223857611015 [YAGEO]
Ceramic Capacitor, Multilayer, Ceramic, 50V, 3.7% +Tol, 3.7% -Tol, C0G, 30ppm/Cel TC, 0.0000027uF, Surface Mount, 1206, CHIP;
| 型号: | 223857611015 |
| 厂家: | 
YAGEO CORPORATION |
| 描述: | Ceramic Capacitor, Multilayer, Ceramic, 50V, 3.7% +Tol, 3.7% -Tol, C0G, 30ppm/Cel TC, 0.0000027uF, Surface Mount, 1206, CHIP |
| 文件: | 总13页 (文件大小:156K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SURFACE-MOUNT CERAMIC
MULTILAYER CAPACITORS
Microwave: Class 1 NP0
50 V
NME
Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
FEATURES
QUICK REFERENCE DATA
DESCRIPTION
VALUE
• Low insertion loss/ESR up to
3 GHz:
Rated voltage UR (DC)
50 V (IEC); note 1
− First parallel resonance above
2 GHz
Capacitance range (E12 series),
NP0 dielectric; note 2:
− Second parallel resonance
above 3 GHz
case size 0603
case size 0805
0.47 pF to 47 pF
0.47 pF to 82 pF
0.47 pF to 120 pF
• Small dimensions; sizes 0603,
case size 1206
0805 and 1206 available
Tolerance on capacitance:
C ≥ 10 pF
• High reliability
±10%, ±5%, ±2% and ±1%
±0.5 pF, ±0.25 pF and ±0.1 pF
±0.25 pF and ±0.1 pF
2.5 × UR
• Standard tolerance on
capacitance:
5 pF ≤ C < 10 pF
±10%, ±5%, ±2% and ±1%
C
<
5 pF
• Suitable for reflow and wave
Test voltage (DC) for 1 minute
soldering
Insulation resistance after 60 s
at UR (DC)
>100 GΩ
• s-parameter data available on
floppy disk
Sectional specifications
IEC 60384-10,
• NiSn terminations (AgPd on
second edition 1989-04;
also based on CECC 32 100
request).
Detailed specification
based on CECC 32 101-801
55/125/56
APPLICATIONS
Climatic category (IEC 60068)
Notes
• Mobile telephones
• Satellite television
• Instrumentation.
1. Also applicable for applications up to 63 V.
2. Non E12 values are available on request.
DESCRIPTION
The capacitor consists of a
rectangular block of ceramic
dielectric in which a number of
interleaved metal electrodes are
contained. This structure gives rise
to a high capacitance per unit
volume.
terminations
electrodes
The inner electrodes are connected
to the two terminations, either by
silver palladium (AgPd) alloy in the
ratio 65 : 35, or silver dipped with a
barrier layer of plated nickel and
finally covered with a layer of plated
tin (NiSn). A cross section of the
structure is shown in Fig.1.
MLB457
ceramic material
Fig.1 Construction of a ceramic multilayer capacitor.
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
MECHANICAL DATA
W
T
L
L
L
L
3
2
4
1
MBB211
For dimensions see Table 1.
Fig.2. Component outline.
Physical dimensions
Table 1 Capacitor dimensions
L2 and L3
T
L4
MIN.
L1
CASE SIZE
W
MIN.
MAX.
MIN.
MAX.
Dimensions in millimetres
0603
0805
1206
1.6 ±0.10
2.0 ±0.10
3.2 ±0.15
0.8±0.07
1.25 ±0.10
1.6 ±0.15
0.73
0.50
0.50
0.87
1.35
1.75
0.25
0.25
0.25
0.65
0.75
0.75
0.40
0.55
1.40
Dimensions in inches
0603
0805
1206
0.063 ±0.004
0.032 ±0.003
0.049 ±0.004
0.063 ±0.006
0.029
0.020
0.020
0.035
0.053
0.069
0.010
0.010
0.010
0.026
0.030
0.030
0.016
0.022
0.056
0.079 ±0.004
0.126 ±0.006
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
SELECTION CHART
50 V
C
(pF)
LAST TWO DIGITS
OF 12NC
0603
0805
1206
0.47
0.56
0.68
0.82
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
05
06
07
08
09
11
12
13
14
15
16
17
18
19
21
22
23
24
25
26
27
28
29
31
32
0.8 ±0.07
0.6 ±0.1
0.6 ±0.1
12
15
18
22
27
33
39
47
56
68
82
33
34
35
100
120
36
37
Note
1. Values in shaded cells indicate thickness class.
Thickness classification and packing quantities
8 mm TAPE WIDTH QUANTITY PER REEL
QUANTITY
PER BULK CASE
THICKNESS
CLASSIFICATION
(mm)
∅180 mm; 7"
∅330 mm; 13"
PAPER
PAPER
0603
0805
0.6 ±0.1
4000
4000
20000
15000
−
10000
0.8 ±0.07
15000
−
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
ORDERING INFORMATION FOR 50 V
Components may be ordered by using either a Phycomp’s unique 12NC or simple 15-digit clear text code.
Ordering code 12NC (preferred)
2 2 X X X X X X 1 X X X
(1)
Carrier type
Capacitance value
38 paper
54 bulk
Size - Termination
578 0603 Ni-barrier
574 0805 Ni-barrier
576 1206 Ni-barrier
Tolerance
0
1
2
3
4
5
6
±0.1 pF for C < 10 pF
±0.25 pF for C < 10 pF
±0.5 pF for 5 pF C < 10 pF
±1% for C 10 pF
±2% for C 10 pF
±5% for C 10 pF
(2)
Packaging
1
5
4
reel: ∅180 mm; 7"
reel: ∅330 mm; 13"
bulk case
CCA616
±10% for C 10 pF
(1) Refer to chapter “Selection chart”.
(2) Quantity on reel depends on thickness classification, see section “Thickness classification and packing quantities”.
Clear text code
Example: 0805CG100G9B20M
Size
Code
Temp.
Char.
Capacitance
Tol.
Vol. Termination
Packing
Marking
Series
0603 CG = NP0 100 = 10 pF; the B = ±0.1 pF 9 = 50 V B = NiSn
2 = 180 mm; 7" paper 0 = no marking M = micro-
wave
third digit signifies
the multiplying
factor:
0805
1206
C = ±0.25 pF
D = ±0.5 pF
F = ±1 %
3 = 330 mm; 13" paper
P = bulk case
8 = × 0.01
9 = × 0.1
0 = × 1
G = ±2 %
J = ±5 %
K = ±10 %
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
ELECTRICAL CHARACTERISTICS
Class 1 capacitors; NP0 dielectric; NiSn terminations
Unless otherwise stated all electrical values apply at an ambient temperature of 20 ±1 °C, an atmospheric pressure of
86 to 106 kPa, and a relative humidity of 63 to 67%.
DESCRIPTION
VALUE
Capacitance range (E12 series), NP0 dielectric;
note 1:
case size 0603
case size 0805
case size 1206
Tolerance on capacitance
C ≥ 10 pF
0.47 pF to 47 pF
0.47 pF to 82 pF
0.47 pF to 120 pF
±10%, ±5%, ±2% and ±1%
5 pF ≤ C < 10 pF
C < 5 pF
±0.5 pF, ±0.25 pF and ±0.1 pF
±0.25 pF and 0.1 pF
Tan δ; note 1:
C < 10 pF
3
+ 0.7 × 10−4 or 30 × 10−4, whichever is the smallest
≤10
C
C ≥ 10 pF
≤10 × 10−4
Temperature coefficient; note 2:
0.47 pF ≤ C < 5 pF
5 pF ∂ ≤ C < 10 pF
C ≥ 10 pF
(0 ±150) × 10−6/K
(0 ±150) × 10−6/K
(0 ±30) × 10−6/K
High frequency properties
for ESR values see Figs 7, 8 and 9. The first parallel resonance
frequency in the s21 and s12 scattering parameters lies above
2 GHz and the second resonance frequency above 3 GHz.
Notes
1. Measured at 1 V, 1 MHz, using a four-gauge method.
2. For size 0603 all capacitance values from 0.47 pF to 47 pF have a temperature coefficient (0 ±30) × 10−6/K.
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
CCA044
CCA043
10
tan δ
(× 10−4
40
)
TC
(× 10−6/K)
7.5
20
0
−20
−40
5
2.5
0
−40
0
40
80
120
−40
0
40
80
120
T (oC)
T (oC)
Sample limits (broken lines).
Requirement levels (dotted lines).
Fig.3 Typical temperature coefficient as a
function of temperature.
Fig.4 Typical tan δ as a function of temperature.
MLA922
MEA614
4
15
10
10
∆C
C
(%)
f
(MHz)
3
5
0
10
2
Ð 5
10
Ð 10
Ð 15
10
3
2
0
10
20
30
40
50
(V)
1
10
10
10
C (pF)
V
DC
Case sizes 0805 and 1206 (solid line).
Case size 0603 (broken line).
Fig.5 Typical capacitance change with
respect to the capacitance at 1 V
as a function of DC voltage.
Fig.6 Series resonance frequency as a
function of capacitance.
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
MBC389
MBC393
4
4
10
10
ESR
(mΩ)
ESR
(mΩ)
500
MHz
500
MHz
200
MHz
100
MHz
3
2
3
2
10
10
10
200
MHz
100
MHz
10
50
MHz
10
10
3
2
3
2
1
10
10
10
1
10
10
10
C (pF)
C (pF)
Case sizes 0603 and 0805.
Typical values (solid lines).
Case size 1206.
Typical values (solid lines).
Maximum values (broken lines).
Measuring equipment HP4191A.
Maximum values (broken lines).
Measuring equipment HP4191A.
Fig.7 Equivalent series resistance (ESR)
as a function of capacitance.
Fig.8 Equivalent series resistance (ESR) as
a function of capacitance.
MBC392
MBC388 - 1
4
4
10
10
ESR
(mΩ)
Q
500
MHz
200
MHz
100
MHz
3
2
3
2
10
10
10
10
10
10
3
2
3
2
1
10
10
10
1
10
10
10
C (pF)
C (pF)
Case sizes 0603 and 0805.
Typical values (solid lines).
Maximum values (broken lines).
Measuring equipment HP4191A.
Case sizes 0805 and 1206 (solid line).
Case size 0603 (broken line).
Measuring equipment HP4191A.
Fig.9 Typical ESR values at 1 GHz as a
function of the capacitance value
Fig.10 Quality factor (Q) as a function of
the capacitance.
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
MBC391
MBC390 - 1
4
10
10
0805
Q
500
MHz
200
MHz
100
MHz
50
MHz
f
(GHz)
0603
3
2
10
10
1206
10
1
3
2
3
1
10
10
10
2
1
10
10
10
C (pF)
C (pF)
Case sizes 1206.
Typical values (solid lines).
Maximum values (broken line).
Measuring equipment HP4191A.
Case sizes 0603, 0805 and 1206.
First resonant frequency (solid lines).
Second resonant frequency (dotted lines).
Fig.11 Quality factor (Q) as a function of
the capacitance.
Fig.12 Typical first and second parallel resonance
as a function of capacitance.
CCA816
0
insertion
loss
s
21
(dB)
first
0.5
1
second
1.5
2
0
2
4
6
8
10
f (GHz)
Fig.13 Example of the insertion loss as a
function of frequency showing the
parallel resonances.
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
MICROWAVE BEHAVIOUR OF
MULTILAYER CHIP CAPACITORS
C
ESR
L
Multilayer chip capacitors (MLCCs)
from the microwave series are
suitable for use at high frequencies.
At frequencies below the series
resonance frequency, the MLCC can
be represented by an equivalent
circuit as shown in Fig.14.
MEA609
C = capacitance.
ESR = equivalent series resistance which is determined by the energy
dissipation mechanisms (in the dielectric material as well as in the electrodes).
L = equivalent series self-inductance.
In general, the quantities C, ESR
and L are frequency dependent. For
most applications, C and L can be
regarded as frequency independent
below 1 GHz.
Fig.14 Equivalent series representation of an MLCC.
1− (2πf)2LC
The impedance (Z) is given by: Z =
+ ESR
2jπfC
The equivalent series self-
inductance L is:
1− (2πf)2LC
2πfESRC
The quality factor (Q) is given by: Q =
• Independent of the dielectric
material
The frequency region above the SRF is difficult to model using lumped
elements and should be described in terms of a network of transmission
lines. The behaviour of the MLCC in this frequency region can be best
described in terms of scattering or ‘s’ parameters. Knowing these parameters,
one can predict the response of a network accurately. There are four
scattering parameters for a two-port network: s11, s12, s21 and s22:
• Dependent on the size of the
capacitor and is approximately:
− 0.6 nH for case size 0603
− 1 nH for case sizes 0805 and
1206 (these figures are
accurate to within ±20%).
s
11 is the reflection coefficient at the input port with the output port
terminated in a 50 Ω load.
12 is the reverse transmission coefficient in a 50 Ω system.
Because of the inductance L,
associated with the MLCC, there will
be a frequency at which the
s
inductive reactance will be equal to
the reactance of the capacitor.
s21 is the forward transmission coefficient in a 50 Ω system.
s22 is the reflection coefficient at the output port with the input port
This is known as the series
resonance frequency (SRF) and is
given by:
terminated into a 50 Ω load.
When comparing the insertion loss (i.e. s21) of an MLCC at high frequencies
with that of an ideal capacitor, parallel resonances above the SRF are
observed. In series or shunt connections parallel resonances are usually
detrimental to the operation of the circuit. They may be the cause of
unacceptable insertion loss or parasitic oscillations of amplifiers. For the
microwave series, we specify that the first parallel resonance frequency lies
above 2 GHz and the second above 3 GHz. It is found that the typical
insertion loss at the first resonance frequency is more than a factor 5 smaller
than at the second resonance frequency.
1
SRF =
2π LC
At the SRF, the MLCC will appear as
a small resistor. The transmission
loss through the MLCC at this series
resonance frequency will be low.
Using the values of C, L (= 1 nH)
and the ESR at a specific frequency
(f), two often used quantities can be
derived.
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
The high frequency behaviour of our
CMCs is measured in a strip line
configuration as shown in Fig.15
using a test fixture with the following
features:
air
CMC
• Microstrip structure
(dielectric: Al2O3;
thickness: 0.635 mm)
MBC395
substrate
• Suitable for the TRL calibration
method
• De-embedding for the low-
Substrate permittivity: ε = 9.8.
r
frequency range (up to 3 GHz).
Substrate thickness = 0.635 mm.
The measurements are carried out
using the HP 8510B network
analyser.
Fig.15 Microwave behaviour measured using a microstrip.
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
Data sheet status
Objective specification
Preliminary specification
Product specification
This data sheet contains target or goal specifications for product development.
This data sheet contains preliminary data; supplementary data may be published later.
This data sheet contains final product specifications.
Application information
Where application information is given, it is advisory and does not form part of the specification.
LIFE SUPPORT APPLICATIONS
These products are not designed for use in life support appliances, devices, or systems where malfunction of these
products can reasonably be expected to result in personal injury. Phycomp customers using or selling these products
for use in such applications do so at their own risk and agree to fully indemnify Phycomp for any damages resulting
from such improper use or sale.
2003 Jul 21 Rev.4
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Phycomp
Product specification
Surface-mount ceramic
multilayer capacitors
Microwave: Class 1, NP0, NME
50 V
REVISION HISTORY
Revision
Date
Change
Description
Notification
Rev.3
Rev.4
2001 May 30
2003 Jul 21
-
-
- Converted to Phycomp brand
- Updated company logo
2003 Jul 21 Rev.4
13
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