a predetermined time or more, the power management mode is shifted from S3 to S4, or when the battery capacity is 50% If the operation is not operated for a predetermined time or longer, the power management mode can be shifted from S3 to S5.

According to an aspect of the present invention, there is provided a power management control apparatus comprising: a power source; A transmission / reception unit for transmitting / receiving a communication signal; An acceleration sensing unit for sensing movement of the communication device; And a control unit for confirming the operation of the acceleration sensing unit and controlling power supply to the transceiving unit.

According to another aspect of the present invention, there is provided a power management control method including: setting a plurality of power management modes; Confirming whether the communication device can not receive the signal; If the communication signal can not be received, transitioning to a predetermined power management mode; Confirming movement of the communication device; And a step in which power is applied to the communication device when movement of the communication device is confirmed as a result of the checking.

Hereinafter, a power management control apparatus and method according to the present invention will be described in detail with reference to the drawings.

First, each power management mode of the system according to the present invention is defined as an example as follows.

The following system operation states S0-S5 and the like are based on ACPI (Advanced Configuration and Power Interface Specification) states set by various companies including I company.

  Power management mode           Contents       S0  The system is in working state.       S1  The processors are not executing instructions while keeping all the states at S0.       S2   In S1, the CPU cache and system cache are not preserved (the S2 sleeping state is logically lower than the S1 state and is assumed to conserve more power)       S3   S1 does not preserve all hardware information except the main memory information (the processors are not executing instructions. The processor-complex context is not maintained)       S4   All hardware is in a stopped state. (The processor is not executing and the DRAM context is not maintained.)       S5   Software turned off. Reboot required (The system is in the soft-off state and requires a complete boot when awakened (BIOS and OS))

FIG. 1 is a general block diagram 100 showing that a communication device 110 equipped with a communication module according to the present invention is connected to a connection unit 120 through a network.

As shown in the figure, a communication device 110, for example, a portable phone 111, a PDA 112, a WIBRO 113, or an NT (Notebook) 114 on which a module for performing communication is installed, (BS) 121 or an access point (AP)

Accordingly, each of the devices equipped with the communication module transmits a signal to access the base station or the AP at a predetermined period, or confirms a signal received from the base station or the AP.

2 is a block diagram 200 showing an example of the configuration of a communication device equipped with a communication module.

As shown in the drawing, a power supply unit 280 including a battery as an AC power source or an auxiliary power source, a transceiver unit 210 including a communication module 210a and / or a radio frequency (RF) An acceleration sensing unit 290 for sensing the movement of the communication device on which the communication module is mounted, and a controller 250 for controlling power supply to the transmission / reception unit by confirming the operation of the acceleration sensing unit.

The communication device includes a demodulator / amplifier 220, a data processor 230, and an output unit 240 for processing and outputting data output from the transceiver 210.

A memory unit 260 for storing operation programs and data, and an input unit 270 for inputting user commands and the like.

In the present invention configured as described above, when the acceleration sensing unit mounted on the notebook computer or other portable device equipped with the communication module is not operated for a predetermined time, the predetermined portion, for example, each portion of the system excluding the acceleration sensing portion Power can be controlled to save power.

According to another embodiment of the present invention, when the communication device enters an area where communication service can not be received, the power management mode enters a predetermined power management mode, and the power management mode is continuously maintained or higher Power management mode can be efficiently performed by allowing the power management mode to enter the power management mode. Accordingly, when the communication device does not move, the power supply can be continuously stopped and power can be saved.

Also, the power management mode can be differentiated based on the remaining amount of the auxiliary power source currently used and whether the communication device is moving. For example, when the operation of the acceleration sensing unit is not operated for a predetermined time or more in the case where the battery capacity is 75% or more, the power management mode is shifted from S3 to S4, or when the battery capacity is 50% Is not operated for a predetermined time or more, the power management mode can be shifted from S3 to S5.

3 is a flowchart showing the operation of the communication apparatus based on a result of sensing the acceleration sensing unit in the present invention.

As one example, a plurality of power management modes are set up as shown in Table 1. (S 301).

The control unit confirms whether the communication device equipped with the communication module can not receive the communication signal due to movement to an area where the signal can not be received or the like through the input / output signal of the transmission / reception unit. (S302).

If it is determined that the communication signal can not be received, the transition is made to a predetermined power management mode, for example, to the S3 or S4 power management mode. (S303).

Meanwhile, in the power management mode transited as above, the controller confirms the movement of the communication device through the acceleration sensor. (S 304).

If the movement of the communication device is confirmed through the above checking process, at least a power supply (not shown) of the transceiver 210 (210 in FIG. 2) that was off in the power management mode to attempt connection with the connection part 120 of FIG. . (S305).

Of course, the configuration in which the power is turned off based on the power management mode step to be set and the configuration in which the power is supplied due to the movement of the communication device is further increased.

On the other hand, if it is determined in step S304 that there is no movement of the communication device, the power management mode set in step S03 is continuously maintained or the power management mode is changed to a higher power management mode than the power management mode in step S303. (S306).

3, if the movement of the communication device is absent for a predetermined period of time, regardless of whether or not the communication device moves to an area where the communication signal can not be received, a transition is made to a predetermined power management mode, It is also possible that power is applied to the communication device through motion confirmation of the communication device.

In each of the above embodiments of the present invention, if the communication device does not move for a predetermined time, the current power management mode may be maintained or transitioned to a higher power management mode.

Also, in the transition to the predetermined power management mode, the transition to each power management mode may be made different depending on the type or remaining amount of the power source to be used.

As described above, in the power management control apparatus and method according to each embodiment of the present invention, the present invention can be applied to a device capable of detecting motion in a notebook computer or other portable device equipped with a communication module, for example, When the acceleration sensor is not operated for a predetermined time, it is possible to save the power by controlling the power supply to each part of the system except the predetermined part, for example, the acceleration sensing part.

According to another embodiment of the present invention, when the communication device enters an area where communication service can not be received, the power management mode enters a predetermined power management mode, and the power management mode is continuously maintained or higher Power management mode can be efficiently performed by allowing the power management mode to enter the power management mode. Accordingly, when the communication device does not move, the power supply can be continuously stopped and power can be saved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. , Alteration, substitution, addition, or the like.

As described above, the power management control apparatus and method according to the present invention can effectively perform power management by performing a power management mode based on a result of detecting whether or not a communication device equipped with the communication module is moving.

In particular, when the communication device is in an area where service can not be provided, the power management can be performed more effectively by performing the power management mode based on a result of detecting the movement of the communication device.

Claims (6)

1. A communication device equipped with a module for performing communication, A power supply unit; A transmission / reception unit transmitting / receiving a communication signal to / from the base station or the AP every predetermined period; An acceleration sensing unit for sensing movement of the communication device; And Whether or not the communication device has entered an area where the communication signal can not be received, When the communication device enters an area where the communication signal can not be received, the power supply to each part of the system excluding the acceleration sensing part is cut off, A control unit for confirming an operation of the acceleration sensing unit after the power supply to the transmission / reception unit is turned off and controlling the power supply to the transmission / reception unit; Lt; / RTI > The method according to claim 1, Wherein the transmission / reception unit includes at least an RF unit. A method of controlling power of a communication device, Transmitting / receiving a communication signal to / from the base station or the AP every predetermined period, and confirming whether the communication device has moved to an area where the communication device can not receive a signal; When the communication device is moved to an area where the communication signal can not be received, disconnecting power to each part of the system except for the acceleration sensing part; Confirming an operation of the acceleration sensing unit and confirming a movement of the communication device; And A step in which power is applied to the communication device when movement of the communication device is confirmed as a result of the checking; Lt; / RTI > A method of controlling power of a communication device, Setting a plurality of power management modes; Confirming whether the communication device has moved to an area where the communication device can not receive a signal every predetermined period; When the communication device is moved to an area where the communication signal can not be received, transitioning to a predetermined first power management mode; Confirming the movement of the communication device through an acceleration sensor; And If it is determined that the movement of the communication device is not confirmed, the power management mode for the communication device is maintained in the first power management mode or transits to the second power management mode based on the remaining amount of the auxiliary power used step; / RTI > Wherein transitioning to the first power management mode and transitioning to the second power management mode comprises applying power to each component in the communication device based on the first or second power management mode, Wherein transitioning to the first power management mode comprises powering off all components in the communication device except for the acceleration sensor Power management control method. 5. The method of claim 4, The first or second power management mode may be one of S0, S1, S2, S3, S4, and S5, Wherein the second power management mode is a state in which the number after S is one or more higher than the first power management mode. 6. The method of claim 5, Wherein the step of transiting the power management mode to the second power management mode differentiates the transition to each power management mode based on the remaining amount of the auxiliary power, When the remaining amount of the auxiliary power is greater than or equal to 75%, the power management mode is shifted to the third power management mode having the number after S by 1, and when the remaining amount of the auxiliary power is less than 50% To a fourth power management mode that is two or more higher than the first power management mode.

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