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FSB16U0154J Datasheet, PDF (1/5 Pages) AVX Corporation – Medium Power Film Capacitors
Medium Power Film Capacitors
FSB (RoHS Compliant)
GENERAL DESCRIPTION
Metallized polypropylene dielectric capacitor with controlled
self-healing.
Reinforced metallization developed for high impulse currents.
APPLICATIONS
• IGBT protection
• IGBT clamping
PACKAGING MATERIAL
• Plastic case backfilled with thermosetting resin
HOW TO ORDER
FSB
1
6
U
0154
J
––
Series
Case Size
Dielectric
1 = PO Style
6 = Polypropylene
2 = 18 Style
3 = 19 Style
4 = 26 style
5 = R28 Style
(2 terminal
or 4 terminal)
6-C (Lug Terminals)
Voltage
Code
A = 700V
B = 850V
C = 1000V
U = 1200V
G = 1500V
N = 2000V
ELECTRICAL CHARACTERISTICS
Capacitance
Code
0 + pF code
0154 = 0.15μF
0334 = 0.33μF
0255 = 2.5μF
etc.
Capacitance
Tolerances
J = ± 5%
K = ±10%
(Case size 6 only)
Terminal Code
– – = 2 Terminal
JC = 4 Terminal
(Case Size 5 option only)
90 = 90° Terminals
18 = 180° Terminals
(Case size 6-C options only)
Capacitance Range Cn
0.10μF to 5.6μF
Tolerance on Cn
Rated DC Voltage Vndc
Stray Inductance
±5%, ±10%
700 to 2000 V
≤ 25 nH
RMS Current
Irms max. = up to 28A
The currents shown in the tables are maximum.
It is necessary to maintain operation within the maximum temperature of the
dielectric 85°C. See “Hot spot temperature calculation”
Insulation Resistance
Impulse Current
Ri x C ≥ 30,000 s
I2.t max. = up to 1.69 A2s
Spikes or peak currents in the capacitors may cause a deterioration of the
bonding between the metallization and the connections. These bonds are
capable of withstanding only a limited amount of energy for each spike. The
table shows the maximum energy permitted in the form (I2.t), where I is in
Amperes, and t is in seconds.
Note: The formula (I2.t) replaces dv/dt which is less easy to use as it is not an expression of energy (I = C.dv/dt).
This type of capacitor has been designed to withstand high (I2.t) values.
Variation of Capacitance with Temperature
ΔC
C
≤
±2%
between
-40
and
+85°C
Climatic Category
Test Voltage Between Terminals @ 25°C
Withstanding Voltage Between Terminals
and Case @ 25°C
40/085/56 (IEC 68)
1.6 Vndc during 10s
@ 3 kVrms @ 50Hz during 1 min.
86
031416