SMX23A245KAP240 [KYOCERA AVX]
Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, C0G, 30ppm/Cel TC, 2.4uF, Surface Mount, CHIP;型号: | SMX23A245KAP240 |
厂家: | KYOCERA AVX |
描述: | Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, C0G, 30ppm/Cel TC, 2.4uF, Surface Mount, CHIP 电容器 |
文件: | 总4页 (文件大小:857K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SMPS Stacked MLC Capacitors
SMX Style for High Temperature Applications up to 200ºC
SMX-style, stacked Switch Mode Power Supply Capacitors (SMPS) utilizing
Multilayer Ceramic (MLCC) construction are ideally suited for high temperature
applications up to 200ºC. This product is intended for downhole oil exploration,
including logging while drilling, geophysical probes, as well as space and aerospace
electronics. The high temperature solder utilized in the construction of SMX-style
parts assures reliable operation in harsh environments. The wide product offering
provides designers a solution for high capacitance value and high voltage capaci-
tors rated at 200ºC. The SMX-style capacitors are ideally suited for applications as
DC filters in high power, high frequency motor drives, high pulsed-current circuitry,
as well as low power electronics.
SMX-style, SMPS capacitors are characterized with excellent performance in
comparison to wet tantalum products. The main benefits of SMX-product over wet
tantalum capacitors include:
• Much lower ESR and lower losses
• Excellent capacitance retention with frequency
• Excellent high frequency performance
• Low DC leakage current
• Much higher current handling capabilities
Typical Extended Temperature TCC
Characterization of C0G, SMPS Capacitors
Typical Extended Temperature TCC
Characterization of X7R/X9U, SMPS Capacitors
Test conditions: 1 Vrms, 1 kHz, 0 VDC bias
Test conditions: 1 Vrms, 1 kHz, 0 VDC bias
1.0
0.8
20
0
0.6
-20
-40
-60
-80
-100
0.4
0.2
0.0
-0.2
-0.4
-0.6
-0.8
-1.0
-75
-50
-25
0
25
50
75
100
125
150 175
200
Temperature (ºC)
-75
-50
-25
0
25
50
75
100
125
150
175
200
Temperature (ºC)
Typical Extended Temperature IR Characterization of
C0G, SMPS Capacitors
Typical Extended Temperature IR Characterization of
X7R/X9U, SMPS Capacitors
10000
1000
100
10000
1000
100
10
10
1
120
130
140
150
160
170
180
190
200
120
130
140
150
160
170
180
190
200
Temperature (ºC)
Temperature (ºC)
29
SMPS Stacked MLC Capacitors
SMX Style for High Temperature Applications up to 200ºC
ELECTRICAL SPECIFICATIONS
Temperature Coefficient
C0G:
A Temperature Coefficient
0 ±±0 ppmꢀ/C, -ꢁꢁ/ to ꢂ200/C
±ꢃꢁ5, -ꢁꢁ/C to ꢂꢃ2ꢁ/C
X7RꢀX9U: C Temperature Coefficient
ꢂꢃꢁ5 - ꢁ65, -ꢁꢁºC to ꢂ200/C
Capacitance Test (MIL-STD-202 Method ±0ꢁ)
2ꢁ/C, ꢃ.0±0.2 ꢄrms (open circuit voltage) at ꢃKHz
Dissipation Factor 25°C
C0G:
0.ꢃꢁ5 Max @ 2ꢁ/C, ꢃ.0±0.2 ꢄrms (open circuit voltage) at ꢃKHz
X7RꢀX9U: 2.ꢁ5 Max @ 2ꢁ/C, ꢃ.0±0.2 ꢄrms (open circuit voltage) at ꢃKHz
Insulation Resistance 25°C (MIL-STD-202 Method ±02)
ꢃ00K MΩ or ꢃ000 MΩ-µF, whichever is less.
Insulation Resistance 125°C (MIL-STD-202 Method ±02)
ꢃ0K MΩ or ꢃ00 MΩ-µF, whichever is less.
Insulation Resistance 200°C (MIL-STD-202 Method ±02)
ꢃ00 MΩ or ꢃ MΩ -µF, whichever is less.
Dielectric Withstanding Voltage 25°C (Flash Test)
2ꢁ05 rated voltage for ꢁ seconds with ꢁ0 mA max
charging current. (ꢁ00 ꢄolt units @ 7ꢁ0 ꢄDC)
Moisture Resistance (MIL-STD-202 Method ꢃ06)
Ten cycles with no voltage applied.
Thermal Shock (MIL-STD-202 Method ꢃ07, Condition A)
Immersion Cycling (MIL-STD-202 Method ꢃ04, Condition B)
Resistance To Solder Heat (MIL-STD-202, Method 2ꢃ0,
Condition B, for 20 seconds)
HOW TO ORDER
AVX Styles: SMX1, SMX2, SMX3, SMX4, SMX5, SMX6
SMX
1
7
C
106
M
A
N
650
AVX Style
SMX = Uncoated
Size
See
Dimensions
chart
Voltage Temperature
Capacitance
Code
Capacitance
Tolerance
C0G:
Test Level
A = Standard
Termination
N = Straight Lead
J = Leads formed in
L = Leads formed out
P = P Style Leads
Z = Z Style Leads
Height
Max
2ꢁ = ± Coefficient
ꢁ0ꢄ = ꢁ
C0G = A (2 significant digits
Dimension “A”
ꢃ20 = 0.ꢃ20"
240 = 0.240"
±60 = 0.±60"
480 = 0.480"
6ꢁ0 = 0.6ꢁ0"
ꢃ00ꢄ = ꢃ X7RꢀX9U = C ꢂ number of zeros)
J = ±ꢁ5
200ꢄ = 2
ꢁ00ꢄ = 7
ꢃ0 pF = ꢃ00
ꢃ00 pF = ꢃ0ꢃ
ꢃ,000 pF = ꢃ02
22,000 pF = 22±
220,000 pF = 224
ꢃµF = ꢃ0ꢁ
K = ±ꢃ05
M = ±205
X7R:
K = ±ꢃ05
M = ±205
Z = ꢂ805, -205
ꢃ0 µF = ꢃ06
ꢃ00 µF = ꢃ07
Note: Capacitors with X7RꢀX9U dielectric is not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations.
30
SMPS Stacked MLC Capacitors
SMX Style for High Temperature Applications up to 200ºC
CHIP SEPARATION
CHIP SEPARATION
0.254 (0.010) TYP.
0.254 (0.010) TYP.
CAPACITOR
D
E
E
1.651 0.254
(0.065 0.010)
4.191 0.254
(0.165 0.010)
1.397 (0.055)
0.254 (0.010)
R 0.508
(0.020)
3 PLACES
2.540 0.254
(0.100 0.010)
A
B
B
DETAIL A
6.350 (0.250) MIN
0.254
(0.010)
TYP.
0.508 (0.020) TYP.
6.35
(0.250)
MIN.
0.254
(0.010)
TYP.
2.54 (0.100) TYP.
1.016 0.254
(0.040 0.010)
C
C
2.54 (0.100) MAX.
0.635 (0.025) MIN.
DETAIL A
“N” STYLE LEADS
“P” STYLE LEADS
CHIP SEPARATION
0.254 (0.010) TYP.
CHIP SEPARATION
0.254 (0.010) TYP.
D
E
E
0.254 (0.010)
RAD. (TYP.)
0.254 (0.010)
RAD. (TYP.)
1.397 (0.055)
0.254 (0.010)
A
B
0.254 (0.010)
TYP.
0.254 (0.010)
TYP.
1.905 (0.075)
0.635 (0.025)
TYP.
1.905 (0.075)
0.635 (0.025)
TYP.
1.778 (0.070)
0.254 (0.010)
1.778 (0.070)
0.254 (0.010)
0.508 (0.020) TYP.
2.54 (0.100) TYP.
C
C
2.54 (0.100) MAX.
0.635 (0.025) MIN.
“J” STYLE LEADS
“L” STYLE LEADS
CHIP SEPARATION
0.254 (0.010) TYP.
E
D
RAD.
0.254
(0.010)
(TYP)
1.397 (0.055)
0.254 (0.010)
A
B
1.778 0.254
(0.070 0.010)
C
0.508 (0.020) TYP.
2.54 (0.100) TYP.
3.048 0.381
(0.120 0.015)
DETAIL B
2.54 (0.100) MAX.
0.635 (0.025) MIN.
DETAIL B
“Z” STYLE LEADS
millimeters (inches)
No. of Leads
DIMENSIONS
Style
A (max.)
B (max.)
C
.635 ( 0.025)
D
.635 ( 0.025)
E (max.)
per side
SMX1
SMX2
SMX3
SMX4
SMX5
SMX6
ꢃꢃ.4 (0.4ꢁ0)
20.± (0.800)
ꢃꢃ.4 (0.4ꢁ0)
ꢃ0.2 (0.400)
6.±ꢁ (0.2ꢁ0)
±ꢃ.8 (ꢃ.2ꢁ0)
ꢁ2.ꢃ (2.0ꢁ0)
±8.4 (ꢃ.ꢁꢃ0)
26.7 (ꢃ.0ꢁ0)
ꢃ0.2 (0.400)
6.±ꢁ (0.2ꢁ0)
ꢁ2.ꢃ (2.0ꢁ0)
ꢃ2.7 (0.ꢁ00)
22.ꢃ (0.870)
ꢃ2.7 (0.ꢁ00)
ꢃꢃ.2 (0.440)
7.62 (0.±00)
±4.± (ꢃ.±ꢁ0)
20
ꢃꢁ
ꢃ0
4
±
20
For “N” Style Leads: “A” Dimension Plus 1.651 (0.065)
For “J” & “L” Style Leads: “A” Dimension Plus 2.032 (0.080)
For “P” Style Leads: “A” Dimension Plus 4.445 (0.175)
For “Z” Style Leads: “A” Dimension Plus 3.048 (0.120)
See page 32 for
maximum “A”
Dimension
31
SMPS Stacked MLC Capacitors
SMX Style for High Temperature Applications up to 200ºC
Max Capacitance (µF) Available Versus Style with Height (A) of 0.120" - 3.05mm
SMX1 _ _ _ _ _ _ AN120
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
ꢃ.0 .70 .40 .ꢃ8 .068 ꢃ.2 ꢃ.0 .60 .26 .ꢃ0 .ꢁ0 .40 .20 .09 .0±± .ꢃ6 .ꢃ± .07 .02 .0ꢃ .0ꢁ .04 .02 .0ꢃ .00±9 ±.2 2.4 ꢃ.± .ꢁ0 .20
ꢃꢃ 4.0 ꢃ.ꢁ ꢃꢃ 6.0 ±.6 ꢃ.± .ꢁ0 ±.± ꢃ.8 ꢃ.ꢃ .40 .ꢃꢁ ꢃ.2 .68 .40 .ꢃ6 .0ꢁ6 68 40 24 9.4 ±.±
SMX2 _ _ _ _ _ _ AN120
SMX3 _ _ _ _ _ _ AN120
SMX4 _ _ _ _ _ _ AN120
S
MX5 _ _ _ _ _ _ AN120
SMX6 _ _ _ _ _ _ AN120
AVX
STYLE
C0G
X7R/X9U 22 ꢃ2 7.0 2.6 ꢃ.0 ±± ꢃ8
Max Capacitance (µF) Available Versus Style with Height (A) of 0.240" - 6.10mm
SMX1 _ _ _ _ _ _ AN240
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
2.0 ꢃ.4 .80 .±6 .ꢃ± 2.4 2.0 ꢃ.2 .ꢁ2 .20 ꢃ.0 .80 .40 .ꢃ8 .068 .±± .26 .ꢃ4 .0ꢁ .02 .ꢃ0 .08 .0ꢁ .02 .0078 6.4 4.8 2.6 ꢃ.0 .40
ꢃ4 ꢁ.2 2.0 66 ±6 22 8.0 ±.0 22 ꢃ2 7.2 2.6 ꢃ.0 6.6 ±.6 2.2 .80 .±0 2.4 ꢃ.± .80 .±2 .ꢃꢃ0 ꢃ±0 80 48 ꢃ8 6.6
SMX2 _ _ _ _ _ _ AN240
SMX3 _ _ _ _ _ _ AN240
SMX4 _ _ _ _ _ _ AN240
S
MX5 _ _ _ _ _ _ AN240
SMX6 _ _ _ _ _ _ AN240
AVX
STYLE
C0G
X7R/X9U 44 24
Max Capacitance (µF) Available Versus Style with Height (A) of 0.360" - 9.14mm
SMX1 _ _ _ _ _ _ AN360
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
±.0 2.ꢃ ꢃ.2 .ꢁ4 .22 ±.6 ±.0 ꢃ.8 .78 .±0 ꢃ.ꢁ ꢃ.2 .60 .27 .ꢃ0 .48 .±9 .2ꢃ .07 .0± .ꢃꢁ .ꢃ2 .07 .0± .0ꢃꢃ ꢃ0 7.2 ±.9 ꢃ.ꢁ .60
2ꢃ 7.8 ±.0 ꢃ00 ꢁ4 ±± ꢃ2 4.ꢁ ±± ꢃ8 ꢃ0 ±.9 ꢃ.ꢁ ꢃ0 ꢁ.4 ±.± ꢃ.2 .47 ±.6 2.0 ꢃ.2 .48 .ꢃ60 200 ꢃ20 72 28 ꢃ0
SMX2 _ _ _ _ _ _ AN360
SMX3 _ _ _ _ _ _ AN360
SMX4 _ _ _ _ _ _ AN360
S
MX5 _ _ _ _ _ _ AN360
SMX6 _ _ _ _ _ _ AN360
AVX
STYLE
C0G
X7R/X9U 68 ±6
Max Capacitance (µF) Available Versus Style with Height (A) of 0.480" - 12.2mm
SMX1 _ _ _ _ _ _ AN480
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
4.0 2.8 ꢃ.6 .72 .27 4.8 4.0 2.2 ꢃ.0 .40 2.0 ꢃ.6 .80 .±6 .ꢃ±0 .64 .ꢁ2 .28 .ꢃ0 .04 .20 .ꢃ6 .ꢃ0 .04 .0ꢃꢁ ꢃ± 9.6 ꢁ.2 2.0 .80
28 ꢃ0 4.0 ꢃ±0 72 44 ꢃ6 6.0 44 24 ꢃ4 ꢁ.2 2.0 ꢃ± 7.2 4.4 ꢃ.6 .60 4.8 2.7 ꢃ.6 .64 .22 270 ꢃ60 96 ±7 ꢃ±
SMX2 _ _ _ _ _ _ AN480
SMX3 _ _ _ _ _ _ AN480
SMX4 _ _ _ _ _ _ AN480
S
MX5 _ _ _ _ _ _ AN480
SMX6 _ _ _ _ _ _ AN480
AVX
STYLE
C0G
X7R/X9U 88 48
Max Capacitance (µF) Available Versus Style with Height (A) of 0.650" - 16.5mm
SMX1 _ _ _ _ _ _ AN650
25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V
ꢁ.0 ±.ꢁ 2.0 .90 .±4 6.0 ꢁ.0 ±.0 ꢃ.± .ꢁ0 2.ꢁ 2.0 ꢃ.0 .4ꢁ .ꢃ60 .82 .6ꢁ .±ꢁ .ꢃ2 .0ꢁ .2ꢁ .20 .ꢃ2 .0ꢁ .0ꢃ9 ꢃ6 ꢃ2 6.ꢁ 2.ꢁ ꢃ.0
.80 .28 ±40 200 ꢃ20 47 ꢃ6
SMX2 _ _ _ _ _ _ AN650
SMX3 _ _ _ _ _ _ AN650
SMX4 _ _ _ _ _ _ AN650
S
MX5 _ _ _ _ _ _ AN650
SMX6 _ _ _ _ _ _ AN650
AVX
STYLE
C0G
X7R/X9U ꢃꢃ0 60
±ꢁ
ꢃ± ꢁ.0 ꢃ60 90
ꢁꢁ
20 7.ꢁ ꢁ6
±0
ꢃ8 6.ꢁ 2.ꢁ ꢃ6
9.0 ꢁ.ꢁ 2.0 .80 6.0 ±.4 2.0
32
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