Power conditioner for microbial fuel cells

US 8,232,761 B1
Filed: 09/30/2009
Issued: 07/31/2012
Est. Priority Date: 09/30/2009
Status: Expired due to Fees

First Claim

Patent Images

1. An energy conversion and storage system for use with a microbial fuel cell in powering an electrical load wherein the microbial fuel cell produces an output voltage of less than 0.8 VDC, said system comprising:

a first power converter stage electrically connected to the microbial fuel cell, said first power converter stage including a first integrated converter circuit and a first output storage device with said first integrated converter circuit including a power input for operating power of said first integrated converter circuit wherein said first output storage device is electrically connected to said power input of said first integrated converter circuit to provide operating power to said first integrated converter circuit;

means for providing operating power to said first integrated converter circuit to allow said first output storage device sufficient charging to provide operating power for said first integrated converter circuit;

a second power converter stage operably connected to said first output storage device with said second power converter stage including a second integrated converter circuit and a second output storage device;

a first comparator circuit operable for turning ON said second power converter stage when a first output storage device voltage reaches a first predetermined voltage level and for turning OFF said second power converter stage when said first output storage device voltage drops to a second predetermined voltage level which is less than said first predetermined voltage; and

a second comparator circuit operable to connect said second output storage device to said electrical load when a second output storage device voltage reaches a first predetermined load voltage level and for disconnecting said second output storage device from said electrical load when said second output storage device voltage drops to a second predetermined load voltage level which is less than said first predetermined load voltage level.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A two-stage voltage step-up converter and energy storage system is utilized for harvesting trickling electrons from benthic microbe habitats. A relatively random low voltage from the microbial fuel cell (less than about 0.8 VDC) is provided to the first stage step-up converter, which stores power in a first output storage device. A first comparator circuit turns on the second stage step-up converter to transfer energy from the first output storage device to a second output storage device. A second comparator circuit intermittently connects the load to the second output storage device. After initial start-up, the system is self-powered utilizing the first and second output devices but may use a battery for the initial start-up, after which an automatic switch can switch the battery out of the circuit.

Citations

14 Claims

1. An energy conversion and storage system for use with a microbial fuel cell in powering an electrical load wherein the microbial fuel cell produces an output voltage of less than 0.8 VDC, said system comprising:
- a first power converter stage electrically connected to the microbial fuel cell, said first power converter stage including a first integrated converter circuit and a first output storage device with said first integrated converter circuit including a power input for operating power of said first integrated converter circuit wherein said first output storage device is electrically connected to said power input of said first integrated converter circuit to provide operating power to said first integrated converter circuit;
  
  means for providing operating power to said first integrated converter circuit to allow said first output storage device sufficient charging to provide operating power for said first integrated converter circuit;
  
  a second power converter stage operably connected to said first output storage device with said second power converter stage including a second integrated converter circuit and a second output storage device;
  
  a first comparator circuit operable for turning ON said second power converter stage when a first output storage device voltage reaches a first predetermined voltage level and for turning OFF said second power converter stage when said first output storage device voltage drops to a second predetermined voltage level which is less than said first predetermined voltage; and
  
  a second comparator circuit operable to connect said second output storage device to said electrical load when a second output storage device voltage reaches a first predetermined load voltage level and for disconnecting said second output storage device from said electrical load when said second output storage device voltage drops to a second predetermined load voltage level which is less than said first predetermined load voltage level.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The energy conversion and storage system of claim 1 wherein said means for powering said first integrated converter circuit further comprises:
    - a battery; and
      
      a diode “
      
      OR”
      
      ing circuit electrically connected to said power input of said first integrated converter circuit, said battery and said first output storage device with said “
      
      OR”
      
      ing circuit being operable to electrically connect said battery to said power input of said first power converter stage to initially provide operating power for said first integrated converter circuit and with said diode “
      
      OR”
      
      ing circuit being operable to disconnect said battery from said power input of said first integrated converter circuit after said first output storage device is sufficiently charged to power said first integrated converter circuit.
  - 3. The energy conversion and storage system of claim 1 further comprising a current control circuit operable for turning OFF said first integrated converter circuit when a current from the microbial fuel cell is greater than a predetermined current level and turning ON said first integrated converter circuit when the current from the microbial fuel cell is less than the predetermined current level.
  - 4. The energy conversion and storage system of claim 3 wherein the predetermined current level is adjustable.
  - 5. The energy conversion and storage system of claim 1 wherein said second output storage device is electrically connected to a power input of said second integrated converter circuit to provide operating power for said second integrated converter circuit.
  - 6. The energy conversion and storage system of claim 1 wherein said second integrated converter circuit is operable for producing an output hysteresis band for said second output storage device voltage with a cycle time of greater than one day.

7. A method for energy conversion and storage for use with a microbial fuel cell in powering an electrical load wherein the microbial fuel cell produces an output voltage of less than 0.8 VDC, said method comprising the steps of:
- electrically connecting a first power converter stage to the microbial fuel cell;
  
  providing a first output storage device and a first integrated converter circuit for the first power converter stage;
  
  electrically connecting the first output storage device to a power input of the first integrated converter circuit to provide operating power for the first power converter stage;
  
  initially providing operating power for the first integrated converter circuit until the first output storage device is sufficiently charged to provide operating power for the first integrated converter circuit and afterwards providing operating power for the first integrated converter circuit utilizing power from the first output storage device;
  
  providing a second power converter stage which comprises a second output storage device and a second integrated converter circuit;
  
  providing a first comparator circuit for turning ON the second integrated converter circuit when a first output storage device voltage reaches a first predetermined voltage level and for turning OFF the second integrated converter circuit when the first output storage device voltage drops to a second predetermined voltage level which is less than the first predetermined voltage; and
  
  providing a second comparator circuit to connect the second output storage device to the electrical load when a second output storage device voltage reaches a first predetermined load voltage level and for disconnecting the second output storage device from the electrical load when the second output storage device voltage drops to a second predetermined load voltage level which is less than the first predetermined load voltage level.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
- - 8. The method of claim 7 said method further comprising the steps of:
    - utilizing a battery for initially providing operating power for the first integrated converter circuit until the first output storage device is sufficiently charged to provide operating power for the first integrated converter circuit;
      
      electrically connecting a diode “
      
      OR”
      
      ing circuit to the power input of the first power converter, the battery and the first output storage device;
      
      utilizing the diode “
      
      OR”
      
      ing circuit to electrically connect the battery to the power input of the first integrated converter circuit to initially provide operating power for the first integrated converter circuit; and
      
      utilizing the diode “
      
      OR”
      
      ing circuit to disconnect the battery from the power input of the first integrated converter circuit after the first output storage device is sufficiently charged to power the first integrated converter circuit.
  - 9. The method of claim 7 further comprising providing a current control circuit operable for turning OFF the first integrated converter circuit when a current from the microbial fuel cell is greater than a predetermined current level and turning ON the first integrated converter circuit when the current from the microbial fuel cell is less than the predetermined current level.
  - 10. The method of claim 9 further comprising the step of providing that the predetermined current level is adjustable.
  - 11. The method of claim 7 further comprising the step of providing a voltage control circuit for turning OFF the first integrated control circuit when the voltage from the microbial fuel cell is less than a predetermined voltage level and turning ON the first integrated converter circuit when the voltage from the microbial fuel cell is greater than the predetermined voltage level.
  - 12. The method of claim 11 further comprising the step of providing that the predetermined current level is adjustable.
  - 13. The method of claim 7 further comprising electrically connecting the second output storage device to a power input of the second integrated converter circuit to power the second integrated converter circuit.
  - 14. The method of claim 7 further comprising the step of operating the second integrated converter circuit to produce an output hysteresis for the second storage device voltage with a cycle time of greater than one day.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Government of the United States of America
Original Assignee
the united states of america as represented by the secretary of the navy
Inventors
Thivierge, Daniel P., Bandyopadhyay, Promode R.
Primary Examiner(s)
Fantu, Yalkew

Application Number

US12/587,323
Time in Patent Office

1,035 Days
Field of Search

320/101
US Class Current

320/101
CPC Class Codes

H01M 10/44   Methods for charging or dis...

H01M 16/006   of fuel cells with recharge...

H01M 8/00   Fuel cells; Manufacture the...

H01M 8/16   Biochemical fuel cells, i.e...

H02J 1/06   Two-wire systems

H02J 2300/30   The power source being a fu...

Y02E 60/10   Energy storage using batteries

Y02E 60/50   Fuel cells

Y10S 323/906   Solar cell systems

Y10S 429/90   Fuel cell including means f...

Y10S 903/944   Characterized by control of...

Power conditioner for microbial fuel cells

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

Citations

14 Claims

Specification

Solutions

Use Cases

Quick Links

Power conditioner for microbial fuel cells

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

14 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links