Supercapacitors. XV3585-2R7607-R Datasheet

XV3585-2R7607-R Supercapacitors. Datasheet pdf. Equivalent


Part XV3585-2R7607-R
Description Supercapacitors
Feature Technical Data 4424 Effective December 2017 Supersedes October 2014 XV Supercapacitor Cylindrical.
Manufacture EATON
Datasheet
Download XV3585-2R7607-R Datasheet


Technical Data 4424 Effective December 2017 Supersedes Octo XV3585-2R7607-R Datasheet
Recommendation Recommendation Datasheet XV3585-2R7607-R Datasheet




XV3585-2R7607-R
Technical Data 4424
Effective December 2017
Supersedes October 2014
XV Supercapacitor
Cylindrical snap-in
Pb HFHALOGEN
FREE
Features and benefits
Over 10-year operating life at room temperature
Ultra low ESR for high power density
Large capacitance for high energy density
Long cycle life
UL Recognized
Applications
Hybrid battery or fuel cell systems
High pulse current applications
UPS / hold up power
Description
Eaton supercapacitors are unique, ultra-high
capacitance devices utilizing electrochemical
double layer capacitor (EDLC) construction
combined with new, high performance materials.
This combination of advanced technologies
allows Eaton to offer a wide variety of capacitor
solutions tailored to specific applications that
range from a few microamps for several days to
several amps for milliseconds.



XV3585-2R7607-R
Technical Data 4424
Effective December 2017
Specifications
Capacitance
Working voltage
Surge voltage
Capacitance tolerance
Operating temperature range
Extended operating temperature range
300 F to 600 F
2.7 V
2.85 V
-5% to +10%
-40 °C to +65 °C
-40 °C to +85 °C (with voltage derating to 2.3 V @ +85 °C)
XV Supercapacitor
Cylindrical snap-in

Standard Product1
Capacitance (F)
300
400
600
Part Number
XV3550-2R7307-R
XV3560-2R7407-R
XV3585-2R7607-R
Max. initial
D(ECquEiSvaRle(mntΩS) eries
Resistance)
4.5
3.2
2.6
Max continuous
current2 (A)
20
26
33
Peak
current3 (A)
160
220
320
1. Capacitance, ESR and Leakage current are all measured according to IEC 62391-1 at +20 °C
2. 15 °C Temperature Rise
3. Peak Current is for 1 second = 1⁄2 Working Voltage x Capacitance / (1 + DC ESR x Capacitance)
4. Leakage current measured after 72 hours, +20 °C
5. Max. Power = Working Voltage2 / 4 / DC ESR
6. Stored energy = 1⁄2 Capacitance x Working Voltage2 / 3600
Max leakage
current4 (mA)
0.60
0.85
1.30
Max
power5 (W)
410
570
790
Stored
energy6
(Wh)
0.30
0.41
0.60
Performance
Parameter
Life
@ Max. operating voltage and temp)
Charge/discharge cycling1
Storage Life- uncharged
-40 °C to +65 °C
30 °C
1500 hours
500,000
1500 hours
3 years
Capacitance Change
(% of initial value)
20%
20%
20%
5%
ESR
(% of max. initial value)
200%
200%
200%
10%
1. Cycling between max operating and 50% of max operating voltage at room temperature
Typical
mass (g)
62
72
108
2 www.eaton.com/electronics







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