DC Power system having battery voltage equalizer circuit

US 4,479,083 A
Filed: 09/30/1982
Issued: 10/23/1984
Est. Priority Date: 09/30/1982
Status: Expired due to Term

First Claim

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1. An improved DC power network comprising:

(a) a series connected pair of batteries;

(b) an electrical generator connected across said series pair;

(c) an equalizer circuit for equalizing the voltages of said batteries and comprising a regulated DC/DC converter for converting electrical energy to the voltage of a first one of said batteries from the sum of the voltages of said batteries, said converter having its input connected across said pair of batteries and its output connected to said first battery, the regulator circuit of said converter including a voltage dividing circuit connected across said pair of batteries to provide the regulator with its reference voltage equal to the product of the ratio of the desired voltage of said first battery to the sum of the desired voltages of each of said batteries multiplied by the sum of the actual voltages of said batteries;

(d) a load connectable across said series pair; and

(e) a load connectable across said first battery.

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Abstract

An equalizer circuit is disclosed for permitting two series 12 volt batteries to supply both 24 volts and 12 volts and which maintains the batteries charged to equal voltages. The equalizer circuit is a regulated DC to DC converter with its output connected across the 12 volt battery which is connected to 12 volt loads and its input connected across either the other battery or the 24 volts of the input series pair of batteries. The reference voltage for the regulator is derived from a voltage dividing circuit which is connected across the 24 volt terminals of the two batteries. The voltage dividing circuit provides a reference voltage which is equal to half the voltage across the sum of the voltages of the two battieries.

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15 Claims

1. An improved DC power network comprising:
- (a) a series connected pair of batteries;
  
  (b) an electrical generator connected across said series pair;
  
  (c) an equalizer circuit for equalizing the voltages of said batteries and comprising a regulated DC/DC converter for converting electrical energy to the voltage of a first one of said batteries from the sum of the voltages of said batteries, said converter having its input connected across said pair of batteries and its output connected to said first battery, the regulator circuit of said converter including a voltage dividing circuit connected across said pair of batteries to provide the regulator with its reference voltage equal to the product of the ratio of the desired voltage of said first battery to the sum of the desired voltages of each of said batteries multiplied by the sum of the actual voltages of said batteries;
  
  (d) a load connectable across said series pair; and
  
  (e) a load connectable across said first battery.
- View Dependent Claims (2, 3)
- - 2. A network in accordance with claim 1 wherein said batteries are each 12 volt batteries and said network is a vehicle electrical system.
  - 3. A network in accordance with claim 1 wherein said voltage dividing circuit comprises a pair of resistors connected in series as a voltage divider.

4. An improved DC power network comprising:
- (a) a series connected pair of batteries;
  
  (b) an electrical generator connected across said series pair;
  
  (c) an equalizer circuit for equalizing the voltages of said batteries and comprising a regulated DC/DC converter for converting electrical energy to the voltage of a first one of said batteries from the voltage of the other of said batteries, said converter having its input connected to said other battery and its output connected to said first battery, the regulator circuit of said converter including a voltage dividing circuit connected across said pair of batteries to provide the regulator with its reference voltage equal to the product of the ratio of the desired voltage of said first battery to the sum of the desired voltages of each of said batteries multiplied by the sum of the actual voltages of said batteries;
  
  (d) a load connectable across said series pair; and
  
  (e) a load connectable across said first battery.
- View Dependent Claims (5, 6)
- - 5. A network in accordance with claim 4 wherein said batteries are each 12 volt batteries and said network is a vehicle electrical system.
  - 6. A network in accordance with claim 4 wherein said voltage dividing circuit comprises a pair of resistors connected in series as a voltage divider.

7. An equalizer circuit for equalizing the voltages of a series connected pair of batteries which at times have a load connected across said pair and at times have a load connected across a single one of said pairs, said equalizer comprising:
- a regulated DC/DC converter for converting electrical energy to the voltage of said single one of said batteries from the sum of the voltages of said batteries, said converter having its input connected across said pair of batteries and its output connected to said single one battery, the regulator circuit of said converter including a voltage dividing circuit connected across said pair of batteries to provide the regulator with its reference voltage equal to the product of the ratio of the desired voltage of said single one battery to the sum of the desired voltages of each of said batteries multiplied by the sum of the actual voltages of said batteries.
- View Dependent Claims (8, 9, 10)
- - 8. An equalizer circuit in accordance with claim 7 wherein each of said batteries are 12 v batteries.
  - 9. A equalizer circuit in accordance with claim 7 wherein said voltage dividing circuit comprises a pair of resistors connected in series as a voltage divider.
  - 10. An equalizer circuit in accordance with claim 7 or 8 wherein a current sensing resistor is interposed in series with the equalizer circuit terminal which is connected to the node intermediate the batteries for developing a current sensing voltage proportional to the current from said equalizer to said intermediate node and wherein said regulator is a pulse width modulator type having a modulating input proportional to the sum of the outputs from at least two comparators, one of said comparators having one input connected to sense the output voltages of said converter and its other input connected to said reference voltage, the other comparator having one input connected to said current sensing voltage and the other input connected to a second, current limiting reference voltage.

11. An equalizer circuit for equalizing the voltages of a series connected pair of batteries which at times have a load connected across said pair and at times have a load connected across a single one of said pair, said equalizer comprising:
- a regulated DC/DC converter for converting electrical energy to the voltage of said single one of said batteries from the voltage of the other of said batteries, said converter having its input connected to said other battery and its output connected to said single one battery, the regulator circuit of said converter including a voltage dividing circuit connected across said pair of batteries to provide the regulator with its reference voltage equal to the product of the ratio of the desired voltage of said single one battery to the sum of the desired voltages of each of said batteries multiplied by the sum of the actual voltages of said batteries.
- View Dependent Claims (12, 13, 14)
- - 12. An equalizer circuit in accordance with claim 11 wherein each of said batteries are 12 v batteries.
  - 13. A network in accordance with claim 11 wherein said voltage dividing circuit comprises a pair of resistors connected in series as a voltage divider.
  - 14. An equalizer circuit in accordance with claim 11 or 12 wherein the input and output connections to the node intermediate the batteries are connected to a series, current sensing resistor for developing a current sensing voltage proportional to the current from said equalizer to said intermediate node and wherein said regulator is a pulse width modulator type having modulating input proportional to the sum of the outputs from at least two comparators, one of said comparators having one input connected to sense the output voltage of said converter and its other input connected to said reference voltage, the other comparator having one input connected to said current sensing voltage and the other input connected to a second, current limiting reference voltage.

15. A DC/DC converter circuit of the type including a DC energy source, a DC/DC converter having a pair of input terminals and a pair of output terminals and a load connected across said output terminals, wherein the improvement comprises:
- One terminal of said source connected to a first one of said input terminals of appropriate polarity, the other terminal of said source connected to a first terminal of said load and the second input terminal connected to the second load terminal, all connections being of a polarity so that both input current and output current flows through said load in the same direction.

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Litigation Data

Current Assignee
Vanner, Inc. (Vanner Holdings, Inc.)
Original Assignee
Vanner, Inc. (Vanner Holdings, Inc.)
Inventors
Sullivan, James D.
Primary Examiner(s)
Shoop, William M.
Assistant Examiner(s)
Ault, Anita M.

Application Number

US06/428,579
Time in Patent Office

754 Days
Field of Search

320/6, 320/15, 320/17, 320/18, 320/61, 307/9
US Class Current

320/123
CPC Class Codes

H02J 7/0018   using separate charge circuits

H02J 7/1423   with multiple batteries

H02J 7/342   The other DC source being a...

Y02T 10/70   Energy storage systems for ...

DC Power system having battery voltage equalizer circuit

First Claim

6 Assignments

0 Petitions

Reexamination

Accused Products

Abstract

59 Citations

15 Claims

Specification

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DC Power system having battery voltage equalizer circuit

First Claim

6 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Reexamination

Accused Products

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Abstract

59 Citations

15 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links