High voltage direct current transmission and distribution system

US 9,673,629 B2
Filed: 01/18/2016
Issued: 06/06/2017
Est. Priority Date: 05/24/2013
Status: Active Grant

First Claim

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1. A direct current to alternating current inverter sub-system for a high voltage direct current distribution system, said direct current to alternating current inverter sub-system comprising:

an enclosure;

a direct current to direct current galvanically isolated buck converter including a direct current input electrically connectable to a high voltage direct current cable and a direct current output, wherein the direct current to direct current galvanically isolated buck converter is structured to provide galvanic isolation between the direct current input and the high voltage direct current cable to avoid ground currents in the high voltage direct current cable; and

a direct current to alternating current voltage source inverter including a direct current input electrically connected to the direct current output of said direct current to direct current galvanically isolated buck converter and an alternating current output electrically connectable to an alternating current transmission line,wherein said direct current to alternating current voltage source inverter is mounted in said enclosure with said direct current to direct current galvanically isolated buck converter, in order that the direct current output of said direct current to direct current galvanically isolated buck converter is directly electrically connected within the enclosure to the direct current input of said direct current to alternating current voltage source inverter.

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Abstract

A direct current to alternating current inverter sub-system is for a HVDC distribution system. The DC to AC inverter sub-system includes an enclosure and a DC to DC galvanically isolated buck converter having a DC input electrically connectable to a HVDC cable and a DC output. A DC to AC inverter includes a DC input electrically connected to the DC output of the DC to DC galvanically isolated buck converter and an AC output electrically connectable to an AC transmission line. The DC to AC inverter is mounted in an enclosure with the DC to DC galvanically isolated buck converter, in order that the DC output of the DC to DC galvanically isolated buck converter is directly electrically connected within the enclosure to the DC input of the DC to AC inverter.

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8 Claims

1. A direct current to alternating current inverter sub-system for a high voltage direct current distribution system, said direct current to alternating current inverter sub-system comprising:
- an enclosure;
  
  a direct current to direct current galvanically isolated buck converter including a direct current input electrically connectable to a high voltage direct current cable and a direct current output, wherein the direct current to direct current galvanically isolated buck converter is structured to provide galvanic isolation between the direct current input and the high voltage direct current cable to avoid ground currents in the high voltage direct current cable; and
  
  a direct current to alternating current voltage source inverter including a direct current input electrically connected to the direct current output of said direct current to direct current galvanically isolated buck converter and an alternating current output electrically connectable to an alternating current transmission line,wherein said direct current to alternating current voltage source inverter is mounted in said enclosure with said direct current to direct current galvanically isolated buck converter, in order that the direct current output of said direct current to direct current galvanically isolated buck converter is directly electrically connected within the enclosure to the direct current input of said direct current to alternating current voltage source inverter.
- View Dependent Claims (2, 3, 4)
- - 2. The direct current to alternating current inverter sub-system of claim 1 wherein said enclosure is compensated for subsea pressure.
  - 3. The direct current to alternating current inverter sub-system of claim 1 wherein said direct current to direct current galvanically isolated buck converter is structured to shut down responsive to a short circuit condition operatively associated with the direct current input of said direct current to alternating current voltage source inverter.
  - 4. The direct current to alternating current inverter sub-system of claim 1 wherein said direct current to direct current galvanically isolated buck converter is structured to reduce a high direct current voltage from the high voltage direct current cable to a medium direct current voltage.

5. A circuit interrupter for a power circuit of a high voltage direct current distribution system, said circuit interrupter comprising:
- a first terminal;
  
  a second terminal;
  
  an electromechanical isolation switch;
  
  a solid-state switch electrically connected in series with said electromechanical isolation switch between said first and second terminals; and
  
  a controller cooperating with said solid-state switch and said electromechanical isolation switch to open, close and trip open said power circuit, said controller being structured to repetitively turn on and turn off said solid-state switch a plurality of times when said electromechanical isolation switch is closed, in order to control charging of said power circuit from zero volts to a high direct current voltage, wherein said controller further comprises a trip mechanism structured to detect a fault downstream of said second terminal responsive to a failure to charge said power circuit, wherein said trip mechanism is structured to apply a predetermined current pulse to said power circuit, detect a corresponding predetermined voltage increase of a voltage of said power circuit, determine whether, within a certain time period, the voltage of said power circuit has decayed, responsive to determining that the voltage of said power circuit has decayed, determining that the fault downstream of said second terminal is present, and responsive to determining that the voltage of said power circuit has not decayed, determining that the fault downstream of said second terminal is not present.
- View Dependent Claims (6, 7, 8)
- - 6. The circuit interrupter of claim 5 wherein when both of said electromechanical isolation switch and said solid-state switch are closed, said second terminal charges said power circuit to or toward the high direct current voltage from said first terminal.
  - 7. The circuit interrupter of claim 6 wherein said controller comprises a modulation element controlling said charging of said power circuit, said modulation element being structured to ramp a duty cycle of said solid-state switch being on from zero to one hundred percent.
  - 8. The circuit interrupter of claim 5 wherein said failure to charge is caused by a short circuit or an insulation failure of a high voltage direct current cable of said power circuit.

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Current Assignee
Eaton Intelligent Power Limited (Eaton Corporation PLC.)
Original Assignee
Eaton Corp. (Wisconsin) (Eaton Corporation PLC.)
Inventors
Nojima, Geraldo, Broussard, Harry
Primary Examiner(s)
Barnie, Rexford
Assistant Examiner(s)
WILLOUGHBY, TERRENCE RONIQUE

Application Number

US14/997,797
Publication Number

US 20160134118A1
Time in Patent Office

505 Days
Field of Search

307 82, 361 42- 55, 363 35
US Class Current
CPC Class Codes

H01H 33/596   for interrupting dc

H01H 9/548   Electromechanical and stati...

H02H 11/005   in case of too low isolatio...

H02J 2003/365   Reducing harmonics or oscil...

H02J 3/36   Arrangements for transfer o...

Y02E 60/60   Arrangements for transfer o...

High voltage direct current transmission and distribution system

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High voltage direct current transmission and distribution system

First Claim

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Abstract

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8 Claims

Specification

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