Plastic Film Capacitors
Metallized Polypropylene Film Capacitor (For Automotive)
ECWFG series
Non-inductive construction using metallized polypropylene
film with flame retardant plastic case.
Features
● High safety (with safety function)
● High moisture resistance (85℃, 85%)
・ 600 V
:420 V, 500 h
・ 630 V
:500 V, 1000 h
・ 700 V
:500 V, 1000 h
・ 800 V
:560 V, 500 h
・ 1100 V :700 V, 500 h (C < 2.0 μF) / 770 V, 500 h (C ≧ 2.0 μF)
● High thermal shock resistance (600 to 1100 V : -55℃ ⇔ 85℃, 1000 cycles)
● High temperature load test (125℃)
・ 600 V
:360 V, 1000 h
・ 630 V
:450 V, 1000 h
・ 700 V
:450 V, 1000 h
・ 800 V
:480 V, 1000 h
・ 1100 V :660 V, 1000 h
● Flame-retardant plastic case and non-combustible resin
● AEC-Q200 compliant
● RoHS compliant
Recommended applications
● DC/DC, AC/DC converter circuit in xEV
● High frequency and high current circuits
Explanation of part number
■ Lead pitch : 22.5 mm
1
2
3
4
5
E
C
W
F
G
Product code
6
Dielectric &
construction
7
8
Rated voltage
9
10
Capacitance
11
12
Suffix 1
Suffix 2
Code
R.voltage [DC]
Code
Cap. Tol.
Code
2J
630 V
P
±5 % (J)
1
Lead form
Straight
Q
±10 % (K)
A
Cut lead
■ Lead pitch : 27.5 mm
1
2
3
4
5
E
C
W
F
G
Product code
6
Dielectric &
construction
7
Rated voltage
Code
R.voltage [DC]
60
600 V
2J
630 V
70
700 V
80
800 V
1B
1100 V
8
9
10
Capacitance
R. volt. code
2J, 70
60, 80, 1B
11
12
Cap. Tol.
Suffix 2
Code
Cap. Tol.
Code
J
±5 %
Blank
Straight
K
±10 %
A
Cut lead
J
±5 %
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
Lead form
10-Feb-21
ECWFG (For automotive) series
Specifications
Category temp. range
−40 ℃ to +110 ℃
(Including temperature-rise on unit surface)
Rated voltage [DC]
600 V to 1100 V( Derating of rated voltage by 1.0 % / ℃ at more than 85 ℃)
2.0 µF to 12.0 μF
Lead pitch:27.5 mm
1.0 µF to 3.0 µF
Lead pitch:22.5 mm
630 V
1.0 µF to 4.7 μF
Lead pitch:27.5 mm
700 V
1.0 µF to 4.7 μF
Lead pitch:27.5 mm
800 V
2.0 µF to 8.0 μF
Lead pitch:27.5 mm
1100 V
1.0 µF to 5.0 μF
Lead pitch:27.5 mm
±5% (J), ±10 % (K)
tan δ ≦ 0.1 % (20 ℃, 1 kHz)
Between terminals: Rated voltage (V) × 150 % 60 s
IR ≧ 3,000 MΩ・uF (20 ℃, 500 V [DC], 60 s)
600 V
Capacitance range
Capacitance tolerance
Dissipation factor (tan δ)
Withstand voltage
Insulation resistance (IR)
* In case of applying voltage in alternating current (50 Hz or 60 Hz sine wave) to a capacitor with DC rated voltage,
please refer to the page of “Permissible voltage (R.M.S) in alternating current corresponding to DC rated voltage”.
Dimensions
L±0.5
Cut lead
(Suffix A)
Marking
example
WFG105J
Marking
4.0±0.5
F±0.4
20 min.
H±0.5
T±0.5
ød±0.05
Date code
Rated voltage code
or rated voltage
Copper wire
+1.4
Q -0.6
P(Lead location limits from center)
Unit:mm
Rating · Dimensions · Quantity
■ Rated voltage [DC]:600 V, Capacitance tolerance:±5 %(J)
Part No
ECWFG60205J( )
ECWFG60225J( )
ECWFG60275J( )
ECWFG60305J( )
ECWFG60335J( )
ECWFG60355J( )
ECWFG60395J( )
ECWFG60405J( )
ECWFG60475J( )
ECWFG60505J( )
ECWFG60565J( )
ECWFG60605J( )
ECWFG60685J( )
ECWFG60705J( )
ECWFG60755J( )
ECWFG60805J( )
ECWFG60825J( )
ECWFG60905J( )
ECWFG60106J( )
ECWFG60126J( )
Dimensions (mm)
Cap.
(μF)
L
T
H
F
ød
P
Q
2.0
2.2
2.7
3.0
3.3
3.5
3.9
4.0
4.7
5.0
5.6
6.0
6.8
7.0
7.5
8.0
8.2
9.0
10.0
12.0
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
8.0
8.0
9.5
9.5
9.5
9.5
10.5
10.5
12.0
12.0
12.0
12.0
12.0
13.5
13.5
13.5
13.5
13.5
13.5
17.5
17.0
17.0
18.0
18.0
18.0
18.0
21.0
21.0
24.5
24.5
24.5
24.5
24.5
28.5
28.5
28.5
28.5
28.5
28.5
32.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
Min. order Q’ty
(PCS)
Straight
400
400
400
400
400
400
300
300
200
200
200
200
200
150
150
150
150
150
150
150
Cut lead
400
400
350
350
350
350
300
300
250
250
250
250
250
150
150
150
150
150
150
100
*( ) : Suffix for lead crimped
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Rating · Dimensions · Quantity
■ Rated voltage [DC]:630 V, Capacitance tolerance:±5 %(J), ±10 %(K)
[ Lead pitch : 22.5 mm ]
Part No
ECWFG2J105P( )
ECWFG2J105Q( )
ECWFG2J155P( )
ECWFG2J155Q( )
ECWFG2J225P( )
ECWFG2J225Q( )
ECWFG2J305P( )
ECWFG2J305Q( )
Dimensions (mm)
Cap.
(μF)
L
T
H
F
ød
P
Q
1.0
27.0
10.5
19.0
22.5
1.0
0±0.8
1.5
27.0
12.0
21.0
22.5
1.0
2.2
27.0
15.5
24.0
22.5
3.0
27.0
17.5
26.5
22.5
Min. order Q’ty
(PCS)
Straight
Cut lead
2.25
400
350
0±0.8
2.25
300
300
1.0
0±0.8
2.25
200
250
1.0
0±0.8
2.25
150
150
*( ):Suffix for lead crimped
[ Lead pitch : 27.5 mm ]
Part No
ECWFG2J105□( )
ECWFG2J155□( )
ECWFG2J225□( )
ECWFG2J305□( )
ECWFG2J475□( )
Dimensions (mm)
Cap.
(μF)
L
T
H
F
ød
P
Q
1.0
1.5
2.2
3.0
4.7
31.5
31.5
31.5
31.5
31.5
9.5
10.5
12.0
13.5
17.5
18.0
21.0
24.5
28.5
32.5
27.5
27.5
27.5
27.5
27.5
1.0
1.0
1.0
1.0
1.0
0±0.8
0±0.8
0±0.8
0±0.8
0±0.8
2.0
2.0
2.0
2.0
2.0
*□:Capacitance tolerance code
Min. order Q’ty
(PCS)
Straight
400
300
200
150
100
Cut lead
350
300
250
150
100
*( ) : Suffix for lead crimped
■ Rated voltage [DC]:700 V, Capacitance tolerance:±5 %(J), ±10 %(K)
Part No
ECWFG70105□( )
ECWFG70155□( )
ECWFG70205□( )
ECWFG70225□( )
ECWFG70305□( )
ECWFG70395□( )
ECWFG70475□( )
Dimensions (mm)
Cap.
(μF)
L
T
H
F
ød
P
Q
1.0
1.5
2.0
2.2
3.0
3.9
4.7
31.5
31.5
31.5
31.5
31.5
31.5
31.5
9.5
10.5
12.0
12.0
13.5
17.5
17.5
18.0
21.0
24.5
24.5
28.5
32.5
32.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
1.0
1.0
1.0
1.0
1.0
1.0
1.0
0±0.8
0±0.8
0±0.8
0±0.8
0±0.8
0±0.8
0±0.8
2.0
2.0
2.0
2.0
2.0
2.0
2.0
*□:Capacitance tolerance code
Min. order Q’ty
(PCS)
Straight
400
300
200
200
150
100
100
Cut lead
350
300
250
250
150
100
100
*( ) : Suffix for lead crimped
■ Rated voltage [DC]:800 V, Capacitance tolerance:±5 %(J)
Part No
ECWFG80205J( )
ECWFG80225J( )
ECWFG80275J( )
ECWFG80305J( )
ECWFG80335J( )
ECWFG80355J( )
ECWFG80395J( )
ECWFG80405J( )
ECWFG80475J( )
ECWFG80505J( )
ECWFG80565J( )
ECWFG80605J( )
ECWFG80685J( )
ECWFG80705J( )
ECWFG80755J( )
ECWFG80805J( )
Dimensions (mm)
Cap.
(μF)
L
T
H
F
ød
P
Q
2.0
2.2
2.7
3.0
3.3
3.5
3.9
4.0
4.7
5.0
5.6
6.0
6.8
7.0
7.5
8.0
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
31.5
10.5
10.5
12.0
12.0
12.0
13.5
13.5
13.5
13.5
16.0
16.0
16.0
17.5
17.5
17.5
17.5
21.0
21.0
24.5
24.5
24.5
28.5
28.5
28.5
28.5
29.5
29.5
29.5
32.5
32.5
32.5
32.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
27.5
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
0±1.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
Min. order Q’ty
(PCS)
Straight
300
300
200
200
200
150
150
150
150
150
150
150
150
150
150
150
Cut lead
300
300
250
250
250
150
150
150
150
100
100
100
100
100
100
100
*( ) : Suffix for lead crimped
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Rating · Dimensions · Quantity
■ Rated voltage [DC]:1100 V, Capacitance tolerance:±5 %(J)
Dimensions (mm)
Cap.
(μF)
L
T
H
F
ød
P
Q
ECWFG1B105J( )
1.0
31.5
10.5
21.0
27.5
0.8
0±1.0
2.0
ECWFG1B155J( )
1.5
31.5
12.0
24.5
27.5
0.8
0±1.0
2.0
ECWFG1B205J( )
2.0
31.5
12.0
24.5
27.5
0.8
0±1.0
2.0
ECWFG1B225J( )
2.2
31.5
13.5
28.5
27.5
0.8
0±1.0
2.0
ECWFG1B305J( )
3.0
31.5
16.0
29.5
27.5
0.8
0±1.0
2.0
ECWFG1B335J( )
3.3
31.5
16.0
29.5
27.5
0.8
0±1.0
2.0
ECWFG1B405J( )
4.0
31.5
17.5
32.5
27.5
0.8
0±1.0
2.0
ECWFG1B475J( )
4.7
31.5
18.5
35.0
27.5
0.8
0±1.0
2.0
ECWFG1B505J( )
5.0
31.5
18.5
35.0
27.5
0.8
0±1.0
2.0
Part No
Min. order Q’ty
(PCS)
Straight
Cut lead
300
300
200
250
150
150
100
100
*( ) : Suffix for lead crimped
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:600 V
Electrical characteristics
Frequency characteristics
Temperature characteristics
[ Capacitance change ]
5
12.0 μF
0
2.0 μF
-5
-10
-40
-20
0
20
40
60
[ Capacitance change ]
10
Capacitance change (%)
Capacitance change (%)
10
at
1 kHz
80
5
2.0 μF
0
-5
-10
100
12.0 μF
1
10
Temperature (℃)
Dissipation factor (%)
0.2
12.0 μF
0
2.0 μF
-40
-20
0
20
40
[ Dissipation factor ]
10
0.3
0.1
60
80
8
6
4
2
0
100
12.0 μF
2.0 μF
1
10
[ Insulation resistance ]
1.E+13
1000
1.E+12
1.E+11
2.0 μF
1.E+10
1.E+09
12.0 μF
100
10
2.0 μF
1
12.0 μF
0.1
1.E+08
1.E+07
1000
[ Impedance characteristics ]
10000
Impedance (Ω)
Insulation resistance (Ω)
1.E+14
100
Frequency (kHz)
Temperature (℃)
at DC
100 V
1000
Frequency (kHz)
[ Dissipation factor ]
Dissipation factor (%)
0.4
at
1 kHz
100
-40
-20
0
20
40
60
Temperature (℃)
80
100
0.01
1
10
100
1000
10000
Frequency (kHz)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:600 V
Applicable specifications
[ Permissible Current Derating
by Temperature ]
[ Permissible Current ]
Percentage to the permissible current (%)
6.0
Permissible current (A rms)
5.0 μF
4.7 μF
5.0
4.0 μF
3.9 μF
3.5 μF
3.3 μF
4.0
3.0 μF
2.7 μF
2.2 μF
100
80
60
40
39 %
20
0
-40
2.0 μF
3.0
10
100
Percentage to the rated voltage (%)
Permissible current (A rms)
12.0 μF
10.0 μF
9.0 μF
8.2 μF
8.0 μF
7.5 μF
7.0 μF
6.8 μF
6.0 μF
5.6 μF
5.0
10
100
Frequency (kHz)
20
40
60
80
100
[ Voltage Derating by Temperature ]
9.0
6.0
0
Temperature of capacitor surface (℃)
10.0
7.0
-20
1000
Frequency (kHz)
8.0
87 %
100
90
80
70
75 %
60
50
-40
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
1000
Permissible pulse current (dV/dt)(Max. 10000 cycles)
R. voltage
[DC] (V)
Capacitance
(μF)
Code
600
2.0
2.2
2.7
3.0
3.3
3.5
3.9
4.0
4.7
5.0
205
225
275
305
335
355
395
405
475
505
dV/dt
(V/μs)
Current
(Ao-p)
40
80
88
108
120
132
140
156
160
188
200
R. voltage
[DC] (V)
Capacitance
(μF)
Code
600
5.6
6.0
6.8
7.0
7.5
8.0
8.2
9.0
10.0
12.0
565
605
685
705
755
805
825
905
106
126
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
dV/dt
(V/μs)
Current
(Ao-p)
40
224
240
272
280
300
320
328
360
400
480
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:630 V
Electrical characteristics
Temperature characteristics
at
1 kHz
10
Frequency characteristics
[ Capacitance change ]
[ Capacitance change ]
10
Capacitance change (%)
Capacitance change (%)
3.0 μF
5
3.0, 4.7 μF
0
1.0 μF
-5
-10
-40
-20
0
20
40
60
80
0
1.0 μF
-5
-10
100
4.7 μF
5
1
10
[ Dissipation factor ]
0.4
0.3
0.2
0.1
0
3.0 μF
4.7 μF
-40
-20
0
20
40
60
[ Dissipation factor ]
10
1.0 μF
80
Dissipation factor (%)
Dissipation factor (%)
0.5
8
6
3.0 μF
4
0
100
4.7 μF
2
1.0 μF
1
10
[ Insulation resistance ]
1.E+13
1000
3.0 μF
1.E+12
1.0 μF
1.E+11
1.E+10
1.E+09
4.7 μF
100
3.0 μF
10
1.0 μF
1
4.7 μF
0.1
1.E+08
1.E+07
-40
-20
0
20
1000
[ Impedance characteristics ]
10000
Impedance (Ω)
Insulation resistance (Ω)
1.E+14
100
Frequency (kHz)
Temperature (℃)
at DC
100 V
1000
Frequency (kHz)
Temperature (℃)
at
1 kHz
100
40
60
Temperature (℃)
80
100
0.01
1
10
100
1000
10000
Frequency (kHz)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:630 V
Applicable specifications
[ Permissible Current Derating
by Temperature ]
Percentage to the permissible current (%)
[ Permissible Current ]
Lead pitch 22.5 mm
Permissible current (A rms)
12.0
10.0
3.0 μF
8.0
2.2 μF
1.5 μF
6.0
1.0 μF
4.0
100
80
60
65 %
40
45 %
20
0
-40
2.0
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
0
10
100
[ Voltage Derating by Temperature ]
1000
Frequency (kHz)
Percentage to the rated voltage (%)
[ Permissible Current ]
Lead pitch 27.5 mm
Permissible current (A rms)
12.0
10.0
4.7 μF
8.0
3.0 μF
2.2 μF
6.0
1.5 μF
4.0
100
90
80
70
75 %
60
50
-40
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
1.0 μF
Permissible pulse current (dV/dt)
(Max. 10000 cycles)
2.0
0
10
100
Frequency (kHz)
1000
R. voltage
[DC] (V)
Pitch
(mm)
22.5
630
27.5
Capacitance
(μF)
Code
1.0
1.5
2.2
3.0
1.0
1.5
2.2
3.0
4.7
105
155
225
305
105
155
225
305
475
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
dV/dt
(V/μs)
65
50
Current
(Ao-p)
65.0
97.5
143.0
195.0
50.0
75.0
110.0
150.0
235.0
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:700 V
Electrical characteristics
Temperature characteristics
10
at
1 kHz
Frequency characteristics
[ Capacitance change ]
[ Capacitance change ]
10
Capacitance change (%)
Capacitance change (%)
3.0 μF
5
3.0, 4.7 μF
0
1.0 μF
-5
-10
-40
-20
0
20
40
60
80
5
4.7 μF
0
1.0 μF
-5
-10
100
1
10
100
Temperature (℃)
at
1 kHz
Frequency (kHz)
[ Dissipation factor ]
0.4
0.3
0.2
0.1
3.0 μF
4.7 μF
0
-40
-20
0
20
40
60
[ Dissipation factor ]
10
1.0 μF
80
Dissipation factor (%)
Dissipation factor (%)
0.5
8
6
3.0 μF
4
0
100
4.7 μF
2
1.0 μF
1
10
Temperature (℃)
[ Insulation resistance ]
1.E+13
1000
1.E+12
1.0 μF
1.E+11
1.E+10
4.7 μF
100
3.0 μF
10
1.0 μF
1
4.7 μF
0.1
1.E+08
1.E+07
-40
-20
0
20
1000
[ Impedance characteristics ]
10000
3.0 μF
1.E+09
100
Frequency (kHz)
Impedance (Ω)
Insulation resistance (Ω)
1.E+14
at DC
100 V
1000
40
60
Temperature (℃)
80
100
0.01
1
10
100
1000
10000
Frequency (kHz)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:700 V
Applicable specifications
[ Permissible Current Derating
by Temperature ]
Percentage to the permissible current (%)
[ Permissible Current ]
12.0
Permissible current (A rms)
10.0
4.7 μF
8.0
3.0 μF
2.2 μF
6.0
2.0 μF
1.5 μF
4.0
1.0 μF
2.0
0
10
100
100
80
60
65 %
40
45 %
20
0
-40
1000
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
Frequency (kHz)
Percentage to the rated voltage (%)
[ Voltage Derating by Temperature ]
100
90
80
70
60
50
-40
Permissible pulse current (dV/dt)
(Max. 10000 cycles)
R.voltage
[DC] (V)
Capacitance
(μF)
Code
700
1.0
1.5
2.0
2.2
3.0
3.9
4.7
105
155
205
225
305
395
475
dV/dt
(V/μs)
50
75 %
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
Current
(Ao-p)
50.0
75.0
100.0
110.0
150.0
195.0
235.0
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:800 V
Electrical characteristics
Temperature characteristics
at
1 kHz
10
5
8.0 μF
0
-5
2.0 μF
-20
0
20
40
60
80
Capacitance change (%)
Capacitance change (%)
[ Capacitance change ]
[ Capacitance change ]
10
-10
-40
Frequency characteristics
8.0 μF
5
0
-5
-10
100
2.0 μF
1
10
Temperature (℃)
at
1 kHz
Dissipation factor (%)
Dissipation factor (%)
0.2
8.0 μF
[ Dissipation factor ]
10
0.3
0.1
1000
Frequency (kHz)
[ Dissipation factor ]
0.4
100
2.0 μF
8
8.0 μF
6
4
2
2.0 μF
0
-40
-20
0
20
40
60
80
0
100
1
10
[ Insulation resistance ]
1.E+13
1000
1.E+12
1.E+11
2.0 μF
1.E+10
1.E+09
-40
-20
0
20
100
8.0 μF
10
1
0.1
8.0 μF
1.E+08
1.E+07
[ Impedance characteristics ]
10000
Impedance (Ω)
Insulation resistance (Ω)
1.E+14
1000
Frequency (kHz)
Temperature (℃)
at DC
100 V
100
40
60
Temperature (℃)
80
100
0.01
2.0 μF
1
10
100
1000
10000
Frequency (kHz)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:800 V
Applicable specifications
[ Permissible Current Derating
by Temperature ]
8.0
Percentage to the permissible current (%)
[ Permissible Current ]
Permissible current (A rms)
7.0
4.7 μF
4.0 μF
6.0
3.9 μF
3.5 μF
3.3 μF
5.0
3.0 μF
2.7 μF
2.2 μF
4.0
3.0
2.0 μF
10
100
100
80
87 %
60
40
39 %
20
0
-40
1000
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
Frequency (kHz)
[ Voltage Derating by Temperature ]
Permissible current (A rms)
Percentage to the rated voltage (%)
[ Permissible Current ]
10.0
9.0
8.0 μF
8.0
7.5 μF
7.0 μF
6.8 μF
7.0
6.0 μF
5.6 μF
100
90
80
70
60
50
-40
5.0 μF
6.0
75 %
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
10
100
Frequency (kHz)
1000
Permissible pulse current (dV/dt) (Max. 10000 cycles)
R.voltage
[DC] (V)
Capacitance
(μF)
Code
800
2.0
2.2
2.7
3.0
3.3
3.5
3.9
4.0
4.7
205
225
275
305
335
355
395
405
475
dV/dt
(V/μs)
50
Current
(Ao-p)
100.0
110.0
135.0
150.0
165.0
175.0
195.0
200.0
235.0
R.voltage
[DC] (V)
Capacitance
(μF)
Code
800
5.0
5.6
6.0
6.8
7.0
7.5
8.0
505
565
605
685
705
755
805
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
dV/dt
(V/μs)
50
Current
(Ao-p)
250.0
280.0
300.0
340.0
350.0
375.0
400.0
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:1100 V
Electrical characteristics
Temperature characteristics
at
1 kHz
Frequency characteristics
[ Capacitance change ]
[ Capacitance change ]
10
5
5.0 μF
2.0 μF
0
-5
-10
1.0 μF
-40
-20
0
20
40
60
80
2.0 μF
Capacitance change (%)
Capacitance change (%)
10
5
0
1.0 μF
-5
-10
100
5.0 μF
1
10
Temperature (℃)
0.5
at
1 kHz
100
1000
Frequency (kHz)
[ Dissipation factor ]
[ Dissipation factor ]
10
0.3
0.2
5.0 μF
0.1
0
-40
-20
0
20
2.0 μF
40
1.0 μF
60
80
Dissipation factor (%)
Dissipation factor (%)
5.0 μF
0.4
8
6
4
2.0 μF
2
0
100
1.0 μF
1
10
Temperature (℃)
at DC
100 V
[ Insulation resistance ]
1.E+13
1000
1.E+12
1.E+11
1.0 μF
1.E+10
5.0 μF
1.E+09
2.0 μF
-40
-20
0
20
40
100
2.0 μF
10
1.0 μF
1
5.0 μF
0.1
1.E+08
1.E+07
1000
[ Impedance characteristics ]
10000
Impedance (Ω)
Insulation resistance (Ω)
1.E+14
100
Frequency (kHz)
60
Temperature (℃)
80
100
0.01
1
10
100
1000
10000
Frequency (kHz)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
ECWFG (For automotive) series
Characteristics data
■ Rated voltage [DC]:1100 V
Applicable specifications
[ Permissible Current Derating
by Temperature ]
Percentage to the permissible current (%)
[ Permissible Current ]
10.0
Permissible current (A rms)
5.0 μF
8.0
4.7 μF
4.0 μF
3.3 μF
6.0
3.0 μF
2.2 μF
2.0 μF
4.0
1.5 μF
1.0 μF
2.0
0
10
100
100
80
87 %
60
40
39 %
20
0
-40
1000
Frequency (kHz)
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
Percentage to the rated voltage (%)
[ Voltage Derating by Temperature ]
100
90
80
70
60
50
Permissible pulse current (dV/dt)
(Max. 10000 cycles)
R.voltage
[DC] (V)
Capacitance
(μF)
Code
1100
1.0
1.5
2.0
2.2
3.0
3.3
4.0
4.7
5.0
105
155
205
225
305
335
405
475
505
dV/dt
(V/μs)
100
75 %
-40
-20
0
20
40
60
80
100
Temperature of capacitor surface (℃)
Current
(Ao-p)
100.0
150.0
200.0
220.0
300.0
330.0
400.0
470.0
500.0
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Feb-21
Guidelines and precautions regarding the
technical information and use of our products
described in this online catalog.
■ If you want to use our products described in this online catalog for applications requiring special
qualities or reliability, or for applications where the failure or malfunction of the products may directly
jeopardize human life or potentially cause personal injury (e.g. aircraft and aerospace equipment,
traffic and transportation equipment, combustion equipment, medical equipment, accident prevention,
anti-crime equipment, and/or safety equipment), it is necessary to verify whether the specifications of
our products fit to such applications. Please ensure that you will ask and check with our inquiry desk
as to whether the specifications of our products fit to such applications use before you use our products.
■ The quality and performance of our products as described in this online catalog only apply to our
products when used in isolation. Therefore, please ensure you evaluate and verify our products under
the specific circumstances in which our products are assembled in your own products and in which our
products will actually be used.
■ Please ensure the safety by means of protection circuit, redundant circuit etc. in your system design
in order to prevent the occurrence of life crisis and other serious damages due to the failure of our
products.
■ The products and product specifications described in this online catalog are subject to change for
improvement without prior notice. Therefore, please be sure to request and confirm the latest product
specifications which explain the specifications of our products in detail, before you finalize the design
of your applications, purchase, or use our products.
■ The technical information in this online catalog provides examples of our products' typical operations
and application circuits. We do not guarantee the non-infringement of third party's intellectual property
rights and we do not grant any license, right, or interest in our intellectual property.
■ If any of our products, product specifications and/or technical information in this online catalog is to
be exported or provided to non-residents, the laws and regulations of the exporting country,
especially with regard to security and export control, shall be observed.
■ The switchover date for compliance with the RoHS Directive/REACH Regulations varies depending
on the part number or series of our products.
■ When you use the inventory of our products for which it is unclear whether those products are
compliant with the RoHS Directive/REACH Regulation, please select "Sales Inquiry" in the website
inquiry form and contact us.
Please note that we do not owe any liability and responsibility if our products are used beyond
the description of this catalog or without complying with precautions in this catalog.
25-Nov-22
Plastic Film Capacitors
PRECAUTION AND WARNING
● Please consult us in case that demand the specification of our company without fail and do the confirmation of the use
condition and that exceeds the entry value and be indistinct when you use it.
● The film capacitors contain a film based dielectric which may be flammable under certain operating conditions.
When in use, they can either emit smoke and/or ignite should the product be defective. It is recommended covering the
surrounding resin with flame-resistant materials or case as needed particularly.
● In the event of troubles of other parts on the circuit such as shortening and opening, provide with proper means for
preventing excessive voltage, current or temperature exceeding the rating from being applied to the film capacitor.
● Prior to use, please make sure that failure of the film capacitors does not have any negative effects on other preventing
electronic circuit components and devices that would possibly cause damage. Proper safety measures should be taken
using fail-safe protective circuit designs to help prevent other devices of becoming unsafe.
Example:
a . State in which basic performance of automobiles (run, turn and stop)
b . False operations
c . Smoke emission/ignitions
● The Film Capacitor listed in this catalog(except for automotive series) are designed and manufactured specifically for
general electronic devices, including audio-video equipment, home appliance, office equipment and data communication
equipment etc.. Accordingly, it is strongly recommended that the user contact us in advance it the parts are to be used for
the following devices(items 1 -12), which require having advanced security measures.
The capacitor for automotive can be used for automobiles such as xEV.
(1) Transport equipment (motor vehicles, airplanes, trains, ships, traffic signal controllers)
(2) Medical equipment (life-support equipment, pacemakers for the heart, dialysis controllers)
(3) Aircraft equipment, Aerospace Equipment (airplanes, artificial satellites, rockets, etc.)
(4) Submarine equipment (submarine repeating equipment, etc.)
(5) Generation control equipment (equipment for atomic/hydraulic/heat power plants)
(6) Information processing equipment (large scale computer system)
(7) Electric heating appliance, Burning apparatus
(8) Rotary motion equipment
(9) Security systems
(10) Robots
(11) Lighting equipment
(12) And any similar types of equipment
● If used in a specific appliance that requires an extremely high reliability directly relating with any life-supporting equipment
like electronic aviation controllers, automotive driving controllers and engine controllers, please consult us and use
within the conditions designated in the specification. However the chip type capacitor should not be used in these
appliances.
Note:
1. Technical information in this catalog is intended to convey examples of typical performances and/or applications,
and is not intended to convey patents rights, if any.
2. For the products, which are controlled items subject to the Foreign Exchange and Foreign Trade Control Law,
the export permission according to the Law is necessary.
3. Note of ozone depleting substances of class1 (ODS) under the Montreal Protocol is used in manufacturing
process of Device Solutions Business Division, Panasonic Industry Co., Ltd.
2022/4/1
Plastic Film Capacitors
Guidelines and precautions (Common)
1. Operating voltage
For the film capacitor varies the maximum applicable voltage depending on the applied voltage waveform, current waveform,
frequency, ambient temperature (capacitor surface temperature), capacitance value, etc. Use within the specified values
by checking the voltage waveform, current waveform, and frequency applied to both ends of the capacitor prior to use.
(In the case of high frequency, the permissible voltage varies with the type of the capacitor. For details please see the
relevant specifications.)
1.1 Rated voltage (Note 1)
・ The rated voltage refers to the maximum voltagethat can be applied continuously within the category temperature range.
If used beyond the rating, it may induce insulation breakdown of the film and cause short circuit. The product lifetime
abut the maximum rated condition depends on the kind of the capacitor.
・ In a metalized capacitor, which has a self-healing action, short circuit or other failure may not occur immediately after
application of a voltage over the rated voltage, but the insulation resistance is lowered, and it may lead to smoke or fire
depending on the circuit conditions.
・ A noise suppression capacitor ( AC rated voltage) should not be used at high frequency circuit.
Smoke and ignition may be caused by conditions for use.
・ The rated voltage of the capacitor for electronic appliance is usually indicated in the DC voltage except for special
purposes.
1.2 Derating of rated voltage where operating temperature is high
In film capacitors, the usable upper limit temperature (the capacitor surface temperature) is determined by the kind of
dielectric materials.
When used beyond the rated upper limit temperature (usable upper limit temperature), it is necessary to voltage derate
the in certain types (models), while other types (models) cannot be used beyond the rated upper limit temperature.
Be sure to confirm the type of capacitors before using, and when using beyond the rated upper limit temperature, be
sure to reduce the voltage and make sure the capacitor surface temperature is within the usable upper limit temperature
as below. When using at high frequency, however, since the capacitor itself has its own temperature rise, and hence
the following derating ratio cannot be applied.
<Rated upper limit temperature, Upper category temperature, and derating ratio of upper category temperature
by types in DC use>(Example)
Type
Dielectric
Polyester (PET)
Polypropylene (PP)
Polyethylene naphthalate
(PPS)
Polyphenylene sulfide
(PPS)
Acrylic resin
ECQE(F)
ECQE(B)
ECQE(T)
ECWF(A)
Rated voltage DC250 V
ECWF(L)
ECWH(A)
ECWH(C)
ECWF(A)
Rated voltage DC450 V
ECWF(A)
Rated voltage DC630 V
ECWH(V)
ECWFE
Rated voltage DC450 V
ECWFD
Rated voltage DC630 V
ECWFE
Rated voltage DC630 V
ECWFD
Rated voltage DC450 V
ECWFG
Rated voltage DC630 V
ECWU(X)
ECWU(C)
ECWU(V16)
ECHU(X)
Rated voltage DC16 V
ECHU(X)
Rated voltage DC50 V
(Capacitance 0.0001 μF to 0.10 μF)
ECHU(X)
Rated voltage DC50 V
(Capacitance 0.12 μF to 0.22 μF)
ECHU(C)
ECPU(A)
Rated upper
limit
temperature
Upper category
temperature
Rated voltage by the
temperature beyond Rated
upper limit temperature
85℃
105℃
1.25 %/℃
105℃
105℃
No need derating of rated
voltage
85℃
105℃
1.25 %/℃
85℃
105℃
1.0 %/℃
85℃
85℃
105℃
85℃
85℃
110℃
110℃
105℃
125℃
85℃
0.62 %/℃
1.0 %/℃
No need derating of rated voltage
125℃
125℃
No need derating of rated
voltage
105℃
125℃
1.25 %/℃
105℃
85℃
105℃
85℃
No need derating of rated voltage
1.25 %/℃
No need derating of rated voltage
No need derating of rated voltage
・ The AC rated voltage items are unnecessary for voltage derating by the temperature.
Rated upper limit temperature
:The upper limit temperature which can't reduce the voltage and can use continuously.
(including own temperature rise)
Upper category temperature
:The upper limit temperature which can reduce the voltage and use continuously.
(including own temperature rise)
2022/1/14
Plastic Film Capacitors
Percentage to the rated. Volt
(Example) Derating of rated voltage to operating temperature. Rated upper limit temperature 85℃,
Upper category temperature 105℃, Derating of rated voltage to which is 1.25 %/℃ at more than 85 ℃
Cap. Surface Temp.(℃)
1.3 Permissible voltage (R.M.S) in current corresponding to DC Rated voltage
・ A noise suppression capacitor ( AC rated voltage) should be used at the primay side power supplies.The design which
premised on use by 50Hz or 60Hz sine wave.
・ In case of applying voltage in alternating current (50Hz or 60Hz sine wave) to a capacitor, permissible voltage(R.M.S).
The capacitor of DC rating should not be used at the primary side power supplies.
1.4 Derating of rated voltage when using at high frequency
When using at high frequency, there is a risk of thermal runaway (smoke, fire) due to self heat generation in the capacitor.
Derate the operating voltage according to the example below.
For use at high frequency, we recommend ECHU(X)/(C), ECWF(A)/(L), and ECWH(A)/(C)/(V) types.
<Derating example of operating voltage>
Capacitor used
Operating frequency
Permissible current (entry the value from specification)
V=
I
2πfC
=
: ECWF2154JA (250 V.DC, 0.15 μF)
: 40 kHz (sine wave)
: 40 kHz 2.0 Arms
2.0
2×3.14×40×103×0.15×10-6
= 53 Vrms
Therefore, the operating voltage at sine wave 40 kHz is lower than to 53 Vrms (derating ratio 58%), as
compared with AC permitted voltage of 125 Vrms at commercial frequency.
(It is necessary to derate until the self heating temperature rise of the capacitor is below the specified value.)
〈Caution〉
(1) Use the peak value (Vo-p) of the Pulse voltage applied between the both terminals of the capacitor within the
DC rated voltage.
(2) When using at high frequency, it may lead to breakdown due to withstand voltage deterioration by self heat
generation. Therefore, measure the self heating temperature rise value of the capacitor, and make sure it is within
the specified.
(3) Protection for safety should be required in the case of the voltage over the rated voltage (permitted voltage) may
be applied to the capacitor due to abnormal action such as trouble elsewhere in the circuit.
2. Permitted current
Film capacitors are low in internal impedance, and hence a very large current may flow depending on the circuit. In particular,
when turning power switch on and off, make sure a very high pulse current may flow.
When a current exceeding the permissible range flows into capacitor, this can cause the capacitance value to deteriorate or
an open circuit condition, temperature rise occurs due to self heat generation, this cause can deterioration of withstand
voltage and result in short circuit, possibly leading to smoke or fire.
In the application, make sure current is within permissible current or self heating temperature is within permissible self
heating temperature rise limit shown on each delivery specifications.
2.1 Permissible current
The permissible current must be considered by dividing into pulse current (peak current) and continuous current
(rms current) depending on the breakdown mode, and when using, therefore, make sure the both currents are within the
permissible values.
2022/1/14
Plastic Film Capacitors
2.2 Permissible current to operating frequency
The film capacitor varies in the frequency characteristic of the dissipation factor (tanδ) depending on the dissipation factor,
and hence the permissible rms current for operating frequency differs depending on the capacitor type. In particular, when
operating at high frequency, the dissipation factor (tanδ) increases, and when using over the permissible current, it may
include the thermal runaway, possibly leading to smoke or fire. Shown below are typical examples of permissible current
by frequency (rms value) of the ECQE(F) type using polyester film and ECWF(A) type using polypropylene film. For detail
inquire us by presenting the operating conditions, or make sure the own temperature rise of the capacitor and the capacitor
surface temperature are within the permissible range in the worst operating conditions.
2.3 The capacitance and the permissible currents
The permissible rms current varies with the capacitance value. The permissible current (rms) values by the frequencies
and by the capacitance of representative types are shown below. In actual use, inquire us for detail by measuring the
voltage and current waveforms, ambient temperature, and own temperature rise.
Type
Rated voltage
: ECQE(F)(Polyester)
: 250 V.DC ⇒
Type
Rated voltage
150 Vrms 60Hz (at sine wave)
Operating temp. : -40 to 85℃ (Cap. surface)
(Note)
The graphs illustrated
are for reference only.
Waveform of current
and temperature rise of
capacitor are key
factors to determine
permissible current. For
actual application,
consult our sales
representative or sales
office.
10.0μF
4.5
4.0
3.5
4.7μF
3.0
2.5
2.2μF
2.0
1.0
1.0μF
1.5
0.22μF
0.47μF
0.10μF
0.047μF
0.010μF
0.022μF
100
0.5
0.0
10
125 Vrms 60Hz (at sine wave)
Operating temp. : -40 to 85℃ (Cap. surface)
Frequency (kHz)
50
Permissible Current (Arms)
Permissible Current (Arms)
5.0
: ECWF(A)(Polypropylene)
: 250 V.DC ⇒
50
100
Frequency (kHz)
2.4 Permissible current to pulse current
・ When used in switching circuits or snubber circuits a momentary high current pulse may cause local heat generation.
This causing the capacitance value to deteriorate or an open circuit condition. Local heat generation may also induce
smoke or fire. The pulse permissible current (10000 times) isobtained by the product of dV/dt (V/μs) value that is
entering to the specification and capacitance (μF).
・ The dV/dt (V/μs) value of a film capacitor is determined by the element structure, and in the metalized type, in particular,
the internal evaporated electrode and external takeout electrode are connected by metalized contact (metal spraying),
and hence due caution is needed because the upper limit of dV/dt value is low.
・ The dV/dt values corresponding to rated voltage and capacitance value of representative types are shown in page 6.
When used in a high current pulse circuit, check the pulse permissible current (Ao-p).
Please contact with us, If pulses are applied more than 10,000 times.
<How to determine pulse permissible current>
When voltage V(V) is applied to capacitor C (F for farad), the electric charge Q(C) is expressed in formula ①.
Q=C・V ‥‥‥‥ ①
The charging current I(A)flow in the capacitor at this time is expressed in formula ②.
I=dQ/dt ‥‥‥‥ ②
Differentiating both sides of formula ① by timet and putting into formula ② yields formula ③.
dQ/dt = C ・ dV/dt
I = C ・ dV/dt ‥‥‥‥ ③
Therefore, the pulse current is determined as theproduct of the capacitance value C (μF) and voltage change dV/dt
per μs.
(Example)
In the case of ECQE4224KF (permissible dV/dt)
Rated voltage
: 400 V.DC
Capacitance
: 0.22 µF
Permissible dV/dt value : 37
Pulse permissible current : 0.22(μF)×37 ≒ 8Ao-p
(however, number of repetitions is 10,000 times or less), that is, momentary pulse current can be used up to 8 Ao-p.
Make sure the rms current is within the permissible value.
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Plastic Film Capacitors
[ECQE (F) Permissible dV/dt value]
Capacitance
(μF)
103 (0.010)
123 (0.012)
153 (0.015)
183 (0.018)
223 (0.022)
273 (0.027)
333 (0.033)
393 (0.039)
473 (0.047)
563 (0.056)
683 (0.068)
823 (0.082)
104 (0.10)
124 (0.12)
154 (0.15)
184 (0.18)
224 (0.22)
274 (0.27)
334 (0.33)
394 (0.39)
474 (0.47)
564 (0.56)
684 (0.68)
824 (0.82)
105 (1.0)
125 (1.2)
155 (1.5)
185 (1.8)
225 (2.2)
275 (2.7)
335 (3.3)
395 (3.9)
475 (4.7)
565 (5.6)
685 (6.8)
825 (8.2)
106 (10.0)
ECQE(F)
100 V.DC
ECQE(F)
250 V.DC
Type
ECQE(F)
400 V.DC
ECQE(F)
630 V.DC
131
273
*(7.5P)
48
*(10.0P)
78
*(10.0P)
116
*(7.5P)
33
*(15.0P)
37
*(10.0P)
*(15.0P)
22
18
*(15.0P)
11
6
*(22.5P)
22
*(10.0P)
*(15.0P)
63
10
*(22.5P)
18
*(27.5P)
48
*(27.5P)
*(22.5P)
8
*(22.5P)
*(27.5P)
Caution :
Protective means for safety should be provided in case the pulse and rms current may exceed the permissible values due
to abnormal action such trouble elsewhere in the circuit.
*: Asterisk denotes the lead pitch.
The value of dV/dt is mainly determined by the lead spacing (element width) and element sectional area.
3. Operating temperature range
3.1 Own temperature rise
When the film capacitor is used in an AC circuit, especially in high frequency application, the capacitorgenerates heat by
itself from the flow of current. If the self heat generation is large, the capacitor may deteriorate, and smoke or fire may be
occur. Check the self heating temperature rise value in actual conditions of use, and use within the limit specified.
Measure the own temperature rise value in indoor, wind-free condition.
※ The details of self heating temperature rise value are described in the specification. (Please contact us details as
the specifies value varies by each type.)
3.2 Operating temperature range
The operating temperature range of the film capacitors varies with the dielectric material (kind of films), and the usable
temperature range is specified in the each model. It must be noted, however, that the temperature range mentioned in the
catalogue is the surface temperature of the film capacitor, not the ambient temperature of the capacitor. In actual use, make
sure the sum of the ambient temperature +capacitor’s self heating temperature rise value (within specified value), that is, the
capacitor surface temperature should be within the rated operating temperature.
〈Caution〉
When used above the specified operating temperature, dissipation factor (tanδ) increase, and the self heat generation may
exceed the permissible value, possibly causing deterioration of dielectric film, short circuit, andsmoke or fire.
If there is cooling plate of other part or any resistance heated to high temperature near the film capacitor, the capacitor may
be locally heated by the radiation heat, exceeding the operating temperature range, and smoke or fire may be caused.
Check the capacitor surface temperature at the heat source side.
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Plastic Film Capacitors
4. Other cautions
4.1 Flame retardation
The dielectric film is not a flame retardant material.
In the ECQE , ECWF, and ECWH types, flame retardant epoxy resin (94V-0) is used in the coating resin.
4.2 Environments of use
4.2-1 When used in humid environments
When used for a long period in humidenvironments, the elements absorb moisture through the coating with the
passing of the time. The water oxidizes the electrode (evaporated film and metalized contact), and leads to trouble.
Also, make sure the capacitance value can be very large depending on type of the capacitor.
4.2-2 When using in high temperature environment
When ECQUG is used in high temperature environment (more than 70℃), it may be possible to cause leaking oil
from the capacitor. However, the quality and reliability of the capacitor is not affected by the leaking oil. But, please
don't use the part which may cause a point of tact obstacle by oil and this condenser by a same set.
4.2-3 Cautions on gas atmosphere
When using in the oxidizing gas such as hydrogen chloride, hydrogen sulfide and sulfurous acid, the evaporated
electrode (Aluminum) or metalized contact (zinc compound) may be oxidized, may result in smoke or fire.
Avoid such atmosphere.
4.2-4 When using by resin coating
・ When using resin coating or resin potting components to improve humidity resistance or gas resistance, or to
fix parts in place. Please contact with us.
・ The solvent or the constituent in the resin may permeate into the metalized contact or electrode (aluminum foil or
evaporated film) to deteriorate characteristics.
・ When hardening the resin, chemical reaction heat (curing heat generation) occurs, which may adversely affect
the capacitor.
・ In the case of the lead type capacitors, be sure to test and evaluate enough for the thermal stress to the capacitor.
4.2-5 Other
・ When using in the following conditions, the characteristic may be deterioration. Please don't use at such conditions.
The place that took water or oil.
The place that exposed to the direct sunlight.
The place that radiated ozone, ultraviolet rays and radiation rays.
・ Please consider so that dust doesn't collect. That will be the cause of the characteristic deterioration (short circuit, etc.).
4.3 Changes in capacitance value over time
・ The capacitor characteristics change characteristic depending on its ambient conditions and environmental conditions.
In natural conditions, there is a certain capacitance change due to the humidity of the circumstance. The degree of such
capacitance changes varies with the dielectric material, coating material, and structure.Therefore, we ship considering
these changes, but we only guarantee capacitance value until delivery (without each arrangements.)
・ For use in a circuit where time constant and capacitanceprecision are required, use the products of polypropylene film
ECWFD/(A)/(L) , ECWH(A) or film ECHU(X)/(C) which vary less with time.
4.4 Hum (Buzz)
Hum produced by capacitors due to mechanical vibration of the film is caused by the coulomb force which exists between
electrodes of opposite polarity. A louder hum is produced when applied voltage waveform has distortion, and/or higher
frequency component, etc. Although Hum does not spoil characteristics of capacitors, when being used around the audio
frequency, please check it.
4.5 Storing method, storing conditions
・ It must be noted that the solderbility of the external electrodemay deterioratedwhen stored in an atmosphere filled with
moisture, dust, or a reactive oxidizing gas (hydrogen chloride, hydrogen sulfide, sulfuric acid).
・ Should not location with particularly high temperature and high humidity, and store in conditions not exceeding 35 ℃ and
85 % RH.
・ When it is kept for a long term, the solderbility of the external electrode may deteriorate for oxidation of electrode surface.
So our recommend keeping-period is within 6month. Further, it's different in the condition depending on the items,
so please inquire for details.
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Plastic Film Capacitors
4.6 Handling pre cautions
・ Sudden charging or discharging may causedeterioration of capacitor such as shorting and opening due to charging
or discharging current. When charging or discharging, pass through a resistance of 20 to 1000 Ω/V or more.
・ When connecting multiple film capacitors in parallel inwithstandvoltagetestorlifetest,connecta resistance of 20 to
1000 Ω/V or more in series to each capacitor.
・ Be careful not to scratch the capacitor surface with sharp edges (such as screwdriver, soldering iron, pincers,
chassis). Don’t apply excessive load to the lead wire (at the time of re-processing of lead wire, etc.).
・ If the capacitor is dropped by mistake, its characteristics may be damaged. Don’t use such a capacitor.
(If reusing, check the quality sufficiently.)
・ In the case of leaded type capacitor, be careful not to apply excessive force to the lead wire root area, which may cause
cracking or separation in the coating resin near the root area.
・ No dust or water should be permitted to remain on the surface of capacitor terminals as this may cause electrical leakage
or corrosion.
・ When used for noise suppression between lines and between line to earth when voltage is more than 30VAC and more
than 45VDC, covering peripheral resin part by flame retardant material or flame retardant case (for avoiding fire) is
recommended.
・ Chip type capacitor is developed assuming normal use of surface mounting parts.Abnormal use (ex: piling up two
capacitors, mounting capacitor in upright position, etc.) should not be permitted.Please consult us in advance if used in
different way from normal.
4.7 Additional points
・ The precautions in using film capacitors follow the JEITA RCR-2350 D “Safety Application Guide for fixd plastic film
capacitors for use in electronic equipment”. Please refer to the above guideline.
・ Product specifications, materials and other points mentioned in the catalog may be changed without notification.
(Note 1) Rated voltage
The maximum voltage that can be applied continuously in spite of temperature is called as the rated voltage in
our company. It's different from the standards of JIS and IEC.
* Definition of our company
The maximum voltagethat can be applied continuously within the category temperature range.
* Even when needing derating voltage at high temperature, the voltage after derating is called the rated voltage.
Therefore the maximum voltage that can be applied continuously at upper category temperature is being also called
the rated voltage.
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Plastic Film Capacitors
Guidelines and precautions (Lead type)
(Target product : ECQE, ECWF, ECWH, ECQU)
1. Soldering
The heat resisting temperature of the film capacitor varies with the type of dielectric film, structure of the capacitor,
manufacturing method, etc..
When mounting, set the mounting temperature so that the capacitor inside (element) temperature is be lower than the
mounting heat resisting temperature given below.
If the capacitors go through the high temperature both after soldering , be sure to check the temperature till decreasing.
Thermocouple (ø0.1)
(Measuring point B:Capacitor inside(Element)
Metal spray layer
Capacitor
Thermocouple (ø0.1)
(Measuring point A:Capacitor inside(Metal spray layer)
Dielectric
Mounting heat resisting temperature
Type
ECWF(L) 400 V / 0.022 μF to 0.11 μF, 630 V / 0.01 μF to 0.043 μF
ECWF(A)
ECWF(L) 400 V / 0.12 μF to 2.4 μF, 630 V / 0.047 μF to 1.3 μF
ECWFE 630 V, ECWFG 630 V
ECWH(A) , ECWH(V), ECWFD 630 V
ECWH(C)
ECWFD 450 V
ECQUA, ECWFE 450 V
ECQE(F)
ECQE(B), ECQE(T), ECQUL, ECQUG
Polypropylene
Polyester
Measuring point A
Measuring point B
135℃
125℃
145℃
125℃
135℃
140℃
135℃
125℃
―
160℃
125℃
125℃
―
―
120℃
―
<Cautions for mounting>
・ Solder within the following temperature condition range. (Dipping times is within twice, the second dipping should be
carried after the capacitor itself has returned to the normal temeprerature) (Example)
Notice) The soldering condition shows one example. The temperature of the
capacitors depend on several parameters for example soldering machine
size , machine structure, temperature control method, etc..
Should measure the temperature of the capacitors and confirm the
temperature under the above table.
400
Solder temperature(℃)
380
360
340
Conditions
320
300
P. W. Board
280
260
240
Soldering iron
Dip soldering
220
0
1
2
3
4
5
6
7
Soldering time (s)
8
Thickness
t = 0.8mm or more
Pre-heating
Measurement temperature 120 ℃
within 1 minute (Back side of the P. W.
Board around the capacitor)
Capacitor
Raised from P,W. board
(Crimped lead)
・ The film capacitor has lower mounting heatresistingtemperature than other capacitors, therefore the following
cautions are needed.
・ Avoid passing through an adhesive curing oven. After adhesive curing, the capacitor should be inserted in the P.W.
board and solder. (When passing an adhesive curing oven, breakage of coating resin or deterioration in
capacitor characteristic may be caused.)
・ Avoid reflow soldering. (When use in reflow soldering, breakage of coating resin or deterioration in capacitor
characteristic may be caused.)
Capacitor
・ When using in multilayer Printed wiring board, or in the case
Thermocouple (ø0.1)
of a capacitor with a copper lead wire, please contact with us.
(In the case of copper lead wire, the thermal conductivity of
the copper wire is high, and the internal temperature of the
capacitor rises rapidly and may exceed the mounting heat
resisting temperature.)
Part of measuring
P.W. board
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Plastic Film Capacitors
2. Washing the mounted boards
The film capacitor varies significantly in the effect of washing depending on the structure and material, and generally it is less
affected by CFC or alcohol derivative washing solvent, and is likely to be affected by highly polar solvent.
The lead type film capacitor is coated with an epoxy resin excellent in chemical resistance, and is hardly affected by detergent,
but it is recommended to be washed for short duration.
Applicability of detergents in film capacitors is listed for reference.
<List of applicability of detergents>
Box type
ECWFE
Lead
type
Washing condition
ECWFG
ECQUA
ECQUL
ECQUG
Ethanol
Alcohol
Ultrasonic washing or immersion washing for 5 min
Isopropyl alcohol (IPA)
Ultrasonic washing or immersion washing for 5 min
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
―
〇
―
〇
〇
〇
〇
〇
〇
〇
〇
〇
〇
FRW-17 Ultrasonic washing for 5 min, 60 ℃
Silicon
⇒ FRW-1NUltrasonic washing for 5 min, 60 ℃
Solvent
⇒ FRW-100Steam drying for 1 min, 100 ℃
Halogen
HCFC141b-MS
Ultrasonic washing or immersion washing for 5 min
P3 Cold cleaner 225S
Petroleum
hydrocarbon
Ultrasonic washing for 5 min 60 ℃ ⇒ IPA ultrasonic rinsing for 5 min at ordinary temperature
⇒ hot air drying for 5 min, 40 ℃
Toluene
Ultrasonic washing or immersion washing for 5 min
Terpene Cleaner EC-7
Terpene
Spray washing for 5 min at ordinary temperature ⇒ purified water spraying for 5 min, 50℃
⇒ hot air drying for 5 min, 80℃
Purified water
Ultrasonic washing for 5 min 60 ℃ ⇒ wind-free dryingfor 5 min, 85 ℃
Clean through 750H
Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃
⇒ hot air drying for 5 min, 85 ℃
Clean through 750L
Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃
⇒ hot air drying for 5 min, 85 ℃
Water
Clean through 710M
Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃
Surface active agent
⇒ hot air drying for 5 min, 85 ℃
Clean through LC-841
Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃
⇒ hot air drying for 5 min, 85 ℃
Pine alpha ST-100S
Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃
⇒ hot air drying for 5 min, 85 ℃
Aqua cleaner 210SET
Shower washing for 1 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃
⇒ hot air drying for 5 min, 85 ℃
<Wash-free flux>
Washfree
Low residue flux
ULF-500VS
Inactivated flux
AM-173
○ Washing enabled × Washing disabled ― Not confirmed
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Plastic Film Capacitors
3. Temperature measuring in soldering of film capacitor
When using film capacitor of low heat resisting temperature in mounting, measure the element temperature profile in mounting
in the following manner, and make sure the soldering is done below the heat resisting temperature.
<Preparation of measuring sample>
Open a hole of about Φ0.3 mm to 0.8 mm in the top of the capacitor to the middle of the element, and insert
thermocouple (ø0.1T wire), and fix with adhesive.
<Measurement of temperature profile>
As shown below, connect a thermocouple (3 - 4 )m of same type as the thermocouple attached to the capacitor, to
the thermocouple of the capacitor as shown below. Mount the sample on the mounting printed wiring board, and
pass into the soldering andmountingprocess,andmeasurethe temperature profile.
Capacitor
(Fine wire)
Thermocouple
Measurement instrument
ø0.1
3 to 4 m
P.W. board
4. Capacitor for prevention of AC power supply (across the line) noise
・ When using a capacitor across the line as means for prevention of noise, not only is the supply voltage is always applied,
but also abnormal surge such as lightning is applied, which may lead to smoke or fire. Therefore, the across-the-line
capacitors are strictly regulated in safety standard in each nation, and it is necessary to use the product conforming to
the standard.
For using across the line in Japan, use the following models or the above overseas authorized ones.
ECQE(F)
ECQE(F)
ECQE(F)/(B)/(T)
ECQE(F)/(T)
: 1000 V.DC (125 V.AC) rating
: 1250 V.DC (125 V.AC) rating
: 125 V.AC (1A) rating
: 250 V.AC (2A) rating
However, when using the ECQE(F)1A/2A, ECQE(B)1A , ECQE(T)1A/2A rating model as across-the-line capacitor, at least
one of the following conditions must be satisfied.
(1) A varistor with the voltage of the value or lessshown in the following table should be connected to the capacitor in
parallel.
(2) A pulse voltage more than the value shown in the table below should not be applied across the capacitor.
Note : When using together with varistor, check the varistor specification, and select the one free from surge
deterioration.
Cap. rated voltage
125 V.AC (1A)
250 V.AC (2A)
Varistor voltage
250 V
470 V
Pulse voltage
250 Vo-p
630 Vo-p
When Safety standard approval capacitor is used for necessary equipment, please use items of the following table.
<Representative examples of models authorized in major safety standards in the world>
Shape
Plastic case type
Plastic case type
Plastic case type
Type
ECQUA
ECQUL
ECQUG
Standard
UL 60384-14(USA), CSA E60384-14(Canada), EN 60384-14(Europe)
UL 60384-14(USA), CSA E60384-14(Canada), EN 60384-14(Europe)
UL 60384-14(USA), CSA E60384-14(Canada), EN 60384-14(Europe)
* Please contact us about CQC (China).
・ In the case of the voltage dropper usage, when an abnormal voltage of the surge voltage etc. is applied the capacitance
decrease is caused, such as the fuse function in the capacitor operates.In the worst case, the capacitor does not work as
voltage dropper. So, please notice an abnormal voltage. At that time, high voltage may be applied to the load side.
Therefore, please provide protective means for safety.
■ AEC-Q200 compliant
The products are tested based on all or part of the test conditions and methods defined in AEC-Q200.
Please consult with Panasonic for the details of the product specification and specific evaluation test results, etc., and please
review and approve Panasonic's product specification before ordering.
30-Sep-19