Abstract:
A mobile station and a method of conserving battery power consumed thereby. In one embodiment, the mobile station includes: (1) a chassis having a display and (2) a proximity sensor coupled to the chassis and adapted to cause a power consumption of the display to be reduced when the display is within a predetermined range of an external object.

Description:
TECHNICAL FIELD OF THE INVENTION 
   The present invention is directed, in general, to mobile stations and, more specifically, to a mobile station of mobile radio system having a reduced power consumption under certain operating conditions. 
   BACKGROUND OF THE INVENTION 
   Mobile stations have found many uses in today&#39;s world. When paired with a single base station located at a user&#39;s own premises, they are called “cordless telephones.” When they interact with various, geographically distributed cellular base stations, they are called “cellular telephones” or simply “cell phones.” 
   Usually the stand-by time, as well as the talk-time, of a mobile station depend on the lifetime of a (rechargeable) battery inserted within the mobile station and hence, on the load and/or on the capacity of the battery. 
   Increasing of the capacity of the battery would increase the lifetime of the mobile station, but batteries having increased capacities are often larger, heavier or more expensive, none of which are desirable attributes for a portable, affordable mobile station. Accordingly, what is needed in the art is a way to prolong the lifetime of a mobile station without having to use a battery with an increased capacity. 
   SUMMARY OF THE INVENTION 
   To address the above-discussed deficiencies of the prior art, the present invention provides a mobile station, including: (1) a chassis having a display and (2) a proximity sensor coupled to the chassis and adapted to cause a power consumption of the display to be reduced when the display is within a predetermined range of an external object. 
   Thus, by reducing the power consumption of the display of an activated telephone set in case the display is not needed, i.e., in particular during a telephone call, current is saved instead of needlessly consumed from the (rechargeable) battery. Accordingly, the spared available battery power may be significant, especially for color displays, resulting in an overall increasement of the stand-by and/or talk time of the telephone set. 
   According to preferred embodiments the means are adapted to switch-off the display in response to a detection that the set, preferably the display of the set, is attached near to an object, in particular to the ear. 
   As a consequence, if a call for example is incoming for example, possibly the user wants to see by means of the display the number and/or the stored name of the calling party. However, if the user wants to accept the call and hence is attaching the telephone set to the ear, the invention enables that the display is switched off. In a similar way, in case the user is trying to call a third party he may want to have a look at the display for verifying the entered number, but when the call is established he is likewise attaching the set and accordingly the display to his ear for performing the call. On the other hand, as long as the telephone set is inside a pocket, for example, it is not necessary to keep the display in an on-condition or to indicate the number and/or the name of a calling party. 
   Moreover, the means may be further adapted to switch-on the display in response to a detection that the set, preferably the display of the set, is moved away from any object, in particular from the ear. 
   As an alternative or in addition, the triggering event for current saving purposes may also be selectable by the user, for example via a menu list. According to further preferred refinements, the proximity sensor is proposed to be a heat flow or temperature sensor, an optical or infrared sensor, or a load sensor. However, as a further advantage, basically any kind of proximity sensor which is capable of observing a close range or small distance may be used. 
   Correspondingly, the invention proposes a method for saving available battery power of a mobile station, in particular of a mobile station comprising the steps of detecting an attachment of the set, in particular of the display of said set near to an object, in particular to the ear, and switching off the display in response to such a detection in case the display is in an on-condition. 
   The foregoing has outlined, rather broadly, preferred and alternative features of the present invention so that those skilled in the art may better understand the detailed description of the invention that follows. Additional features of the invention will be described hereinafter that form the subject of the claims of the invention. Those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiment as a basis for designing or modifying other structures for carrying out the same purposes of the present invention. Those skilled in the art should also realize that such equivalent constructions do not depart from the spirit and scope of the invention in its broadest form. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
     For a more complete understanding of the present invention, reference is now made to the following descriptions taken in conjunction with the accompanying drawings, in which: 
       FIG. 1  schematically depicts a preferred embodiment of a mobile station having the inventive detection functionality; and 
       FIG. 2  schematically depicts a block diagram showing essential components of the invention. 
   

   DETAILED DESCRIPTION 
     FIG. 1  illustrates a mobile station  110  of a mobile radio telecommunication system having a loudspeaker  120  and a microphone  130 . A proximity sensor  140  is located near a display  150  toward a side of the loudspeaker  120 . A keypad  160  allows a user (not shown) to establish an outgoing call, accept an incoming call and/or terminate an active call. However, it should be apparent to one skilled in the pertinent art, that these functionalities can be also performed by other control means, for example by speech control. The proximity sensor  140  is integrated within the mobile station  110  to enable a functionality as described in more detail with regard to  FIG. 2 . 
   As can be seen from  FIG. 2 , an incoming call may be managed by a central processing unit  220 , for example for further specific processing. For example, the number or the name of the calling party stored within a storage (not referenced) implemented within the mobile station  110  can be depicted at the display  150 . 
   If the user of the mobile station  110  wants to accept the incoming call  210 , he may press a key on the keypad  160  or issue a voice command. Alternatively, an incoming call may directly activate the proximity sensor  140  without the necessity of pressing a key on the keypad  160  to accept the call. 
   In response to the acceptance of the incoming call  210  or automatically, the proximity sensor  140  is activated to monitor a proximity  230  to an external object (not shown), for example a range of about five centimeters. This is preferably done by a standard low-cost proximity sensor, for example a thermal sensor. However, other proximity sensors, such as conventional mechanical proximity (load) sensors, optical sensors or range detecting sensors, fall within the broad scope of the present invention. If the proximity sensor  140  detects an external object (such as the user&#39;s ear) within the monitored range, the power consumption of the display  150  is reduced, most preferably by switching the display  150  completely off, as indicated by an arrow  240 , to spare battery power during the telephone call. 
   When the telephone call  210  is finished, the user of the mobile station  110  typically moves the mobile station  110  away from his ear. This causes the proximity sensor  140  to move out of range of the external object (in this case the user&#39;s ear). Accordingly, in response thereto, the display  150  is switched back on, enabling the user to look at information on the display  150 . 
   Correspondingly, for an outgoing call, the proximity sensor  140  is activated by pressing a key on the keypad  160  to establish the outgoing call to a third party. As long as the outgoing call remains in effect and the proximity sensor  140  detects proximity to an external object, e.g., the ear of the user, the display  150  remains in a state of reduced power consumption, or off, as the case may be. 
   The function of switching the display off or on or otherwise reducing the amount of power the display consumes may comprise hardware and/or software components. For example, electronically readable instructions executable in the central processing unit  220  may be stored on a memory chip located in the mobile station  110  and adapted to cooperate with the proximity sensor  140  to perform the function. 
   Moreover, if the proximity sensor  140  is directly activated by an incoming call or automatically activated, the display can be kept in a switched-off condition as long as the mobile station  110  is, for example, within a pocket (not referenced) or the like and is only switched on when the user retrieves the mobile station  110  from the pocket to enable the user to look on the display  150  for an information about the calling party. If the user then wants to accept the call and thence places the mobile station  110  proximate an external object, such as his ear, the proximity sensor  140  again detects an object, causing the display again to be switched off. 
   Although the present invention has been described in detail, those skilled in the art should understand that they can make various changes, substitutions and alterations herein without departing from the spirit and scope of the invention in its broadest form.