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ALUMINUM ORGANIC CAPACITORS
Performance Characteristics
Introduction KEMET entered the world of aluminum capacitors with the introduction of the AO-CAP, designated the A700 Series, which has been targeted for power management applications. The structure of the AO-CAP uses aluminum as the anode material, aluminum oxide as the dielectric, and a conductive organic polymer for its counter-electrode material. The A700 series is 100% screened for all electrical parameters: Capacitance @ 120Hz, Dissipation Factor (DF) @ 120 Hz, ESR @ 100 kHz, and DC Leakage. The AO-CAP offers many advantages including extremely low ESR, high capacitance retention at high operating frequencies, no dry-out related failure mechanism and no voltage de-rating up to125C. 4. Voltage Ratings * 2 - 10 VDC Rated Voltage This is the maximum peak DC operating voltage from -55C to +125C for continuous duty. Surge Voltage Ratings Surge voltage capability is demonstrated by application of 1000 cycles of the relevant voltage at 25C, 85C, or 125 C. The parts are charged through a 33 ohm resistor for 30 seconds and then discharged through a 33 ohm resistor for 30 seconds for each cycle. Voltage Ratings * Table 1 Rated Surge Voltage Voltage -55C to 125 C 2V 2.6V 2.5V 3.2V 4V 5.2V 6.3V 8V 8V 10.4V 10V 13V 5. Reverse Voltage Rating & Polarity Aluminum polymer capacitors are polar devices and may be permanently damaged or destroyed if connected in the wrong polarity. The positive terminal is identified by a laser-marked stripe. These capacitors will withstand a certain degree of transient voltage reversal for short periods as shown in the following table. Please note that these parts may not be operated continuously in reverse, even within these limits. Table 2
Temperature 25C 55C 85C 125C Permissible Transient Reverse Voltage 60% of Rated Voltage 50% of Rated Voltage 40% of Rated Voltage 30% of Rated Voltage
ELECTRICAL
1. Operating Temperature Range * -55C to +125C No derating with temperature is required. 2. Non-Operating Temperature Range * -55C to 125C 3. Capacitance and Tolerance * 22F to 470F * 20% Tolerance Capacitance is measured at 120 Hz, up to 1.0 volt rms maximum and up to 2.5V DC maximum. DC bias causes only a small reduction in capacitance, up to about 2% when full rated voltage is applied. DC bias is not commonly used for room temperature measurements but is more commonly used when measuring at temperature extremes. Capacitance does decrease with increasing frequency, but not nearly as much or as quickly as standard tantalums. Figure 1 compares the frequency induced cap roll-off between the AO-CAP and traditional MnO2 types. Capacitance also increases with increasing temperature. See Section 12 for temperature coefficients.
6. DC Leakage Current Because of the high conductivity of the polymer, the AO-CAP family has higher leakage currents than traditional MnO2 type Tantalum caps. The DC Leakage limits at 25C are calculated as 0.06 x C x V, (where C is cap in F and V is rated voltage in Volts) for part types with rated voltage 4V, and equals 0.04 x C x V, for voltages > 4V. Limits for all part numbers are listed in the ratings tables. Figure 1.
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(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
Aluminum Organic Capacitors
ALUMINUM ORGANIC CAPACITORS
Performance Characteristics
DC Leakage Current is the current that flows through the capacitor dielectric after a five minute charging period at rated voltage. Leakage is measured at 25C with full rated voltage applied to the capacitor through a 1000 ohm resistor in series with the capacitor. DC Leakage Current does increase with temperature. The limits for 85C @ Rated Voltage and 125C are both 2 times the 25C limit. 7. Dissipation Factor (DF) Refer to part number tables for maximum DF limits. Dissipation factor is measured at 120 Hz, up to 1.0 volt rms maximum. Dissipation factor is the ratio of the equivalent series resistance (ESR) to the capacitive reactance, (Xc) and is usually expressed as a percentage. It is directly proportional to both capacitance and frequency. Dissipation factor loses its importance at higher frequencies, (above about 1 kHz), where impedance (Z) and equivalent series resistance (ESR) are the normal parameters of concern. R DF = X = 2fCR c Where: DF = Dissipation Factor R = Equivalent Series Resistance (Ohms) Xc = Capacitive Reactance(Ohms) f = Frequency (Hertz) C = Capacitance (Farads) DF is also referred to as tan or "loss tangent." The "Quality Factor," "Q", is the reciprocal of DF. 8. Equivalent Series Resistance (ESR) and Impedance (Z) The Equivalent Series Resistance (ESR) of the AOCAP is much lower than standard Tantalum caps because the polymer cathode has much higher conductivity. ESR is not a pure resistance, and it decreases with increasing frequency. Total impedance of the capacitor is the vector sum of capacitive reactance (Xc) and ESR below reso nance; above resonance total impedance is the vector sum of inductive reactance (XL) and ESR. ESR
Xc = 1 2fC (Ohms)

Where: f = frequency (Hertz) C = capacitance (Farad)
Xc
Figure 2a Total Impedance of the Capacitor Below Resonance
XL = 2fL (Ohms)
Z
XL

ESR
Figure 2b Total Impedance of the Capacitor Above Resonance
To understand the many elements of a capacitor, see Figure 3.
C ESL ESR RL Cd Rd
Figure 3 The Real Capacitor
A capacitor has a complex impedance consisting of many series and parallel elements, each adding to the complexity of the measurement system. ESL - Represents inductance. In most instances it is significant at the basic measurement frequencies of 120 and 1000 Hz. ESR - Represents the ohmic resistance in series with the capacitance. Lead attachment and capacitor electrodes are contributing sources. (c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
59
Aluminum Organic Capacitors
Where: f = frequency (Hertz) L = inductance (Henries)
ALUMINUM ORGANIC CAPACITORS
Performance Characteristics
RL - Capacitor Leakage Resistance. Typically it can be 35 K to 2.5 MOhms depending on voltage capacitance. It can exceed 1012 ohms in monolithic ceramics and in film capacitors. Rd - The dielectric loss contributed by dielectric absorption and molecular polarization. It becomes very significant in high frequency measurements and applications. Its value varies with frequency. Cd - The inherent dielectric absorption of the solid aluminum capacitor. As frequency increases, Xc continues to decrease according to its equation. There is unavoidable inductance as well as resistance in all capacitors, and at some point in frequency, the reactance ceases to be capacitive and becomes inductive. This frequency is call the self-resonant point. Figure 4 compares the frequency response of an AO-CAP to a Tantalum chip. Maximum limits for 100 kHz ESR are listed in the part number tables for each series. 10. Ripple Current/Voltage Permissible AC ripple voltage and current are related to equivalent series resistance (ESR) and power dissipation capability. Permissible ripple current which may be applied is limited by two criteria: a. The resulting voltage across the capacitor with the summation of DC bias and peak voltage of the AC portion must not exceed the rated voltage of the capacitor. b. The negative peak AC voltage, in combination with bias voltage, if any, must not exceed the permissible reverse voltage ratings presented in Section 5. Actual power dissipated may be calculated from the following:
P = I 2R Substituting I = E ; P = E2R Z Z2
Using P max from Table 3, maximum allowable rms ripple current or voltage may be determined as follows: Figure 4. 9. AC Power Dissipation Power dissipation is a function of capacitor size and materials. Maximum power ratings have been established for all case sizes to prevent overheating. In actual use, the capacitor's ability to dissipate the heat generated at any given power level may be affected by a variety of circuit factors. These include board density, pad size, heat sinks and air circulation. Power capability is determined based on a 20C temperature rise. A higher temperature rise and therefore higher power capability is allowable as long as the ambient temperature plus temperature rise due to ripple current does not exceed the rated temperature of the part.
Case Code KEMET V D X EIA 7343-20 7343-31 7343-43 Maximum Power Dissipation mWatts @ +25C with 20 Temperature Rise 270 250 225
Imax =
Pmax
ESR
Emax = Z
Pmax R
Where: Imax = Maximum rupple current (ARMS) Pmax = Maximum Power @ allowable T normally +20C Emax = Maximum ripple voltage (VRMS) Refer to part number listings for permittable Arms limits.
Table 3 - AO Capacitor Power Dissipation Ratings
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(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
Aluminum Organic Capacitors
Where: I = rms ripple current (Amperes) E = rms ripple voltage (Volts) P = power (Watts) Z = impedance at specified frequency (ohms) R = ESR(Ohms)
ALUMINUM ORGANIC CAPACITORS
Performance Characteristics ENVIRONMENTAL
11. Temperature Stability Mounted capacitors withstand extreme temperature testing at a succession or continuous steps at +25C, -55C, +25C, +85C, +125C, +25C in that order. Capacitors are allowed to stabilize at each temperature before measurement. Cap, DF, and DCL are measured at each temperature; except DC Leakage is not measured at -55C.
Step
1 2 3 4 5 6
16. Moisture Sensitivity Level (MSL) * J-Std-020 a. Capacitance: within 30% of initial value b. DF: within initial limit c. DC Leakage: within initial limit d. ESR: within 2 x initial limit Meets MSL 3 requirements for SnPb assembly. 17. Load Humidity * 85C, 85% RH, Rated Voltage, 500 Hours a. Capacitance: within +30/-5% of initial value b. DF: within initial limit c. DC Leakage: within 5 x initial limit d. ESR: within 2 x initial limit 18. ESD * Polymer Aluminum capacitors are not sensitive to Electro-Static Discharge (ESD). 19. Failure Mechanism and Reliability The normal failure mechanism is dielectric break down. Dielectric failure can result in high DC Leakage current and may proceed to the level of a short circuit. With sufficient time to charge, healing may occur by one of two potential mechanisms. The polymer adjacent to the dielectric fault site may overheat and vaporize, disconnecting the fault site from the circuit. The polymer may also oxidize into a more resistive material that caps the defect site in the dielectric and reduces the flow of current. Capacitor failure may be induced by exceeding the rated conditions of forward DC voltage, reverse DC voltage, surge current, power dissipation or temperature. Excessive environmental stress, such as prolonged or high temperature reflow processes may also trigger dielectric failure. 20. Resistance to Solvents * Mil-Std 202, Method 215 Post Test Performance: a. Capacitance: within 10% of initial value b. DF: within initial limit c. DC Leakage: within initial limit d. ESR: within initial limit e. Physical: no degradation of case, terminals or marking 21. Fungus * Mil-Std-810, Method 508 22. Flammability * UL94 VO Classification
Temp
25C -55C +25C +85C +125C +25C
Cap
Specified Tolerance 15% of initial value 5% of initial value 15% of initial value 20% of initial value 5% of initial value
DCL
Catalog Limit N/A Catalog Limit 2X Catalog Limit 2X Catalog Limit Catalog Limit
DF
Catalog Limit Catalog Limit Catalog Limit Catalog Limit Catalog Limit Catalog Limit
Table 4 - Acceptable limits are as follows: 12. Standard Life Test * 85C, Rated Voltage, 2000 Hours Post Test Performance: a. Capacitance: within 10% of initial value b. DF: within initial limit c. DC Leakage: within initial limit d. ESR: within initial limit 13. High Temperature Life Test * 125C, Rated Voltage, 2000 Hours Post Test Performance: a. Capacitance: within 10% of initial value b. DF: within initial limit c. DC Leakage: within 1.25 x initial limit d. ESR: within 2 x initial limit 14. Storage Life Test * 125C, O VDC, 2000 Hours Post Test Performance: a. Capacitance: within 10% of initial value b. DF: within initial limit c. DC Leakage: within 1.25 x initial limit d. ESR: within 2 x initial limit 15. Thermal Shock * Mil-Std-202, Method 107, Condition B Minimum temperature is -55C Maximum temperature is +125C Post Test Performance: a. Capacitance: within 10% of initial value b. DF: within initial limit c. DC Leakage: within initial limit d. ESR: within 2 x initial limit
(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
61
Aluminum Organic Capacitors
ALUMINUM ORGANIC CAPACITORS
Performance Characteristics
23. Resistance to Soldering Heat * Maximum Reflow +245 5C, 10 seconds * Typical Reflow +230 5C, 30 seconds Post Test Performance: a. Capacitance: within 10% of initial value b. DF: within initial limit c. DC Leakage: within initial limit d. ESR: within initial limit 24. Solderability * Mil-Std-202, Method 208 * ANSI/J-Std-002, Test B 25. Vibration * Mil-Std-202, Method 204, Condition D, 10 Hz to 2,000 Hz, 20G Peak Post Test Performance: a. Capacitance: within 10% of initial value b. DF: within initial limit c. DC Leakage: within initial limit d. ESR: within initial limit 26. Shock * Mil-Std-202, Method 213, Condition I, 100 G Peak Post Test Performance: a. Capacitance: within 10% of initial value b. DF: within initial limit c. DC Leakage: within initial limit d. ESR: within initial limit 27. Terminal Strength * Pull Force * One Pound (454 grams), 30 Seconds
Post Test Performance: a. Capacitance: within 5% of initial value b. DF: within initial limit c. DC Leakage: within initial limit d. ESR within initial limit 28. Handling Automatic handling of encapsulated components is enhanced by the molded case which provides compatibility with all types of high speed pick and place equipment. Manual handling of these devices presents no unique problems. Care should be taken with your fingers, however, to avoid touching the soldercoated terminations as body oils, acids and salts will degrade the solderability of these terminations. Finger cots should be used whenever manually handling all solderable surfaces. 29. Termination Coating The standard finish coating is 100% Sn solder (Tin-solder coated) with nickel (Ni) underplating. 30. Recommended Mounting Pad Geometries Proper mounting pad geometries are essential for successful solder connections. These dimensions are highly process sensitive and should be designed to maximize the integrity of the solder joint, and to minimize component rework due to unacceptable solder joints. Figure 5 illustrates pad geometry. The table provides recommended pad dimensions for reflow soldering techniques. These dimensions are intended to be a starting point for circuit board designers, to be fine tuned, if necessary, based upon the peculiarities of the soldering process and/or circuit board design. Contact KEMET for Engineering Bulletin Number F-2100 entitled "Surface Mount Mounting Pad Dimensions and Considerations" for further details on this subject or visit our website at www.kemet.com.
* Tensile Force * Four Pounds (1.8 kilograms), 60 Seconds
*
Shear Force Table 5 Maximum Shear Loads Case Code KEMET EIA V 7343-20 D 7343-31 X 7343-43 Maximum Shear Loads Kilograms Pounds 5.0 11.0 5.0 11.0 5.0 11.0
Figure 5
X
C
Grid Placement Courtyard
G Z Y
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(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
Aluminum Organic Capacitors
ALUMINUM ORGANIC CAPACITORS
Performance Characteristics
KEMET/EIA Size Code
D/7343-31, V/7343-20 X/7343-43
Pad Dimensions
Z 8.90 G 3.80 X 2.70 Y (Ref) 2.55 C (Ref) 6.35
Table 6 - Land Pattern Dimensions for Reflow Solder 31. Soldering The A700 - AO-CAP family has been designed for reflow solder processes, or for wave soldering. The solder-coated terminations have excellent wetting characteristics for high integrity solder fillets. Preheating of these components is recommended to avoid extreme thermal stress. Figure 6 represents the recommended maximum solder temperature/ time combinations for these devices. Hand-soldering should be avoided. However, if necessary it should be performed with care due to the difficulty in process control. Care should be taken to avoid contact of the soldering iron to the molded case. The iron should be used to heat the solder pad, applying solder between the pad and the termination, until reflow occurs. The iron should be removed. "Wiping" the edges of a chip and heating the top surface is not recommended.
300
Temperature (C)
34. Storage Environment AO capacitors are shipped in moisture barrier bags with a desiccant and mositure indicator card. This series is classified as MSL3 (Moisture Sensitivity Level 3). Upon opening the moisture barrier bag, parts should be mounted within 7 days to prevent mositure absorption and outgassing. If the 7 day window is exceeded, the parts can be dryed per the instructions on the bag (168 hours at 40 5C). AO 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 degrees C, and the maximum storage humidity not to exceed 60% 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.
Sn-Pb Profile Sn-Pb
5 Sec.
Tape & Reel Packaging
Case Codes Tape & Reel Dimensions Tape Width mm Pitch mm 0.1 Part 8 8 8 Reel Quantity
250 200 150
45 Sec.
100
45 Sec.
90 Sec.
50 0 0 50 100 150 Time (Seconds)
KEMET
95 Sec.
200 250 300
EIA
Spro- 180mm 330mm cket (7" dia.) (13" dia.) 4 4 4 1000 500 500 3000 2500 2000
V D X
7343-20 12 0.3 7343-31 12 0.3 7343-43 12 0.3
60 Sec.
Figure 6 Sn-Pb Profile measured on the surface of the component * Contact KEMET for the latest A700 Pb-free soldering recommendations. 32. Washing Standard washing techniques and solvents are compatible with all KEMET surface mount aluminum capacitors. Solvents such as Freon TMC and TMS, Trichlorethane, methylene chloride, prelate, and isopropyl alcohol are not harmful to these components. Please note that we are not endorsing the use of banned or restricted solvents. We are simply stating that they would not be harmful to the components. If ultrasonic agitation is utilized in the cleaning process, care should be taken to minimize energy levels and exposure times to avoid damage to the terminations. KEMET AO-CAPS are also compatible with newer aqueous and semi-aqueous processes. 33. Encapsulations Under normal circumstances, potting or encapsulation of KEMET aluminum chips is not required.
Component Marking
Polarity (+) Indicator Picofarad Code KEMET ID 1st Digit = year 2nd & 3rd digits = Week
Rated Voltage
476 6K 424
Aluminum Component Weights
Series
A700 A700 A700
Case Size
V/7343-20 D/7343-31 X/7343-43
Typical Weight (mg)
120 190 260
(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
63
Aluminum Organic Capacitors
ALUMINUM ORGANIC CAPACITORS
A700 Series
APPLICATIONS
* Input/Output Filters for voltage regulators, converters, and SMPS * Battery Decoupling (portable, handheld electronics) * Power Decoupling (Procesor, Transmitter circuits) * Bulk Capacitor Requirements
FEATURES
* * * * * * * * * Polymer Cathode Technology Extremely Low ESR High Frequency Capacitance Retention Non-ignition Failure Mode Capacitance: 22 to 470 F Self-healing Mechanism -55 to +125C Capability No temperature voltage Derating Up To 125C Robust to Surface Mount Process * * * * * * * * 100% Accelerated Steady State Aging Pb Free and RoHS Compliant Solid-state Technology Molded Case with Wraparound Termination Voltage: 2 to 10V No Reformation Required EIA Standard Case Size No Dry-out Related Failure Mechanism
OUTLINE DRAWING
End View W H K S S L F Side View Bottom View
DIMENSIONS - MILLIMETERS
Case KEMET V D X Size EIA 7343-20 7343-31 7343-43 L 7.3 0.3 7.3 0.3 7.3 0.3 W 4.3 0.3 4.3 0.3 4.3 0.3 H 1.9 0.1 2.8 0.3 4.0 0.3 K Min. 0.9 1.3 2.1 F 0.1 2.4 2.4 2.4 S 0.2 1.3 1.3 1.3
Note that glue pad shape may differ at KEMET's discretion.
A700 ORDERING INFORMATION
A
Aluminum Series 700 Chip Case Size V,D,X
700
V
476
M
006
A
T
E018
ESR Lead Material T = 100% Tin (Sn) Plated Failure Rate Level A = Not Applicable Voltage As Shown Capacitance Tolerance M = 20%
Capacitance Picofarad Code First two digits represent significant figures. Third digit specifies number of zeros.
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(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
Aluminum Organic Capacitors
ALUMINUM ORGANIC CAPACITORS
A700 Series
A700 RATINGS & PART NUMBER REFERENCE
KEMET Part Number Case Size Cap F DCL @VR DF @ 120 Hz ESR 100 kHz (m) Ripple Current (Arms) @ 100kHz w/T=+20C @ -55C to 125C 3.9 3.3 3.1 3.9 3.3 3.1 5.4 3.9 3.3 3.1 4.1 3.7 5.5 4.1 3.7 4.7 4.3 3.9 6.0 4.7 3.9 4.7 3.9 4.7 3.9 3.9 3.3 3.1 4.1 3.7 4.1 3.7 4.7 3.9 4.7 3.9 3.9 3.3 3.1 4.1 3.7 4.1 3.7 4.1 3.7 4.7 3.9 5.3 5.3 4.7 3.9 4.7 3.9 4.7 3.9
2 Volt Rating @ 125C A700V107M002ATE018 A700V107M002ATE025 A700V107M002ATE028 A700V127M002ATE018 A700V127M002ATE025 A700V127M002ATE028 A700V157M002ATE009 A700V157M002ATE018 A700V157M002ATE025 A700V157M002ATE028 A700D187M002ATE015 A700D187M002ATE018 A700V227M002ATE009 A700D227M002ATE015 A700D227M002ATE018 A700X277M002ATE010 A700X277M002ATE012 A700X277M002ATE015 A700D337M002ATE007 A700X337M002ATE010 A700X337M002ATE015 A700X397M002ATE010 A700X397M002ATE015 A700X477M002ATE010 A700X477M002ATE015 A700V826M2R5ATE018 A700V826M2R5ATE025 A700V826M2R5ATE028 A700D157M2R5ATE015 A700D157M2R5ATE018 A700D187M2R5ATE015 A700D187M2R5ATE018 A700X227M2R5ATE010 A700X227M2R5ATE015 A700X337M2R5ATE010 A700X337M2R5ATE015 A700V826M004ATE018 A700V826M004ATE025 A700V826M004ATE028 A700D127M004ATE015 A700D127M004ATE018 A700D157M004ATE015 A700D157M004ATE018 A700D187M004ATE015 A700D187M004ATE018 A700X187M004ATE010 A700X187M004ATE015 A700D227M004ATE009 A700X227M004ATE009 A700X227M004ATE010 A700X227M004ATE015 A700X277M004ATE010 A700X277M004ATE015 A700X337M004ATE010 A700X337M004ATE015 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 D/7343-31 D/7343-31 V/7343-20 D/7343-31 D/7343-31 X/7343-43 X/7343-43 X/7343-43 D/7343-31 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 V/7343-20 V/7343-20 V/7343-20 D/7343-31 D/7343-31 D/7343-31 D/7343-31 X/7343-43 X/7343-43 X/7343-43 X/7343-43 V/7343-20 V/7343-20 V/7343-20 D/7343-31 D/7343-31 D/7343-31 D/7343-31 D/7343-31 D/7343-31 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 100.0 12.0 A 100.0 12.0 A 100.0 12.0 A 120.0 14.4 A 120.0 14.4 A 120.0 14.4 A 150.0 18.0 A 150.0 18.0 A 150.0 18.0 A 150.0 18.0 A 180.0 21.6 A 180.0 21.6 A 220.0 26.4A 220.0 26.4 A 220.0 26.4 A 270.0 32.4 A 270.0 32.4A 270.0 32.4 A 330.0 39.6A 330.0 39.6 A 330.0 39.6 A 390.0 46.8 A 390.0 46.8 A 470.0 56.4 A 470.0 56.4 A 2.5 Volt Rating @ 125C 82.0 12.3 A 82.0 12.3 A 82.0 12.3 A 150.0 22.5 A 150.0 22.5 A 180.0 27.0 A 180.0 27.0 A 220.0 33.0 A 220.0 33.0 A 330.0 49.5 A 330.0 49.5 A 4 Volt Rating @ 125C 82.0 82.0 82.0 120.0 120.0 150.0 150.0 180.0 180.0 180.0 180.0 220.0 220.0 220.0 220.0 270.0 270.0 330.0 330.0 19.7 A 19.7 A 19.7 A 28.8 A 28.8 A 36.0 A 36.0 A 43.2 A 43.2 A 43.2 A 43.2A 52.8 A 52.8 A 52.8 A 52.8 A 64.8 A 64.8 A 79.2 A 79.2 A 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 18 25 28 18 25 28 9 18 25 28 15 18 9 15 18 10 12 15 7 10 15 10 15 10 15 18 25 28 15 18 15 18 10 15 10 15 18 25 28 15 18 15 18 15 18 10 15 9 9 10 15 10 15 10 15
(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
65
Aluminum Organic Capacitors
ALUMINUM ORGANIC CAPACITORS
A700 Series
A700 RATINGS & PART NUMBER REFERENCE
KEMET Part Number Case Size Cap F DCL @VR DF @ 120 Hz ESR 100 kHz (m) Ripple Current (Arms) @ 100kHz w/T=+20C @ -55C to 125C
6.3 Volt Rating @ 125C A700V226M006ATE028 A700V226M006ATE045 A700V336M006ATE018 A700V336M006ATE025 A700V336M006ATE028 A700V476M006ATE018 A700V476M006ATE025 A700V476M006ATE028 A700V566M006ATE018 A700V566M006ATE025 A700V566M006ATE028 A700V686M006ATE018 A700V686M006ATE025 A700V686M006ATE028 A700V826M006ATE018 A700V826M006ATE025 A700V826M006ATE028 A700D107M006ATE015 A700D107M006ATE018 A700D127M006ATE012 A700D127M006ATE015 A700D127M006ATE018 A700X157M006ATE010 A700X157M006ATE012 A700X157M006ATE015 A700X187M006ATE010 A700X187M006ATE015 A700X227M006ATE015 A700V226M008ATE028 A700V226M008ATE045 A700V336M008ATE018 A700V336M008ATE025 A700V336M008ATE028 A700D566M008ATE015 A700D566M008ATE018 A700D686M008ATE015 A700D686M008ATE018 A700X107M008ATE010 A700X107M008ATE012 A700X107M008ATE015 A700V226M010ATE028 A700V336M010ATE018 A700V336M010ATE025 A700V336M010ATE028 A700D566M010ATE015 A700D566M010ATE018 A700D686M010ATE015 A700D686M010ATE018 A700X107M010ATE010 A700X107M010ATE015 A700X127M010ATE010 A700X127M010ATE015 A700X157M010ATE010 A700X157M010ATE015 A700V106M12RATE060 A700V156M12RATE040 A700V226M12RATE030 A700V685M016ATE070 A700V825M016ATE070 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 D/7343-31 D/7343-31 D/7343-31 D/7343-31 D/7343-31 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 D/7343-31 D/7343-31 D/7343-31 D/7343-31 X/7343-43 X/7343-43 X/7343-43 V/7343-20 V/7343-20 V/7343-20 V/7343-20 D/7343-31 D/7343-31 D/7343-31 D/7343-31 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 X/7343-43 V/7343-20 V/7343-20 V/7343-20 V/7343-20 V/7343-20 22.0 5.5 A 22.0 5.5 A 33.0 8.3 A 33.0 8.3 A 33.0 8.3 A 47.0 11.8 A 47.0 11.8 A 47.0 11.8 A 56.0 14.1 A 56.0 14.1 A 56.0 14.1 A 68.0 17.1 A 68.0 17.1 A 68.0 17.1 A 82.0 20.7 A 82.0 20.7 A 82.0 20.7 A 100.0 25.2 A 100.0 25.2 A 120.0 30.2 A 120.0 30.2 A 120.0 30.2 A 150.0 37.8 A 150.0 37.8A 150.0 37.8 A 180.0 45.4 A 180.0 45.4 A 220.0 55.4 A 8 Volt Rating @ 125C 22.0 7.0 A 22.0 7.0 A 33.0 10.6 A 33.0 10.6 A 33.0 10.6 A 56.0 17.9 A 56.0 17.9 A 68.0 21.8 A 68.0 21.8 A 100.0 32.0 A 100.0 32.0 A 100.0 32.0 A 10 Volt Rating @ 125C 22.0 8.8 A 33.0 13.2 A 33.0 13.2 A 33.0 13.2A 56.0 22.4 A 56.0 22.4 A 68.0 27.2 A 68.0 27.2 A 100.0 40.0 A 100.0 40.0 A 120.0 48.0 A 120.0 48.0 A 150.0 60.0 A 150.0 60.0 A 12.5 Volt Rating @ 125C 10.0 5.0 A 15.0 7.5 A 22.0 11.0 A 16 Volt Rating @ 125C 6.8 8.2 4.3 A 5.2 A 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 6% 28 45 18 25 28 18 25 28 18 25 28 18 25 28 18 25 28 15 18 12 15 18 10 12 15 10 15 15 28 45 18 25 28 15 18 15 18 10 12 15 28 18 25 28 15 18 15 18 10 15 10 15 10 15 60 40 30 70 70 3.1 2.4 3.9 3.3 3.1 3.9 3.3 3.1 3.9 3.3 3.1 3.9 3.3 3.1 3.9 3.3 3.1 4.1 3.7 4.6 4.1 3.7 4.7 4.3 3.9 4.7 3.9 3.9 3.1 2.4 3.9 3.3 3.1 4.1 3.7 4.1 3.7 4.7 4.3 3.9 3.1 3.9 3.3 3.1 4.1 3.7 4.1 3.7 4.7 3.9 4.7 3.9 4.7 3.9 2.1 2.6 3.0 1.9 2.4
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(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
Aluminum Organic Capacitors
TANTALUM AND ALUMINUM CHIP CAPACITORS
Packaging Information
Tape & Reel Packaging
KEMET's Molded Tantalum and Aluminum Chip Capacitor families are packaged in 8 mm and 12 mm plastic tape on 7" and 13" reels, in accordance with EIA Standard 481-1: Taping of Surface Mount Components for Automatic Handling. This packaging system is compatible with all tape fed automatic pick and place systems.
Right Hand Orientation Only
Embossed Carrier
(+)
(-)
Embossment
Top Tape Thickness .10mm (.004") Max Thickness
8mm .30 8mm (0.315") (.315 .012") or or 12mm (0.472") 12mm .30 (.472 .012")
178mm (7.00") 180mm (7.0") oror 330mm (13.00") 330mm (13.0")
Labeling: Bar code labeling (standard or custom) shall be on the side of the reel opposite the sprocket holes. Refer to EIA-556.
QUANTITIES PACKAGED PER REEL
Case Code KEMET EIA R 2012-12 S 3216-12 T 3528-12 U 6032-15 W 7343-15 V 7343-20 A 3216-18 B 3528-21 C 6032-28 D 7343-31 Y 7343-40 X 7343-43 E 7260-38 Tape Width-mm 8 8 8 12 12 12 8 8 12 12 12 12 12 7" Reel* 2,500 2,500 2,500 1,000 1,000 1,000 2,000 2,000 500 500 500 500 500 13" Reel* 10,000 10,000 10,000 5,000 3,000 3,000 9,000 8,000 3,000 2,500 2,000 2,000 2,000
* No c-spec required for 7" reel packaging. C-7280 required for 13" reel packaging. * Standard reel packaging is not mandatory. * Bulk packaging also available using C-7610.
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(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
Packaging
TANTALUM, CERAMIC AND ALUMINUM CHIP CAPACITORS
Packaging Information
Performance Notes
1. Cover Tape Break Force: 1.0 Kg Minimum. 2. Cover Tape Peel Strength: The total peel strength of the cover tape from the carrier tape shall be: Tape Width Peel Strength 8 mm 0.1 Newton to 1.0 Newton (10g to 100g) 12 mm 0.1 Newton to 1.3 Newton (10g to 130g) The direction of the pull shall be opposite the direction of the carrier tape travel. The pull angle of the carrier tape shall be 165 to 180 from the plane of the carrier tape. During peeling, the carrier and/or cover tape shall be pulled at a velocity of 300 10 mm/minute. 3. Reel Sizes: Molded tantalum capacitors are available on either 180 mm (7") reels (standard) or 330 mm (13") reels (with C-7280). Note that 13" reels are preferred. 4. Labeling: Bar code labeling (standard or custom) shall be on the side of the reel opposite the sprocket holes. Refer to EIA-556.
Embossed Carrier Tape Configuration: Figure 1
Table 1 -- EMBOSSED TAPE DIMENSIONS (Metric will govern) Constant Dimensions -- Millimeters (Inches)
Tape Size 8 mm and 12 mm D0 E P0 4.0 0.10 (0.157 0.004) P2 2.0 0.05 (0.079 0.002) T Max 0.600 (0.024) T1 Max 0.100 (0.004) 1.5 1.75 0.10 +0.10 -0.0 (0.059 (0.069 0.004) +0.004, -0.0) Pitch Single (4 mm) B1 Max. Note 1 4.4 (0.173) 12 mm Double (8 mm) 8.2 (0.323) D1 Min. Note 2 1.0
Variable Dimensions -- Millimeters (Inches)
Tape Size 8 mm F 3.5 0.05 P1 4.0 0.10 R Min. Note 3 25.0 T2 Max 2.5 (0.098) W 8.0 0.30 (.315 0.012) A0B0K0 Note 4
(0.039) (0.138 0.002) 1.5 5.5 0.05 (0.059) (0.217 0.002)
(0.157 0.004) (0.984) 8.0 0.10 30.0 (0.315 0.004) (1.181)
4.6 12.0 0.30 (0.181) (0.472 0.012)
NOTES
1. B1 dimension is a reference dimension for tape feeder clearance only. 2. The embossment hole location shall be measured from the sprocket hole controlling the location of the embossment. Dimensions of embossment location and hole location shall be applied independent of each other. 3. Tape with components shall pass around radius "R" without damage (see sketch A). The minimum trailer length (Fig. 2) may require additional length to provide R min. for 12 mm embossed tape for reels with hub diameters approaching N min. (Table 2) 4. The cavity defined by A0, B0, and K0 shall be configured to surround the part with sufficient clearance such that the chip does not protrude beyond the sealing plane of the cover tape, the chip can be removed from the cavity in a vertical direction without mechanical restriction, rotation of the chip is limited to 20 degrees maximum in all 3 planes, and lateral movement of the chip is restricted to 0.5 mm maximum in the pocket (not applicable to vertical clearance.)
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(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
TANTALUM, CERAMIC AND ALUMINUM CHIP CAPACITORS
Packaging Information Embossed Carrier Tape Configuration (cont.)
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Sketch D: Tape Camber (Top View)
1mm (0.039) Max.
250mm (9.843) Allowable camber to be 1 mm/250 mm.
1mm (0.039) Max.
400mm (15.75) Min.
Figure 2: Tape Leader & Trailer Dimensions (Metric Dimensions Will Govern)
Figure 3: Reel Dimensions (Metric Dimensions will govern)
Table 2 - REEL DIMENSIONS (Metric will govern)
Tape Size 8 mm A Max 330.0 (12.992) B* Min 1.5 (0.059) C 13.0 0.20 (0.512 0.008) D* Min 20.2 (0.795) N Min 50.0 (1.969) See Note 3 Table 1 W1 8.4 +1.5, -0.0 (0.331 +0.059, -0.0) 12.4 +2.0, -0.0 (0.488 +0.078, -0.0) W2 Max 14.4 (0.567) W3 7.9 Min (0.311) 10.9 Max (0.429) 11.9 Min (0.469) 15.4 Max (0.606)
12 mm
330.0 (12.992)
1.5 (0.059)
13.0 0.20 (0.512 0.008)
20.2 (0.795)
18.4 (0.724)
(c)KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300
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Packaging

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