Technical Data 10554 Effective July 2020
Supersededs August 2016
TV Supercapacitors
Cylindrical cells
Description
Eaton supercapacitors are high reliability, high
power, ultra-high capacitance energy storage
devices utilizing electric double layer capacitor
(EDLC) construction combined with proprietary
materials and processes. This combination of
advanced technologies allows Eaton to offer a
wide variety of capacitor solutions tailored to
applications for backup power, pulse power and
hybrid power systems. They can be applied as
the sole energy storage or in combination with
batteries to optimize cost, life time and run time.
System requirements can range from a few
microwatts to megawatts. All products feature low
ESR for high power density with environmentally
friendly materials for a green power solution.
Eaton supercapacitors are maintenance-free with
design lifetimes up to 20 years* and operating
temperatures down to -40 °C and up to +85 °C.
Features
3.0 V operating voltage for high power and
high energy
Ultra low ESR for high power density
Large capacitance for high energy density
UL recognized
Applications
Electric, Gas, Water smart meters
RF radio pulse power
Storage server
Industrial backup / ride through
Pulse power
Solar capture
Pb
HALOGEN
HF
FREE
* Supercapacitor lifetimes vary based on charge voltage
and temperature. See Eatons application guidelines or
contact your local Eaton sales representative for more
information on lifetime estimates
2
Technical Data 10554
Effective July 2020
TV Supercapacitors
Cylindrical cells
www.eaton.com/electronics
Ratings10
Capacitance 3 F to 100 F
Maximum working voltage 3.0 V
Surge voltage 3.3 V
Capacitance tolerance -10% to +30% (+20 °C)
Operating temperature range -40 °C to +65 °C
Extended temperature range -40 °C to +85 °C (with linear voltage derating to 2.5 V @ +85 °C)
Specifications
Capacitance (F)
Part number
Maximum
initial ESR1
(Ω)
Nominal
leakage
current1,2
(µA) Stored energy3
(mWh) Peak power4
(W)
Pulse
current5
(A) Continuous
current6 (A)
Typical
thermal
resistance7
Rth (°C/W)
Short
circuit
current8
(A)
3 TV0820-3R0305-R 0.075 15 3.75 30 3.7 1.6 76 40
6 TV1020-3R0605-R 0.035 13 7.5 64.3 7.4 2.4 73 86
10 TV1030-3R0106-R 0.026 25 12.5 86.5 12 3.7 40 115
15 TV1325-3R0156-R 0.024 35 18.8 94 17 3.4 53 125
25 TV1625-3R0256-R 0.018 60 31.3 125 26 4.2 47 167
34 TV1245-3R0346-R 0.016 75 42.5 141 33 6.5 22 188**
35 TV1635-3R0356-R 0.015 90 43.8 150 34 5.1 39 200**
60 TV1840-3R0606-R 0.013 135 75 173 51 6.7 26 231**
100 TV1860-3R0107-R 0.011 225 125 205 71 11.7 10 273**
** Repeated short circuit current will permanently damage the leads.
Performance
Parameter Capacitance change
(% of initial value) ESR
(% of maximum initial value)
Lifetime: (1000 hours at maximum temperature and voltage) ≤ 30% ≤ 200%
Charge/Discharge Cycles9: (500,000 at +20 °C) ≤ 30% ≤ 200%
Storage: (3 years, uncharged, <35 °C) ≤ 5% ≤ 10%
1. Capacitance, Equivalent Series Resistance (ESR) and Leakage current are measured according to IEC62391-1 with current in milliamps (mA) = 8 x C x V.
2. Leakage current at +20 °C after 72 hour charge and hold.
3. Stored Energy (mWh) = 0.5 x C x V2
3600
4. Peak Power (W) = V2
4 x ESR
5. Pulse current for 1 second from full rate voltage to half voltage.(A) = 0.5 x V x C
(1 + ESR x C)
6. Continuous current with a 15 °C temperature rise. Continuous current (A) =
7. Thermal resistance (Rth) cell body temperature to ambient in open air in degrees C per Watt (°C/W).
8. Short circuit current is for safety information only. Do not use as operating current.
9. Cycling between rated voltage and half voltage, 3 second rest at +20 °C.
10. Testing and verification of product under end application conditions is recommended
Safety and Certifications
Regulatory UL810a, RoHS, REACH
Shock and vibration MIL-STD 202G
Warnings Do not overvoltage, do not reverse polarity
Shipping No restrictions, per UN3499 with all cells <0.3 watt-hours
x 1000
3
Technical Data 10554
Effective July 2020
TV Supercapacitors
Cylindrical cells
www.eaton.com/electronics
Part numbering system
TV 1860 –3R0 60 6 -R
Family code Size reference (mm) Voltage (V)
R = decimal
Capacitance (μF)
value Multiplier Standard product
TV = Family code Diameter = 18 Length = 60 3R0 = 3.0 V Example 606= 60 x 106 μF o r 60 F
Packaging information
Standard packaging: Bulk, 100 parts per bag
(8 mm–13 mm diameter)
16 mm–18 mm diameter products: Bulk package
quantity varies by size.
Dimensions (mm) and mass (g)
Part number ØD maximum L maximum F ±0.5 Ød ±0.02 C minimum C’ minimum Mass (typical)
TV0820-3R0305-R 8.5 21 3.5 0.6 20 25 1.4
TV1020-3R0605-R 10.5 22.3 5 0.6 20 25 2.3
TV1030-3R0106-R 10.5 31.5 5 0.6 20 25 3.2
TV1325-3R0156-R 13.5 28.4 5 0.6 20 25 4.5
TV1625-3R0256-R 16.5 28.4 7.5 0.8 20 25 7.3
TV1245-3R0346-R 12.9 49 5 0.6 20 25 8
TV1635-3R0356-R 16.5 38 7.5 0.8 20 25 9.3
TV1840-3R0606-R 18.5 42 7.5 0.8 20 25 13
TV1860-3R0107-R 18.5 60.5 7.5 0.8 20 25 20
Part marking
Eaton logo
Capacitance value (F)
Maximum operating voltage (V)
TV Supercapacitors
Polarity mark
UL recognition Ru symbol
date code ywwyddd-nn
y=year code for cell build (z=2016)
ww=work week for cell build
y=year code for electrode (z=2016)
ddd=serial day of year for electrode build
nn=number of lot in the day
Longer lead is positive
4
Technical Data 10554
Effective July 2020
TV Supercapacitors
Cylindrical cells
www.eaton.com/electronics
Temperature vs. capacitance and ESR
0%
20%
40%
60%
80%
100%
120%
140%
160%
180%
-60 -40 -20 020406
080
Change from 20 °C Value
Temperature (°C)
Capacitance
ESR
Eaton
Electronics Division
1000 Eaton Boulevard
Cleveland, OH 44122
United States
Eaton.com/electronics
© 2020 Eaton
All Rights Reserved
Printed in USA
Publication No. 10554
July 2020
Technical Data 10554
July 2020
TV Supercapacitors
Cylindrical cells
Life Support Policy: Eaton does not authorize the use of any of its products for use in life support devices or systems without the express written
approval of an officer of the Company. Life support systems are devices which support or sustain life, and whose failure to perform, when properly used
in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.
Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also
reserves the right to change or update, without notice, any technical information contained in this bulletin.
Eaton is a registered trademark.
All other trademarks are property
of their respective owners.
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Temperature
Time
T
smin
Tsmax
Tstyp
Tp
tp
First Wave Second Wave
Preheat area Cool down area
Wave solder profile
Profile Feature Standard SnPb Solder Lead (Pb) Free Solder
Preheat and soak • Temperature max. (Tsmax)100 °C 100 °C
• Time max. 60 seconds 60 seconds
D preheat to max temperature 160 °C max. 160 °C max.
Peak temperature (TP)* 220 °C – 260 °C 250 °C – 260 °C
Time at peak temperature (tp)10 seconds max
5 seconds max each wave
10 seconds max
5 seconds max each wave
Ramp-down rate ~ 2 K/s min
~3.5 K/s typ
~5 K/s max
~ 2 K/s min
~3.5 K/s typ
~5 K/s max
Time 25 °C to 25 °C 4 minutes 4 minutes
Manual solder
+350 °C, 4-5 seconds. (by soldering iron), generally manual, hand soldering is not recommended.
Cleaning/Washing
Avoid cleaning of circuit boards, however if the circuit board must be cleaned use static or ultrasonic immersion in a standard circuit board
cleaning fluid for no more than 5 minutes and a maximum temperature of +60 °C. Afterwards thoroughly rinse and dry the circuit boards. In
general, treat supercapacitors in the same manner you would an aluminum electrolytic capacitor.