Power control circuit in wireless mobile communication system

US 5,825,160 A
Filed: 10/04/1996
Issued: 10/20/1998
Est. Priority Date: 10/06/1995
Status: Expired due to Fees

First Claim

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1. A power control circuit for a wireless mobile communication system, comprising:

over-voltage detection means for detecting whether a battery is connected to or disconnected from said system, and generating a switching control signal in dependence upon the detection, said over-voltage detection means comprising;

voltage dividing means serially connected between charging terminals, for dividing a voltage supplied through said charging terminals to generate a divided voltage;

a first transistor for generating said switching control signal, said first transistor being turned on or off according to said divided voltage provided from said voltage dividing means; and

charging means connected to a base terminal of said first transistor, for turning off said first transistor while the voltage supplied through said charging terminals is initially provided; and

switching means for responding to said switching control signal provided from said over-voltage detection means by connecting the voltage supplied through said charging terminals to said battery when said switching control signal indicates that said battery is connected to said system, and disconnecting the voltage supplied through said charging terminals when said switching control signal indicates that said battery is disconnected from said system.

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Abstract

A power control circuit for a wireless mobile communication system includes an over-voltage detection circuit that detects whether a battery is connected to or disconnected from the system, and generates a switching control signal in dependence upon the detection. A switching circuit responds to the switching control signal provided from the over-voltage detection circuit by connecting a voltage supplied through charging terminals to the battery when the switching control signal indicates that the battery is connected to the system, and disconnecting the voltage supplied through the charging terminals when the switching control signal indicates that the battery is disconnected from the system.

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14 Claims

1. A power control circuit for a wireless mobile communication system, comprising:
- over-voltage detection means for detecting whether a battery is connected to or disconnected from said system, and generating a switching control signal in dependence upon the detection, said over-voltage detection means comprising;
  
  voltage dividing means serially connected between charging terminals, for dividing a voltage supplied through said charging terminals to generate a divided voltage;
  
  a first transistor for generating said switching control signal, said first transistor being turned on or off according to said divided voltage provided from said voltage dividing means; and
  
  charging means connected to a base terminal of said first transistor, for turning off said first transistor while the voltage supplied through said charging terminals is initially provided; and
  
  switching means for responding to said switching control signal provided from said over-voltage detection means by connecting the voltage supplied through said charging terminals to said battery when said switching control signal indicates that said battery is connected to said system, and disconnecting the voltage supplied through said charging terminals when said switching control signal indicates that said battery is disconnected from said system.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The power control circuit as claimed in claim 1, wherein said switching control signal exhibits a first logic state when said battery is connected to said system, and exhibits a second logic state when said battery is disconnected from said system.
  - 3. The power control circuit as claimed in claim 1, wherein said first transistor further comprises:
    - a principal electrically conducting channel disposed between said switching means and a local reference potential.
  - 4. The power control circuit as claimed in claim 1, wherein said voltage dividing means comprises a pair of resistors.
  - 5. The power control circuit as claimed in claim 3, wherein said switching control signal exhibits a first logic state when said battery is connected to said system, and exhibits a second logic state when said battery is disconnected from said system.
  - 6. The power control circuit as claimed in claim 4, wherein said switching control signal exhibits a first logic state when said battery is connected to said system, and exhibits a second logic state when said battery is disconnected from said system.
  - 7. The power control circuit as claimed in claim 1, wherein said switching means comprises:
    - a second transistor having a base terminal connected to a collector terminal of said first transistor for receiving said switching control signal, said second transistor turning on when said switching control signal indicates that said battery is connected to said system and turning off when said switching control signal indicates that said battery is disconnected from said system; and
      
      a third transistor having a base terminal connected to a collector terminal of said second transistor for connecting the voltage supplied through said charging terminals to said battery when said second transistor is turned on and disconnecting the voltage supplied through said charging terminals when said second transistor is turned off.
  - 8. The power control circuit as claimed in claim 6, wherein said switching means comprises:
    - a second transistor having a base terminal connected to a collector terminal of said first transistor for receiving said switching control signal, said second transistor turning on when said switching control signal indicates that said battery is connected to said system and turning off when said switching control signal indicates that said battery is disconnected from said system; and
      
      a third transistor having a base terminal connected to a collector terminal of said second transistor for connecting the voltage supplied through said charging terminals to said battery when said second transistor is turned on and disconnecting the voltage supplied through said charging terminals when said second transistor is turned off.

9. A method for controlling power in a wireless mobile communications system, comprising the steps of:
- dividing a voltage supplied through charging terminals to generate a divided voltage, said dividing step being performed by voltage dividing means serially connected between said charging terminals;
  
  charging a storage device connected across said charging terminals with the voltage supplied through said charging terminals;
  
  detecting whether or not a battery is connected to said system, according to said divided voltage;
  
  generating a switching control signal based upon said detecting step, said generating step being performed by a first transistor receiving said divided voltage;
  
  connecting the voltage supplied through said charging terminals to said battery when said switching control signal indicates that said battery is connected to said system; and
  
  disconnecting the voltage supplied through said charging terminals when said switching control signal indicates that said battery is not connected to said system.
- View Dependent Claims (10)
- - 10. The method as claimed in claim 9, wherein said switching control signal exhibits a first logic state when said battery is connected to said system, and exhibits a second logic state when said battery is not connected to said system.

11. A wireless mobile communication system, comprising:
- charging terminals for connecting to a charging source that provides a charging voltage to a battery of said system;
  
  a detection circuit for detecting whether or not said battery is connected to said system, and generating a switching control signal in dependence upon the detection said, detection circuit comprising;
  
  a pair of resistors serially connected between said charging terminals, for dividing the charging voltage to generate a divided voltage;
  
  a first transistor for generating said switching control signal, said first transistor being turned on or off according to said divided voltage; and
  
  a capacitor connected to a base terminal of said first transistor, for turning off said first transistor while the charging voltage is initially provided;
  
  a switching circuit for responding to said switching control signal provided from said detection circuit by enabling transmission of the charging voltage to said battery when said switching control signal indicates that said battery is connected to said system, and preventing transmission of the charging voltage when said switching control signal indicates that said battery is not connected to said system; and
  
  a diode connected between said battery and said switching circuit for preventing a reverse flow of electrical current from said battery when said battery is connected to said system.
- View Dependent Claims (12, 13, 14)
- - 12. The wireless mobile communication system as claimed in claim 11, wherein said first transistor comprises:
    - a collector terminal connected to said switching circuit and transmitting said switching control signal to said switching circuit; and
      
      an emitter terminal connected to a local reference potential.
  - 13. The wireless mobile communication system as claimed in claim 12, wherein said switching circuit comprises:
    - a second transistor having a base terminal connected to said collector terminal of said first transistor for receiving said switching control signal, said second transistor turning on when said switching control signal indicates that said battery is connected to said system and turning off when said switching control signal indicates that said battery is not connected to said system; and
      
      a third transistor having a base terminal connected to a collector terminal of said second transistor for enabling the transmission of the charging voltage to said battery when said second transistor is turned on and preventing The transmission of the charging voltage when said second transistor is turned off.
  - 14. The wireless mobile communication system as claimed in claim 13, wherein said switching control signal exhibits a first logic state when said battery is connected to said system, and exhibits a second logic state when said battery is not connected to said system.

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Current Assignee
Samsung Electronics Co. Ltd.
Original Assignee
Samsung Electronics Co. Ltd.
Inventors
Kim, Ji-Hwa
Primary Examiner(s)
TSO, EDWARD H

Application Number

US08/725,891
Time in Patent Office

746 Days
Field of Search

320/106, 320/116, 320/132, 320/134, 320/136, 320/165, 320/DIG. 10, 320/DIG. 12
US Class Current

320/134
CPC Class Codes

G05F 1/565 sensing a condition of the ...

H04M 19/08 with current supply sources...

Power control circuit in wireless mobile communication system

First Claim

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14 Claims

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Power control circuit in wireless mobile communication system

First Claim

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Abstract

14 Citations

14 Claims

Specification

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