DSF Series Supercapacitors
■Rated for 3 WVDC, or 6 WVDC for dual pack, as compared to typical supercaps, which have a single device rating of 2.5-2.7 WVDC.
■Higher full-rated operating voltage results in greater energy densities, which leads to space savings.
■High current handling—up to 20 amps.
■Ideal for a variety of energy-storage applications.
●Use fewer devices in capacitor banks!
■Bank in series or parallel for even higher voltage or capacitance.
■Because of its higher voltage and power density, fewer DSF capacitors may be required in banks, saving space and cost.
■Graphic shows how fewer DSF capacitors may be required, compared to other supercaps.
■Energy density is 24% greater than a 2.7V device.
●Like other supercapacitors, the DSF Series offers far greater capacity than conventional electrolytics
■Compared to electrolyticsor rechargeable batteries, the DSF Series is...
▲An electric double-layer capacitor (EDLC), with very large storage capabilities and low ESR.
▲Designed around an activated carbon anode and cathode, with an organic electrolyte.
▲Especially suitable for short, high-power output and energy storage applications.
▲Instant charging, with long life energy storage.
●DSF Series supercapacitors offer high performance plus cost savings
■Values from 1.5 to 600 Farads
■3.0 or 6.0 WVDC Max
■Low ESR and high current handling
■-40 °C to +85 °C operating temperature (-40 °C to 65 °C at 3.0 WVDC)
■Operating life: 10 years with 500,000 cycles
■Performance does not degrade with each cycle
■Value priced
●Configurations and termination options
■DSF has four lead configurations, which vary by voltage and capacitance: radial, two-pin snap in, four-pin snap in and dual pack.
●DSF Series performance summary
■DSF Supercapacitors provide very high capacitance and energy storage, higher operating voltages, higher current and low cost.
▲Standard values from 1.5 to 600 Farads at 3.0 or 6.0 WVDC
▲-40 °C to +85 °C operation (-40 °C to 65 °C at 3.0 WVDC)
▲Low ESR with high current handling
▲10 year/500,000 cycle life exceeds typical end-product life
▲Unlike batteries, performance does not degrade with each charge/discharge cycle
▲Very compact size and high energy density aids product design flexibility
▲Bank in series or parallel for higher capacitance or voltage
DSF305Q3R0 、 DSF505Q3R0 、 DSF705Q3R0 、 DSF106Q3R0 、 DSF256Q3R0 、 DSF506Q3R0 、 DSF107Q3R0 、 DSF117Q3R0 、 DSF207Q3R0 、 DSF357Q3R0 、 DSF407Q3R0 、 DSF477Q3R0 、 DSF607Q3R0 、 DSF155Q6R0HAE 、 DSF255Q6R0JBE 、 DSF355Q6R0JBF 、 DSF505Q6R0JBG 、 DSF Series |
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[ Industrial ][ Factory automation and robotics ][ Cranes ][ elevators ][ Mechanical actuator power ][ Transportation ][ Forklift trucks ][ Personal electric vehicles ][ Energy ][ Lighting ][ Smart utility meters ][ UPS systems ][ emergency lighting ][ Solar lights ][ energy storage ][ Power conversion ][ IoT ][ Energy harvesting/storage ][ Memory Backup Circuits ] |
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Technical Documentation |
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Please see the document for details |
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English Chinese Chinese and English Japanese |
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2021/07/05 |
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3.9 MB |
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