BZ015B603ZSB AVX Corporation, BZ015B603ZSB Datasheet - Page 23
BZ015B603ZSB
Manufacturer Part Number
BZ015B603ZSB
Description
CAP 60MF 5.5V CARBON SMD
Manufacturer
AVX Corporation
Series
BestCap® BZr
Datasheet
1.BZ015B303ZSB.pdf
(26 pages)
Specifications of BZ015B603ZSB
Capacitance
60mF
Voltage - Rated
5.5V
Height
0.232" (5.90mm)
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)
80.0 mOhm
Lifetime @ Temp.
1000 Hrs @ 70°C
Mounting Type
Surface Mount
Package / Case
3 Lead BZ01
Capacitance Tolerance
+80, -20%
Voltage Rating
5.5VDC
Esr
0.08ohm
No. Of Pins
3
Capacitor Mounting
SMD
Operating Temperature Range
-20°C To +70°C
Dimensions
17 mm W x 28 mm L
Product
Super Capacitors
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Spacing
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
478-6268
4.4 BESTCAP FOR GSM/GPRS PCMCIA
MODEMS
There is an increasing usage of PCMCIA modem cards for
wireless LAN and WAN (Wide Area Network) applications.
The PCMCIA card is used as an accessory to Laptops and
PDA’s, and enables wide area mobile Internet access,
including all associated applications like Email and file
transfer.
With the wide spread use of GSM networks, a PCMCIA
GSM modem is a commonly used solution. To achieve
higher speed data rates, GSM networks are now being
upgraded to support the GPRS standard.
The design challenge:
GSM/GPRS transmission requires a current of approximate-
ly 2A for the pulse duration. The PCMCIA bus cannot supply
this amount of pulsed current. Therefore, there is a need for
a relatively large capacitance to bridge the gap.
The capacitor supplies the pulse current to the transmitter,
and is charged by a low current during the interval between
pulses.
22
BestCap
High Power Pulse Supercapacitors
V
PCMCIA bus
+
from
Current
Voltage
2 Ampere
Capacitor
®
Ultra-low ESR
Transmitter
* V=V
THE SOLUTION:
It is assumed that during the pulse, 0.5A is delivered by the
battery, and 1.5A by the capacitor.
Conclusion: High capacitance is needed to minimize voltage
drop. A high value capacitance, even with a higher ESR,
results in a lower voltage drop. Low voltage drop minimizes
the conductive and emitted electro magnetic interference,
and increases transmitter output power and efficiency.
Voltage After Pulse (V)
Operating Voltage (V)
Rated Capacitance
@ 0.5msec Pulse
Cutoff Voltage (V)
Voltage Drop* (V)
(25% duty cycle)
V
Capacitance
GPRS Pulse
(milli Farad)
(milli Farad)
1
(milli ohm)
Pass/FAIL
Size (mm)
+V
ESR
2
=1.5A*ESR + (1.5A*1.154msec)/C
Chip Tantalum
SOLUTION A
.4 x 7 x 2
0.804V
2.896
FAIL
2.2
2.2
3.7
3.1
50
}
}
V
V
BZ154B473ZSB
SOLUTION B
1
2
20 x 15 x 2.1
BestCap
= I*ESR
= I* t/C
0.268V
3.432
PASS
160
3.7
3.1
t
47
30
®
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