BPAC0450K225D1150035 数据手册
NISSEI
MESSRS
Shenzhen Megmeet Electrical Co., Ltd.
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
TYPE
BPA - 450V.DC
DRAWING №
PSC604000
PLEASE RETURN 1 COPY WITH RECEIVED STAMP.
DATE
May 26, 2015
DESIGNED
H.Kawagoe
APPROVED
M.Itsukaichi
NISSEI ELECTRIC CO., LTD.
№
150088
Cautions About Safety In Use of
Capacitors
安全に
安全に関する注意
する注意
コンデンサを
コンデンサを使用するに
使用するに当
するに当たり、
たり、使用環境、
使用環境、及び
When using a capacitor, please use one within the
取り付け環境を
環境を確認の
確認の上、納入仕様書に
納入仕様書に規定した
規定した
range of values specified in the specification after
定格性能の
定格性能の範囲内でご
範囲内でご使用下
でご使用下さい
使用下さい。
さい。
checking the environments of using and mounting.
納入仕様書、
納入仕様書、添付注意事項の
添付注意事項の範囲を
範囲を越えて使用
えて使用しま
使用しま
If used beyond the range specified in the
すと、
すと、ショート、
ショート、オープン、
オープン、発煙、
発煙、発火に
発火に至る場合
specification or the attached cautions, it may lead
がありますので、
がありますので、定格性能の
定格性能の範囲内であることを
範囲内であることを確
であることを確
to short circuit, open, smoking and firing.
認願います
認願います。
います。
尚、納入仕様書に
納入仕様書に記載のない
記載のない項目
のない項目、
項目、不明な
不明な内容につ
内容につ
Be sure to inquire of us as to the items which are
いては、
いては、必ずお問
ずお問い合せ下さい。
さい。
not specified in the specification or are unclear to
you.
又、生命に
生命に影響を
影響を与える可能性
える可能性がある
可能性がある装置
がある装置、
装置、機器
Also, in case of using capacitors for such
(生命維持装置、
生命維持装置、航空機用制御装置、
航空機用制御装置、自動車用制御
equipment or apparatus as may possibly affect
装置等)
装置等)に使用される
使用される場合
される場合にも
場合にも必
にも必ずお問
ずお問い合せ下さ
human lives like life-support system, aircraft and
い。
automotive control systems, etc., please never fail
to inquire of us as to further details.
※本仕様書は
本仕様書は、発行日より
発行日より6
より6ヶ月を経過して
経過して返却
して返却さ
返却さ
If this specification is not returned within six
れなかった場合
れなかった場合は
場合は、受領いただけなかったものと
受領いただけなかったものと判
いただけなかったものと判
months, we consider it not to be accepted by you
断し、無効とさせていただきます
無効とさせていただきます事
とさせていただきます事ご了承願います
了承願います。
います。 and will make it null and void.
Change Record
№
Date
1
2015. 5. 26
Details of changes
New
1 / 14
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
1.SCOPE
This specification defines general requirements for
capacitor BPA type (hereinafter called capacitor).
2.PARTS
B
P
NUMBER
A
CODE
*
①
metallized
POLYPROPYLENE
D
0
film
SYSTEM
0
②
①Designation
BPA :Straight
②Internal
PSC604000
4
5
0
③
J
④
lead
1
0
4
0
⑤
1
⑥
0
0
0
0
⑦
type
use
③Rated DC voltage
450V.DC
④Tolerance on capacitance
J:±5% , K:±10%
⑤Capacitance Code
Capacitance value shall be given by 3-digit figure of which unit used
expressed in pF.
The first 2 digits are significant figures of the capacitance value,
the third digit to indicate the number of additional zeros to follow
the significant figure.
⑥Model
code(Internal
Model code
D010
D015 or D115
D022
⑦Lead
is
use)
Lead spacing
10.0
15.0
22.5
dimension / Packing
mode
REVISIONS
SIGNATURE
DATE
DESIGNED
H.Kawagoe
March 26, 2015
M.Itsukaichi
March 26, 2015
APPROVED
NISSEI ELECTRIC CO., LTD.
2 / 14
SPEC №
SPECIFICATION
3.RATING
3.1 Operating
METALLIZED POLYPROPYLENE FILM CAPACITOR
Temperature
3.1.1
Maximum
Operating
3.1.2
Minimum
Operating
3.2
Rated
PSC604000
Range : Operating temperature range to capacitors
shall be -40℃~+105℃ (Voltage derating in case
of over 85℃).
Temperature : Maximum value of capacitor's surface
temperature (ambient temperature+self heating
temperature rise+radiation and conduction
heat from other electric supply sources)
at which capacitors shall be capable of
applying continuously.
Temperature : Minimum temperature range at which capacitors
shall be capable of applying continuously.
voltage : The rated voltage shall be the voltage which can be
continuously applied to a capacitor within the range of
the working temperature and shall be 450V.DC.
However, rated voltage shall be derated 1.5% at each 1℃
the range of +85℃~+105℃ as shown in the Fig. below.
100
90
80
70
60
50
80
3.3
Capacitance range
0.10μF ~ 4.7μF
3.4
Tolerance on capacitance
±5% , ±10%
85
90
95
100
Temperature (℃)
NISSEI ELECTRIC CO., LTD.
105
in
3 / 14
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
PSC604000
4.CONSTRUCTION OF CAPACITOR
The element of a capacitor shall have a construction that metallized polypropylene film
as a dielectric is wound. The element of non-inductive construction shall be connected to
lead wires.
Then the element is inserted into a flame retardant resin box (UL94V-0) and sealed by
injection of the resin.
① Capacitor element
(Metallized Polypropylene film)
② Metal Spray(Sn base alloy)
③ Lesd wire(Tinned copper-covered steel wire)
④ Epoxy resin
⑤ Flame retardant
5.DIMENSIONS
Dimensions
are
specified
in
the
attached
sheet.
NISSEI ELECTRIC CO., LTD.
resin
box
4 / 14
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
6.MARKING
6.1 Marking item
The capacitors
1)
Type name
BPA
1)
Nominal
Shall
shall
be
capacitance
be marked with
2)
Tolerance
J , K
3)
Production
on
5)
6.2
clearly
3-digit
code.
by
indelible
date
code
be indicated by the
2012 2013 2014 2015
C
D
E
F
2
2
3
3
4
4
5
5
6
6
Marking(Week)
Week
Code
2
2
3
3
4
4
5
5
6
6
1
1
Rated DC voltage
Unit code V is
Manufacturer's
NIS
alphabet except
2016 2017 2018
H
J
K
omitted.
Identification
position
(Example)
Marking
position
way.
Exp)474 or 105
Marking(Month)
Month
1
Code
1
Marking
an
capacitance
Marking(Year):It shall
Year
2010 2011
Code
A
B
4)
marked
PSC604000
BPA
104J450
NIS F32
NISSEI ELECTRIC CO., LTD.
7
7
8
8
9
9
G,I,O,Q,Y,Z.
2019 2020
L
M
10
O
11
N
12
D
5 / 14
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
7.PACKING
1) Straight leads and formed leads
The capacitors shall be put in
necessary information.
Inside
packing
type.
poly-bag
and
packed
PSC604000
in
box
marked
with
case
Dimension(㎜)
W
L
H
198 176
74
L
H
LABEL
W
External
packing
case
Dimension(㎜)
Inside packing
W
L
case quantity
2
165 210
4
210 310
6
235 410
8
310 410
12
410 450
L
H
200
〃
〃
〃
〃
RoHS
H
W
⑦
Example)
⑧
⑨
⑤
⑩
②
CODE CUSTOMER
③
INSP DATE
IMACH NO
①
PARTS NO
ORDER NO
④
LOT NO
TYPE
WV
TOL
CAP
EDP CODE
TOTAL QTY
ROHS
⑥
Inspection Report
⑬
①CODE CUSTOMER
②INSP DATE
③MACH NO
④PARTS NO
2)
1300130002561
N
Automatic vertical
This is specified
⑪
⑤ORDER NO
⑥LOT NO
⑦TYPE
⑧W V
⑨TOL(%)
⑩CAP
⑪EDP CODE
⑫QT(PCS)
insertion type.
by the specification
of
⑫
⑬Mark for identifying
a new factrory
automatic
NISSEI ELECTRIC CO., LTD.
vertical
insertion
type.
6 / 14
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
8.APPLICABLE STANDARD
Unless otherwise specified,
JIS C 5101-1:2010.
9.DISUSE OF O.D.C.
No ozone depleting
performance
chemicals
are
used
and
a
testing
at
any
stage
PSC604000
method
of
the
shall
comply
manufacturing
with
process.
10.DISUSE OF PBBO, PBDPO, PBDPE, PBBs
This products does not contain PBBO, PBDPO, PBDPE, PBBs.
11.CERTAIN HAZARDOUS SUBSTANCES RESTRICTED BY RoHS DIRECTIVE
In the product, materials to which certain hazardous substances restricted by
RoHS Directive (2002/95/EC) (cadmium, hexavalent chromium, mercury, lead, PBB and
PBDE) are added on purpose aren't used.
12.PRODUCTION COUNTRY
・CHINA
NISSEI ELECTRIC CO., LTD.
7 / 14
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
PSC604000
13.CHARACTERISTICS AND TEST CONDITIONS
13.1 TEST CONDITIONS
The test and measurement, unless otherwise specified, the standard range of
atmosheric conditions of marking measurements and test is as follows
Ambient temperature : 5 to 35℃
Relative humidity
: 45 to 85%
If there may be anydoubt on the results, measurements shall be made within
the following limits.
Ambient temperature : 20±2℃
Relative humidity
: 60 to 70%
13.2
Electrical
Item
characteristics test
Characteristics
Test
conditions
Between
terminations
No breakdown.
However momentary
breakdown is
permissible.
Capacitors shall withstand 150% of rated DC
voltage for 1 minute or 175% of rated DC
voltage for 1~5 seconds.
(Charge or discharge current:1A max)
Between
terminations
and case
No breakdown.
Capacitors shall withstand 200% of rated DC
voltage for 1~5 seconds.
Dielectric
strength
C≦0.33μF
30,000MΩ
or more
C>0.33μF
7,500ΩF
or more
Insulation resistance
(Between terminations)
Capacitance
Tangent of loss angle
Within the nominal
tolerance.
0.001
DC voltage specified below shall be applied
for 1 minute, after which measurement shall
be made.
Test voltage:100V.DC
Capacitance shall be measured with
1kHz±20%, 5Vrms max.
or less
NISSEI ELECTRIC CO., LTD.
8 / 14
SPEC №
SPECIFICATION
Item
METALLIZED POLYPROPYLENE FILM CAPACITOR
Characteristics
PSC604000
Test conditions
As in the diagramed circuit measure
the variation of terminal voltage for
the series resistor(R) while a weak impact
is made on the test capacitor to check
the bonding strength of the terminals to
the capacitor.
C
E
Connection of element
There shall be no
intermittent contacts or
open circuiting which
would result in any
needle deflection on
the voltage detector.
R
D
C:Capacitor
R:Series resistor
R(Ω)= 150/C(μF)
C=Nominal capacitance μF
D:Detector
Internal impedance shall be large
enough as compared with c.
E:100mV(peak value)or less
13.3
Mechanical characteristics test
Item
Characteristics
Tensile
strength
Without mechanical
damage, such as break of
terminal damage.
Termination
strength
Bending
strength
Test conditions
Test capacitors shall be fixed, and unless
otherwise specified, a tensile force of 10N
shall be gradually applied to the axial of
the leads, and then maintained for 30±5
seconds.
The bend test shall consist of hanging
a weight of 5N to the end of the leads and
then rotating the capacitors 90 degrees in
one direction, then to the starting point.
This test shall be applied for 2.5 seconds
per each time. At the same test speed, the
capacitors shall be rotated 90 degrees in
alternating direction, then return to the
starting point.
NISSEI ELECTRIC CO., LTD.
9 / 14
SPEC №
SPECIFICATION
Item
Vibration resistance
Solderability
Appearance
Dielectric
strength
(Between
terminations)
Resistance
to soldering
heat
Resistance
to solvent
Insulation
resistance
METALLIZED POLYPROPYLENE FILM CAPACITOR
Characteristics
There shall be no shortcircuits or open-ciruits
in the element and state
of the connection shall
be stable. Moreover,
There shall be no
anomalies in appearance
after test.
At least 95% of
the circumferential face
of termination up to
immersed level shall be
covered with new solder.
PSC604000
Test
conditions
The freqency shall be varied uniformiy from
10Hz to 55Hz at 0.75㎜ amplitude and back to
10Hz in approximately 1 minute intervals.
This test shall be applied 2 hours per each
direction, total 6 hours.
Capacitor's leads shall be immersed into
Flux (25% rosin) using sheltering board
(Thichness : 1.5±0.5㎜) from radial test,
then immersed into soldering bath at
245±3℃ for 3±0.3 seconds up to the depth
of 2~2.5㎜ from the bottom of the body.
(Composition of solder : Sn96.5 Ag3 Cu0.5)
Immersed and removing speed shall be
25±2.5㎜/sec.
No visible damage.
No breakdown.
C≦0.33μF
30,000MΩ
C>0.33μF
7,500ΩF
or more
or more
Tangent of
loss angle
0.001
Capacitance
change
Within ±3% of
the initial value.
Marking
Markings shall be
legible with ease.
Using sheltering board from the radial heat,
capacitor's leads shall be immersed into
soldering bath at 260±5℃ for 10±1 seconds
up to the depth of 1.5~2㎜ from the bottom
of the body.
The capacitors shall withstand 150% of
rated DC voltage for 1 minute.
以下
After immersed in isopropyl-alcohol for
30±5 seconds, the condition of markings on
a capacitor shall be checked.
NISSEI ELECTRIC CO., LTD.
10 / 14
SPEC №
SPECIFICATION
13.4
Climatic test
Item
METALLIZED POLYPROPYLENE FILM CAPACITOR
Characteristics
Appearance
No visible damage.
Capacitance
change
Appearance
Within +3, -0% of the
initial value at +20℃.
No visible damage.
C≦0.33μF
50MΩ or more
C>0.33μF
10ΩF or more
Within +0, -4% of the
initial value at +20℃.
No visible damage.
Cold
Dry heat
Insulation
resistance
Capacitance
change
Appearance
Dielectric
strength
(Between
terminations)
Humidity
resistance
(steady
state)
Insulation
resistance
Tangent of
loss angle
Capacitance
change
Appearance
Dielectric
strength
(Between
terminations)
Endurance
test for
humidity
Insulation
resistance
Tangent of
loss angle
Capacitance
change
No breakdown.
C≦0.33μF
3,500MΩ or more
C>0.33μF
1,000ΩF or more
0.003
or less
PSC604000
Test
conditions
The capacitor shall be maintained
+1
at -40±2℃ for 2-
0 hours, after which
measurements shall be made.
The capacitor shall be maintained
+1
at +85±2℃ for 2-
0 hours, after which
measurements shall be made.
The capacitor shall be put into the test
chamber and left under the condition of
relative humidity 90~95% at 40±2℃
24
for 500+
- 0 hours.
After the test, the capacitor shall be left
under the ordinally condition for 1~2
hours.
The capacitors shall withstand 150% of
rated DC voltage for 1 minute.
Within ±5% of
the initial value.
No visible damage.
No breakdown.
C≦0.33μF
3,500MΩ or more
C>0.33μF
1,000ΩF or more
0.003
or less
The rated voltage shall be continuously
applied to the capacitor in the test chamber
at a relative humidity of 90~95% at
+24
40±2℃ for 500-
0 hours.
After the test, the capacitor shall be left
under the ordinally condition for 1~2
hours.
The capacitors shall withstand 150% of
rated DC voltage for 1 minute.
Within ±10% of
the initial value.
NISSEI ELECTRIC CO., LTD.
11 / 14
SPEC №
SPECIFICATION
Item
Appearance
Dielectric
strength
(Between
terminations)
Endurance
test for
high
temperature
Insulation
resistance
Tangent of
loss angle
Capacitance
change
Rapid change
of
temperature
METALLIZED POLYPROPYLENE FILM CAPACITOR
Characteristics
No visible damage.
No breakdown.
C≦0.33μF
3,500MΩ or more
C>0.33μF
1,000ΩF or more
0.003
or less
Test
conditions
The voltage of 111% of rated voltage shall
be continuously applied to the
capacitor through a series of 20~1,000Ω
per 1 voltage in the test chamber at 85±3℃
+48
for 1,000-
0 hours.
After the test, the capacitor shall be left
under the ordinally condition for 1~2
hours.
The capacitors shall withstand 150% of
rated DC voltage for 1 minute
Within ±10% of
the initial value.
Appearance
No visible damage.
Dielectric
strength
(Between
terminations)
No breakdown.
Insulation
resistance
C≦0.33μF
7,000MΩ or more
C>0.33μF
2,000ΩF or more
Tangent of
loss angle
Capacitance
change
PSC604000
0.003
or less
Within ±5% of
the initial value.
The capacitor put into the test chamber and
continuously left for the specified duration
at each temperature of the step 1 to 4 given
in Table 1. This operation is considered as
1 cycle and 5 cycles shall be continuously
repeated. After the test, the capacitor
shall be left under the ordinally condition
for 1~2 hours.
Step
1
2
3
4
NISSEI ELECTRIC CO., LTD.
Table 1
Temperature
Maintaind time
+0
-40-3℃
30±3 minuites
Normal temperature
3 minuites max
+3
+85-
30±3 minuites
0℃
Normal temperature
3 minuites max
12 / 14
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
14.REGULATION IN USAGE
14.1 Permissible voltage
When containing a portion
waveform shall not exceed
14.2
of D.C.Bias, the crasy
the rated voltage.
value
PSC604000
(peak
voltage
V0-P)
Permissible current to frequency
A permissible current is regilated by both a root-mean-square value current and
a peak current. A root-mean-square value current is to be a permissibe current
value to frequency attached. A permissible peak current is determined by a
permissible peak current value attached.
The values of continuous peak current in the allowable peak current shall be
those of continuous current, and the values of single peak current shall be
those of discontinuous current such as rush current in switching on or off.
The highest number of times of single peak current shall be limited to 10,000
times. (In case of exceeding 10,000 times, please contact us.)
Permissible Peak Current(Pulse Current)
450V.DC
Capacitance
Single
Continual
Parts №
(μF)
(A0-P)
(A0-P)
BPA□□0450□104D0100000
0.10
7.60
0.75
BPA□□0450□154D0100000
0.15
11.40
1.12
BPA□□0450□224D0100000
0.22
16.72
1.64
BPA□□0450□334D0100000
0.33
25.08
2.46
BPA□□0450□474D0100000
0.47
35.72
3.51
BPA□□0450□684D0100000
0.68
51.68
5.07
BPA□□0450□474D0150000
0.47
20.21
1.98
BPA□□0450□684D0150000
0.68
29.24
2.87
BPA□□0450□105D1150000
1.0
43.00
4.22
BPA□□0450□105D0150000
1.0
43.00
4.22
BPA□□0450□155D0150000
1.5
64.50
6.33
BPA□□0450□225D0150000
2.2
94.60
9.28
BPA□□0450□155D0220000
1.5
39.00
6.33
BPA□□0450□225D0220000
2.2
57.20
9.28
BPA□□0450□335D0220000
3.3
85.80
13.92
BPA□□0450□475D0220000
4.7
122.20
19.82
NISSEI ELECTRIC CO., LTD.
13 / 14
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
Furthermore, when used
derate the permissible
PSC604000
beyond 85~105℃ at temperature
current rated as shown below.
of
capacitor
surface,
100
90
80
70
60
50
40
80
85
90
100
95
105
Temperature of capacutor surface (℃)
14.3
Soldering
When soldering a capacitor, heat in soldering is conducted to the elements of
the capacitor from lead wire and an enclosure, and hence it should be noted
that soldering under high temperature and a long period may cause deterioration
of characteristic or breakdown of capacitors.
When mounting a capacitor together with chip components, it shall be carried
out after curing an adhesive for chip components.
(1)
When subjecting a capacitor to flow soldering
Using a capacitor with formed leads is recommended when subjecting a
capacitor to flow soldering.
When using a capacitor with straight leads or using a capacitor under the
following circumstances for reasons of mounting, the temperature of the
capacitor's innards in soldering (temperature of the point of measurement
shown below) shall be 140℃ or less.
Point of measurement
・When using a double-sided through-hole
substrate.
・Where other components are installed around
a capacitor and heat is trappod.
・When mounting a capacitor in a place near
the edge of a substrate.
※Temperature measurements shall
be made by inserting by about
2mm the tip of a thermo couple
having a diameter of 0.2mm or
less into a hole made in an
outer covering.
Preheating condition:120℃,
for one minute
290
280
270
260
250
240
230
220
1
2
7
3
4
5
6
Soldering time (sec.)
8
9
NISSEI ELECTRIC CO., LTD.
14 / 14
SPEC №
SPECIFICATION
(2) When
using
METALLIZED POLYPROPYLENE FILM CAPACITOR
PSC604000
soldering iron
Iron tip temperature less than 350℃
Soldering time (sec.) within 3 seconds
(3) When soldering a capacitor mounted on the board with chip-type components
Please avoid mounting a capacitor with chip-type components on a printed
circuit board because the application of hardening heat for bonding chip
conponents shall cause deterioration of the dielectric film.
NISSEI ELECTRIC CO., LTD.
1 / 1
SPEC №
SPECIFICATION
METALLIZED POLYPROPYLENE FILM CAPACITOR
Drawing
direction
・BPA:Sraight
W±0.5
PSC604000
lead
type
W±0.5
T±0.5
H ±0.5
H ±0.5
T±0.5
P±0.5
15Min
15Min
or
P±0.5
φd±0.05
φd±0.05
BPA-450V.DC
Dimensions(㎜)
Capacitance
Parts
№
BPA□□0450□104D0100000
BPA□□0450□154D0100000
BPA□□0450□224D0100000
BPA□□0450□334D0100000
BPA□□0450□474D0100000
BPA□□0450□684D0100000
BPA□□0450□474D0150000
BPA□□0450□684D0150000
BPA□□0450□105D1150000
BPA□□0450□105D0150000
BPA□□0450□155D0150000
BPA□□0450□225D0150000
BPA□□0450□155D0220000
BPA□□0450□225D0220000
BPA□□0450□335D0220000
BPA□□0450□475D0220000
(μF)
0.10
0.15
0.22
0.33
0.47
0.68
0.47
0.68
1.0
1.0
1.5
2.2
1.5
2.2
3.3
4.7
W
13.0
〃
〃
〃
〃
〃
18.0
17.8
18.0
〃
17.7
18.0
26.5
〃
〃
〃
H
9.0
11.0
〃
12.0
13.0
16.0
12.0
12.5
14.0
15.5
17.7
20.0
16.0
18.0
22.0
〃
NISSEI ELECTRIC CO., LTD.
T
4.0
5.0
〃
6.0
7.0
8.0
6.0
7.0
8.0
7.7
9.2
12.0
7.0
9.0
10.0
13.0
P φd
10.0 0.6
〃
〃
〃
〃
〃
〃
〃
〃
〃
〃
15.0 0.8
〃
〃
〃
〃
〃
〃
〃
〃
〃
〃
22.5 〃
〃
〃
〃
〃
〃
〃
Registry №
HWC604000
Rev. №
(BPA type)
01
Sheet №
1/2
When using a capacitor, please use one within the range of the specified values in the specification
after checking the environments of using and mounting.
If used beyond the range specified in the specification or the attached cautions, it may lead to short
circuit, open, smoking and firing.
Be sure to inquire of us as to the items which are not specified in the specification or are unclear
to you.
Also, in case of using capacitors for such equipment or apparatus as may possibly affect human
lives like life-support systems, aircraft and automotive control system, etc., please never fail to
inquire of us as to further details.
1. Operating temperature and humidity
(1) In actual use, make sure that the operating temperature is within the range specified in the
specification.
(2) Even if the operating temperature is within the specified range, sudden change in the
operating temperature may lead to cracks on the enclosure and result in deterioration of the
insulation resistance or the increase in tangent of loss angle by absorbing moisture through
cracks on the enclosure. Please take good care of the operating temperature.
(3) Please avoid using a capacitor in high humidity which may lead to the condensation as much
as possible.
Even if there are no cracks or damage on an enclosure, deterioration of the insulation
resistance or the increase in tangent of loss angle, etc. may be caused by absorbing moisture.
Therefore, please be careful when using a capacitor.
2. When using a capacitor in a circuit except a d.c. one
When using a capacitor in a circuit except a d.c. one, a capacitor shall be used below the
permissible current to frequency.
When used beyond the specified values, the capacitor surface temperature may rise due to the
occurrence of corona charge or self heat generation of a capacitor and it may result in a short
life, the destruction of the dielectric or the lowering of the insulation resistance.
At worst smoking or firing may be led.
3. Soldering
When soldering a capacitor, heat in soldering is conducted to the inside of the capacitor through
lead wires and an enclosure.
Therefore soldering at high temperature and for hours may cause deterioration of characteristics
or breakdown of a capacitor.
Be sure to solder a capacitor within the range specified in the specification when soldering.
In case of soldering beyond the range recommended by us, please inquire of us as to the details
in advance.
(1) Avoid soldering over again in a short time.
When dipping again in order to correct, dipping must be applied after the temperature of
a capacitor comes down to a room temperature and within twice.
(2) Avoid any work that puts the stress on lead wires of a capacitor such as correction of the
position right after soldering.
(3) When soldering with a soldering iron, please see to it lest a soldering iron should touch
the body of a capacitor directly.
Registry №
HWC604000
Rev. №
(BPA type)
01
Sheet №
2/2
4. Mounting
(1) When inserting a lead wire into the printed circuit board, the stress put on a lead wire shall be
within the following range.
① Bending of lead wire
When bending a lead wire vertically and then restoring straight, bending of a lead wire in the
same place shall be less than two cycles. (One cycle -- bending at 9 0゚ and restoring straight)
② Twisting of lead wire
Twisting of a lead wire should be carried out within a turn (a 3 60゚ turn) in total.
③ Pulling of lead wire
The load in pulling of a lead wire shall be less than 20N.
In case that the above stress is combined together, the value in application should be set less
than half of each value.
(2) When mounting a capacitor by force owing to the difference of the space between lead wires
of a capacitor from the space between the holes on the printed circuit board, be careful.
It may cause breakage of a lead wire or cracks on coating resin.
(3) When mounting a capacitor of large size or a capacitor on the equipment affected by
vibrations, fix the body of a capacitor with resin etc. which has no effect on a capacitor.
However, resin used for fixing shall be a flame retardant and minimum.
(4) Mount a capacitor lest it should touch other parts.
Especially in case of touching a part with self heat generation, a capacitor may deteriorate due
to heat and short circuit may be easily caused owing to lowering of dielectric strength or
deterioration of the insulation resistance, etc..
5. Cleaning
(1) When using the solvents for cleaning, use alcohol derivative cleaning solvents (isopropyl
alcohol, etc).
(2) Since a small amount of ingredient contained in flux may lead to corrosion of terminations of
the capacitor or chemical change of the capacitor element, be sure to clean a printed circuit
board right after soldering.
(3) The temperature for drying after cleaning shall be less than the maximum operating
temperature.
(4) When cleaning with solvents but alcohol derivatives, please inquire of us in advance.
6. Storing and waste
(1) Store under the conditions not exceeding -10 ℃~+40 ℃, 75%RH in the room and avoid
storing in the place filled with a sudden change in the temperature, the direct sunlight or
corrosive gases (hydrogen sulfide, sulfurous acid, chlorine and ammonia, etc.).
(2) A long-term storage may cause deterioration of characteristics of a capacitor due to absorbing
moisture little by little.
Therefore, be sure to use after checking its characteristics and solderability if stored for over
one year.
(3) As capacitors are classified into industrial waste, please ask experts to dispose of them.
7. The others
Please refer to "Guideline of notabilia for fixed plastic film capacitors for use in electronic
equipment" published by Electronic Industries Association of Japan (EIAJ RCR-2350) unless
specified in the specification.