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1206A2000560JFT

器件型号:1206A2000560JFT
器件类别:无源元件    电容器   
厂商名称:Syfer
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器件描述

Ceramic Capacitor, Multilayer, Ceramic, 200V, 5% +Tol, 5% -Tol, C0G, 30ppm/Cel TC, 0.000056uF, Surface Mount, 1206, CHIP

参数
参数名称属性值
是否无铅含铅
是否Rohs认证不符合
厂商名称Syfer
包装说明, 1206
Reach Compliance Codecompli
ECCN代码EAR99
电容0.000056 µF
电容器类型CERAMIC CAPACITOR
介电材料CERAMIC
JESD-609代码e0
制造商序列号X7R
安装特点SURFACE MOUNT
多层Yes
负容差5%
端子数量2
最高工作温度125 °C
最低工作温度-55 °C
封装形状RECTANGULAR PACKAGE
包装方法TR, 7 INCH
正容差5%
额定(直流)电压(URdc)200 V
参考标准IECQ-CECC
尺寸代码1206
表面贴装YES
温度特性代码C0G
温度系数-/+30ppm/Cel ppm/°C
端子面层Tin/Lead (Sn/Pb) - with Nickel (Ni) barrie
端子形状WRAPAROUND

文档预览

Open Mode and Tandem capacitors
X7R
Speciality High Rel. and approved parts
IECQ-CECC ranges
Open Mode capacitors have been designed specifically
for use in applications where mechanical cracking is a
severe problem and short circuits due to cracking are
unacceptable.
Open Mode capacitors use inset electrode margins,
which prevent any mechanical cracks which may form
during board assembly from connecting to the internal
electrodes.
When combined with Syfer’s FlexiCap™ termination, Syfer
Open Mode capacitors provide a robust component with the
assurance that if a part becomes cracked, the crack will be
unlikely to result in short circuit failure.
A range of specialist high reliability MLCC’s for use in
critical or high reliability environments. All fully tested
/ approved and available with a range of suitable
termination options, including tin/lead plating and
Syfer Flexicap™.
Ranges include :-
1. Range tested and approved in accordance with
IECQ-CECC QC32100.
2. Range qualified to the requirements of AEC-Q200.
3. Range qualified to the requirements of ESCC 3009
European Space Specification.
Open Mode max capacitance
(X7R only)
0603 0805 1206 1210 1812 2220 2225
16V
25V
50/63V
100V
200/
250V
Open Mode capacitor -
IECQ-CECC - maximum capacitance values
Qualification included cracking the components by severe bend tests.
Following the bend tests cracked components were subjected to
endurance / humidity tests, with no failures evident due to short circuits.
Note: Depending on the severity of the crack, capacitance loss was
between 0% and 70%.
39nF
33nF
22nF
6.8nF
2.7nF
150nF
120nF
100nF
27nF
15nF
470nF
330nF
220nF
100nF
68nF
680nF
560nF
470nF
220nF
100nF
1.5µF
1.2µF
1.0µF
680nF
330nF
3.3µF
2.2µF
1.5µF
1.0µF
680nF
4.7µF
3.9µF
2.7µF
1.8µF
1.0µF
0603
16V
25V
50/63V
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
1.5nF
100nF
1.0nF
56nF
470pF
47nF
330pF
10nF
100pF
5.6nF
n/a
n/a
n/a
n/a
0805
6.8nF
330nF
4.7nF
220nF
2.7nF
220nF
1.8nF
47nF
680pF
27nF
330pF
8.2nF
n/a
n/a
1206
22nF
1.0µF
15nF
820nF
10nF
470nF
6.8nF
150nF
2.2nF
100nF
1.5nF
33nF
470pF
4.7nF
1210
33nF
1.5µF
22nF
1.2µF
18nF
1.0µF
12nF
470nF
4.7nF
220nF
3.3nF
100nF
1.0nF
15nF
1808
33nF
1.5µF
27nF
1.2µF
18nF
680nF
12nF
330nF
4.7nF
180nF
3.3nF
100nF
1.2nF
18nF
1812
100nF
3.3µF
68nF
2.2µF
33nF
1.5µF
27nF
1.0µF
12nF
470nF
10nF
270nF
3.3nF
56nF
2220
150nF
5.6µF
100nF
4.7µF
68nF
2.2µF
47nF
1.5µF
22nF
1.0µF
15nF
560nF
8.2nF
120nF
2225
220nF
6.8µF
150nF
5.6µF
100nF
3.3µF
68nF
1.5µF
27nF
1.0µF
22nF
820nF
10nF
150nF
Tandem Capacitors have been designed as a fail
safe range using a series section internal design, for
use in any application where short circuits would be
unacceptable.
When combined with Syfer’s FlexiCap™ termination, Syfer
Tandem capacitors provide an ultra robust and reliable
component, for use in the most demanding applications.
100V
200V
500V
Tandem max capacitance
(X7R only)
0603 0805 1206 1210 1812 2220 2225
16V
25V
50/63V
100V
200/
250V
1kV
1.2µF
1.0µF
680nF
470nF
220nF
1.5µF
1.2µF
1.0µF
680nF
330nF
Qualification included cracking the components by severe bend tests.
Following the bend tests cracked components were subjected to
endurance / humidity tests, with no failures evident due to short circuits.
Note: Depending on the severity of the crack, capacitance loss was
between 0% and 50%.
Chip
size
12nF
10nF
6.8nF
2.2nF
1.0nF
47nF
39nF
33nF
10nF
4.7nF
150nF
120nF
100nF
47nF
22nF
270nF
220nF
180nF
82nF
47nF
560nF
470nF
390nF
220nF
100nF
Tandem capacitor -
Ordering information - IECQ-CECC ranges
1210
Y
Termination
100
Voltage
0103
Capacitance in
picofarads (pF)
First digit is 0.
Second and third
digits are significant
figures of capacitance
code.
The fourth digit is
number of zeros
following
Example:
0103 = 10nF
J
Capacitance
tolerance
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
> 10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
D
Dielectric
Release codes
D
= X7R
(2R1) with IECQ-
CECC release
F
= C0G/NP0
(1B/NP0) with IECQ-
CECC release
B
= 2X1/
BX released in
accordance with
IECQ-CECC
R
= 2C1/
BZ released in
accordance with
IECQ-CECC
T
Packaging
___
Suffix
code
Used for
specific
customer
require-
ments
Y
= FlexiCap
TM
termination base with Ni
barrier (100% matte tin
plating). RoHS compliant.
H
= FlexiCap
TM
termination base with Ni
barrier (Tin/lead plating
with min. 10% lead).
F
= Silver Palladium. RoHS
compliant.
J
= Silver base with nickel
barrier (100% matte tin
plating). RoHS compliant.
A
= Silver base with nickel
barrier (Tin/lead plating
with min. 10% lead).
Ordering information - Open Mode and Tandem capacitors
1206
Chip
size
0603
0805
1206
1210
1812
2220
2225
Y
Termination
Y
= Polymer
Termination
FlexiCap™
050
Voltage
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
200 = 200V
250 = 250V
0224
Capacitance in
picofarads (pF)
First digit is 0. Second
and third digits are
significant figures of
capacitance code.
The fourth digit is
number of zeros
following.
Example:
0224 = 220000pF
K
Capacitance
tolerance
K = ±10%
X
Dielectric
codes
X
= X7R
E
= X7R
(AEC-Q200
product)
T
Packaging
T
= 178mm
(7”) reel
R
= 330mm
(13”) reel
___
Suffix
M01
=
Syfer
Open Mode
capacitor
T01
=
Syfer
Tandem
capacitor
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
200 = 200V
250 = 250V
500 = 500V
630 = 630V
1K0 = 1kV
T
= 178mm
(7”) reel
R
= 330mm
(13”) reel
B
= Bulk
pack - tubs
26
27
AEC-Q200 ranges
Speciality High Rel. and approved parts
Speciality High Rel. and approved parts
S02A Space ranges
AEC-Q200 ranges
Maximum capacitance values
S02A Space ranges
0603
0805
2.7nF
150nF
1.8nF
47nF
680pF
27nF
330pF
8.2nF
n/a
n/a
n/a
n/a
Maximum capacitance values
1206
10nF
330nF
6.8nF
150nF
2.2nF
100nF
1.5nF
33nF
1.0nF
10nF
470pF
4.7nF
1210
18nF
680nF
12nF
470nF
4.7nF
220nF
3.9nF
100nF
1.8nF
27nF
1nF
15nF
1812
39nF
1.5µF
27nF
1µF
12nF
470nF
10nF
270nF
5.6nF
150nF
3.3nF
56nF
C0G/
NP0
X7R
C0G/
NP0
X7R
C0G/
NP0
X7R
C0G/
NP0
X7R
C0G/
NP0
X7R
C0G/
NP0
X7R
0603
390pF - 1.5nF
0805
1pF - 6.8nF
1206
1pF - 22nF
1210
10pF - 33nF
1812
2220
2225
50/63V
100V
200V
500V
630V
1kV
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
C0G/NP0
X7R
470pF
33nF
330pF
10nF
100pF
5.6nF
n/a
n/a
n/a
n/a
n/a
n/a
220pF - 100nF 470pF - 150nF 560pF - 220nF
3.9nF - 3.3µF
10nF - 5.6µF
18nF - 6.8µF
16V
330pF - 100nF 100pF - 330nF 680pF - 1.0µF 1.0nF - 1.5µF
390pF - 1.0nF
1pF - 4.7nF
1pF - 15nF
10pF - 22nF
220pF - 68nF 470pF - 100nF 560pF - 150nF
3.9nF - 2.2µF
220pF - 39nF
3.9nF - 2.2µF
220pF - 27nF
10nF - 4.7µF
18nF - 5.6µF
25V
330pF - 56nF 100pF - 220nF 680pF - 820nF 1.0nF - 1.2µF
0.5pF - 470pF
1pF - 2.7nF
1pF - 10nF
10pF - 18nF
470pF - 68nF 560pF - 100nF
10nF - 3.3µF
470pF - 47nF
10nF - 1.5µF
470pF - 22nF
10nF - 1.0µF
18nF - 3.3µF
560pF - 68nF
18nF - 1.5µF
560pF - 27nF
18nF - 1.0µF
4.7nF - 18nF
15nF - 820nF
50/63V
330pF - 47nF 100pF - 220nF 680pF - 470nF 1.0nF - 1.0µF
1pF - 330pF
100pF - 10nF
1pF - 100pF
100pF - 5.6nF
-
-
1pF - 1.8nF
1pF - 6.8nF
10pF - 12nF
100V
100pF - 47nF 100pF - 150nF 1.0nF - 470nF 3.9nF - 1.0µF
1pF - 680pF
1pF - 2.2nF
10pF - 4.7nF
220pF - 12nF
Ordering information - AEC-Q200
1210
Chip
size
Y
Termination
Y
= FlexiCap
TM
termination base with Ni barrier
(100% matte tin plating). RoHS
compliant.
H
= FlexiCap
TM
termination base with Ni barrier
(Tin/lead plating with min. 10%
lead).
F
= Silver Palladium. RoHS
compliant.
J
= Silver base with nickel barrier
(100% matte tin plating). RoHS
compliant.
A
= Silver base with nickel barrier
(Tin/lead plating with min. 10%
lead).
100
Voltage
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
200 = 200V
250 = 250V
500 = 500V
630 = 630V
1K0 = 1kV
0103
Capacitance in
picofarads (pF)
First digit is 0.
Second and third
digits are significant
figures of
capacitance code.
The fourth digit is
number of zeros
following
Example:
0103 = 10nF
J
Capacitance
tolerance
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
> 10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
E
Dielectric
Release codes
E
= X7R
(2R1) AEC-Q200
A
= C0G/NP0
(1B/NP0) AEC-Q200
T
Packaging
T
= 178mm
(7”) reel
R
= 330mm
(13”) reel
B
= Bulk
pack - tubs
___
Suffix
code
Used for
specific
customer
require-
ments
200V
100pF - 27nF 100pF - 100nF 1.0nF - 220nF 3.9nF - 470nF
1pF - 270pF
10pF - 8.2nF
1pF - 1.2nF
10pF - 2.7nF
180pF - 6.8nF 390pF - 15nF
1nF - 560nF
500V
180pF - 33nF 390pF - 100nF 390pF - 270nF
Note: In accordance with ESCC 3009.
Ordering information - S02A Space ranges
product code construction
1210
Chip
size
A
Termination
(1)
100
Voltage
0103
Capacitance in
picofarads (pF)
First digit is 0.
Second and third digits
are significant figures of
capacitance code.
The fourth digit is
number of zeros
following
Example:
0103 = 10nF
J
Capacitance
tolerance
<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
> 10pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
X
Dielectric
Rel
Release codes
C
= C0G/NP0
(1B)
X
= X7R
(2R1)
T
Packaging
___
Suffix code
3 Terminal EMI Components (E01) - AEC-Q200 ranges
Maximum capacitance values
A
= Silver base with
nickel barrier (Tin/
lead plating with min.
10% lead).
F
= Silver Palladium.
RoHS compliant.
0805
50V
C0G/NP0
X7R
C0G/NP0
X7R
820pF
47nF
560pF
15nF
1206
1.0nF
100nF
1.0nF
15nF
1806
2.2nF
200nF
2.2nF
68nF
H
= FlexiCap
TM
termination base
with Ni barrier (Tin/
lead plating with min.
10% lead).
016 = 16V
025 = 25V
050 = 50V
063 = 63V
100 = 100V
200 = 200V
500 = 500V
T
= 178mm
(7”) reel
R
= 330mm
(13”) reel
B
= Bulk pack
- tubs
Q
= Waffle
pack
Used for
specific
customer
requirements
S02A
=
S (Space
Grade) High
Rel
100V
Notes:
(1) Termination
A, H
&
F
available for Space applications. If another termination type is required then contact Syfer Sales.
(2) Please include Lot Acceptance Test requirement (LAT1, LAT2 or LAT3) on purchase order against each line item.
Tests conducted after 100% Burn-In (2xRV @125ºC for 168 hours):
LAT1:
4 x adhesion, 8 x rapid temp change + LAT2 and LAT3.
LAT2:
20 x 1000 hour life test + LAT3.
LAT3:
6 x TC and 4 x solderability.
Note: For some lower capacitance parts, higher voltage rated parts may be supplied.
Refer to page 36.
X2Y Integrated Passive Components (E03) - AEC-Q200 ranges
Maximum capacitance values
0805
50V
C0G/NP0
X7R
C0G/NP0
X7R
470pF
33nF
330pF
15nF
1206
1.5nF
150nF
1.0nF
47nF
1410
5.6nF
330nF
3.9nF
150nF
1812
10nF
560nF
6.8nF
330nF
28
100V
29
Note: For some lower capacitance parts, higher voltage rated parts may be supplied.
Refer to page 38.
Safety Certified capacitors
Certification Chart
Safety Certified capacitors
Safety Certified
capacitors
Syfer Technology’s Safety Certified capacitors comply
with international UL and TÜV specifications to
offer designers the option of using a surface mount
ceramic multilayer capacitor to replace leaded film
types. Offering the benefits of simple pick-and-place
assembly, reduced board space required and lower
profile, they are also available in a FlexiCap™
version
to reduce the risk of mechanical cracking.
Syfer’s high voltage capacitor expertise means the
range offers among the highest range available of
capacitance values in certain case sizes. Applications
include: modems, AC-DC power supplies and where
lightning strike or other voltage transients represent a
threat to electronic equipment.
Surface mount multilayer ceramic capacitors
Meet Class Y2/X1, Y3/X2 and X2 requirements
Approved for mains ac voltages, up to 250Vac
Approved by UL and TÜV
Sizes 1808, 1812, 2211, 2215 and 2220
Smaller sizes suitable for use in equipment certified to
EN60950
Certification specifications for larger sizes include IEC/
EN60384, UL/CSA60950 and UL1414
Surface mount package
Reduces board area and height restrictions
Reduced assembly costs over conventional through hole
components
FlexiCap™ option available on all sizes.
Safety Certified capacitors classification and approval specification.
CHIP SIZE
DIELECTRIC
CAP RANGE
SYFER FAMILY
CODE
CLASSIFICATION
APPROVAL SPECIFICATION
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL-60950-1, 2nd Ed
CSA 60950-1-07 2nd Ed
IEC60384-14:2005
EN60384-14:2005
UL1414: 6th Edition
APPROVAL
BODY
1808
C0G/NP0
4.7pF
to
1.5nF
150pF
to
2.2nF
4.7pF
to
390pF
150pF
to
1nF
4.7pF
to
390pF
150pF
to
1.0nF
4.7pF
to
1nF
100pF
to
2.2nF
820pF
to
1.0nF
2.7nF
to
3.3nF
150pF
to
4.7nF
150pF
to
10nF
SP
(1)
Y3/X2
NWGQ2, NWGQ8
TÜV
UL
TÜV
UL
TÜV
UL
TÜV
UL
TÜV
UL
TÜV
UL
TÜV
UL
TÜV
UL
TÜV
UL
TÜV
UL
TÜV
UL
1808
X7R
SP
(1)
Y3/X2
NWGQ2, NWGQ8
1808
C0G/NP0
PY2
PY2
PY2
PY2
SP
SP
SP
SP
(1)
Y2/X1
NWGQ2, NWGQ8
1808
X7R
(1)
Y2/X1
NWGQ2, NWGQ8
1812
C0G/NP0
(1)
Y2/X1
NWGQ2, NWGQ8
Class
Y1
Y2
Y3
Y4
X1
X2
X3
Rated voltage
250Vac
250Vac
250Vac
150Vac
250Vac
250Vac
250Vac
Impulse voltage
8000V
5000V
None
2500V
4000V
2500V
None
Insulation bridging
Double or reinforced
Basic or supplementary*
Basic or supplementary
Basic or supplementary*
-
-
-
May be used in primary circuit
Line to protective earth
Line to protective earth
-
Line to protective earth
Line to line
Line to line
Line to line
1812
X7R
(1)
Y2/X1
NWGQ2, NWGQ8
2211
C0G/NP0
(2)
Y2/X1
NWGQ2, NWGQ8
2211
X7R
(2)
Y2/X1
NWGQ2, NWGQ8
2215
C0G/NP0
(2)
Y2/X1
NWGQ2, NWGQ8
* 2 x Y2 or Y4 rated may bridge double or reinforced insulation when used in series.
2215
X7R
(2)
Y2/X1
NWGQ2, NWGQ8
2220
X7R
B16
B17
(2)
Y2/X1
Y2/X1,
(1)
(2)
FOWX2
2220
Notes
(1), (2)
(1), (2)
(2)
(2)
PY2
SP
X7R
X2
IEC60384-14:2005
EN60384:2005
TÜV
30
Termination Availability
J: Silver base with Nickel Barrier (100% Matte Tin Plating). RoHS compliant.
Y: FlexiCap™ termination base with Nickel Barrier (100% Tin Plating). RoHS compliant.
H: FlexiCap™ termination base with Nickel Barrier (Tin/ Lead plating with min 10% Lead).
A: Silver base with Nickel Barrier (Tin/ Lead Plating with min 10% Lead).
Unmarked capacitors also available as released in accordance with approval specifications. Family code SY2 applies.
Unmarked capacitors also available as released in accordance with approval specifications. Family code SPU applies.
BAUART
GEPRÜFT
Rheinland
Product Safety
TYPE
APPROVED
31
输入输出调理电路及外部供电疑问
外部供电是不是J6的VCC接3.5V,两个GND接地(为什么两个GND在原理图上连在一起的还要弄两个...
278023330 微控制器 MCU
【拓普微智能显示模块】六:一个控件综合的界面
之前的帖子已经零零散散接触了很多控件,所以最后来个综合。之前第一篇做了个界面,那会密码验证那一块没做...
数码小叶 测试/测量
玩转Zynq连载28——[ex50] 第一个Zynq系统工程“Hello Zynq”
1 概述 如图所示,Zynq系统的PS部分有丰富的外设接口,常见的USB、UART、SPI、I2...
ove学习使我快乐 FPGA/CPLD
dB<-->-电压, dBm<-->功率心算法
卖点老酒 下面这组数据, 对于搞过功放和射频的人来说, 很熟悉吧, 就好比玩过路由器的人, 对19...
PowerAnts 模拟电子
请问用汇编编写的主程序可以调用C语言的子程序吗?
请问用汇编编写的主程序可以调用C语言的子程序吗? 请问用汇编编写的主程序可以调用C语言的子程序吗? ...
yin_327 微控制器 MCU
焦距与物距的问题
焦距与物距的问题 谁能告诉我摄像机的各个规格的镜头与其物距的关系? 焦距与物距的问题 ...
飞雪 安防电子

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