Mobile device and power management method

US 8,282,009 B2
Filed: 03/10/2008
Issued: 10/09/2012
Est. Priority Date: 03/27/2007
Status: Active Grant

First Claim

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1. A mobile electronic device, comprising:

a battery;

a radio frequency communication chip (RF chip) configured within the mobile electronic device as a first integrated circuit (IC) to wirelessly communicate an RF signal with a terminal, wherein the first IC comprises an analog interface connected to an antenna to facilitate the wireless communication of the RF signal;

a smart card configured within the mobile electronic device as a second IC separately powered from the first IC to communicate data signals with the terminal, wherein the smart card is connected to the RF chip, such that the data are communicated via the analog interface and the antenna to the terminal;

a controller configured to control a selective and separate supply of power from the battery to the RF chip and the smart card in accordance with a detected level of residual battery power; and

a switching circuit disposed between the battery and each one of the RF chip and smart card, and including a first switch that cuts off supply of power to the RF chip responsive to comparison of the detected level to a first level threshold, and a second switch that cuts off supply of power to the smart card responsive to comparison of the detected level to a second level threshold that is different than the first level threshold,wherein the controller includes a residual battery power detector configured to detect the level of residual battery power and provide first and second switching signals respectively to the first and second switches to control the selective enabling of the supply of battery power to the RF chip and the smart card.

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Abstract

A mobile device and related power management method are disclosed. The power management method includes detecting a level of residual battery power, and selectively enabling the provision of power to the smart card and the RF chip in accordance with the detected level of residual battery power.

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14 Claims

1. A mobile electronic device, comprising:
- a battery;
  
  a radio frequency communication chip (RF chip) configured within the mobile electronic device as a first integrated circuit (IC) to wirelessly communicate an RF signal with a terminal, wherein the first IC comprises an analog interface connected to an antenna to facilitate the wireless communication of the RF signal;
  
  a smart card configured within the mobile electronic device as a second IC separately powered from the first IC to communicate data signals with the terminal, wherein the smart card is connected to the RF chip, such that the data are communicated via the analog interface and the antenna to the terminal;
  
  a controller configured to control a selective and separate supply of power from the battery to the RF chip and the smart card in accordance with a detected level of residual battery power; and
  
  a switching circuit disposed between the battery and each one of the RF chip and smart card, and including a first switch that cuts off supply of power to the RF chip responsive to comparison of the detected level to a first level threshold, and a second switch that cuts off supply of power to the smart card responsive to comparison of the detected level to a second level threshold that is different than the first level threshold,wherein the controller includes a residual battery power detector configured to detect the level of residual battery power and provide first and second switching signals respectively to the first and second switches to control the selective enabling of the supply of battery power to the RF chip and the smart card.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The device of claim 1, wherein the switching circuit further comprises a first diode having an anode connected to the second switch and a cathode connected to the smart card.
  - 3. The device of claim 1, wherein the residual battery power detector activates the first switching signal to turn ON the first switch when the detected level of battery power is above the first level threshold and deactivates the first switching signal to turn OFF the first switch when the detected level of battery power is below the first level threshold.
  - 4. The device of claim 3, wherein the residual battery power detector activates the second switching signal to turn ON the second switch when the detected level of battery power is above the second level threshold and deactivates the second switching signal to turn OFF the second switch when the detected level of battery power is below the second level threshold, wherein the second level threshold is less than the first level threshold.
  - 5. The device of claim 1, wherein the RF chip is further configured to receive external power via the antenna and the analog interface when the first switch is turned OFF.
  - 6. The device of claim 5, wherein the smart card is further configured to receive external power via the antenna and the analog interface through the RF chip when the first and second switches are turned OFF.
  - 7. The device of claim 2, wherein the switching circuit further comprises a second diode having an anode connected to the RF chip and a cathode connected to the smart card.
  - 8. The device of claim 1, wherein the RF chip and the smart card are connected using a single wire protocol (SWP) to facilitate the communication of the data signals by the smart card, and the RF chip communicates with the terminal using contactless near field communication (NFC) techniques.

9. A power management method for a mobile device comprising a battery, a radio frequency communication chip (RF chip) having an analog interface connected to an antenna, and a smart card connected to the RF chip, the method comprising:
- using the RF chip, wirelessly communicating an RF signal with a terminal through the analog interface;
  
  using the smart card, communicating data signals with the terminal through the analog interface;
  
  using a residual battery power detector disposed within a controller external to the RF chip and smart card, detecting a level of residual battery power provided by the battery; and
  
  using a switching circuit disposed between the battery and each one of the RF chip and smart card, selectively disabling the supply of battery power to the smart card and the RF chip in accordance with the detected level of residual battery power, wherein the RF chip is configured within the mobile device as a first integrated circuit (IC) and the smart card is configured within the mobile device as a second IC separate from the first IC, andwherein the selectively disabling comprises cutting off the supply of battery power to the RF chip by shutting off a first switch in the switching circuit when the detected level is lower than a first level threshold, and cutting off the supply of battery power to the smart card by shutting off a second switch in the switching circuit when the detected level is lower than a second level threshold that is less than the first level threshold.
- View Dependent Claims (10, 11)
- - 10. The method of claim 9, further comprising:
    - supplying external power to the RF chip through the antenna and the analog interface after battery power to the RF chip is disabled.
  - 11. The method of claim 9, further comprising:
    - supplying external power to the smart card through the antenna and the analog interface after battery power to the smart card is disabled.

12. A power management method for a mobile device comprising a battery, a radio frequency communication chip (RF chip) having an analog interface connected to an antenna, and a smart card connected to the RF chip, the method comprising:
- communicating an RF signal with a terminal through the analog interface and using the smart card, communicating data signals with the terminal through the analog interface, wherein the RF chip is configured within the mobile device as a first integrated circuit (IC) and the smart card is configured within the mobile device as a second IC separate from the first IC;
  
  using a residual battery power detector external to the RF chip and smart card, detecting a level of residual battery power provided by the battery;
  
  separately and coincidentally supplying battery power to the RF chip and the smart card through a switching circuit disposed between the battery and each one of the RF chip and smart card when the detected residual battery power is above a first level threshold;
  
  cutting off the supply of battery power to the RF chip by shutting off a first switch in the switching circuit when the detected level of residual battery power falls below the first level threshold; and
  
  cutting off the supply of battery power to the smart card by shutting off a second switch in the switching circuit when the detected level of residual battery power falls below a second level threshold lower than the first level threshold.
- View Dependent Claims (13, 14)
- - 13. The method of claim 12, further comprising:
    - supplying external power to the RF chip through the antenna and analog interface after cutting off the supply of battery power to the RF chip.
  - 14. The method of claim 12, further comprising:
    - supplying external power to the smart card through the antenna and analog interface after cutting off the supply of battery power to the smart card.

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Current Assignee
Samsung Electronics Co. Ltd.
Original Assignee
Samsung Electronics Co. Ltd.
Inventors
Ahn, Kyung-Mo, Kim, Chan-Yong
Primary Examiner(s)
Lee, Michael G
Assistant Examiner(s)
Mikels, Matthew

Application Number

US12/045,141
Publication Number

US 20080237355A1
Time in Patent Office

1,674 Days
Field of Search

235/439, 235/492, 455/41.1, 455/41.2, 455/572, 455/573, 455/558, 307/11, 307/31, 320135-136
US Class Current

235/492
CPC Class Codes

G06K 7/0004   Hybrid readers

G06K 7/0008   General problems related to...

G06K 7/10207   parameter settings related ...

Mobile device and power management method

First Claim

1 Assignment

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Abstract

27 Citations

14 Claims

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Mobile device and power management method

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

27 Citations

14 Claims

Specification

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Solutions

Use Cases

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