Battery monitoring

US 5,844,884 A
Filed: 04/23/1997
Issued: 12/01/1998
Est. Priority Date: 04/25/1996
Status: Expired due to Term

First Claim

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1. A method of estimating a battery voltage course during discharge, wherein battery voltage representing values are registered at a plurality of times, wherein parameters for describing the battery discharge course are determined locally at said times in response to the registered values and the associated times, and wherein the battery voltage is assumed to decrease as a power function with time t from an initial value.

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Abstract

A battery voltage course is estimated during the actual discharge. The battery voltage is registered at a plurality of different times, and parameters for describing the battery discharge course are determined locally for said times in response to the registered values and the associated times. The registered service life is determined on the basis of the battery discharge course, and the remaining service life may e.g. be the remaining standby time of a radio telephone.

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22 Claims

1. A method of estimating a battery voltage course during discharge, wherein battery voltage representing values are registered at a plurality of times, wherein parameters for describing the battery discharge course are determined locally at said times in response to the registered values and the associated times, and wherein the battery voltage is assumed to decrease as a power function with time t from an initial value.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. A method according to claim 1, wherein a time span before the battery voltage has decreased to a predetermined voltage level is determined on the basis of the registered values and the associated times.
  - 3. A method according to claim 1, wherein the battery discharge is assumed to follow the voltage course:
    - space="preserve" listing-type="equation">V.sub.bat =Φ
      
      -ξ
      
      α
      
      .sup.t,
      where Φ
      
      , ξ and
      
      α
      
      are parameters which are constant at constant discharge conditions.
  - 4. A method according to claim 3, wherein the constants Φ
    - , ξ and
      
      α
      
      are determined by iterative solution of three non-linear equations having three unknown quantities;
      space="preserve" listing-type="equation">V(t.sub.0)=Φ
      
      -ξ
      
      α
      
      .sup.t0
      space="preserve" listing-type="equation">V(t.sub.1)=Φ
      
      -ξ
      
      α
      
      .sup.t1
      space="preserve" listing-type="equation">V(t.sub.2)=Φ
      
      -ξ
      
      α
      
      .sup.t2,
      V(t₀), V(t₁) and V(t₂) being the battery voltage at the times t₀, t₁ and t₂.
  - 5. A method according to claim 3, wherein the three parameters Φ
    - , ξ and
      
      α
      
      are used for estimating the duration of a time span before the battery voltage has decreased from its actual value V_bat to a value V_T.
  - 6. A method according to claim 5, wherein the time span t before the battery voltage V_bat (t) has decreased to a value V_T may be expressed by:
    - space="preserve" listing-type="equation">t=ln((Φ
      
      -V.sub.T)/ξ
      
      )/lnα
      
      .

7. A method of estimating a battery voltage course during discharge, wherein battery voltage representing values are registered at a plurality of times, wherein parameters for describing the battery discharge course are determined locally at said times in response to the registered values and the associated times, and wherein the battery voltage course is estimated locally by sensing the battery voltage, V_bat, at least three times positioned at such a great mutual distance that the changes in battery voltage are significant with respect to the uncertainty in the measurement of the voltages.

8. A battery monitoring unit comprising an associated control device, a battery voltage sensor to sense values representing the battery voltage, and a timer enabling the control unit to register times associated with the sensed values, wherein the control unit, on the basis of the sensed values and the associated times, determines parameters for describing the battery discharge course locally for said times in response to the registered values and the associated times, and wherein the control unit assumes that the battery voltage decreases as a power function with time t from an initial value.
- View Dependent Claims (9, 10)
- - 9. A battery monitoring unit according to claim 8, wherein the control unit determines a time span before the battery voltage has decreased to a predetermined voltage level on the basis of the parameters describing the battery discharge course.
  - 10. A battery monitoring unit according to claim 9, wherein the predetermined voltage level is a voltage level V_T, determined by the lowest acceptable battery voltage for the electric appliance with which the battery monitoring device is used.

11. A battery monitoring unit comprising an associated control device, a battery voltage sensor to sense values representing the battery voltage, and a timer enabling the control unit to register times associated with the sensed values, wherein the control unit, on the basis of the sensed values and the associated times, determines parameters for describing the battery discharge course locally for said times in response to the registered values and the associated times, and wherein the battery voltage course is estimated locally by sensing the battery voltage, V_bat, at least three times positioned at such a great mutual distance that the changes in battery voltage are significant with respect to the uncertainty in the measurement of the voltages.

12. A battery monitoring unit comprising an associated control device, a battery voltage sensor to sense values representing the battery voltage, and a timer enabling the control unit to register times associated with the sensed values, wherein the control unit, on the basis of the sensed values and the associated times, determines parameters for describing the battery discharge course locally for said times in response to the registered values and the associated times, and wherein the battery discharge course is assumed to follow the expression:
- space="preserve" listing-type="equation">V.sub.bat =Φ
  
  -ξ
  
  α
  
  .sup.t,
  where Φ
  
  , ξ and
  
  α
  
  are parameters which are constant at constant discharge conditions.

13. A radio telephone having a voltage supply in the form of a battery and comprising a battery monitoring unit with an associated control device, a battery voltage sensor to sense values representing the battery voltage, and a timer enabling the control unit to register times associated with the sensed values, wherein, on the basis of the sensed values and the associated times, the control unit determines parameters for describing the battery discharge course locally for said times in response to the registered values and the associated times, and wherein the control unit assumes that the battery voltage decreases as a power function with time t from an initial value.
- View Dependent Claims (14, 15)
- - 14. A radio telephone according to claim 13, wherein the control unit determines a time span before the battery voltage has decreased to a predetermined voltage level on the basis of the parameters describing the battery discharge course.
  - 15. A radio telephone according to claim 14, wherein the predetermined voltage level is the minimum voltage level V_T which the radio telephone accepts for reliable operation.

16. A radio telephone having a voltage supply in the form of a battery and comprising a battery monitoring unit with an associated control device, a battery voltage sensor to sense values representing the battery voltage, and a timer enabling the control unit to register times associated with the sensed values, wherein, on the basis of the sensed values and the associated times, the control unit determines parameters for describing the battery discharge course locally for said times in response to the registered values and the associated times, wherein the battery is rechargeable and replaceable, and wherein the battery monitoring unit estimates the battery voltage course locally by sensing the battery voltage, V_bat, via the battery voltage sensor at least three times positioned at such a great mutual distance that the changes in battery voltage are significant with respect to the uncertainty in the measurement of the voltages.

17. A radio telephone having a voltage supply in the form of a battery and comprising a battery monitoring unit with an associated control device, a battery voltage sensor to sense values representing the battery voltage, and a timer enabling the control unit to register times associated with the sensed values, wherein, on the basis of the sensed values and the associated times, the control unit determines parameters for describing the battery discharge course locally for said times in response to the registered values and the associated times, and wherein the battery discharge course is assumed to follow the expression:
- space="preserve" listing-type="equation">V.sub.bat =Φ
  
  -ξ
  
  α
  
  .sup.t,
  where Φ
  
  , ξ and
  
  α
  
  are parameters which are constant at constant discharge conditions.

18. A radio telephone having a voltage supply in the form of a battery and comprising a battery monitoring unit with an associated control device, a battery voltage sensor to sense values representing the battery voltage, and a timer enabling the control unit to register times associated with the sensed values, wherein, on the basis of the sensed values and the associated times, the control unit determines parameters for describing the battery discharge course locally for said times in response to the registered values and the associated times, wherein the battery is rechargeable and permanently mounted in the telephone, and wherein the battery monitoring unit estimates the battery voltage course locally by sensing the battery voltage, V_bat, via the battery voltage sensor at times positioned at such a great mutual distance that the charges in battery voltage are significant with respect to the uncertainty in the measurement of the voltages.

19. A radio telephone having a battery and a battery monitoring unit to estimate a battery voltage course by sensing the battery voltage, V_bat, via battery voltage sensor at a plurality of times, an estimating means for calculating a telephone service life measure before the battery voltage has decreased to a predetermined level, said estimating means updating the measure of the remaining service life if the battery voltage sensor registers a change in the voltage course, as well as a display means for displaying the remaining service life, wherein the monitoring unit assumes that the battery voltage decreases as a power function with time t from an initial value.
- View Dependent Claims (20, 21, 22)
- - 20. A radio telephone according to claim 19, wherein the display means is a display for displaying a digital value of the remaining service life.
  - 21. A radio telephone according to claim 20, wherein the display displays the remaining service life in the form of a minute number for the telephone standby time.
  - 22. A radio telephone according to claim 19, wherein the estimating means employs a predetermined correction factor when updating the measure of the remaining service life.

Specification

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Current Assignee
Hanger Solutions, LLC (IP Investments Group LLC)
Original Assignee
Nokia Mobile Phones UK Limited (Nokia Corporation)
Inventors
Szlenski, Marek
Primary Examiner(s)
Nappi, Robert E.
Assistant Examiner(s)
TOATLEY, GREGORY J

Application Number

US08/842,177
Time in Patent Office

587 Days
Field of Search

320/149, 320/136, 320/147, 364/492, 364/483, 324/427, 324/428
US Class Current

320/149
CPC Class Codes

G01R 31/3835 involving only voltage meas...

Battery monitoring

First Claim

7 Assignments

0 Petitions

Accused Products

Abstract

74 Citations

22 Claims

Specification

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Battery monitoring

First Claim

7 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

74 Citations

22 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links