SA1608C0G104D6R3NRB [SAMWHA]
Multi Layer Ceramic Capacitors; 多层陶瓷电容器
| 型号: | SA1608C0G104D6R3NRB |
| 厂家: | 
SAMWHA ELECTRIC |
| 描述: | Multi Layer Ceramic Capacitors |
| 文件: | 总14页 (文件大小:769K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SMD Type
SMD Type
Multi Layer Ceramic Capacitors
Shape & Dimensions
Introduction
SAMWHA's series of multilayer ceramic(MLC) chip capacitors is designed to meet a wide variety of need.
Multilayer ceramic chip capacitors are available in both class I and class II formulations. Temperature
compensation formulations are class I and temperature stable and general application formulations are
classified at class II. The class I multilayer ceramic capacitors are COG with negligible dependence of
electrical properties on temperature, voltage, frequency. The most of commonly used class II dielectric are
X7R, X5R and Y5V. The X7R provides intermediate capacitance values which vary ±15% over the
temperature range of -55℃ to 125℃. The X5R provides intermediate capacitance values which vary ±15%
over the temperature range of -55℃ to 85℃. The Y5V provides the highest capacitance value which vary
from 22% to -82% over the temperature range of -30℃ to 85℃. All class II capacitors vary in capacitance
value under the influence of temperature, operating voltage and frequency. We offer a complete line of
products for both class I and II .
(Unit : mm)
Dimensions
Code(inch)
L
Length
Width
T1(min)
Tol(±)
0.03
0.05
0.15
W
Tol(±)
0.03
0.05
0.10
0603(0201)
1005(0402)
1608(0603)
2012(0805)
3216(1206)
3225(1210)
4520(1808)
4532(1812)
5750(2300)
0.60
1.00
1.60
2.00
3.20
3.20
4.50
4.50
5.70
0.30
0.50
0.80
1.25
1.60
2.50
2.00
3.20
5.00
0.05
0.05
0.10
0.10
0.15
0.15
0.20
0.20
0.30
0.20
0.30
0.40
0.40
0.40
0.50
0.15
0.20
0.25
0.25
0.30
0.40
Features
*1608 Size ≥10㎌ ⇒ W : 0.8±0.15, T : 0.8±0.15
ꢀ
ꢀ
ꢀ
Samwha’s high density ceramic bodies offer superior performance and reliability
Samwha offer various temperature characteristics, rated voltage and packing method
Material with high dielectric constant and superior manufacturing technology allows very high values
How to Order(Product Identification)
in a small size
CS 1608 X7R 104 K 160 N R B
ꢀ
Solder coated terminals offer superior solderability
ꢁ
ꢂ
ꢃ
ꢄ
ꢅ
ꢆ
ꢇ ꢈ ꢉ
ꢁ Type
ꢂ Size Code
Applications
Wide applications throughout commercial and industrial market.
CS : SMD
SA : ARRAY
This is expressed in tens of a millimeter.
The first two digits are the length, the last two digits are width.
Size(mm)
0603
1005
1608
2012
3216
3225
4520
4532
5750
ꢀ
ꢀ
Communication products like Cellular Phone, Pager, Codeless phone
Multimedia products like DVD, CD-ROM, FDD, HDD, Game machine, Computer, Note book,
Digital camera, LCD
ꢃ Temperature Coefficient Code
Temperature
Characteristice
Temperature
Range
Capacitance Change or
Temperature Coefficient
Operating
Temperature Range
ꢀ
ꢀ
ꢀ
Audio visual products like TV, Camcorder, Minidisk, MP3 Player
Communication products like Electronic tuner, Duplexer, VCXO, TCXO, Modem
OA equipment products like Printer, Copy Machine, Fax Machine
C0G
X7R
X5R
Y5V
-55 to 125℃
-55 to 125℃
-55 to 85℃
-30 to 85℃
0±30ppm/℃
±15%
-55 to 125℃
-55 to 125℃
-55 to 85℃
-30 to 85℃
±15%
+22, -82%
4
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SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type
ꢄ Capacitance Code(Pico Farads)
Typical Performance Characteristics
The nominal capacitance value in pF is expressed by three digit numbers.
The first two digits represents significant figures and the last digit denotes the number of zero
COG
Ex.) 104 = 100000pF
R denotes decimal
8R2 = 8.2pF
Application
Suited for precision circuits, requiring stable dielectric characteristics, negligible dependence of capacitance and
dissipation factor on time, voltage and frequency.
ꢅ Capacitance Tolerance Code
Code
Tolerance
Code
Tolerance
±20%
Dielectric Characteristics
B
C
D
F
±0.1pF
±0.25pF
±0.5pF
±1.0%
±2.0%
±5%
M
P
+100, -0%
+80, -20%
+0.25/-0pF
+0/-0.25pF
+5/-0%
Temperature Characteristic
Operating Temperature
Capacitance Tolerance
0±30ppm/℃
-55~125℃
Z
H
I
ꢊ10pF : ±5%, ±10%, (±1%, ±2%, ±20%)
≤10pF : ±0.1pF, ±0.25pF, ±0.5pF
G
J
U
V
Dissipation Factor & Q
Insulation Resistance
≥30pF : DF≤0.1%, Q≥1000
K
±10%
+0/-5%
ꢋ30pF :
Q≥400+20×C
More than 10,000MΩor 500ΩF
ꢆ Voltage Code
(Whichever is smaller)
Dielectric Strength
Test Voltage
ꢊ3×RVDC
Code
6R3
100
160
250
500
101
201
251
631
302
0.5 to 5Vrms(≤1000pF), 1±0.2Vrms(>1000pF)
1±0.1M㎐(≤1000pF), 1±0.1k㎐(>1000pF)
Vol.
DC 6.3V
DC 10V
DC 16V
DC 25V
DC 50V
DC 100V
DC 200V
DC 250V
DC 630V
DC 3000V
Test Frequency
ꢇ Termination Code
X7R
Ex.) N : Ni-Sn (Nickel-Tin Plate)
Application
ꢈ Packing Code
Stable class Ⅱdielectric properties, suited for by-pass and coupling purposes, filtering, frequency discrimination, DC
Ex.) R : Reel Type
B : Bulk Type
blockage, and as voltage transient suppression elements.
ꢉ Thickness Option
(Unit : mm)
Dielectric Characteristics
Thickness(mm)
Dimensions
Tol(±)
Thickness(mm)
Dimensions
Temperature Characteristic
Operating Temperature
Capacitance Tolerance
Dissipation Factor & Q
±15%
Code
Code
L
W
Tol(±)
0.20
0.20
0.20
0.20
0.25
0.25
0.30
0.30
0.40
-55~125℃
Blank
0.30
0.50
0.60
0.80
0.85
1.00
1.10
1.15
1.25
0.03
E
H
I
1.30
±10%, ±20%, (±5%, +80~-20%)
Blank
0.05
0.10
0.10
0.15
0.15
0.15
0.15
0.15
1.35
1.60
1.80
2.00
2.50
2.80
3.20
5.00
50V Min. : 2.5% Max. 25V Min. : 3.0% Max.
16V Min. : 3.5% Max. 10V Min. : 5.0% Max.
6.3V Min. : 5.0% Max.(<3.3㎌), 10% Max.(≥3.3㎌)
Thin layer lange capacitors type 10% Max.
A
B
B
E
J
K
L
Insulation Resistance
More than 10,000MΩor 500ΩF(Whichever is smaller)
Thin layer lange capacitors type 50ΩFMin.
E
M
N
O
Dielectric Strength
Test Voltage
>2.5×RVDC
E
1±0.2Vrms(≤10㎌, 10V Min.)
0.5±0.1Vrms(≤10㎌, 6.3V Max.)
0.5±0.1Vrms(>10㎌)
E
Test Frequency
1±0.1k㎐(≤10㎌, 10V Min.)
1±0.1k㎐(≤10㎌, 6.3V Max.)
120±24㎐(>10㎌)
6
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SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type
X5R
Appendix Ⅰ
Application
C0G-Temperature Compensating Type(0603~3216)
Stable class Ⅱdielectric properties, suited for by-pass and coupling purposes, filtering, frequency discrimination, DC
Type
C0G
1608(0603)
Size(inch)
Volt(V)
Cap.
0603(0201)
25
1005(0402)
25 50
2012(0805)
25
3216(1206)
blockage, and as voltage transient suppression elements.
25 50
50
25
50
Dielectric Characteristics
0.5㎊(0R5)
1㎊(010)
2㎊(020)
3㎊(030)
4㎊(040)
5㎊(050)
6㎊(060)
7㎊(070)
8㎊(080)
9㎊(090)
10㎊(100)
12㎊(120)
15㎊(150)
18㎊(180)
22㎊(220)
27㎊(270)
33㎊(330)
Temperature Characteristic
Operating Temperature
Capacitance Tolerance
Dissipation Factor & Q
±15%
-55~85℃
±10%, ±20%, (±5%, +80~-20%)
50V Min. : 2.5% Max. 25V Min. : 3.0% Max.
16V Min. : 3.5% Max. 10V Min. : 5.0% Max.
6.3V Min. : 5.0% Max.(<3.3㎌), 10% Max.(≥3.3㎌)
Thin layer lange capacitors type 10% Max.
Insulation Resistance
More than 10,000MΩ or 500ΩF(Whichever is smaller)
Thin layer lange capacitors type 50ΩF Min.
Dielectric Strength
Test Voltage
>2.5×RVDC
39㎊(390)
47㎊(470)
56㎊(560)
68㎊(680)
1±0.2Vrms(≤10㎌, 10V Min.)
0.5±0.1Vrms(≤10㎌, 6.3V Max.)
0.5±0.1Vrms(>10㎌)
82㎊(820)
Test Frequency
1±0.1k㎐(≤10㎌, 10V Min.)
100㎊(101)
120㎊(121)
150㎊(151)
180㎊(181)
220㎊(221)
270㎊(271)
330㎊(331)
390㎊(391)
470㎊(471)
560㎊(561)
680㎊(681)
820㎊(821)
1000㎊(102)
1200㎊(122)
1500㎊(152)
1800㎊(182)
2200㎊(222)
2700㎊(272)
3300㎊(332)
3900㎊(392)
4700㎊(472)
5600㎊(562)
6800㎊(682)
8200㎊(822)
10000㎊(103)
12000㎊(123)
15000㎊(153)
18000㎊(183)
22000㎊(223)
27000㎊(273)
33000㎊(333)
47000㎊(473)
56000㎊(563)
68000㎊(683)
82000㎊(823)
0.1㎌(104)
1±0.1k㎐(≤10㎌, 6.3V Max.), 120±24㎐(>10㎌)
Y5V
Application
The Hi-K(Y5V) dielectrics deliver high capacitance density and are ideally suited for applications where space is at a
premium, or as replacement for tantalum capacitors. Typically applications include use as by-pass or decoupling elements.
Best performance is obtained at or near room temperature, with low DC bias.
Dielectric Characteristics
Temperature Characteristic
Operating Temperature
Capacitance Tolerance
Dissipation Factor & Q
+22%~-82%
-30~85℃
-20~+80%(±20%)
50V Min. : 5% Max. 25V Min. : 7% Max.
16V Min. : 9% Max. 10V Min. : 12.5% Max.
6.3V Min. : 15% Max.
Thin layer lange capacitors type 20% Max.
Insulation Resistance
More than 10,000MΩor 500ΩF(Whichever is smaller)
Thin layer lange capacitors type 50ΩF Min.
Dielectric Strength
Test Voltage
>2.5×RVDC
1±0.2Vrms(≤10㎌, 10V Min.)
0.5±0.1Vrms(≤10㎌, 6.3V Max.)
0.5±0.1Vrms(>10㎌)
Test Frequency
1±0.1k㎐(≤10㎌, 10V Min.)
Temperature Compensating Type : Dissipation Factor Page 22 (No.5)
1±0.1k㎐(≤10㎌, 6.3V Max.), 120±24㎐(>10㎌)
8
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SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type
Appendix Ⅱ
X7R-High Dielectric Constant Type(0603~3225) & Thin Layer Large-Capacitance Type
X5R-High Dielectric Constant Type(0603~3225) & Thin Layer Large-Capacitance Type
Type
Type
X7R
2012(0805)
X5R
2012(0805)
0603(0201)
1005(0402)
1608(0603)
3216(1206)
3225(1210)
0603(0201)
1005(0402)
1608(0603)
32169(1206)
3225(1210)
Size(inch)
Volt(V)
Cap.
Size(inch)
Volt(V)
Cap.
6.3 10 16 25 6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50
6.3 10 16 25 6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50
100㎊(101)
470㎊(471)
1000㎊(102)
2200㎊(222)
4700㎊(472)
10000㎊(103)
15000㎊(153)
22000㎊(223)
33000㎊(333)
47000㎊(473)
68000㎊(683)
0.1㎌(104)
100㎊(101)
470㎊(471)
1000㎊(102)
2200㎊(222)
4700㎊(472)
10000㎊(103)
15000㎊(153)
22000㎊(223)
33000㎊(333)
47000㎊(473)
68000㎊(683)
0.1㎌(104)
0.15㎌(154)
0.22㎌(224)
0.33㎌(334)
0.47㎌(474)
0.68㎌(684)
1.0㎌(105)
0.15㎌(154)
0.22㎌(224)
0.33㎌(334)
0.47㎌(474)
0.68㎌(684)
1.0㎌(105)
1.5㎌(155)
1.5㎌(155)
2.2㎌(225)
4.7㎌(475)
6.8㎌(685)
10㎌(106)
2.2㎌(225)
4.7㎌(475)
6.8㎌(685)
10㎌(106)
22㎌(226)
22㎌(226)
47㎌(476)
47㎌(476)
100㎌(107)
100㎌(107)
General Type : Dissipation Factor Page 22 (No.5)
General Type : Dissipation Factor Page 22 (No.5)
ꢌGeneral Type : Dissipation Factor Page 22 (No.5)
ꢌGeneral Type : Dissipation Factor Page 22 (No.5)
Thin Layer Large-Capacitance Type : Dissipation Factor Page 22 (No.5)
Thin Layer Large-Capacitance Type : Dissipation Factor Page 22 (No.5)
10
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SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type-High Voltage
SMD Type-High Voltage
Y5V-High Dielectric Constant Type(0603~3225) & Thin Layer Large-Capacitance Type
Type
Y5V
1005(0402)
1608(0603)
2012(0805)
3216(1206)
3225(1210)
Size(inch)
Volt(V)
Product Offering
SAMWHA high voltage MLCC products with COG(NPO) and X7R temperature characteristic are designed
6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50 6.3 10 16 25 50
Cap.
for commercial and industrial applications.
1000㎊(102)
2200㎊(222)
4700㎊(472)
10000㎊(103)
15000㎊(153)
22000㎊(223)
33000㎊(333)
47000㎊(473)
68000㎊(683)
0.1㎌(104)
The products are power supply and voltage multiplier circuits applications in various sizes with working
voltages up to DC 3.0 KV .
These high voltage capacitors feature a special internal electrode design which reduces voltage
concentrations by distributing voltage gradients throughout the entire capacitor.
This unique design also affords that capacitance value is increased in a given case size and voltage rating.
Features
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
High reliability
High voltage ratings
Wide voltage level : from 100V to 3000V
Surface mount suited for Wave and Reflow Soldering
Tape & reel surface mount assembly
0.15㎌(154)
0.22㎌(224)
0.33㎌(334)
0.47㎌(474)
0.68㎌(684)
1.0㎌(105)
Suitable for Back-Lighting Inverter, DC-DC Converters, Ballast, Modems & Power Supply, LAN/WLAN
interface... etc.
How to Order(Product Identification)
1.5㎌(155)
2.2㎌(225)
3.3㎌(335)
4.7㎌(475)
6.8㎌(685)
10㎌(106)
CS 4520 COG 150 J 302 N R E
ꢁ
ꢂ
ꢃ
ꢄ
ꢅ
ꢆ
ꢇ ꢈ ꢉ
ꢁ Type
ꢂ Size Code
22㎌(226)
CS : SMD
Size(mm)
1608
2012
3216
3225
4520
4532
47㎌(476)
100㎌(107)
ꢃ Dielectric (Temp. Coefficient)
COG, X7R
General Type : Dissipation Factor Page 22 (No.5)
ꢌGeneral Type : Dissipation Factor Page 22 (No.5)
ꢄ Capacitance
Thin Layer Large-Capacitance Type : Dissipation Factor Page 22 (No.5)
1st two digits are value, 3rd digit denotes number of zeros;
331 = 330pF, 104 = 100000pF, 8R2C = 8.2pF
12
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SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type-High Voltage
ꢅ Tolerance
Code
Shape & Dimensions
Tolerance
Code
Tolerance
±
±
0.25pF
B
D
G
K
0.1pF
C
F
±
±
0.50pF
1%
5%
±
±
2%
J
±
±
20%
10%
M
Z
+80~-20%
(Unit : mm)
Dimensions
ꢆ Rated Voltage Code
Code
Length
Width
T1(min)
1st two digits are value, 3rd digit denotes number of zeros; 302 = 3000V, 251 = 250V
L
Tol(±)
0.15
W
Tol(±)
0.10
1608(0603)
2012(0805)
3216(1206)
3225(1210)
4520(1808)
4532(1812)
5750(2300)
1.60
2.00
3.20
3.20
4.50
4.50
5.70
0.80
1.25
1.60
2.50
2.00
3.20
5.00
0.10
0.10
0.15
0.15
0.20
0.20
0.30
ꢇ Plating
ꢈ Packing
0.20
0.15
Ni / Sn Plated
B : Bulk Pack R : Reel Pack
0.30
0.20
ꢉ Thickness Option
0.40
0.25
(Unit : mm)
0.40
0.25
Thickness(mm)
Dimensions
Thickness(mm)
Dimensions
Tol(±)
Code
Code
0.40
0.30
L
Tol(±)
0.03
0.05
0.10
W
0.50
0.40
Blank
0.30
0.50
0.60
0.80
0.85
1.00
1.10
1.15
1.25
E
H
I
1.30
1.35
1.60
1.80
2.00
2.50
2.80
3.20
5.00
0.20
Blank
0.20
0.20
0.20
0.25
0.25
0.30
0.30
0.40
*1608 Size ≥10㎌ ⇒ W : 0.8±0.15, T : 0.8±0.15
A
B
B
E
0.10
J
0.15
K
L
Typical Performance Characteristics
0.15
E
0.15
M
N
O
COG(NPO)
X7R
Dielectric Characteristics
Dielectric Classification
E
0.15
Ultra Stable
Stable
E
0.15
Rated temperature range
TCC(Temperature Characteristics Coefficient)
Dissifation Factor(tan δ)
-55℃ to +125℃
-55℃ to +125℃
±15%
0±30ppm
C≥30pF : Q≥1,000 (DF:≤0.1%)
2.5% Max.
C<30pF : Q≥400+20C(DF: ≤1/(400+20C)
IR(Insulation Resistance)
500V Below : Rated voltage 60sec
500V Above : 500V 60sec
More than 10,000 ㏁
500V Below:Rated voltage 60sec
500V Above:500V 60sec
-DC100V~1KV
:C≥0.01㎌:More than 100㏁㎌
:C<0.01㎌:More than 10,000㏁
-DC2~3KV:More than6,000 ㏁
Capacitance Tolerance
Dielectric strength
<10pF : ±0.25pF, ±0.5pF
≥10pF : ±5%, ±0%
±10%, ±20%
630V:150% Rated Voltage
1kV~3.15kV:120% Rated Voltage
100V:150% Rated Voltage
630V:150% Rated Voltage
1kV~3.15kV: 120% Rated Voltage
Aging characteristics
0%
2.5% per decade hr, typical
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SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type-High Voltage
Appendix High Voltage Type(100V~3000V)
COG-Temperature Compensation Type
X7R-High Dielectric Type
Type
Type
C0G
3225(1210)
X7R
3225(1210)
Size(inch)
1608(0603) 2012(0805)
3216(1206)
Size(inch)
1608(0603) 2012(0805)
3216(1206)
4532(1812)
4520(1808)
4520(1808)
4532(1812)
Volt(V)
Cap.
Volt(V)
Cap.
100 250 100 250 100 250 630 1000 2000 100 250 630 1000 2000 100 250 630 1000 2000 3000 100 250 630 1000 2000 3000
100 250 100 250 100 250 630 1000 2000 100 250 630 1000 2000 100 250 630 1000 2000 3000 100 250 630 1000 2000 3000
4.7㎊(4R7)
5㎊(050)
220㎊(221)
330㎊(331)
7㎊(070)
470㎊(471)
8㎊(080)
680㎊(681)
9㎊(090)
1000㎊(102)
1500㎊(152)
2200㎊(222)
3300㎊(332)
4700㎊(472)
5600㎊(562)
6800㎊(682)
10000㎊(103)
15000㎊(153)
18000㎊(183)
22000㎊(223)
33000㎊(333)
47000㎊(473)
68000㎊(683)
0.1㎌(104)
10㎊(100)
12㎊(120)
15㎊(150)
18㎊(180)
22㎊(220)
47㎊(470)
56㎊(560)
68㎊(680)
82㎊(820)
100㎊(101)
220㎊(221)
330㎊(331)
470㎊(471)
560㎊(561)
680㎊(681)
1000㎊(102)
1500㎊(152)
2200㎊(222)
2700㎊(272)
3300㎊(332)
4700㎊(472)
5600㎊(562)
6800㎊(682)
10000㎊(103)
15000㎊(153)
22000㎊(223)
33000㎊(333)
0.15㎌(154)
0.22㎌(224)
0.33㎌(334)
0.47㎌(474)
0.68㎌(684)
1.0㎌(105)
2.2㎌(225)
High voltage type
High voltage type
16
17
SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type-High Voltage
Application(Typical circuit)
Caution(Rating)
DC-DC Converter
Switching Power Supply
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 applied to the circuit, starting or stopping may generate irregular voltage for a transit period
because of resonance or switching. Be sure to use a capacitor with a rated voltage range that includes these
irregular voltages.
Voltage
DV Voltage
DC+AC Voltage
AC Voltage
Pulse Voltage(1)
Pulse Voltage(2)
Positional
Measurement
C2 : X7R ; 250V 10nF~47nF
C3 : COG, X7R ; 2kV 100pF~1000pF
C4 : COG, X7R ; 2kV 100pF~1000pF
C3 : COG ; 630V 47pF~100pF
2. Test condition for AC withstanding Voltage
(1) Test Equipment
Primary circuit and Snubber switching power supply
Tests for AC withstanding voltage should be made with equipment capable of creating a wave similar to a 50/60
Hz sine wave. If the distorted sine wave or overload exceeding the specified voltage value is applied, a defect
may be caused.
(2) Voltage applied method
The capacitor's leads or terminals should be firmly connected to the output of the withstanding voltage test
equipment, and then the voltage should be raised from near zero to the test voltage. If the test voltage is applied
directly to the capacitor without raising it from near zero,it 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 the capacitor's leads or terminals should be taken off the output of the
withstanding voltage test equipment. If the test voltage is applied directly to the
capacitor without raising it from near zero, surge voltage may occur and cause a
defect. *ZERO CROSSis the point where voltage sine wave
C1, C2 : COG or X7R 1000pF~4700pF
C4
C5
: COG ; 2kV 100pF~330pF
: COG ; 1kV/2kV 100pF~470pF
(3) Dielectric strength testing method
LCD back light Inverter
In case of dielectric strength test, the capacitor’s is applied between the terminations for 1 to 5 sec., provided the
charge/discharge current is less than 50mA.
3. Soldering
If a chip component is heated or cooled abruptly during soldering, it may crack due to the thermal shock. To
prevent this, follow our recommendations below for adequate soldering conditions. Carefully perform preheating
so that temperature difference (ΔT) between the
C2 : COG ; 3kV 10 ~100pF
Chip Size
Slodering Method
3.2×1.6mm
3.2×2.5mm
solder and component surface is in the following
range. The smaller the temperatures difference (Δ
T) between the solder and component surface is,
the smaller the influence on the chip is.
and under
and over
Reflow Method or
Soldering Lron Method
ΔTꢍ190℃
ΔTꢍ130℃
18
19
SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type
SAMWHA CAPACITOR CO., LTD offers a line of MLCC(Multilayer Ceramic Capacitor).
These parts are rated at 3kV dc and safety approved and certified to UL
(Underwriters Laboratories Inc. ꢀ )
Reliability and Test Conditions(General Type)
Characteristic
Test Methods
and Conditions
Item
No.
Temperature
Compensating Type
High Dielectric Constant Type
1
Operating
X7R : -55 to +125℃ X5R : -55 to +85℃
Y5V : -30 to +85℃
C0G : -55 to +125℃
Temperature Range
- Applied the rated voltage for 2
minutes of charging.
2
3
Insulation Resistance
More than 10,000MΩ or 500ΩF(Whichever is smaller)
- The charge/discharge current is
less than 50mA.
- C0G : The rated voltage×300%
- X7R, X5R, Y5V : 〃 ×250%
- Applied between the terminations
for 1 to 5 seconds.
Dielectric Strength
No defects or abnormalities
- The charge/discharge current is
less than 50mA.
4
5
Capacitance
Within the specified tolerance
The capacitance/Q/D.F. should be
measured at 25℃ at the frequency
and voltage shown in the table.
Char. 50V Min. 25V
16V
10V
5%/
6.3V
5%/
Dissipation Factor
30㎊ Min. :
Q≥1,000 (DF≤0.1%)
X7R
X5R
≤
2.5%/
5%
≤
3%/
7%
≤
3.5%/
7%
≤
≤
ꢌ≤
ꢌ≤
ꢌ≤
ꢌ≤10%
ꢌ≤10%
Testing
Testing
Voltage
30㎊ Max. :
Q≥400+20C
Cap.
C0G
≤
5%/
9%
≤7%/
≤9%
≤12.5%/
Frequency
Y5V
≤15%
ꢌ≤
ꢌ≤
9%
ꢌ
≤12.5%
ꢌ≤15%
1±0.1M㎐
1±0.1k㎐
0.5 to 5Vrms
(DF≤1/(400+20C))
(C≤1000pF)
ꢌ
You can check the specification at
the appendix for each product
with mark
C0G
(C >1000pF)
1±0.2Vrms
X7R, X5R, Y5V
(C≤10㎌
6.3V Min.)
1±0.1k㎐
120±24㎐
1±0.2Vrms
0.5±0.1Vrms
X7R, X5R, Y5V
(C >10㎌)
6
7
Solderability of
Termination
Termination should be covered with more than
75% of new solder
- Pb-Free Type
Solder : 96.5Sn-3Ag-0.5Cu
Solder Temperature : 260±5℃
Immersion Time : 3±0.1sec
- Pre-Heating
at 80~120℃ for 10~30sec
Appearance No marked defect
- Preheat the capacitor at 120 to 150℃
for 1 minute. (Preheating for 3225,
4520, 4532 Step1 : 100℃ to 120℃, 1min
Step2 : 170℃ to 200℃, 1min) Immerse the
capacitor in a eutectic solder solution
- Soldering Temp. : 260±5℃
- Immersion Time : 10±0.5sec
- Initial measurement
Perform a heat treatment at 150+0, -10℃
for one hour and then let sit for 48±4
hours at room temperature.
Resistance
to
Soldering
Heat
Capacitchange Within ±2.5% or
±0.25㎊ X7R, X5R : ≤ ±7.5%
(whichever is larger)
Y5V
: ≤ ±20%
Dissipation
Factor
30㎊ Min. :
Q≥1,000 (DF≤0.1%)
Char. 50V Min. 25V
16V
3.5%/
10V
5%/
6.3V
5%/
X7R
X5R
≤
2.5%/
5%
≤
3%/
7%
≤
≤
ꢌ
≤
(or Q)
ꢌ≤
ꢌ≤
ꢌ≤7%
≤10%
ꢌ≤10%
30㎊ Max. :
≤
5%/
9%
≤
7%/
9%
≤
9%
≤12.5%/
Q≥400+20C
(DF≤1/(400+20C))
Y5V
≤15%
ꢌ≤
ꢌ≤
ꢌ≤
12.5% ꢌ≤15%
Perform the intial measurement.
- Measurement after test
Take it out and set it for 24±2 hours
(temperature compensating type)
or 48±4 hours (high dielectric constant
type)then measure
I.R.
More than 10,000MΩ or 500Ω.F(Whichever is smaller)
20
21
SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
SMD Type
Characteristic
High Dielectric Constant Type
Characteristic
High Dielectric Constant Type
Test Methods
and Conditions
Test Methods
and Conditions
Item
Item
No.
No.
Temperature
Compensating Type
Temperature
Compensating Type
8
Temperature Appearance
Cycle
No marking defects
Perform the five cycless according
to the four heat treatments listed in
the following table.
11 Bending
Strength
- Substrate Material :
Glass EPOXY Board
Capacitance Within
±2.5% or ±0.25㎊ X7R, X5R : Within ±7.5%
(whichever is larger) Y5V
- Board Thickness :
1.6mm
0.8mm(0603/1005size)
Step
1
2
3
4
Change
: Within
±
20%
Min.
Max.
Dissipation
Factor
30㎊ Min. :
Q≥1,000 (DF≤0.1%)
Temp. Operating Room Operating Room
Char. 50V Min. 25V
16V
10V
7.5%/
6.3V
7.5%/
(
℃
)
Temp.
+0, -3
Temp.
Temp. Temp.
+3, -0
※Test Condition
- Bending Limit : 1mm
- Pressurizing Speed : 1mm/sec
X7R
X5R
≤
5%/
≤5%/
≤
≤
5%/
10%
≤
ꢌ
≤
(or Q)
Time
(Min)
30㎊ Max. :
Q≥400+20C
(DF≤1/(400+20C))
ꢌ≤
7.5% ꢌ≤10%
ꢌ
≤12.5%
ꢌ≤12.5%
30±3
2 to 3
30±3
2 to 3
≤
7.5%/
≤10%/
≤
12.5%
≤15%/
Y5V
≤20%
- Initial measurement
Perform a heat treatment at 150+0,
ꢌ≤
12.5%
ꢌ≤12.5%
ꢌ≤15% ꢌ≤20%
-10℃ for one hour and then let sit
for 48±4 hours at room temperature.
- Measurement after test
Take it out and set it for 24
±2 hours
No cracking or marking defects shall occur
(temperature compensating) or
48 4 hours(high dielectric constant
±
Capacitance Within
±
5% or
±0.5㎊
X7R, X5R : Within ±12.5%
I.R.
More than 10,000MΩor 500Ω.F(Whichever is smaller)
type) at room temperature, then
measure.
Change (whichever is larger)
Y5V
: Within
±30%
Vibration
12
ꢌ
Shown in Fig. After soldering and
then let sit for 24+4hr(temperature
compensating type), 48±4hr (high
dielectric constant type) at room
temperature.
Appearance No defects or abnormalities
Capacitance Whin the specified tolerance
9
Humidity
Load
Appearance
No marking defects
- Temperature : 40
- Humidity : 90~95%
- Hour : 500 12hrs
- Test Voltage : The rated voltage
- Take it out and set it for 24 2 hours
(temperature compensating) or
48 4 hours(high dielectric constant
type) at room temperature, then
measure.
The charge/discharge current is
less than 50mA
±2℃
Resistance
Capacitance Within
Change
±7.5% or
±0.75㎊ X7R, X5R : Within
±
12.5%
30%, -40%
(Y5V/1.0㎌, 2.2㎌, 4.7㎌/10V)
Within 30% (others)
±
(whichever is larger) Y5V
: Within +
30㎊ Min. :
Q/DF
Char. 50V Min. 25V
16V
10V
5%/
6.3V
5%/
Q 1,000 (DF 0.1%)
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 55Hz, shall be traversed(from
10Hz to 55Hz then 10Hz again) in
approximately 1 minute.
This motion shall be applied for a
period of 2 hours in each 3mutually
perpendicular directions(total is
6hours).
X7R
X5R
≤
2.5%/
5%
≤
3%/
7%
≤
3.5%/
7%
≤
≤
±
±
ꢌ≤
ꢌ≤
ꢌ≤
ꢌ≤10%
ꢌ≤10%
30㎊ Max. :
Q 400+20C
≤
5%/
9%
≤7%/
≤9%
≤
12.5%/
15%
±
30㎊ Min. :
Q≥200 (DF≤0.5%)
Dissipation
Factor
Char. 50V Min. 25V
16V
5%/
10V
7.5%/
6.3V
7.5%/
Y5V
≤15%
ꢌ≤
ꢌ≤
9%
ꢌ
≤12.5%
ꢌ≤
(DF 1/ (400+20C))
X7R
X5R
≤
5%/
≤5%/
≤
≤
≤
(or Q)
ꢌ≤
7.5% ꢌ≤
10%
ꢌ
≤10%
ꢌ≤12.5%
ꢌ≤12.5%
30㎊ Max. :
Q≥100 +10/3C
(DF≤1/(100+10/3C))
≤
7.5%/
12.5%
≤
10%/
≤
12.5%
≤
ꢌ≤20%
15%/
Y5V
≤20%
ꢌ≤
ꢌ≤
12.5%
ꢌ
≤15%
I.R.
More than 500MΩor 25Ω.F(Whichever is smaller)
Appearance
No marking defects
High
Temperature
Load
10
- Testing time : 1000±12hrs
Capacitance
Change
Within
±3% or
±0.3㎊
X7R, X5R : Within
±
±
+
12.5%
30%(Cap. < 1.0㎌)
30%, -40%
- Applied voltage :
Rated voltage < DC250V : ×200%
- Temperature :
13 Humidity
Steady
Appearance No marking defects
Capacitance Within 5% or 0.5
- Temperature : 40±2℃
- Humidity : 90~95%
- Hour : 500±12hours
(whichever is larger) Y5V
: Within
Within
±
±
㎊
X7R, X5R : Within
Y5V : Within
±12.5%
30%
State
Change
(whichever is larger)
±
(Cap. ≥1.0㎌)
C0G, X7R → 125±3℃
- Measurement after test
X5R , Y5V → 85±3℃
Dissipation
(or Q)
30㎊ Min. :
Q≥350 (DF≤0.3%)
Char. 50V Min. 25V
16V
10V
6.3V
7.5%/
Dissipation
Factor
Take it out and set it for 24±2 hours
(temperature compensating type) or
48±4 hours(high dielectric constant
type) at room temperature, then
measure.
30㎊ Min. :
Q≥350 (DF≤0.3%)
Char. 50V Min. 25V
16V
5%/
10V
7.5%/
6.3V
7.5%/
- Measurement after test
Take it out and set it for 24±2
hours(temperature compensating
type)or 48±4 hours (high dielectric
constant type) at room temperature,
then measure.
X7R
X5R
≤
5%/
7.5% ꢌ
≤5%/
≤
5%/
10%
≤
≤
7.5%/
12.5%
≤
X7R
X5R
≤
5%/
≤5%/
≤
≤
≤
10㎊≤Cp ≤30㎊ :
ꢌ≤
≤
10%
ꢌ≤
ꢌ
ꢌ≤
12.5%
(or Q)
10㎊≤Cp ≤30㎊ :
Q≥275 +5/2C
(DF≤1/(275+5/2C))
ꢌ≤
7.5% ꢌ≤
10% ꢌ
≤10%
ꢌ≤12.5%
ꢌ≤12.5%
Q≥275 +5/2C
(DF≤1/(275+5/2C))
≤7.5%/
≤10%/
≤
12.5%
15%
≤
15%/
20%
Y5V
≤20%
≤
7.5%/
≤
10%/
≤
12.5% ≤15%/
ꢌ≤
12.5%
ꢌ≤
12.5%
ꢌ≤
ꢌ≤
Y5V
≤20%
ꢌ≤12.5% ꢌ≤12.5% ꢌ≤15% ꢌ≤20%
10㎊ Max. :
Q≥200+10C
(DF≤1/(200+10C))
10㎊ Max. :
Q≥200+10C
(DF≤1/(200+10C))
The charge/discharge current is
less than 50mA.
I.R
More than 1,000MΩor 50Ω.F (Whichever is Smaller)
I.R.
More than 10,000MΩor 50Ω.F(Whichever & Smaller)
22
23
SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
Radial & Axial
Radial & Axial
Characteristic
High Dielectric Constant Type
Test Methods
and Conditions
Item
No.
Temperature
Compensating Type
Features
14 Capacitance Capacitance
Temperature Change
Characteristics
(1) Temperature Compensating Type:
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,
(C0G: +25 to 125℃) the capacitance
shall be with in the specified
tolerance for the temperature
coefficient.
The capacitance drift is calculated
by dividing the difference
between the maximum measured
values in the step 1, 3 and 5 by the
Cap. value in step 3
Temp.
Range
Reference
Temp.
Cap.
Char.
X7R
X5R
Y5V
Change
This widely used ceramic capacitors includes both monolithic and multilayer types to provide a wide
-55 to
Within
capacitance range of 1pF through 1㎌in respectly one standard size and shape(Radial & Axial).
+125℃
±15%
-55 to
Within
25℃
+85℃
±
15%
Within
22
82
Applications
-30 to
%
+85℃
-
%
The class1 temperature compensating(C0G) products can be used in circuits to stabilize frequency and
temperature characteristics.
The X7R, Z5U, Y5V dielectrics are optimum for by pass capacitors.
Shape and Dimensions
Temperature
Coefficient
℃
)
Step
Temperature(
Temp. Temperature
Char.
Range
Coefficient
1
2
3
4
5
25±2
-55 to
-55±3
25±2
C0G
±30ppm/℃
Bulk Type
Radial Type
+125℃
125±3(for C0G)
25±2
(2) High Dielectric Constant Type :
The ranges of capacitance
change compared with the 25℃
value over the temperature
range shown in the table shall
be in the specified range.
L
W
Max.
T
H
P
CODE
Ød
Color
Marking
Max.
Max.
Max. ±0.7
051B
077B
5.5
7.7
5.5
7.6
6.4
Orange
or Gold
3.2
5
0.5
Ex) 104
9.2
(1) Temperature : 25℃±10℃
15 Preservation(keeping) ※When solderability is considered, capacitors are
recommended to be used in 12 months
(2) Relative Humidity : Below 70% RH
16 The regulation of
environmental
※Never use materials mentioned below in MLCC products regulated this document.
Pb, Cd, Hg, Cr+6, PBB(polybromide biphenyl), PBDE(polybrominated diphenyl ethers), asbestos.
pollution materials.
Flat Type
Radial Type
- In case of high Voltage and thin layer type Capacitor, it can be different from nomal specification.
So Please ask to our sales person.
Axial Type
24
25
SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
Radial & Axial
ꢅ Capacitance Tolerance Code
Code
D(Ø)
H
Dimensions
Tolerance
±0.3
Code
P1
Dimensions
Tolerance
±0.7
Code
Dimensions Tolerance
4
16
9
3.85
6.35
0.9
18
F
G
H
J
64.8
-0, +2
50.8~53.3
Code
Tolerance
±5.0 %
±10 %
Remark
C0G
±0.5
P2
±1.3
J
K
H1
H2
L
+0.76, -0.5
±2
T
Max.
=J
=H
0.8
5
±1.2
±1.2
Max.
±0.4
Min.
X7R, C0G
Z5U, X7R
Z5U, Y5V
0
W1
W2
S
±0.5
M
Z
±20 %
11
Max.
0
+0.6 Max.
±0.7
K
N
R
+80, -20%
L1
1.5
12.7
Max.
5
P
±0.3
ꢌ
No adhesive may be exposed
3.2
ꢆ Rated Voltage Code
Code
250
500
101
Volt
DC 25V
DC 50V
DC 100V
How to Order(Product Identification)
ꢇ Packing Code
Code
B
R
F
CA 2633 Y5V 104 Z 500 F
Packing
Bulk
Reel Pack
Flat Pack
ꢁ
ꢂ
ꢃ
ꢄ
ꢅ
ꢆ
ꢇ
Reliability and Test Conditions
ꢂ Dimension Code
ꢁ Type
Characteristic
Test Methods
and Conditions
Item
No.
Temperature
Compensating Type
The number shows the maximum length of "L" by 1/10 in millimeter, and the
alphabet means lead difference.(Refer to above diagram)
CR : Radial Lead Type
CA : Axial Lead Type
High Dielectric Constant Type
1. Operating Temperature
Range
C0G : -55 to +125℃
X7R : -55 to +125℃ Z5U : +10 to +85℃
Y5V : -30 to 85℃
ꢃ Temperature Coefficient Code
2. Insulation Resistance
More than 10,000MΩ or 500Ω.F(whichever is smaller)
Applied the rated voltage for
2 minute
Capacitance Change or
Temperature Coefficient
Temperature Characteristice
Temperature Range
3. Dielectric Strength
No detects or abnormalities
- C0G : The rated voltage×300%
- X7R, Z5U, Y5V :
〃
×250%
C0G
X7R
Z5U
Y5V
-55 to 125℃
-55 to 125℃
10℃to 85℃
-30 to 85℃
0±30ppm/℃
±15%
4. Capacitance
Within the specified tolerance
Temperature Compensating Type
5. Dissipation Factor
30㎊ Min. :
+22, -56%
+22, -82%
Testing
Frequency
Testing
Voltage
Char. 50V Min.
25V
3%
16V
10V
Cap.
C0G
Q≥1,000(DF≤0.1%)
X7R
≤
2.5%
4.0%
≤
≤3.5%
≤5.0%
0.5 to
Z%V
≤
-
-
-
1±0.1M㎐
1±0.1k㎐
30㎊ Max. :
(C≤1000pF)
5V rms
Q≥400+20C
≤
5%
(<220㎋)
7%
(≥220㎋)
≤9%
C0G
(C >1000pF)
≤
7%
(<220㎋)
ꢄ Capacitance Code(Pico Farads)
1±0.2V rms
1±0.2V rms
(DF≤1/(400+20C))
≤12.5%
Y5V
≤
≤12.5%
First two digits are significant; third digit denotes number of zeros.
(≥220㎋)
X7R, Z5U, Y5V
(C≤10㎌
1±0.1k㎐
Ex.) 101 = 100㎊, 1R5 = 1.5㎊, 103 = 10,000㎊
10V Min.)
6. Terminal Strength
No evidence of damage to body of device of looseness
of terminals.
A static load of 10N(1kgf) :
applied to one terminal in the
axial direction and acting in a
direction away from the body for
1 to 5 secs.
26
27
SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
Radial & Axial
Characteristic
Test Methods
Item
No.
Temperature
Compensating Type
and Conditions
High Dielectric Constant Type
Characteristic
Test Methods
Item
No.
Temperature
and Conditions
- Soldering Temp : 260±5℃
- Immersion Time : 5±0.5sec
- Take it out and set it for 24±2
hours(temperature compensating
type)or 48±4hours(high dielectric
constant type) then measure.
7.
Appearance No marked defect
Capacitance Within 2.5% or 0.25pF X7R
Resistance
to
High Dielectric Constant Type
Compensating Type
±
±
: ≤
±
7.5%
20%
Take it out and set it for 24±2 hours
(temperature compensatig) or 48±4
hours(high dielectric constant type)
at room temperature, then measure.
The charge/discharge current is less
than 50mA.
Soldering
Heat
10
Dissipation
30㎊ Min. :
High
Char. 50V Min.
25V
5%
16V
5%
10V
5%
Change
(whichever is larger) Z5U, Y5V : ≤±
Temperature
Load
Factor(or Q) Q≥350 (DF≤0.3%)
X7R
Z5U
≤
5%
≤
≤
≤
Dissipation
30㎊ Min. :
Char. 50V Min.
25V
16V
10V
10㎊≤Cp≤30㎊:
Q≥275+5/2C
(DF≤1/(275+5/2C))
≤4.0%
-
-
-
Factor(or Q) Q≥1,000 (DF≤0.1%)
X7R
Z5U
≤
2.5%
4.0%
≤3%
≤3.5%
≤5.0%
≤
10%
㎌)
30㎊ Max. :
≤
-
-
-
(<1
7%
(≥1
Y5V
≤7.5%
≤12.5%
≤15%
Q≥400+20C
10㎊ Max. :
Q≥200+10C
(DF≤1/(200+10C))
≤
≤
5%
(<220㎋)
7%
(≥220㎋)
≤9%
(DF≤1/(400+20C))
㎌)
(<220㎋)
Y5V
≤7%
≤12.5%
≤
≤12.5%
(≥220㎋)
I.R.
More than 1000MΩor 50ΩF(Whichever is smaller)
I.R.
More than 10,000MΩor 500Ω.F(whichever & smaller)
(1) Temperature Compensating Type :
The temperature coefficient is
11
Capacitance Capacitance
Temperature Change
Characteristics
Temp.
Range
Reference
Temp.
Cap.
Char.
Change
8. Temperature Appearance No marking defects
Cycle
determined using the capacitance
measured in step 3 as a reference.
When cycling the temperature
sequentially from step 1 through 5.
(SL: +25 to 85℃) the capacitance shall
be with in the specified tolerance for
the temperature coefficient.
The capacitance drift is calculated
dividing the difference between the
maximum measured values in the
step 1, 3 and 5 by Cap, value in step 3.
-55 to
Within
Step
1
2
3
4
X7R
Capacitance Within
Change
±2.5% or
±
0.25pF X7R
:
Within + 7.5%
20%
+125℃
±
15%
Within
22%
56%
Within
22%
82%
Min.
Max.
Z5U, Y5V : Within
±
Temp. Operating Room Operating Room
℃)
-10 to
+85
Z5U
Y5V
+
(
Temp.
+0, -3
Temp. Temp. Temp.
+3, -0
25℃
Dissipation
30㎊ Min. :
℃
Char. 50V Min.
25V
3%
16V
10V
-
Factor(or Q) Q≥1,000 (DF≤0.1%)
X7R
Z5U
≤
2.5%
4.0%
≤
≤3.5%
≤5.0%
Time
(min)
-30 to
+85
30
±
3
2 to 3
30±
3
2 to 3
+
30㎊ Max. :
℃
≤
-
-
-
-
Q≥400+20C
(DF≤1/(400+20C))
Take it out and set it for 24±2 hours
[tempeature compensating or 48±4
hours(high dielectric Type) at room
temperature, than measure.
≤
5%
(<220㎋)
7%
(≥220㎋)
≤
(<220㎋)
9%
Y5V
≤7%
≤12.5%
≤
≤12.5%
(≥220㎋)
℃
Step
Temperature(
)
Temp. Temperature
Temperature
Coefficient
1
2
3
4
5
25±2
Char.
Range
Coefficient
I.R.
Appearance No marking defects
Capacitance Within 7.5% or 0.75
More than 10,000MΩor 500Ω.F(Whichever is smaller)
-55±3
-55 to
+125℃
C0G
±30ppm/℃
25±2
9. Humidity
Load
- Temperature : 40±2℃
- Humidity : 90~95%RH
- Hour : 500±12hrs
125±3(for C0G)
25±2
±
±
㎊
X7R : Within ±12.5%
Change
(whichever is larger) Z5U : Within ±30%
Y5V : Within +30%, -40%
(2) High Dielectric Constant Type :
The ranges of capacitance
change compared with the 25℃
value over the temperature
range shown in the table shall
be in the specified range.
- Test Voltage : Tge rated voltage
(Y5V/1.0μF, 2.2μF, 4.7μF/10V)
Within ±30% (others)
- Take it out and set it for 24±2 hours
(temperature compensatig) or 48±4
hours(high dielectric constant type)
at room temperature, then measure.
The charge/discharge current is less
than 50mA.
Dissipation
30㎊ Min. :
Char. 50V Min.
25V
5%
16V
5%
10V
5%
Factor(or Q)
Q≥200 (DF≤0.5%)
X7R
Z5U
≤
5%
≤
≤
≤
12 The regulation of
environmental
※Never use materials mentioned below in leaded MLCC products regulated this document.
Pb, Cd, Hg, Cr+6, PBB(polybromida biphenyl), PBDE(polybrominated diphenyl ethers), asbestos.
30㎊ Max. :
≤4.0%
-
-
-
Q≥100+10/3C
(DF≤1/(100+10/3C))
pollution materials
≤10%
(<1
12.5%
(≥1
㎌
)
13 The regulation about
destructive materials
of the ozone layer
Y5V
≤7.5%
≤12.5%
≤15%
Never use the ODS(ozone depleting substance) materials below in leaded MLCC products
regulated this document.
≤
㎌
)
I.R.
More than 500MΩor 25Ω.F(whichever is smaller)
10.
Appearance No marked defect
High
Temperature
Load
- Testing Time : 1000±12hrs
Packing Quantity
- Applied Voltage : Rated Voltage×200%
Unit : pcs
Capacitance Within
change
±3% or±0.3㎊ X7R : Within ±12.5% , Z5U : Within ±30%
- Temperature :
C0G, X7R →125±3℃
Z5U, Y5V →85±3℃
(whichever is larger) Y5V : Within ±30%(Cap. < 1.0μF)
Within +30% , -40%(Cap. ≥1.0μF)
Radial Type
Axial Type
Inner Box
Outer Box
Remark
Inner Box
Outer Box
Remark
Packing set on the basis of flat tapping
2,500
15,000
Packing set on the basis of flat tapping
5,000
50,000
28
29
SAMWHA CAPACITOR Co., Ltd.
Multi Layer Ceramic Capacitors
Capacitance Range
Type
Char.
Radial
X7R
Axial
X7R
50
C0G
Z5U
50
Y5V
C0G
50
Z5U
50
Y5V
50
Cap(pF) Volt
50
100
50
100
16
50
1
2
3
4
5
6
7
8
9
10
12
15
16
18
20
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
91
100
120
150
180
220
270
330
390
470
560
680
820
1.000
1.200
1.500
1.800
2.200
2.700
3.300
3.900
4.700
5.600
6.800
8.200
10.000
15.000
22.000
33.000
47.000
68.000
100.000
150.000
220.000
330.000
470.000
680.000
1.000.000
30
SAMWHA CAPACITOR Co., Ltd.
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