RCE7U2J222J2M1H03A [MURATA]
汽车[动力总成 / 安全设备],汽车[信息娱乐 / 舒适设备],植入式以外的医疗器械设备 [GHTF A/B/C];型号: | RCE7U2J222J2M1H03A |
厂家: | muRata |
描述: | 汽车[动力总成 / 安全设备],汽车[信息娱乐 / 舒适设备],植入式以外的医疗器械设备 [GHTF A/B/C] 医疗 医疗器械 |
文件: | 总17页 (文件大小:707K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Reference Specification
Leaded MLCC for Automotive with AEC-Q200
RCE Series
Product specifications in this catalog are as of Apr. 2022, 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
When DC-rated capacitors are to be used in AC or ripple current circuits, be sure to maintain the Vp-p
value of the applied voltage or the Vo-p which contains DC bias within the rated voltage range. When the
voltage is started to apply to the circuit or it is stopped applying, the irregular voltage may be generated
for a transit period because of resonance or switching. Be sure to use a capacitor within rated voltage
containing these irregular voltage.
When DC-rated capacitors are to be used in input circuits from commercial power source (AC filter),
be sure to use Safety Recognized Capacitors because various regulations on withstand voltage or
impulse withstand established for each equipment should be taken into considerations.
Voltage
DC Voltage
DC+AC Voltage
AC Voltage
Pulse Voltage(1)
Pulse Voltage(2)
Positional
Vo-p
Vp-p
Vo-p
Vp-p
Vp-p
Measurement
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. In case of Class 2 capacitors (Temp.Char. : X7R,X7S,X8L, etc.),
applied voltage should be the load such as self-generated heat is within 20 °C on the condition of
atmosphere temperature 25 °C. Please contact us if self-generated heat is occurred with Class 1
capacitors (Temp.Char. : C0G,U2J,X8G, etc.). When measuring, use a thermocouple of small thermal
capacity-K of Φ0.1mm 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.
3. FAIL-SAFE
Be sure to provide an appropriate fail-safe function on your product to prevent a second damage that
may be caused by the abnormal function or the failure of our product.
4. 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 5 to 40 °C and 20 to 70%. Use capacitors within 6 months.
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.
7. BONDING AND RESIN MOLDING, RESIN COAT
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 a bonded or molded 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 or molding resin may cause a outer coating resin cracking and/or
ceramic element cracking of a capacitor in a temperature cycling.
8. TREATMENT AFTER BONDING AND RESIN MOLDING, RESIN COAT
When the outer coating is hot (over 100 °C) after soldering, it becomes soft and fragile.
So please be careful not to give it mechanical stress.
EGLEDMNO03
1/16
Reference only
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.
9. 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
5. Medical equipment
7. Traffic signal equipment
4. Power plant control equipment
6. Transportation equipment (vehicles, trains, ships, etc.)
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. SOLDERING AND MOUNTING
Insertion of the Lead Wire
• When soldering, insert the lead wire into the PCB without mechanically stressing the lead wire.
• Insert the lead wire into the PCB with a distance appropriate to the lead space.
3. CAPACITANCE CHANGE OF CAPACITORS
• Class 2 capacitors (Temp.Char. : X7R,X7S,X8L etc.)
Class 2 capacitors 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.
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.
EGLEDMNO03
2/16
Reference only
1. Application
This specification is applied to Leaded MLCC RCE series in accordance with
AEC-Q200 requirements used for Automotive Electronic equipment.
2. Rating
• Part Number Configuration
RCE
7U
2E
101
J
1
K1
Dimension Lead
(LxW) Style
H03
B
ex.)
Series
Temperature
Characteristics
Rated
Voltage
Capacitance
Capacitance
Tolerance
Individual
Specification
Package
• Temperature Characteristics
Code Temp. Char.
Standard
Temp.
Operating
Temp. Range
Temp. Range
Temp.coef.
U2J
7U
-55~25°C
25~125°C
-750+120/-347ppm/°C
-750+/-120ppm/°C
25°C
-55~125°C
(EIA code)
• Rated Voltage
Code
2E
2J
Rated voltage
DC250V
DC630V
DC1000V
3A
• Capacitance
The first two digits denote significant figures ; the last digit denotes the multiplier of 10 in pF.
ex.) In case of 101
10×101 = 100pF
• Capacitance Tolerance
Code
J
Capacitance Tolerance
+/-5%
• Dimension (LxW)
Please refer to [ Part number list ].
• Lead Style
*Lead wire is "solder coated CP wire".
Code
B1
Lead Style
Straight type
Lead spacing (mm)
5.0+/-0.8
E1
K1
Straight taping type
Inside crimp type
5.0+0.6/-0.2
5.0+/-0.8
M1
Inside crimp taping type
5.0+0.6/-0.2
• Individual Specification
Murata’s control code.
Please refer to [ Part number list ].
• Package
Code
A
B
Package
Taping type of Ammo
Bulk type
TEIKAKU
3/16
Reference only
3. Marking
Temp. char.
:
:
Letter code : U (U2J Char.)
Actual numbers (Less than 100pF)
3 digit numbers (100pF and over)
Code
Letter code : 4 (DC250V. Except dimension code : 1)
Letter code : 7 (DC630V)
Capacitance
Capacitance tolerance
Rated voltage
:
:
Letter code : A (DC1000V)
Company name code
:
Abbreviation :
(Except dimension code : 1)
(Ex.)
Rated voltage
DC250V
DC630V
DC1000V
Dimension code
1
U
102J
-
-
102
JAU
103
J4U
472
J7U
2
3,4
5
473
J4U
103
J7U
472
JAU
103
JAU
333
J7U
-
TEIKAKU
4/16
Reference only
4. Part number list
Unit : mm
DC
Dimension (mm)
W1
5.0
Dimension Pack
Customer
Part Number
Rated
Volt.
(V)
Cap.
Tol.
Murata Part Number
T.C.
Cap.
(LxW)
qty.
Lead Style (pcs)
L
W
F
T
RCE7U2E101J1K1H03B
RCE7U2E151J1K1H03B
RCE7U2E221J1K1H03B
RCE7U2E331J1K1H03B
RCE7U2E471J1K1H03B
RCE7U2E681J1K1H03B
RCE7U2E102J1K1H03B
RCE7U2E152J1K1H03B
RCE7U2E222J1K1H03B
RCE7U2E332J1K1H03B
RCE7U2E472J1K1H03B
RCE7U2E682J2K1H03B
RCE7U2E103J2K1H03B
RCE7U2J100J2K1H03B
RCE7U2J150J2K1H03B
RCE7U2J220J2K1H03B
RCE7U2J330J2K1H03B
RCE7U2J470J2K1H03B
RCE7U2J680J2K1H03B
RCE7U2J101J2K1H03B
RCE7U2J151J2K1H03B
RCE7U2J221J2K1H03B
RCE7U2J331J2K1H03B
RCE7U2J471J2K1H03B
RCE7U2J681J2K1H03B
RCE7U2J102J2K1H03B
RCE7U2J152J2K1H03B
RCE7U2J222J2K1H03B
RCE7U2J332J2K1H03B
RCE7U2J472J2K1H03B
RCE7U2J682J3K1H03B
RCE7U2J103J3K1H03B
RCE7U2J153J4K1H03B
RCE7U2J223J4K1H03B
RCE7U2J333J5B1H03B
RCE7U2J473J5B1H03B
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
U2J
250
250
250
250
250
250
250
250
250
250
250
250
100pF
150pF
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
4.0
3.5
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
1K1
1K1
1K1
1K1
1K1
1K1
1K1
1K1
1K1
1K1
1K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
3K1
3K1
4K1
4K1
5B1
5B1
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
7.5
7.5
7.5
7.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
5.0
5.0
5.5
5.5
8.0
8.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
7.5
7.5
8.0
8.0
-
220pF
330pF
470pF
680pF
1000pF
1500pF
2200pF
3300pF
4700pF
6800pF
250 10000pF
630
630
630
630
630
630
630
630
630
630
630
630
630
630
630
630
630
630
10pF
15pF
22pF
33pF
47pF
68pF
100pF
150pF
220pF
330pF
470pF
680pF
1000pF
1500pF
2200pF
3300pF
4700pF
6800pF
5.0
5.0
5.0
5.0
5.0
5.0
4.0
4.0
4.0
4.0
4.0
4.0
630 10000pF
630 15000pF
630 22000pF
630 33000pF
630 47000pF
-
PNLIST
5/16
Reference only
Unit : mm
DC
Dimension (mm)
W1
6.0
Dimension Pack
Customer
Part Number
Rated
Volt.
(V)
Cap.
Tol.
Murata Part Number
T.C.
Cap.
(LxW)
qty.
Lead Style (pcs)
L
W
F
T
RCE7U3A100J2K1H03B
RCE7U3A150J2K1H03B
RCE7U3A220J2K1H03B
RCE7U3A330J2K1H03B
RCE7U3A470J2K1H03B
RCE7U3A680J2K1H03B
RCE7U3A101J2K1H03B
RCE7U3A151J2K1H03B
RCE7U3A221J2K1H03B
RCE7U3A331J2K1H03B
RCE7U3A471J2K1H03B
RCE7U3A681J2K1H03B
RCE7U3A102J2K1H03B
RCE7U3A152J3K1H03B
RCE7U3A222J3K1H03B
RCE7U3A332J4K1H03B
RCE7U3A472J4K1H03B
RCE7U3A682J5B1H03B
RCE7U3A103J5B1H03B
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
U2J 1000
10pF
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
5.5
4.0
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
5.0 3.15
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
2K1
3K1
3K1
4K1
4K1
5B1
5B1
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
15pF
22pF
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
7.5
7.5
7.5
7.5
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
5.0
5.0
5.5
5.5
8.0
8.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
7.5
7.5
8.0
8.0
-
33pF
47pF
68pF
100pF
150pF
220pF
330pF
470pF
680pF
1000pF
1500pF
2200pF
3300pF
4700pF
6800pF
5.0
5.0
5.0
5.0
5.0
5.0
4.0
4.0
4.0
4.0
4.0
4.0
U2J 1000 10000pF
-
PNLIST
6/16
Reference only
Unit : mm
DC
Rated
Volt.
(V)
Dimension (mm)
W1
5.0
Dimension Pack
Customer
Part Number
Cap.
Tol.
Murata Part Number
T.C.
Cap.
(LxW)
Lead Style (pcs)
H/H0
qty.
L
W
F
T
RCE7U2E101J1M1H03A U2J 250
RCE7U2E151J1M1H03A U2J 250
RCE7U2E221J1M1H03A U2J 250
RCE7U2E331J1M1H03A U2J 250
RCE7U2E471J1M1H03A U2J 250
RCE7U2E681J1M1H03A U2J 250
RCE7U2E102J1M1H03A U2J 250
RCE7U2E152J1M1H03A U2J 250
RCE7U2E222J1M1H03A U2J 250
RCE7U2E332J1M1H03A U2J 250
RCE7U2E472J1M1H03A U2J 250
RCE7U2E682J2M1H03A U2J 250
100pF
150pF
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
7.5
7.5
7.5
7.5
3.5
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
1M1
1M1
1M1
1M1
1M1
1M1
1M1
1M1
1M1
1M1
1M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
3M1
3M1
4M1
4M1
5E1
5E1
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
1500
1500
1500
1500
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
5.0
5.0
5.5
5.5
8.0
8.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
7.5
7.5
8.0
8.0
-
220pF
330pF
470pF
680pF
1000pF
1500pF
2200pF
3300pF
4700pF
6800pF
RCE7U2E103J2M1H03A U2J
RCE7U2J100J2M1H03A U2J
RCE7U2J150J2M1H03A U2J
RCE7U2J220J2M1H03A U2J
RCE7U2J330J2M1H03A U2J
RCE7U2J470J2M1H03A U2J
RCE7U2J680J2M1H03A U2J
250 10000pF
630
630
630
630
630
630
10pF
15pF
22pF
33pF
47pF
68pF
RCE7U2J101J2M1H03A U2J 630
100pF
150pF
220pF
330pF
470pF
680pF
1000pF
1500pF
2200pF
3300pF
4700pF
6800pF
RCE7U2J151J2M1H03A U2J
RCE7U2J221J2M1H03A U2J
630
630
RCE7U2J331J2M1H03A U2J 630
RCE7U2J471J2M1H03A U2J 630
RCE7U2J681J2M1H03A U2J 630
RCE7U2J102J2M1H03A U2J
RCE7U2J152J2M1H03A U2J
RCE7U2J222J2M1H03A U2J
RCE7U2J332J2M1H03A U2J
RCE7U2J472J2M1H03A U2J
RCE7U2J682J3M1H03A U2J
RCE7U2J103J3M1H03A U2J
RCE7U2J153J4M1H03A U2J
RCE7U2J223J4M1H03A U2J
RCE7U2J333J5E1H03A U2J
RCE7U2J473J5E1H03A U2J
630
630
630
630
630
630
5.0
5.0
5.0
5.0
5.0
5.0
4.0 16.0
4.0 16.0
4.0 16.0
4.0 16.0
4.0 17.5
4.0 17.5
630 10000pF
630 15000pF
630 22000pF
630 33000pF
630 47000pF
-
PNLIST
7/16
Reference only
Unit : mm
DC
Rated
Volt.
(V)
Dimension (mm)
W1
6.0
Dimension Pack
Customer
Part Number
Cap.
Tol.
Murata Part Number
T.C.
Cap.
(LxW)
Lead Style (pcs)
H/H0
qty.
L
W
F
T
RCE7U3A100J2M1H03A U2J 1000
RCE7U3A150J2M1H03A U2J 1000
RCE7U3A220J2M1H03A U2J 1000
RCE7U3A330J2M1H03A U2J 1000
RCE7U3A470J2M1H03A U2J 1000
RCE7U3A680J2M1H03A U2J 1000
RCE7U3A101J2M1H03A U2J 1000
RCE7U3A151J2M1H03A U2J 1000
RCE7U3A221J2M1H03A U2J 1000
RCE7U3A331J2M1H03A U2J 1000
RCE7U3A471J2M1H03A U2J 1000
RCE7U3A681J2M1H03A U2J 1000
RCE7U3A102J2M1H03A U2J 1000
RCE7U3A152J3M1H03A U2J 1000
RCE7U3A222J3M1H03A U2J 1000
RCE7U3A332J4M1H03A U2J 1000
RCE7U3A472J4M1H03A U2J 1000
RCE7U3A682J5E1H03A U2J 1000
10pF
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
7.5
7.5
7.5
7.5
4.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
5.0 3.15 16.0
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
2M1
3M1
3M1
4M1
4M1
5E1
5E1
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
2000
1500
1500
1500
1500
15pF
22pF
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
5.0
5.0
5.5
5.5
8.0
8.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
7.5
7.5
8.0
8.0
-
33pF
47pF
68pF
100pF
150pF
220pF
330pF
470pF
680pF
1000pF
1500pF
2200pF
3300pF
4700pF
6800pF
5.0
5.0
5.0
5.0
5.0
5.0
4.0 16.0
4.0 16.0
4.0 16.0
4.0 16.0
4.0 17.5
4.0 17.5
RCE7U3A103J5E1H03A U2J 1000 10000pF
-
PNLIST
8/16
Reference only
5. AEC-Q200 Murata Standard Specifications and Test Methods
AEC-Q200
No.
Specification
AEC-Q200 Test Method
Test Item
Pre-and Post-Stress
Electrical Test
1
-
2
3
4
High
Appearance
No defects or abnormalities.
Sit the capacitor for 1000±12h at 150±3°C. Let sit for 24±2h at
*room condition, then measure.
Temperature Capacitance Within ±3% or ±0.3pF
Exposure
(Storage)
Change
Q
(Whichever is larger)
30pF ≦ C : Q ≧ 350
10pF ≦ C < 30pF : Q ≧ 275+5C/2
10pF > C : Q ≧ 200+10C
C : Nominal Capacitance (pF)
More than 1,000MΩ or 50 MΩ・μF
(Whichever is smaller)
I.R.
Temperature Appearance
No defects or abnormalities.
Perform the 1000 cycles according to the four heat treatments listed in
the following table. Let sit for 24±2 h at *room condition, then measure.
Cycling
Capacitance Within ±5% or ±0.5pF
Change
Q
(Whichever is larger)
Step
1
2
3
4
30pF ≦ C : Q ≧ 350
Temp.
(°C)
Room
Temp.
Room
Temp.
10pF ≦ C < 30pF : Q ≧ 275+5C/2
10pF > C : Q ≧ 200+10C
-55+0/-3
125+3/-0
Time
(min.)
15±3
1
15±3
1
C : Nominal Capacitance (pF)
1,000MΩ or 50MΩ・μF min.
(Whichever is smaller)
I.R.
Moisture
Appearance
No defects or abnormalities
Apply the 24h heat (25 to 65°C) and humidity (80 to 98%)
treatment shown below, 10 consecutive times.
Resistance
Capacitance Within ±5% or ± 0.5pF
Change
Q
(Whichever is larger)
Let sit for 24±2 h at *room condition, then measure.
30pF ≦ C : Q ≧ 200
30pF > C : Q ≧ 100+10C/3
C : Nominal Capacitance (pF)
500MΩ or 25MΩ・μF min.
(Whichever is smaller)
I.R.
5
Biased
Appearance
No defects or abnormalities
Apply the rated voltage and DC1.3+0.2/-0V (add 100kΩ resistor)
at 85±3°C and 80 to 85% humidity for 1000±12h.
Humidity
Capacitance Within ±5% or ± 0.5pF
Change
Q
(Whichever is larger)
Remove and let sit for 24±2 h at *room condition, then measure.
The charge/discharge current is less than 50mA.
30pF ≦ C : Q ≧ 200
30pF > C : Q ≧ 100+10C/3
C : Nominal Capacitance (pF)
500MΩ or 25MΩ・μF min.
(Whichever is smaller)
I.R.
* “room condition” Temperature : 15 to 35°C, Relative humidity : 45 to 75%, Atmosphere pressure : 86 to 106kPa
ESRCE04D
9/16
Reference only
AEC-Q200
Test Item
No.
6
Specification
AEC-Q200 Test Method
Operational
Life
Appearance
No defects or abnormalities.
Apply voltage in Table for 1000±12h at 125±3°C.
Let sit for 24±2 h at *room condition, then measure.
The charge/discharge current is less than 50mA.
Capacitance Within ±3% or ±0.3pF
Change
Q
(Whichever is larger)
30pF ≦ C : Q ≧ 350
Rated Voltage
DC250V
Test Voltage
10pF ≦ C < 30pF : Q ≧ 275+5C/2
10pF > C : Q ≧ 200+10C
150% of the rated voltage
DC630V
120% of the rated voltage
DC1000V
C : Nominal Capacitance (pF)
1,000MΩ or 50MΩ・μF min.
(Whichever is smaller)
I.R.
External Visual
7
8
9
No defects or abnormalities.
Within the specified dimensions.
To be easily legible.
Visual inspection.
Physical Dimension
Marking
Using calipers and micrometers.
Visual inspection.
10 Resistance
to Solvents
Appearance
No defects or abnormalities.
Per MIL-STD-202 Method 215
Capacitance Within the specified tolerance.
Solvent 1 : 1 part (by volume) of isopropyl alcohol
3 parts (by volume) of mineral spirits
Q
30pF ≦ C : Q ≧ 1,000
30pF > C : Q ≧ 400+20C
Solvent 2 : Terpene defluxer
Solvent 3 : 42 parts (by volume) of water
1 part (by volume) of propylene glycol
C : Nominal Capacitance (pF)
More than 10,000MΩ or 500 MΩ・μF
(Whichever is smaller)
I.R.
monomethyl ether
1 part (by volume) of monoethanolamine
Three shocks in each direction should be applied along 3
mutually perpendicular axes of the test specimen (18 shocks).
The specified test pulse should be Half-sine and should have a
duration : 0.5ms, peak value : 1500G and velocity change : 4.7m/s.
11 Mechanical
Shock
Appearance
No defects or abnormalities.
Capacitance Within the specified tolerance.
Q
30pF ≦ C : Q ≧ 1,000
30pF > C : Q ≧ 400+20C
C : Nominal Capacitance (pF)
No defects or abnormalities.
12 Vibration
Appearance
The capacitor should be subjected to a simple harmonic motion
having a total amplitude of 1.5mm, the frequency being varied
uniformly between the approximate limits of 10 and 2,000Hz.
The frequency range, from 10 to 2000Hz and return to 10Hz,
should be traversed in approximately 20 min. This motion
should be applied for 12 items in each 3 mutually perpendicular
directions (total of 36 times).
Capacitance Within the specified tolerance.
Q
30pF ≦ C : Q ≧ 1,000
30pF > C : Q ≧ 400+20C
C : Nominal Capacitance (pF)
13-1 Resistance
to
Appearance
No defects or abnormalities.
The lead wires should be immersed in the melted solder 1.5 to 2.0mm
from the root of terminal at 260±5°C for 10±1 seconds.
• Post-treatment
Capacitance Within ±2.5% or ±0.25pF
Soldering
Heat
Change
(Whichever is larger)
No defects
Dielectric
Strength
Capacitor should be stored for 24±2 hours at *room condition.
(Non-
Preheat)
(Between
terminals)
Appearance
13-2 Resistance
to
No defects or abnormalities.
First the capacitor should be stored at 120+0/-5°C for 60+0/-5 seconds.
Then, the lead wires should be immersed in the melted solder 1.5 to
2.0mm from the root of terminal at 260±5°C for 7.5+0/-1 seconds.
Capacitance Within ±2.5% or ±0.25pF
Soldering
Heat
Change
(Whichever is larger)
No defects
Dielectric
Strength
(On-
• Post-treatment
Preheat)
(Between
terminals)
Appearance
Capacitor should be stored for 24±2 hours at *room condition.
13-3 Resistance
to
No defects or abnormalities.
Test condition
Capacitance Within ±2.5% or ±0.25pF
Temperature of iron-tip : 350±10°C
Soldering time : 3.5±0.5 seconds
Soldering position
Soldering
Heat
Change
Dielectric
Strength
(Whichever is larger)
No defects
(soldering
Straight Lead : 1.5 to 2.0mm from the root of terminal.
Crimp Lead : 1.5 to 2.0mm from the end of lead bend.
iron method) (Between
terminals)
• Post-treatment
Capacitor should be stored for 24±2 hours at *room condition.
Perform the 300 cycles according to the two heat treatments listed in the
following table (Maximum transfer time is 20s.). Let sit for 24±2 h at
*room condition, then measure.
14 Thermal
Shock
Appearance
No defects or abnormalities.
Capacitance Within ±5% or ±0.5pF
Change
Q
(Whichever is larger)
30pF ≦ C : Q ≧ 350
Step
1
2
10pF ≦ C < 30pF : Q ≧ 275+5C/2
10pF > C : Q ≧ 200+10C
Temp.
(°C)
-55+0/-3
125+3/-0
Time
(min.)
C : Nominal Capacitance (pF)
1,000MΩ or 50MΩ・μF min.
(Whichever is smaller)
15±3
15±3
I.R.
* “room condition” Temperature : 15 to 35°C, Relative humidity : 45 to 75%, Atmosphere pressure : 86 to 106kPa
ESRCE04D
10/16
Reference only
AEC-Q200
Test Item
No.
Specifications
AEC-Q200 Test Method
No defects or abnormalities.
Within the specified tolerance.
30pF ≦ C : Q ≧ 1,000
15 ESD
Appearance
Per AEC-Q200-002
Capacitance
Q
30pF > C : Q ≧ 400+20C
C : Nominal Capacitance (pF)
More than 10,000MΩ or 500MΩ・μF
(Whichever is smaller)
I.R.
Lead wire should be soldered with uniform
coating on the axial direction over 95% of
the circumferential direction.
16 Solderability
Should be placed into steam aging for 8h±15 min.
The terminal of capacitor is dipped into a solution of ethanol
(JIS K 8101) and rosin (JIS K 5902) (25% rosin in weight
propotion). Immerse in solder solution for 2±0.5 seconds.
In both cases the depth of dipping is up to about 1.5 to 2mm from the
terminal body.
Temp. of solder :
245±5°C Lead Free Solder (Sn-3.0Ag-0.5Cu)
235±5°C H60A or H63A Eutectic Solder
Visual inspection.
No defects or abnormalities.
Within the specified tolerance.
30pF ≦ C : Q ≧ 1,000
17 Electrical
Characte-
rization
Appearance
Capacitance
Q
The capacitance, Q should be measured at 25°C at the frequency and
voltage shown in the table.
30pF > C : Q ≧ 400+20C
Nominal Cap. Frequency
C ≦ 1000pF 1±0.1MHz AC0.5 to 5V(r.m.s.)
C > 1000pF 1±0.1kHz AC1±0.2V(r.m.s.)
Voltage
C : Nominal Capacitance (pF)
I.R.
Between 10,000MΩ or 500MΩ・μF min.
The insulation resistance should be measured with DC500V
(DC250V in case of rated voltage : DC250V) at 25 °C within 2 min.
of charging.
Terminals (Whichever is smaller)
Dielectric
Strength
Between No defects or abnormalities.
Terminals
The capacitor should not be damaged when voltage in Table is
applied between the terminations for 1 to 5 seconds.
(Charge/Discharge current ≦ 50mA.)
Rated Voltage
DC250V
Test Voltage
200% of the rated voltage
150% of the rated voltage
130% of the rated voltage
DC630V
DC1000V
Body
No defects or abnormalities.
The capacitor is placed in a container with metal balls of 1mm
diameter so that each terminal, short-circuit is kept approximately
2mm from the balls, and 200% of the rated DC voltage (130% of the
rated voltage in case of rated voltage : DC630V,DC1000V) is impressed
for 1 to 5 seconds between capacitor terminals and metal balls.
(Charge/Discharge current ≦ 50mA.)
Insulation
Termination not to be broken or loosened.
18 Terminal
Strength
Tensile
As in the figure, fix the capacitor body, apply the force gradually
to each lead in the radial direction of the capacitor until reaching 10N
and then keep the force applied for 10±1 seconds.
Strength
F
Termination not to be broken or loosened.
Bending
Strength
Each lead wire should be subjected to a force of 2.5N and then
be bent 90° at the point of egress in one direction. Each wire is then
returned to the original position and bent 90° in the opposite
direction at the rate of one bend per 2 to 3 seconds.
The capacitance change should be measured after 5min. at
each specified temperature step.
Capacitance
Temperature
Characteristics
Within the specified Tolerance
19
25°C to 125°C : -750±120 ppm/°C
-55°C to 25°C : -750+120/-347 ppm/°C
Step
Temperature(°C)
25±2
1
2
3
4
5
-55±3
25±2
125±3
25±2
The temperature coefficient is determined using the capacitance
measured in step 3 as a reference. When cycling the temperature
sequentially from step 1 through 5 (-55°C to 125°C)
the capacitance should be within the specified tolerance for the
temperature coefficient and capacitance change as Table A.
The capacitance drift is calculated by dividing the differences
between the maximum and minimum measured values in the step
1, 3 and 5 by the capacitance value in step 3.
* “room condition” Temperature : 15 to 35°C, Relative humidity : 45 to 75%, Atmosphere pressure : 86 to 106kPa
ESRCE04D
11/16
Reference only
6. Packing specification
・Bulk type (Packing style code : B)
The size of packing case and packing way
Polyethylene bag
Partition
270 max.
125 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.
JKBCRPE02
12/16
Reference only
・Ammo pack taping type (Packing style code : A)
A crease is made every 25 pitches, and the tape with capacitors is packed zigzag into a case.
When body of the capacitor is piled on other body under it.
The size of packing case and packing way
240 max.
Position of label
340 max.
Unit : mm
51 max.
Hold down tape
Capacitor
Base tape
Hold down
tape upper
EKTRPE01
13/16
Reference only
7. Taping specification
7-1. Dimension of capacitors on tape
Straight taping type < Lead Style : E1 >
Pitch of component 12.7mm / Lead spacing 5.0mm
0
P2
P
△h2
△h1
Marking
△S
e
P1
F
φd
φD0
P0
Unit : mm
Item
Code
Dimensions
Remarks
Pitch of component
P
P0
F
12.7+/-1.0
12.7+/-0.2
5.0+0.6/-0.2
Pitch of sprocket hole
Lead spacing
Length from hole center to component
center
P2
6.35+/-1.3
Deviation of progress direction
They include deviation by lead bend
Deviation of tape width direction
Length from hole center to lead
Deviation along tape, left or right defect
Carrier tape width
P1
∆S
W
3.85+/-0.7
0+/-2.0
18.0+/-0.5
9.0+0/-0.5
17.5+/-0.5
0.5 max.
4.0+/-0.1
0.5+/-0.05
0.6+/-0.3
1.5 max.
Position of sprocket hole
For straight lead type
W1
H
Protrusion length
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
t2
2.0 max.(Dimension code:U)
1.0 max.(except as above)
11.0+0/-1.0
∆h1
∆h2
L
Deviation across tape
Portion to cut in case of defect
Hold down tape width
W0
W2
9.5 min.
Hold down tape position
1.5+/-1.5
2.0 max.(Dimension code:U)
1.5 max.(except as above)
Coating extension on lead
e
ETP1E101B
14/16
Reference only
Inside crimp taping type < Lead Style : M1 >
Pitch of component 12.7mm / Lead spacing 5.0mm
0
P2
P
Δh1
Marking
Δh2
ΔS
e
P1
F
Φd
ΦD0
P0
Unit : mm
Item
Code
P
Dimensions
12.7+/-1.0
12.7+/-0.2
5.0+0.6/-0.2
Remarks
Pitch of component
Pitch of sprocket hole
Lead spacing
P0
F
Length from hole center to component
center
P2
6.35+/-1.3
Deviation of progress direction
They include deviation by lead bend
Deviation of tape width direction
Length from hole center to lead
Deviation along tape, left or right defect
Carrier tape width
P1
ΔS
W
3.85+/-0.7
0+/-2.0
18.0+/-0.5
9.0+0/-0.5
Position of sprocket hole
W1
Lead distance between reference and
bottom plane
H0
16.0+/-0.5
Protrusion length
0.5 max.
4.0+/-0.1
0.5+/-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
t2
ꢀꢀꢀ2.0 max. (Dimension code : W)
ꢀꢀꢀ1.0 max. (except as above)
11.0+0/-1.0
Δh1
Δh2
L
Deviation across tape
Portion to cut in case of defect
Hold down tape width
W0
W2
e
9.5 min.
Hold down tape position
Coating extension on lead
1.5+/-1.5
Up to the end of crimp
ETP1M101A
15/16
Reference only
ꢀꢀ7-2. Splicing way of tape
1) Adhesive force of tape is over 3N at test condition as below.
W
Hold down tape
Base tape
2) Splicing of tape
ꢀꢀꢀa) When base tape is spliced
•Base tape shall be spliced by cellophane tape.
(Total tape thickness shall be less than 1.05mm.)
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 shall be spliced with overlapping.
(Total tape thickness shall be less than 1.05mm.)
20 to 30
Hold down tape
Base tape
Unit : mm
Progress direction
in production line
ꢀꢀꢀc) When both tape are spliced
•Base tape and hold down tape shall be spliced with splicing tape.
ETP2R01
16/16
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