BY-PASS DIODE STRUCTURE FOR STRINGS OF SERIES CONNECTED CELLS OF A PHOTOVOLTAIC PANEL

US 20100002349A1
Filed: 06/24/2009
Published: 01/07/2010
Est. Priority Date: 07/01/2008
Status: Active Grant

First Claim

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1-5. -5. (canceled)

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Abstract

A by-pass circuit includes a first power MOS with an intrinsic diode, a first conduction terminal coupled to a cathode, a second conduction terminal coupled to an anode, and a control terminal. A tank capacitor is coupled to the anode. A second MOS has a first and second conduction terminals, a control terminal, and a turn-on threshold smaller than that of the intrinsic diode, the first conduction terminal thereof coupled to the cathode and the control terminal coupled to the anode, so the first MOS turns on when the array of cells are sub-illuminated. An oscillator and charge pump are supplied through the second conduction terminal of the second MOS to charge the tank capacitor. A control circuit is coupled to the control terminal of the first power MOS to switch it based upon a voltage of the tank capacitor and sign of the voltage between the cathode and anode.

143 Citations

23 Claims

1-5. -5. (canceled)

6. A by-pass circuit for a photovoltaic panel comprising an array of cells having an anode and a cathode, the by-pass circuit comprising:
- a first power MOS transistor including an intrinsic diode and comprising a first conduction terminal to be coupled to the cathode, a second conduction terminal to be coupled to the anode, and a control terminal;
  
  a tank capacitor to be coupled to the anode;
  
  a second MOS transistor comprising a first conduction terminal, a second conduction terminal, a control terminal, and having a turn-on threshold smaller than that of said intrinsic diode of said first power MOS transistor, the first conduction terminal of said second MOS transistor to be coupled to the cathode and the control terminal to be coupled to the anode, so that said first MOS transistor turns on when the array of cells are sub-illuminated or failed;
  
  an oscillator and a charge pump supplied through the second conduction terminal of said second MOS transistor to charge said tank capacitor; and
  
  a control circuit coupled to the control terminal of said first power MOS transistor and configured to switch said first power MOS transistor on based upon a voltage of said tank capacitor and a sign of the voltage between the cathode and the anode.
- View Dependent Claims (7, 8, 9, 10, 11)
- - 7. A by-pass circuit according to claim 6, wherein said control circuit comprises:
    - a comparator circuit configured to compare a voltage of said tank capacitor with a threshold voltage; and
      
      a combinatory logic control circuit configured to control said first power MOS transistor based upon the comparator circuit and the sign of the voltage between the anode and the cathode.
  - 8. A by-pass circuit according to claim 7, wherein said comparator circuit comprises a resistive voltage divider having an intermediate node and to be coupled to the anode and said tank capacitor, and a hysteresis comparator having a first input to be coupled to the intermediate node and a second input to be coupled to the threshold voltage.
  - 9. A by-pass circuit according to claim 7, further comprising a comparator to compare the cathode and the anode;
    - and wherein said combinatory logic circuit comprises an AND gate having first and second inputs, said AND gate to receive an output signal of said hysteresis comparator at the first input and to receive an output signal of said comparator at the second input.
  - 10. A by-pass circuit according to claim 9, wherein said comparator and said combinatory logic control circuit are realized using MOS transistors protected by said second MOS transistor.
  - 11. A by-pass circuit according to claim 6, wherein the by-pass circuit is fully integrated.

12. A by-pass circuit for a photovoltaic panel comprising an array of cells having an anode and a cathode, the by-pass circuit comprising:
- a first power MOS transistor including an intrinsic diode and comprising a first conduction terminal to be coupled to the cathode, a second conduction terminal to be coupled to the anode, and a control terminal;
  
  a tank capacitor to be coupled to the anode;
  
  a second MOS transistor comprising a first conduction terminal, a second conduction terminal, a control terminal, and having a turn-on threshold smaller than that of said intrinsic diode of said first power MOS transistor, the first conduction terminal of said second MOS transistor to be coupled to the cathode and the control terminal of said second MOS transistor to be coupled to the anode so that said second MOS transistor turns on when the array of cells are sub-illuminated or failed;
  
  an oscillator and a charge pump supplied through the second conduction terminal of said second MOS transistor to charge said tank capacitor; and
  
  a control circuit coupled to the control terminal of said first power MOS transistor and configured to switch said first power MOS transistor on based upon a voltage of said tank capacitor and a sign of the voltage between the cathode and the anode;
  
  said control circuit comprisinga comparator circuit configured to compare a voltage of said tank capacitor with a threshold voltage, anda combinatory logic control circuit configured to control said first power MOS transistor based upon the comparator circuit and the sign of the voltage between the anode and the cathode,said comparator circuit comprising a resistive voltage divider having an intermediate node to be coupled to the anode and said tank capacitor, and a hysteresis comparator having a first input to be coupled to the intermediate node and a second input to be coupled to the threshold voltage.
- View Dependent Claims (13, 14)
- - 13. A by-pass circuit according to claim 12, further comprising a comparator to compare the cathode and the anode;
    - and wherein said combinatory logic circuit comprises an AND gate having first and second inputs, said AND gate to receive an output signal of said hysteresis comparator at the first input and to receive an output signal of said comparator at the second input.
  - 14. A by-pass circuit according to claim 12, wherein said comparator and said combinatory logic control circuit are realized using MOS transistors protected by said second MOS transistor.

15. A by-pass circuit for an electronic device having a cathode and an anode, the by-pass circuit comprising:
- a first power MOS transistor including an intrinsic diode and comprising a first conduction terminal to be coupled to the cathode, a second conduction terminal to be coupled to the anode, and a control terminal;
  
  a tank capacitor to be coupled to the anode;
  
  a second MOS transistor comprising a first conduction terminal, a second conduction terminal, a control terminal, and having a turn-on threshold smaller than that of said intrinsic diode of said first power MOS transistor, the first conduction terminal being coupled to the cathode and the control terminal of said second MOS transistor to be coupled to the anode, so that said second MOS transistor turns on when the array of cells are sub-illuminated or failed;
  
  an oscillator and a charge pump supplied through the second conduction terminal of said second MOS transistor to charge said tank capacitor; and
  
  a control circuit coupled to the control terminal of said first power MOS transistor and configured to switch said first power MOS transistor on based upon a voltage of said tank capacitor and a sign of the voltage between the cathode and the anode.
- View Dependent Claims (16, 17, 18, 19)
- - 16. A by-pass circuit according to claim 15, wherein said control circuit comprises:
    - a comparator circuit configured to compare a voltage of said tank capacitor with a threshold voltage; and
      
      a combinatory logic control circuit configured to control said first power MOS transistor based upon the comparator circuit and the sign of the voltage between the anode and the cathode.
  - 17. A by-pass circuit according to claim 16, wherein said comparator circuit comprises a resistive voltage divider having an intermediate node to be coupled to the anode and said tank capacitor, and a hysteresis comparator having a first input to be coupled to the intermediate node and a second input to be coupled to the threshold voltage.
  - 18. A by-pass circuit according to claim 16, further comprising a comparator to compare the cathode and the anode;
    - and wherein said combinatory logic circuit comprises an AND gate having first and second inputs, said AND gate to receive an output signal of said hysteresis comparator at the first input and to receive an output signal of the comparator at the second input.
  - 19. A by-pass circuit according to claim 16, wherein said comparator and said combinatory logic control circuit are realized using MOS transistors protected by said second MOS transistor.

20. A method of making a by-pass circuit for a photovoltaic panel comprising an array of cells having an anode and a cathode, the method comprising:
- coupling a first conduction terminal of a first power MOS transistor including an intrinsic diode to the cathode and coupling a second conduction terminal of the first power MOS transistor to the anode;
  
  coupling a tank capacitor to the anode;
  
  coupling a first conduction terminal of a second MOS transistor having a turn-on threshold smaller than that of the intrinsic diode of the first power MOS transistor to the cathode, and coupling a control terminal of the second MOS transistor to the anode, so that the second MOS transistor turns on when the array of cells are sub-illuminated or failed;
  
  configuring an oscillator and a charge pump to be supplied through the second conduction terminal of the second MOS transistor, and configuring the charge pump to charge the tank capacitor; and
  
  coupling a control circuit to the control terminal of the first power MOS transistor, the control circuit configured to switch the first power MOS on based upon a voltage of the tank capacitor and a sign of the voltage between the cathode and the anode.
- View Dependent Claims (21, 22, 23)
- - 21. A method according to claim 20, wherein the control circuit comprises:
    - a comparator circuit configured to compare a voltage of said tank capacitor with a threshold voltage; and
      
      a combinatory logic control circuit configured to control said first power MOS transistor based upon the comparator circuit and the sign of the voltage between the anode and the cathode.
  - 22. A method according to claim 21, wherein the comparator circuit comprises a resistive voltage divider having an intermediate node and to be coupled to the anode and said tank capacitor, and a hysteresis comparator having a first input to be coupled to the intermediate node and a second input to be coupled to the threshold voltage.
  - 23. A method according to claim 21, further comprising configuring a comparator to compare the cathode and the anode;
    - and wherein the combinatory logic circuit comprises an AND gate having first and second inputs, the AND gate configured to receive an output signal of the hysteresis comparator at the first input and to receive an output signal of the comparator that compares the cathode and the anode at the second input.

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Current Assignee
STMicroelectronics SRL (STMicroelectronics NV)
Original Assignee
STMicroelectronics SRL (STMicroelectronics NV)
Inventors
Pulvirenti, Francesco, La Scala, Amedeo

Granted Patent

US 8,649,141 B2
Time in Patent Office

Days
Field of Search
US Class Current

361/90
CPC Class Codes

H01L 31/02021   for solar cells electrical ...

H01L 31/044   including bypass diodes byp...

H03K 17/063   in field-effect transistor ...

H03K 17/302   in field-effect transistor ...

Y02E 10/50   Photovoltaic [PV] energy

BY-PASS DIODE STRUCTURE FOR STRINGS OF SERIES CONNECTED CELLS OF A PHOTOVOLTAIC PANEL

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

143 Citations

23 Claims

Specification

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BY-PASS DIODE STRUCTURE FOR STRINGS OF SERIES CONNECTED CELLS OF A PHOTOVOLTAIC PANEL

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

143 Citations

23 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links