Battery module voltage detector

US 8,188,750 B2
Filed: 02/02/2010
Issued: 05/29/2012
Est. Priority Date: 11/26/2007
Status: Active Grant

First Claim

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1. A battery module voltage detector that detects a voltage of each of battery modules, wherein each battery module including one cell or more, and M battery modules are connected in series as a battery pack, and “

M”

is a positive integer, the battery module voltage detector comprising;

(M+1) voltage detecting terminals connected to a positive electrode of a battery module having a highest potential, a negative electrode of a battery module having a lowest potential, and (M−

1) connecting points between the battery modules adjacent to each other, respectively;

a filter circuit having input terminals which are connected to the voltage detecting terminals, respectively;

switching circuits having input terminals which are connected to output terminals of the filter circuit, respectively; and

a voltage detecting circuit connected to output terminals of the switching circuit to detect the voltage of each battery module, whereinthe filter circuit includes a resistor-and-capacitor arrangement including resistors that are connected between the input terminals and the output terminals of the filter circuit, respectively, and capacitors that are connected between output terminals of the filter circuit, respectively, to have a characteristic of a low-pass filter, and whereinthe resistor-and-capacitor configuration of the low-pass filter is determined by adjusting a resistance value and position of the resistor in the resistor-and-capacitor arrangement as well as capacitance and position of the capacitor in the resistor-and-capacitor arrangement, so that frequency response is kept constant when the voltage of the plurality of battery modules is detected.

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Abstract

A battery module voltage detector can reduce the difference in frequency response of an anti-aliasing filter for each battery module whose voltage is measured, and provide an accurate voltage measurement. The battery module voltage detector includes a plurality of switches connected to battery modules constituting a battery pack, resistors having an equal resistance value, and a filter composed of capacitors having equal capacitance and being disposed between the battery modules and the switches. The capacitors are divided into a first capacitor group and a second capacitor group which are symmetrical at the center of the battery pack. The first capacitor group is on the positive terminal side of the second battery. The second capacitor is on the negative terminal side of the battery pack. Capacitors may be connected between an output terminal of a (1+M/2)-th resistor and an N-th resistor, except a (1+m/2), the (1+M/2)-th resistor and the N-th resistor.

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12 Claims

1. A battery module voltage detector that detects a voltage of each of battery modules, wherein each battery module including one cell or more, and M battery modules are connected in series as a battery pack, and “
- M”
  
  is a positive integer, the battery module voltage detector comprising;
  
  (M+1) voltage detecting terminals connected to a positive electrode of a battery module having a highest potential, a negative electrode of a battery module having a lowest potential, and (M−
  
  1) connecting points between the battery modules adjacent to each other, respectively;
  
  a filter circuit having input terminals which are connected to the voltage detecting terminals, respectively;
  
  switching circuits having input terminals which are connected to output terminals of the filter circuit, respectively; and
  
  a voltage detecting circuit connected to output terminals of the switching circuit to detect the voltage of each battery module, whereinthe filter circuit includes a resistor-and-capacitor arrangement including resistors that are connected between the input terminals and the output terminals of the filter circuit, respectively, and capacitors that are connected between output terminals of the filter circuit, respectively, to have a characteristic of a low-pass filter, and whereinthe resistor-and-capacitor configuration of the low-pass filter is determined by adjusting a resistance value and position of the resistor in the resistor-and-capacitor arrangement as well as capacitance and position of the capacitor in the resistor-and-capacitor arrangement, so that frequency response is kept constant when the voltage of the plurality of battery modules is detected.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The battery module voltage detector according to claim 1, wherein when “
    - M” and
      
      “
      
      N”
      
      are a positive integer, the resistor-and-capacitor arrangement is made up of (M+1) resistors having an equal resistance value to connect an N-th input terminal of the filter circuit to an N-th output terminal of the filter circuit, and M capacitors whose terminals are connected between the output terminals of two adjacent resistors out of the (M+1) resistors, and wherein when capacitance of the capacitor corresponding to a first battery module is regarded as “
      
      one”
      
      , capacitance ratio of the capacitor corresponding to an N-th battery module is expressed as “
      
      N(M−
      
      N+1)/M”
      
      .
  - 3. The battery module voltage detector according to claim 1, wherein, when the number of battery modules is “
    - M”
      
      being a positive and uneven integer and “
      
      N”
      
      is a positive integer, the resistor-and-capacitor arrangement is made up of (M+1) resistors having an equal resistance value to connect an N-th input terminal of the filter circuit to an N-th output terminal of the filter circuit, and (M+1)/2 capacitors having equal capacitance and connected to the output terminals of N-th and (M+2−
      
      N)-th resistors out of the (M+1) resistors.
  - 4. The battery module voltage detector according to claim 1, wherein when the number of battery modules is “
    - M”
      
      being a positive and even integer and “
      
      N”
      
      is a positive integer, the resistor-and-capacitor arrangement is made up of a resistor having an arbitrary resistance value, including a zero ohm resistor, to connect M/2-th input terminal of the filter circuit to M/2-th output terminal of the filter circuit, M resistors having an equal resistance value to connect an N-th input terminal of the filter circuit to an N-th output terminal of the filter circuit, apart from M/2-th input terminal of the filter circuit, and M/2 capacitors having equal capacitance and connected between the output terminals of N-th and (M+2−
      
      N)-th resistors out of (M+1) resistors.
  - 5. The battery module voltage detector according to claim 3 wherein when “
    - M”
      
      , “
      
      P”
      
      , and “
      
      Q”
      
      are a positive integer, “
      
      P”
      
      is less than half of “
      
      M”
      
      , and “
      
      Q”
      
      is not equal to “
      
      P” and
      
      less half of “
      
      M”
      
      , and wherein a capacitor connected between P-th and (M+2−
      
      P)-th resistors and a capacitor between Q-th and (M+2−
      
      Q)-th resistors are replaced with a capacitor connected between the Q-th and P-th resistors, a capacitor connected between the P-th and (M+2−
      
      Q)-th resistors, a capacitor connected between the Q-th and (M+2−
      
      P)-th resistors, and a capacitor connected between the (M+2−
      
      Q)-th and (M+2−
      
      P)-th resistors, and all the capacitors have approximately equal capacitance.
  - 6. The battery module voltage detector according to claim 4, wherein when “
    - M”
      
      , “
      
      P”
      
      , and “
      
      Q”
      
      are a positive integer, “
      
      P”
      
      is less than half of “
      
      M”
      
      , and “
      
      Q”
      
      is not equal to “
      
      P” and
      
      less half of “
      
      M”
      
      , and wherein a capacitor connected between P-th and (M+2−
      
      P)-th resistors and a capacitor between Q-th and (M+2−
      
      Q)-th resistors are replaced with a capacitor connected between the Q-th and P-th resistors, a capacitor connected between the P-th and (M+2−
      
      Q)-th resistors, a capacitor connected between the Q-th and (M+2−
      
      P)-th resistors, and a capacitor connected between the (M+2−
      
      Q)-th and (M+2−
      
      P)-th resistors, and all the capacitors have approximately equal capacitance.
  - 7. The battery module voltage detector according to claim 1, wherein “
    - M”
      
      is a positive integer, and a resistor connected between M/2-th input terminal of the filter circuit and M/2-th output terminal of the filter circuit is replaced with a wire.
  - 8. The battery module voltage detector according to claim 1, wherein the resistor is provided as a dummy load by a switching capacitor method of providing the capacitor and a plurality of switches.
  - 9. The battery module voltage detector according to claim 1, wherein the switching circuit is an analog multiplexer integrally and separately constituted with the voltage detecting circuit.
  - 10. The battery module voltage detector according to claim 1, wherein the filter circuit includes:
    - (M+1) input terminals connected to the voltage detecting terminals;
      
      (M+1) output terminals that are connected to the voltage detector through the switch circuit;
      
      (M+1) resistors connected between the input terminals and output terminals of the filter circuit, respectively, the resistors having substantially the same resistance except (1+M/2)-th resistor; and
      
      M capacitors connected between an output terminal of a (1+M/2)-th resistor and an N-th resistor, N being one to (M+1) except a (1+M/2), the (1+M/2)-th resistor and the N-th resistor being successively counted from the resistor connected to the positive electrode of the battery module having a highest potential or the negative electrode of a battery module having a lowest potential.
  - 11. The battery module voltage detector according to claim 10, wherein the (1+M/2)-th resistor has a smaller resistance than the other resistors.
  - 12. The battery module voltage detector according to claim 10, wherein the (1+M/2)-th resistor comprises a conductor wire.

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Litigation Campaign Assessment

Current Assignee
Honda Motor Co., Ltd. (Honda Motor Company)
Original Assignee
Honda Motor Co., Ltd. (Honda Motor Company)
Inventors
Ohnuki, Yasumichi
Primary Examiner(s)
Assouad, Patrick
Assistant Examiner(s)
PELTON, NATHANIEL R

Application Number

US12/698,682
Publication Number

US 20100134115A1
Time in Patent Office

847 Days
Field of Search

324/429, 320/116
US Class Current

324/429
CPC Class Codes

B60L 2240/547   Voltage

B60L 58/21   having the same nominal vol...

G01R 19/10   Measuring sum, difference o...

G01R 19/16542   for batteries charge condit...

G01R 31/396   Acquisition or processing o...

H02J 7/0013   acting upon several batteri...

H02J 7/0048   Detection of remaining char...

Y02T 10/70   Energy storage systems for ...

Battery module voltage detector

First Claim

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Abstract

12 Citations

12 Claims

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Battery module voltage detector

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

12 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links