Type ESRD
Solid Polymer Aluminum SMT Capacitors
Filtering power of 3 or more tantalum chips and 50 year life
Solid Polymer Aluminum capacitors combine the high capacitance capability of an
electrolytic component with the high frequency performance of film capacitors. When
the need for low impedance at high frequency is critical for your design, one ESRD
chip is capable of replacing several liquid electrolyte aluminum or tantalum capacitors
connected in parallel. This is due to the ultra-low ESR which results in significantly
lower impedance than either aluminum or tantalum capacitors at frequencies of 100
kHz and above. There is no longer a need to stack capacitors to lower the impedance
at high frequency. The low ESR and high capacitance make them ideal for bypassing
high frequency noise, and for switching frequency filtering in DC/ DC conversion.
ESRD capacitors are packaged in a molded resin case with the same footprint (7.3 x
4.3 mm) as the industry standard tantalum “D” and “E” case sizes. The solid electrolyte
results in a capacitor with stable impedance and equivalent series resistance over
the entire operating temperature range and they have more than twice the ripple
current handling capability of tantalum capacitors. In addition, the solid electrolyte
delivers a typical expected operating life of more than 50 years, and it is ignition free.
RoHS Compliant
Applications
Markings
Motherboard By-Pass
Switching Supply Input/Output Filters
Power Supply Decoupling
High Frequency Noise Reduction
Laptop LCD Displays
Automotive Digital Equipment
Portable Electronic Equipment
Polarity Stripe (Anode)
+
W.V. Code
D = 2.0 V K = 8.0 V
E = 2.5 V
B = 12.5 V
G = 4.0 V C = 16.0 V
J = 6.3 V
Capacitance
(“R” = Decimal Point)
Lot Code
Ordering Information
ESRD
4R7
M
16
R
Packaging Code
CDE
Type
Capacitance
Code
4R7
= 4.7 µF
220
= 22 µF
101
= 100 µF
R
= Tape & Reel
ESRD
(1.8 mm Ht.): 3500 pcs/reel
ESRD
(2.8 mm Ht.): 2000 pcs/reel
Capacitance
Tolerance
M
= ± 20%
WVDC Code
02
= 2.0 Vdc
08
= 8.0 Vdc
0E
= 2.5 Vdc
12
= 12.5 Vdc
04
= 4.0 Vdc
16
= 16.0 Vdc
06
= 6.3 Vdc
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830 • www.cde.com
Type ESRD
Solid Polymer Aluminum SMT Capacitors
High Voltage
Outline Drawing
Dimensions in mm
H = see ratings
table
Ratings
Capacitance
(µF)
100
120
180
220
270
82
100
150
180
220
56
82
120
150
10
22
33
47
68
100
120
8.2
15
22
33
68
4.7
10
15
22
2.2
4.7
6.8
8.2
Catalog
Part Number
(Tape & Reel)
ESRD101M02R
ESRD121M02XR
ESRD181M02R
ESRD221M02R
ESRD271M02XR
ESRD820M0ER
ESRD101M0EXR
ESRD151M0ER
ESRD181M0ER
ESRD221M0EXR
ESRD560M04R
ESRD820M04XR
ESRD121M04R
ESRD151M04XR
ESRD100M06R
ESRD220M06R
ESRD330M06R
ESRD470M06R
ESRD680M06XR
ESRD101M06R
ESRD121M06XR
ESRD8R2M08R
ESRD150M08R
ESRD220M08R
ESRD330M08R
ESRD680M08R
ESRD4R7M12R
ESRD100M12R
ESRD150M12R
ESRD220M12R
ESRD2R2M16R
ESRD4R7M16R
ESRD6R8M16R
ESRD8R2M16R
Maximum
E.S.R
100 kHz/20 °C
(Ω)
2.0 Vdc
0.018
0.015
0.015
0.015
0.012
Maximum1
Ripple Current
100 kHz/105 °C
(Amps)
2.5
2.7
3.0
3.0
3.3
2.5
2.7
3.0
3.0
3.3
2.5
2.7
3.0
3.3
1.4
1.6
2.0
2.5
2.7
3.0
3.3
1.4
1.6
2.0
2.5
3.0
1.0
1.0
1.3
1.6
1.0
1.0
1.0
1.3
Case
Height
H
(mm)
1.8 ±0.1
1.8 ±0.1
2.8 ±0.2
2.8 ±0.2
2.8 ±0.2
1.8 ±0.1
1.8 ±0.1
2.8 ±0.2
2.8 ±0.2
2.8 ±0.2
1.8 ±0.1
1.8 ±0.1
2.8 ±0.2
2.8 ±0.2
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
2.8 ±0.2
2.8 ±0.2
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
2.8 ±0.2
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
1.8 ±0.1
2.5 Vdc
0.018
0.015
0.015
0.015
0.012
4.0 Vdc
0.018
0.015
0.015
0.012
6.3 Vdc
0.055
0.040
0.028
0.018
0.015
0.015
0.012
8.0 Vdc
0.055
0.040
0.028
0.018
0.015
12.5 Vdc
0.080
0.060
0.050
0.030
16.0 Vdc
0.110
0.080
0.070
0.045
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830 • www.cde.com
Type ESRD
Solid Polymer Aluminum SMT Capacitors
Specifications
Operating Temperature Range:
–55 °C to +105 °C, at 100% rated voltage
Surge Voltage:
125% of the rated working Vdc
Capacitance Range:
2.2 µF to 270 µF
Capacitance Tolerance:
±20% at 120 Hz and +20 °C
DC Leakage Current (DCL):
After a two minute application of the rated working
voltage at +20 °C:
2V — 4V:
I
≤0.06CV
6.3V — 16V:
I
≤0.04CV
or 3 µA
Moisture Resistance:
After 500 hours storage at +60 ºC and 90% to
95% RH without load, the capacitor will meet the
following limits:
∆C
= +70%/–20% of the initial
measured value (2.0 Vdc, 2.5 Vdc),
+60%/–20% of the initial
measured value (4.0 Vdc),
+50%/–20% of the initial
measured value (6.3 Vdc),
+40%/–20% of the initial
measured value (all other voltages)
DF
≤
two times the initial specified value
DCL
≤
the initial specified value
Life Test:
Apply rated DC working voltage at 105 ºC for 1000
hours, and then stabilize them to +20 ºC. Capacitors
will meet the following limits:
∆C
= ±10% of the initial measured value
DF
≤
the initial specified value
DCL
≤
the initial specified value
Shelf Life Test:
Shelf life is typically 5 to 10 years. Accelerated test:
after 500 hours at 105 ºC, capacitors will meet the
following limits after stabilization at 20 ºC:
∆C
= ±10% of the initial measured value
DF
≤ the
initial specified value
DCL
≤
the initial specified value
Shear Test:
No damage shall be visible after subjecting a
mounted capacitor to a side force of 5 N for 10
seconds
(whichever greater)
Dissipation Factor (DF):
The ratio of the capacitorís equivalent series
resistance to its reactance at 120Hz and +20 ºC
ESRD (1.8 mm ht.): DF is 0.06 Max.
ESRD (2.8 mm ht.): DF is 0.10 Max.
Resistance to Soldering Heat:
Heat the capacitors at 235 ºC in an oven for 200
seconds. The capacitors will meet the following
limits after stabilizing at 20 ºC:
∆C
= ±10% of the initial measured value
DF
≤
the initial specified value
DCL
≤
the initial specified value
Vibration:
No abnormal change shall occur to capacitors that
have been soldered (and attached) to a board when
subjected to a vibration of 1.5 mm amplitude that
is varied from 10 Hz to 2000 Hz in 20 min. cycles.
The test duration is 2 hours for each right angle
direction (total 6 hours). Capacitance is monitored
during the last cycle of the test for stablilty.
(For more information on this product please see the Solid Polymer Aluminum Capacitors Application Guide)
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830 • www.cde.com
Type ESRD
Solid Polymer Aluminum SMT Capacitors
Notice and Disclaimer:
All product drawings, descriptions, specifications, statements, information and data
(collectively, the “Information”) in this datasheet or other publication are subject to change. The customer
is responsible for checking, confirming and verifying the extent to which the Information contained in this
datasheet or other publication is applicable to an order at the time the order is placed. All Information given
herein is believed to be accurate and reliable, but it is presented without any guarantee, warranty, representation
or responsibility of any kind, expressed or implied. Statements of suitability for certain applications are based
on the knowledge that the Cornell Dubilier company providing such statements (“Cornell Dubilier”) has
of operating conditions that such Cornell Dubilier company regards as typical for such applications, but
are not intended to constitute any guarantee, warranty or representation regarding any such matter – and
Cornell Dubilier specifically and expressly disclaims any guarantee, warranty or representation concerning
the suitability for a specific customer application, use, storage, transportation, or operating environment.
The Information is intended for use only by customers who have the requisite experience and capability to
determine the correct products for their application. Any technical advice inferred from this Information or
otherwise provided by Cornell Dubilier with reference to the use of any Cornell Dubilier products is given
gratis (unless otherwise specified by Cornell Dubilier), and Cornell Dubilier assumes no obligation or liability
for the advice given or results obtained. Although Cornell Dubilier strives to apply the most stringent quality
and safety standards regarding the design and manufacturing of its products, in light of the current state
of the art, isolated component failures may still occur. Accordingly, customer applications which require a
high degree of reliability or safety should employ suitable designs or other safeguards (such as installation
of protective circuitry or redundancies or other appropriate protective measures) in order to ensure that the
failure of an electrical component does not result in a risk of personal injury or property damage. Although
all product-related warnings, cautions and notes must be observed, the customer should not assume that all
safety measures are indicated in such warnings, cautions and notes, or that other safety measures may not be
required.
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830 • www.cde.com
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