Battery charging system having logarithmic analog-to-digital converter with automatic scaling of analog signal

US 5,352,969 A
Filed: 05/30/1991
Issued: 10/04/1994
Est. Priority Date: 05/30/1991
Status: Expired due to Term

First Claim

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1. A charging device adapted for charging batteries having different voltage ratings, comprising:

a power supply circuit for providing a source of DC charging current;

a microcomputer-based controller circuit for initiating the charging process and controlling application of said charging current to a battery by monitoring the voltage of the battery to obtain an analog battery voltage signal, including analog-to-digital converter means for converting the analog battery voltage signal to a corresponding digital value and a prescaler circuit having associated therewith a settable attenuation level for attenuating said analog battery voltage signal to within a predetermined voltage range from a first voltage value to a second voltage value approximately equal to 150% of said first voltage value, said microcomputer controller circuit being programmed to set the attenuation level of said prescaler circuit so that the attenuated battery voltage signal observed at substantially the initiation of the charging process is approximately equal to but not greater than said first voltage value.

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Abstract

An ultra-quick charging device for charging battery packs for an assortment of different appliances, such as power tools, having a wide range of output voltages. The charging device includes an AC to DC high current power supply circuit and a microcomputer-based controller circuit for monitoring the voltage of the battery and converting from fast charge to trickle charge when the second inflection point in the battery voltage charge curve is detected. In order to permit the device to charge battery packs of different rated voltages, the device includes a logarithmic analog-to-digital converter circuit having a selectable prescaler circuit that attenuates the battery voltage signal. The microcomputer is programmed to automatically set the appropriate attenuation level of the prescaler circuit at the outset of the charging cycle by assuming that the maximum voltage of the battery pack being charged will be less than or equal to 150 percent of its observed battery voltage following the initial settling period of the charge cycle. In this manner the present invention is able to automatically fully charge battery packs ranging in voltage between 3 volts and 24 volts.

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20 Claims

1. A charging device adapted for charging batteries having different voltage ratings, comprising:
- a power supply circuit for providing a source of DC charging current;
  
  a microcomputer-based controller circuit for initiating the charging process and controlling application of said charging current to a battery by monitoring the voltage of the battery to obtain an analog battery voltage signal, including analog-to-digital converter means for converting the analog battery voltage signal to a corresponding digital value and a prescaler circuit having associated therewith a settable attenuation level for attenuating said analog battery voltage signal to within a predetermined voltage range from a first voltage value to a second voltage value approximately equal to 150% of said first voltage value, said microcomputer controller circuit being programmed to set the attenuation level of said prescaler circuit so that the attenuated battery voltage signal observed at substantially the initiation of the charging process is approximately equal to but not greater than said first voltage value.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The charging device of claim 1 wherein an attenuated battery voltage value equal to said second voltage value corresponds to an analog battery voltage signal greater than a maximum voltage attainable by the battery during the charging process.
  - 3. The charging device of claim 2 wherein said analog-to-digital converter means comprises a logarithmic analog-to-digital converter including an RC timing circuit for producing a discharging voltage signal and a comparator for comparing said discharging voltage signal with said attenuated battery voltage signal and producing an output signal when said discharging voltage signal drops just below said attenuated battery voltage signal.
  - 4. The charging device of claim 3 wherein said microcomputer is programmed to time the period from the initiation of said discharging voltage signal to the production of said output signal and correlate said time period to a particular voltage value and then use said particular voltage value to control the charging of the battery.
  - 5. The charging device of claim 4 wherein said prescaler circuit comprises a voltage divider network including a plurality of parallel connected binary weighted resistors and a corresponding plurality of solid-state switching devices each connected in series with one of said plurality of resistors and ground, the state of said switching devices being controlled in accordance with signals received from said microcomputer.
  - 6. The charging device of claim 2 wherein said first voltage value is approximately equal to 3.3 volts and said second voltage value is approximately equal to 5 volts.
  - 7. The charging device of claim 6 wherein said discharging voltage signal produced by said RC timing circuit comprises a logarithmically declining signal that starts at 5 volts.

8. A method of controlling the process of charging a battery having an unknown rated battery voltage within a relatively wide range of rated battery voltages, comprising the steps of:
- applying a relatively high charging current to the battery;
  
  waiting a predetermined settling period for the battery voltage to stabilize;
  
  sensing the battery voltage to obtain a battery voltage signal;
  
  attenuating the battery voltage signal to a predetermined attenuation level at the end of said settling period so that the resulting attenuated battery voltage signal is approximately equal to but not greater than 66 percent of a predetermined maximum attenuated signal level;
  
  maintaining the attenuation level set in the preceding step for the duration of the charging process; and
  
  monitoring the voltage level of the battery by converting said attenuated battery voltage signal to a corresponding digital voltage value and using said digital voltage value to determine an appropriate time to terminate the application of said relatively high charging current.
- View Dependent Claims (9, 10)
- - 9. The method of claim 8 wherein said step of converting said attenuated battery voltage signal to a corresponding digital voltage value includes the steps of charging a capacitor to said predetermined signal level, initiating the discharge of said capacitor at a predetermined discharge rate, timing the period required for the signal level on said capacitor to drop below said attenuated battery voltage signal level, and correlating said time period to a particular digital voltage value.
  - 10. The method of claim 9 further including the step of applying a small maintenance charge current to the battery after the termination of the application of said relatively high charging current.

11. A charging device for charging a chargeable battery, wherein the chargeable battery can have a relatively wide range of differing rated output voltages, said charging device comprising:
- circuit means for applying a relatively high current to the battery, said circuit means including a high voltage section and a low voltage section;
  
  a microcomputer for monitoring the voltage of the battery and controlling the current applied to the battery in accordance therewith; and
  
  a circuit for sensing the battery voltage to obtain a battery voltage signal including a logarithmic analog-to-digital converter, said converter including a voltage attenuation circuit for scaling the battery voltage signal to a specific range of voltages, an RC timing circuit, and a comparator, wherein said voltage attenuation circuit attenuates the battery voltage signal and applies the attenuated battery voltage signal to a first terminal of the comparator and wherein the RC timing circuit initiates a discharge signal that is applied to a second terminal of the comparator, said comparator producing an output signal that is provided to said microcomputer when said discharge signal from said RC timing circuit drops below said attenuated battery voltage signal;
  
  said microcomputer being programmed to correlate to a particular attenuated battery voltage signal the time period from the initiation of said discharge signal to the production of said output signal for controlling the charging period of the battery.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
- - 12. The charging device of claim 11 wherein said voltage attenuation circuit comprises a voltage divider network having a midpoint from which said attenuated battery voltage signal is supplied and solid-state switching means controlled by signals received from said microcomputer for setting the attenuation level of said voltage divider network.
  - 13. The charging device of claim 12 wherein said voltage divider network includes a plurality of parallel connected, binary weighted resistors and said solid-state switching means comprises a corresponding plurality of analog switching devices connected in series with said plurality of resistors between said midpoint and ground.
  - 14. The charging device of claim 12 wherein said microcomputer is programmed to set the attenuation level of said voltage divider network at substantially the beginning of battery charging so that the resulting attenuated battery voltage signal at such time is approximately equal to 66 percent of a predetermined maximum attenuated battery voltage signal value.
  - 15. The charging device of claim 14 wherein said predetermined maximum attenuated battery voltage signal value corresponds to approximately 5 volts.
  - 16. The charging device of claim 14 wherein said microcomputer is programmed to set said attenuation level after the battery output voltage has stabilized.
  - 17. The charging device of claim 15 wherein the RC timing circuit includes a capacitor that is charged to a value of approximately 5 volts and upon a signal from the microcomputer is discharged at a predetermined rate.
  - 18. The charging device of claim 11 wherein said microcomputer is further programmed to provide a small maintenance charge current to the battery after termination of the application of said relatively high current.

19. A method of charging a battery having an unknown rated battery voltage within a relatively wide range of rated battery voltages, comprising the steps of:
- applying a relatively high charging current to the battery; and
  
  monitoring the analog voltage signal from the battery to obtain first and second analog battery voltage signals;
  
  converting said analog voltage signals from the battery to a corresponding first and second digital value using a logarithmic analog-to-digital conversion process that correlates first and second digital values to first and second analog battery voltage signals, respectively,comparing the first and second digital values to detect a difference and using the difference between said first and second digital values as an indication of the percentage difference between said first and second analog battery voltage signals;
  
  using said indication of percentage difference to determine when to terminate application of relatively high charging current to the battery;
  
  initiating the discharge of a capacitor from a predetermined reference voltage, comparing said capacitor discharge signal to at least one of said analog battery voltage signals, timing the period from the initiation of the discharge of said capacitor to a point when said capacitor discharge signal drops just below said analog battery voltage signal, and correlating the timed period to a corresponding digital value;
  
  attenuating at least one of said analog battery voltage signals before converting it to a corresponding digital value; and
  
  attenuating said analog battery voltage signal to within a range between said predetermined reference voltage and 66% of said predetermined reference voltage.

20. A charging device for charging a chargeable battery, wherein the chargeable battery can have a relatively wide range of differing rated output voltages, said charging device comprising:
- circuit means for applying a relatively high current to the battery, said circuit means including a high voltage section and a low voltage section;
  
  a microcomputer for monitoring the voltage of the battery and controlling the current applied to the battery in accordance therewith; and
  
  a logarithmic analog-to-digital converter means for converting said monitored battery voltage signal to a corresponding digital value in accordance with a predetermined logarithmic relationship that correlates the percentage difference between two battery voltage signals to an absolute difference between two respectively digital values;
  
  wherein said logarithmic analog-to-digital converter means includes an RC timing circuit and a comparator, wherein said battery voltage signal is applied to a first terminal of the comparator and wherein said RC timing circuit produces a discharge signal from a predetermined reference voltage level that is applied to a second terminal of the comparator, said comparator producing an output signal that is provided to said microcomputer when said discharge signal from said RC timing circuit drops below said battery voltage signal;
  
  said microcomputer being programmed to correlate to a particular digital value the time period from the initiation of said discharge signal to the production of said output signal for controlling the charging period of the battery;
  
  further including prescaling means for attenuating said battery voltage signal before applying it to said comparator; and
  
  wherein said prescaling means attenuates said battery voltage signal to within a range between said predetermined reference voltage level and 66% of said predetermined reference voltage level.

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Current Assignee
Black & Decker Incorporated (Stanley Black & Decker, Inc.)
Original Assignee
Black & Decker Incorporated (Stanley Black & Decker, Inc.)
Inventors
Brotto, Daniele C., Gilmore, Alan A.
Primary Examiner(s)
Stephan, Steven L.
Assistant Examiner(s)
BERHANE, ADOLF D

Application Number

US07/707,712
Time in Patent Office

1,223 Days
Field of Search

320/20, 320/43, 320/21, 320/39
US Class Current

320/160
CPC Class Codes

H02J 7/00038   using passive battery ident...

H02J 7/00047   with provisions for chargin...

H02J 7/007184   in response to battery volt...

Battery charging system having logarithmic analog-to-digital converter with automatic scaling of analog signal

First Claim

1 Assignment

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Abstract

105 Citations

20 Claims

Specification

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Battery charging system having logarithmic analog-to-digital converter with automatic scaling of analog signal

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

105 Citations

20 Claims

Specification

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Solutions

Use Cases

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