HOLYSTONECAPS SMC

SMC Series - Stacked MLCC Capacitors
SMC Series
Stacked MLCC Capacitors
 Features
 Application
 Power supplies
 DC-DC converters
 Surge protection
 Industrial control circuits
 Snubbers
 Filtering, smoothing and decoupling applications
 HIREL applications
 Custom applications
 Stacked designs offer the high capacitance similar
to tantalum but with the advantage of very low ESR.
 ‘J’, ‘L’ and ‘N’ leaded configurations provide
mechanical and thermal stress relief.
 Capacitance values up to 34µF
 Voltages from 50V to 1000V.
 Available in NP0 and X7R dielectrics.
 HIREL screening available.
 RoHS compliant.
 Summary of Specifications
-55 to +125 ℃
Operating Temperature
Rated Voltage
50Vdc to 1000Vdc
Temperature Coefficient of
Capacitance
NPO : ≤ ± 30ppm/ ℃
X7R : ≤ ± 15%
NPO: 1.0nF to 400nF
Capacitance Range
, -55 to +125 ℃ (EIA Class Ι )
, -55 to +125 ℃ (EIA Class Ⅱ )
X7R : 27nF to 34uF
NPO : Q≧ 1000 at 1KHz
Dissipation Factor
X7R : 2.5%max. at 1KHz
Insulation Resistance
10GΩ or 500/C Ω whichever is smaller
Aging
NPO : 0% , X7R : 2.5% per decade of time
V ≤50V
; 250% Rated Voltage
100V ≤ V <500V ; 200% Rated Voltage
Dielectric Withstand Voltage
500V ≤ V <1KV ; 150% Rated Voltage
1000V = 120% Rated Voltage
± 1% & ± 2% tolerances are only available in NPO
Tolerance
 How To Order
SMC
Product Code
SMC:
Commercial Size
Switchmode Stack
Capacitor
49
J
X
224
K
501
T
H
01
Stack and
Size
Lead
Configuration
Material
Capacitance
(pF)
Tolerance
Rated Voltage Packaging
Special test
Requirement
Special
Requirement
The first digit :
# of chips in
stack
Ex.:
J : J Lead for
h=0.070”
L : L Lead for
h=0.070”
N : Straight Lead
P : J Lead for
h=0.045”
S : L Lead for
h=0.045”
Ex.:
N : NPO
X : X7R
Ex.:
103 : 10x103
224 : 22x104
475 : 47x105
Ex.:
F : +/-1.0%
G : +/-2.0%
J : +/-5.0%
K : +/- 10%
M : +/- 20%
Ex.:
050 :
101 :
201 :
501 :
102 :
Ex.:
S : Standard
electrical test
H : Hi-Rel
Testing
Blank :
No special
requirement
01~99 :
Customer
special
requirement
Second Digit:
Chip Size
5 : 1210
6 : 1812
7 : 2220
8 : 1825
9 : 2225
- 32 -
Ex.:
50Vdc
T : Tape &
100Vdc
Reel
200Vdc W : Waffle
500Vdc
pack
1000Vdc
SMC Series - Stacked MLCC Capacitors
 Dimensions
1210 Size
1825/2225 J Type
1812 Size
1825/2225 L Type
- 33 -
2220 Size
1825/2225 N Type
SMC Series - Stacked MLCC Capacitors
Unit : mm [inches]
EIA Size Code
Size Code
L
W (max.)
H (max.)
S
1210
1812
1825
25
16
26
17
27
18
28
3.80 Max
[.150 Max]
2.90
[.114]
2.15
[.083]
1.65±0.50
[.065±.020]
3.80 Max
[.150 Max]
2.90
[.114]
4.30
[.165]
1.65±0.50
[.065±.020]
1.30 Max
[.051 Max]
1.30 Max
[.051 Max]
5.50 Max
[.217 Max]
4.00
[.157]
2.10
[.083]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.30 Max
[.051 Max]
5.50 Max
[.217 Max]
4.00
[.157]
4.20
[.165]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.30 Max
[.051 Max]
6.50 Max
[.256 Max]
5.50
[.217]
2.10
[.083]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.30 Max
[.051 Max]
6.50 Max
[.256 Max]
5.50
[.217]
4.20
[.165]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.30 Max
[.051 Max]
2.54
[.100]
0.50±0.10
[.020±.004]
5.35±0.50
[.210±.020]
6.85
[.270]
2.54
[.100]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
5.35±0.50
[.210±.020]
6.85
[.270]
5.08
[.200]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
3
3
P
h* (Typical)
2220
15
h* (P/S Type)
2.25±0.1
[.089±.004]
2.25±0.1
[.089±.004]
0.50±0.05
[.020±.002]
0.50±0.05
[.020±.002]
2.54
[.100]
0.50±0.10
[.020±.004]
1
1
2
2
2
2
38
1825
48
58
19
29
2225
39
49
59
5.35±0.50
[.210±.020]
6.85
[.270]
7.62
[.300]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
5.35±0.50
[.210±.020]
6.85
[.270]
10.16
[.400]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
5.35±0.50
[.210±.020]
6.85
[.270]
12.7
[.500]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
6.35±0.50
[.250±.020]
6.85
[.270]
2.54
[.100]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
6.35±0.50
[.250±.020]
6.85
[.270]
5.08
[.200]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
6.35±0.50
[.250±.020]
6.85
[.270]
7.62
[.300]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
6.35±0.50
[.250±.020]
6.85
[.270]
10.16
[.400]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
6.35±0.50
[.250±.020]
6.85
[.270]
12.70
[.500]
1.65±0.50
[.065±.020]
2.54±0.25
[.100±.010]
1.78
[.070]
1.14
[.045]
2.54
[.100]
0.50±0.10
[.020±.004]
3
3
3
3
3
3
3
3
LL** (min.)
t
# of leads per
side
EIA Size Code
Size Code
L
W (max.)
H (max.)
S
P
h* (Typical)
h* (P/S Type)
LL** (min.)
t
# of leads per
side


* ‘h’ varies depends on the lead style. See lead configuration above
** “LL” Applies only to straight (N) leads
 Capacitance Range
EIA
Chip Size
1210
15 (1×Cap)
25 (2×Cap)
1812
16 (1×Cap)
26 (2×Cap)
2220
17 (1×Cap)
27 (2×Cap)
18 (1×Cap)
28 (2×Cap)
1825
38 (3×Cap)
48 (4×Cap)
58 (5×Cap)
19 (1×Cap)
29 (2×Cap)
2225
39 (3×Cap)
49 (4×Cap)
59 (5×Cap)

NPO Maximum Capacitance
Size Code
X7R Maximum Capacitance
50V
100V
200V/250V
500V
1000V
50V
100V
200V/250V
500V
1000V
183
363
293
583
623
124
653
134
194
264
324
813
164
244
324
404
103
203
183
363
543
104
563
114
164
224
284
653
134
194
264
324
822
163
123
243
453
903
473
943
144
184
234
563
114
164
224
284
222
442
822
163
393
783
393
783
114
154
194
473
943
144
184
234
102
204
562
113
123
243
123
243
363
483
603
153
303
453
603
753
125
245
335
665
475
945
475
945
146
186
236
685
136
206
276
346
105
205
155
305
335
665
335
665
995
136
166
475
945
146
186
236
224
444
824
165
155
305
155
305
455
605
755
225
445
665
885
116
683
134
154
304
274
544
274
544
814
105
135
394
784
115
155
195
273
543
683
134
823
164
823
164
244
324
414
104
204
304
404
504
Other stacked configuration with other sizes, capacitance values and voltage rating sare available. Please contact HEC.
*Soldering And Handling Precautions:
The recommended method for soldering large capacitors is reflow soldering. Wave soldering and manual soldering are not recommended.
Ceramic capacitors should be preheated to within 50ºC of the peak soldering temperature and then use a maximum of 2º/second ramp
rate for both heating and cooling. A sudden increase or decrease in temperature during soldering may cause internal thermal cracking.
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