This patent describes improvements to capacitor design for high current applications. It discloses a capacitor that includes an expandable part on the housing. When a fault occurs inside the housing, the expandable part expands and causes the housing to extend in length and contact an external interrupter. The external interrupter includes an electrode and sensing circuit. The sensing circuit detects contact between the housing and electrode, and sends a signal to disconnect the capacitor from the external circuit. This design allows for fault detection without an internal fault interrupter, making the capacitor simpler and less costly to manufacture.
This document describes patent GB784849 (A) which relates to improvements in electrical measuring instruments. Specifically, it describes an instrument that functions as a ratio meter and includes a rotatable permanent magnet, electromagnetic damping chamber enclosing the magnet, and two sets of coils at right angles to each other. One set of coils acts as deflection coils, while the other set acts as ratio coils to return the magnet to its zero position after deflection. The damping chamber supports the coils and includes positioning features that locate it precisely within a non-magnetic sleeve, which then acts as the main support structure for the instrument components.
This document summarizes a patent application for improvements in arc welding. Specifically, it describes a method and apparatus for arc welding that uses two or more continuous electrode wires fed simultaneously at a constant rate. The electrode wires have differing electric welding currents applied, such as differing magnitudes of DC current, or differing phases/frequencies/magnitudes of AC current. The apparatus is a welding head that feeds each electrode wire individually at a constant rate while keeping them insulated from each other and the head. This allows the advantages of self-adjusting arc lengths to be combined for more effective welding.
The document describes several embodiments of a spark-cutting apparatus that uses capacitors and circuitry to eliminate direct current flow from a power source to a spark gap. This prevents excessive electrode erosion. The apparatus uses two capacitors connected in series to block direct current flow. Alternate embodiments use an alternating current source to charge the capacitors and include additional components like inductors, transformers, and switches to control the timing and frequency of spark discharges.
This document describes transistor mixing circuits for combining two electric oscillations. It discloses a circuit using a transistor with at least one emitter electrode, two base electrodes, and a collector electrode. A first source of oscillations is connected between the emitter and one or both base electrodes. A second source is coupled to an input circuit including one of the base electrodes. The circuit proportions ensure the sources are decoupled from each other's oscillations, while the modulation products pass through. Figures 1-4 illustrate example circuits including a push-pull modulator and point-contact transistor configurations. Characteristics are also shown to explain the circuit operation.
This document describes patent GB785799 (A) filed in 1957 regarding improvements to electric gas discharge tube counting or distributing circuits. It involves a circuit with two input leads and two control devices connected to the leads. A plurality of gas discharge tubes are connected in a cascade chain, with adjacent tubes associated with different signal carrying leads and control devices. The control devices respond to electric signals on the input leads to apply voltage signals down the signal carrying leads in a way that renders each gas tube in the chain conducting sequentially. This allows the circuit to count or distribute the electric signals applied to the input leads.
This patent document describes an electric circuit that includes transistors and a composite load impedance. The composite load impedance includes two parallel branch circuits - one with a resistor and battery in series, and the other with a rectifier unit and battery in series. This composite load impedance allows the circuit to have at least two different load impedance values, influencing the "fall time" of the transistor and its input variational impedance in different operating ranges.
This chapter discusses descriptive statistics and different types of variables. It covers measures of central tendency like means, medians, and modes to describe averages, and measures of spread like ranges and standard deviations to describe variability. Different types of graphs like histograms and bar charts are used to display distributions of numeric and categorical variables. The chapter emphasizes using simple and transparent statistics to clearly present results and avoiding incorrect use of complex analyses.
This document describes patent GB784849 (A) which relates to improvements in electrical measuring instruments. Specifically, it describes an instrument that functions as a ratio meter and includes a rotatable permanent magnet, electromagnetic damping chamber enclosing the magnet, and two sets of coils at right angles to each other. One set of coils acts as deflection coils, while the other set acts as ratio coils to return the magnet to its zero position after deflection. The damping chamber supports the coils and includes positioning features that locate it precisely within a non-magnetic sleeve, which then acts as the main support structure for the instrument components.
This document summarizes a patent application for improvements in arc welding. Specifically, it describes a method and apparatus for arc welding that uses two or more continuous electrode wires fed simultaneously at a constant rate. The electrode wires have differing electric welding currents applied, such as differing magnitudes of DC current, or differing phases/frequencies/magnitudes of AC current. The apparatus is a welding head that feeds each electrode wire individually at a constant rate while keeping them insulated from each other and the head. This allows the advantages of self-adjusting arc lengths to be combined for more effective welding.
The document describes several embodiments of a spark-cutting apparatus that uses capacitors and circuitry to eliminate direct current flow from a power source to a spark gap. This prevents excessive electrode erosion. The apparatus uses two capacitors connected in series to block direct current flow. Alternate embodiments use an alternating current source to charge the capacitors and include additional components like inductors, transformers, and switches to control the timing and frequency of spark discharges.
This document describes transistor mixing circuits for combining two electric oscillations. It discloses a circuit using a transistor with at least one emitter electrode, two base electrodes, and a collector electrode. A first source of oscillations is connected between the emitter and one or both base electrodes. A second source is coupled to an input circuit including one of the base electrodes. The circuit proportions ensure the sources are decoupled from each other's oscillations, while the modulation products pass through. Figures 1-4 illustrate example circuits including a push-pull modulator and point-contact transistor configurations. Characteristics are also shown to explain the circuit operation.
This document describes patent GB785799 (A) filed in 1957 regarding improvements to electric gas discharge tube counting or distributing circuits. It involves a circuit with two input leads and two control devices connected to the leads. A plurality of gas discharge tubes are connected in a cascade chain, with adjacent tubes associated with different signal carrying leads and control devices. The control devices respond to electric signals on the input leads to apply voltage signals down the signal carrying leads in a way that renders each gas tube in the chain conducting sequentially. This allows the circuit to count or distribute the electric signals applied to the input leads.
This patent document describes an electric circuit that includes transistors and a composite load impedance. The composite load impedance includes two parallel branch circuits - one with a resistor and battery in series, and the other with a rectifier unit and battery in series. This composite load impedance allows the circuit to have at least two different load impedance values, influencing the "fall time" of the transistor and its input variational impedance in different operating ranges.
This chapter discusses descriptive statistics and different types of variables. It covers measures of central tendency like means, medians, and modes to describe averages, and measures of spread like ranges and standard deviations to describe variability. Different types of graphs like histograms and bar charts are used to display distributions of numeric and categorical variables. The chapter emphasizes using simple and transparent statistics to clearly present results and avoiding incorrect use of complex analyses.
The patent describes a capacitor with an expandable part that is designed to contact an external interrupter in the event of a fault. The expandable part is located on the capacitor housing and expands to increase the length of the housing when a fault occurs inside. This allows the housing to contact an external electrode connected to an external sensing circuit. The external sensing circuit then detects the contact and sends a signal to disconnect the capacitor from its power supply. The design provides overpressure protection for high current capacitors without requiring internal fault interrupters.
73 keith f. mello - 6796854 - automatic electrical wedge connectorMello_Patent_Registry
This patent is for an automatic electrical wedge connector. It describes a connector comprising a shell and a wedge. The shell defines a wedge receiving passage, and the wedge is shaped to wedge into the passage to hold a conductor. The shell has first and second portions with different flexure stiffnesses, generating different clamping forces on the wedge. This allows the connector to securely hold conductors of varying sizes using the same connector.
1) The document describes an electric measuring and testing apparatus that uses a capacitance cell to measure the dielectric constant of insulating fluids.
2) The capacitance cell contains an electrode structure made of parallel metal plates that rotate, with insulating spiders separating the plates. Fluid is drawn into gaps between the plates during rotation and ejected centrifugally.
3) The rotating electrode structure is mounted within a fluid-tight compartment of the capacitance cell, which allows fluid to be supplied and withdrawn while measurements are taken.
This document describes a patent for improvements to machines that machine conducting materials using electric discharges. It discusses issues with prior art machines, such as frequent short circuits that can damage the machined surface. The invention aims to reduce the frequency of short circuits and eliminate their harmful effects by using an induction coil in the charging circuit. The induction coil is tuned so that its half oscillation period matches the period between discharges, allowing discharges to occur at near-zero charging current to avoid short circuit issues.
This document describes a patent for improvements to machines that machine conducting materials using electric discharges. It discusses challenges with existing machines, such as frequent short circuits that can damage the machined surface. The invention aims to reduce the frequency of short circuits and eliminate their harmful effects by using an induction coil in the charging circuit. The induction coil is tuned so that its half oscillation period matches the period between discharges, allowing discharges to occur for near-zero charging current and avoiding problems from short circuits.
The E-Stree Power Generating System us a most intriguing over unity power generating project. the E-Stress system is extremely versatile relatively easy to construct and readily upgradeable. The Golden key or Golden mean is the principle which allows this device to draw power directly from the e-fields relative vacuum energy density using the induction-less coils. The uniqueness of this design becomes evident in the figures shown. What makes this dual induction less coil so special is that is nullifies the effects of the electrostatic induction at a fraction of the power required to systain the charge displacement that creates the affecting e-field. In conventional electronic circuits, coils and capacitors are generally kept away from each other but in this circuit the interaction is the key to success !!
This document summarizes a patent for an electromagnetic motor used to drive cutting members in razors, shears, and clippers. It describes the motor as having few moving parts and providing a smooth, noiseless operation at a satisfactory speed. The motor comprises an electromagnet and armature that provides reciprocating motion to the cutting member with only those two components.
This document describes a machine for electric machining of conductive materials. It uses a servo-mechanism to control the distance between an electrode tool and the workpiece. The improved servo-mechanism uses an electromagnetic device tapped into the average voltage between the electrode and workpiece. This controls a hydraulic distributor and hydraulic system to shift the electrode position in response to changes in the voltage gap. It allows for very precise and rapid control of the electrode distance during machining.
This document summarizes a patent for an improved machine for electric machining of conductive materials. The machine uses spark discharges from a condenser to remove small amounts of material from a workpiece. To maintain a precise gap between the electrode and workpiece, the machine includes a servo-mechanism that uses an electromagnetic device subjected to the average voltage between them. This electromagnetic device actuates a hydraulic distributor controlling a hydraulic system that shifts the electrode position in response to changes in the voltage gap.
This document describes a high voltage tube socket with an improved means of mounting a corona ring. The tube socket has contact pin receptacles within recesses and solder lugs extending from one side. A corona ring is supported by a single leg portion mounted in a further recess. This allows the corona ring to be easily assembled to the socket with minimal operations to prevent arcing at high voltages.
This document describes an electrical connection apparatus for connecting a thin conductive layer on a printed circuit board to external contacts. It involves a first member with an insulating material and thin conductive layer having an aperture, and a second member with a resilient conductive lug that passes through the aperture to contact the conductive layer. The lug is inserted in a direction along its major axis so that its minor axis passes through the aperture and temporarily deforms it, allowing the lug to contact both sides of the aperture near the ends of the minor axis. This provides an improved connection to thin conductive layers, useful for applications like printed circuits and switches.
This document describes an electrical connection apparatus for connecting a thin conductive layer on a printed circuit board to external contacts. It involves a first member with an insulating material and thin conductive layer having an aperture, and a second member with a resilient conductive lug that passes through the aperture to contact the conductive layer. The lug is inserted in a direction along its major axis so that its minor axis passes through the aperture and temporarily deforms it, allowing the lug to contact both sides of the aperture near the ends of the minor axis. This provides an improved connection to thin conductive layers, useful for applications like printed circuits and switches.
This document summarizes a patent for improvements to travelling-wave electron tubes. It describes a travelling-wave electron tube that includes a slow-wave transmission line to propagate electromagnetic waves. The tube has a continuous cathode or spaced cathodes along the line to produce an electron stream interacting with the wave energy. A locking signal of a predetermined frequency is also propagated to lock the tube frequency to the locking signal frequency. Figures 1-4 illustrate different anode structures, and Figures 5-8 show circuits using the structures.
This document provides an overview of components and equipment in an electric substation, including:
1. It describes the basic components and layout of a substation, including bus bars, isolators, protective relays, circuit breakers, power transformers, and other equipment.
2. It provides details on the specific configuration of the 220KV G.S.S. Sanganer substation, including its outdoor design, one and half breaker scheme, incoming and outgoing feeders.
3. It explains protective relays, including how they detect faults on transmission lines and signal circuit breakers to isolate faulty elements from the system.
This document provides an overview of components and equipment in an electric substation, including:
1. It describes the basic components and layout of a substation, including bus bars, isolators, protective relays, circuit breakers, power transformers, and other equipment.
2. It provides details on the specific configuration of the 220KV G.S.S. Sanganer substation, including its outdoor design, one and half breaker scheme, incoming and outgoing feeders.
3. It explains protective relays, their purpose in detecting faults on transmission lines and initiating circuit breaker operation to isolate faulty elements from the system.
This document provides an overview of components in an electric substation, including:
- Bus bars that connect multiple feeders operating at the same voltage. Double bus bar arrangements allow maintenance while maintaining power flow.
- Isolators that disconnect equipment for repairs without danger. Different types include those with and without earth blades.
- Protective relays that detect faults by measuring electrical quantities and trigger circuit breakers to isolate faulty elements to protect the system.
- Additional sections cover circuit breakers, power transformers, current transformers, capacitive voltage transformers, transformer oil testing, lightning arrestors and other substation components.
This patent describes an atmospheric static electricity collector that uses a balloon tethered by a conductive line. An antenna attached to the balloon collects static electricity from the atmosphere using conductive rods. The collected electricity is conducted down the tether to a base unit on the ground. A controller monitors the electrical flow and uses a winch motor to control the tether length and balloon altitude to maintain the electrical flow within a preset range. The collected static electricity can then be provided to electrical loads on the ground.
Capacitors store electric charge and are made of two conducting plates separated by an insulating material. They have many applications including in electronics like cameras and power surge protectors. The amount of charge a capacitor can store is proportional to the voltage across its plates and depends on factors like the plate area, distance between plates, and the insulating material. Capacitors can be connected in series or parallel in circuits. In series, the capacitance is the reciprocal of the sum of the reciprocals of the individual capacitances. In parallel, the total capacitance is the sum of the individual capacitances.
134 mark s. thompson - 8449349 - elevator load bearing member having a jack...Mello_Patent_Registry
Mark S. Thompson, William A. Veronesi, John Pitts, Ary O. Mello, Hugh J. O'Donnell, John P. Wesson, William C. Perron, Douglas E. Logan, Kathryn Rauss Sherrick, Richard Phillips, Peter Schreiner, Pierangelo Jotti - Elevator Load Bearing Member Having a Jacket with at Least One Rough Exterior Surface
133 stephanie mello - 8439759 - system and method of facilitating external ...Mello_Patent_Registry
Stephanie Mello, Deepak Polamarasetty, Wendy Yu - System and Method of Facilitating External Notifications for Events that Occur in a Plurality of Different Virtual Spaces
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The patent describes a capacitor with an expandable part that is designed to contact an external interrupter in the event of a fault. The expandable part is located on the capacitor housing and expands to increase the length of the housing when a fault occurs inside. This allows the housing to contact an external electrode connected to an external sensing circuit. The external sensing circuit then detects the contact and sends a signal to disconnect the capacitor from its power supply. The design provides overpressure protection for high current capacitors without requiring internal fault interrupters.
73 keith f. mello - 6796854 - automatic electrical wedge connectorMello_Patent_Registry
This patent is for an automatic electrical wedge connector. It describes a connector comprising a shell and a wedge. The shell defines a wedge receiving passage, and the wedge is shaped to wedge into the passage to hold a conductor. The shell has first and second portions with different flexure stiffnesses, generating different clamping forces on the wedge. This allows the connector to securely hold conductors of varying sizes using the same connector.
1) The document describes an electric measuring and testing apparatus that uses a capacitance cell to measure the dielectric constant of insulating fluids.
2) The capacitance cell contains an electrode structure made of parallel metal plates that rotate, with insulating spiders separating the plates. Fluid is drawn into gaps between the plates during rotation and ejected centrifugally.
3) The rotating electrode structure is mounted within a fluid-tight compartment of the capacitance cell, which allows fluid to be supplied and withdrawn while measurements are taken.
This document describes a patent for improvements to machines that machine conducting materials using electric discharges. It discusses issues with prior art machines, such as frequent short circuits that can damage the machined surface. The invention aims to reduce the frequency of short circuits and eliminate their harmful effects by using an induction coil in the charging circuit. The induction coil is tuned so that its half oscillation period matches the period between discharges, allowing discharges to occur at near-zero charging current to avoid short circuit issues.
This document describes a patent for improvements to machines that machine conducting materials using electric discharges. It discusses challenges with existing machines, such as frequent short circuits that can damage the machined surface. The invention aims to reduce the frequency of short circuits and eliminate their harmful effects by using an induction coil in the charging circuit. The induction coil is tuned so that its half oscillation period matches the period between discharges, allowing discharges to occur for near-zero charging current and avoiding problems from short circuits.
The E-Stree Power Generating System us a most intriguing over unity power generating project. the E-Stress system is extremely versatile relatively easy to construct and readily upgradeable. The Golden key or Golden mean is the principle which allows this device to draw power directly from the e-fields relative vacuum energy density using the induction-less coils. The uniqueness of this design becomes evident in the figures shown. What makes this dual induction less coil so special is that is nullifies the effects of the electrostatic induction at a fraction of the power required to systain the charge displacement that creates the affecting e-field. In conventional electronic circuits, coils and capacitors are generally kept away from each other but in this circuit the interaction is the key to success !!
This document summarizes a patent for an electromagnetic motor used to drive cutting members in razors, shears, and clippers. It describes the motor as having few moving parts and providing a smooth, noiseless operation at a satisfactory speed. The motor comprises an electromagnet and armature that provides reciprocating motion to the cutting member with only those two components.
This document describes a machine for electric machining of conductive materials. It uses a servo-mechanism to control the distance between an electrode tool and the workpiece. The improved servo-mechanism uses an electromagnetic device tapped into the average voltage between the electrode and workpiece. This controls a hydraulic distributor and hydraulic system to shift the electrode position in response to changes in the voltage gap. It allows for very precise and rapid control of the electrode distance during machining.
This document summarizes a patent for an improved machine for electric machining of conductive materials. The machine uses spark discharges from a condenser to remove small amounts of material from a workpiece. To maintain a precise gap between the electrode and workpiece, the machine includes a servo-mechanism that uses an electromagnetic device subjected to the average voltage between them. This electromagnetic device actuates a hydraulic distributor controlling a hydraulic system that shifts the electrode position in response to changes in the voltage gap.
This document describes a high voltage tube socket with an improved means of mounting a corona ring. The tube socket has contact pin receptacles within recesses and solder lugs extending from one side. A corona ring is supported by a single leg portion mounted in a further recess. This allows the corona ring to be easily assembled to the socket with minimal operations to prevent arcing at high voltages.
This document describes an electrical connection apparatus for connecting a thin conductive layer on a printed circuit board to external contacts. It involves a first member with an insulating material and thin conductive layer having an aperture, and a second member with a resilient conductive lug that passes through the aperture to contact the conductive layer. The lug is inserted in a direction along its major axis so that its minor axis passes through the aperture and temporarily deforms it, allowing the lug to contact both sides of the aperture near the ends of the minor axis. This provides an improved connection to thin conductive layers, useful for applications like printed circuits and switches.
This document describes an electrical connection apparatus for connecting a thin conductive layer on a printed circuit board to external contacts. It involves a first member with an insulating material and thin conductive layer having an aperture, and a second member with a resilient conductive lug that passes through the aperture to contact the conductive layer. The lug is inserted in a direction along its major axis so that its minor axis passes through the aperture and temporarily deforms it, allowing the lug to contact both sides of the aperture near the ends of the minor axis. This provides an improved connection to thin conductive layers, useful for applications like printed circuits and switches.
This document summarizes a patent for improvements to travelling-wave electron tubes. It describes a travelling-wave electron tube that includes a slow-wave transmission line to propagate electromagnetic waves. The tube has a continuous cathode or spaced cathodes along the line to produce an electron stream interacting with the wave energy. A locking signal of a predetermined frequency is also propagated to lock the tube frequency to the locking signal frequency. Figures 1-4 illustrate different anode structures, and Figures 5-8 show circuits using the structures.
This document provides an overview of components and equipment in an electric substation, including:
1. It describes the basic components and layout of a substation, including bus bars, isolators, protective relays, circuit breakers, power transformers, and other equipment.
2. It provides details on the specific configuration of the 220KV G.S.S. Sanganer substation, including its outdoor design, one and half breaker scheme, incoming and outgoing feeders.
3. It explains protective relays, including how they detect faults on transmission lines and signal circuit breakers to isolate faulty elements from the system.
This document provides an overview of components and equipment in an electric substation, including:
1. It describes the basic components and layout of a substation, including bus bars, isolators, protective relays, circuit breakers, power transformers, and other equipment.
2. It provides details on the specific configuration of the 220KV G.S.S. Sanganer substation, including its outdoor design, one and half breaker scheme, incoming and outgoing feeders.
3. It explains protective relays, their purpose in detecting faults on transmission lines and initiating circuit breaker operation to isolate faulty elements from the system.
This document provides an overview of components in an electric substation, including:
- Bus bars that connect multiple feeders operating at the same voltage. Double bus bar arrangements allow maintenance while maintaining power flow.
- Isolators that disconnect equipment for repairs without danger. Different types include those with and without earth blades.
- Protective relays that detect faults by measuring electrical quantities and trigger circuit breakers to isolate faulty elements to protect the system.
- Additional sections cover circuit breakers, power transformers, current transformers, capacitive voltage transformers, transformer oil testing, lightning arrestors and other substation components.
This patent describes an atmospheric static electricity collector that uses a balloon tethered by a conductive line. An antenna attached to the balloon collects static electricity from the atmosphere using conductive rods. The collected electricity is conducted down the tether to a base unit on the ground. A controller monitors the electrical flow and uses a winch motor to control the tether length and balloon altitude to maintain the electrical flow within a preset range. The collected static electricity can then be provided to electrical loads on the ground.
Capacitors store electric charge and are made of two conducting plates separated by an insulating material. They have many applications including in electronics like cameras and power surge protectors. The amount of charge a capacitor can store is proportional to the voltage across its plates and depends on factors like the plate area, distance between plates, and the insulating material. Capacitors can be connected in series or parallel in circuits. In series, the capacitance is the reciprocal of the sum of the reciprocals of the individual capacitances. In parallel, the total capacitance is the sum of the individual capacitances.
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134 mark s. thompson - 8449349 - elevator load bearing member having a jack...Mello_Patent_Registry
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Folding is a recent technique for building efficient recursive SNARKs. Several elegant folding protocols have been proposed, such as Nova, Supernova, Hypernova, Protostar, and others. However, all of them rely on an additively homomorphic commitment scheme based on discrete log, and are therefore not post-quantum secure. In this work we present LatticeFold, the first lattice-based folding protocol based on the Module SIS problem. This folding protocol naturally leads to an efficient recursive lattice-based SNARK and an efficient PCD scheme. LatticeFold supports folding low-degree relations, such as R1CS, as well as high-degree relations, such as CCS. The key challenge is to construct a secure folding protocol that works with the Ajtai commitment scheme. The difficulty, is ensuring that extracted witnesses are low norm through many rounds of folding. We present a novel technique using the sumcheck protocol to ensure that extracted witnesses are always low norm no matter how many rounds of folding are used. Our evaluation of the final proof system suggests that it is as performant as Hypernova, while providing post-quantum security.
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5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
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Nordic Marketo Engage User Group_June 13_ 2024.pptx
83 edward m. lobo - 6930874 - high current capacitors
1. (12) United States Patent
Lobo et al.
(54) HIGH CURRENT CAPACITORS
(75) Inventors: Edward M. Lobo, Seymour, CT (US);
Francis Mello, Acushnet, MA (US)
(73) Assignee: Parallax Power Components, LLC,
Bridgeport, CT (US)
( *) Notice: Subject to any disclaimer, the term of this
patent is extended or adjusted under 35
U.S.C. 154(b) by 0 days.
(21) Appl. No.: 10/959,103
(22) Filed:
(65)
Oct. 7, 2004
Prior Publication Data
US 2005/0047058 A1 Mar. 3, 2005
Related U.S. Application Data
(63) Continuation of application No. 10/392,847, filed on Mar.
21, 2003, now Pat. No. 6,819,545.
(51) Int. Cl? .................................................. HOlG 2/00
(52) U.S. Cl. ....................... 361/272; 361!534; 361/303;
361!434
(58) Field of Search ................................. 361/272, 278,
(56)
361/328, 329, 15-17, 534, 434, 535, 517-518,
301.3, 303, 308-310
References Cited
U.S. PATENT DOCUMENTS
4,090,226 A 5/1978 Fahlen et a!.
111111 1111111111111111111111111111111111111111111111111111111111111
JP
JP
US006930874B2
(10) Patent No.:
(45) Date of Patent:
US 6,930,874 B2
Aug. 16,2005
4,186,417 A 1!1980 Grahame
4,283,750 A 8/1981 Deschanels et a!.
4,330,777 A 5/1982 McDuff
4,580,189 A 4/1986 Dequasie et a!.
4,812,941 A 3/1989 Rice eta!.
4,897,761 A 1!1990 Lobo eta!.
4,922,364 A 5/1990 Paulsson
5,019,934 A 5/1991 Bentley eta!. ............... 361!15
5,138,519 A 8/1992 Stockman
5,148,347 A 9/1992 Cox et a!. ................... 361!272
5,831,148 A 11/1998 Marshall
5,847,280 A 12/1998 Sherman et a!.
6,031,713 A 2/2000 Takeishi et a!. ............ 361!517
6,064,559 A 5!2000 Church, Jr.
6,106,969 A 8/2000 Lian eta!.
6,310,756 B1 10/2001 Miura eta!. ............. 361/301.3
FOREIGN PATENT DOCUMENTS
2-294011 12/1990
4-101408 4/1992
Primary Examiner-Anthony Dinkins
(57) ABSTRACT
A capacitor including an expandable part fabricated on a
capacitor housing is enclosed. The expandable part is
expandable by a fault that occurs within the capacitor
housing, thereby extending the capacitor housing to contact
with an external interrupter. The external interrupter
includes an external electrode and an external sensing cir-
cuit. The external sensing circuit detects a contact between
the capacitor housing and the external electrode and sends a
signal to disconnect the capacitor from an apparatus circuit.
20 Claims, 7 Drawing Sheets
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9. US 6,930,874 B2
1
HIGH CURRENT CAPACITORS
This application is a continuation of U.S. patent appli-
cation Ser. No. 10/392,847, filed Mar. 21,2003 U.S. Pat. No.
6,819,545, which is herein incorporated by reference in its 5
entirety.
BACKGROUND
2
capacitor. The fault may include, for example, a excessive
pressure or overheat condition within the capacitor housing,
which is caused by an overload of the capacitor. The
overload may cause a fire to an apparatus circuit which
includes the capacitor or the array of capacitors.
Conventionally, an internal fault interrupter is installed
within metal housing 11. The fault interrupter breaks when
a fault occurs within capacitor 10, thereby disconnecting the
1. Field of the Invention 10 capacitor 10 from the apparatus circuit.
The present invention generally relates to capacitors and,
more particularly, to high current capacitors.
2. Background of the Invention
Capacitors are widely used in electrical apparatus for 15
different reasons. For example, capacitors can be used to
store electrical charge and to generate a large electrical
current and voltage, and the like.
Capacitors can be manufactured using different methods.
FIGS. 2A and 2B show a conventional capacitor design
that utilizes an internal fault interrupter. Such capacitor
design is commonly used in the United States for AC
capacitors.
With reference to FIGS. 2A and 2B, the internal fault
interrupter is installed within metal housing 11 on the top of
capacitor roll12. Capacitor 10 includes insulating barrier 21
on which leads 13 are extended from capacitor roll 12 are
20 welded. Capacitor 10 further includes a contact plate 22 that
is set on the top of insulating barrier 21. The contact plate 22
is contacted with leads 13 on one side and with external
terminals 14 on the other side. In this design, external
More recently, capacitors, such as a metallized film
capacitors, can be manufactured by wrapping two tightly
wound sheets or sections around a core. Each sheet is
composed of a dielectric film having a metallized layer
disposed on one face of the film. The metallized layer 25
extends to one edge of the face to provide an unmetallized
edge. The unmetallized edges of the two sheets are placed
opposite to each other when the sheets are stacked and
wound together, such that only one metallized edge is
available for connecting to a leas at each end of the rolled 30
capacitor. Each end is sprayed with a conductive metal that
bonds with the sheet having a metallized edge at that end.
Leads are then attached to each sprayed end to form the
capacitor electrode. The rolled capacitor is then placed in a 35
housing and impregnated with a dielectric fluid. One
example of the metallized film capacitors is disclosed in
U.S. Pat. No. 4,897,761.
The metallized film capacitor can be used in an apparatus
that provides a large electrical current or that is operated
under a large electrical power. In a high current applications,
a fault that occurs within the capacitor can cause a disaster.
For example, the apparatus can catch a fire due to the fault.
terminals 14 are mounted on contact plate 22 by means of a
rivet or a screw 23. When capacitor 10 is operated normally,
contact plate 22 rests on insulation barrier 21 so that the
contact plate 22 is in contact with both leads 13 and external
terminals 14 to provide a electrical circuit. When a fault
occurs within capacitor 10, the excessive pressure resulted
from the fault forces contact plate 22 to expanded outwardly
(or upwardly as depicted in FIG. 2B) to move away from
leads 13. When contact plate 22 is expanded, it is no longer
in contact with leads 13, resulting in a disconnection of the
electrical circuit.
The capacitor shown in FIGS. 2A and 2B, however, is not
suitable for providing greater than 15 amps RMS continuous
duty. This is because a weak weld between insulation barrier
40 21 and leads 13 and the utilization of rivets 23 to mount
terminals 14 on contact plate 22 are not capable of process-
ing current greater than 15 amps.
In addition, the fault in the capacitor can damage other 45
electrical components of the apparatus. Accordingly, the
ability to detect faults that occurs within the capacitor has
become an important issue in the design of high current
capacitors.
FIGS. 3A and 3B illustrate another capacitor having an
internal fault interrupter. Capacitor 10 as shown in FIG. 3A
includes a bellows 31 that is fabricated on a top side of
housing 11 and at least one "notched" wire conductor 33
within housing 11 which replaces conventional leads 13 for
connecting external terminals 14 with capacitor roll 12.
FIG. 1 shows a general structure of a typical metallized
film capacitor 10. As shown, capacitor 10 includes metal
housing 11, capacitor roll12 mounted within metal housing
11, and dielectric fluid 15 that is present between metal
housing 11 and capacitor roll12. Inside of metal housing 11,
there are two leads 13, that connects the capacitor roll12 to
two external terminals 14. Terminals 14 are used to connect
50 When capacitor 10 operates normally, bellows 31 maintains
a non-expanded position as shown in FIG. 3A and notched
wired conductor 33 properly connects capacitor roll12 with
external terminals 14. When an excessive pressure occurs
55
resulted from a fault within capacitor 10, bellows 31
expands in an axial direction of housing 11. The expansion
forces notched wire conductor 33 to be broken, as shown in
FIG. 3B.to other electrical components of an electrical apparatus to
form an electrical circuit ("apparatus circuit"). Metal hous-
ing 11 can be in a cylindrical, an oval, a circular or other 60
desired shape. As known in the art, capacitor 10 can be used
singly in the electrical apparatus. Several capacitors 10 can
also be used together as an array of capacitors to provide a
larger electrical current.
Although capacitor 10 shown in FIGS. 3A and 3B pro-
vides more current duty than that shown in FIGS. 2A and
2B, the current is still limited by notched wire conductor 33.
Capacitor 10 shown in FIG. 4 includes a high current
interrupter. In FIG. 4, capacitor 10 includes bellows 41
65 fabricated on a top side of housing 11 and plug-type con-
ductors 42 within housing 11. As shown, the top ends of
plug-type conductors 42 connect to external terminals 14.
In high current applications, safety measures must be
provided to detect a fault that could occur within the
10. US 6,930,874 B2
3 4
Another embodiment of the present invention provides a
capacitor which includes a housing, an expandable part and
an electrical contact. The housing has a top end and a bottom
end which are separated from each other by a distance. The
Connector 43 having a number of sockets 431 is attached to
capacitor roll 12 which, when capacitor 10 operates nor-
mally (see dashed lines), receives the bottom ends of plug-
type conductors 42 within sockets 431. In this manner,
capacitor roll12 is electrically connected with an apparatus
circuit by external terminal14. On the contrary, as shown by
solid lines in FIG. 4, when a fault occurs within capacitor 10
resulting an excessive pressure inside capacitor 10, plug-like
conductors 42 disengage from sockets 431 of connector 43
due to an expansion of bellows 41, thereby interrupting the
electrical connection of 10 capacitor with the apparatus
circuit.
5 expandable part is disposed on the housing between the top
end and the bottom end and is configured to increase the
distance when a pressure within the housing increases. The
electrical contact is disposed on one of the top end and the
bottom end and is configured to complete an external circuit
10
when the distance is increased.
Another embodiment of the present invention provides a
electrical system which includes a capacitor and an external
interrupter. The capacitor includes a housing, an expandable
The capacitor shown in FIG. 4 can be utilized in appli-
cations for a larger current duty. However, the capacitor is
much more costly than any of the other designs mentioned
above. Furthermore, all of the capacitors described above
includes an internal interrupter located within the metal
housing, which in itself is a significant manufacturing cost.
15 part and an electrical contact. The housing has a top end and
a bottom end which are separated from each other by a
distance. The expandable part is disposed on the housing
between the top end and the bottom end and is configured to
increase the distance when a pressure within the housing
SUMMARY OF THE INVENTION
Accordingly, one object of the present invention is to
provide a capacitor housing that can be easily manufactured
for use in a high current capacitor.
20 increases. The electrical contact is disposed on one of the top
end and the bottom end and is configured to complete an
external circuit when the distance is increased. The external
interrupter is configured to cutoff power supply to the
capacitor when the external circuit is completed by the
The present invention also provides a low-cost capacitor
without internal weak links that is capable of operating
under high RMS current conditions.
25 electrical contact of the capacitor when the distance 1s
increased.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a cross-sectional diagram of a known metallized
30 film capacitor.
One embodiment of the present invention provides a
capacitor which includes a housing and an expandable part.
The housing has a first end and a second end. The expand-
able part is located on the housing between the first end and
the second end and is configured to expand due to a fault that
occurs within the housing. The expansion of the expandable 35
part causes the housing to extend in length to make contact
with an external interrupter.
Another embodiment of the present invention provides a
capacitor which includes a housing, an expandable part, an
40
external electrode and an external sensing circuit. The
housing has a first end and a second end. The expandable
part is located on the housing which is expandable by a high
pressure resulted from a fault occurred within the housing.
The external electrode is located at a position close to, but 45
not in contact with the housing when the capacitor is
operated normally. When a fault occurred within the
capacitor, the housing is extended by the expandable part to
make a contact with the external electrode to complete the
external sensing circuit. 50
Another embodiment of the present invention provides a
electrical system which includes at least one capacitor
device, an external electrode device and a external sensing
circuit. The at least one capacitor device includes a housing 55
having a first end and a second end and an expandable part
fabricated on the housing which is expandable by a fault
occurred within the housing. The external sensing circuit
device is coupled between the housing and the external
electrode device for sensing a contact between the housing 60
and the external electrode device. The external electrode
device is located at a position close to, but not contact with
the housing of the capacitor device when the capacitor is
operated normally. When a fault occurs within the housing, 65
the external electrode device contacts with the housing of
the capacitor device.
FIG. 2A is a cross-sectional diagram of a first conven-
tional capacitor, showing the capacitor during a normal
status.
FIG. 2B is a cross-sectional diagram of the first conven-
tional capacitor of FIG. 2A, showing the capacitor during a
fault status.
FIG. 3Ais a cross-sectional diagram of a second conven-
tional capacitor, showing the capacitor during a normal
status.
FIG. 3B is a cross-sectional diagram of the second con-
ventional capacitor, showing the capacitor during a fault
status.
FIG. 4 is a cross-sectional diagram of a third conventional
capacitor.
FIG. 5 is a schematic diagram of a capacitor in accordance
with one embodiment of the present invention, in which a
housing of the capacitor includes an expandable part.
FIG. 6 is a enlarged view of the expandable part of FIG.
5.
FIG. 7A is a schematic diagram of a capacitor in accor-
dance with another embodiment of the present invention,
showing the capacitor during a normal status.
FIG. 7B is a schematic diagram of the capacitor of FIG.
7 showing the capacitor during a fault status.
FIG. SA is a schematic diagram of a capacitor in accor-
dance with another embodiment of the present invention,
showing the capacitor during a normal status.
FIG. SB is a schematic diagram of the capacitor of FIG.
SA showing the capacitor during a fault status.
DETAILED DESCRIPTION OF THE
PREFERRED EMBODIMENTS
In one aspect, the present invention provides a capacitor
that is configured to trigger an external interrupter. The use
11. US 6,930,874 B2
5
of the external interrupter overcomes the disadvantages of
the conventional capacitor having an internal interrupter,
which typically involves a weak connection in the conductor
that can be unnecessarily broken. Using the external
interrupter, a capacitor of the present invention can be
designed for heavy currents up to or exceeding 50 amps
RMS.
A preferred embodiment of the present invention includes
6
bellows which is fabricated on housing 51. Expandable part
52 includes a fold 521 on a joint between upper housing 511
and lower housing 512 of housing 51. The fold 521 is
expandable in length in axial direction 57 when a pressure
5 resulted from a fault occurred within capacitor 50. As
depicted in FIG. 6, expandable part 52 is integrally fabri-
cated on metal housing 51. It is noted that expandable part
52 can be a separate element attached to metal housing 51
in a sealed manner in other embodiments of the invention.an expandable part in a capacitor housing. The expandable
10
part can be fabricated to resemble a bellows. There is no
internal pressure interrupter within the housing of the
capacitor. When a fault occurs within the capacitor, the
housing increases in length. The increased length of the
housing is utilized to make contact with an external circuit. 15
The completion of the external circuit then signals an
electrical breaker or contractor to disconnect the capacitor
from a power source to prevent the capacitor from further
expansion and/or rupture. Utilization of the external inter-
rupter makes it possible for capacitors of the present inven- 20
tion to be used in a high current apparatus. Accordingly, the
safety of the apparatus can be greatly increased.
In operation, capacitor 50 is set on a position close to an
electrode plate so that when the expandable part 52 expands,
bottom end 59 of metal housing 51 makes a contact with the
electrode plate so that an electrical circuit between metal
housing and the electrode plate is completed. The electrical
circuit can then be used, for example, to cutoff current from
entering capacitor 50.
FIGS. 7A and 7B illustrate another embodiment of the
present invention in which capacitor 50 is located at a
position close to an electrode plate 71 such that when
expandable part 52 expands, metal housing 51 makes con-
tact with electrode plate 71. The electrode plate 71 is
preferably made of metal. As described above, when a fault
occurs within capacitor 50, expandable part 52 expands in
FIG. 5 illustrates an embodiment of the present invention.
Capacitor 50 includes housing 51 which includes expand-
able part 52. Capacitor 50 may be a metallized film capaci-
tor. Housing 51 may be made of metal. Although the
following discussion describes the invention in the context
of a metallized film capacitor, it is noted that the present
invention is not limited to applications in metallized film
capacitors.
Capacitor 50 further includes a capacitor roll (not shown
in FIG. 5). The capacitor roll is similar to capacitor roll12
shown in FIG. 1. Metal housing 51 is filled with a dielectric
fluid. The dielectric fluid can be, for example, a type of oil.
Two external terminals 53 are disposed on top cover 54 of
capacitor 50. An internal end of each of terminals 53 is
connected with the capacitor roll. An external end of each of
external terminals 53, which is exposed outside of housing
51, is used to connect to other components of an electrical
apparatus to complete an apparatus circuit. Unlike conven-
tional capacitors with internal pressure interrupters, capaci-
tor 50 of the present invention does not include any internal
interrupter.
Expandable part 52 is configured to expand in length
when a fault occurs within capacitor 50. The fault within
capacitor 50 can be resulted from, for example, a short
circuit or an overload of the capacitor, which causes a
excessive pressure or a an overheat to occur within capacitor
50. When capacitor 50 is operated normally (i.e., during a
normal status), expandable part 52 is in a non-expanded
position, as shown in FIG. 5. In the non-expanded position,
a distance between top end 58 and bottom end 59 of housing
25
length (e.g., by ll.L) due to a high pressure buildup within
housing 51 resulted from the fault. The increased length (i.e.,
Y=L+ll.L) causes bottom end 59 of metal housing 51 to
make contact with electrode plate 71. Sensing circuit 72,
30
which is coupled to metal housing 51, detects a connection
between metal housing 51 with electrode plate 71. As
housing 51 and electrode pate 71 are both made of metal, the
contact of metal housing 51 with electrode 71 completes
sensing circuit 72, which is different from the apparatus
35 circuit.
Once sensing circuit 72 detects the connection, it sends a
signal to a circuit breaker (not shown) which may be part of
the electrical apparatus of which capacitor 50 is a compo-
nent or part of a separate safety controlling device. The
40
circuit breaker then disconnect capacitor 50 from the appa-
ratus circuit. In this manner, no current will be flowing
through capacitor 50 and further expanding and/or rupturing
of metal housing 51 is prevented. This in turn avoids a fire
45 from occurring in capacitor 50 or elsewhere within the
electrical apparatus.
FIG. 7A shows that expandable part 52 is at a non-
expanded position, which means capacitor 50 is operated
normally. In this case, metal housing 51 maintains at a first
50
position (i.e., Y=L) at which bottom end 59 is close to but
not touching electrode plate 71. Since no contact between
metal housing 51 and electrode plate 71 is made, no signal
is detected by sensing circuit 72. Therefore, no signal is sent
55 to the circuit breaker to disconnect the connection of capaci-
tor 50 from the apparatus circuit.51 is represented as distance Y, as depicted on FIG. 5. In the
non-expended position, Y=L. When the fault occurs within
capacitor 50, however, expandable part 52 expands and
distance Y increases by ll.L, resulting in a total distance of
Y=L+ll.L. As expandable part 52 is attached to metal hous- 60
ing 51, the expansion of expandable part 52 also forces
metal housing 51 to move in axial direction 57. More details
will be described with reference to FIGS. 7A-7B and
8A-8B below.
When a fault within capacitor 50 occurs, expandable part
52 expands due to the high pressure generated within
capacitor 50, which force metal housing 51 to extend in axial
direction 57 to a second position (i.e., Y=L+ll.L), which is as
shown in FIG. 7B. At the second position, bottom end 59 of
metal housing 51 makes contact with electrode plate 71. The
contact then activates sensing circuit 72 to send a signal to
65 the circuit breaker. In turn, the circuit breaker disconnects
capacitor 50 from the apparatus circuit and no current flows
through capacitor 50.
FIG. 6 is an enlarged view of expandable part 52 of FIG.
5. As shown, expandable part 52 has a structure similar to a
12. US 6,930,874 B2
7
FIGS. SA and 8B illustrate another embodiment of the
present invention. In the embodiment shown in FIG. 7A,
expandable part 52 is installed on a upper end of metal
housing 51. Expandable part 52 can alternatively be
installed on a lower end of metal housing 51, as shown in
FIGS. SA and 8B. The installation can be done integrally or
separately. Expandable part 52 can also be placed at any
position between the top end 58 and bottom end 59.
8
According to the present invention, the only added cost to
capacitor 50 is the operation to fabricate the expandable part
52 into metal housing 51. This added cost to the fabrication
is minuscule compared to the cost of manufacturing capaci-
5 tor 50 itself.
Similar to the embodiment with reference to FIGS. 7A 10
The present invention may be implemented in different
types of capacitors, such as metal cased electrolytic capaci-
tors. The present invention can also be applied to any
electronic elements, that include metal housings with an
expandable portion in response to an abnormal situation,
such as an overload, an overheat and an excessive pressure.
and 7B, bottom end 59 of metal housing 51 is movable
between the first position (Y=L, as shown in FIG. SA), and
the second position (Y=L+llL, as shown in FIG. 8B), where
expandable part 52 expands by llL due to a fault within
capacitor 50 so that metal housing 51 extends bottom end 59
to touch electrode plate 71. As described above, sensing
circuit 72 then sends a signal to activate the circuit breaker
to disconnect capacitor 50 from the apparatus circuit.
In addition to the specific implementation shown in FIGS.
7A and SA, expandable part 52 can be installed at any
location of metal housing 51, as long as the expansion is able
to move bottom end 59 of metal housing 51 to touch
electrode plate 71. The locations of metal housing 51 and
electrode plate 71 should be arranged in a manner that when
capacitor 50 is overloaded, metal housing 51 is moveable to
make contact with electrode plate 71.
Sensing circuit 72 may be a low-cost ground fault sensor
or simply a continuity detection circuit. Sensing circuit 72
may also be a weight/pressure-sensing device which is
activated when sensing a weight or pressure of capacitor 50
on electrode plate 71. In this embodiment, electrode plate 71
is not necessarily made of metal and sensing circuit 72 needs
only be coupled with electrode plate 71 without being
coupled with metal housing 51. Electrode plate 71 can also
function as a trigger which triggers sensing circuit 72 when
it makes a physical contact with capacitor 50.
The foregoing disclosure of the preferred embodiments of
the present invention has been presented for purposes of
15 illustration and description. It is not intended to be exhaus-
tive or to limit the invention to the precise forms disclosed.
Many variations and modifications of the embodiments
described herein will be apparent to one of ordinary skill in
the art in light of the above disclosure. The scope of the
20 invention is to be defined only by the claims appended
hereto, and by their equivalents.
Further, in describing representative embodiments of the
present invention, the specification may have presented the
25 method and/or process of the present invention as a particu-
lar sequence of steps. However, to the extent that the method
or process does not rely on the particular order of steps set
forth herein, the method or process should not be limited to
the particular sequence of steps described. As one of ordi-
30 nary skill in the art would appreciate, other sequences of
steps may be possible. Therefore, the particular order of the
steps set forth in the specification should not be construed as
limitations on the claims. In addition, the claims directed to
35 the method and/or process of the present invention should
not be limited to the performance of their steps in the order
written, and one skilled in the art can readily appreciate that
the sequences may be varied and still remain within the spirit
and scope of the present invention.
The present invention may be easily implemented in an 40
application in which banks of multiple capacitors are uti-
lized in apparatus such as UPS (Uninterrupted Power
System) or power factor correction systems. In these
embodiments, the banks of multiple capacitors are located at 45
a first position close to but not in contact with a single
electrode plate (such as electrode plate 72) or multiple
electrode plates each of which corresponds to each of the
multiple capacitors. When all the multiple capacitors are
operated normally, the banks of multiple capacitors are 50
maintained at their first position. However, when one of the
multiple capacitors operates abnormally (e.g., a fault has
occurred), this capacitor housing is moved by the expansion
What is claimed is:
1. A capacitor, comprising:
a housing configured to extend from a first position to a
second position when a fault occurs within the
capacitor,
wherein in the first position, the housing is not in contact
with a sensing surface of an external interrupting
circuit,
wherein in the second position, the housing comes into
contact with the sensing surface of the external inter-
rupting circuit.
2. The capacitor of claim 1, wherein the fault within the
housing is associated with one of overload, overheat and
excessive pressure.
3. The capacitor of claim 1, wherein the housing further
comprises an expandable part that extends when the fault
occurs within the capacitor.
4. The capacitor of claim 3, wherein the expandable part
is located near one end of the housing.
5. The capacitor of claim 3, wherein the expandable part
is located near a middle portion of the housing.
of an expandable part (such as expandable part 52) to make 55
contact with corresponding electrode plate (at a second
position). At this time, a signal is activated by a sensing
circuit (such as sensing circuit 72) that enables the circuit
breaker to disconnect the banks of multiple capacitors from
the apparatus circuit. Accordingly, even a single fault 60
occurred from only one capacitor among multiple capacitors
will cause the UPS system to be turned "OFF" before the
capacitor with fault is actually ruptured to spew its charred
6. The capacitor of claim 1, wherein the housing includes
a bellow-shaped part that is expandable when the fault
65 occurs within the capacitor.contents throughout the entire system.
Moreover, the present invention includes expandable part
52 on metal housing 51 without any additional materials.
7. The capacitor of claim 1, wherein when the housing
comes into contact with the sensing surface of the external
13. US 6,930,874 B2
9
interrupting circuit, the external interrupting circuit sends a
turn-off signal to a power supply of the capacitor.
8. The capacitor of claim 1, further comprising a dielectric
fluid filled within the housing.
9. A capacitor, comprising: 5
a housing comprising a first end and a second end; and
an expandable part located on the housing between the
first end and second end, the expandable part expands
when a fault occurs within the capacitor,
wherein the housing does not come into contact with a 10
sensing surface of an external interrupting circuit dur-
ing normal operation of the capacitor,
wherein the housing comes into contact with the sensing
surface of the external interrupting circuit when the
fault occurs. 15
10. The capacitor of claim 9, wherein the expansion of the
expandable part causes the housing to extend along an axis
of the housing.
11. The capacitor of claim 9, wherein the fault within the
housing is associated with one of overload, overheat and 20
excessive pressure.
12. The capacitor of claim 9, wherein the expandable part
is fabricated integrally with the housing.
10
an external interrupter electrically coupled to the housing,
wherein the external interrupter includes a sensing
surface and a triggering element, the sensing surface is
located at a position close to but not in contact with the
housing when the capacitor operates normally, the
triggering element is electrically coupled with a power
source that provides electrical power to the capacitor,
wherein when a fault occurs within the capacitor, the
expandable part expands such that the housing comes
into contact with the sensing surface of the external
interrupter, resulting in the triggering element to send a
signal to the power source to cut off power to the
capacitor.
15. The device of claim 14, wherein the capacitor housing
is expanded axially when the fault occurs.
16. The device of claim 14, wherein the expandable part
is fabricated integrally with the housing.
17. The device of claim 14, wherein the expandable part
is fabricated separately with the housing.
18. The device of claim 14, wherein the fault within the
housing is associated with one of overload, overheat and
13. The capacitor of claim 9, wherein the expandable part
is fabricated separately from the housing.
25 excessive pressure.
14. A safety control device for an electrical component,
comprising: a capacitor, comprising;
a housing, wherein the housing is configured to include an
expandable part that is located on the housing between
a first end of the housing and a second end of the
housing; and
19. The device of claim 14, wherein the expandable part
is located near one end of the housing.
20. The device of claim 14, wherein the expandable part
30
is located near a middle portion of the housing.
* * * * *