Battery charging systems

US 5,514,945 A
Filed: 07/05/1994
Issued: 05/07/1996
Est. Priority Date: 12/21/1990
Status: Expired due to Fees

First Claim

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1. A battery management integrated circuit comprising:

a plurality of connections for ground, for a source of current, for an electrical load, and for a hot terminal of rechargeable battery, said hot terminal of said rechargeable battery having a voltage;

a first switch configured selectively connect said source of current to said hot terminal of said rechargeable battery;

a second switch configured to selectively connect said hot terminal of said rechargeable battery to said electrical load;

a plurality of comparators of which at least one comparator is coupled to detect when the voltage of said hot terminal of said rechargeable battery becomes smaller than a first voltage, said plurality comparators having outputs;

control logic said control logic having inputs coupled to outputs of said comparators, and configured to turn on said first switch when said rechargeable battery needs to be charged, and to turn on said second switch when said electrical load can be powered from said rechargeable battery; and

a bandgap-voltage-reference circuit to provide a constant-voltage output, said bandgap-voltage-reference circuit coupled to at least one comparator of said plurality of comparators, so that said at least one comparator receives, as a reference input thereto, a voltage which is derived from the constant-voltage output of said bandgap-voltage-reference circuit,wherein said first and second switches are p-channel field effect transistors.

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Abstract

A battery management chip which controls charging and discharging currents of a rechargeable battery. Another significant teaching of the presently preferred embodiment is a battery manager integrated circuit which includes an on-chip bandgap voltage reference. The circuitry for bandgap voltage references is conventional, and a variety of circuit configurations are very well-known, but bandgap voltage references normally have a significant power consumption. However, the precise voltage reference derived from such a circuit is extremely useful in performing precise and optimal control of battery function.

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7 Claims

1. A battery management integrated circuit comprising:
- a plurality of connections for ground, for a source of current, for an electrical load, and for a hot terminal of rechargeable battery, said hot terminal of said rechargeable battery having a voltage;
  
  a first switch configured selectively connect said source of current to said hot terminal of said rechargeable battery;
  
  a second switch configured to selectively connect said hot terminal of said rechargeable battery to said electrical load;
  
  a plurality of comparators of which at least one comparator is coupled to detect when the voltage of said hot terminal of said rechargeable battery becomes smaller than a first voltage, said plurality comparators having outputs;
  
  control logic said control logic having inputs coupled to outputs of said comparators, and configured to turn on said first switch when said rechargeable battery needs to be charged, and to turn on said second switch when said electrical load can be powered from said rechargeable battery; and
  
  a bandgap-voltage-reference circuit to provide a constant-voltage output, said bandgap-voltage-reference circuit coupled to at least one comparator of said plurality of comparators, so that said at least one comparator receives, as a reference input thereto, a voltage which is derived from the constant-voltage output of said bandgap-voltage-reference circuit,wherein said first and second switches are p-channel field effect transistors.
- View Dependent Claims (2, 3)
- - 2. The integrated circuit of claim 1, wherein:
    - one comparator of said plurality of comparators compares the voltage at the hot terminal with a maximum voltage for said rechargeable battery.
  - 3. The integrated circuit of claim 1, wherein said constant-voltage output provided by said bandgap-voltage-reference can be changed in order to modify said reference input which is coupled to at least one comparator of said plurality of comparators so that said battery charging system is programmable.

4. A battery management system comprising;
- (a) source of charging current having a first terminal, and a second terminal said second terminal of said source of charging current coupled to ground;
  
  (b) an electrical load having a first terminal and a second terminal, said second terminal of said electrical load coupled to ground(c) battery having a first terminal and a second terminal said first terminal and said second terminal having a voltage, said second terminal of said battery coupled to ground;
  
  (d) first switch configured to selectably couple said first terminal of said source of charging current to said first terminal of said battery;
  
  (e) a second switch configured to selectively coupled said first terminal of said battery to said first terminal of said electrical load;
  
  (f) a plurality of comparators of which at least one comparator is coupled to detect when the voltage of the tint terminal of the becomes small than a first voltage, the plurality of comparators having outputs;
  
  (g) control logic circuitry coupled to respond to said plurality of comparators and configured to turn on said first switch when said battery needs to be charged and to turn on said second switch when said electrical load can be powered from said battery; and
  
  (h) a bandgap-voltage-reference circuit to provide a constant-voltage output, the bandgap-voltage-reference circuit coupled to at least one comparator of said plurality of comparators receives to provide a reference input thereto, wherein one comparator of said plurality of comparators compares the voltage at the terminal with a maximum voltage for said rechargeable battery.
- View Dependent Claims (5, 6, 7)
- - 5. The battery charging system of claim 4, wherein said plurality of comparators comprises at least one difference comparator to compare an external input to a programmable voltage source.
  - 6. The battery charging system of claim 4, wherein said plurality of comparators comprises at least one difference comparator to compare an external input to a programmable voltage source.
  - 7. The battery charging system of claim 4, wherein said constant-voltage output provided by said bandgap-voltage-reference can be changed in order to modify said reference input which is coupled to at least one comparator of said plurality of comparators so that said battery charging system is programmable.

Specification

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Current Assignee
Dallas Semiconductor Corporation (Analog Devices, Inc.)
Original Assignee
Dallas Semiconductor Corporation (Analog Devices, Inc.)
Inventors
Jones, Brian W.
Primary Examiner(s)
Wong, Peter S.
Assistant Examiner(s)
TSO, EDWARD H

Application Number

US08/270,810
Time in Patent Office

672 Days
Field of Search

320/5, 320/13, 320/14, 320/31, 320/32, 320/35, 320/39, 320/40
US Class Current

320/128
CPC Class Codes

H01M 10/44   Methods for charging or dis...

H02J 7/0045   concerning the insertion or...

H02J 7/0063   with circuits adapted for s...

H02J 7/0071   with a programmable schedule

H02J 7/00711   with introduction of pulses...

H02J 7/007182   in response to battery voltage

H02J 7/007194   of the battery

Y02E 60/10   Energy storage using batteries

Battery charging systems

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53 Citations

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Battery charging systems

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7 Claims

Specification

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