Method for quick charging of rechargeable batteries

US 5,508,598 A
Filed: 12/03/1993
Issued: 04/16/1996
Est. Priority Date: 06/05/1991
Status: Expired due to Term

First Claim

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1. A method for quick charging a rechargeable battery such as in a motor vehicle, comprising the steps of:

feeding a charging current to the battery in the form of a constant value current impulses, wherein in reaching a maximum cutoff voltage said charging current is diminished whereby no harmful heating of the battery occurs;

during pauses of the current impulses, measuring an individual charging condition of the battery by measuring a respective clamp voltage of the battery;

wherein said charging current comprises a plurality of different strength charging currents which are brought into effect depending on the respective charging condition of the battery;

assigning each of said plurality of different strength charging currents a specific zone in an electrochemical potential gradient of the battery, wherein an overreaching of an upper zone limit of one zone leads to a shut off of its respective charging current and a turning on of the charging current of an adjoining zone;

in a transition phase, reducing said charging current fed to the battery from a first strength charging current of a first charging phase to a second strength charging current of a second charging phase when an electrochemical voltage of the battery reaches a first upper zone limit voltage of said first charging phase;

in said transition phase, increasing said charging current fed to the battery from said second strength charging current to said first strength charging current when the electrochemical voltage falls below said first upper zone limit voltage, whereby an average charging current fed to the battery in said transition phase is between said first strength charging current and said second strength charging current;

when said electrochemical voltage of the battery climbs above a lower zone limit voltage of said second charging phase, holding said charging current fed to the battery in said second phase on said second strength charging current; and

if in said second phase a second charging phase upper zone limit voltage is reached, reducing said charging current fed to the battery to a third strength charging current in a third phase, fixing third phase lower and upper zone limit voltages, and by switching on and off said third strength charging current an average charging current to the battery in said third phase is further reduced.

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Abstract

A device for quick charging of batteries, whereby the charging current of the battery is directed in constant current impulses. Several charging current strengths of varying strengths, are brought into effect, depending on the respective charging condition of the battery, by clock impulses. Assigned to each charging current strength is a battery-specific zone in the electrochemical voltage gradient U=f(t), whereby the individual zones are indicated by voltage set values. The voltage zone assigned to each charging current strength is so chosen that in passing through this zone, no heating or gassing occurs. Thereby use is made of the fact that the battery at the beginning of the charging can accept a very high current. The charging condition of the battery is measured in each impulse pause, stored and compared with the voltage set value. Where there is a variance, the set-current value assigned to the zone is correspondingly adjusted.

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10 Claims

1. A method for quick charging a rechargeable battery such as in a motor vehicle, comprising the steps of:
- feeding a charging current to the battery in the form of a constant value current impulses, wherein in reaching a maximum cutoff voltage said charging current is diminished whereby no harmful heating of the battery occurs;
  
  during pauses of the current impulses, measuring an individual charging condition of the battery by measuring a respective clamp voltage of the battery;
  
  wherein said charging current comprises a plurality of different strength charging currents which are brought into effect depending on the respective charging condition of the battery;
  
  assigning each of said plurality of different strength charging currents a specific zone in an electrochemical potential gradient of the battery, wherein an overreaching of an upper zone limit of one zone leads to a shut off of its respective charging current and a turning on of the charging current of an adjoining zone;
  
  in a transition phase, reducing said charging current fed to the battery from a first strength charging current of a first charging phase to a second strength charging current of a second charging phase when an electrochemical voltage of the battery reaches a first upper zone limit voltage of said first charging phase;
  
  in said transition phase, increasing said charging current fed to the battery from said second strength charging current to said first strength charging current when the electrochemical voltage falls below said first upper zone limit voltage, whereby an average charging current fed to the battery in said transition phase is between said first strength charging current and said second strength charging current;
  
  when said electrochemical voltage of the battery climbs above a lower zone limit voltage of said second charging phase, holding said charging current fed to the battery in said second phase on said second strength charging current; and
  
  if in said second phase a second charging phase upper zone limit voltage is reached, reducing said charging current fed to the battery to a third strength charging current in a third phase, fixing third phase lower and upper zone limit voltages, and by switching on and off said third strength charging current an average charging current to the battery in said third phase is further reduced.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The method of claim 1 further comprising the step of strengthening a lowering of the electrochemical voltage in a not yet fully charged battery which normally occurs in the charging process during each current impulse pause by a targeted discharging process in the current impulse pause.
  - 3. The method of claim 2 wherein the discharging process is strengthened by switching on an ohmic resistor in the range of 10 ohms to 10,000 ohms
  - 4. The method of claim 3 wherein said constant current impulses comprise an impulse pause ratio of between 5:
    - 1 and 100;
      
      1.
  - 5. The method of claim 4 wherein said first strength charging current is set at a value of a short circuit current of the battery.
  - 6. A switching arrangement for implementing the method of claim 5 further comprising:
    - means for measuring in each current impulse pause the electrochemical voltage of the battery;
      
      means for storing the measured electrochemical voltage in a voltage real value reservoir;
      
      comparator means for comparing the measured electrochemical voltage with voltage set values assigned to the individual zones;
      
      joined with exits of said comparator means, an RS-flip-flop combination for assigning the respective voltage real value to the individual zones; and
      
      logic control means for joining the individual zones with assigned current set values whereby at an exit of said logic control means a current set value corresponding to the voltage real value appears.
  - 7. The switching arrangement of claim 6 further comprising integrator means for directing the current set value delivered from said logic control means to an output amplifier that feeds the battery, wherein said integrator means compares a current real value with the respective current set value and resets it within the pulse duration.
  - 8. The switching arrangement of claim 7 further comprising shunt means for measuring the current real value of a clock-impulsed charging current within the impulse duration, and means for storing the current real value in a current real value reservoir for the duration of the impulse.
  - 9. The switching arrangement of claim 8 further comprising a trigger, wherein said output amplifier delivers the charging currents of different strengths and comprises a multistage amplifier, and wherein said output amplifier is clock-impulsed together with said voltage real value reservoir and said current set value reservoir by said trigger.
  - 10. The switching arrangement of claim 9 further comprising voltage distributors fed by constant voltage sources, and wherein said voltage and current set values are calipered by said voltage distributors.

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Current Assignee
Issam Al-Abassy
Original Assignee
Issam Al-Abassy
Inventors
Al-Abassy, Issam
Primary Examiner(s)
Stephan, Steven L.
Assistant Examiner(s)
Ponomarenko, Nicholas

Application Number

US08/161,661
Time in Patent Office

865 Days
Field of Search

320/14, 320/20, 320/23, 320/24
US Class Current

320/129
CPC Class Codes

H02J 7/007182 in response to battery voltage

Method for quick charging of rechargeable batteries

First Claim

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Abstract

51 Citations

10 Claims

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Method for quick charging of rechargeable batteries

First Claim

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Accused Products

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Abstract

51 Citations

10 Claims

Specification

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Solutions

Use Cases

Quick Links