XF03CD0100K--
更新时间:2024-09-18 16:49:26
品牌:KYOCERA AVX
描述:Feed Through Capacitor, 1 Function(s), 50V,
XF03CD0100K-- 概述
Feed Through Capacitor, 1 Function(s), 50V, 数据线路滤波器
XF03CD0100K-- 规格参数
是否Rohs认证: | 不符合 | 生命周期: | Active |
Reach Compliance Code: | not_compliant | ECCN代码: | EAR99 |
HTS代码: | 8504.50.80.00 | 风险等级: | 5.79 |
其他特性: | SILVER PALLADIUM TERMINATION | 电容: | 10 µF |
直径: | 3.81 mm | 滤波器类型: | FEED THROUGH CAPACITOR |
高度: | 1.4 mm | 最小绝缘电阻: | 100000 MΩ |
JESD-609代码: | e4 | 安装类型: | PANEL MOUNT |
功能数量: | 1 | 最高工作温度: | 125 °C |
最低工作温度: | -55 °C | 包装方法: | BULK |
物理尺寸: | D3.81XH1.4 (mm)/D0.15XH0.055 (inch) | 额定电压: | 50 V |
Base Number Matches: | 1 |
XF03CD0100K-- 数据手册
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PDF下载Discoidal MLC
Feed-Through Capacitors and Filters
DC Style (US Preferred Sizes) / XB Style (European Preferred Sizes)
XF Style (Feed-Through Discoidal)
APPLICATION INFORMATION ON DISCOIDAL
LOWEST CAPACITANCE IMPEDANCES TO GROUND
A discoidal MLC capacitor has very low impedance associated with its ground path
since the signal is presented with a multi-directional path. These electrode pathsꢁ
which can be as many as +00ꢁ allow for low ESR and ESL which are the major ele-
ments in impedance at high frequencies.
The assembled discoidal element or feed-thru allows signal to be fed in through a
chassis or bulkheadꢁ conditioned as it passes through the discoidalꢁ and isolated by
the chassis and discoidal from the original signal. An example of this application
would be in an AFT circuit where the AC noise signal would be required to be
stripped from the DC control signal. Other applications include single line EMIꢀRFI
suppressionꢁ L-C filter constructionꢁ and coaxial shield bypass filtering.
OD*
The shape of the discoidal lends itself to filter construction. The short length allows
ID
compact construction where L-C construction is desired.
The size freedom associated with this element allows almost any insideꢀ
T Max.
outside diameter combination. By allowing the inside diameter to equal
the center insulator diameter of a coaxial signal line and special termination tech-
niquesꢁ this device will allow bypass filtering of a floating shield to ground.
These surfaces are metallized
.127 (0.005). minimum wide except
for DC61, DC26 and DC63
where metallized surfaces
Discoidal capacitors are available in three temperature coefficients (C0Gꢁ X7Rꢁ ZꢂU)
and a variety of sizesꢁ the most standard of which appear in this catalog.
INSERTION LOSS
are .127 (0.005) maximum.
0
-10
+
*Tol. = .254 (0.010) or 3%, whichever is greater
-
SINGLE CHIP
-20
AVX’s DC Series 50V, 100V, 200V, C0G
-30
and X7R parts are capable of meeting
the requirements of MIL-PRF-31033.
-40
DISCOIDAL
-50
-60
-70
-80
0
100 200 300 400 500 600 700 800 900 1000
f (MHz)
ELECTRICAL SPECIFICATIONS
Temperature Coefficient
Insulation Resistance 125°C (MIL-STD-101 Method ±01)
C0G and X7R: +0K MΩ or +00 MΩ-μFꢁ whichever is less.
ZꢂU: +K MΩ or +00 MΩ-μFꢁ whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)*
C0G and X7R: 1ꢂ05 rated voltage for ꢂ seconds with ꢂ0 mA max
charging current. ꢂ00ꢄ rated units will be tested at 7ꢂ0 ꢄDC
ZꢂU: 1005 rated voltage for ꢂ seconds with ꢂ0 mA max charging current.
Life Test (+000 hrs)
C0G and X7R: 1005 rated voltage at ꢃ+1ꢂ/C (ꢂ00 ꢄolt units
@ 600 ꢄDC)
ZꢂU: +ꢂ05 rated voltage at ꢃ8ꢂ/C
Moisture Resistance (MIL-STD-101 Method +06)
C0Gꢁ X7Rꢁ ZꢂU: Ten cycles with no voltage applied.
Thermal Shock (MIL-STD-101 Method +07ꢁ Condition A)
Immersion Cycling (MIL-STD-101 Method +04ꢁ Condition B)
C0G: A Temperature Coefficient - 0 ±±0 ppmꢀ/Cꢁ -ꢂꢂ/ ꢃ+1ꢂ/C
X7R: C Temperature Coefficient - ±+ꢂ5ꢁ -ꢂꢂ/ to ꢃ+1ꢂ/C
ZꢂU: E Temperature Coefficient - ꢃ11ꢁ -ꢂ65ꢁ ꢃ+0/ to ꢃ8ꢂ/C
Capacitance Test (MIL-STD-101 Method ±0ꢂ)
C0G: 1ꢂ/Cꢁ +.0±0.1 ꢄrms at +KHzꢁ for ≤+00 pF use + MHz
X7R: 1ꢂ/Cꢁ +.0±0.1 ꢄrms at +KHz
ZꢂU: 1ꢂ/Cꢁ 0.ꢂ ꢄrms max at +KHz
Dissipation Factor 25°C
C0G: 0.+ꢂ5 Max @ 1ꢂ/Cꢁ +.0±0.1 ꢄrms at +KHzꢁ for ≤+00 pF use + MHz
X7R: 1.ꢂ5 Max @ 1ꢂ/Cꢁ +.0±0.1 ꢄrms at +KHz
ZꢂU: ±.05 Max @ 1ꢂ/Cꢁ 0.ꢂ ꢄrms max at +KHz
Insulation Resistance 25°C (MIL-STD-101 Method ±01)
C0G and X7R: +00K MΩ or +000 MΩ-μFꢁ whichever is less.
ZꢂU: +0K MΩ or +000 MΩ-μFꢁ whichever is less.
HOW TO ORDER
DC61
5
A
561
K
A
5
1
06
AVX
Voltage Temperature
Capacitance Code
(1 significant digits
ꢃ no. of zeros)
Examples:
+0 pF = +00
+00 pF = +0+
+ꢁ000 pF = +01
11ꢁ000 pF = 11±
110ꢁ000 pF = 114
+ μF = +0ꢂ
Capacitance
Tolerance
C0G: J = ±ꢂ5
K = ±+05
M = ±105
X7R: K = ±+05
M = ±105
Test
Termination
Inside
Maximum
Thickness
Style
ꢂ0ꢄ = ꢂ Coefficient
Level
ꢂ = Silver
Diameter
See Pages +00ꢄ = +
+09-++0 100ꢄ = 1
ꢂ00ꢄ = 7
C0G = A
X7R = C
ZꢂU = E
A = Standard (AꢄX Standard) See Pages 06 = +.ꢂ1 (0.060)
+01-+04 +0 = 1.ꢂ4 (0.+00)
ZꢂU: M = ±105
Z = ꢃ80 -105
P = GMꢄ
For dimensionsꢁ voltages or values not specifiedꢁ please consult factory.
108
Discoidal MLC
Feed-Through Capacitors and Filters
DC Style
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: millimeters (inches)
EIA
Characteristic
C0G
AVX Style
DC61
DC26
DC63
DC04
DC65
DC66
DC67
DC69
DC32
DC70
DC02
DC71
DC05
DC73
DC72
Outside
Diameter
1.ꢂ4
(0.+00)
±.4±
(0.+±ꢂ)
±.8+
(0.+ꢂ0)
4.8±
(0.+90)
ꢂ.±±
(0.1+0)
ꢂ.97
(0.1±ꢂ)
6.7±
(0.16ꢂ)
8.+±
(0.±10)
8.ꢂ+
(0.±±ꢂ)
8.89
(0.±ꢂ0)
9.40
(0.±70)
9.78
(0.±8ꢂ)
+1.70
(0.ꢂ00)
+ꢂ.14
(0.600)
+6.16
(0.640)
(OD)*
Thickness
Maximum
+.ꢂ1
(0.060)
+.ꢂ1
(0.060)
+.ꢂ1
(0.060)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
(T)
Inside
Diameter No.
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
(ID)
+ꢁ1
+ꢁ1ꢁ±
+ꢁ1ꢁ±ꢁ4
+ꢁ1ꢁ±
Voltage
cap. in pF
+0
+1
+ꢂ
+8
11
17
±±
±9
47
ꢂ6
68
81
+00
+10
+ꢂ0
+80
110
170
±±0
±90
470
ꢂ60
680
810
+000
+100
+ꢂ00
+800
1100
1700
±±00
±900
4700
ꢂ600
6800
8100
+0ꢁ000
+1ꢁ000
+ꢂꢁ000
+8ꢁ000
11ꢁ000
17ꢁ000
±±ꢁ000
±9ꢁ000
47ꢁ000
ꢂ6ꢁ000
68ꢁ000
81ꢁ000
+00ꢁ000
+10ꢁ000
+ꢂ0ꢁ000
+80ꢁ000
110ꢁ000
170ꢁ000
±±0ꢁ000
±90ꢁ000
470ꢁ000
ꢂ60ꢁ000
680ꢁ000
Inside Diameter:
*Outside Diameter:
ꢂ = +.17±.+17 (0.0ꢂ0±.00ꢂ)
6 = +.ꢂ1±.+17 (0.060±.00ꢂ)
7 = +.7±±.+17 (0.068±.00ꢂ)
Tolerance is ±0.1ꢂ4 (0.0+0) or ±5
whichever is greater
ꢃ.+17
ꢃ.00ꢂ
ꢃ.+17
-.0ꢂ+
ꢃ.+17
-.0ꢂ+
ꢃ.00ꢂ
+ = .6±ꢂ
1 = .761
(.01ꢂ
(.0±0
)
± = .9+4
4 = +.07
(.0±6
(.041
)
)
-.0ꢂ+
ꢃ.+17
-.0ꢂ+
-.001
ꢃ.00ꢂ
-.001
-.001
ꢃ.00ꢂ
-.001
)
109
Discoidal MLC
Feed-Through Capacitors and Filters
DC Style
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: millimeters (inches)
EIA
X7R
Characteristic
AVX Style
DC61
DC26
DC63
DC04
DC65
DC66
DC67
DC69
DC32
DC70
DC02
DC71
DC05
DC73
DC72
Outside
1.ꢂ4
±.4±
±.8+
4.8±
ꢂ.±±
ꢂ.97
6.7±
8.+±
8.ꢂ+
8.89
9.40
9.78
+1.70
+ꢂ.14
+6.16
(OD)*
(T)
Diameter
(0.+00)
(0.+±ꢂ)
(0.+ꢂ0)
(0.+90)
(0.1+0)
(0.1±ꢂ)
(0.16ꢂ)
(0.±10)
(0.±±ꢂ)
(0.±ꢂ0)
(0.±70)
(0.±8ꢂ)
(0.ꢂ00)
(0.600)
(0.640)
Thickness
Maximum
+.ꢂ1
(0.060)
+.ꢂ1
(0.060)
+.ꢂ1
(0.060)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
Inside
Diameter No.
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
(ID)
+ꢁ1
+ꢁ1ꢁ±
+ꢁ1ꢁ±ꢁ4
+ꢁ1ꢁ±
Voltage
cap. in pF
ꢂ6
68
81
+00
+10
+ꢂ0
+80
110
170
±±0
±90
470
ꢂ60
680
810
+000
+100
+ꢂ00
+800
1100
1700
±±00
±900
4700
ꢂ600
6800
8100
+0ꢁ000
+1ꢁ000
+ꢂꢁ000
+8ꢁ000
11ꢁ000
17ꢁ000
±±ꢁ000
±9ꢁ000
47ꢁ000
ꢂ6ꢁ000
68ꢁ000
81ꢁ000
+00ꢁ000
+10ꢁ000
+ꢂ0ꢁ000
+80ꢁ000
110ꢁ000
170ꢁ000
±±0ꢁ000
±90ꢁ000
470ꢁ000
ꢂ60ꢁ000
680ꢁ000
810ꢁ000
1.0 μF
1.2 μF
1.5 μF
1.8 μF
2.2 μF
2.7 μF
3.3 μF
3.9 μF
6.8 μF
Inside Diameter:
*Outside Diameter:
Tolerance is ±0.1ꢂ4 (0.0+0) or ±5
whichever is greater
ꢂ = +.17±.+17 (0.0ꢂ0±.00ꢂ)
6 = +.ꢂ1±.+17 (0.060±.00ꢂ)
7 = +.7±±.+17 (0.068±.00ꢂ)
ꢃ.+17
ꢃ.00ꢂ
ꢃ.+17
-.0ꢂ+
ꢃ.+17
-.0ꢂ+
ꢃ.00ꢂ
+ = .6±ꢂ
1 = .761
(.01ꢂ
(.0±0
)
± = .9+4
4 = +.07
(.0±6
(.041
)
-.0ꢂ+
ꢃ.+17
-.0ꢂ+
-.001
ꢃ.00ꢂ
-.001
-.001
ꢃ.00ꢂ
-.001
)
)
110
Discoidal MLC
Feed-Through Capacitors and Filters
DC Style
SIZE AND CAPACITANCE SPECIFICATIONS
Dimensions: millimeters (inches)
EIA
Characteristic
Z5U
AVX Style
DC61
DC26
DC63
DC04
DC65
DC66
DC67
DC69
DC32
DC70
DC02
DC71
DC05
DC73
DC72
Outside
Diameter
1.ꢂ4
(0.+00)
±.4±
(0.+±ꢂ)
±.8+
(0.+ꢂ0)
4.8±
(0.+90)
ꢂ.±±
(0.1+0)
ꢂ.97
(0.1±ꢂ)
6.7±
(0.16ꢂ)
8.+±
(0.±10)
8.ꢂ+
(0.±±ꢂ)
8.89
(0.±ꢂ0)
9.40
(0.±70)
9.78
(0.±8ꢂ)
+1.70
(0.ꢂ00)
+ꢂ.14
(0.600)
+6.16
(0.640)
(OD)*
Thickness
Maximum
+.ꢂ1
(0.060)
+.ꢂ1
(0.060)
+.ꢂ1
(0.060)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
1.ꢂ4
(0.+00)
(T)
Inside
Diameter No.
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
ꢂꢁ6ꢁ7
+ꢁ1ꢁ±ꢁ4
(ID)
+ꢁ1
+ꢁ1ꢁ±
+ꢁ1ꢁ±ꢁ4
+ꢁ1ꢁ±
Voltage
cap. in pF
+800
1100
1700
±±00
±900
4700
ꢂ600
6800
8100
+0ꢁ000
+1ꢁ000
+ꢂꢁ000
+8ꢁ000
11ꢁ000
17ꢁ000
±±ꢁ000
±9ꢁ000
47ꢁ000
ꢂ6ꢁ000
68ꢁ000
81ꢁ000
+00ꢁ000
+10ꢁ000
+ꢂ0ꢁ000
+80ꢁ000
110ꢁ000
170ꢁ000
±±0ꢁ000
±90ꢁ000
470ꢁ000
ꢂ60ꢁ000
680ꢁ000
810ꢁ000
1.0 μF
1.2 μF
1.5 μF
1.8 μF
2.2 μF
2.7 μF
3.3 μF
3.9 μF
4.7 μF
5.6 μF
6.8 μF
8.2 μF
10.0 μF
12.0 μF
15.0 μF
Inside Diameter:
*Outside Diameter:
Tolerance is ±0.1ꢂ4 (0.0+0) or ±5
whichever is greater
ꢂ = +.17±.+17 (0.0ꢂ0±.00ꢂ)
6 = +.ꢂ1±.+17 (0.060±.00ꢂ)
7 = +.7±±.+17 (0.068±.00ꢂ)
ꢃ.+17
ꢃ.00ꢂ
)
ꢃ.+17
-.0ꢂ+
ꢃ.+17
-.0ꢂ+
ꢃ.00ꢂ
+ = .6±ꢂ
1 = .761
(.01ꢂ
(.0±0
± = .9+4
4 = +.07
(.0±6
(.041
)
-.0ꢂ+
ꢃ.+17
-.0ꢂ+
-.001
-.001
ꢃ.00ꢂ
-.001
ꢃ.00ꢂ
)
)
-.001
111
Discoidal MLC
Feed-Through Capacitors and Filters
Discoidal XB / Feed-through XF – C0G
HOW TO ORDER
XB
06
Z
G
0104
K
--
AVX Style
Size
0±
04
Class
C = NP0
Z = X7R
Voltage
D = 6±
E = +00
Capacitance
EIA code
on ± or 4
digits
Tolerance
J = ꢂ5
K = +05
M = 105
Packaging
-- : bulk
XB
XF
06
F = +60
07
08
G = 1ꢂ0
I = 400
09
J = ꢂ00 (optional)
+0
+4
+ꢂ
REFERENCES
Type
Terminations
Reference
Mechanical Characteristics
bm
Silver
XB..C•....• --
XB..C•....• MB
XF..C•....• --
palladium
OD
CECC ±0600
MIL ++0+ꢂ D
Conformance
to
ID
Tinned
silver palladium
bm
Ø
e
Silver
palladium
OD
CK+1
TYPE
Tinned
silver palladium
e
XF..C•....• MB
20
(0.787) (0.787)
min. min.
20
DIMENSIONS
millimeters (inches)
e
OD
ID
bm
Ø
Size
XB/XF
XB/XF...MB
XB
0.7 ± 0.+ꢂ
XB...MB
min
(XF)
min
max
0±
±.8 ± 0.±
4.+ ± 0.4
> 0.4
(> 0.0+6)
0.+
(0.004)
0.ꢂ
(0.010)
+
See
table
(0.+ꢂ0 ± 0.0+1) (0.+6+ ± 0.0+6) (0.018 ± 0.006)
04
08
±.8 ± 0.±
—
+.1 ± 0.+ꢂ
—
0.+
—
+
+
on
(0.+ꢂ0 ± 0.0+1)
(0.047 ± 0.006)
(0.004)
page
7.9 ± 0.±
8.1 ± 0.4
0.8 ± 0.+ꢂ
> 0.ꢂ
(> 0.010)
0.1
(0.008)
0.6
(0.014)
++±
(0.±++ ± 0.0+1) (0.±1± ± 0.0+6) (0.0±+ ± 0.006)
ELECTRICAL CHARACTERISTICS
Dielectric Class
C0G
0 ± ±0 ppmꢀ/C
Temperature Coefficient
Climatic Category
Operating Temperature
-ꢂꢂ ꢀ +1ꢂ ꢀ ꢂ6
-ꢂꢂ ꢃ+1ꢂ/C
Rated ꢄoltage (UR)
Test ꢄoltage (Ue)
ꢂ0 to 400ꢄ
1.ꢂ UR
Tangent of Loss Angle
C < ꢂ0 pF
150
tg δ < +.ꢂ
ꢃ 7 +0-4
(
)
CR
C ≥ ꢂ0 pF
tg δ < +ꢂ(+0-4)
Insulation Resistance
Ri ≥ +00 GΩ
112
Discoidal MLC
Feed-Through Capacitors and Filters
Discoidal XB / Feed-through XF – C0G
RATED VOLTAGE – RATED CAPACITANCES
Size
03
04
08
F
Capacitance
CR
Rated Voltage - UR (V)/Ur code
D
D
+0 pF
+ꢂ pF
11 pF
±± pF
47 pF
68 pF
+00 pF
+ꢂ0 pF
110 pF
±±0 pF
470 pF
680 pF
+000 pF
+ꢂ00 pF
1100 pF
±±00 pF
4700 pF
6800 pF
+0 nF
+ꢂ nF
11 nF
±± nF
47 nF
68 nF
+00 nF
Thimckmn(einscshees)max
+.4 (0.0ꢂꢂ)
+.4 (0.0ꢂꢂ)
+.8 (0.07+)
• other valuesꢁ please contact us
• for tinned typesꢁ add 0.ꢂ (0.010) to emax
113
Discoidal MLC
Feed-Through Capacitors and Filters
Discoidal XB / Feed-through XF – X7R
REFERENCES
Type
Terminations
Reference
Mechanical Characteristics
bm
Silver
palladium
XB..Z•....• --
OD
ID
bm
CECC ±0700
MIL ++0+ꢂ D
Conformance
Tinned
silver palladium
XB..Z•....• MB
e
Ø
to
Silver
palladium
XF..Z•....• --
OD
CK+1ꢁ CK+±ꢁ CK+4
TYPES
Tinned
silver palladium
e
XF..Z•....• MB
20
20
(0.787) (0.787)
min. min.
DIMENSIONS
millimeters (inches)
OD
ID
bm
Ø
e
Size
XB/XF
XB/XF...MB
XB
XB...MB
min
(XF)
min
+.0
max
±.8 ± 0.±
4.+ ± 0.4
0.7 ± 0.+ꢂ
(0.018 ± 0.006)
+.1 ± 0.+ꢂ
> 0.4
0.+
(0.004)
0.+
0.ꢂ
0±
(0.+ꢂ0 ± 0.0+1) (0.+6+ ± 0.0+6)
(> 0.0+6)
(0.010)
(0.0±9)
+.0
±.8 ± 0.±
—
—
04
06
07
08
09
+0
+4
+ꢂ
—
(0.+ꢂ0 ± 0.0+1)
(0.047 ± 0.006)
+.7 ± 0.+ꢂ
(0.004)
0.1
(0.0±9)
+.0
6.4 ± 0.±
6.7 ± 0.4
> 0.ꢂ
(> 0.010)
> 0.ꢂ
0.6
(0.014)
0.6
See
(0.1ꢂ1 ± 0.0+1) (0.164 ± 0.0+6)
7.± ± 0.± 7.6 ± 0.4
(0.187 ± 0.0+1) (0.199 ± 0.0+6)
7.9 ± 0.± 8.1 ± 0.4
(0.±++ ± 0.0+1) (0.±1± ± 0.0+6)
8.4 ± 0.4 8.7 ± 0.ꢂ
(0.±±+ ± 0.0+6) (0.±4± ± 0.010)
9.6 ± 0.4 9.9 ± 0.ꢂ
(0.±78 ± 0.0+6) (0.±90 ± 0.010)
+4.0 ± 0.ꢂ +4.± ± 0.6
(0.ꢂꢂ+ ± 0.010) (0.ꢂ6± ± 0.014)
+ꢂ.0 ± 0.ꢂ +ꢂ.± ± 0.6
(0.ꢂ9+ ± 0.010) (0.601 ± 0.014)
(0.067 ± 0.006)
+.7 ± 0.+ꢂ
(0.008)
0.1
(0.0±9)
+.0
table
on
page
(0.067 ± 0.006)
0.8 ± 0.+ꢂ
(> 0.010)
> 0.ꢂ
(0.008)
0.1
(0.014)
0.6
(0.0±9)
+.0
(0.0±+ ± 0.006)
+.6 ± 0.±
(> 0.010)
> 0.ꢂ
(0.008)
0.1
(0.014)
0.6
(0.0±9)
+.0
++ꢂ
(0.06± ± 0.0+1)
+.1 ± 0.+ꢂ
(> 0.010)
> 0.9
(0.008)
0.1
(0.014)
+.0
(0.0±9)
+.0
(0.047 ± 0.006)
+.7 ± 0.±
(> 0.0±ꢂ)
> 0.9
(0.008)
0.1
(0.0±9)
+.0
(0.0±9)
+.0
(0.067 ± 0.0+1)
1.± ± 0.±
(> 0.0±ꢂ)
> 0.9
(0.008)
0.1
(0.0±9)
+.0
(0.0±9)
+.0
(0.09+ ± 0.0+1)
(> 0.0±ꢂ)
(0.008)
(0.0±9)
(0.0±9)
ELECTRICAL CHARACTERISTICS
Dielectric Class
X7R
Temperature Coefficient
ΔCꢀC ≤ ± +ꢂ5 (-ꢂꢂ ꢃ+1ꢂ/C)
Climatic Category
Operating Temperature
-ꢂꢂ ꢀ +1ꢂ ꢀ ꢂ6
-ꢂꢂ ꢃ+1ꢂ/C
Rated ꢄoltage (UR)
Test ꢄoltage (Ue)
ꢂ0 to 400ꢄ
1.ꢂ UR
tg δ ≤ 1ꢂ0(+0-4)
Tangent of Loss Angle
Insulation Resistance
C ≤ +0 nF
Ri ≥ +00 GΩ
Ri xC ≥ +000s
C > +0 nF
114
Discoidal MLC
Feed-Through Capacitors and Filters
Discoidal XB / Feed-through XF – X7R
RATED VOLTAGE – RATED CAPACITANCES
Size
03-04
D
06
07
08-09
UR- (V)/Code UR
10
F
14-15
Capacitance
CR
D
E
F
G
D E F G
I
D
E
F G
I
D E
G
I
D E
F G I
+00 pF
+ꢂ0 pF
110 pF
±±0 pF
470 pF
680 pF
+000 pF
+ꢂ00 pF
1100 pF
±±00 pF
4700 pF
6800 pF
+0 nF
+ꢂ nF
11 nF
±± nF
47 nF
68 nF
+00 nF
+ꢂ0 nF
110 nF
±±0 nF
470 nF
680 nF
+ μF
+.ꢂ μF
1.1 μF
±.± μF
4.7 μF
+.4
(0.0ꢂꢂ)
1
0.079)
1
0.079)
1
0.079)
1
0.079)
±
0.++8)
±
0.++8)
±
0.++8)
±
0.++8)
±
0.++8)
+.8
0.07+)
±
0.++8)
+.8
0.07+)
±
0.++8)
±
0.++8)
±
0.++8)
±
0.++8)
±
0.++8)
±
0.++8)
±
0.++8)
±.ꢂ ±.ꢂ ±.ꢂ ±.ꢂ ±.ꢂ
emax mm (inches)
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
0.+±8)
(
0.+±8)
(
0.+±8)
(
0.+±8) (0.+±8)
• other valuesꢁ please contact us
• for tinned typesꢁ add 0.ꢂ (0.010) to emax
115
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