184
275 VAC 50/60 Hz
0.1 and 0.15
2200, 3300 and 4700
± 20%
–40 to +100°C
40/100/56/B
S, UL, CSA
≤ 1.3 % at 1 kHz
≥ 12000 MΩ
Measured at 500 VDC after 60 s, +23°C
The 100% screening factory test is carried
out at 2150 VDC for X2 capacitors and at
3000 VDC for Y2 capacitors. The voltage
level is selected to meet the requirements
in applicable equipment standards. All
electrical characteristics are checked after
the test.
PZB300
• Delta EMI suppressor, classes X2 and Y2, metallized paper
• 0.1 and 0.15 µF X2, 2200, 3300 and 4700 pF Y2, 275 VAC, +100 °C
TYPICAL APPLICATIONS
CONSTRUCTION
TECHNICAL DATA
Interference suppressors with X2 + 2 x Y2
capacitors in a delta configuration.
Multi-layer metallized paper. Encapsulated
and impregnated in self-extinguishing
material meeting the requirements of UL
94V-0.
Rated voltage
Capacitance X value, µF
Capacitance Y value, pF
Capacitance tolerance
Temperature range
Climatic category IEC
Approvals
Dissipation factor tan
δδδδδ
Insulation resistance
Test voltage between
terminals
ENVIRONMENTAL TEST DATA
Vibration
IEC 60068-2-6
3 directions at 2 hour each
No visible damage
Test Fc
10 – 500 Hz at
No open or short circuit
0.75 mm or 98 m/s2
(PZB300MC.. mounted on PC-board)
Bump
IEC 60068-2-29
4000 bumps at
No visible damage
Test Eb
390 m/s2
No open or short circuit
Solderability
IEC 60068-2-20
Solder globule
Wetting time < 1 s
Test Ta
method
Active
EN 132400
flammability
Passive
IEC 60384-14 (1993)
flammability
EN 132400
Humidity
IEC 60068-2-3
+40°C and
56 days
Test Ca
90 – 95% R.H.
• Class X2 and Y2
• Compact size
• Self-extinguishing encapsulation.
• PCB mounting or fast-on connection
• Excellent self-healing properties.
Ensures long life even when subjected to
frequent overvoltages.
• High dU/dt capability.
• Good resistance to ionisation due to
impregnated dielectric material.
max 24.0
max 12.5
∅ 0.8
C
X
C
Y
C
Y
20.0
± 0.5
max 24.0
max 12.5
∅ 0.8
21.3
± 1.5
0.8
4.75 ± 0.1
12
1
MHz
70
60
50
40
30
20
10
0
f
dB
530
10
100
3
200
Attenuation
CY
CX
Suppression vs. frequency
Attenuation, typical values,
0.1 µF + 2 x 2200 pF
• The impregnated paper ensures
excellent stability giving oustanding
reliability properties, especially in
applications having continuous
operation.