DE1B3RA681KJ4BH01F [MURATA]
民用设备,工业设备,移动设备,植入式以外的医疗器械设备 [GHTF A/B/C],汽车[信息娱乐 / 舒适设备];型号: | DE1B3RA681KJ4BH01F |
厂家: | muRata |
描述: | 民用设备,工业设备,移动设备,植入式以外的医疗器械设备 [GHTF A/B/C],汽车[信息娱乐 / 舒适设备] 医疗 医疗器械 |
文件: | 总18页 (文件大小:545K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Reference Specification
Type RA
Safety Standard Certified Lead Type Disc Ceramic Capacitors for General Purpose
Product specifications in this catalog are as of Jun. 2023, and are subject to change or
obsolescence without notice.
Please consult the approval sheet before ordering.Please read rating and Cautions first.
Reference only
ꢀꢀCAUTION
ꢀꢀ1. OPERATING VOLTAGE
1) Do not apply a voltage to a safety standard certified product that exceeds the rated voltage as called out
in the specifications. Applied voltage between the terminals of a safety standard certified product shall be
less than or equal to the rated voltage (+10 %). When a safety standard certified product is used as a
DC voltage product, the AC rated voltage value becomes the DC rated voltage value.
(Example:AC250 V (r.m.s.) rated product can be used as DC250 V (+10 %) rated product.)
If both AC rated voltage and DC rated voltage are specified, apply the voltage lower than the respective
rated voltage.
1-1) When a safety standard certified product is used in a circuit connected to a commercial power supply,
ensure that the applied commercial power supply voltage including fluctuation should be less than 10 %
above its rated voltage.
1-2) When using a safety standard certified product as a DC rated product in circuits other than those
connected to a commercial power supply.
When AC voltage is superimposed on DC voltage, the zero-to-peak voltage shall not exceed the ratedꢀDC
voltage. When AC voltage or pulse voltage is applied, the peak-to-peak voltage shall not exceed the rated
DC voltage.
Typical Voltage Applied to the DC Capacitor
(E: Maximum possible applied voltage.)
2) Abnormal voltages (surge voltage, static electricity, pulse voltage, etc.) shall not exceed the rated DC
voltage.
ꢀꢀ2. OPERATING TEMPERATURE AND SELF-GENERATED HEAT
Keep the surface temperature of a capacitor below the upper limit of its rated operating temperature range.
Be sure to take into account the heat generated by the capacitor itself.
When the capacitor is used in a high-frequency current, pulse current or the like, it may have the self-
generated heat due to dielectric-loss. Applied voltage should be the load such as self-generated heatꢀis
within 20 ℃ on the condition of atmosphere temperature 25 ℃. When measuring, use aꢀthermocouple of
small thermal capacity-K of Φ0.1 mm and be in the condition where capacitor is not affected by radiant
heat of other components and wind of surroundings. Excessive heat may lead to deterioration of the
capacitor’s characteristics and reliability. (Never attempt to perform measurement with the cooling fan
running. Otherwise, accurate measurement cannot be ensured.)
ꢀꢀ3. TEST CONDITION FOR WITHSTANDING VOLTAGE
1) TEST EQUIPMENT
Test equipment for AC withstanding voltage should be used with the performance of the wave similar
to 50/60 Hz sine wave.
If the distorted sine wave or over load exceeding the specified voltage value is applied, the defective
may be caused.
EGD08G
1/17
Reference only
2) VOLTAGE APPLIED METHOD
When the withstanding voltage is applied, capacitor’s lead or terminal should be firmly connected to the
out-put of the withstanding voltage test equipment, and then the voltage should be raised from near zero
to the test voltage.
If the test voltage without the raise from near zero voltage would be applied directly to capacitor, test
voltage should be applied with the *zero cross. At the end of the test time, the test voltage should be
reduced to near zero, and then capacitor’s lead or terminal should be taken off the out-put of the
withstanding voltage test equipment.
If the test voltage without the raise from near zero voltage would
be applied directly to capacitor, the surge voltage may arise,
and therefore, the defective may be caused.
voltage sine wave
0 V
zero cross
*ZERO CROSS is the point where voltage sine wave pass 0 V.
- See the right figure -
ꢀꢀ4. FAIL-SAFE
When capacitor would be broken, failure may result in a short circuit. Be sure to provide an appropriate
fail-safe function like a fuse on your product if failure would follow an electric shock, fire or fume.
ꢀꢀ5. VIBRATION AND IMPACT
Do not expose a capacitor or its leads to excessive shock or vibration during use.
ꢀꢀ6. SOLDERING
When soldering this product to a PCB/PWB, do not exceed the solder heat resistance specification of the
capacitor. Subjecting this product to excessive heating could melt the internal junction solder and may
result in thermal shocks that can crack the ceramic element.
When soldering capacitor with a soldering iron, it should be performed in following conditions.
Temperature of iron-tip
Soldering iron wattage
Soldering time
: 400 ℃ max.
: 50 W max.
: 3.5 s max.
ꢀꢀ7. BONDING, RESIN MOLDING AND COATING
In case of bonding, molding or coating this product, verify that these processes do not affect the quality
of capacitor by testing the performance of the bonded, molded or coated product in the intended
equipment.
In case of the amount of applications, dryness / hardening conditions of adhesives and molding resins
containing organic solvents (ethyl acetate, methyl ethyl ketone, toluene, etc.) are unsuitable, the outer
coating resin of a capacitor is damaged by the organic solvents and it may result, worst case, in a short
circuit.
The variation in thickness of adhesive, molding resin or coating may cause a outer coating resin cracking
and/or ceramic element cracking of a capacitor in a temperature cycling.
ꢀꢀ8. TREATMENT AFTER BONDING, RESIN MOLDING AND COATING
When the outer coating is hot (over 100 ℃) after soldering, it becomes soft and fragile.
So please be careful not to give it mechanical stress.
Failure to follow the above cautions may result, worst case, in a short circuit and cause fuming or partial
dispersion when the product is used.
EGD08G
2/17
Reference only
ꢀꢀ9. OPERATING AND STORAGE ENVIRONMENT
The insulating coating of capacitors does not form a perfect seal; therefore, do not use or store capacitors
in a corrosive atmosphere, especially where chloride gas, sulfide gas, acid, alkali, salt or the like are
present. And avoid exposure to moisture. Before cleaning, bonding, or molding this product, verify that
these processes do not affect product quality by testing the performance of a cleaned, bonded or molded
product in the intended equipment. Store the capacitors where the temperature and relative humidity do not
exceed -10 to 40 ℃ and 15 to 85 %.
Use capacitors within 6 months after delivered. Check the solderability after 6 months or more.
ꢀꢀ10. LIMITATION OF APPLICATIONS
Please contact us before using our products for the applications listed below which require especially high
reliability for the prevention of defects which might directly cause damage to the third party’s life, body or
property.
1. Aircraft equipment
2. Aerospace equipment
3. Undersea equipment
4. Power plant control equipment
5. Medical equipment
6. Transportation equipment (vehicles, trains, ships, etc.)
7. Traffic signal equipment
8. Disaster prevention / crime prevention equipment
9. Data-processing equipment exerting influence on public
10. Application of similar complexity and/or reliability requirements to the applications listed in the above.
NOTICE
ꢀꢀ1. CLEANING (ULTRASONIC CLEANING)
To perform ultrasonic cleaning, observe the following conditions.
Rinse bath capacity : Output of 20 watts per liter or less.
Rinsing time : 5 min maximum.
Do not vibrate the PCB/PWB directly.
Excessive ultrasonic cleaning may lead to fatigue destruction of the lead wires.
ꢀꢀ2. CAPACITANCE CHANGE OF CAPACITORS
• Class 1 capacitors
Capacitance might change a little depending on a surrounding temperature or an applied voltage.
Please contact us if you use for the strict time constant circuit.
• Class 2 and 3 capacitors
Class 2 and 3 capacitors like temperature characteristic B, E and F have an aging characteristic,
whereby the capacitor continually decreases its capacitance slightly if the capacitor leaves for a long
time. Moreover, capacitance might change greatly depending on a surrounding temperature or an
applied voltage. So, it is not likely to be able to use for the time constant circuit.
Please contact us if you need a detail information.
ꢀꢀ3. PERFORMANCE CHECK BY EQUIPMENT
Before using a capacitor, check that there is no problem in the equipment's performance and the
specifications.
Generally speaking, CLASS 2 ceramic capacitors have voltage dependence characteristics and
temperature dependence characteristics in capacitance. So, the capacitance value may change
depending on the operating condition in a equipment. Therefore, be sure to confirm the apparatus
performance of receiving influence in a capacitance value change of a capacitor, such as leakage
current and noise suppression characteristic.
Moreover, check the surge-proof ability of a capacitor in the equipment, if needed, because the surge
voltage may exceed specific value by the inductance of the circuit.
EGD08G
3/17
Reference only
ꢀꢀNOTE
1. Please make sure that your product has been evaluated in view of your specifications with our product
being mounted to your product.
2. You are requested not to use our product deviating from this specification.
EGD08G
4/17
Reference only
1.Application
This specification is applied to Safety Standard Certified Lead Type Disc Ceramic Capacitors Type RA
used for General Electric equipment.
The safety standard certification is obtained by Class X1, Y1.
Do not use these products in any automotive power train or safety equipment including battery chargers
for electric vehicles and plug-in hybrids.
Approval standard and certified number
Standard number
UL60384-14/CSA E60384-14
*Certified number
E37921
Rated voltage
UL/cUL
ENEC
(VDE)
CQC
X1: AC440 V(r.m.s.)
Y1: AC400 V(r.m.s.)
EN60384-14
40043033
IEC60384-14
CQC16001138225
*Above Certified number may be changed on account of the revision of standards and
ꢀthe renewal of certification.
2.Rating
2-1.Operating temperature range
-40 ~ 125°C
2-2.Rated Voltage
X1: AC440 V(r.m.s.)
Y1: AC400 V(r.m.s.)
DC1,000 V
2-3.Part number configuration
ex.)
DE1
E3
RA
Certified
Type
472
M
J4
Lead
Style
B
H01F
Individual
Series
Temperature
Characteristics
Capacitance
Capacitance
Tolerance
Package
Specification
• Series
DE1 denotes class X1,Y1 .
• Temperature Characteristics
Please confirm detailed specification on [Specification and test methods].
Code
1X
B3
Temperature Characteristics
SL
B
E3
E
• Certified Type
This denotes safety certified type name Type RA.
• Capacitance
The first two digits denote significant figures ; the last digit denotes the multiplier of 10 in pF.
472
ex.) In case of
.
47 × 102 = 4700 pF
• Capacitance Tolerance
Please refer to [ Part number list ].
TEIKAKU
5/17
Reference only
Lead Style
• Lead Style
* Please refer to [ Part number list ].
Code
A*
J*
N*
Vertical crimp long type
Vertical crimp short type
Vertical crimp taping type
• Package
Code
A
B
Package
Ammo pack taping type
Bulk type
• Individual Specification
For part number that cannot be identified without "Individual Specification”, it is added at
the end of part number.
Code
Individual Specification
‣Rated voltage : X1: AC440 V(r.m.s.)
Y1: AC400 V(r.m.s.)
DC1,000 V
H01F
‣Halogen free
Br≦900ppm, Cl≦900ppm
Br+Cl≦1500ppm
‣CP wire
Note) Murata part numbers might be changed depending on Lead Style or any other changes.
Therefore, please specify only the Certified Type (RA) and capacitance of products in the
parts list when it is required for applying safety standard of electric equipment.
3.Marking
Certified type
: RA
Capacitance
: Actual value(under 100 pF)
3 digit system(100 pF and over)
: Code
Capacitance tolerance
Class code and Rated voltage mark : X1 440~
: Y1 400~
Manufacturing year
Manufacturing month
: Letter code(The last digit of A.D. year.)
: Code
Feb./Mar. → 2
Aug./Sep. → 8
Oct./Nov. → O
Dec./Jan. → D
Apr./May → 4
Ap
Jun./Jul. → 6
Company name code
:
(Made in Thailand)
(Example)
RA 472M
X1 440~
Y1 400~
2D
TEIKAKU
6/17
Reference only
4. Part number list
Note) The mark ' * ' of Lead Style differ from lead spacing (F) and lead diameter (d).
Please see the following list about details.
Unit : mm
Dimension (mm)
Pack
qty.
(pcs)
Customer
Part Number
Murata
Part Number
Cap.
(pF)
Cap.
tol.
Lead
Style
T.C.
D
T
F
d
DE11XRA100KA4BH01F
DE11XRA150KA4BH01F
DE11XRA220KA4BH01F
DE11XRA330KA4BH01F
DE11XRA470KA4BH01F
DE11XRA680KA4BH01F
DE1B3RA101KA4BH01F
DE1B3RA151KA4BH01F
DE1B3RA221KA4BH01F
DE1B3RA331KA4BH01F
DE1B3RA471KA4BH01F
DE1B3RA681KA4BH01F
DE1E3RA102MA4BH01F
DE1E3RA152MA4BH01F
DE1E3RA222MA4BH01F
DE1E3RA332MA4BH01F
DE1E3RA472MA4BH01F
SL
SL
SL
SL
SL
SL
B
10 ±10%
15 ±10%
7.0
4.0 10.0
5.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
5.0 10.0
5.0 10.0
5.0 10.0
5.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
5.0 10.0
5.0 10.0
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
0.6 A4
250
500
500
250
250
250
500
250
500
500
250
250
250
250
250
250
200
6.0
6.0
7.0
7.0
8.0
6.0
7.0
6.0
6.0
7.0
8.0
7.0
8.0
9.0
10.0
12.0
22 ±10%
33 ±10%
47 ±10%
68 ±10%
100 ±10%
150 ±10%
220 ±10%
330 ±10%
470 ±10%
680 ±10%
1000 ±20%
1500 ±20%
2200 ±20%
3300 ±20%
4700 ±20%
B
B
B
B
B
E
E
E
E
E
PNLIST
7/17
Reference only
Note) The mark ' * ' of Lead Style differ from lead spacing (F) and lead diameter (d).
Please see the following list about details.
Unit : mm
Dimension (mm)
Pack
qty.
(pcs)
Customer
Part Number
Murata
Part Number
Cap.
(pF)
Cap.
tol.
Lead
Style
T.C.
D
T
F
d
DE11XRA100KJ4BH01F
DE11XRA150KJ4BH01F
DE11XRA220KJ4BH01F
DE11XRA330KJ4BH01F
DE11XRA470KJ4BH01F
DE11XRA680KJ4BH01F
DE1B3RA101KJ4BH01F
DE1B3RA151KJ4BH01F
DE1B3RA221KJ4BH01F
DE1B3RA331KJ4BH01F
DE1B3RA471KJ4BH01F
DE1B3RA681KJ4BH01F
DE1E3RA102MJ4BH01F
DE1E3RA152MJ4BH01F
DE1E3RA222MJ4BH01F
DE1E3RA332MJ4BH01F
DE1E3RA472MJ4BH01F
SL
SL
SL
SL
SL
SL
B
10 ±10%
15 ±10%
7.0
4.0 10.0
5.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
5.0 10.0
5.0 10.0
5.0 10.0
5.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
5.0 10.0
5.0 10.0
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
0.6 J4
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
250
6.0
6.0
7.0
7.0
8.0
6.0
7.0
6.0
6.0
7.0
8.0
7.0
8.0
9.0
10.0
12.0
22 ±10%
33 ±10%
47 ±10%
68 ±10%
100 ±10%
150 ±10%
220 ±10%
330 ±10%
470 ±10%
680 ±10%
1000 ±20%
1500 ±20%
2200 ±20%
3300 ±20%
4700 ±20%
B
B
B
B
B
E
E
E
E
E
PNLIST
8/17
Reference only
Note) The mark ' * ' of Lead Style differ from lead spacing (F) ,
lead diameter (d) and pitch of compoment (P).
Please see the following list or taping specification about details.
Unit : mm
Dimension (mm)
Pack
qty.
(pcs)
Customer
Part Number
Murata
Part Number
Cap.
(pF)
Cap.
tol.
Lead
Style
T.C.
D
T
F
d
P
DE11XRA100KN4AH01F
DE11XRA150KN4AH01F
DE11XRA220KN4AH01F
DE11XRA330KN4AH01F
DE11XRA470KN4AH01F
DE11XRA680KN4AH01F
DE1B3RA101KN4AH01F
DE1B3RA151KN4AH01F
DE1B3RA221KN4AH01F
DE1B3RA331KN4AH01F
DE1B3RA471KN4AH01F
DE1B3RA681KN4AH01F
DE1E3RA102MN4AH01F
DE1E3RA152MN4AH01F
DE1E3RA222MN4AH01F
DE1E3RA332MN4AH01F
DE1E3RA472MN4AH01F
SL
SL
SL
SL
SL
SL
B
10 ±10%
15 ±10%
7.0
4.0 10.0
5.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
5.0 10.0
5.0 10.0
5.0 10.0
5.0 10.0
4.0 10.0
4.0 10.0
4.0 10.0
5.0 10.0
5.0 10.0
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
0.6 25.4 N4
600
600
600
600
600
600
600
600
600
600
600
600
600
600
600
600
600
6.0
6.0
7.0
7.0
8.0
6.0
7.0
6.0
6.0
7.0
8.0
7.0
8.0
9.0
10.0
12.0
22 ±10%
33 ±10%
47 ±10%
68 ±10%
100 ±10%
150 ±10%
220 ±10%
330 ±10%
470 ±10%
680 ±10%
1000 ±20%
1500 ±20%
2200 ±20%
3300 ±20%
4700 ±20%
B
B
B
B
B
E
E
E
E
E
PNLIST
9/17
Reference only
5. Specification and test methods
Item
No.
1
Specification
Test method
Appearance and dimensions
No marked defect on appearance form The capacitor should be inspected by naked eyes for visible
and dimensions.
evidence of defect.
Please refer to [Part number list].
Dimensions should be measured with slide calipers.
2
3
Marking
To be easily legible.
The capacitor should be inspected by naked eyes.
Dielectricꢀ
strength
Between lead No failure.
The capacitor should not be damaged when AC4,000 V(r.m.s.)
<50/60 Hz> is applied between the lead wires for 60 s.
wires
Bodyꢀ
insulation
No failure.
First, the terminals of the capacitor should be
connected together.
Then, a metal foil should be
closely wrapped around
the body of the capacitor
Metal
foil
to the distance of
about 3 to 6 mm
from each terminal.
Then, the capacitor should be
About
3 to 6 mm
Metal
balls
inserted into a container filled
with metal balls of about 1 mm diameter.
Finally, AC4,000 V(r.m.s.) <50/60 Hz> is applied for 60 s between
the capacitor lead wires and metal balls.
4
Insulation Resistance (I.R.)
10,000 MΩ min.
The insulation resistance should be measured with DC500±50 V
within 60±5 s of charging. The voltage should be applied to the
capacitor through a resistor of 1 MΩ.
5
6
7
Capacitance
Within specified tolerance.
The capacitance should be measured at 20 °C with 1±0.1 kHz and
AC1±0.2 V(r.m.s.) max..
Dissipation Factor (D.F.)
Temperature characteristic
DF≦0.025
The dissipation factor should be measured at 20 °C with 1±0.1 kHz
and AC1±0.2 V(r.m.s.) max..
Char. SL : +350 to -1,000 ppm/ °C
(Temp. range : 20 to 85 °C)
Char. B : Within ±10 %
The capacitance measurement should be made at each step
specified in Table.
Char. E : Within +20/-55 %
(Temp. range : -25 to 85 °C)
Step
1
2
3
4
5
Temp.(°C)
20±2
-25±2
20±2
85±2
20±2
8
Active flammability
The cheese-cloth should not be
on fire.
The capacitors should be individually wrapped in at least one but
more than two complete layers of cheese-cloth. The capacitor
should be subjected to 20 discharges. The interval between
successive discharges should be 5 s. The UAc should be
maintained for 2 min after the last discharge.
C1,2
: 1 μF±10 %,
C3 : 0.033 μF±5 % 10 kV
L1 to L4 : 1.5 mH±20 % 16A Rod core choke
R
: 100 Ω±2 %,
Ct : 3 μF±5 % 10 kV
UAc
Cx
F
: UR ±5 %
UR : Rated voltage
: Capacitor under test
: Fuse, Rated 10 A
: Voltage applied to Ct
Ut
ESRA03B
10/17
Reference only
Specification
Item
No.
9
Test method
Fix the body of capacitor, a tensile weight gradually to each lead
wire in the radial direction of capacitor up to 10 N and keep it for
10±1 s.
Robustness of Tensile
terminations
Lead wire should not cut off.
Capacitor should not be broken.
Bending
With the termination in its normal position, the capacitor is held by
its body in such a manner that the axis of the termination is
vertical; a mass applying a force of 5 N is then suspended from the
end of the termination.
The body of the capacitor is then inclined, within a period of 2 to
3 s, through an angle of approximately 90 ° in the vertical plane
and then returned to its initial position over the same period of
time; this operation constitutes one bend.
One bend immediately followed by a second bend in the opposite
direction.
10 Vibration
resistance
Appearance
Capacitance
No marked defect.
Within the specified tolerance.
DF≦0.025
The capacitor should be firmly soldered to the supporting lead wire
and vibration which is 10 to 55 Hz in the vibration frequency range,
1.5 mm in total amplitude, and about 1 min in the rate of vibration
change from 10 Hz to 55 Hz and back to 10 Hz is applied for a total
of 6 h; 2 h each in 3 mutually perpendicular directions.
Dissipation
Factor (D.F.)
11 Solderability of leads
Lead wire should be soldered with
The lead wire of a capacitor should be dipped into a ethanol
uniformly coated on the axial direction solution of 25 wt% rosin and then into molten solder for 2±0.5 s. In
over 3/4 of the circumferential
direction.
both cases the depth of dipping is up to about 1.5 to 2.0 mm from
the root of lead wires.
Temp. of solder : 245±5 °C Lead Free Solder (Sn-3Ag-0.5Cu)
12 Soldering
effect
Appearance
No marked defect.
Within ±10 %
Solder temperature : 350±10 °C or 260±5 °C
Immersion time
: 3.5±0.5 s (In case of 260±5 °C : 10±1 s)
Capacitance
change
(Non-preheat)
The depth of immersion is up to about 1.5 to 2.0 mm from the root
of lead wires.
I.R.
1,000 MΩ min.
Dielectric
strength
Per item 3
Pre-treatment : Capacitor should be stored at 125±2 °C for 1 h,
and apply the AC4,000 V(r.m.s.) 60 s then placed
at *room condition for 24±2 h before initial
measurements.
(Do not apply to Char. SL)
Post-treatment : Capacitor should be stored for 1 to 2 h at *room
condition.
13 Soldering
effect
Appearance
No marked defect.
Within ±10 %
First the capacitor should be stored at 120+0/-5 °C for 60+0/-5 s.
Then, as in figure, the lead wires should be immersed solder of
260+0/-5 °C up to 1.5 to 2.0 mm from the root of terminal for
7.5+0/-1 s.
Capacitance
change
(On-preheat)
I.R.
1,000 MΩ min.
Dielectric
strength
Per item 3
Pre-treatment : Capacitor should be stored at 125±2 °C for 1 h,
and apply the AC4,000 V(r.m.s.) 60 s then placed
at *room condition for 24±2 h before initial
measurements.
(Do not apply to Char. SL)
Post-treatment : Capacitor should be stored for 1 to 2 h at *room
condition..
* "room condition" Temperature : 15 to 35 °C, Relative humidity : 45 to 75 %, Atmospheric pressure : 86 to 106 kPa
ESRA03B
11/17
Reference only
Specification
No.
Item
Test method
14 Flame test
The capacitor flame discontinue
as follows.
The capacitor should be subjected to applied flame for 15 s. and
then removed for 15 s until 5 cycles.
Cycle
1 to 4
5
Time
30 s max.
60 s max.
(in mm)
15 Passive flammability
The burning time should not be
exceeded the time 30 s.
The capacitor under test should be held in the flame in the position
which best promotes burning.
Time of exposure to flame is for 30 s.
The tissue paper should not ignite.
ꢀꢀꢀꢀꢀLength of flame : 12±1 mm
ꢀꢀꢀꢀꢀGas burner
: Length 35 mm min.
Inside Dia. 0.5±0.1 mm
ꢀꢀꢀꢀꢀ Outside Dia. 0.9 mm max.
ꢀꢀꢀꢀꢀGas : Butane gas Purity 95 % min.
ꢀꢀꢀꢀꢀ
Capacitor
About 8mm
Gas burner
Flame
200±5mm
45
Tissue
About 10mm thick board
16 Humidity
(Under steady
Appearance
No marked defect.
Set the capacitor for 500±12 h at 40±2 °C in 90 to 95 % relative
humidity.
Capacitance
change
Char. SL : Within ±5 %
Char. B : Within ±10 %
Char. E : Within ±15 %
state)
Pre-treatment : Capacitor should be stored at 125±2 °C for 1 h,
and apply the AC4,000 V(r.m.s.) 60 s then placed
at *room condition for 24±2 h before initial
measurements.
Dissipation
Factor (D.F.)
Char. SL : DF≦0.025
Char. B, E : DF≦0.05
I.R.
3,000 MΩ min.
(Do not apply to Char. SL)
Post-treatment : Capacitor should be stored for 1 to 2 h at *room
condition.
Dielectric
strength
Per item 3
17 Humidity
loading
Appearance
No marked defect.
Apply AC440 V(r.m.s.) for 500±12 h at 40±2 °C in 90 to 95 %
relative humidity.
Capacitance
change
Char. SL : Within ±5 %
Char. B : Within ±10 %
Char. E : Within ±15 %
Pre-treatment : Capacitor should be stored at 125±2 °C for 1 h,
and apply the AC4,000 V(r.m.s.) 60 s then placed
at *room condition for 24±2 h before initial
measurements.
Dissipation
Factor (D.F.)
Char. SL : DF≦0.025
Char. B, E : DF≦0.05
I.R.
3,000 MΩ min.
(Do not apply to Char. SL)
Post-treatment : Capacitor should be stored for 1 to 2 h at *room
condition.
Dielectric
strength
Per item 3
* "room condition" Temperature : 15 to 35 °C, Relative humidity : 45 to 75 %, Atmospheric pressure : 86 to 106 kPa
ESRA03B
12/17
Reference only
No.
18 Life
Item
Appearance
Specification
No marked defect.
Test method
Impulse voltage
Each individual capacitor should be subjected to a 8 kV impulses
for three times or more. Then the capacitors are applied to life test.
Capacitance
change
Within ±20 %
Front time (T1) = 1.7 μs=1.67T
Time to half-value (T2) = 50 μs
I.R.
3,000 MΩ min.
Dielectric
strength
Per item 3
The capacitors are placed in a circulating air oven for a period of
1,000 h.
The air in the oven is maintained at a temperature of
125+2/-0 °C, and relative humidity of 50 % max.. Throughout the
test, the capacitors are subjected to a AC680 V(r.m.s.) <50/60 Hz>
alternating voltage of mains frequency, except that once each hour
the voltage is increased to AC1,000 V(r.m.s.) for 0.1 s.
Pre-treatment : Capacitor should be stored at 125±2 °C for 1 h,
and apply the AC4,000 V(r.m.s.) 60 s then placed
at *room condition for 24±2 h before initial
measurements.
(Do not apply to Char. SL)
Post-treatment : Capacitor should be stored for 24±2 h at *room
condition.
19 Temperature Appearance
No marked defect.
The capacitor should be subjected to 5 temperature cycles,
then consecutively to 2 immersion cycles.
and
immersion
cycle
Capacitance
change
Char. SL : Within ±5 %
Char. B : Within ±10 %
Char. E : Within ±20 %
<Temperature cycle>
Step
Temperature(C)
-40+0/-3
Time
30 min
3 min
30 min
3 min
1
2
3
4
Dissipation
Factor (D.F.)
Char. SL : DF≦0.025
Char. B, E : DF≦0.05
Room temp.
125+3/-0
I.R.
3,000 MΩ min.
Room temp.
Dielectric
strength
Per item 3
Cycle time : 5 cycles
<Immersion cycle>
Step
Temperature(°C)
Time
15 min
15 min
Immersion water
1
2
65+5/-0
0±3
Clean water
Salt water
Cycle time : 2 cycles
Pre-treatment : Capacitor should be stored at 125±2 °C for 1 h,
and apply the AC4,000 V(r.m.s.) 60 s then placed
at *room condition for 24±2 h before initial
measurements.
(Do not apply to Char. SL)
Post-treatment : Capacitor should be stored for 24±2 h at *room
condition.
* "room condition" Temperature : 15 to 35 °C, Relative humidity : 45 to 75 %, Atmospheric pressure : 86 to 106 kPa
ESRA03B
13/17
Reference only
6. Packing specification
・Bulk type (Package : B)
The size of packing case and packing way
Polyethylene bag
Partition
125 max.
270 max.
Unit : mm
340 max.
The number of packing = *1 Packing quantity × *2 n
*1 : Please refer to [Part number list].
*2 : Standard n = 20 (bag)
Note)
The outer package and the number of outer packing be changed by the order getting amount.
EKBCDE02A
14/17
Reference only
・Ammo pack taping type (Package : A)
・The tape with capacitors is packed zigzag into a case.
・When body of the capacitor is piled on other body under it.
・There should be 3 pitches and over without capacitors in leader and trailer.
The size of packing case and packing way
240 max.
Position of label
340 max.
Unit : mm
60 max.
Hold down tape
Capacitor
Base tape
Hold down
tape upper
EKTDE10A
15/17
Reference only
7. Taping specification
7-1. Dimension of capacitors on tape
Vertical crimp taping type < Lead Style : N4 >
Pitch of component 25.4 mm / Lead spacing 10.0 mm
Unit : mm
Item
Code
P
Dimensions
25.4+/-2.0
12.7+/-0.3
10.0+/-1.0
7.7+/-1.5
Remarks
Pitch of component
Pitch of sprocket hole
Lead spacing
P0
F
Length from hole center to lead
Body diameter
P1
D
Please refer to [Part number list ].
Deviation along tape, left or right
Carrier tape width
ΔS
W
0+/-2.0
18.0+/-0.5
9.0+/-0.5
They include deviation by lead bend.
Position of sprocket hole
W1
Deviation of tape width direction
Lead distance between reference and bottom
planes
H0
18.0+2.0/-0
Protrusion length
+0.5~-1.0
4.0+/-0.1
0.60+/-0.05
0.6+/-0.3
1.5 max.
Diameter of sprocket hole
Lead diameter
ΦD0
Φd
t1
Total tape thickness
They include hold down tape
thickness.
Total thickness of tape and lead wire
Deviation across tape, front
Deviation across tape, rear
Portion to cut in case of defect
Hold down tape width
t2
Δh1
Δh2
L
2.0 max.
11.0+0/-1.0
11.5 min.
1.5+/-1.5
W0
W2
e
Hold down tape position
Coating extension on lead
Body thickness
Up to the end of crimp
Please refer to [Part number list ].
T
ETP1N401B
16/17
Reference only
ꢀꢀ7-2. Splicing way of tape
1) Adhesive force of tape is over 3 N at test condition as below.
W
Hold down tape
Base tape
2) Splicing of tape
ꢀꢀꢀa) When base tape is spliced
•Base tape should be spliced by cellophane tape.
(Total tape thickness should be less than 1.05 mm.)
Progress direction
in production line
Hold down tape
Base tape
About 30 to 50
No lifting for the
Cellophane tape
direction of progressing
Unit : mm
ꢀꢀꢀb) When hold down tape is spliced
ꢀꢀꢀ •Hold down tape should be spliced with overlapping.
(Total tape thickness should be less than 1.05 mm.)
20 to 60
Hold down tape
Base tape
Unit : mm
Progress direction
in production line
ꢀꢀꢀc) When both tape are spliced
•Base tape and hold down tape should be spliced with splicing tape.
3) Missing components
•There should be no consecutive missing of more than three components.
•The number of missing components should be not more than 0.5 % of
total components that should be present in a Ammo pack.
ETP2D03
17/17
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