EDLC - définition. Qu'est-ce que EDLC
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  3. EDLC

Qu'est-ce (qui) est EDLC - définition


EDLC         
  • RAV4 HEV
  • date=April 2018}}
  • A block of silica aerogel in hand
  • SEM]] image of carbon nanotube bundles with a surface of about 1500&nbsp;m<sup>2</sup>/g
  • Aerial lift in [[Zell am See]], [[Austria]]
  • The voltage behavior of supercapacitors and batteries during charging/discharging differs clearly
  • A [[scanning tunneling microscopy]] image of single-walled carbon nanotube
  • Dependence of capacitance on frequency of a 50&nbsp;F supercapacitor
  • Illustration of the measurement conditions for measuring the capacitance of supercapacitors
  • Structure and function of an ideal double-layer capacitor. Applying a voltage to the capacitor at both electrodes a Helmholtz double-layer will be formed separating the ions in the electrolyte in a mirror charge distribution of opposite polarity
  • Classification of supercapacitors into classes regarding to IEC 62391-1, IEC 62576 and BS EN 61881-3 standards
  • The internal DC resistance can be calculated out of the voltage drop obtained from the intersection of the auxiliary line extended from the straight part and the time base at the time of discharge start
  • The lifetime of supercapacitors depends mainly on the capacitor temperature and the voltage applied
  • Basic illustration of the functionality of a supercapacitor, the voltage distribution inside of the capacitor and its simplified equivalent DC circuit
  • Simplified view of a double-layer of negative ions in the electrode and solvated positive ions in the liquid electrolyte, separated by a layer of polarized solvent molecules.
  • Typical construction of a supercapacitor: (1)&nbsp;power source, (2)&nbsp;collector, (3)&nbsp;polarized electrode, (4)&nbsp;Helmholtz double layer, (5)&nbsp;electrolyte having positive and negative ions, (6)&nbsp;separator.
  • Electric bus at EXPO 2010 in Shanghai (Capabus) recharging at the bus stop
  • Pore size distributions for different carbide precursors.
  • Charge storage principles of different capacitor types and their internal potential distribution
  • atomic-scale honeycomb lattice]] made of carbon atoms.
  • Container yard with rubber tyre gantry crane
  • A 5.5 volt supercapacitor is constructed out of two single cells, each rated to at least 2.75 volts, in series connection
  • recover energy during braking]].
  • A negative bar on the insulating sleeve indicates the cathode terminal of the capacitor
  • Simplified view of a double-layer with specifically adsorbed ions which have submitted their charge to the electrode to explain the faradaic charge-transfer of the pseudocapacitance.
  • Green Cargo operates [[TRAXX]] locomotives from [[Bombardier Transportation]]
  • World champion Sebastian Vettel in [[Malaysia]] 2010
  • MAN Ultracapbus in Nuremberg, Germany
  • Light rail vehicle in [[Mannheim]]
  • Equivalent circuit with cascaded RC elements
  • A diagram that shows a hierarchical classification of supercapacitors and capacitors of related types.
  • date=August 2016}}
  • Family tree of supercapacitor types. Double-layer capacitors and pseudocapacitors as well as hybrid capacitors are defined over their electrode designs.
  • Schematic illustration of the capacitance behavior resulting out of the porous structure of the electrodes
  • A 2.4v Skelcap ultracapacitor
  • Toyota TS030 Hybrid at [[2012 24 Hours of Le Mans]] motor race
  • A supercapacitor-equipped tram on the [[Rio de Janeiro Light Rail]]
  • Measured device capacitance across an EDLC's operating voltage
  • A graph plotting voltage over time, after the application of a charge
  • A cyclic voltammogram shows the fundamental differences between static capacitance (rectangular) and pseudocapacitance (curved)
  • Rotor with [[wind turbine]] pitch system
TYPE OF CAPACITOR CHARACTERIZED BY HIGH CAPACITANCE, HIGH SPECIFIC AND VOLUMETRIC ENERGY DENSITY, AND LOW VOLTAGE LIMITS
Goldcap; Ultracap; Ultracapacitor; Electric double-layer capacitor; Supercapacitors; Ultra-capacitor; Electrochemical capacitor; Ultracapacitors; Super capacitor; Supercap; Double-layer capacitor; EDLC; Electrolytic Double Layer Capacitor; Supercaps; Double layer capacitors; Electric double layer capacitor; Ultra-capacitors; Ultra capacitor; Gold caps; FastCap Ultracapacitor; Wikipedia talk:Articles for creation/FastCap Ultracapacitor; Supercondenser; Super-capacitor; FastStorage PowerCap; PowerCap; ELNA Dynacap; Dynacap; ELNA DynaCap; DynaCap; Capattery; PRI ultracapacitor; Maxwell Laboratories BoostCap; Maxwell Technologies BoostCap; APowerCap (capacitor); Cap-XX (capacitor); AVX BestCap; BestCap; Cooper PowerStor; Elna DYNACAP; DYNACAP; POWERCAP; Evans Capattery; Panasonic Goldcap; PRI Ultracapacitor; APowerCap; BoostCap; CAP-XX; DLCAP; EneCapTen; EVerCAP; Faradcap; GreenCap; HY-CAP; SuperCap; PAS Capacitor; PowerStor; Kapton capacitor; PAS capacitor; ENYCAP; CDE Ultracapacitor; FastCAP Systems EEx; EEx; Green Tech Super Capacitor; Super Capacitor; Illinois Supercapacitor; Ioxus Ultracapacitor; JSR Micro Ultimo; Korchip STARCAP; STARCAP; LS Mtron Ultracapacitor; Maxwell Boostcap; NEC Tokin Supercapacitor; Nichicon EVerCAP; Samwha Green-Cap; Green-Cap; ESD-SCAP; Skeleton SkelCap; SkelCap; Taiyo Yuden PAS Capacitor; VinaTech Hy-Cap; Hy-Cap; Vishay ENYCAP; WIMA SuperCap; YEC Kapton capacitor; Yunasko Ultracapacitor; Murata EDLC; Nesscap EDLC; DLCCAP; NCC DLCCAP; ECC DLCCAP; Graphene supercapacitor; PAS battery; Onboard energy storage system; Comparison of supercapacitors and other storage technologies; Backup capacitor; Backup cap; Hybrid capacitor
Ethernet Data Link Control (Reference: ethernet)
Supercapacitor         
  • RAV4 HEV
  • date=April 2018}}
  • A block of silica aerogel in hand
  • SEM]] image of carbon nanotube bundles with a surface of about 1500&nbsp;m<sup>2</sup>/g
  • Aerial lift in [[Zell am See]], [[Austria]]
  • The voltage behavior of supercapacitors and batteries during charging/discharging differs clearly
  • A [[scanning tunneling microscopy]] image of single-walled carbon nanotube
  • Dependence of capacitance on frequency of a 50&nbsp;F supercapacitor
  • Illustration of the measurement conditions for measuring the capacitance of supercapacitors
  • Structure and function of an ideal double-layer capacitor. Applying a voltage to the capacitor at both electrodes a Helmholtz double-layer will be formed separating the ions in the electrolyte in a mirror charge distribution of opposite polarity
  • Classification of supercapacitors into classes regarding to IEC 62391-1, IEC 62576 and BS EN 61881-3 standards
  • The internal DC resistance can be calculated out of the voltage drop obtained from the intersection of the auxiliary line extended from the straight part and the time base at the time of discharge start
  • The lifetime of supercapacitors depends mainly on the capacitor temperature and the voltage applied
  • Basic illustration of the functionality of a supercapacitor, the voltage distribution inside of the capacitor and its simplified equivalent DC circuit
  • Simplified view of a double-layer of negative ions in the electrode and solvated positive ions in the liquid electrolyte, separated by a layer of polarized solvent molecules.
  • Typical construction of a supercapacitor: (1)&nbsp;power source, (2)&nbsp;collector, (3)&nbsp;polarized electrode, (4)&nbsp;Helmholtz double layer, (5)&nbsp;electrolyte having positive and negative ions, (6)&nbsp;separator.
  • Electric bus at EXPO 2010 in Shanghai (Capabus) recharging at the bus stop
  • Pore size distributions for different carbide precursors.
  • Charge storage principles of different capacitor types and their internal potential distribution
  • atomic-scale honeycomb lattice]] made of carbon atoms.
  • Container yard with rubber tyre gantry crane
  • A 5.5 volt supercapacitor is constructed out of two single cells, each rated to at least 2.75 volts, in series connection
  • recover energy during braking]].
  • A negative bar on the insulating sleeve indicates the cathode terminal of the capacitor
  • Simplified view of a double-layer with specifically adsorbed ions which have submitted their charge to the electrode to explain the faradaic charge-transfer of the pseudocapacitance.
  • Green Cargo operates [[TRAXX]] locomotives from [[Bombardier Transportation]]
  • World champion Sebastian Vettel in [[Malaysia]] 2010
  • MAN Ultracapbus in Nuremberg, Germany
  • Light rail vehicle in [[Mannheim]]
  • Equivalent circuit with cascaded RC elements
  • A diagram that shows a hierarchical classification of supercapacitors and capacitors of related types.
  • date=August 2016}}
  • Family tree of supercapacitor types. Double-layer capacitors and pseudocapacitors as well as hybrid capacitors are defined over their electrode designs.
  • Schematic illustration of the capacitance behavior resulting out of the porous structure of the electrodes
  • A 2.4v Skelcap ultracapacitor
  • Toyota TS030 Hybrid at [[2012 24 Hours of Le Mans]] motor race
  • A supercapacitor-equipped tram on the [[Rio de Janeiro Light Rail]]
  • Measured device capacitance across an EDLC's operating voltage
  • A graph plotting voltage over time, after the application of a charge
  • A cyclic voltammogram shows the fundamental differences between static capacitance (rectangular) and pseudocapacitance (curved)
  • Rotor with [[wind turbine]] pitch system
TYPE OF CAPACITOR CHARACTERIZED BY HIGH CAPACITANCE, HIGH SPECIFIC AND VOLUMETRIC ENERGY DENSITY, AND LOW VOLTAGE LIMITS
Goldcap; Ultracap; Ultracapacitor; Electric double-layer capacitor; Supercapacitors; Ultra-capacitor; Electrochemical capacitor; Ultracapacitors; Super capacitor; Supercap; Double-layer capacitor; EDLC; Electrolytic Double Layer Capacitor; Supercaps; Double layer capacitors; Electric double layer capacitor; Ultra-capacitors; Ultra capacitor; Gold caps; FastCap Ultracapacitor; Wikipedia talk:Articles for creation/FastCap Ultracapacitor; Supercondenser; Super-capacitor; FastStorage PowerCap; PowerCap; ELNA Dynacap; Dynacap; ELNA DynaCap; DynaCap; Capattery; PRI ultracapacitor; Maxwell Laboratories BoostCap; Maxwell Technologies BoostCap; APowerCap (capacitor); Cap-XX (capacitor); AVX BestCap; BestCap; Cooper PowerStor; Elna DYNACAP; DYNACAP; POWERCAP; Evans Capattery; Panasonic Goldcap; PRI Ultracapacitor; APowerCap; BoostCap; CAP-XX; DLCAP; EneCapTen; EVerCAP; Faradcap; GreenCap; HY-CAP; SuperCap; PAS Capacitor; PowerStor; Kapton capacitor; PAS capacitor; ENYCAP; CDE Ultracapacitor; FastCAP Systems EEx; EEx; Green Tech Super Capacitor; Super Capacitor; Illinois Supercapacitor; Ioxus Ultracapacitor; JSR Micro Ultimo; Korchip STARCAP; STARCAP; LS Mtron Ultracapacitor; Maxwell Boostcap; NEC Tokin Supercapacitor; Nichicon EVerCAP; Samwha Green-Cap; Green-Cap; ESD-SCAP; Skeleton SkelCap; SkelCap; Taiyo Yuden PAS Capacitor; VinaTech Hy-Cap; Hy-Cap; Vishay ENYCAP; WIMA SuperCap; YEC Kapton capacitor; Yunasko Ultracapacitor; Murata EDLC; Nesscap EDLC; DLCCAP; NCC DLCCAP; ECC DLCCAP; Graphene supercapacitor; PAS battery; Onboard energy storage system; Comparison of supercapacitors and other storage technologies; Backup capacitor; Backup cap; Hybrid capacitor
A supercapacitor (SC), also called an ultracapacitor, is a high-capacity capacitor with a capacitance value much higher than other capacitors, but with lower voltage limits, that bridges the gap between electrolytic capacitors and rechargeable batteries. It typically stores 10 to 100 times more energy per unit volume or mass than electrolytic capacitors, can accept and deliver charge much faster than batteries, and tolerates many more charge and discharge cycles than rechargeable batteries.
https://en.wikipedia.org/wiki/Supercapacitor
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