FFV3 (RoHS Compliant) Datasheet

Medium Power Film Capacitors
FFV3 (RoHS Compliant)
DC FILTERING
DC FILTERING
The series uses a metallized polypropylene or polyester dielectric, with the controlled self-healing process, specially treated
to have a very high dielectric strength in operating conditions
up to 105°C.
This is a dry solution for polypropylene and dry or wet for
polyester.
The FFV3 has been designed for printed circuit board mounting.
General tolerance: 0.5
B
1.2 B
1
A
2
1
2
3
4
30
APPLICATIONS
4
3
The FFV3 capacitors are particularly designed for DC filtering, low reactive power.
25
0.6 A
STANDARDS
IEC 61071-1, IEC 61071-2: Power electronic capacitors
IEC 60384-16: Fixed metallized polypropylene
film dielectric DC capacitors
IEC 60384-16-1: Fixed metallized polypropylene
film dielectric DC capacitors
Assessment level E
IEC 60384-17: Fixed metallized polypropylene
film dielectric AC and pulse
capacitors
IEC 60384-17-1: Fixed metallized polypropylene
film dielectric AC and pulse
capacitors
Assessment level E
IEC 60384-2: Fixed metallized polyester
capacitors
LIFETIME EXPECTANCY
One unique feature of this technology (as opposed to electrolytics) is how the capacitor reacts at the end of its lifetime.
Unlike aluminum, electrolytics film capacitors do not have a
catastrophic failure mode. Film capacitors simply experience
a parametric loss of capacitance of about 2%, with no risk of
short circuit.
Please note that this is theoretical, however, as the capacitor
continues to be functional even after this 2% decrease.
PACKAGING MATERIAL
Self-extinguishing plastic case (V0 = in accordance with UL 94)
filled thermosetting resin.
Self-extinguishing thermosetting resin (V0 = in accordance with
UL 94; I3F2 = in accordance with NF F 16-101).
18 ■ JUNE 2015
Plastic Case
16
40
1.2±0.1
0.8±0.1
40
4.5±1
36
HOT SPOT CALCULATION
See Hot Spot Temperature, page 3.
θhot spot = θambient + (Pd + Pt) x (Rth + 7.4)
θhot spot = θcase + (Pd + Pt) x Rth
with Pd (Dielectric losses) = Q x tgδ0
⇒ [ 1⁄2 x Cn x (Vpeak to peak)2 x f ] x tgδ0
tgδ0 (tan delta)
For polypropylene, tgδ0 = 2 x 10-4 for frequencies
up to 1MHz and is independent of temperatures.
For polyester, tgδ0 values are shown in graph 4
on page 3.
Pt (Thermal losses) = Rs x (Irms)2
where
Cn in Farad
Irms in Ampere
f in Hertz
θ in °C
V in Volt
Rs in Ohm
Rth : Rth case/hot spot in °C/W
Rth in °C/W
Medium Power Film Capacitors
FFV3 (RoHS Compliant) for Low Voltage Applications
FFV3
4
D
K
––
Series
Dielectric
4 = Polyester
6 = Polypropylene
Voltage Code
D = 75Vdc
J = 500Vdc
E = 100Vdc
A = 700Vdc
F = 160Vdc
C = 900Vdc
H = 300Vdc
L = 1100Vdc
I = 400Vdc
Capacitance
Tolerances
K = ±10%
Lead Styles
– – = Standard
DC FILTERING
HOW TO ORDER
Consult Factory
for Special
Options
ELECTRICAL CHARACTERISTICS – POLYESTER DIELECTRIC
Climatic category
Test voltage between terminals @ 25°C
Test voltage between terminals and case @ 25°C “
Capacitance range Cn
Tolerance on Cn
Rated DC voltage Vndc
Dielectric
Max Stray Inductance
40/105/56 (IEC 60068)
1.5 x Vndc during 10s
@ 4 kVrms @ 50 Hz during 1 min.
30μF to 160μF
±10%
75 to 400 V
polyester
15nH
RATINGS AND PART NUMBER REFERENCE – POLYESTER DIELECTRIC
Part Number
Capacitance
(μF)
FFV34D0137K-FFV34D0167K--
130
160
FFV34E0806K-FFV34E0107K--
80
100
FFV34F0556K-FFV34F0656K--
55
65
FFV34H0406K-FFV34H0506K--
40
50
FFV34I0306K--*
FFV34I0406K--*
30
40
Irms max.
I2t10 shots
I2t1000 shots
Rs
(A)
(A2s)
(A2s)
(m⍀)
Vndc = 75 V Vrms = 45 v max Voltage Code: D
23
370
37
0.56
28
560
56
0.47
Vndc = 100 V Vrms = 60 v max Voltage Code: E
19
250
25
0.67
24
390
39
0.55
Vndc = 160 V Vrms = 75 v max Voltage Code: F
17
180
18
0.77
20
260
26
0.66
Vndc = 300 V Vrms = 90 v max Voltage Code: H
20
150
15
2.80
26
230
23
2.25
Vndc = 400 V Vrms = 105 v max Voltage Code: I
17
110
11
2.93
23
200
20
2.21
Rth
(°C/W)
Typical
Weight (g)
5.6
5
90
90
6.2
5.4
90
90
6.6
6
90
90
9.6
8.5
90
90
9.9
8.4
90
90
(*) Polyester dielectric film wet silicone
LIFETIME EXPECTANCY vs Vw/Vn AND HOT SPOT TEMPERATURE
POLYESTER DIELECTRIC
1.2
50C
1.1
60C
1.0
Vw/Vndc
0.9
85C
0.8
0.7
0.6
70C
95C
105C
0.5
0.4
Vw = Permanent working
or operating DC voltage.
0.3
100
1000
10000
100000
Lifetime Expectancy (hours)
JUNE 2015
■ 19
Medium Power Film Capacitors
FFV3 (RoHS Compliant) DC for Medium and High Voltage Applications
ELECTRICAL CHARACTERISTICS – POLYPROPYLENE DIELECTRIC
Climatic category
Test voltage between terminals @ 25°C
Test voltage between terminals and case @ 25°C “
Capacitance range Cn
Tolerance on Cn
Rated DC voltage Vndc
Dielectric
Max Stray Inductance
40/105/56 (IEC 60068)
1.5 x Vndc during 10s
@ 4 kVrms @ 50 Hz during 1 min.
6μF to 25μF
±10%
500 to 1100 V
polypropylene
15nH
RATINGS AND PART NUMBER REFERENCE – POLYPROPYLENE DIELECTRIC
Part Number
Capacitance
(μF)
FFV36J0206K-FFV36J0256K--
20
25
FFV36A0146K-FFV36A0206K--
14
20
FFV36C0106K-FFV36C0136K--
10
13
FFV36L0605K-FFV36L0905K--
6
9
Irms max.
(A)
Vndc = 500 V
27
33
Vndc = 700 V
21
30
Vndc = 900 V
19
25
Vndc = 1100 V
13
20
I2t10 shots
I2t1000 shots
Rs
(A2s)
(A2s)
(m⍀)
Vrms = 105 v max Voltage Code: J
3200
320
5.88
5000
500
4.72
Vrms = 120 v max Voltage Code: A
2000
200
7.34
4200
420
5.15
Vrms = 150 v max Voltage Code: C
1600
160
8.21
2800
280
6.33
Vrms = 180 v max Voltage Code: L
800
80
11.4
1900
190
7.61
Rth
(°C/W)
Typical
Weight (g)
3.5
3.1
90
90
3.7
3.1
90
90
3.4
2.9
90
90
3.7
2.9
90
90
LIFETIME EXPECTANCY vs Vw/Vn AND HOT SPOT TEMPERATURE
POLYPROPYLENE DIELECTRIC
1.2
60C
1.1
Vw/Vndc
DC FILTERING
DC FILTERING
50C
70C
80C
1.0
85C
0.9
95C
0.8
105C
0.7
100
1000
10000
Lifetime Expectancy (hours)
Vw = Permanent working or operating DC voltage.
20 ■ JUNE 2015
100000