Ceramic Capacitors - API Tech · 2020. 11. 30. · MIL-STD-202, Method 305 MIL-STD-202, Method 305...
Transcript of Ceramic Capacitors - API Tech · 2020. 11. 30. · MIL-STD-202, Method 305 MIL-STD-202, Method 305...
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Ceramic Capacitors
APITech offers performance and cost alternatives to meet varied voltage, capacitance, packaging, and budgetary requirements.
APITech’s ExpertiseInside every EMI filter is a ceramic feedthrough capacitor. APITech’s line of ceramic capacitors is designed to provide solutions to a wide range of filtering applications. Our ceramic capacitors are ideal for EMI/RFI suppression filters, medical implantable devices, commercial and military applica-tions, power supplies, and converters.
Custom Ceramic CapacitorsWe offer many variations of discoidal, tubular, and array capacitors to fit your custom application:
• Various OD, ID, thickness, and length configurations
• Pressed discoidals with surface printed terminals
• Multi-hole discoidal design
• Miniature discoidals down to .050” OD
• Filter arrays
• Custom style capability
• High voltage designs available
• High temperature designs available
• Square tubes for surface mount applications
• Lapped feedthrough capacitors
Discoidal Feedthrough Capacitors: Ideal for by-pass and filtering applications with a low inductance construction suited for high frequency applications. Their low profile and rugged design is an excellent alternative to ceramic tubes. Tubular Feedthrough Capacitors: Small and lightweight with high dielectric strength and impervious to moisture and contamination. Feedthrough capacitors have a uniform insertion loss over a broad spectrum range and are ideal for multi-pin connector applications. Tubular Pi Capacitors: Similar characteristics to feedthrough capacitors in addition to a narrower transition between the pass and stop bands, effectively stopping high frequency interference without affecting desired frequencies and providing filtering of noise content close to signal content. SMPS (Switch Mode Power Supply) Capacitors: Deliver lower equivalent series resistance, lower equivalent series inductance, lower ripple voltage, and less self-heating when compared to other capacitive elements. Planar Array Capacitors: Offer faster assembly time compared to stand-alone chips, discoidal, or tubular capacitors. They also have a low profile and are capable of meeting various geometric and electrical configurations, making APITech’s planar capacitors the new standard in EMI suppression applications.
High Voltage Chip Capacitors: For applications with high voltage requirements. These capacitors can withstand higher voltage and lower leakage characteristics than typical surface mount filters.
Top (Left to Right): Discoidal Feedthrough Capacitors, Tubular Feedthrough Capacitors, Tubular Pi Capacitors Bottom (Left to Right): SMPS, Planar Array Capacitors, High Voltage Chip Capacitors
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Discoidal Ceramic CapacitorsMiniature designs down to 0.050 OD.
Applications• Medical implantable devices
• EMI/RF suppression filters
• AC applications up to 240V
• DC applications up to 500V
Ceramic discoidal feedthrough capacitors are the building blocks of the EMI filter industry. APITech’s discoidal capacitors provide great versatility in meeting varied voltage, capacitance, and dimensional requirements. These non-polar, multilayer capacitors are small, reliable, and high in dielectric strength.
The versatile nature of our discoidals makes them ideally suited for by-pass and filtering applications. Due to their low inductance construction, these capacitors perform extremely well in high frequency applications. The circular geometry of a discoidal feedthrough capacitor offers many paths to ground, resulting in lower impedance and better filtering performance.
MetallizationStandard metallization is solderable silver. Other metallization is available upon request.
Features• Various OD, ID, and thickness configurations
• Excellent high frequency performance
• Low profile design
• Rugged construction
• Low impedance, many paths to ground
• Low inductance, non-polar
• Operational temperatures of –55°C to +125°C with no voltage de-rating
• Custom designs available including multi-hole, EMI filter arrays and assemblies, high voltage, and high temperature
Frequency (MHz)
Insertion Loss (dB) Per MIL-STD-220
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Discoidal NPO
Note: AC voltage determined upon request
OD
ID
T MAX
TERM BW
(in)(mm)
(in)(mm)
(in)(mm)
(in)(mm)
0.05±0.005 1.27±0.13
0.014±0.005 0.36±0.13
0.035 0.89
0 0
0.080±0.005 2.03±0.13
0.030±0.005 0.76±0.13
0.045 1.14
0.000-0.015 0.00-0.38
0.100±0.005 2.54±0.13
0.040±0.005 1.02±0.13
0.060 1.52
0.000-0.020 0.00-0.51
0.135±0.005 3.43±0.13
0.040±0.005 1.02±0.13
0.060 1.52
0.000-0.025 0.00-0.64
0.150±0.010 3.81±0.25
0.045±0.005 1.14±0.13
0.110 2.79
0.000-0.025 0.00-0.64
0.195±0.010 4.95±0.25
0.062±0.005 1.52±0.13
0.120 3.05
0.002-0.025 0.05-0.64
0.340±0.010 8.64±0.25
0.055±0.005 1.40±0.13
0.120 3.05
0.005-0.045 0.13-1.14
0.595±0.010 15.11±0.25
0.055±0.005 2.41±0.13
0.125 3.18
0.005-0.055 0.13-1.40
WV(VDC)
Cap(pF)33 39 4756 68 82
100 120 150180 220 270330 390 470560 680 820
1000 1200 15001800 2200 27003300 3900 47005600 6800 8200
500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50
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Discoidal X7R
Note: AC voltage determined upon request
OD
ID
T MAX
TERM BW
(in)(mm)
(in)(mm)
(in)(mm)
(in)(mm)
0.05±0.005 1.27±0.13
0.014±0.005 0.36±0.13
0.035 0.89
0 0
0.080±0.005 2.03±0.13
0.030±0.005 0.76±0.13
0.045 1.14
0.000-0.015 0.00-0.38
0.100±0.005 2.54±0.13
0.040±0.005 1.02±0.13
0.060 1.52
0.000-0.020 0.00-0.51
0.135±0.005 3.43±0.13
0.040±0.005 1.02±0.13
0.060 1.52
0.000-0.025 0.00-0.64
0.150±0.010 3.81±0.25
0.045±0.005 1.14±0.13
0.110 2.79
0.000-0.025 0.00-0.64
0.195±0.010 4.95±0.25
0.062±0.005 1.52±0.13
0.120 3.05
0.002-0.025 0.05-0.64
0.340±0.010 8.64±0.25
0.055±0.005 1.40±0.13
0.120 3.05
0.005-0.045 0.13-1.14
0.595±0.010 15.11±0.25
0.055±0.005 2.41±0.13
0.125 3.18
0.005-0.055 0.13-1.40
WV(VDC)
Cap(pF)100012001500180022002700330039004700560068008200
100001200015000180002200027000330003900047000560006800082000
100000120000150000180000220000270000330000390000470000560000680000820000
100000012000001500000180000022000001500000180000022000002700000330000039000004700000
500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50
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Discoidal Z5U
Note: AC voltage determined upon request
OD
ID
T MAX
TERM BW
(in)(mm)
(in)(mm)
(in)(mm)
(in)(mm)
0.080±0.0052.03±0.13
0.030±0.0050.76±0.13
0.0451.14
0.000-0.0150.00-0.38
0.100±0.0052.54±0.13
0.040±0.0051.02±0.13
0.0601.52
0.000-0.0200.00-0.51
0.135±0.0053.43±0.13
0.040±0.0051.02±0.13
0.0601.52
0.000-0.0250.00-0.64
0.150±0.0103.81±0.25
0.045±0.0051.14±0.13
0.1102.79
0.000±0.0250.00-0.64
0.195±0.0104.95±0.25
0.062±0.0051.52±0.13
0.1203.05
0.002-0.0250.05-0.64
0.340±0.0108.64±0.25
0.055±0.0051.40±0.13
0.1203.05
0.005-0.0450.13-1.14
0.595±0.01015.11±0.25
0.055±0.0052.41±0.13
0.1253.18
0.005-0.0550.13-1.40
WV(VDC)Cap(pF)
180022002700330039004700560068008200
100001200015000180002200027000330003900047000560006800082000
100000120000150000180000220000270000330000390000470000560000680000820000
1000000120000015000001800000220000027000003300000390000068000008200000
1000000012000000
15000000
500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50 500
200
100
50
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Discoidal Electrical Testing
340
Outer Diameter Example: 0.340” = 340
055
Inner Diameter Example: 0.055” = 055
X
Ceramic Code N: NP0 X: X7R Z: Z5U
A
Voltage Rating A: 50 VDC B: 100 VDC C: 200 VDC D: 500 VDC
145
EIA Cap Code Example: 1400000 pF = 145
P
EIA Cap Tolerance K: ± 10% M: ± 20% P: +100-0% Z: +80 -20%
6
Termination 6: Silver
0
Special Requirements 0: None D: Class B G: Custom
B
Packaging B: Bulk
Discoidal Part Numbering SystemAfter determining the capacitor properties required for a given application, use the part number-ing system below to place order. If there are any questions, do no hesitate to contact APITech’s cus-tomer service team.
Example: 340055AX145P6B0
The part number shown represents a discoidal with an outer diameter of 0.340” and inner diameter of 0.055”. The voltage rating for this part is 50 VDC. The ceramic type will be X7R. The capacitance value is 1,400,000 pF with tolerance of +100, -0%. The termination will be silver and the parts will receive bulk packaging. Since the last identifier in the part number is “0,” there are no special requirements.
Temperature Coefficient
Test MethodElectrical Parameter NPO X7R Z5UTemperature Coefficient
Capacitance Tolerance
Capacitance Test @25°C
Dissipation Factor @25°C
Aging Rate (per decade)
Insulation Resistance @25°C
Insulation Resistance @25°C
Dielectric Withstanding Voltage
EIA 198
EIA Tolerance Code
MIL-STD-202, Method 305
MIL-STD-202, Method 305
MIL-STD-202, Method 302
MIL-STD-202, Method 302
MIL-STD-202, Method 301
250% of rated voltage5 second hold, 30-50 mA
Cap≤100pF; 1 MHz 1 Vrms Cap≥100pF:
1 KHz, 1 Vrms
K, M, P
±30 ppm/°C, -55 to 125°C
.015% max.
0%
±15%, -55 to 125°C +22, -56%, +10 to +85°C
K, M, P M, P, Z
1 KHZ, 0.5 Vrms1 KHZ, 1 Vrms
3.5% max.
< 2.0% < 3.5%1000 MΩ . µF or 100 KMΩ
whichever is less
1000 MΩ . µF or 100 KMΩ
whichever is less
1000 MΩ . µF or 100 KMΩ
whichever is less100MΩ . µF or 10 KMΩ
whichever is less
100MΩ . µF or 10 KMΩ
whichever is less
100MΩ . µF or 10 KMΩ
whichever is less250% of rated voltage
5 second hold, 30-50 mA250% of rated voltage
5 second hold, 30-50 mA
3.5% max.
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Applications• Medical implantable devices
• EMI/RF suppression filters
• Commercial and defense applications
• Power supplies
• Converters
Feedthrough (FT) tubular capacitors are ideally suited for by-pass and filtering applications. Due to the cylindrical design, the capacitors will have uniform insertion loss over a broad frequency range. This struc-ture yields a low inductance when compared to conven-tional wound capacitors.
Solid FT capacitors have no internal electrodes and find their primary usage in low cost applications. Multilayered FT capacitors have a higher capacitance to volume ratio and are ideally suited for greater filtering at lower frequencies. Multilayered FT capacitors are also designed for applications where source impedances are high and sharp attenuation rise is critical.
Feedthrough Circuit
Features• High ratio of capacitance to volume
• Low inductance, non-polar
• Small, lightweight, reliable, high dielectric strength
• Impervious to moisture and contamination
• Uniform IL over a board frequency range
• -55°C to +125°C operation are achieved with no voltage de-rating.
• Outer terminations feature a nickel barrier and final metal layer, typically silver
Tubular FT Ceramic CapacitorsLow cost solution for general purpose filtering.
Feedthrough ConstructionSolid
Multilayer
Insertion Loss (dB) Per MIL-STD-220
Frequency (MHz)
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Banding Dimensions Center Dimension, min. Tip Dimension, min. Bandwidth 200 VDC min. Bandwidth 100 VDC min. Bandwidth 50 VDC min.
0.065” 1.651 mm 0.002” 0.051 mm 0.025” 0.635 mm 0.020” 0.508 mm 0.015” 0.381 mm
OD
ID
Length
(in)(mm)
(in)(mm)
(in)(mm)
0.081±0.0022.06±0.05
0.050±0.0021.27±0.05
0.173±0.104.39±0.25 5.97±0.25
0.235±0.10 0.173±0.104.39±0.25
0.235±0.105.97±0.25
0.300±0.107.62±0.25
0.315±0.108.00±0.25
0.250±0.106.35±0.25
2.08±0.100.082±0.004
3.10±0.100.122±0.0040.090±0.003
2.29±0.080.060±0.0031.52±0.003
200 200 200 200 200 200 200 100100100100100100100 50 50 50 50 50 50 50
10 Max 12 2733 39 4756 68 82
100 120 150180 220 270330 390 470330 390 470560 680 820
1000 1200 15001800 2200 27003300 3900 47005600 6800 8200
10000 1200015000180002200027000
330039004700560068008200
10000 12000 1500018000 22000 27000
TCC
NPO
X7R
Y5V
WV (VDC)Cap (pF)
KEY: Solid Mult-Layered
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Tubular Pi Ceramic CapacitorsLow cost solution for general purpose filtering.
Feedthrough Construction
Insertion Loss (dB) Per MIL-STD-220
Frequency (MHz)
Applications• Medical implantable devices
• EMI/RF suppression filters
• Commercial and defense applications
• Power supplies
• Converters
Compared to feedthrough tubular capacitors, Pi tubular capacitors have a much more narrow transition between the pass and stop bands. Pi capacitors are effective in stopping high frequency interference without affecting necessary frequencies immediately below the stop band.
Similar to feedthrough tubular capacitors, Pi tubular capacitors can be designed with a solid or multilayered configuration. Solid Pi tubular capacitors are more cost effective, but limited in capacitance values. Multilayered Pi tubular capacitors can cover a wider range of capacitance, while still maintaining the mechanical strength of a solid Pi tubular capacitor in a similar case size.
Pi Circuit
Features• High ratio of capacitance to volume
• Low inductance, non-polar
• Small, lightweight, reliable, high dielectric strength
• Impervious to moisture and contamination
• Uniform IL over a board frequency range
• -55°C to +125°C operation are achieved with no voltage de-rating
• Outer terminations feature a nickel barrier and final metal layer, typically silver
Solid
MultiLayer
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OD
ID
Length
(in)(mm)
(in)(mm)
(in)(mm)
0.081±0.0022.06±0.05
0.050±0.0021.27±0.05
0.173±0.104.39±0.25 5.97±0.25
0.235±0.10 0.173±0.104.39±0.25
0.235±0.105.97±0.25
0.300±0.107.62±0.25
0.315±0.108.00±0.25
0.250±0.106.35±0.25
2.08±0.100.082±0.004
3.10±0.100.122±0.0040.090±0.003
2.29±0.080.060±0.0031.52±0.003
200 200 200 200 200 200 200 100100100100100100100 50 50 50 50 50 50 50
10 Max 12 2733 39 4756 68 82
100 120 150180 220 270180220270330 390 470560 680 820
1000 1200 15001800 2200 27003300 3900 47005600 6800 8200
10000 1200015000
180022002700330039004700560068008200
10000 12000 1500018000 22000 27000
TCC
NPO
X7R
Y5V
WV (VDC)Cap (pF)
Banding Dimensions Center Dimension, min. Tip Dimension, min. Bandwidth 200 VDC min. Bandwidth 100 VDC min. Bandwidth 50 VDC min.
0.065” 1.651 mm 0.002” 0.051 mm 0.025” 0.635 mm 0.020” 0.508 mm 0.015” 0.381 mm
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81
Outter Diameter Example: 0.081” = 81
173
Length Example: 0.173” = 173
50
Inner Diameter Example: 0.050” = 50
X7R
Ceramic Code NP0 X7R Y5V
471
EIA Cap Code Example: 470 pF = 471
Tubular Part Numbering SystemAfter determining the capacitor properties required for a given application, use the part numbering system below to place order. If there are any questions, do no hesitate to contact APITech’s customer service team.
Example: I8150173X7R471M
The part number shown represents a Pi tubular capacitor with an outer diameter of 0.081” and inner diameter of 0.050”. The voltage rating for this part is 200 VDC. The ceramic type will be X7R. The capacitance value is 470 pF with a tolerance of ±20%. The termination will be silver and the parts will receive bulk packaging.
Specialty Tubular ProductsWe offer many variations of tubular capacitors to fit your custom application:
• Various OD, ID, thickness, and length configurations
• Square tube for surface mount application
1
Voltage Rating A: FT, 50 VDC C: FT, 100 VDC E: FT, 200 VDC G: FT, 50 VDC H: FT, 100 VDC I: FT, 200 VDC
M
EIA Cap Tolerance M: ± 20% N: ± 30% P: +100-0% Z: +80 -20%
Tubular Electrical Testing
Temperature Coefficient
Test MethodElectrical Parameter NPO X7R Y5VTemperature Coefficient
Capacitance Tolerance
Capacitance Test @25°C
Dissipation Factor @25°C
Aging Rate (per decade)
Insulation Resistance @25°C
Insulation Resistance @25°C
Dielectric Withstanding Voltage
EIA 198
EIA Tolerance Code
MIL-STD-202, Method 305
MIL-STD-202, Method 305
MIL-STD-202, Method 302
MIL-STD-202, Method 302
MIL-STD-202, Method 301
250% of rated voltage5 second hold, 30-50 mA
Cap≤100pF; 1 MHz 1 Vrms Cap≥100pF:
1 KHz, 1 Vrms
M, P
±30 ppm/°C, -55 to 125°C
0.15% max.
No Aging
±15%, -55 to 125°C +22, -82%, -30 to +85°C
N, P, Z N, P, Z
1 KHZ, 1.0 Vms1 KHZ, 1 Vrms
3.5% max.
< 2.0% < 2.5%50 K Megohm
or 500 Ohm-Farad, whichever is lower
50 K Megohm or 500 Ohm-Farad, whichever is lower
50 K Megohm or 500 Ohm-Farad, whichever is lower
5 K Megohm or 50 Ohm-Farad, whichever is less
5 K Megohm or 50 Ohm-Farad, whichever is less
5 K Megohm or 50 Ohm-Farad, whichever is less
250% of rated voltage5 second hold, 30-50 mA
250% of rated voltage5 second hold, 30-50 mA
• Lapped feedthrough capabilities
• Custom style capability
3.5% max.
General Ceramic Capacitors InformationExhibit low parasitic capacitance and superior EMI filtering capabilities.
Temperature Coefficient
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SMPS Capacitor AssembliesDesigned to provide superior performance in high frequency switching applications.Mil Qualified & DSCC CertifiedAPITech’s line of MIL-PRF-49470 qualified and DSCC 87106 certified High-speed Switch Mode Power Supply (SMPS) capacitors are ideal for high energy density products found in both defense and commercial markets.
Dielectric CharacteristicsAPITech offers SMPS capacitors in two basic dielectric classes, with individual designs tailored to meet specific performance characteristics.
Features• Multilayer ceramic capacitors
• Ideal for DC-DC power supply applications
• Capacitor assemblies with low ESR/ESL
• Capacitance values 0.01µF to 47µF
• Leaded parts safeguard against thermal and mechanical stresses
• Designs available for both defense and commercial markets
• Mil-PRF-49470 qualified, DSCC 87106, custom, and standard products available
SMP3
Case Size SMP3 SMP4 SMP5
X
Ceramic Code P: BP Q: BQ R: BR X: BX
K
EIA Cap Tolerance J: ±5% K: ±10% M: ±20%
124
EIA Cap Code Example: 120,000 pF
N
Termination J: Leads in L: Leads out K: Leads staight
M
Marking M: Marked U: Unmarked
00
Special Requirements GA: 87106 Group A HR: Hi-Rel*
B
Packaging T: Tape & Reel F: Foam Carrier/boxed W: Waffle B: Bulk
E
Voltage Rating Z: 25 VDC A: 50 VDC B: 100 VDC C: 200 VDC E: 500 VDC
SMPS Part Numbering System Example: I8150173X7R471Mz The part number shown represents a size 3 SMPS capacitor. The ceramic type will be BX, capacitance value is 120,000 pF, with a tolerance of ±10%. The voltage rating is 500 VDC, termination will be “N” style leads and the parts will receive marking/bulk packaging.
Effects on electrical properties are minimal with variations in operating temperature, voltage, frequency, or time. Used in applications which require stable performance.
Class II dielectrics will exhibit a predictable shift in performance characteristics when exposed to variations, frequency, or time. Selected for applications where blocking, coupling, by-passing, and frequency disciminating elements are used. Offers higher capacitance than Class 1 (C0G).
Ultra Stable Class I
BP (NPO/ C0G)
Ultra Stable Class II
BQ, BRand BX
DescriptionStability Class
Dielectric Type
(in) (mm)
(in) (mm)
(in) (mm)
0.650 16.500.650 16.500.650 16.50
0.715 18.160.715 18.160.715 18.16
0.450 11.420.400 10.15.250 6.35
0.400 10.15.250 6.35
1.050 26.65
0.500 12.690.440 11.170.300 7.62 3
4
10
SMP-5
SMP-4
SMP-3
Style & Size A Max
B Max
C ±0.025”
D ±0.025”
E Max
Leads/ Side
Dimensions
* Designation on page 2.
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SMPS Capacitor AssembliesMilitary/Hi-Rel & Commercial/Industrial Grade.APITech offers high reliability/military grade and com-mercial/industrial grade capacitors designed to provide superior performance in high frequency switch mode power applications.
These capacitors are ideal for bulk capacitance and pulsing applications and are available in a range of dif-ferent footprints and mounting configurations. The high reliability/military grade is based on the design princi-pals and test requirements defined by MIL-PRF-49470.
• Leaded options safeguard against thermal and mechanical stresses is larger package sizes
• Capacitance values 0.01 µF to 150 µF
• Stable class II, BX, BR, BQ, and X7R dielectric materials offer reliable operation and predictable performance characteristics related to temperature, frequency, and voltage
APITech’s high-speed Switch Mode Power Supply capac-itors have the following characteristics when compared to other capacitor technologies:
• Multilayer ceramic capacitors
• Ideal for DC-DC power supply applications
• Capacitor assemblies with low ESR/ESL
Electrical Characteristics
Dimensions Refer to drawings on previous page
Note: C dimension for non-leaded, chip capacitors equals dimension specified less thickness of the leads or 0.020” total.
SMPS Part Numbering System Example: 2225X824KAJMBHR The part number shown represents a 2225 size SMPS capacitor. The ceramic type is X7R/BX, capacitance value is 0.82 µF, with a tolerance of ±10%. The voltage rating is 50 VDC, termination is “J” style leads, Group A testing is M49470 Group A, Subgroups 1 & 2 and the parts will receive marking/ bulk packaging.
2225Case Size Ref Dimensions Table
A: 1.0 G: 1.6 B: 1.1 H: 1.7 C: 1.2 J: 1.8 D: 1.3 K: 1.9 E: 1.4 L: 2.0 F: 1.5
X
Ceramic Code B: X7R R: BR Q: BQ X: BX
K
EIA Cap Tolerance J: ±5% K: ±10% M: ±20%
824
EIA Cap Code 824=820,000 pF=0.82µF 120,000 pF
J
Termination J: Leads in L: Leads out K: Leads straight
M
Marking M: Marked U: Unmarked
HR
Special Requirements GA: 87106 Group A HR: Hi-Rel*
B
Packaging T: Tape & Reel F: Foam Carrier/boxed W: Waffle B: Bulk
AVoltage Rating Z: 25 VDC A: 50 VDC B: 100 VDC C: 200 VDC E: 500 VDC
* 00 designation reflects sample visual/mechanical inspection, plus 100% capacitance, DF, DWV, & IR testing @+25°C HR designation reflects Group A, Subgroups 1 & 2 inspection per MIL-PRF-49470
Maximum Capacitance ValueVTC WVDC
2225 2425 3530 3640 3940 4540 5550 6560 7565 44105X7R
X7R
X7R
X7R
BX
BX
BR
BQ 500
200
100
50
500
200
100
50
564
125
215
475
155
475
685
156
684
155
335
565
155
475
685
156
125
255
475
106
275
685
126
276
155
395
575
126
395
825
186
396
185
395
825
156
395
106
206
476
185
475
825
185
475
126
256
566
275
685
125
276
685
156
396
826
475
106
186
396
825
256
566
127
565
126
226
576
126
336
686
157
565
126
276
476
126
276
586
157
Case Size
C ±0.025(0.635)
Dimensions in (mm)
D Min - Max
E MaxA Max
# Leads/Slide
2225 2425 3530 3640 3940 4540 5550 6560 7565 44A5
0.450 (11.42)0.760 (19.30)0.660 (16.76)0.560 (14.22)0.460 (11.68)0.400 (10.16)0.370 (9.40)0.360 (9.14)0.250 (6.35)0.235 (5.97)
0.500 (12.70)0.830 (21.08)0.730 (18.54)0.630 (16.00)0.53 (13.46)0.430 (11.17)0.430 (10.92)0.420 (4.67)0.300 (7.62) 0.300 (7.62)0.650 (16.51)0.650 (16.51)0.650 (16.51)
106654444330.650 (16.51) 0.650 (16.51) 0.650 (16.51) 0.650 (16.51) 0.650 (16.51) 0.650 (16.51) 0.650 (16.51)
0.244-0.275 (5.69-6.99)
0.244-0.275 (5.69-6.99)
0.275-0.325 (6.99-8.26)
0.350-0.425 (8.89-10.80)
0.350-0.425 (8.89-10.80)
0.350-0.425 (8.89-10.80)
0.450-0.525 (11.43-13.34)
0.550-0.625 (13.97-15.88)
0.600-0.675 (15.24-17.15)
0.950-1.075 (24.13-27.31)
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SMPS Specifications
Working Volts DC Working Volts DC Working Volts DC Working Volts DC
BQBRBXBP
0.01 0.012 0.0150.018 0.022 0.027
0.033 0.039 0.047
0.056 0.068 0.082
0.010 0.12 0.15
0.18 0.22 0.27
0.33 0.39 0.47
0.56 0.68 0.82
11.2 1.5
1.8 2.2 2.7
3.3 3.9 4.7
5.6 6.8 8.2
10 12 15
18 22 27
33 39 47
Cap Value (µF) 500 200 100 50 500 200 100 50 500 200 100 50 500 200 100 50
KEY: SMP-3 SMP-4 SMP-5
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SMPS Capacitor Electrical TestingAbsolute Maximum Output Capacitance
Assuming no ESL and no ESR
Load
Cur
rent
- A
mps
Maximum Output Filter Capacitance (µF)
ESR
- Ohm
s
ESR vs. Frequency
Frequency - KHz
Impedance vs. Frequency
Impe
danc
e - O
hms
Frequency - KHz
Absolute Maximum Capacitance ESL Assuming no ESR - Capacitive Induced Ripple
Load
Cur
rent
- A
mps
Maximum Output Filter Capacitance ESL (nH)
Absolute Maximum Capacitance ESR Assuming no ESL - Capacitive Induced Ripple
Load
Cur
rent
- A
mps
Maximum Output Filter Capacitance ESR (mOhm)
Group A
Group B Sub Grp I
Group B Sub Grp II
Group B Sub Grp III
Optional
Test Group
Test Order Test
Test Method
Post Test Requirements
Sampling Procedure
1
2
3
4
5
6
12
3
4
1
2
1
Visual and MechanicalMaterials, Designs, Construction and WorkmanshipPhysical Dimensions and Marking
Capacitance and Dissipation Factor
Dielectric Withstanding Voltage
Insulation Resistance
Voltage and Temperature Limits
Immersion
Terminal Strength
Resistance to Soldering Heat
Moisture Resistance
Life
Solderability Group AThermal Shock and Voltage Conditioning
MIL-STD-202 Method 302 @ DCWV, 25 C
MIL-STD-202 Method 301 2.5x DCWV except 500V 1.5x
MIL-STD-202 Method 215
MIL-STD-202 Method 104 test condition B
MIL-STD-202 Method 211 test condition A. Case codes 1-4, 6-5 lbs, case code 5-4 lbs
MIL-STD-202 Methos 210 N lead style test condition B, J and L styles test condition I
MIL-STD-202 Method 106 20 cycles
MIL-STD-202 Method 108, 1000 hrs, 2x DCWV exept 1.2x500 DCWV
>100,000 megohms or 1,000 megohm-µF, whichever is less
No mechanical damage. Dielectric strength, capacitance, df and 25 C IR to original limits
No evidence of loosening or rupturing of terminals
No mechanical damage. Dielectric strength, capacitance, df and 25 C IR to original limits
13 samples 0 failures
100%
12 samples 1 failures
12 samples 1 failures
12 samples 1 failures
No mechanical damage. Dielectric strength, capacitance, df and 25 C IR to original limits
No mechanical damage. Dielectric strength, capacitance, df and 125 C IR to original limits
Resistance to Solvents
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Planar CapacitorsWide variety of custom and industry standard geometries available.
Electrical SpecificationsOperating Temperature: -55°C to +125°C
Capacitance: Up to 1µF
Capacitance Tolerance: ±10%, ±20%, +100%
Capacitance Rating : Up to 1500 VDC
Dielectric Withstanding Voltage: Up to 3000 VDC
Insertion Loss: 60 dB Min, typical hole to hole. The electrical properties listed above are typical and can be exceeded based on customer requirements and mechanical configuration. Many variables affect the design, it is best to contact us directly for a detailed assessment of your planar capacitor needs.
Mechanical SpecificationsDielectrics: EIA Codes: NP0 (COG), X7R, Z5U
Terminations: Fired-on: silver, solder-able silver Plating: gold, silver or copper over nickel barrier
Surface: Lapped, termination bandwidth, and insulated coating options
Geometry: Defense circulars, D-Sub, ARINC, Micro-D, custom configurations
Thickness: Up to 0.150”
Features• Exceptional electrical performance and reliability
• 100% electrical and mechanical testing of critical parameters
• Fast prototyping and short lead times
• Custom packaging to suit end-user needs
• Custom and standard designs available
• Multiple capacitance values up to 400:1 ratio
• Multiple voltage ratings available
• Hole ground resistance to a specified maximum
• Conformal coat available for high voltage designs
Applications• Designs for military specification filtered circular
connectors
• Designs for D-sub filtered interconnects
Advantages Over Stand-alone Chip, Discoidal, or Tubular Capacitors• Low profile, compact, quick assembly time
• Various custom and industry standard available
• Designs can incorporate multiple capacitance values, feedthrough holes, and ground holesTypical Design Layouts
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Dielectric CharacteristicsCapacitor SelectionMultilayer capacitors (MLC) and single layer capacitors are categorized by performance with temperature. Component selection is typically determined by dielectric performance, electrical environment, and temperature stability.
In determining the proper component for a specific application, the following information should be considered.
Dielectric TypeThere are three basic dielectric classes (characteristics) available: Dielectric Properties Dielectric Type Stability Class Description
BP Ultra Stable (NPO and COG) Class I Effects on electrical properties are minimal with temperature, frequency, or time. Used in applications which require stable performance.
BQ Stable BX and X7R Class II Effects on electrical properties predictably change with temperature, voltage, frequency and time. Selected for applications where blocking, coupling, by-passing, and frequency discriminating elements are used. Offers higher capacitance than Class I (COG).
Z5U and Y5V General Purpose Class II Exhibits a greater variation of properties with temperature. Dielectric constant is higher than Class I and Class II dielectrics. Extremely high capacitance per unit volume and used in general performance applications.
Dielectric Characteristics NPO (COG)Operating Temperature Range: -55°C to 125°C Temperature Coefficient: 0 ± 30 ppm/°C Dissipation Factor: .001 (0.1%) max.@25°C Insulation Resistance: 25°C 106 Megohms 125°C 105 Megohms Dielectric Withstanding Voltage: 50 to 200V, 2.5 x VDCW 201 to 500V, 1.5 x VDCW, or 500V* >500V, 1.2 VDCW or 750V* Aging Rate: 0% per decade hour. Test Parameters: 1 KHz, 1.0 ± 0.2 VRMS, 25°C 1 MHz for capacitance ≤1,000 pF
*Whichever is greater
Capacitor SizeThe capacitor body size impacts its utility to the design requirements in respect to capacitance value and voltage rating. Typically smaller units are less expensive and provide for greater space savings. Because mass affects the thermal response of the chips, size should be considered when selecting the attachment method to the circuit.
Termination MaterialMaterial Type Recommended Usage
Silver Palladium: Nonmagnetic application requirements. Recommended for conductive epoxy and leaded attachment methods. For soldering applications, use solder reflow below 230°C.
Silver: Most ductile of the available termination methods. Used in applications which will be leaded, to minimize thermal stresses.
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Dielectric Characteristics ContinuedX7R Operating Temperature Range: -55°C to 125°C Temperature Coefficient: ± 15% ∆C max. Dissipation Factor: .025 (2.5%) max. @ 25°C Insulation Resistance: 25°C 106 Megohms 125°C 105 Megohms Dielectric Withstanding Voltage: 50 to 200V, 2.5 x VDCW 201 to 500V, 1.5 x VDCW, or 500V* >500V, 1.2 VDCW or 750V* Aging Rate: <2.0% per decade hour. Test Parameters: 1 KHz, 1.0 ± 0.2 VRMS, 25°C 1 KHz, 1.0 VRMS ± 0.2 VRMS, 25°C
BX Operating Temperature Range: -55°C to 125°C Temperature Coefficient: ± 15% ∆C max. Temperature Voltage Coefficient: + 15% -25% ∆C max. Dissipation Factor: .025 (2.5%) max. @ 25°C Insulation Resistance: 25°C 106 Megohms 125°C 105 Megohms Dielectric Withstanding Voltage: 50 to 200V, 2.5 x VDCW 201 to 500V, 1.5 x VDCW, or 500V* >500V, 1.2 VDCW or 750V* Aging Rate: 2.0% per decade hour. Test Parameters: 1 KHz, 1.0 ± 0.2 VRMS, 25°C 1 KHz, 1.0 VRMS ± 0.2 VRMS, 25°C
Z50 Operating Temperature Range: +10°C to 85°C Temperature Coefficient: ± 22% -56% ∆C max. Dissipation Factor: .030 (3.0%) max. @ 25°C Insulation Resistance: 25°C 105 Megohms Dielectric Withstanding Voltage: 50 to 200V, 2.5 x VDCW 250V, 1.5 x VDCW Aging Rate: -2.0% per decade hour. Test Parameters: 1 KHz, 0.5 VRMS ± 0.1 VRMS, 25°C
Y5V Operating Temperature Range: -30°C to 85°C Temperature Coefficient: +22% - 82% ∆C max. Dissipation Factor: .050 (5.0%) max. @ 25°C Insulation Resistance: 25°C 105 Megohms Dielectric Withstanding Voltage: 50 to 200V, 2.5 x VDCW 250V, 1.5 x VDCW Aging Rate: -2.0% per decade hour. Test Parameters: 1 KHz, 1.0 VRMS ± 0.2 VRMS, 25°C * Whichever is greater
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General Soldering Recommendations for Leadless Ceramic CapacitorsSoldering Ceramic Capacitors with High Temperature Process SN10 Solder Ramp Rate, Heating and Cooling: Approx. 30°C/min. Peak Temperature: Approx. 320°C Dwell at Peak: <30 Seconds
Soldering Ceramic Capacitors with Medium Temperature Process SN96 Solder Ramp Rate, Heating and Cooling: Approx. 30°C/min. Peak Temperature: Approx. 250°C Dwell at Peak: <30 Seconds
Soldering Ceramic Capacitors with Low Temperature wProcess SN62 Solder Ramp Rate, Heating and Cooling: Approx. 30°C/min. Peak Temperature: Approx. 220°C Dwell at Peak: <30 Seconds
NotesCare must be taken to minimize the time silver terminations are exposed to molten solder to avoid leaching (amalgamation of the silver into molten solder). APITech recommends the use of a silver (Ag) bearing solder when terminating directly to ceramic ceramic capacitors to reduce the potential for leeching. Gradual heating and cooling of the components are essential to prevent thermal stresses to the ceramic.
Application Note: Soldering Recommendations for Switch Mode Power Supply Capacitors• SMPS capacitors are highly durable structures
designed to provide long service per lifetime, however they require attention to basic considerations during assembly. Like all ceramic components, SMPS capacitors are subject to thermal stresses. For this reason, preheating of the capacitor assemblies is recommended. Preheat components using hot plate to 120 to 150°C, or within 50 to 60°C of the soldering temperature being applied. Avoid over-exposure to high temperatures during assembly and allow for gradual, post-assembly cooling.
• For hand iron soldering, recommended soldering iron tip temperature is 330 to 350°C. Contact the pad adjacent to the pre-tinned lead should be made from below the PCB (opposite of the component side), and the dwell time on the solder joint should be less than five seconds. An aluminum heat sink plate may be placed adjacent to the SMPS lead frame to protect the ceramic body during assembly. Avoid direct contact between soldering iron and ceramic during assembly process. Soldering time is dependant upon heat sinking provided by the chasis and boardmaterial, so a longer preheat cycle may be required.
• Standard solders (Sn60, Sn63, Sn60/38/2) may be used. Please consult the factory for use with RoHS compliant solders.
• Use a controlled temperature profile ramp not exceeding 4°C per second as measured by an attached low mass thermocouple.
• Soldering time and temperatures can vary with component size, board material and layout. Please consult the factory for assistance.
Processing & Soldering Notes
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High Voltage Ceramic Capacitors (HVCC)Surface mount ceramic chip capacitor for high voltage applications.
Features• Voltage: up to 2500 VDC
• Temperature range: -55 to 125°C
• Termination: fired on silver or fired on palladium silver
• Case sizes available: 1812, 1825, 2220, 2225, 4040, 4550
Applications• Military power supplies
• Industrial control applications
• Medical pulse applications
• AC/DC waveform smoothing
• Filters
• Ignitors
• Power generation
• Energy storage
• Electric motors
• Pulse power/weapons
• Resonant circuits
Design and Manufacturing Overview• Designed and produced in our State College, PA (USA)
facility
• 250k sq. ft. facility with (100k sq. ft. dedicated to ceramics)
• Variable pressure scanning electron microscope
• Energy dispersive x-ray spectroscopy
• Low and optical metallographic microscopes
• Thermo graphical analysis
• Particle size distribution and surface area analysis
• Experienced ceramics team with both design and process engineers
Advanced Ceramics Capabilities• Research and development
• Verification
• Finishing
• Heat treatment
• Forming
• Formulating rare earth materials
HVCC Product Characteristics
Voltage Min.
Voltage Max.
Temperature Range
Temperature Max. STD
Capacitance Range Min.
Capacitance Range Max.
Termination
Termination Alt.
Size Min.
Size Max.
Stacked Versions
500 VDC
2500 VDC
-55°C
125°C
5000 pF
0.68 µF
Silver
Palladium Silver
1812
4550
Future Development*Note: BQ, BX, BR stabilities available
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High Voltage Ceramic Capacitors (HVCC)Surface mount ceramic chip capacitor for high voltage applications.
HVCC Sizes Manufactured by APITech
Verification Process• In-process and final testing for all customer specified
parameters
• 100% Electrical testing:
• Capacitance
• Dissipation factor
• Insulation resistance
• Dielectric strength
Other Testing Available• Internal integrity acoustic testing
• High-reliability testing via voltage conditioning and thermal shock
• Environmental testing:
• Humidity
• Extreme temperature
• Barometric pressure
• Vibration
• Immersion
• Solderability
1825 L .180±.012 W .250±.015 T .065 MAX MB .24±.014
2220 L .220±.012 W .200±.012 T .110 MAX MB .03±.015
4040 L .400±.020 W .400±.020 T .110 MAX MB .03±.015
4550 L .460±.020 W .500±.025 T .110 MAX MB .04±.020
Min. Cap.Length Width
502500 VDC
502630 VDC
5021000 VDC
5021500 VDC
5022000 VDC
5022500 VDC
181822224045
122520254050
333503503224504684
333503503224504684
183333333104334474
--183183253563683
--822822103223333
--822822103223333
Maximum Capacitance Value (EIA values available)
2225 L .220±.015 W .250±.015 T .110 MAX MB .03±.015
1812 L .180±.012 W .125±.008 T .065 MAX MB .24±.014
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High Voltage Ceramic Capacitors (HVCC) Part Numbering SystemThe part number shown represents a 2225 size high voltage capacitor. The ceramic type is X7R/BX, capacitance value is 0.82 µF, with a tolerance of ±10%. The voltage rating is 630 VDC, termination is “6” Ag termination, and the parts will be unmarked with bulk packaging.
Example: 2225X824KF6UB00
Soldering GuidelinesHVCCs are compatible with all soldering/mounting methods for chip capacitors.
Reflow SolderingAPITech recommends reflow soldering as the preferred method for mounting HVCCs. HVCCs can be reflow soldered using a reflow profile generally defined in IPC-FEDEC-J-STD-020. Silver termination chip capacitors are compatible with both conventional and lead-free soldering with a peak temperature of 260°C to 270°C acceptable.
The heating ramp rate should be such that components see a temperature rise of 1.5°C to 4°C
per second to maintain temperature uniformity through the HVCC.
The time for which the solder is molten, should be maintained at a minimum, so as to prevent solder leaching.
The use of an inert atmosphere can help if this problem is encountered. Palladium/Silver (Pd/Ag) terminations can be particularly susceptible to leaching with free lead, tin rich solders, and trials are recommended for this combination.
Cooling to ambient temperature should be allowed to occur naturally, particularly if larger chip sizes are being soldered.
High Voltage Ceramic Capacitors (HVCC)Surface mount ceramic chip capacitor for high voltage applications.
2225
Case Size Ref Dimensions Table A: 1812 B: 1825 C: 2220 D: 2225 E: 4040 F: 4550
X
Ceramic Code B: X7R R: BR Q: BQ X: BX
K
EIA Cap Tolerance K: ±10% M: ±20% P: ±100% -0%
824
EIA Cap Code 824=820,000pF=0.82µF 125=1,200,000pF=1.2µF 156=15,000,000pF=15µF
6
Termination 6: Ag M: PdAg
U
Marking M: Marked U: Unmarked
00
Special Requirements 00: Standard G: Custom
B
Packaging B: Bulk F: Foam Carrier/boxed S: Special T: Tape & Reel - 7in
F
Working Voltage E: 500 VDC F: 630 VDC G: 1000 VDC H: 1500 VDC J: 2000 VDC R: 2500 VDC
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High Voltage Ceramic Capacitors (HVCC)Surface mount ceramic chip capacitor for high voltage applications.
Natural cooling allows a gradual relaxation of thermal mismatch stresses in the solder joints. Forced cooling should be avoided as this can induce thermal breakage.
Wave SolderingWave soldering is not acceptable.
Solder LeachingLeaching is the term for the dissolution of silver into the solder causing a failure of the termination system which causes increased ESR, tan δ and open circuit faults, including ultimately the possibility of the chip becoming detached.
Leaching occurs more readily with higher temperature solders and solders with a high tin content. Pb free solders can be very prone to leaching certain termination systems. To prevent leaching, exercise care when choosing solder allows and minimize both maximum temperature and dwell time with the molten solder.
Rework of Chip CapacitorsAPITech recommends hot air/gas as the preferred method of applying heat for rework. Apply even heat surrounding the component to minimize internal thermal gradients. Soldering irons or other techniques that apply direct heat to the chip or surrounding area should not be used as these can result in micro-cracks being generated.
Minimize the rework heat duration and allow components to cool naturally after soldering.
Use of Silver loaded Epoxy AdhesivesChip capacitors can be mounted to circuit boards using silver loaded adhesive, provided the termination material of the capacitor is selected to be compatible with the adhesive. This is normally PdAg.
HandlingHVCCs should never be handled with fingers. Skin oils and perspiration and can inhibit solderability and will aggravate cleaning.
Components should never be handled with metallic instruments. Metal tweezers should never be used as these can chip the product and leave abraded metal tracks on the product surface. Plastic or plastic-coated metal types are readily available and recommended – these should be used with an absolute minimum of applied pressure.
StorageIncorrect storage of HVCCs can lead to problems for the end-user. Rapid tarnishing of the terminations, with an associated degradation of solderability, will occur if the product comes into contact with industrial gases such as sulfur dioxide and chlorine.
Storage in moist or polluted air can result in termination oxidation.
Packaging should not be opened until the HVCCs are required for use. If opened, the pack should be re-sealed as soon as practicable. Alternatively, the contents could be kept in a sealed container with an environmental control agent.
For long term storage, conditions should, ideally, be temperature-controlled environments between -5°C and +40°C and between 40% and 60% relative humidity-controlled.
Taped products should be stored out of direct sunlight. This could promote deterioration in tape or adhesive performance.
HVCC products, stored under the conditions recommended above, in its “as received” packaging, has a minimum shelf life of 2 years.
Surface Mount Pad DesignAPITech’s conventional 2-terminal chip capacitors can generally be mounted using pad designs in for accordance with IPC-7351, Generic Requirements Surface Mount Design and Land Pattern Standards.
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High Voltage Ceramic Capacitors (HVCC)Surface mount ceramic chip capacitor for high voltage applications.
However, there are some other factors that have been shown to reduce mechanical stress, such as reducing the pad width to less than the chip width. The position of the chip on the board should also be considered.
Multilayer ceramic chip with nickel or copper barrier termination
REACH (Registration, Evaluation, Authorization, and Restriction of Chemicals) StatementThe main purpose of REACH is to improve the protection of human health and the environment from the risks arising from the use of chemicals.
RoHS ComplianceAPITech routinely monitors worldwide material restrictions (EU/China and Korea RoHS mandates) and is actively involved in shaping future legislation.
Breakdown of material content, SGS analysis reports are available upon request.
Most of APITech’s HVCC components are available with non-RoHS compliant tin/lead (Sn/Pb) solderable termination finish for exempt applications and where pure tin in not acceptable. Other tin-free termination finishes may also be available. Please contact us for additional details.
Ceramic Capacitors and AgingCapacitor aging is a term used to describe the negative, logarithmic capacitance change which takes place in ceramic capacitors with time. The crystalline structure for barium titanate based ceramics changes on passing through its Curie temperature (known as the Curie Point) at about 125ºC. The domain structure relaxes with time and in doing so. The dielectric constant reduces logarithmically; this is known as the aging mechanism of the dielectric constant. The more stable dielectrics have the lowest aging rates.
The aging process is reversible and repeatable. Whenever the capacitor is heated to a temperature above the Curie Point the aging process starts again from zero. The aging constant, or aging rate, is defined as the percentage loss of capacitance due to the aging process of the dielectric which occurs during a decade of time (a tenfold increase in age) and is expressed as a percent per logarithmic decade of hours. As the law of decrease of capacitance is logarithmic, this means that for a capacitor with an aging rate of 1% per decade of time, the capacitance will decrease at a rate of:
• 1% between 1 and 10 hours
• An additional 1% between the following 10 and 100 hours
• An additional 1% between the following 100 and 1000 hours
• An additional 1% between the following 1000 and 10000 hours
• The aging rate continues in this manner throughout the life of the capacitor
Typical values of the aging constant for our HVCCs are:
Fired Ceramic Dielectric
Fired on Silver or Palladium Silver Termination
Metal Electrodes
Dielectric Class Typical ValuesNegligible capacitance loss through aging <2% per decade of time
Ultra Stable C0G/NP0Stable X7R
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High Voltage Ceramic Capacitors (HVCC)Surface mount ceramic chip capacitor for high voltage applications.
1825Cap Size 1812
VoltageVoltage
Cap Value (nF)
5.0
5.6
6.8
8.2
10
12
15
18
22
25
27
33
47
56
68
75
82
100
120
150
180
220
270
330
390
470
500 630 1000 1500 2000 2500
Cap Size
VoltageVoltage
Cap Value (nF)
5.0
5.6
6.8
8.2
10
12
15
18
22
25
27
33
47
56
68
75
82
100
120
150
180
220
270
330
390
470
500 630 1000 1500 2000 2500
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High Voltage Ceramic Capacitors (HVCC)Surface mount ceramic chip capacitor for high voltage applications.
2225Cap Size 2220
VoltageVoltage
Cap Value (nF)
5.0
5.6
6.8
8.2
10
12
15
18
22
25
27
33
47
56
68
75
82
100
120
150
180
220
270
330
390
470
500 630 1000 1500 2000 2500
Cap Size
VoltageVoltage
Cap Value (nF)
5.0
5.6
6.8
8.2
10
12
15
18
22
25
27
33
47
56
68
75
82
100
120
150
180
220
270
330
390
470
500 630 1000 1500 2000 2500
The Electromagnetic Spectrum Innovator
DATA SHEET
27COMP. 113020ED www. apitech.com | 855.294.3800 | [email protected] | www.linkedin.com/company/api-technologies-corp-/
High Voltage Ceramic Capacitors (HVCC)Surface mount ceramic chip capacitor for high voltage applications.
4550Cap Size 4040
VoltageVoltage
Cap Value (nF)
5.0
5.6
6.8
8.2
10
12
15
18
22
25
27
33
47
56
68
75
82
100
120
150
180
220
270
330
390
470
500 630 1000 1500 2000 2500
Cap Size
VoltageVoltage
Cap Value (nF)
5.0
5.6
6.8
8.2
10
12
15
18
22
25
27
33
47
56
68
75
82
100
120
150
180
220
270
330
390
470
500 630 1000 1500 2000 2500