Battery cell voltage monitor and method

US 5,914,606 A
Filed: 10/10/1996
Issued: 06/22/1999
Est. Priority Date: 10/10/1996
Status: Expired due to Term

First Claim

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1. A battery cell voltage monitor suitable for measuring the voltage of any individual cell of a multi-cell battery, comprising:

a plurality of voltage dividers connectable to the anodes of respective battery cells to divide the voltages at said anodes by respective divider ratios to produce respective voltage divided outputs, each of said voltage dividers being referenced to a common reference potential,a switching network connected to switch two of said voltage divided outputs to respective complementary outputs,a switching control circuit for operating said switching network to present a sequence of voltage divided outputs to said complementary outputs representing the cell voltages of a sequence of said cells, the divider ratios of said voltage dividers being closely matched so that said voltage divided outputs represent their respective anode voltages divided by approximately the same ratio, anda differential amplifier connected to said complementary outputs and arranged to produce an output representing the differential voltage between said complementary outputs, said amplifier output referenced to said reference potential, said differential amplifier rejecting a majority of the common mode voltage presented at its inputs, said voltage dividers arranged such that their respective voltage divided outputs are each within the allowable input voltage and common mode voltage range of said differential amplifier over an expected range of battery voltages.

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Abstract

A circuit and method are presented for making differential voltage measurements when one or both measurement points are at voltages that exceed those allowed by a typical differential amplifier, and is particular useful for monitoring the individual cell voltages of a number of series-connected cells that make up a rechargeable battery in which some cell voltages must be measured in the presence of a high common mode voltage. Each measurement point is connected to an input of a respective voltage divider, with all the divider outputs connected to a multiplexer having two outputs. The two multiplexer outputs are connected to a differential amplifier. When the voltage dividers are "closely matched," the output of the differential amplifier is directly proportional to the differential voltage between the pair of points to which the dividers are connected, and the differential voltage between those two points is accurately determined. The voltage dividers divide down the voltage of each measurement point so that each is low enough to be input to a conventional differential amplifier. By selecting the "ratio" of each voltage divider, the circuit can be used to measure differential voltages in the presence of almost any common mode voltage. The invention requires a single differential amplifier powered by a conventional dual power supply.

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21 Claims

1. A battery cell voltage monitor suitable for measuring the voltage of any individual cell of a multi-cell battery, comprising:
- a plurality of voltage dividers connectable to the anodes of respective battery cells to divide the voltages at said anodes by respective divider ratios to produce respective voltage divided outputs, each of said voltage dividers being referenced to a common reference potential,a switching network connected to switch two of said voltage divided outputs to respective complementary outputs,a switching control circuit for operating said switching network to present a sequence of voltage divided outputs to said complementary outputs representing the cell voltages of a sequence of said cells, the divider ratios of said voltage dividers being closely matched so that said voltage divided outputs represent their respective anode voltages divided by approximately the same ratio, anda differential amplifier connected to said complementary outputs and arranged to produce an output representing the differential voltage between said complementary outputs, said amplifier output referenced to said reference potential, said differential amplifier rejecting a majority of the common mode voltage presented at its inputs, said voltage dividers arranged such that their respective voltage divided outputs are each within the allowable input voltage and common mode voltage range of said differential amplifier over an expected range of battery voltages.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 17, 18)
- - 2. The battery cell voltage monitor of claim 1, further comprising a battery comprised of a plurality of series-connected battery cells, each cell having an anode and a cathode and a respective cell voltage across said anode and cathode, said cells producing a battery voltage with respect to said reference potential, wherein said dividers are connected to respective anodes of said cells.
  - 3. The battery cell voltage monitor of claim 2, wherein said battery is a nickel-cadmium battery.
  - 4. The battery cell voltage monitor of claim 2, wherein said battery is a nickel-hydrogen battery.
  - 5. The battery cell voltage monitor of claim 2, wherein said battery has a maximum voltage of about 96 volts.
  - 6. The battery cell voltage monitor of claim 2, wherein each cell has a maximum voltage of about 1.6 volts.
  - 7. The battery cell voltage monitor of claim 6, wherein said differential amplifier produces an output such that the voltage of a cell being measured is determined with an error of about 2 percent or less.
  - 8. The battery cell voltage monitor of claim 1, wherein said each of said ratios is between about 1/5 and 1/20.
  - 9. The battery cell voltage monitor of claim 1, wherein said ratios are matched within ±
    - 100 parts per million.
  - 10. The battery cell voltage monitor of claim 1, wherein said dividers are comprised of precision resistors.
  - 11. The battery cell voltage monitor of claim 10, wherein each divider comprises two precision resistors that are packaged together in a single housing.
  - 12. The battery cell voltage monitor of claim 1, wherein each divider has a temperature coefficient of resistance of about ±
    - 2 ppm/degree C.
  - 13. The battery cell voltage monitor of claim 1, further comprising a single dual-output power supply, with no other supply voltages needed.
  - 17. The differential measurement circuit of claim 13, further comprising a differential amplifier having inputs connectable to two voltage divided outputs, for measuring the cell voltage of an individual battery cell.
  - 18. The differential measurement circuit of claim 13, further comprising a switch between said reference potential and one input of said differential amplifier.

14. A differential voltage measurement circuit for measuring the differential voltage of one or more pairs of measurement points, comprising:
- a plurality of voltage dividers connectable to a plurality of respective measurement points, each of said voltage dividers having respective divider ratios and referenced to a common reference potential, said dividers dividing the voltages at respective ones of said measurement points by respective divider ratios to produce respective voltage divided outputs, wherein the differential voltage measured between two voltage divided outputs is directly proportional to the differential voltage between their respective measurement points, said voltage dividers arranged such that their respective voltage divided outputs are each within the allowable input voltage and common mode voltage range of a differential amplifier over an expected range of battery voltages, anda switching network connected to said dividers for selecting two measurement points to be presented for differential voltage measurement via said dividers,the divider ratios of said voltage dividers being closely matched so that said voltage divided outputs represent their respective measurement point voltages divided by approximately the same ratio.
- View Dependent Claims (15, 16)
- - 15. The differential measurement circuit of claim 14, further comprising a differential amplifier having inputs connectable to two voltage divided outputs, for measuring the differential voltage between said voltage divided outputs.
  - 16. The differential measurement circuit of claim 14, further comprising a battery comprised of a plurality of series-connected battery cells with the cathode of a first cell connected to said reference potential, wherein said measurement points are the anodes of respective battery cells.

19. A method of measuring the differential voltage across a plurality of pairs of measurement points in which the voltage of some points are outside the allowable input range of a conventional differential amplifier, comprising the steps of:
- dividing down the voltage of each measurement point such that the ratio of the divided down voltage to its respective measurement point voltage is substantially equal for each measurement point, so that the resulting divided down voltages are each within the allowable input range of a conventional differential amplifier, said dividing down performed with voltage dividers which are each referenced to a common reference potential,multiplexing the divided down voltages to produce two outputs that are selectively connected to the divided down voltages of a respective pair of measurement points,measuring the differential voltage across said outputs, andmultiplying the differential voltage measured across said divider outputs by the inverse of said ratio, producing a product that is about equal to the differential voltage between said respective measurement points.
- View Dependent Claims (20, 21)
- - 20. The method of claim 19, wherein said dividing down is accomplished with precision voltage dividers, wherein the ratios of each of said dividers are matched to within ±
    - 100 parts per million.
  - 21. The method of claim 19, wherein said pairs of measurement points are across individual cells in which said cells are series-connected to form a battery.

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Current Assignee
Hughes Electronics Corporation (Rtx Corporation)
Original Assignee
Hughes Electronics Corporation (Rtx Corporation)
Inventors
Becker-Irvin, Craig H.
Primary Examiner(s)
REGAN, MAURA K

Application Number

US08/728,221
Time in Patent Office

985 Days
Field of Search

324/434, 324/433, 324/427, 324/429, 324/663, 340/636, 320/116
US Class Current

324/434
CPC Class Codes

G01R 15/04   Voltage dividers

G01R 19/16542   for batteries charge condit...

G01R 31/396   Acquisition or processing o...

H02J 7/0019   using switched or multiplex...

Battery cell voltage monitor and method

First Claim

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Abstract

70 Citations

21 Claims

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Battery cell voltage monitor and method

First Claim

2 Assignments

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0 Petitions

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Abstract

70 Citations

21 Claims

Specification

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Use Cases

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Others