Battery charge management/protection apparatus

US 5,631,537 A
Filed: 10/17/1995
Issued: 05/20/1997
Est. Priority Date: 10/17/1995
Status: Expired due to Term

First Claim

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1. A battery charger/monitor for charging/monitoring a plurality of series-connected battery cells in a battery pack which can be charged from an external charging supply, comprising:

a package having a finite set of input/output pins, said input/output pins including a plurality of input sense pins arranged in pairs, each pair able to be connected across a battery cell in a battery pack, wherein each of the cells in the battery pack is associated with a separate one of said pairs of sense pins;

a voltage monitor for monitoring the voltage across each of said pairs of sense pins;

a test circuit for performing a plurality of tests on each pair of said sense pins utilizing said associated monitored voltage provided by said voltage monitor, each of said tests determining characteristics of the battery pack by monitoring the voltage on said sense pins and applying a predetermined test algorithm thereto that compares the determined characteristics with predetermined acceptable limits to determine if said monitored characteristics are outside of said acceptable limits;

a no cell circuit for determining if any of said pairs of sense pins has no cell connected thereacross as determined by said monitored voltage output by said monitoring circuit;

a control system for controlling the charging and discharging operation of the battery in accordance with the results determined by said test circuit; and

an inhibiting circuit for inhibiting the results of said test circuit from being utilized by said control system that result from the ones of said sense pins determined by said no cell circuit not to have a cell associated therewith.

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Abstract

A battery charger/protection device (10) is provided for charging a battery pack (12) comprised of four lithium ion cells. Each of the cells is selectively monitored by examining the voltage thereacross. An overvoltage condition is checked for a cell, an undervoltage condition for a cell is checked and an overcurrent condition for the entire battery pack (12) is checked. This is achieved by comparing the voltage with predetermined threshold voltages during the charging operation. This is a sequential operation wherein each of the batteries is sequentially examined in a continuous manner through the charging operation in accordance with a predetermined scheme. Switches (30) and (28) are provided for terminating a charging operation during charging. During operation, the undervoltage condition can be checked and the charger/protection device (10) placed in a sleep mode. The charger/protection device (10) provides a finite number of terminals for accessing any combination of cells. By connecting the terminals together for an unused cell, information about the cell across those two terminals can be nullified by indicating that no cell is present and that a short has been substituted for the cell, information about this cell then not utilized in the charging monitoring operation. This allows a single part to accommodate different batteries.

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23 Claims

1. A battery charger/monitor for charging/monitoring a plurality of series-connected battery cells in a battery pack which can be charged from an external charging supply, comprising:
- a package having a finite set of input/output pins, said input/output pins including a plurality of input sense pins arranged in pairs, each pair able to be connected across a battery cell in a battery pack, wherein each of the cells in the battery pack is associated with a separate one of said pairs of sense pins;
  
  a voltage monitor for monitoring the voltage across each of said pairs of sense pins;
  
  a test circuit for performing a plurality of tests on each pair of said sense pins utilizing said associated monitored voltage provided by said voltage monitor, each of said tests determining characteristics of the battery pack by monitoring the voltage on said sense pins and applying a predetermined test algorithm thereto that compares the determined characteristics with predetermined acceptable limits to determine if said monitored characteristics are outside of said acceptable limits;
  
  a no cell circuit for determining if any of said pairs of sense pins has no cell connected thereacross as determined by said monitored voltage output by said monitoring circuit;
  
  a control system for controlling the charging and discharging operation of the battery in accordance with the results determined by said test circuit; and
  
  an inhibiting circuit for inhibiting the results of said test circuit from being utilized by said control system that result from the ones of said sense pins determined by said no cell circuit not to have a cell associated therewith.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The battery charger/monitor of claim 1, wherein said pairs of sense pins are adjacent to each other and each adjacent pair of sense pins sharing a common sense pin.
  - 3. The battery charger/monitor of claim 2, wherein, if the number of pairs of said sense pins number greater than the number of cells in the battery pack, then a conductive short will be disposed across the pins not having a cell associated therewith.
  - 4. The battery charger/monitor of claim 3, wherein said voltage monitor compares the voltage on each pair of said sense pins with a predetermined voltage threshold and, if said monitored voltage falls below said predetermined voltage, an indication that a short is disposed across said sense pins is indicated, this indicating that no cells are connected thereacross.
  - 5. The battery charger/monitor of claim 1, wherein said test circuit comprises:
    - a comparator having a monitored voltage input, a reference voltage input and an output, which output indicates whether the monitored voltage input is above or below the reference voltage input;
      
      a multiplexer having multiple inputs and a single output, said single output connected to the monitored voltage input of said comparator and said multiple inputs connected across each of said pairs of sense pins, said multiplexer operable to selectively measure the voltage across each of said pairs of sense pins and provide it on the output thereof;
      
      a programmable attenuator for providing multiple reference voltages, each reference voltage associated with one of said plurality of tests;
      
      a test control system for controlling said multiplexer and said programmable attenuator to perform said plurality of tests in a first predetermined order of tests on said pairs of sense pins in a second predetermined order of pins, such that each pair of sense pins is first selected and then each of said plurality of tests is performed by said test circuit on said selected pair of sense pins; and
      
      said output of said comparator provided as an input to said control system.
  - 6. The battery charger/monitor of claim 5, wherein said programmable attenuator further includes a low reference voltage for use with said no cell circuit and said no cell circuit comprises said programmable attenuator utilizing said low reference voltage, which is operable to utilize said low reference voltage upon selecting of each of said pairs of sense pins by said multiplexer prior to performing any of said tests.
  - 7. The battery charger/monitor for claim 1, wherein said control system comprises a switching device for being connected between one side of the battery pack opposite to the side connected to the positive terminal of the charging supply and the other side thereof connected to the negative side of the charging supply, said switching device controlled by said control system to interrupt charging in a predetermined manner.
  - 8. The battery charger/monitor of claim 7, wherein at least one of said tests comprises the comparison of the monitored voltage across each of the said pairs of sense pins with an upper voltage threshold and, if it exceeds the upper voltage threshold, declaring an overvoltage condition and opening said switching device such that current does not pass through the battery pack, and another of said tests comparing the monitored voltage on each of said pairs of sense pins to a mid-level threshold voltage and declaring a charge enable condition when the monitored voltage on a given set of said pairs of sense pins falls below said mid-level threshold voltage, said control system operable to terminate charge upon declaration of an overvoltage condition by opening said switching device and enable charge upon the declaration of said charge enable condition by closing said switch.
  - 9. The battery charger/monitor of claim 8, wherein said control system opens said switching device upon the declaration of an overvoltage condition on any of said pairs of sense pins and initiates charging upon determining that the monitored voltage on all of said pairs of sense pins is above said mid-level threshold voltage, with the exception of the ones of said sense pins determined not to have a cell disposed thereacross by said no cell circuit.
  - 10. The battery charger/monitor of claim 7, wherein one of said plurality of tests comprises comparing the monitored voltage with a low level threshold voltage and declaring an undervoltage condition for the associated one of said pairs of said sense pins when the monitored voltage falls below said low level threshold voltage and said control system opening said switching device when any of said sense pins is determined to have the monitored voltage fall below said low level threshold voltage.
  - 11. The battery charger/monitor of claim 7, wherein said voltage monitor is further operable to monitor the voltage across said switching device and wherein said switching device has a finite impedance associated therewith and said test circuit is operable to perform a test on the monitored voltage across said switching device by comparing the monitored voltage across said switching device with an overcurrent threshold voltage and, if said monitored voltage across said switching device exceeds said overcurrent threshold voltage, an overcurrent condition is declared and said control system is operable to open said switching device when an overcurrent condition is declared.
  - 12. The battery charger/monitor of claim 11, wherein said voltage monitor is operable to monitor the voltage across said switching device when said switching device is open and, when said voltage rises above a predetermined charge determination threshold voltage, declaring that a charging operation has been initiated and wherein said control system is operable to close said switching device upon the determination of a charge initiation declaration wherein an indication is provided that a charge supply has been connected between the positive terminal of the battery pack and the negative terminal thereof.

13. A battery charger/monitor integrated circuit for monitoring and controlling the charging operation of a plurality of series connected battery cells in a battery pack having positive and negative terminals, comprising:
- an integrated circuit package for containing the battery charger/monitor integrated circuit;
  
  n voltage sense pins integral to said integrated circuit package and adaptable to be connected successively to the terminals of battery cells in a battery pack with the n=1 sense pin connected to the negative terminal of the battery pack and the n sense pin connected to the positive terminal of the battery pack such that adjacent sense pins can be disposed across a given battery cell, wherein a maximum of n-1 battery cells can be accommodated;
  
  a voltage monitor circuit for monitoring the voltage across adjacent sense pins;
  
  control pins for outputting charge control signals to an external charge control device;
  
  a charge control system for controlling the charging operation of the battery pack from an external charging supply in accordance with a charge control scheme that is a function of the monitored voltage of single pairs of said sense pins by generating control signals for output on control pins from the integrated circuit package; and
  
  a blocking circuit for determining if a short is disposed in place of an available cell position whenever less than n-1 cells are present in the battery pack, indicating that no cell is disposed at that cell location, and modifying said function such that the voltage measured across said determined no cell location is not utilized in said function.
- View Dependent Claims (14, 15, 16, 17, 18)
- - 14. The battery charger/monitor integrated circuit of claim 13, wherein said voltage monitor circuit comprises:
    - a voltage measurement device; and
      
      a multiplexer for selectively connecting said voltage measurement device to select ones of said pairs of sense pins, said multiplexer controlled by said control system.
  - 15. The battery charger/monitor integrated circuit of claim 14, wherein said control system operates said multiplexer to sequentially connect said pairs of sense pins in a continuous and sequential manner in a predetermined order.
  - 16. The battery charger/monitor circuit of claim 15, wherein said control system is operable to perform a plurality of monitoring tests on each of said pairs of sense pins when the voltage thereof is measured, said tests performed in a sequential manner.
  - 17. The battery charger/monitor of claim 16, wherein said voltage measurement device comprises:
    - a comparator;
      
      a programmable voltage reference device for providing a plurality of test voltage thresholds; and
      
      said comparator comparing said selected voltage by said multiplexer to said threshold for each of said tests.
  - 18. The battery charger/monitor integrated circuit of claim 14, wherein said voltage measurement device comprises:
    - a comparator;
      
      a programmable voltage reference device for providing a plurality of test voltage thresholds; and
      
      said comparator comparing said selected voltage by said multiplexer to said threshold for each of said tests.

19. A method for charging/monitoring a plurality of series-connected battery cells in a battery pack which can be charged from an external charging supply, comprising the steps of:
- providing a package having a finite set of input/output pins, the input/output pins including a plurality of input sense pins arranged in pairs, each pair able to be connected across the battery cell in a battery pack, wherein each of the cells in the battery pack is associated with a separate one of the pairs of sense pins;
  
  monitoring the voltage across each of the pairs of sense pins;
  
  performing a plurality of tests on each pair of sense pins utilizing the associated monitored voltage provided by the step of monitoring, each of the tests operable to determine the characteristics of the battery pack by monitoring the voltage on the sense pins and applying a predetermined test algorithm thereto that compares the determined characteristics with predetermined acceptable limits to determine if the monitored characteristics are outside of the acceptable limits;
  
  determining if any of the pairs of sense pins has no cell connected thereacross as determined by the monitored voltage output by the step of monitoring;
  
  controlling the charging and discharging operation of the battery in accordance with the results determined by the test circuit; and
  
  inhibiting the results of the testing steps associated with a given pair of sense terminals determined to have no cell associated therewith from being utilized by the controlling step.
- View Dependent Claims (20, 21, 22, 23)
- - 20. The method of claim 19, wherein the pairs of sense pins are adjacent to each other and each adjacent pair of sense pins sharing a common sense pin.
  - 21. The method of claim 20, wherein, if the number of pairs of the sense pins number greater than the number of the cells in the battery pack, then disposing a conductive short across the pins not having a cell associated therewith.
  - 22. The method of claim 21, wherein the step of monitoring the voltage comprises the step of comparing the voltage on each pair of the sense pins with a predetermined voltage threshold and, if the monitored voltage falls below the predetermined voltage, an indication that a short is disposed across the sense pins is indicated, this indicating that no cells are connected thereacross.
  - 23. The method of claim 19, wherein the step of performing the plurality of tests comprises:
    - comparing the monitored voltage with a reference voltage input and providing an output that is a function of whether the monitored voltage input is above or below the reference voltage input;
      
      providing a multiplexer having multiple inputs and a single output and providing the single output to the monitored voltage input utilized in the step of comparing and connecting the multiple inputs across each of the pairs of sense pins, the multiplexer operable to select each of the pairs of sense pins and connect them to the output thereof,providing multiple reference voltages and selecting with a programmable attenuator one of the multiple reference voltages for use with an associated one of the plurality of tests;
      
      controlling the multiplexer and the programmable attenuator to perform the plurality of tests in a first predetermined order of tests on the pairs of sense pins in a second predetermined order of pins, such that each pair of sense pins is first selected by the multiplexer and then each of the plurality of tests is performed by the step of testing on the selected pair of sense pins; and
      
      providing the output of the step of comparison as an input to the step of controlling.

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Current Assignee
Benchmarq Microelectronics, Inc. (Texas Instruments, Inc.)
Original Assignee
Benchmarq Microelectronics, Inc. (Texas Instruments, Inc.)
Inventors
Armstrong, Gene
Primary Examiner(s)
Wong, Peter S.
Assistant Examiner(s)
TOATLEY, GREGORY J

Application Number

US08/544,201
Time in Patent Office

581 Days
Field of Search

320/14, 320/15, 320/16, 320/17, 320/30, 320/32, 320/39, 361/12, 361/16, 361/67, 324/426, 324/427, 324/428
US Class Current

320/118
CPC Class Codes

G05F 3/242   with compensation for devic...

H02J 7/0019   using switched or multiplex...

H02J 7/0048   Detection of remaining char...

Y10S 320/13   Fault detection

Battery charge management/protection apparatus

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

73 Citations

23 Claims

Specification

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Battery charge management/protection apparatus

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

73 Citations

23 Claims

Specification

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Use Cases

Quick Links

Others