BZ014B333ZSB AVX Corporation, BZ014B333ZSB Datasheet - Page 3

CAP 33MF 4.5V CARBON SMD

BZ014B333ZSB

Manufacturer Part Number
BZ014B333ZSB
Description
CAP 33MF 4.5V CARBON SMD
Manufacturer
AVX Corporation
Series
BestCap® BZr
Datasheet

Specifications of BZ014B333ZSB

Capacitance
33mF
Voltage - Rated
4.5V
Height
0.138" (3.50mm)
Size / Dimension
1.102" L x 0.669" W (28.00mm x 17.00mm)
Operating Temperature
-20°C ~ 70°C
Tolerance
-20%, +80%
Esr (equivalent Series Resistance)
150.0 mOhm
Lifetime @ Temp.
1000 Hrs @ 70°C
Mounting Type
Surface Mount
Package / Case
3 Lead BZ01
Capacitance Tolerance
+80, -20%
Voltage Rating
4.5VDC
Esr
0.15ohm
No. Of Pins
3
Capacitor Mounting
SMD
Operating Temperature Range
-20°C To +70°C
Dimensions
17 mm W x 28 mm L
Leakage Current
5 uAmps
Product
Super Capacitors
Voltage Rating Vdc
4.5V
Rohs Compliant
Yes
External Depth
2.1mm
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Spacing
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
478-6265
BestCap
High Power Pulse Supercapacitors
Supercapacitors, (also referred to as Electrochemical
Capacitors or Double Layer Capacitors) have rapidly become
recognized, not only as an excellent compromise between
“electronic” or “dielectric” capacitors such as ceramic,
tantalum, film and aluminum electrolytic, and batteries (Figure
1), but also as a valuable technology for providing a unique
combination of characteristics, particularly very high energy,
power and capacitance densities.
In the above-mentioned “electronic” capacitors, the charge
transfer is performed by fast electrons, thereby creating
virtually instant rated capacitance value. In the BestCap
unique proton polymer membrane is used – charge transfer
by protons is close to the transfer rate for electrons and
orders of magnitude greater than organic molecules. Figure
2 below illustrates the severe capacitance loss experienced
2
INTRODUCING
BESTCAP
100%
80%
60%
40%
20%
0%
1000
®
: A NEW GENERATION OF PULSE SUPERCAPACITORS
®
Ultra-low ESR
0.1
Figure 1. Specific Energy of Capacitor Types
Figure 2. Actual Capacitance vs. Pulse Width
SPECIFIC ENERGY
100
1
Pulse Width (msec)
ELECTROLYTIC
10
Capacitance (mF)
®
, a
CAPACITOR
10
100
There are however, two limitations associated with
conventional supercapacitors, namely: high ESR in the tens
of Ohms range, and high capacitance loss when required to
supply very short duration current pulses. BestCap
successfully addresses both of these limitations.
The capacitance loss in the millisecond region is caused by
the charge transfer (i.e. establishment of capacitance) being
carried out primarily by relatively slow moving ions in double
layer capacitors.
by several varieties of supercapacitors, under short pulse
width conditions. It can also be seen from Figure 2, how well
BestCap
For comparison purposes, the characteristic of an equivalent
capacitance value aluminum electrolytic capacitor is shown
in Figure 2. The electrolytic capacitor is many times the vol-
ume of the BestCap
1000
®
retains its capacitance with reducing pulse widths.
10000
®
®
.
1
10000
1000
100
10
1
EDLC-Electrochemical
double layer capacitor
Aluminum Electrolytic Capacitor
manufacturer A EDLC
manufacturer B EDLC
manufacturer C EDLC
®

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