201S42E221JV4E [JOHANSON]
CAPACITOR, CERAMIC, MULTILAYER, 200V, C0G, 0.00022uF, SURFACE MOUNT, 1111, CHIP, ROHS COMPLIANT;型号: | 201S42E221JV4E |
厂家: | JOHANSON TECHNOLOGY INC. |
描述: | CAPACITOR, CERAMIC, MULTILAYER, 200V, C0G, 0.00022uF, SURFACE MOUNT, 1111, CHIP, ROHS COMPLIANT 电容器 |
文件: | 总12页 (文件大小:768K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MULTI-LAYER HIGH-Q CAPACITORS
These lines of multilayer capacitors have been developed for
High-Q and microwave applications.
•
The S-Series (R07S, R14S, R15S) capacitors give an ultra-
high Q performance, and exhibit NP0 temperature characteris-
tics.
•
The L-Series (R05L) capacitors give mid-high Q performance,
and exhibit NP0 temperature characteristics.
•
The E-Series (S42E, S48E, S58E) capacitors give excellent
high-Q performance from HF to Microwave frequencies.
Typical uses are high voltage, high current applications. They
are offered in chip (Ni barrier or Non-Magnetic Pt.-Ag) or in
Non-Magnetic leaded form.
•
RoHS compliance is standard for all unleaded parts (see
termination options box).
•
Automotive versions (AEC-Q200) of R05L, R07S, R14S,
R15S, and S42E series are available on request
HOW TO
ORDER
252
S48
E
470
K
E
-AEC
V
4
WVDC2
250 = 25 V
500 = 50V
201 = 200 V
251 = 250 V
501 = 500 V
102 = 1000 V
152 = 1500 V
252 = 2500 V
362 = 3600 V
722 = 7200 V
CASE SIZE
R05 (0201)
R07 (0402)
R14 (0603)
R15 (0805)
S42 (1111)
S48 (2525)
S58 (3838)
CAPACITANCE (pF)
TOLERANCE
PACKAGING
QUALIFICATION
TERMINATION
1st two digits are
< 10pF
S = Bulk
W = Waffle Pack
0201 - 0603
Y = Paper 5” Reel
T = Paper 7” Reel
AEC-Q200
qualification
Nickel Barrier
V = Ni/Sn (Green)
T = Ni/SnPb
G = Ni/Au (Green)
Non-Mag1
3
significant; third digit
denotes number of
zeros, R = decimalꢀ
A = 0ꢀ05 pF
B = 0ꢀ10 pF
C = 0ꢀ25 pF
D = 0ꢀ50 pF
(optional)
100 = 10 pF
101 = 100 pF
1
R
J
= Paper 13” Reel
= Paper 5” Reel -
1
U = Cu/Sn (Green)
C = Cu/SnPb
≥ 10pF
Horizontally Oriented Electrodes
1
F = 1 ꢁ
G = 2ꢁ
J = 5ꢁ
K = 10ꢁ
N
= Paper 5” Reel -
Vertically Oriented Electrodes
Leaded (All Non-
Mag)1
1 = Microstrip
2 = Axial Ribbon
3 = Axial Wire
4 = Radial Ribbon
5 = Radial Wire
DIELECTRIC
1
S = Ultra High Q NPO
L = High Q NPO
E = Ultra High Q NPO,
High Voltage, High
Power
L = Paper 7” Reel -
Horizontally Oriented Electrodes
1
V
= Paper 7” Reel -
Vertically Oriented Electrodes
For tolerance
availability, see
chartꢀ
Part Number written:
252S48E470KV4E
0805 - 3838
Z = Embossed 5” Reel
E = Embossed 7” Reel
= Embossed 13” Reel
= Embossed 5” Reel -
G = Fully Oriented,
Ultra High-Q NPO
1
U
1
M
Horizontally Oriented Electrodes
1
Q
= Embossed 5” Reel -
MARKING
Vertically Oriented Electrodes
1
G
= Embossed 7” Reel -
3 = Cap Code
Horizontally Oriented Electrodes
& Tolerance
4 = No Marking
6 = EIA Code
1
P
= Embossed 7” Reel -
Vertically Oriented Electrodes
Tape specifications
conform to EIA RS481
(Marking option is only available
on 0805 and larger case sizes)
1 - Not available for all MLCC - Call factory for info.
2 - WVDC - Working Voltage DC.
3 -Qualification required for automotive application, Not available for all series - Call factory for info.
7
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LOW ESR / HIGH-Q CAPACITOR
SELECTION
CHART
RF Power Applications
EIA Size
0201 (R05)
0402
0603
0805
0805
1111
2525
3838
Cap. Value
NPO
NPO
(R07S) (R14S) (R15S) (R15L)
(S42E)
(S48E)
(S58E)
(R05L)
(R05G)
Capacitance
pF
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.0
2.1
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10
Code
0R1
0R2
0R3
0R4
0R5
0R6
0R7
0R8
0R9
1R0
1R1
1R2
1R3
1R4
1R5
1R6
1R7
1R8
1R9
2R0
2R1
2R2
2R4
2R7
3R0
3R3
3R6
3R9
4R3
4R7
5R1
5R6
6R2
6R8
7R5
8R2
9R1
100
110
120
130
150
160
180
200
220
240
270
300
330
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
25 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/250 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
50/200 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
A
B
C
D
A**
B
C
D
11
12
13
15
16
18
20
22
24
27
30
33
F
G
J
K
Consult factory for Non-Standard values.
**A tolerance only available for R07S (0402) and R14S(0603) caps
8
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LOW ESR / HIGH-Q CAPACITOR
SELECTION
CHART
RF Power Applications
EIA Size
0201 (R05)
0402
0603
0805
0805
1111
2525
3838
Cap. Value
NPO
NP0
(R07S) (R14S) (R15S) (R15L)
(S42E)
(S48E)
(S58E)
(R05L)
(R05G)
Capacitance
pF
36
Toler-
ance
Code
360
390
430
470
510
560
620
680
750
820
910
101
111
121
131
151
161
181
201
221
241
271
301
331
361
391
431
471
511
561
621
681
751
821
911
102
122
152
182
222
272
332
392
472
512
103
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
25/50 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
250 V
500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1500V
1000V
1000V
1000V
1000V
1000V
1000V
1000V
600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
2500V
2500V
2500V
2500V
2500V
2500V
2500V
2500V
2500V
2500V
1500V
1500V
1500V
1500V
1500V
1500V
1000V
1000V
1000V
1000V
1000V
1000V
1000V
1000V
1000V
500V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V 7200V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
3600V
2500V
2500V
2500V
2500V
2500V
2500V
2500V
2500V
1000V
1000V
1000V
1000V
1000V
1000V
500V
500V
500V
39
43
47
51
56
62
68
75
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
500V
300V
300V
300V
300V
300V
300V
300V
200V
200V
200V
200V
200V
200V
200V
200V
200V
200V
200V
200V
200V
200V
200V
200V
200V
82
91
F
G
J
100
110
120
130
150
160
180
200
220
240
270
300
330
360
390
430
470
510
560
620
680
750
820
910
1000
1200
1500
1800
2200
2700
3300
3900
4700
5100
10000
K
500V
500V
500V
500V
500V
500V
500V
500V
100V
100V
100V
50V
50V
50V
50V
50V
50V
50V
50V
50V
600V
600V
600V
600V
500V
500V
500V
500V
500V
500V
G
J
500V
300V
300V
K
500V
500V
Consult factory for Non-Standard values.
9
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DIELECTRIC
CHARACTERISTICS
NPO
TEMPERATURE COEFFICIENT:
0
30ppm /°C, -55 to 150°C
QUALITY FACTOR / DF:
Q
>1,000 @ 1KHz (C>1,000pF), Typical 10,000 (C<1,000 pF)
1
INSULATION RESISTANCE:
DIELECTRIC STRENGTH:
>100 GΩ @ 25°C,WVDC ;
125°C IR is 10% of 25°C rating
1
500 V ≤ 2.5 X WVDC Min., 25°C, 50 mA max
1
1000 V ≤ 1.5 X WVDC Min., 25°C, 50 mA max
1
> 1500 = 1 X WVDC Min., 25°C, 50 mA max
TEST PARAMETERS::
AVAILABLE CAPACITANCE:
1MHz 50ꢀHz, 1.0 0.2 VRMS, 25°C
Size 0201: 0.2 - 100 pF
Size 0402: 0.2 - 33 pF
Size 0603: 0.2 - 100 pF
Size 0805: 0.3 - 220 pF
Size 1111: 0.2 - 1000 pF
Size 2525: 1.0 - 2700 pF
Size 3838: 1.0 - 5100 pF
MECHANICAL & ENVIRONMENTAL
CHARACTERISTICS
SPECIFICATION
TEST PARAMETERS
SOLDERABILITY:
Solder coverage ≥ 90% of metalized areas
No termination degradation
Preheat chip to 120°-150°C for 60 sec., dip terminals in rosin flux
then dip in Sn62 solder @ 240° 5°C for 5 1 sec
RESISTANCE TO
SOLDERING HEAT:
No mechanical damage
Preheat device to 80°-100°C for 60 sec.
followed by 150°-180°C for 60 sec.
Dip in 260° 5°C solder for 10 1 sec.
Measure after 24 2 hour cooling period
Capacitance change: 2.5% or 0.25pF
Q>500 I.R. >10 G Ohms
DWV2: 2.5 x WVDC1
TERMINAL
ADHESION:
Termination should not pull off.
Ceramic should remain undamaged.
Linear pull force3 exerted on axial leads soldered to each terminal.
PCB DEFLECTION:
No mechanical damage.
Capacitance change: 5% or
0.5pF whichever is greater.
Glass epoxy PCB: 2 mm deflection
LIFE TEST:
MIL-STD-202, Method 108l
No mechanical damage
Capacitance change: 3.0% or 0.3 pF
Q>500 I.R. >1 G Ohms
DWV2: 2.5 x WVDC1
Applied voltage: 200% of WVDC1 for capacitors rated at 500 volts DC or less.
100% of WVDC1 for capacitors rated at 1250 volts DC or less.
Temperature: 125° 3°C
Test time: 1000+48-0 hours
THERMAL CYCLE:
No mechanical damage.
5 cycles of: 30 3 minutes @ -55°+0/-3°C,
2-3 min. @ 25°C, 30 3 min. @ +125°+3/-0°C,
2-3 min. @ 25°C
Capacitance change: 2.5% or 0.25pF
Q>2000 I.R. >10 G Ohms
DWV2: 2.5 x WVDC1
Measure after 24 2 hour cooling period
HUMIDITY,
STEADY STATE:
No mechanical damage.
Relative humidity: 90-95%
Temperature: 40° 2°C
Test time: 500 +12/-0 Hours
Measure after 24 2 hour cooling period
Capacitance change: 5.0% or 0.50pF max.
Q>300 I.R. ≥ 1 G-Ohm
DWV2: 2.5 x WVDC1
HUMIDITY,
LOW VOLTAGE:
No mechanical damage.
Applied voltage: 1.5 VDC, 50 mA max.
Relative humidity: 85 2% Temperature: 40° 2°C
Test time: 240 +12/-0 Hours
Capacitance change: 5.0% or 0.50pF max.
Q>300 I.R. = 1 G-Ohm min.
DWV2: 2.5 x WVDC1
Measure after 24 2 hour cooling period
VIBRATION:
No mechanical damage.
Capacitance change: 2.5% or 0.25pF
Q>1000 I.R. ≥ 10 G-Ohm
DWV2: 2.5 x WVDC1
Cycle performed for 2 hours in each of three perpendicular directions
Frequency range 10Hz to 55 Hz to 10 Hz traversed
in 1 minute. Harmonic motion amplitude: 1.5mm
1 - WVDC - Working Voltage DC.
2 - DWV - Dielectric Withstanding Voltage.
3 - 0402 ≥ 2.0lbs, 0603 ≥ 4.0lbs (min).
4 - Whichever is less.
AEC-Q200: Qualification required for automotive application - Not available for all series - Call factory for info.
10
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MECHANICAL
CHARACTERISTICS
Size
Units
In
Length
Width
Thickness
End Band
ꢀ024 ꢀ001 ꢀ012 ꢀ001
(0ꢀ60 0ꢀ03) (0ꢀ30 0ꢀ03)
ꢀ040 ꢀ004 ꢀ020 ꢀ004
(1ꢀ02 0ꢀ1) (0ꢀ51 0ꢀ1)
ꢀ012 ꢀ001
ꢀ008 Maxꢀ
EIA 0201
Metric (0603)
EIA 0402
Metric (1005)
EIA 0603
mm
In
(0ꢀ30 0ꢀ03) (0ꢀ20 Maxꢀ)
ꢀ020 ꢀ004 ꢀ010 ꢀ006
(0ꢀ51 0ꢀ1) (0ꢀ25 ꢀ15)
mm
In
ꢀ062 ꢀ006 ꢀ032 ꢀ006 ꢀ030 +ꢀ005/-ꢀ003 ꢀ014 ꢀ006
mm
In
(1ꢀ57 0ꢀ15) (0ꢀ81 0ꢀ15)
ꢀ080 ꢀ008 ꢀ050 ꢀ008
(2ꢀ03 0ꢀ20) (1ꢀ27 0ꢀ20)
(0ꢀ76 +ꢀ13-ꢀ08) (0ꢀ35 ꢀ15)
ꢀ040 ꢀ006 ꢀ020 ꢀ010
(1ꢀ02 ꢀ15) (0ꢀ50 ꢀ25)
Metric (1608)
EIA 0805
Metric (2012)
mm
HORIZONTAL AND
VERTICLE
ORIENTED
CAPACITORS
Horizontal Electrode Orientation
Vertical Electrode Orientation
APPLICATIONS & FEATURES
Size:
EIA 0201, 0805, 1111
Performance:
Termination:
Applications:
SRF’s up to 20 GHz, Ultra High Q, Tight tolerance, Ultralow ESR
Ni/Au, Ni/Sn, Ni/SnPb
High Frequency Wireless Communications, Portable Wireless Products, Battery Powered
Products
RoHS Compliant
BENIFITS OF USING
ORIENTED
CAPACITORS
• Consistent Orientation - Improved repeatability of production circuits.
• Consistent Orientation - More consistent filter performance.
• Vertical Orientation - The elimination of parallel frequencies.
• Vertical Orinetation - Lower inductance for a given capacitor.
• Horizontal Orientation - Lower coupling between adjacent capacitors.
11
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E-SERIES
TERMINATIONS AND
LEADS
CHIP DIMENSIONS
For all E-Series Models:
Termination
Size
Units
In
mm
In
mm
In
mm
L
Tol
W
Tol
T
E / B
Tol
0.110 +.020 -.010 0.110 +/- .015 0.102 Max. 0.015 Typ. +/- 0.008
2.79 +0.51 -0.25 2.79 +/- 0.38 2.59 Max. 0.38 Typ. +/- 0.20
0.230 +.025 -.010 0.250 +/- .015 0.150 Max. 0.025 Typ.
5.84 +0.63 -0.25 6.35 +/- 0.38 3.81 Max. 0.63 Typ.
0.380 +.015 -.010 0.380 +/- .010 0.170 Max. 0.025 Typ.
OPERATING TEMP. :
INSULATION RESISTANCE:
TEMPERATURE COEFFICIENT:
-55 to +125°C
>10G Ω @ 25°C
S42E
V,T
U,C
0
30ppm /°C, -55 to
S48E
S58E
125°C
DISSIPATION FACTOR (TYP.):
< 0.05% @ 1 MHz
9.65 +0.38 -0.25 9.65
+/- 0.25 4.32 Max. 0.63 Typ.
Drawings not to scale
Unleaded Termination Codes “V” (Ni/Sn),
“T” (Ni/SnPb), “U” (Cu/Sn non-mag), “C”
(Cu/SnPb non-mag)
Microstrip Ribbon Leads (Non-Magnetic),
Termination Code “1”
Axial Ribbon Leads (Non-Magnetic), Termi-
nation Code “2”
e
e
W
L
X
X
E/B
T
LL
LL
LL
LL
Axial Wire Leads (Non-Magnetic),
Termination Code “3”
Radial Ribbon Leads (Non-Magnetic), Ter-
mination Code “4”
Radial Wire Leads (Non-Magnetic),
Termination Code “5”
e
e
LL
LL
X
T
LL
LL
W
W
LL
LL
T
W
X
X
LL
e
e
Lead
Size LL(min)
X
Tol
e
e-Tol
Lead
Size LL(min)
X
Tol
e
e-Tol
0.25
0.093 +/-0.005 0.004
+/- 0.002
0.352
0.093 +/-0.005 0.004
+/- 0.002
S42E
S48E
S58E
S42E
S48E
S58E
S42E
S48E
S58E
S42E
6.40
0.394
10.0
2.36
0.217
5.5
+/- 0.13
+/- 0.02
+/- 0.50
+/- 0.02
+/- 0.50
0.102
0.009
0.220
0.010
0.250
+/- 0.051
8.90
2.36
0.217
5.50
0.35
8.90
+/- 0.13
+/- 0.02
+/- 0.50
+/- 0.02
+/- 0.50
0.102
0.009
0.220
0.010
0.25
+/- 0.051
- 0.0019/+ 0.0031
- 0.050/+ 0.080
- 0.0019/+ 0.0039
- 0.050/+ 0.100
+/- 0.002
0.501
- 0.0019/+ 0.0031
- 0.050/+ 0.080
- 0.0019/+ 0.0039
- 0.050/+ 0.100
1
4
S48E
12.70
0.748
19.00
0.25
0.35
8.90
0.886
S58E
22.50
0.093 +/-0.005 0.004
0.25
S42E
6.40
2.36
0.217
5.50
0.35
8.90
+/- 0.13
+/- 0.02
+/- 0.50
+/- 0.02
+/- 0.50
0.102
0.009
0.220
0.010
0.25
+/- 0.051
6.40
0.394
10.00
0.748
19.00
0.25
- 0.0019/+ 0.0031
- 0.050/+ 0.080
- 0.0019/+ 0.0039
- 0.050/+ 0.100
0.394
0.020in (0.511) diameter wire
2
3
5
S48E
10.00
0.748
S58E
19.00
6.40
0.394
10.00
0.748
19.00
0.020in (0.511) diameter wire
12
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RF CHARACTERISTICS - 0201 R05L SERIES More data at: https://jtisoft.johansontechnology.com
Resonant Frequency : 0201/R05L
0201 R05L Equivalent Series Resistance (ESR)
300
250
200
150
100
50
100
10
1
Typical values of SRF with:
.
.
.
Series mounting
Horizontal orientation
14 mil-thick FR4 substrate
SRF
3.0 pF
10 pF
33 pF
56 pF
100 pF
Typical values
0
0
500
1000
1500
2000
1
10
Capacitance value (pF)
100
Freq (MHz)
The Series Resonant Frequency is highly dependent on the substrate,
pad dimensions, and measurement method. The above chart is for
reference only.
0201 R05L Q factor
0201 R05L Max Current
10000
3
2.5
2
Estimated maximum current based on
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on
substrate = 300°C/W
Infinite heatsink
.
.
1000
Duty cycle=100%
3 pF
3.0 pF
10 pF
33 pF
56 pF
100 pF
1.5
1
10 pF
33 pF
56 pF
100 pF
100
10
1
0.5
0
0
500
1000
1500
2000
Freq (MHz)
0
500
1000
1500
2000
Freq (MHz)
RF CHARACTERISTICS - 0402 R07S SERIES More data at: https://jtisoft.johansontechnology.com
0402 R07S Series Resonant frequency
0402 R07S Equivalent Series Resistance (ESR)
250
200
150
100
50
Typical values of SRF with:
.
.
.
Series mounting
Horizontal orientation
16 mil-thick Rogers 4003 substrate
10
2.2 pF
5.6 pF
10 pF
15 pF
33 pF
SRF
Typical values
0
0
500
1000
1500
2000
1
Freq (MHz)
0.1
1
10
Capacitance value (pF)
The Series Resonant Frequency is highly dependent on the substrate, pad
dimensions, and measurement method. The above chart is for reference only.
13
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RF CHARACTERISTICS 0402 R07S SERIES More data at: https://jtisoft.johansontechnology.com
0402 R07S Max Current
0402 R07S Q factor
5
4.5
4
10000
1000
100
10
Estimated maximum current based on
.
.
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on substrate = 120°C/W
Infinite heatsink
Duty cycle=100%
3.5
3
33 pF
15 pF
10 pF
5.6 pF
2.2 pF
2.2 pF
5.6 pF
10 pF
15 pF
33 pF
2.5
2
1.5
1
0.5
0
Typical values
1
0
500
1000
1500
2000
0
500
1000
1500
2000
Freq (MHz)
Freq (MHz)
RF CHARACTERISTICS 0603 R14S SERIES More data at: https://jtisoft.johansontechnology.com
0603 R14S Series Resonant frequency
0603 R14S Equivalent Series Resistance (ESR)
100
10
1
Typical values of SRF with:
280
240
200
160
120
80
.
.
.
Series mounting
Horizontal orientation
16 mil-thick Rogers 4003 substrate
2.0 pF
4.7 pF
10 pF
39 pF
75 pF
100 pF
SRF
40
Typical values
0
0
500
1000
1500
2000
Freq (MHz)
0.1
1
10
100
Capacitance value (pF)
The Series Resonant Frequency is highly dependent on the substrate,
pad dimensions, and measurement method. The above chart is for
reference only.
0603 R14S Max Current
0603 R14S Q factor
10000
8
7
6
5
4
3
2
1
0
Estimated maximum current based on
.
.
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on substrate = 60°C/W
Infinite heatsink
2.0 pF
1000
Duty cycle=100%
100 pF
75 pF
39 pF
10 pF
4.7 pF
2.0 pF
4.7 pF
10 pF
100
39 pF
75 pF
10
1
100 pF
Typical values
0
500
1000
1500
2000
0
500
1000
Freq (MHz)
1500
2000
Freq (MHz)
14
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RF CHARACTERISITCS - 0805 R15S SERIES More data at: https://jtisoft.johansontechnology.com
0805 R15S Equivalent Series Resistance (ESR)
0805 R15S Series Resonant frequency
300
250
200
150
100
50
Typical values with:
0.3 pF
2.0 pF
4.7 pF
10 pF
39 pF
75 pF
100 pF
220 pF
.
.
.
Series mounting
Horizontal orientation
16 mil-thick Rogers 4003C substrate
10
SRF
Typical values
0
0
500
1000
1500
2000
1
Freq (MHz)
1
10
Capacitance value (pF)
100
The Series Resonant Frequency is highly dependent on the substrate,
pad dimensions, and measurement method. The above chart is for
reference only.
Effective capacitance value: 0805/R15S
0805 R15S Q factor
10000
400
350
300
250
200
150
100
50
0.3 pF
Typical values on a 16 mil RO4003C
2.0 pF
4.7 pF
10 pF
39 pF
75 pF
100 pF
220 pF
1000
100
10
C(1 MHz) = 220 pF
C(1 MHz) = 100 pF
C(1 MHz) = 56 pF
Typical values
1
0
0
500
1000
1500
2000
0
200 400 600 800 1000 1200 1400 1600 1800 2000
Freq (MHz)
Freq (MHz)
0805 R15S Max Current vs. Cap. Value
0805 R15S Max Current vs. Frequency
Estimated maximum current based on
Estimated maximum current based on
100
10
8
.
.
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on substrate = 40°C/W
Infinite heatsink
.
.
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on substrate = 40°C/W
Infinite heatsink
220 pF
100 pF
75 pF
39 pF
10 pF
4.7 pF
2.0 pF
0.3 pF
300 MHz
128 MHz
100 MHz
64 MHz
27 MHz
13 MHz
7 MHz
Duty cycle=100%
Duty cycle=100%
10
1
6
4
2
0.1
0.01
0
0
500
1000
1500
2000
Freq (MHz)
0.1
1
10
100
Capacitance value (pF)
15
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RF CHARACTERISTICS - 1111 S24E SERIES More data at: https://jtisoft.johansontechnology.com
1111 S42E Series Resonant frequency
1111 S42E Equivalent Series Resistance (ESR)
300
250
200
150
100
50
Typical values with:
.
.
.
Series mounting
Horizontal orientation
60 mil-thick Rogers 4350B substrate
10
1
1.2 pF
4.7 pF
10 pF
SRF
33 pF
100 pF
300 pF
Typical values
0
0
500
1000
1500
2000
0.1
1
10
100
1000
Freq (MHz)
Capacitance value (pF)
The Series Resonant Frequency is highly dependent on the substrate,
pad dimensions, and measurement method. The above chart is for
reference only.
1111 S42E Q factor
Effective capacitance value: 1111/S42E
10000
400
350
300
250
200
150
100
50
S42E
Typical values on a 60-mil thick
Rogers 4350B substrate
0.2 pF
1.2 pF
4.7 pF
10 pF
1000
100
10
C(1 MHz) = 300pF
C(1 MHz) = 100 pF
C(1 MHz) = 10 pF
33 pF
100 pF
300 pF
Typical values
0
1
0
500
1000
1500
2000
0
500
1000
1500
2000
Freq (MHz)
Freq (MHz)
1111 S42E Max Current vs. Frequency
1111 S42E Max Current vs. Capacitance Value
20
18
16
14
12
10
8
1000
Estimated maximum current based on
Estimated maximum current based on
.
.
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on substrate = 20°C/W
Infinite heatsink
.
.
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on substrate = 20°C/W
Infinite heatsink
300 pF
100
10
Duty cycle=100%
Duty cycle=100%
100 pF
33 pF
10 pF
4.7 pF
1.2 pF
0.2 pF
200 MHz
100 MHz
40 MHz
15 MHz
7 MHz
1
6
4
2
0.1
0.01
0
0
500
1000
1500
2000
Freq (MHz)
0.1
1
10
100
1000
Capacitance value (pF)
16
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RF CHARACTERISTICS - 2525 S48E SERIES More data at: https://jtisoft.johansontechnology.com
2525 S48E Equivalent Series Resistance (ESR)
2525 S48E Series Resonant Frequency
140
120
100
80
10
Typical values of SRF when
measured on a 8720C VNA
using a shunt-through fixture
10 pF
22 pF
33 pF
130 pF
470 pF
60
1
40
20
Typical values
SRF
0
0
50
100
150
200
250
300
0.1
Freq (MHz)
1
10
100
1000
Capacitance (pF)
The Series Resonant Frequency is highly dependent on the substrate,
pad dimensions, and measurement method. The above chart is for
reference only.
2525 S48E Q factor
2525 S48E Max Current vs. Frequency
20
10000
Estimated maximum current based on
.
.
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on substrate = 15°C/W
Infinite heatsink
18
16
14
12
10
8
Duty cycle=100%
1000
470 pF
10 pF
130 pF
33 pF
22 pF
10 pF
22 pF
100
10
1
33 pF
6
130 pF
470 pF
4
2
0
Typical values
0
50
100
150
200
250
300
0
50
100
150
200
250
300
Freq (MHz)
Freq (MHz)
17
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RF CHARACTERISTICS - 3838 S58E SERIES
3838 S58E Series Resonant frequency
3838 S58E Equivalent Series Resistance (ESR)
10
180
160
140
120
100
80
Typical values of SRF when
measured on a 8720C VNA
using a shunt-through fixture
1
10 pF
47 pF
0.1
60
180 pF
1000 pF
40
20
SRF
Typical values
0
0.01
0
50
100
150
200
250
300
1
10
100
1000
Freq (MHz)
Capacitance (pF)
The Series Resonant Frequency is highly dependent on the substrate,
pad dimensions, and measurement method. The above chart is for
reference only.
3838 S58E Max Current vs. Frequency
3838 S58E Q factor
10000
Estimated maximum current based on
.
.
.
.
Ambient temperature = 65 °C
Thermal resistance of DUT on substrate = 12°C/W
Infinite heatsink
20
15
10
5
Duty cycle=100%
1000
10 pF
10 pF
100
47 pF
47 pF
180 pF
1000 pF
180 pF
10
1000 pF
Typical values
0
1
0
50
100
150
200
250
300
0
50
100
150
200
250
300
Freq (MHz)
Freq (MHz)
18
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