Voltage cutoff compensation method for a battery in a charger

US 5,684,387 A
Filed: 08/15/1996
Issued: 11/04/1997
Est. Priority Date: 08/15/1996
Status: Expired due to Fees

First Claim

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1. A method of charging a battery in a battery charger, comprising the steps of:

determining the charge rate of the battery;

determining the steady state cutoff voltage for the battery;

determining a relative impedance for the battery;

calculating an cutoff adjustment voltage based on the charge rate and the relative impedance;

calculating an adjusted steady state cutoff voltage based on the cutoff adjustment voltage; and

charging the battery until the adjusted steady state cutoff voltage is reached.

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Abstract

A battery charging system (300) is capable of maintaining a fully charged battery (304) without overcharging or undercharging the battery regardless of the chemistry type, number of cells, state of charge, or rated charge current. A charging technique (200) allows a charger (306) to sense a capacity indicator of the battery, through a capacity resistor (Rc) or memory (302) located in the battery (304), and translate data pertaining to the number of battery cells, the battery chemistry, and the rated charge current into a relative impedance (210), a cutoff adjustment voltage (212), and a stead state cutoff voltage (214). An adjusted steady state cutoff voltage is determined (216) and used as a threshold with which to compare the battery voltage (220).

128 Citations

13 Claims

1. A method of charging a battery in a battery charger, comprising the steps of:
- determining the charge rate of the battery;
  
  determining the steady state cutoff voltage for the battery;
  
  determining a relative impedance for the battery;
  
  calculating an cutoff adjustment voltage based on the charge rate and the relative impedance;
  
  calculating an adjusted steady state cutoff voltage based on the cutoff adjustment voltage; and
  
  charging the battery until the adjusted steady state cutoff voltage is reached.

2. A method of charging a battery in a battery charger, comprising the steps of:
- determining the total number of battery cells in the battery;
  
  determining the battery chemistry;
  
  determining the rated charge current for the battery;
  
  determining, based on the battery chemistry and the total number of battery cells, a steady state cutoff voltage for the battery;
  
  periodically measuring a relative impedance for the battery;
  
  calculating a cutoff adjustment voltage based on the periodically measured relative impedance and the rated charge current;
  
  establishing an adjustable steady state cutoff voltage by adding the cutoff adjustment voltage to the steady state cutoff voltage;
  
  monitoring the battery voltage; and
  
  charging the battery with the rated charge current until the battery voltage reaches the adjustable steady state cutoff voltage.
- View Dependent Claims (3, 4)
- - 3. The method of claim 2, wherein the battery includes a capacity resistor, and the number of battery cells, the battery chemistry, and the rated charge current are all determined by the charger monitoring the capacity resistor.
  - 4. The method of claim 2, wherein the battery includes a memory portion for storing the number of battery cells, the battery chemistry, and the rated charge current;
    - and the charger performs the steps of determining the number of battery cells, the battery chemistry, and the rated charge current by monitoring the memory portion of the battery.

5. A method of charging a battery in a charger, comprising the steps of:
- at the charger;
  
  determining the number of battery cells;
  
  determining the steady state voltage per cell;
  
  determining the rated charge current for the battery;
  
  calculating the steady state cutoff voltage for the battery based on the number of battery cells and the steady state voltage per cell;
  
  determining a relative impedance for the battery;
  
  calculating a cutoff adjustment voltage based on the relative impedance and rated charge current;
  
  adjusting the steady state cutoff voltage based on the cutoff adjustment voltage to provide an adjusted steady state cutoff voltage; and
  
  charging the battery until the adjusting steady state cutoff voltage is met.
- View Dependent Claims (6, 7, 8, 9, 10)
- - 6. The method of claim 5, wherein the battery includes a memory for storing data related to the number of battery cells, the steady state voltage per cell, and the rated charge current for the battery and wherein the steps of determining the number of battery cells, determining the steady state voltage per cell, and determining the rated charge current for the battery comprises the step of reading the data stored in the memory of the battery.
  - 7. The method of claim 5, wherein the battery includes a capacity resistor and the steps of determining the number of battery cells, determining the steady state voltage per cell, and determining the rated charge current for the battery comprises the steps of:
    - measuring a voltage at the capacity resistor and translating the measured voltage to the number of battery cells, the steady state voltage per cell, and the rated charge current for the battery.
  - 8. The method of claim 5, wherein the step of determining the steady state voltage per cell comprises the steps of:
    - determining the battery chemistry; and
      
      determining, based on the battery chemistry, the steady state voltage per cell.
  - 9. The method of claim 5, wherein the step of determining a relative impedance of the battery is performed periodically.
  - 10. The method of claim 9, wherein the step of determining a relativeimpedance of the battery includes the steps of;
    - applying a first load current to the battery from the charger;
      
      measuring a first loaded battery voltage;
      
      applying a second load current to the battery from the charger;
      
      measuring a second loaded battery voltage; and
      
      calculating the relative impedance of the battery based on a delta change in the first and second measured loaded voltages and a delta change in the first and second applied loaded currents.

11. A charging system for a battery, comprising:
- a battery, including;
  
  positive and negative terminals; and
  
  a capacity indicator terminal indicating the number of battery cells, the battery chemistry, and the rated charge current; and
  
  a charger, including;
  
  a controller selectively sensing the capacity indicator terminal and determining a steady state cutoff voltage based on the battery chemistry and the number of battery cells, the controller also periodically measuring a relative impedance of the battery at the positive and negative terminals, and the controller dynamically compensating the steady state cutoff voltage in response to the relative impedance and the rated charge current.
- View Dependent Claims (12, 13)
- - 12. The charging system of claim 11, wherein the capacity indicator terminal is coupled to a capacity resistor internal to the battery, the capacity resistor generating a voltage which indicating the number of battery cells, the battery chemistry, and the rated charge current.
  - 13. The charging system of claim 11, wherein the capacity indicator terminal is coupled to a memory section located within the battery, the memory section storing data pertaining to the number of battery cells, the battery chemistry, and the rated charge current.

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Current Assignee
Motorola, Inc. (Motorola Solutions, Inc.)
Original Assignee
Motorola, Inc. (Motorola Solutions, Inc.)
Inventors
Patino, Joseph
Primary Examiner(s)
TSO, EDWARD H

Application Number

US08/698,537
Time in Patent Office

446 Days
Field of Search

320/5, 320/29, 320/30, 320/32, 320/35, 320/37, 320/39, 320/43, 320/48, 324/427, 324/430, 324/431, 324/433, 324/434
US Class Current

320/106
CPC Class Codes

H01M 10/46   Accumulators structurally c...

H02J 7/00036   Charger exchanging data wit...

H02J 7/00038   using passive battery ident...

H02J 7/00047   with provisions for chargin...

Y02E 60/10   Energy storage using batteries

Voltage cutoff compensation method for a battery in a charger

First Claim

1 Assignment

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Accused Products

Abstract

128 Citations

13 Claims

Specification

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Voltage cutoff compensation method for a battery in a charger

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

128 Citations

13 Claims

Specification

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Solutions

Use Cases

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