MULTILAYER CERAMIC CAPACITORS/AXIAL & RADIAL LEADED Multilayer ceramic capacitors are available in a variety of physical sizes and configurations, including leaded devices and surface mounted chips. Leaded styles include molded and conformally coated parts with axial and radial leads. However, the basic capacitor element is similar for all styles. It is called a chip and consists of formulated dielectric materials which have been cast into thin layers, interspersed with metal electrodes alternately exposed on opposite edges of the laminated structure. The entire structure is fired at high temperature to produce a monolithic block which provides high capacitance values in a small physical volume. After firing, conductive terminations are applied to opposite ends of the chip to make contact with the exposed electrodes. Termination materials and methods vary depending on the intended use. TEMPERATURE CHARACTERISTICS Ceramic dielectric materials can be formulated with Class III: General purpose capacitors, suitable a wide range of characteristics. The EIA standard for for by-pass coupling or other applications in which ceramic dielectric capacitors (RS-198) divides ceramic dielectric losses, high insulation resistance and dielectrics into the following classes: stability of capacitance characteristics are of little or no importance. Class III capacitors are similar to Class Class I: Temperature compensating capacitors, II capacitors except for temperature characteristics, suitable for resonant circuit application or other appliwhich are greater than ± 15%. Class III capacitors cations where high Q and stability of capacitance charhave the highest volumetric efficiency and poorest acteristics are required. Class I capacitors have stability of any type. predictable temperature coefficients and are not affected by voltage, frequency or time. They are made KEMET leaded ceramic capacitors are offered in from materials which are not ferro-electric, yielding the three most popular temperature characteristics: superior stability but low volumetric efficiency. Class I C0G: Class I, with a temperature coefficient of 0 ± capacitors are the most stable type available, but have 30 ppm per degree C over an operating the lowest volumetric efficiency. temperature range of - 55°C to + 125°C (Also known as “NP0”). Class II: Stable capacitors, suitable for bypass X7R: Class II, with a maximum capacitance or coupling applications or frequency discriminating change of ± 15% over an operating temperature circuits where Q and stability of capacitance charrange of - 55°C to + 125°C. acteristics are not of major importance. Class II Z5U: Class III, with a maximum capacitance capacitors have temperature characteristics of ± 15% change of + 22% - 56% over an operating temor less. They are made from materials which are perature range of + 10°C to + 85°C. ferro-electric, yielding higher volumetric efficiency but less stability. Class II capacitors are affected by Specified electrical limits for these three temperature temperature, voltage, frequency and time. characteristics are shown in Table 1. SPECIFIED ELECTRICAL LIMITS Temperature Characteristics Parameter Dissipation Factor: Measured at following conditions. C0G – 1 kHz and 1 vrms if capacitance >1000pF 1 MHz and 1 vrms if capacitance 1000 pF X7R – 1 kHz and 1 vrms* or if extended cap range 0.5 vrms Z5U – 1 kHz and 0.5 vrms C0G X7R Z5U 0.10% 2.5% (3.5% @ 25V) 4.0% Dielectric Stength: 2.5 times rated DC voltage. Pass Subsequent IR Test Insulation Resistance (IR): At rated DC voltage, whichever of the two is smaller 1,000 M F or 100 G 1,000 M F or 100 G Temperature Characteristics: Range, °C Capacitance Change without DC voltage -55 to +125 0 ± 30 ppm/°C -55 to +125 ± 15% * MHz and 1 vrms if capacitance 1,000 M or 10 G 100 pF on military product. Table I 4 © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 F + 10 to +85 +22%,-56% APPLICATION NOTES FOR MULTILAYER CERAMIC CAPACITORS Polarity: Multilayer ceramic capacitors are not polar, and may be used with DC voltage applied in either direction. Rated Voltage: This term refers to the maximum continuous DC working voltage permissible across the entire operating temperature range. Multilayer ceramic capacitors are not extremely sensitive to voltage, and brief applications of voltage above rated will not result in immediate failure. However, reliability will be reduced by exposure to sustained voltages above rated. Capacitance: The standard unit of capacitance is the farad. For practical capacitors, it is usually expressed in microfarads (10-6 farad), nanofarads (10-9 farad), or picofarads (10-12 farad). Standard measurement conditions are as follows: Class I (up to 1,000 pF): 1MHz and 1.2 VRMS maximum. Class I (over 1,000 pF): 1kHz and 1.2 VRMS maximum. Class II: 1 kHz and 1.0 ± 0.2 VRMS. Class III: 1 kHz and 0.5 ± 0.1 VRMS. Like all other practical capacitors, multilayer ceramic capacitors also have resistance and inductance. A simplified schematic for the equivalent circuit is shown in Figure 1. Other significant electrical characteristics resulting from these additional properties are as follows: R P Figure 1 R S L C C = Capacitance L = Inductance R = Equivalent Series Resistance (ESR) S R = Insulation Resistance (IR) P Impedance: Since the parallel resistance (Rp) is normally very high, the total impedance of the capacitor is: Z= Where 2 RS + (XC - XL) 2 Z = Total Impedance RS = Equivalent Series Resistance XC = Capacitive Reactance = 1 2π πfC XL = Inductive Reactance = 2π πfL The variation of a capacitor’s impedance with frequency determines its effectiveness in many applications. Application Notes ELECTRICAL CHARACTERISTICS The fundamental electrical properties of multilayer ceramic capacitors are as follows: Dissipation Factor: Dissipation Factor (DF) is a measure of the losses in a capacitor under AC application. It is the ratio of the equivalent series resistance to the capacitive reactance, and is usually expressed in percent. It is usually measured simultaneously with capacitance, and under the same conditions. The vector diagram in Figure 2 illustrates the relationship between DF, ESR, and impedance. The reciprocal of the dissipation factor is called the “Q”, or quality factor. For convenience, the “Q” factor is often used for very low values of dissipation factor. DF is sometimes called the “loss tangent” or “tangent d”, as derived from this diagram. ESR Figure 2 O DF = ESR Xc δ X c Ζ 1 Xc = 2πfC Insulation Resistance: Insulation Resistance (IR) is the DC resistance measured across the terminals of a capacitor, represented by the parallel resistance (Rp) shown in Figure 1. For a given dielectric type, electrode area increases with capacitance, resulting in a decrease in the insulation resistance. Consequently, insulation resistance is usually specified as the “RC” (IR x C) product, in terms of ohm-farads or megohm-microfarads. The insulation resistance for a specific capacitance value is determined by dividing this product by the capacitance. However, as the nominal capacitance values become small, the insulation resistance calculated from the RC product reaches values which are impractical. Consequently, IR specifications usually include both a minimum RC product and a maximum limit on the IR calculated from that value. For example, a typical IR specification might read “1,000 megohm-microfarads or 100 gigohms, whichever is less.” Insulation Resistance is the measure of a capacitor to resist the flow of DC leakage current. It is sometimes referred to as “leakage resistance.” The DC leakage current may be calculated by dividing the applied voltage by the insulation resistance (Ohm’s Law). Dielectric Withstanding Voltage: Dielectric withstanding voltage (DWV) is the peak voltage which a capacitor is designed to withstand for short periods of time without damage. All KEMET multilayer ceramic capacitors will withstand a test voltage of 2.5 x the rated voltage for 60 seconds. KEMET specification limits for these characteristics at standard measurement conditions are shown in Table 1 on page 4. Variations in these properties caused by changing conditions of temperature, voltage, frequency, and time are covered in the following sections. © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 5 APPLICATION NOTES FOR MULTILAYER CERAMIC CAPACITORS TABLE 1 EIA TEMPERATURE CHARACTERISTIC CODES FOR CLASS I DIELECTRICS Significant Figure of Temperature Coefficient Multiplier Applied to Temperature Coefficient Tolerance of Temperature Coefficient * PPM per Degree C Letter Symbol Multiplier Number Symbol PPM per Degree C Letter Symbol 0.0 0.3 0.9 1.0 1.5 2.2 3.3 4.7 7.5 C B A M P R S T U -1 -10 -100 -1000 -100000 +1 +10 +100 +1000 +10000 0 1 2 3 4 5 6 7 8 9 ±30 ±60 ±120 ±250 ±500 ±1000 ±2500 G H J K L M N * These symetrical tolerances apply to a two-point measurement of temperature coefficient: one at 25°C and one at 85°C. Some deviation is permitted at lower temperatures. For example, the PPM tolerance for C0G at -55°C is +30 / -72 PPM. TABLE 2 EIA TEMPERATURE CHARACTERISTIC CODES FOR CLASS II & III DIELECTRICS 6 Low Temperature Rating High Temperature Maximum Capacitance Rating Shift Degree Celcius Letter Symbol Degree Celcius Number Symbol +10C -30C -55C Z Y X +45C +65C +85C +105C +125C +150C +200C 2 4 5 6 7 8 9 Percent ±1.0% ±1.5% ±2.2% ±3.3% ±4.7% ±7.5% ±10.0% ±15.0% ±22.0% +22 / -33% +22 / -56% +22 / -82% Letter Symbol A B C D E F P R S T U V +10 +20 +30 +40 +50 +60 +70 © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 +80 APPLICATION NOTES FOR MULTILAYER CERAMIC CAPACITORS Application Notes At higher AC voltages, both capacitance and dissipation factor begin to decrease. Typical curves showing the effect of applied AC and DC voltage are shown in Figure 6 for KEMET X7R capacitors and Figure 7 for KEMET Z5U capacitors. Effect of Frequency: Frequency affects both capacitance and dissipation factor. Typical curves for KEMET multilayer ceramic capacitors are shown in Figures 8 and 9. The variation of impedance with frequency is an important consideration in the application of multilayer ceramic capacitors. Total impedance of the capacitor is the vector of the capacitive reactance, the inductive reactance, and the ESR, as illustrated in Figure 2. As frequency increases, the capacitive reactance decreases. However, the series inductance (L) shown in Figure 1 produces inductive reactance, which increases with frequency. At some frequency, the impedance ceases to be capacitive and becomes inductive. This point, at the bottom of the V-shaped impedance versus frequency curves, is the self-resonant frequency. At the self-resonant frequency, the reactance is zero, and the impedance consists of the ESR only. Typical impedance versus frequency curves for KEMET multilayer ceramic capacitors are shown in Figures 10, 11, and 12. These curves apply to KEMET capacitors in chip form, without leads. Lead configuration and lead length have a significant impact on the series inductance. The lead inductance is approximately 10nH/inch, which is large compared to the inductance of the chip. The effect of this additional inductance is a decrease in the self-resonant frequency, and an increase in impedance in the inductive region above the self-resonant frequency. Effect of Time: The capacitance of Class II and III dielectrics change with time as well as with temperature, voltage and frequency. This change with time is known as “aging.” It is caused by gradual realignment of the crystalline structure of the ceramic dielectric material as it is cooled below its Curie temperature, which produces a loss of capacitance with time. The aging process is predictable and follows a logarithmic decay. Typical aging rates for C0G, X7R, and Z5U dielectrics are as follows: C0G X7R Z5U Effect of Temperature: Both capacitance and dissipation factor are affected by variations in temperature. The maximum capacitance change with temperature is defined by the temperature characteristic. However, this only defines a “box” bounded by the upper and lower operating temperatures and the minimum and maximum capacitance values. Within this “box”, the variation with temperature depends upon the specific dielectric formulation. Typical curves for KEMET capacitors are shown in Figures 3, 4, and 5. These figures also include the typical change in dissipation factor for KEMET capacitors. Insulation resistance decreases with temperature. Typically, the insulation resistance at maximum rated temperature is 10% of the 25°C value. Effect of Voltage: Class I ceramic capacitors are not affected by variations in applied AC or DC voltages. For Class II and III ceramic capacitors, variations in voltage affect only the capacitance and dissipation factor. The application of DC voltage higher than 5 vdc reduces both the capacitance and dissipation factor. The application of AC voltages up to 10-20 Vac tends to increase both capacitance and dissipation factor. None 2.0% per decade of time 5.0% per decade of time Typical aging curves for X7R and Z5U dielectrics are shown in Figure 13. The aging process is reversible. If the capacitor is heated to a temperature above its Curie point for some period of time, de-aging will occur and the capacitor will regain the capacitance lost during the aging process. The amount of deaging depends on both the elevated temperature and the length of time at that temperature. Exposure to 150°C for onehalf hour or 125°C for two hours is usually sufficient to return the capacitor to its initial value. Because the capacitance changes rapidly immediately after de-aging, capacitance measurements are usually delayed for at least 10 hours after the de-aging process, which is often referred to as the “last heat.” In addition, manufacturers utilize the aging rates to set factory test limits which will bring the capacitance within the specified tolerance at some future time, to allow for customer receipt and use. Typically, the test limits are adjusted so that the capacitance will be within the specified tolerance after either 1,000 hours or 100 days, depending on the manufacturer and the product type. © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 7 APPLICATION NOTES FOR MULTILAYER CERAMIC CAPACITORS POWER DISSIPATION Power dissipation has been empirically determined for two representative KEMET series: C052 and C062. Power dissipation capability for various mounting configurations is shown in Table 3. This table was extracted from Engineering Bulletin F-2013, which provides a more detailed treatment of this subject. Note that no significant difference was detected between the two sizes in spite of a 2 to 1 surface area ratio. Due to the materials used in the construction of multilayer ceramic capacitors, the power dissipation capability does not depend greatly on the surface area of the capacitor body, but rather on how well heat is conducted out of the capacitor lead wires. Consequently, this power dissipation capability is applicable to other leaded multilayer styles and sizes. TABLE 3 POWER DISSIPATION CAPABILITY (Rise in Celsius degrees per Watt) Mounting Configuration Power Dissipation of C052 & C062 1.00" leadwires attached to binding post of GR-1615 bridge (excellent heat sink) 90 Celsius degrees rise per Watt ±10% 0.25" leadwires attached to binding post of GR-1615 bridge 55 Celsius degrees rise per Watt ±10% Capacitor mounted flush to 0.062" glassepoxy circuit board with small copper traces 77 Celsius degrees rise per Watt ±10% Capacitor mounted flush to 0.062" glassepoxy circuit board with four square inches of copper land area as a heat sink 53 Celsius degrees rise per Watt ±10% As shown in Table 3, the power dissipation capability of the capacitor is very sensitive to the details of its use environment. The temperature rise due to power dissipation should not exceed 20°C. Using that constraint, the maximum permissible power dissipation may be calculated from the data provided in Table 3. It is often convenient to translate power dissipation capability into a permissible AC voltage rating. Assuming a sinusoidal wave form, the RMS “ripple voltage” may be calculated from the following formula: E=Zx Where PMAX R RELIABILITY A well constructed multilayer ceramic capacitor is extremely reliable and, for all practical purposes, has an infinite life span when used within the maximum voltage and temperature ratings. Capacitor failure may be induced by sustained operation at voltages that exceed the rated DC voltage, voltage spikes or transients that exceed the dielectric withstanding voltage, sustained operation at temperatures above the maximum rated temperature, or the excessive temperature rise due to power dissipation. Failure rate is usually expressed in terms of percent per 1,000 hours or in FITS (failure per billion hours). Some KEMET series are qualified under U.S. military established reliability specifications MIL-PRF-20, MIL-PRF-123, MILPRF-39014, and MIL-PRF-55681. Failure rates as low as 0.001% per 1,000 hours are available for all capacitance / voltage ratings covered by these specifications. These specifications and accompanying Qualified Products List should be consulted for details. For series not covered by these military specifications, an internal testing program is maintained by KEMET Quality Assurance. Samples from each week’s production are subjected to a 2,000 hour accelerated life test at 2 x rated voltage and maximum rated temperature. Based on the results of these tests, the average failure rate for all non-military series covered by this test program is currently 0.06% per 1,000 hours at maximum rated conditions. The failure rate would be much lower at typical use conditions. For example, using MILHDBK-217D this failure rate translates to 0.9 FITS at 50% rated voltage and 50°C. Current failure rate details for specific KEMET multilayer ceramic capacitor series are available on request. MISAPPLICATION Ceramic capacitors, like any other capacitors, may fail if they are misapplied. Typical misapplications include exposure to excessive voltage, current or temperature. If the dielectric layer of the capacitor is damaged by misapplication the electrical energy of the circuit can be released as heat, which may damage the circuit board and other components as well. If potential for misapplication exists, it is recommended that precautions be taken to protect personnel and equipment during initial application of voltage. Commonly used precautions include shielding of personnel and sensing for excessive power drain during board testing. E = RMS Ripple Voltage (volts) P = Power Dissipation (watts) Z = Impedance R = ESR The data necessary to make this calculation is included in Engineering Bulletin F-2013. However, the following criteria must be observed: 1. The temperature rise due to power dissipation should be limited to 20°C. 2. The peak AC voltage plus the DC voltage must not exceed the maximum working voltage of the capacitor. Provided that these criteria are met, multilayer ceramic 8 capacitors may be operated with AC voltage applied without need for DC bias. STORAGE AND HANDLING Ceramic chip capacitors should be stored in normal working environments. While the chips themselves are quite robust in other environments, solderability will be degraded by exposure to high temperatures, high humidity, corrosive atmospheres, and long term storage. In addition, packaging materials will be degraded by high temperature – reels may soften or warp, and tape peel force may increase. KEMET recommends that maximum storage temperature not exceed 40˚ C, and maximum storage humidity not exceed 70% relative humidity. In addition, temperature fluctuations should be minimized to avoid condensation on the parts, and atmospheres should be free of chlorine and sulfur bearing compounds. For optimized solderability, chip stock should be used promptly, preferably within 1.5 years of receipt. © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 APPLICATION NOTES FOR MULTILAYER CERAMIC CAPACITORS IMPEDANCE VS FREQUENCY 0.20 100 Impedance vs. Frequency Ceramic C0G Leaded .001μF %ΔC 0.10 %DF .01μF 100 %DF -0.2 100 Figure 8. 1K 10K 100K 1M 0.0 10M Frequency - Hertz Capacitance & DF vs Frequency - C0G Impedance (Ohms) 10 10. Figure 10. Figure -0.1 Impedance (Ohms) %ΔC +0.1 0 Application Notes EFFECT OF FREQUENCY +0.2 vs Frequency ImpedanceImpedance vs Frequency for C0G Dielectric for C0G Dielectric 10 1 0.001µF 1 0.1 10. Figure 10. Figure 0.1 vs Frequency vs 0.01µF Frequency ImpedanceImpedance for C0G Dielectric for C0G Dielectric 0.01 0.01 0.1 1 1 0 100 1000 Frequency - MHz 5.0 -10 2.5 -15 0.0 10M 100 1K 10K 100K 1M Figure 9. Frequency - Hertz Capacitance & DF vs Frequency - X7R & Z5U Figure 10. Frequency - MHz Impedance Impedance vs Frequency for C0G Dielectric vs. Frequency Leaded X7R 100 100 Impedance (Ohms) %ΔC %ΔC -5 1,000 7.5 Impedance (Ohms) %DF 0 Impedance vs Frequency Figure 10. Figure 10. Impedance vs Frequency 10.0 0.001 for C0G Dielectric for 0.1 1 C0G Dielectric 10 100 %DF +5 0.1μF 10 10 0.01µF .01μF 0.1µF 1.0 μF 1 1.0µF Impedance 11. Impedance vs Frequency Figure 11. Figure vs Frequency 1 0.1 for X7R Dielectric for X7R Dielectric EFFECT OF TIME (hours) 0.1 1 10 100 1000 Frequency - MHz vs Frequency Figure 11. Figure 11. ImpedanceImpedance vs Frequency 0.01 for X7R Dielectric for X7R Dielectric X7R X7R Capacitance Capacitance 0.001 0.1 1 Impedance vs. 10 Frequency 100 1,000 Z5U Z5U Impedance (Ohms) Leaded Z5U Figure Impedance vs Frequency Figure 11.Figure vs Frequency 11.11.ImpedanceFrequency - MHz for X7Rfor Dielectric for X7R Dielectric 100 Impedance vs Frequency X7R Dielectric 10 100 10 10 100 100 1000 1000 10K 10K Figure 13. Typical Aging Rates for X7R & Z5U 100K 100K Impedance (Ohms) 100% 100% 98% 98% 96% 96% 94% 94% 92% 92% 90% 90% 88% 88% 86% 86% 84% 84% 82% 82% 80% 80% 78% 78% 76% 76% 74% 74% 11 0.01 0.1 0.1µF 1 0.1μF 1.0µF 10 0.1 1.0 μF 0.01 1 0.1 1 1 0 100 1000 Frequency - MHz vs Frequency Figure 12. Figure 12. ImpedanceImpedance vs Frequency for Z5U Dielectric for Z5U Dielectric 0.1 0.01 vs Frequency Figure 12. Figure 12. ImpedanceImpedance vs Frequency for Z5U Dielectric for Z5U Dielectric 0.001 0.1 1 10 100 1,000 Figure 12. Frequency - MHz Impedance vs Frequency for Z5U Dielectric Impedance vs Frequency Figure 12. Figure 12.Impedance vs Frequency for Z5U Dielectric for Z5U Dielectric © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 9 MIL-STD-202, Method 208, Sn62 solder, 245 C for 5 ±1/2 seconds. CERAMIC MOLDED AXIAL & RADIAL Terminal Strength: PERFORMANCE CHARACTERISTICS EIA-198 Method 303, Condition A (2.2 kg) GENERAL SPECIFICATIONS Working Voltage: C0G – 50, 100, 200 X7R – 50, 100, 200 Temperature Characteristics: C0G 0 ±30 PPM / °C from -55°C to +125°C X7R ± 15% from -55°C to +125°C Capacitance Tolerance: C0G ±0.5pF, ±1%, ±2%, ±5%, ±10%, ±20% (±0.5pF is tightest tolerance available) X7R ±10%, ±20%, -0 +100%, +80% / -20% Construction: Monolithic block of ceramic dielectric with Interdigitated internal electrodes, encapsulated in a molded case, and having axial or radial leads. Meets flame test requirements of UL Standard 94V-0. ELECTRICAL Capacitance: Within specified tolerance and when measured with 1 volt rms at 1kHz (1000 pF or less at 1 MHz for C0G). Dissipation Factor @25°C: 25°C at 1kHz (1000 pF or less at 1 MHz for C0G). C0G – 0.15% maximum X7R – 2.5% maximum Insulation Resistance: After 2 minutes electrification at 25°C and rated voltage C0G – 100K M or 1000 M – F, whichever is less. X7R – 100K M or 1000 M – F, whichever is less. Dielectric Withstanding Voltage: 250% of rated voltage for 5 seconds with current limited to 50 mA at 25°C. Lead Material: Axial: Solder coated copper clad steel Radial: Solder-coated copper standard (100% tin plated optional) Solderability: MIL-STD-202, Method 208, Sn62 solder, 245°C for 5 ±1/2 seconds. Terminal Strength: EIA-198 Method 303, Condition A (2.2 kg) ELECTRICAL Capacitance: Within specified tolerance and when measured with 1 volt rms at 1kHz (1000 pF or less at 1 MHz for C0G). Dissipation Factor @25°C: 25°C at 1kHz (1000 pF or less at 1 MHz for C0G). C0G – 0.15% maximum X7R – 2.5% maximum Ceramic Molded Axial/Radial - Standard Insulation Resistance: After 2 minutes electrification at 25°C and rated voltage C0G – 100K M or 1000 M – F, whichever is less. X7R – 100K M or 1000 M – F, whichever is less. Dielectric Withstanding Voltage: 250% of rated voltage for 5 seconds with current limited to 50 mA at 25°C. © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 27 CERAMIC MOLDED/MIL-C-11015 & MIL-PRF-39014 (CKR) CAPACITOROUTLINE OUTLINEDRAWINGS DRAWINGS- (AXIAL CAPACITOR (AXIALLEADS) LEADS) L 1.50 Min. (38.10) D 1.50 Min. (38.10) C DIMENSIONS — INCHES (MILLIMETERS) Case Size Military Equivalent Styles L Length D Body Diameter C Lead Diameter C114 CK12, CKR11 .160 ± .010 (4.06 ± .25) .090 ± .010 (2.29 ± .25) .020, +.000, -.003 (.51, +.00, -.08) C124 CK13, CCR12 .250 ± .010 (6.35 ± .25) .090 ± .010 (2.29 ± .25) .020, +.000, -.003 (.51, +.00, -.08) C192 CK14, CKR14 .390 ± .010 (9.91 ± .25) .140 ± .010 (3.56 ± .25) .025, +.002, -.002 (.64, +.05, -.05) C202 CK15, CKR15 .500 ± .020 (12.70 ± .51) .250 ± .015 (6.35 ± .38) .025, +.002, -.002 (.64, +.05, -.05) C222 CK16, CKR16 .690 ± .030 (17.53 ± .76) .350 ± .020 (8.89 ± .51) .025, +.002, -.002 (.64, +.05, -.05) CAPACITOR OUTLINE DRAWINGS (RADIAL LEADS) C052 (CK05, CKR05) L L H *1.25 MIN. C062 (CK06, CKR06) C056 (CKR05) W Lead Dia. .025 (+.004 -.002) *1.25 MIN. .026 MIN. Lead Dia. .025 (+.004 -.002) S S C066 (CKR06) W L H H .045 MAX. L W *1.25 MIN. W .026 MIN. H Lead Dia. .025 (+.004 -.002) *1.25 MIN. S Center Line of leads within .030" of Center Line of case. Lead Dia. .025 (+.004 -.002) S * Leads are .625 minimum when tape and reel packaged. DIMENSIONS — INCHES (MILLIMETERS) 40 Case Size Military Equivalent Styles H Height L Length W Width S Lead Spacing C052/ C056 CK05, CKR05 .190 ± .010 (4.83 ± .25) .190 ± .010 (4.83 ± .25) .090 ± .010 (2.29 ± .25) .200 ± .015 (5.08 ± .38) C062/ C066 CK06, CKR06 .290 ± .010 (7.37 ± .25) .290 ± .010 (7.37 ± .25) .090 ± .010 (2.29 ± .25) .200 ± .015 (5.08 ± .38) © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 CERAMIC MOLDED/MIL-C-11015 & MIL-PRF-39014 (CKR) ORDERING INFORMATION 102 CERAMIC CASE SIZE See Table Below K 2 X 5 C SPECIFICATION Military T – MIL-PRF-39014 K – MIL-C-11015 CAPACITANCE PICOFARAD CODE TEMPERATURE CHARACTERISTIC CAPACITANCE TOLERANCE M – ±20% K – ±10% KEMET Military EIA Designator Equivalent Equivalent X (Stable) Standard tolerances for each Series are shown in the repetitive parts lists. Radial C052 C056 C062 C066 Axial C114 C124 C192 C202 C222 FAILURE RATE A – Not Applicable M – 1.0% P – 0.1% R – 0.01% S – 0.001% LEAD MATERIAL C – 60/40 Tin/Lead (SnPb) INTERNAL CONSTRUCTION 5 – Multilayer Expressed in picofarads (pF). First two digits represent significant figures. Third digit specifies number of zeros following except 9 indicates division by 10). Examples: 0.1 µF = 100,000 pF = 104 and 9.1 pF = 919. See tables for standard values. Case Sizes A R (Stable) BX X7R BR X7R Cap. Change with Temp. Measured Measured Temp with Bias without DC Range, °C (Rated Bias Voltage Voltage) -55 to +15% ±15% +125° -25% -55° to +125 ±15% MIL-C-11015 MIL-PRF-39014 C 052 K +15% -40% WORKING VOLTAGE DC 2 – 200V; 1 – 100V; 5 – 50V Part Number Example: C052K102K2X5CA (14 digits – no spaces) MARKING INFORMATION C114T (CKR11) THROUGH C222T (CKR16) PER MIL-PRF-39014 C124T (CKR12) C114T (CKR11) JK 103 KP8 37A CKR12 2657J 0837A 31433 J for JAN K for KEMET Capacitance Capacitance Tolerance, FR Level & Date Code (Year) Week and Lot Code C192T (CKR14) C202T (CKR15) C222T (CKR16) Style Dash No., J for JAN Date & Lot Code Source Code (Federal Supply Code for Manufacturers, FSCM) M39014 5-2125 KEMET 0837A J50V 105K Complete Part Number Manufacturer’s Name Date & Lot Code JAN & Voltage Capacitance, pF Code, Capacitance Tolerance C052/56T (CKR05) PER MIL-PRF-39014/01 FRONT Specification Sheet No. Four Digit Part No. M390 14/01 1579* BACK JK 0837 A JAN-KEMET Date Code Lot Code *Add “V” as the last digit for stand-off leads. C062/66T (CKR06) PER MIL-PRF-39014/02 Complete MIL Part No. Manufacturer’s Name FRONT BACK M39014 2-1338 *KEMET 0837A J200V 103K Date & Lot Code JAN & Voltage Capacitance, pF Code, Capacitance Tolerance *Add “V” as the last digit for stand-off leads. C114K (CK12) THROUGH C222K (CK16) PER MIL-C-11015 C114K (CK12) C124K (CK13) KCK 12BX 102K 0837 C192K (CK14) C202K (CK15) C222K (CK16) KEMET, CK Style (12 or 13), Temp. Char. (BX or BR) Capacitance, pF Code, Capacitance Tolerance Date Code K100V CK14BX 123K 0837 KEMET, Voltage Style (14, 15 or 16), Temp. Char. (BX or BR) Capacitance, pF Code, Capacitance Tolerance Date Code C052K (CK05) PER MIL-C-11015/18 & C062K (CK06) PER MIL-C-11015/19 FRONT Style Temperature Characteristic Capacitance, pF Code, Capacitance Tolerance CK05 BX 102K BACK 200V K 0801 Voltage KEMET Date Code © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 41 CERAMIC MOLDED/AXIAL — MIL-C-11015 & MIL-PRF-39014 STABLE TEMPERATURE CHARACTERISTICS—BX & BR (EIA-X7R) RATINGS & PART NUMBER REFERENCE CAP. pF TOL. % KEMET PART NUMBER MIL-C-11015/02 MIL-PRF-39014/05 MIL-PRF-39014/05 For Failure Rate Levels (2) M P R S 2601 2602 2603 2604 2605 2606 2607 2608 2609 2610 2611 2612 2613 2614 2615 2616 2617 2618 2619 2620 2621 2622 2623 2624 2625 2626 2627 2628 2629 2630 2631 2632 2633 2634 2635 2636 2637 2638 2639 2640 2641 2642 2643 2644 2645 2646 2647 2648 2649 2650 2801 2802 2803 2804 2805 2806 2807 2808 2809 2810 2811 2812 2813 2814 2815 2816 2817 2818 2819 2820 2821 2822 2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844 2845 2846 2847 2848 2849 2850 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2201 2202 2203 2204 2205 2206 2207 2208 2209 2210 2211 2212 2213 2214 2215 2216 2217 2218 2219 2220 2221 2222 2223 2224 2225 2226 2227 2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2239 2240 2241 2242 2243 2244 2245 2246 2247 2248 2249 2250 10 10 12 15 15 18 22 22 27 33 33 39 47 47 56 68 68 82 100 100 120 150 150 180 220 220 270 330 330 390 470 470 560 680 680 820 1,000 1,000 1,200 1,500 1,500 1,800 2,200 2,200 2,700 3,300 3,300 3,900 4,700 4,700 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 100 VOLT – C114 SIZE (MILITARY-CK12 or CKR11) CK12BX100K C114(1)100K1X5C(2) CKR11BX100K(2) CK12BX100M C114(1)100M1X5C(2) CKR11BX100M(2) CK12BX120K C114(1)120K1X5C(2) CKR11BX120K(2) CK12BX120K C114(1)150K1X5C(2) CKR11BX150K(2) CK12BX150M C114(1)150M1X5C(2) CKR11BX150M(2) CK12BX180K C114(1)180K1X5C(2) CKR11BX180K(2) CK12BX220K C114(1)220K1X5C(2) CKR11BX220K(2) CK12BX220M C114(1)220M1X5C(2) CKR11BX220M(2) CK12BX270K C114(1)270K1X5C(2) CKR11BX270K(2) CK12BX330K C114(1)330K1X5C(2) CKR11BX330K(2) CK12BX330M C114(1)330M1X5C(2) CKR11BX330M(2) CK12BX390K C114(1)390K1X5C(2) CKR11BX390K(2) CK12BX470K C114(1)470K1X5C(2) CKR11BX470K(2) CK12BX470M C114(1)470M1X5C(2) CKR11BX470M(2) CK12BX560K C114(1)560K1X5C(2) CKR11BX560K(2) CK12BX680K C114(1)680K1X5C(2) CKR11BX560K(2) CK12BX680M C114(1)680M1X5C(2) CKR11BX680M(2) CK12BX820K C114(1)820K1X5C(2) CKR11BX820K(2) CK12BX102K C114(1)101K1X5C(2) CKR11BX102K(2) CK12BX102M C114(1)101M1X5C(2) CKR11BX102M(2) CK12BX121K C114(1)121K1X5C(2) CKR11BX121K(2) CK12BX151K C114(1)151K1X5C(2) CKR11BX151K(2) CK12BX151M C114(1)151M1X5C(2) CKR11BX151M(2) CK12BX181K C114(1)181K1X5C(2) CKR11BX181K(2) CK12BX221K C114(1)221K1X5C(2) CKR11BX221K(2) CK12BX221M C114(1)221M1X5C(2) CKR11BX221K(2) CK12BX271K C114(1)271K1X5C(2) CKR11BX271K(2) CK12BX331K C114(1)331K1X5C(2) CKR11BX331K(2) CK12BX331M C114(1)331M1X5C(2) CKR11BX331M(2) CK12BX391K C114(1)391K1X5C(2) CKR11BX391K(2) CK12BX471K C114(1)471K1X5C(2) CKR11BX471K(2) CK12BX471M C114(1)471M1X5C(2) CKR11BX471M(2) CK12BX561K C114(1)561K1X5C(2) CKR11BX561K(2) CK12BX681K C114(1)681K1X5C(2) CKR11BX561K(2) CK12BX681M C114(1)681M1X5C(2) CKR11BX681M(2) CK12BX821K C114(1)821K1X5C(2) CKR11BX821K(2) CK12BX102K C114(1)102K1X5C(2) CKR11BX102K(2) CK12BX102M C114(1)102M1X5C(2) CKR11BX102M(2) CK12BX122K C114(1)122K1X5C(2) CKR11BX122K(2) CK12BX152K C114(1)152K1X5C(2) CKR11BX152K(2) CK12BX152M C114(1)152M1X5C(2) CKR11BX152M(2) CK12BX182K C114(1)182K1X5C(2) CKR11BX182K(2) CK12BX222K C114(1)222K1X5C(2) CKR11BX222K(2) CK12BX222M C114(1)222M1X5C(2) CKR11BX222M(2) CK12BX272K C114(1)272K1X5C(2) CKR11BX272K(2) CK12BX332K C114(1)332K1X5C(2) CKR11BX332K(2) CK12BX332M C114(1)332M1X5C(2) CKR11BX332M(2) CK12BX392K C114(1)392K1X5C(2) CKR11BX392K(2) CK12BX472K C114(1)472K1X5C(2) CKR11BX472K(2) CK12BX472M C114(1)472M1X5C(2) CKR11BX472M(2) 5,600 6,800 6,800 8,200 10,000 10,000 10 10 20 10 10 20 50 VOLT – C114 SIZE (MILITARY-CK12 or CKR11) CK12BX562K C114(1)562K5X5C(2) CKR11BX562K(2) CK12BX682K C114(1)682K5X5C(2) CKR11BX682K(2) CK12BX682M C114(1)682M5X5C(2) CKR11BX682M(2) CK12BX822K C114(1)822K5X5C(2) CKR11BX822K(2) CK12BX103K C114(1)103K5X5C(2) CKR11BX103K(2) CK12BX103M C114(1)103M5X5C(2) CKR11BX103M(2) 2651 2652 2653 2654 2655 2656 2851 2852 2853 2854 2855 2856 2051 2052 2053 2054 2055 2056 2251 2252 2253 2254 2255 2256 5,600 6,800 6,800 8,200 10,000 10,000 10 10 20 10 10 20 100 VOLT – C124 SIZE (MILITARY-CK13 or CKR12) CK13BX562K C124(1)562K1X5C(2) CKR12BX562K(2) CK13BX682K C124(1)682K1X5C(2) CKR12BX682K(2) CK13BX682M C124(1)682M1X5C(2) CKR12BX682M(2) CK13BX822K C124(1)822K1X5C(2) CKR12BX822K(2) CK13BX103K C124(1)103K1X5C(2) CKR12BX103K(2) CK13BX103M C124(1)103M1X5C(2) CKR12BX103M(2) 2657 2658 2659 2660 2661 2662 2857 2858 2859 2860 2861 2862 2057 2058 2059 2060 2061 2062 2257 2258 2259 2260 2261 2262 12,000 15,000 15,000 18,000 22,000 22,000 27,000 33,000 33,000 39,000 47,000 47,000 10 10 20 10 10 20 10 10 20 10 10 20 50 VOLT – C124 SIZE (MILITARY-CK13 or CKR12) CK13BX123K C124(1)123K5X5C(2) CKR12BX123K(2) CK13BX153K C124(1)153K5X5C(2) CKR12BX153K(2) CK13BX153M C124(1)153M5X5C(2) CKR12BX153M(2) CK13BX183K C124(1)183K5X5C(2) CKR12BX183K(2) CK13BX223K C124(1)183K5X5C(2) CKR12BX223K(2) CK13BX223M C124(1)223M5X5C(2) CKR12BX223M(2) CK13BX273K C124(1)273K5X5C(2) CK13BX333K C124(1)333K5X5C(2) CK13BX333M C124(1)333M5X5C(2) CK13BX393K C124(1)393K5X5C(2) CK13BX473K C124(1)473K5X5C(2) CK13BX473M C124(1)473M5X5C(2) 2663 2664 2665 2666 2667 2668 2863 2864 2865 2866 2861 2868 2063 2064 2065 2066 2061 2068 2263 2264 2265 2266 2261 2268 (1) Insert proper letter for specification: K — MIL-C-11015; T — MIL-PRF-39014 (2) Failure Rate Designator: A — Not applicable (MIL-C-11015); M — 1%/1000 Hours, P — .1%/1000 Hours, R — .01%/1000 Hours, S — .001%/1000 Hours (MIL-PRF-39014) 42 © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 CERAMIC MOLDED/AXIAL — MIL-C-11015 & MIL-PRF-39014 STABLE TEMPERATURE CHARACTERISTICS—BX & BR (EIA-X7R) RATINGS & PART NUMBER REFERENCE TOL. % KEMET PART NUMBER MIL-C-11015/02 MIL-PRF-39014/05 MIL-PRF-39014/05 For Failure Rate Levels (2) M P R S 2669 2670 2671 2672 2673 2674 2869 2870 2871 2872 2873 2874 2069 2070 2071 2072 2073 2074 2269 2270 2271 2272 2273 2274 27,000 33,000 33,000 39,000 47,000 47,000 10 10 20 10 10 20 50 VOLT – C124 SIZE (MILITARY-CK13 or CKR12)(continued) C124T273K5X5C(2) CKR12BX273K(2) C124T333K5X5C(2) CKR12BX333K(2) C124T333M5X5C(2) CKR12BX333M(2) C124T393K5X5C(2) CKR12BX393K(2) C124T473K5X5C(2) CKR12BX473K(2) C124T473M5X5C(2) CKR12BX473M(2) 12,000 15,000 15,000 18,000 22,000 22,000 27,000 33,000 33,000 39,000 47,000 47,000 56,000 68,000 68,000 82,000 100,000 100,000 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 100 VOLT – C192 SIZE (MILITARY-CK14 or CKR14) CK14BX123K C192(1)123K1X5C(2) CKR14BX123K(2) CK14BX153K C192(1)153K1X5C(2) CKR14BX153K(2) CK14BX153M C192(1)153M1X5C(2) CKR14BX153M(2) CK14BX183K C192(1)183K1X5C(2) CKR14BX183K(2) CK14BX223K C192(1)223K1X5C(2) CKR14BX223K(2) CK14BX223M C192(1)223M1X5C(2) CKR14BX223M(2) CK14BX273K C192(1)273K1X5C(2) CKR14BX273K(2) CK14BX333K C192(1)333K1X5C(2) CKR14BX333K(2) CK14BX333M C192(1)333M1X5C(2) CKR14BX333M(2) CK14BX393K C192(1)393K1X5C(2) CKR14BX393K(2) CK14BX473K C192(1)473K1X5C(2) CKR14BX473K(2) CK14BX473M C192(1)473M1X5C(2) CKR14BX473M(2) CK14BR563K C192(1)563K1X5C(2) CKR14BR563K(2) CK14BR683K C192(1)683K1X5C(2) CKR14BR683K(2) CK14BR683M C192(1)683M1X5C(2) CKR14BR683M(2) CK14BR823K C192(1)823K1X5C(2) CKR14BR823K(2) CK14BR104K C192(1)104K1X5C(2) CKR14BR104K(2) CK14BR104M C192(1)104M1X5C(2) CKR14BR104M(2) 2675 2676 2677 2678 2679 2680 2681 2682 2683 2684 2685 2686 2693 2694 2695 2696 2697 2698 2875 2876 2877 2878 2879 2880 2881 2882 2883 2884 2885 2886 2893 2894 2895 2896 2897 2898 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2093 2094 2095 2096 2097 2098 2275 2276 2277 2278 2279 2280 2281 2282 2283 2284 2285 2286 2293 2294 2295 2296 2297 2298 56,000 68,000 68,000 82,000 100,000 100,000 120,000 150,000 150,000 180,000 220,000 220,000 270,000 10 10 20 10 10 20 10 10 20 10 10 20 10 50 VOLT – C192 SIZE (MILITARY-CK14 or CKR14) C192T563K5X5C(2) CKR14BX563K(2) C192T683K5X5C(2) CKR14BX683K(2) C192T683M5X5C(2) CKR14BX683M(2) C192T823K5X5C(2) CKR14BX823K(2) C192T104K5X5C(2) CKR14BX104K(2) C192T104M5X5C(2) CKR14BX104M(2) CK14BR124K C192(1)124K5X5C(2) CKR14BX124K(2) CK14BR154K C192(1)154K5X5C(2) CKR14BX154K(2) CK14BR154M C192(1)154M5X5C(2) CKR14BX154M(2) CK14BR184K C192(1)184K5X5C(2) CKR14BX184K(2) CK14BR224K C192(1)224K5X5C(2) CKR14BX224K(2) CK14BR224M C192(1)224M5X5C(2) CKR14BX224M(2) CK14BR274K C192(1)274K5X5C(2) CKR14BX274K(2) 2687 2688 2689 2690 2691 2692 2699 2700 2701 2702 2703 2704 2705 2887 2888 2889 2890 2891 2892 2899 2900 2901 2902 2903 2904 2905 2087 2088 2089 2090 2091 2092 2099 2100 2101 2102 2103 2104 2105 2287 2288 2289 2290 2291 2292 2299 2300 2301 2302 2303 2304 2305 56,000 68,000 68,000 82,000 100,000 100,000 120,000 150,000 150,000 180,000 220,000 220,000 270,000 330,000 330,000 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 100 VOLT – C202 SIZE (MILITARY-CK15 or CKR15) C202T563K1X5C(2) CKR15BX563K(2) C202T683K1X5C(2) CKR15BX683K(2) C202T683M1X5C(2) CKR15BX683K(2) C202T823K1X5C(2) CKR15BX823K(2) CK15BX104K C202(1)104K1X5C(2) CKR15BX104K(2) CK15BX104M C202(1)104M1X5C(2) CKR15BX104M(2) CK15BR124K C202(1)124K1R5C(2) CKR15BR124K(2) CK15BR154K C202(1)154K1R5C(2) CKR15BR154K(2) CK15BR154M C202(1)154M1R5C(2) CKR15BR154M(2) CK15BR184K C202(1)184K1R5C(2) CKR15BR184K(2) CK15BR224K C202(1)224K1R5C(2) CKR15BR224K(2) CK15BR224M C202(1)224M1R5C(2) CKR15BR224M(2) CK15BR274K C202(1)274K1R5C(2) CKR15BR274K(2) CK15BR334K C202(1)334K1R5C(2) CKR15BR334K(2) CK15BR334M C202(1)334M1R5C(2) CKR15BR334M(2) 2706 2707 2708 2709 2710 2711 2712 2713 2714 2715 2716 2717 2718 2719 2720 2906 2907 2908 2909 2910 2911 2912 2913 2914 2915 2916 2917 2918 2919 2920 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2306 2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 2318 2319 2320 470,000 470,000 680,000 680,000 1,000,000 1,000,000 10 20 10 20 10 20 50 VOLT – C202 SIZE (MILITARY-CK15 or CKR15) CK15BR474K C202(1)474K5R5C(2) CKR15BR474K(2) CK15BR474M C202(1)474M5R5C(2) CKR15BR474M(2) C202T684K5R5C(2) CKR15BR684K(2) C202T684M5R5C(2) CKR15BR684M(2) CK15BR105K C202(1)105K5R5C(2) CKR15BR105K(2) CK15BR105M C202(1)105M5R5C(2) CKR15BR105M(2) 2721 2722 2723 2724 2725 2726 2921 2922 2923 2924 2925 2926 2121 2122 2123 2124 2125 2126 2321 2322 2323 2324 2325 2326 470,000 470,000 680,000 680,000 1,000,000 1,000,000 10 20 10 20 10 20 100 VOLT – C222 SIZE (MILITARY-CK16 or CKR16) CK16BR474K C222(1)474K1R5C(2) CKR16BR474K(2) CK16BR474M C222(1)474M1R5C(2) CKR16BR474M(2) C222(1)684K1R5C(2) CKR16BR684K(2) C222(1)684M1R5C(2) CKR16BR684M(2) CK16BR105K C222(1)105K1R5C(2) CKR16BR105K(2) CK16BR105M C222(1)105M1R5C(2) CKR16BR105M(2) 2727 2728 2729 2730 2731 2732 2927 2928 2929 2930 2931 2932 2127 2128 2129 2130 2131 2132 2327 2328 2329 2330 2331 2332 2,200,000 2,200,000 3,300,000 3,300,000 10 20 10 20 50 VOLT – C222 SIZE (MILITARY-CK16 or CKR16) CK16BR225K C222(1)225K5R5C(2) CKR16BR225K(2) CK16BR225M C222(1)225M5R5C(2) CKR16BR225M(2) CK16BR335K C222(1)335K5R5C(2) CKR16BR335K(2) CK16BR335M C222(1)335M5R5C(2) CKR16BR335M(2) 2733 2734 2735 2736 2933 2934 2935 2936 2133 2134 2135 2136 2333 2334 2335 2336 MIL-C-11015 MIL-PRF-39014 CAP. pF (1) Insert proper letter for specification: K — MIL-C-11015; T — MIL-PRF-39014 (2) Failure Rate Designator: A — Not applicable (MIL-C-11015); M — 1%/1000 Hours, P — .1%/1000 Hours, R — .01%/1000 Hours, S — .001%/1000 Hours (MIL-PRF-39014) © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 43 CERAMIC MOLDED/RADIAL — MIL-C-11015 & MIL-PRF-39014 STABLE TEMPERATURE CHARACTERISTICS—BX & BR (EIA-X7R) RATINGS & PART NUMBER REFERENCE CAP. pF TOL. % KEMET PART NUMBER MIL-C-11015/18 MIL-PRF-39014/01 For Failure Rate Levels (2) MIL-PRF-39014/01 M P R S 1201(3) 1202(3) 1203(3) 1204(3) 1205(3) 1206(3) 1207(3) 1208(3) 1209(3) 1210(3) 1211(3) 1212(3) 1213(3) 1214(3) 1215(3) 1216(3) 1217(3) 1218(3) 1219(3) 1220(3) 1221(3) 1222(3) 1223(3) 1224(3) 1225(3) 1226(3) 1227(3) 1228(3) 1229(3) 1230(3) 1231(3) 1232(3) 1233(3) 1234(3) 1235(3) 1236(3) 1237(3) 1238(3) 1241(3) 1242(3) 1243(3) 1244(3) 1245(3) 1246(3) 1247(3) 1248(3) 1249(3) 1250(3) 1251(3) 1252(3) 1253(3) 1254(3) 1255(3) 1256(3) 1257(3) 1258(3) 1259(3) 1260(3) 1261(3) 1262(3) 1263(3) 1264(3) 1265(3) 1266(3) 1267(3) 1268(3) 1269(3) 1270(3) 1271(3) 1272(3) 1273(3) 1274(3) 1275(3) 1276(3) 1277(3) 1278(3) 1281(3) 1282(3) 1283(3) 1284(3) 1285(3) 1286(3) 1287(3) 1288(3) 1289(3) 1290(3) 1291(3) 1292(3) 1293(3) 1294(3) 1295(3) 1296(3) 1297(3) 1298(3) 1299(3) 1300(3) 1301(3) 1302(3) 1303(3) 1304(3) 1305(3) 1306(3) 1307(3) 1308(3) 1309(3) 1310(3) 1311(3) 1312(3) 1313(3) 1314(3) 1315(3) 1316(3) 1317(3) 1318(3) 1321(3) 1322(3) 1323(3) 1324(3) 1325(3) 1326(3) 1327(3) 1328(3) 1329(3) 1330(3) 1331(3) 1332(3) 1333(3) 1334(3) 1335(3) 1336(3) 1337(3) 1338(3) 1339(3) 1340(3) 1341(3) 1342(3) 1343(3) 1344(3) 1345(3) 1346(3) 1347(3) 1348(3) 1349(3) 1350(3) 1351(3) 1352(3) 1353(3) 1354(3) 1355(3) 1356(3) 1357(3) 1358(3) 10 10 12 15 15 18 22 22 27 33 33 39 47 47 56 68 68 82 100 100 120 150 150 180 220 220 270 330 330 390 470 470 560 680 680 820 1,000 1,000 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 C05(4)(1)100K2X5C(2) C05(4)(1)100M2X5C(2) C05(4)(1)120K2X5C(2) C05(4)(1)150K2X5C(2) C05(4)(1)150M2X5C(2) C05(4)(1)180K2X5C(2) C05(4)(1)220K2X5C(2) C05(4)(1)220M2X5C(2) C05(4)(1)270K2X5C(2) C05(4)(1)330K2X5C(2) C05(4)(1)330M2X5C(2) C05(4)(1)390K2X5C(2) C05(4)(1)470K2X5C(2) C05(4)(1)470M2X5C(2) C05(4)(1)560K2X5C(2) C05(4)(1)680K2X5C(2) C05(4)(1)680M2X5C(2) C05(4)(1)820K2X5C(2) C05(4)(1)101K2X5C(2) C05(4)(1)101M2X5C(2) C05(4)(1)121K2X5C(2) C05(4)(1)151K2X5C(2) C05(4)(1)151M2X5C(2) C05(4)(1)181K2X5C(2) C05(4)(1)221K2X5C(2) C05(4)(1)221M2X5C(2) C05(4)(1)271K2X5C(2) C05(4)(1)331K2X5C(2) C05(4)(1)331M2X5C(2) C05(4)(1)391K2X5C(2) C05(4)(1)471K2X5C(2) C05(4)(1)471M2X5C(2) C05(4)(1)561K2X5C(2) C05(4)(1)681K2X5C(2) C05(4)(1)681M2X5C(2) C05(4)(1)821K2X5C(2) C05(4)(1)102K2X5C(2) C05(4)(1)102M2X5C(2) 200 VOLT – C052/C056 SIZE (MILITARY-CK05 or CKR05) CK05BX100K CKR05BX100K(2)(3) CK05BX100M CKR05BX100M(2)(3) CK05BX120K CKR05BX120K(2)(3) CK05BX150K CKR05BX150K(2)(3) CK05BX150M CKR05BX150M(2)(3) CK05BX180K CKR05BX180K(2)(3) CK05BX220K CKR05BX220K(2)(3) CK05BX220M CKR05BX220M(2)(3) CK05BX270K CKR05BX270K(2)(3) CK05BX330K CKR05BX330K(2)(3) CK05BX330M CKR05BX330M(2)(3) CK05BX390K CKR05BX390K(2)(3) CK05BX470K CKR05BX470K(2)(3) CK05BX470M CKR05BX470M(2)(3) CK05BX560K CKR05BX560K(2)(3) CK05BX680K CKR05BX680K(2)(3) CK05BX680M CKR05BX680M(2)(3) CK05BX820K CKR05BX820K(2)(3) CK05BX101K CKR05BX101K(2)(3) CK05BX101M CKR05BX101M(2)(3) CK05BX121K CKR05BX121K(2)(3) CK05BX151K CKR05BX151K(2)(3) CK05BX151M CKR05BX151M(2)(3) CK05BX181K CKR05BX181K(2)(3) CK05BX221K CKR05BX221K(2)(3) CK05BX221M CKR05BX221M(2)(3) CK05BX271K CKR05BX271K(2)(3) CK05BX331K CKR05BX331K(2)(3) CK05BX331M CKR05BX331M(2)(3) CK05BX391K CKR05BX391K(2)(3) CK05BX471K CKR05BX471K(2)(3) CK05BX471M CKR05BX471M(2)(3) CK05BX561K CKR05BX561K(2)(3) CK05BX681K CKR05BX681K(2)(3) CK05BX681M CKR05BX681M(2)(3) CK05BX821K CKR05BX821K(2)(3) CK05BX102K CKR05BX102K(2)(3) CK05BX102M CKR05BX102M(2)(3) 1,200 1,500 1,500 1,800 2,200 2,200 2,700 3,300 3,300 3,900 4,700 4,700 5,600 6,800 6,800 8,200 10,000 10,000 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 C05(4)(1)122K1X5C(2) C05(4)(1)152K1X5C(2) C05(4)(1)152M1X5C(2) C05(4)(1)182K1X5C(2) C05(4)(1)222K1X5C(2) C05(4)(1)222M1X5C(2) C05(4)(1)272K1X5C(2) C05(4)(1)332K1X5C(2) C05(4)(1)332M1X5C(2) C05(4)(1)392K1X5C(2) C05(4)(1)472K1X5C(2) C05(4)(1)472M1X5C(2) C05(4)(1)562K1X5C(2) C05(4)(1)682K1X5C(2) C05(4)(1)682M1X5C(2) C05(4)(1)822K1X5C(2) C05(4)(1)103K1X5C(2) C05(4)(1)103M1X5C(2) 100 VOLT – C052/C056 SIZE (MILITARY-CK05 or CKR05) CK05BX122K CKR05BX122K(2)(3) CK05BX152K CKR05BX152K(2)(3) CK05BX152M CKR05BX152M(2)(3) CK05BX182K CKR05BX182K(2)(3) CK05BX222K CKR05BX222K(2)(3) CK05BX222M CKR05BX222M(2)(3) CK05BX272K CKR05BX272K(2)(3) CK05BX332K CKR05BX332K(2)(3) CK05BX332M CKR05BX332M(2)(3) CK05BX392K CKR05BX392K(2)(3) CK05BX472K CKR05BX472K(2)(3) CK05BX472M CKR05BX472M(2)(3) CK05BX562K CKR05BX562K(2)(3) CK05BX682K CKR05BX682K(2)(3) CK05BX682M CKR05BX682M(2)(3) CK05BX822K CKR05BX822K(2)(3) CK05BX103K CKR05BX103K(2)(3) CK05BX103M CKR05BX103M(2)(3) 1239(3) 1240(3) 1441(3) 1442(3) 1443(3) 1444(3) 1445(3) 1446(3) 1447(3) 1448(3) 1449(3) 1450(3) 1451(3) 1452(3) 1453(3) 1454(3) 1455(3) 1456(3) 1279(3) 1280(3) 1481(3) 1482(3) 1483(3) 1484(3) 1485(3) 1486(3) 1487(3) 1488(3) 1489(3) 1490(3) 1491(3) 1492(3) 1493(3) 1494(3) 1495(3) 1496(3) 1319(3) 1320(3) 1521(3) 1522(3) 1523(3) 1524(3) 1525(3) 1526(3) 1527(3) 1528(3) 1529(3) 1530(3) 1531(3) 1532(3) 1533(3) 1534(3) 1535(3) 1536(3) 1359(3) 1360(3) 1561(3) 1562(3) 1563(3) 1564(3) 1565(3) 1566(3) 1567(3) 1568(3) 1569(3) 1570(3) 1571(3) 1572(3) 1573(3) 1574(3) 1575(3) 1576(3) 12,000 15,000 15,000 18,000 22,000 22,000 27,000 33,000 33,000 39,000 47,000 47,000 56,000 68,000 68,000 82,000 100,000 100,000 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 C05(4)(1)123K5X5C(2) C05(4)(1)153K5X5C(2) C05(4)(1)153M5X5C(2) C05(4)(1)183K5X5C(2) C05(4)(1)223K5X5C(2) C05(4)(1)223M5X5C(2) C05(4)(1)273K5X5C(2) C05(4)(1)333K5X5C(2) C05(4)(1)333M5X5C(2) C05(4)(1)393K5X5C(2) C05(4)(1)473K5X5C(2) C05(4)(1)473M5X5C(2) C05(4)(1)563K5X5C(2) C05(4)(1)683K5X5C(2) C05(4)(1)683M5X5C(2) C05(4)(1)823K5X5C(2) C05(4)(1)104K5X5C(2) C05(4)(1)104M5X5C(2) 50 VOLT – C052/C056 SIZE (MILITARY-CK05 or CKR05) CK05BX123K CKR05BX123K(2)(3) CK05BX153K CKR05BX153K(2)(3) CK05BX153M CKR05BX153M(2)(3) CK05BX183K CKR05BX183K(2)(3) CK05BX223K CKR05BX223K(2)(3) CK05BX223M CKR05BX223M(2)(3) CK05BX273K CKR05BX273K(2)(3) CK05BX333K CKR05BX333K(2)(3) CK05BX333M CKR05BX333M(2)(3) CK05BX393K CKR05BX393K(2)(3) CK05BX473K CKR05BX473K(2)(3) CK05BX473M CKR05BX473M(2)(3) CK05BX563K CKR05BX563K(2)(3) CK05BX683K CKR05BX683K(2)(3) CK05BX683M CKR05BX683M(2)(3) CK05BX823K CKR05BX823K(2)(3) CK05BX104K CKR05BX104K(2)(3) CK05BX104M CKR05BX104M(2)(3) 1457(3) 1458(3) 1459(3) 1460(3) 1461(3) 1462(3) 1463(3) 1464(3) 1465(3) 1466(3) 1467(3) 1468(3) 1469(3) 1470(3) 1471(3) 1472(3) 1473(3) 1474(3) 1497(3) 1498(3) 1499(3) 1500(3) 1501(3) 1502(3) 1503(3) 1504(3) 1505(3) 1506(3) 1507(3) 1508(3) 1509(3) 1510(3) 1511(3) 1512(3) 1513(3) 1514(3) 1537(3) 1538(3) 1539(3) 1540(3) 1541(3) 1542(3) 1543(3) 1544(3) 1545(3) 1546(3) 1547(3) 1548(3) 1549(3) 1550(3) 1551(3) 1552(3) 1553(3) 1554(3) 1577(3) 1578(3) 1579(3) 1580(3) 1581(3) 1582(3) 1583(3) 1584(3) 1585(3) 1586(3) 1587(3) 1588(3) 1589(3) 1590(3) 1591(3) 1592(3) 1593(3) 1594(3) (1) Insert proper letter for specification: K — MIL-C-11015; T — MIL-PRF-39014 (2) Failure Rate Designator: A — Not applicable (MIL-C-11015); M — 1%/1000 Hours, P — .1%/1000 Hours, R — .01%/1000 Hours, S — .001%/1000 Hours (MIL-PRF-39014) (3) Insert “V” for standard design (C056). Leave blank for the flat bottom design (C052). (4) Insert “2” for standard design (Style C052) Note: Stand-offs are available only Insert “6” for stand-off design (Style C056) with the CKR, not the CK. } 44 © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 CERAMIC MOLDED/AXIAL — MIL-C-11015 & MIL-PRF-39014 STABLE TEMPERATURE CHARACTERISTICS—BX & BR (EIA-X7R) RATINGS & PART NUMBER REFERENCE TOL. % KEMET PART NUMBER MIL-C-11015/19 MIL-PRF-39014/02 For Failure Rate Levels (2) MIL-PRF-39014/02 1,200 1,500 1,500 1,800 2,200 2,200 2,700 3,300 3,300 3,900 4,700 4,700 5,600 6,800 6,800 8,200 10,000 10,000 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 C06(4)(1)122K2X5C(2) C06(4)(1)152K2X5C(2) C06(4)(1)152M2X5C(2) C06(4)(1)182K2X5C(2) C06(4)(1)222K2X5C(2) C06(4)(1)222M2X5C(2) C06(4)(1)272K2X5C(2) C06(4)(1)332K2X5C(2) C06(4)(1)332M2X5C(2) C06(4)(1)392K2X5C(2) C06(4)(1)472K2X5C(2) C06(4)(1)472M2X5C(2) C06(4)(1)562K2X5C(2) C06(4)(1)682K2X5C(2) C06(4)(1)682M2X5C(2) C06(4)(1)822K2X5C(2) C06(4)(1)103K2X5C(2) C06(4)(1)103M2X5C(2) 200 VOLT – C062/C066 SIZE (MILITARY-CK06 or CKR06) CK06BX122K CKR06BX122K(2)(3) CK06BX152K CKR06BX152K(2)(3) CK06BX152M CKR06BX152M(2)(3) CK06BX182K CKR06BX182K(2)(3) CK06BX222K CKR06BX222K(2)(3) CK06BX222M CKR06BX222M(2)(3) CK06BX272K CKR06BX272K(2)(3) CK06BX332K CKR06BX332K(2)(3) CK06BX332M CKR06BX332M(2)(3) CK06BX392K CKR06BX392K(2)(3) CK06BX472K CKR06BX472K(2)(3) CK06BX472M CKR06BX472M(2)(3) CK06BX562K CKR06BX562K(2)(3) CK06BX682K CKR06BX682K(2)(3) CK06BX682M CKR06BX682M(2)(3) CK06BX822K CKR06BX822K(2)(3) CK06BX103K CKR06BX103K(2)(3) CK06BX103M CKR06BX103M(2)(3) 12,000 15,000 15,000 18,000 22,000 22,000 27,000 33,000 33,000 39,000 47,000 47,000 56,000 68,000 68,000 82,000 100,000 100,000 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 C06(4)(1)123K1X5C(2) C06(4)(1)153K1X5C(2) C062K153M1X5CA C06(4)(1)183K1X5C(2) C06(4)(1)223K1X5C(2) C062K223M1X5CA C06(4)(1)273K1X5C(2) C06(4)(1)333K1X5C(2) C062K333M1X5CA C06(4)(1)393K1X5C(2) C06(4)(1)473K1X5C(2) C062K473M1X5CA C06(4)(1)563K1X5C(2) C06(4)(1)683K1X5C(2) C062K683M1X5CA C06(4)(1)823K1X5C(2) C06(4)(1)104K1X5C(2) C062K104M1X5CA 100 VOLT – C062/C066 SIZE (MILITARY-CK06 or CKR06) CK06BX123K CKR06BX123K(2)(3) CK06BX153K CKR06BX153K(2)(3) CK06BX153M CK06BX183K CKR06BX183K(2)(3) CK06BX223K CKR06BX223K(2)(3) CK06BX223M CK06BX273K CKR06BX273K(2)(3) CK06BX333K CKR06BX333K(2)(3) CK06BX333M CK06BX393K CKR06BX393K(2)(3) CK06BX473K CKR06BX473K(2)(3) CK06BX473M CK06BX563K CKR06BX563K(2)(3) CK06BX683K CKR06BX683K(2)(3) CK06BX683M CK06BX823K CKR06BX823K(2)(3) CK06BX104K CKR06BX104K(2)(3) CK06BX104M 120,000 150,000 150,000 180,000 220,000 220,000 270,000 330,000 330,000 390,000 470,000 470,000 560,000 680,000 680,000 820,000 1,000,000 1,000,000 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 10 10 20 C06(4)(1)124K5X5C(2) C06(4)(1)154K5X5C(2) C062K154M5X5CA C06(4)(1)184K5X5C(2) C06(4)(1)224K5X5C(2) C062K224M5X5CA C06(4)(1)274K5X5C(2) C06(4)(1)334K5X5C(2) C062K334M5X5CA C06(4)(1)394K5X5C(2) C06(4)(1)474K5X5C(2) C062K474M5X5CA C06(4)(1)564K5X5C(2) C06(4)(1)684K5X5C(2) C062K684M5X5CA C06(4)(1)824K5X5C(2) C06(4)(1)105K5X5C(2) C062K105M5X5CA 50 VOLT – C062/C066 SIZE (MILITARY-CK06 or CKR06) CK06BX124K CKR06BX124K(2)(3) CK06BX154K CKR06BX154K(2)(3) CK06BX154M CK06BX184K CKR06BX184K(2)(3) CK06BX224K CKR06BX224K(2)(3) CK06BX224M CK06BX274K CKR06BX274K(2)(3) CK06BX334K CKR06BX334K(2)(3) CK06BX334M CK06BX394K CKR06BX394K(2)(3) CK06BX474K CKR06BX474K(2)(3) CK06BX474M CK06BX564K CKR06BX564K(2)(3) CK06BX684K CKR06BX684K(2)(3) CK06BX684M CK06BX824K CKR06BX824K(2)(3) CK06BX105K CKR06BX105K(2)(3) CK06BX105M M P R S 1201(3) 1202(3) 1203(3) 1204(3) 1206(3) 1207(3) 1208(3) 1209(3) 1210(3) 1211(3) 1212(3) 1213(3) 1214(3) 1215(3) 1216(3) 1217(3) 1218(3) 1219(3) 1241(3) 1242(3) 1243(3) 1244(3) 1246(3) 1247(3) 1248(3) 1249(3) 1250(3) 1251(3) 1252(3) 1253(3) 1254(3) 1255(3) 1256(3) 1257(3) 1258(3) 1259(3) 1281(3) 1282(3) 1283(3) 1284(3) 1286(3) 1287(3) 1288(3) 1289(3) 1290(3) 1291(3) 1292(3) 1293(3) 1294(3) 1295(3) 1296(3) 1297(3) 1298(3) 1299(3) 1321(3) 1322(3) 1323(3) 1324(3) 1326(3) 1327(3) 1328(3) 1329(3) 1330(3) 1331(3) 1332(3) 1333(3) 1334(3) 1335(3) 1336(3) 1337(3) 1338(3) 1339(3) 1231(3) 1220(3) 1271(3) 1260(3) 1311(3) 1300(3) 1351(3) 1340(3) 1221(3) 1222(3) 1261(3) 1262(3) 1301(3) 1302(3) 1341(3) 1342(3) 1232(3) 1223(3) 1272(3) 1263(3) 1312(3) 1303(3) 1352(3) 1343(3) 1224(3) 1225(3) 1264(3) 1265(3) 1304(3) 1305(3) 1344(3) 1345(3) 1226(3) 1227(3) 1266(3) 1267(3) 1306(3) 1307(3) 1346(3) 1347(3) 1229(3) 1230(3) 1269(3) 1270(3) 1309(3) 1310(3) 1349(3) 1350(3) 1233(3) 1234(3) 1273(3) 1274(3) 1313(3) 1314(3) 1353(3) 1354(3) 1235(3) 1236(3) 1275(3) 1276(3) 1315(3) 1316(3) 1355(3) 1356(3) 1237(3) 1238(3) 12773) 1278(3) 1317(3) 1318(3) 1357(3) 1358(3) 1239(3) 1240(3) 1279(3) 1280(3) 1319(3) 1320(3) 1359(3) 1360(3) 1404(3) 1405(3) 1408(3) 1409(3) 1412(3) 1413(3) 1416(3) 1417(3) 1406(3) 1407(3) 1410(3) 1411(3) 1414(3) 1415(3) 1418(3) 1419(3) (1) Insert proper letter for specification: K — MIL-C-11015; T — MIL-PRF-39014. (2) Failure Rate Designator: A — Not applicable (MIL-C-11015); M — 1%/1000 Hours, P — .1%/1000 Hours, R — .01%/1000 Hours, S — .001%/1000 Hours (MIL-PRF-39014) (3) Add “V” for stand-off design (C066). Leave blank for the flat bottom design (C062). (4) Insert “2” for standard design (Style C062). Insert “6” for stand-off design (Style C066). Note: Stand-offs are available only with the CKR, not the CK. © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 45 MIL-C-11015 MIL-PRF-39014 CAP. pF CERAMIC LEADED PACKAGING INFORMATION CERAMIC PACKAGING KEMET Series C114C-K-G C124C-K-G C192C-K-G C202C-K C222C-K C052C-K-G C062C-K-G C114G C124G C192G C202G C222G C052/56G C062/66G C512G C522G C114T C124T C192T C202T C222T C052/56T C062/66T C31X C32X C33X C340 C350 C410 C412 C420 C430 C440 C512 C522 C617 C622/C623 C627/C628 C630/C631 C637/C638 C640/C641 C642/C643 C647/C648 C657/C658 C667/C668 Military Style CK12, CC75 CK13, CC76 CK14, CC77 CK15 CK16 CK05, CC05 CK06, CC06 CCR75 CCR76 CCR77 CC78-CCR78 CC79-CCR79 CCR05 CCR06 CC07-CCR07 CC08-CCR08 CKR11 CKR12 CKR14 CKR15 CKR16 CKR05 CKR06 N/A N/A Military Specification MIL-C-11015/ MIL-PRF-20 MIL-PRF-20 MIL-PRF-39014 N/A N/A Standard (1) Bulk Quantity 200/Box 200/Box 100/Box 25/Box 10/Tray 100/Bag 100/Bag 200/Box 200/Box 100/Box 25/Box 10/Tray 100/Bag 100/Bag Footnote (2) Footnote (2) 200/Box 200/Box 100/Box 25/Box 10/Tray 100/Bag 100/Bag 500/Bag 500/Bag 250/Bag 100/Bag 50/Bag 300/Box 200/Box 300/Box 200/Box 200/Box Footnote (2) Footnote (2) 250/Bag 100/Bag 100/Bag 100/Bag 50/Bag 50/Bag 50/Bag 50/Bag 50/Bag 50/Bag Ammo Pack Quantity Maximum 2000 1500 2500 2500 1500 1000 N/A 4000 4000 4000 2000 2000 Maximum Reel Quantity 5000 5000 3000 500 300 2000 1500 5000 5000 3000 500 300 1700 1500 N/A N/A 5000 5000 3000 500 300 1700 1500 2500 2500 1500 1000 500 5000 5000 5000 2500 2500 N/A N/A 1000 500 500 500 500 500 500 500 500 500 NOTE: (1) Standard packaging refers to number of pieces per bag, tray or vial. (2) Quantity varies. For further details, please consult the factory. 48 © KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 Reel Size 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" N/A N/A 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" N/A N/A 12" 12" 12" 12" 12" 12" 12" 12" 12" 12" Tape & Reel Packaging Information KEMET offers standard reeling of Molded and Conformally Coated Radial Leaded Capacitors in accordance with EIA standard 468. Parts are taped to a tagboard carrier strip, and wound on a reel as shown in Figure 1. Kraft paper interleaving is inserted between the layers of capacitors on the reel. Ammopack is also available, with the same lead tape configuration and package quantities. t Ceramic Radial Tape and Reel Dimensions Metric will govern Constant Dimensions — Millimeters (Inches) D0 ±0.2 (0.008) P0 ±0.3 (0.012) ΔH ±0.2 (0.008) L1 Maximum t ±0.2 (0.008) T Maximum W + 1.0/- 0.5 (+0.039/-0.020) W0 Minimum W2 Maximum 4.00 (0.157) 12.7 (0.500) 4.0 (0.157) 1.0 (0.039) 0.7 (0.051) 1.5 (0.059) 18.0 (0.709) 5.0 (0.197) 3.0 (0.118) Ceramic Radial Tape and Reel Dimensions cont'd Metric will govern Variable Dimensions — Millimeters (Inches) F ±0.030 (0.78) Note 1 P1 ±0.030 (0.012) Note 1 P ±0.3 (0.012) P2 ±1.3 (0.51) 2.54 (0.100) 5.08 (0.200) 12.7 (0.500) 6.35 (0.250) 4.32 (0.170) 3.89 (0.153) 12.7 (0.500) 6.35 (0.250) 5.08 (0.200) 3.81 (0.150) 12.7 (0.500) 6.35 (0.250) 5.59 (0.220) 3.25 (0.128) 12.7 (0.500) 6.35 (0.250) 6.98 (0.275) 2.54 (0.100) 12.7 (0.500) 6.35 (0.250) 7.62 (0.300) 2.24 (0.088) 12.7 (0.500) 6.35 (0.250) 9.52 (0.375) 7.62 (0.300) 12.7 (0.500) 6.35 (0.250) 10.16 (0.400) 7.34 (0.290) 25.4 (1.000) N/A 12.06 (0.475) 6.35 (0.250) 25.4 (1.000) N/A 14.60 (0.575) 5.08 (0.200) 25.4 (1.000) N/A 17.14 (0.675) 3.81 (0.15) 25.4 (1.000) N/A 1.Measuredattheegressfromthecarriertape,onthecomponentside. 2.StraightLeadconfigurationparttypesonly. 3.Formed(bent)leadconfigurationparttypesonly. Symbol Reference Table D0 P0 P F P1 P2 H H0 H1 ΔH L1 t W W0 W2 Sprocket Hole Diameter Sprocket Hole Pitch Component Pitch Lead Spacing Sprocket Hole Center to Lead Center Sprocket Hole Center To Component Center Height to Seating Plane (Straight Leads Only) Height to Seating Plane (Formed Leads Only) Component Height Above Tape Center Component Alignment Lead Protrusion Composite Tape Thickness Carrier Tape Width Hold-Down Tape Width Hold-Down Tape Location H Minimum Note 2 H0 ±0.5 (0.630) Note 3 18.0 (0.709) 16.0 (0.024) Tape & Reel Packaging Information KEMET offers standard reeling of molded and conformally coated axial leaded ceramic capacitors for automatic insertion or lead forming machines in accordance with EIA standard 296. KEMET’sinternalspecificationfour-digitsuffix,7200,isplacedat the end of the part number to designate tape and reel packaging, e.g.,C410C104Z5U5CA7200. Paper (50 lb.) test minimum is inserted between the layers ofcapacitorswoundonreelsforcomponentpitch≤0.400". Capacitor lead length may extend only a maximum of .0625" (1.59 mm) beyond the tapes’ edges. Capacitors are centered in a row between the two tapes and will deviate only ± 0.031" (0.79 mm) from the row center. A minimum of 36" (91.5 cm) leader tapeisprovidedateachfinishedlengthoftapedcomponents. Universalsplicingclipsareusedtoconnectthetape. Table 3 – Ceramic Axial Tape and Reel Dimensions Metric will govern Dimensions — Millimeters (Inches) Axial Capacitor Body Diameter 0.0 to 5.0 (0.0 to 0.197) A ±0.5 (0.020) B ±1.5 (0.059)* 5.0 (0.197) 52.4 (2.062) Symbol Reference Table A B * Inside tape spacing dimension (B) is determined by the body diameter of the capacitor. © KEMET Electronics Corporation • P.O. Box 5928 • Greenville, SC 29606 (864) 963-6300 • www.kemet.com Component Pitch Inside Tape Spacing KEMET Corporation World Headquarters Europe Asia Southern Europe Sasso Marconi, Italy Tel:39-051-939111 Northeast Asia Hong Kong Tel:852-2305-1168 MailingAddress: P.O. Box 5928 Greenville, SC 29606 Skopje, Macedonia Tel:389-2-55-14-623 Shenzhen, China Tel:86-755-2518-1306 www.kemet.com Tel:864-963-6300 Fax:864-963-6521 Central Europe Landsberg, Germany Tel:49-8191-3350800 Corporate Offices Fort Lauderdale, FL Tel:954-766-2800 Kamen, Germany Tel:49-2307-438110 North America Northern Europe Wyboston,UnitedKingdom Tel:44-1480-273082 Taipei, Taiwan Tel:886-2-27528585 Espoo, Finland Tel:358-9-5406-5000 Southeast Asia Singapore Tel:65-6701-8033 2835 KEMET Way Simpsonville, SC 29681 Southeast Lake Mary, FL Tel:407-855-8886 Northeast Wilmington, MA Tel:978-658-1663 Central Novi, MI Tel:248-994-1030 Beijing, China Tel:86-10-5877-1075 Shanghai, China Tel:86-21-6447-0707 Seoul, South Korea Tel:82-2-6294-0550 Penang, Malaysia Tel:60-4-6430200 Bangalore, India Tel:91-806-53-76817 West Milpitas, CA Tel:408-433-9950 Mexico Guadalajara, Jalisco Tel:52-33-3123-2141 Note: KEMET reserves the right to modify minor details of internal and external construction at any time in the interest of product improvement. KEMET does not assume any responsibility for infringement that might result from the use of KEMET Capacitors in potential circuit designs. KEMET is a registered trademark of KEMET Electronics Corporation. © KEMET Electronics Corporation • P.O. Box 5928 • Greenville, SC 29606 (864) 963-6300 • www.kemet.com Disclaimer Allproductspecifications,statements,informationanddata(collectively,the“Information”)inthisdatasheetaresubjecttochange.Thecustomerisresponsibleforcheckingand verifying the extent to which the Information contained in this publication is applicable to an order at the time the order is placed. All Information given herein is believed to be accurate and reliable, but it is presented without guarantee, warranty, or responsibility of any kind, expressed or implied. Statements of suitability for certain applications are based on KEMET Electronics Corporation’s (“KEMET”) knowledge of typical operating conditions for such applications, but are notintendedtoconstitute–andKEMETspecificallydisclaims–anywarrantyconcerningsuitabilityforaspecificcustomerapplicationoruse.TheInformationisintendedforuseonly by customers who have the requisite experience and capability to determine the correct products for their application. Any technical advice inferred from this Information or otherwise provided by KEMET with reference to the use of KEMET’s products is given gratis, and KEMET assumes no obligation or liability for the advice given or results obtained. Although KEMET designs and manufactures its products to the most stringent quality and safety standards, given the current state of the art, isolated component failures may still occur. Accordingly, customer applications which require a high degree of reliability or safety should employ suitable designs or other safeguards (such as installation of protective circuitry or redundancies) in order to ensure that the failure of an electrical component does not result in a risk of personal injury or property damage. Althoughallproduct–relatedwarnings,cautionsandnotesmustbeobserved,thecustomershouldnotassumethatallsafetymeasuresareindictedorthatothermeasuresmaynot be required. © KEMET Electronics Corporation • P.O. Box 5928 • Greenville, SC 29606 (864) 963-6300 • www.kemet.com