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1 POLYMER LUMINUM ELECTROLYTIC CPCITORS 15 2 SURFCE MOUNT LUMINUM ELECTROLYTIC CPCITORS 2 3 MINITURE LUMINUM ELECTROLYTIC CPCITORS LRGE LUMINUM ELECTROLYTIC CPCITORS 5 PLSTIC FILM CPCITORS 151 6 ELECTRIC DOUBLE LYER CPCITORS 15

SERIES CHRT LUMINUM ELECTROLYTIC CPCITORS 2

SERIES CHRT LUMINUM ELECTROLYTIC CPCITORS 3

CONTENTS Polymer luminum Electrolytic Capacitors(Hi-CP) Series Series chart pplication guidelines Packaging q ty(pcs) / box LED FB F FH FT FC Lead type, with conductive polymer(hi-cp) Chip type, with conductive polymer(hi-cp) Chip type, with conductive polymer(hi-cp), Large Capacitance, Low ESR Chip type, with conductive polymer(hi-cp), High Temp. for 1C use Chip type, with conductive polymer(hi-cp) -55 ~ 5-55 ~ 5-55 ~ 5-55 ~ 1-0 ~ 5 SMD Features Operating Temperature ( C) Surface Mount luminum Electrolytic Capacitors Voltage (VDC) 2.5 ~ 2.5 ~ 2.5 ~ ~ 35 2 ~ Capacitance (F) 3.3 ~ 0 3.3 ~ 0 3 ~ 200.2 ~ 2 2.2 ~ 0 New series Upgrade series Load Life Time (hours) 00 Page 2 1 23 1 21 26 SMD Series Series chart pplication guidelines, General introduction Part number System Taping specification & Packaging quantity SC NC RC ZC JC CK CD CM CN C CB CF CW Features Standard 5.5mmL chip, non-polarized Standard, wide temp 5.5mmL chip type, Low impedance 6mmL chip type, wide temp, high CV 6mmL chip type, Low impedance 6mmL chip type, Low impedance Low impedance, Long life 5.5mmL chip, wide temp. non-polarized chip type, high CV, Long life chip type, Long life chip type, high temp. for 0C use chip type, high reliability Operating Temperature ( C) -0 ~ 5-0 ~ 5-55 ~ 5-55 ~ 5-55(-0) ~ 5-55 ~ 5-55 ~ 5-55 ~ 5-0 ~ 5-55 ~ 5-55 ~ 5-0 ~ 0-0 ~ General Miniature Long Life Solvent Proof Voltage (VDC) ~ 50 ~ 50 ~ 50 ~ 35 ~ 50 ~ 50 ~ 50 ~ 50 ~ 50 ~ 50 ~ 50 ~ 50 ~ 50 Capacitance (F) 0.1 ~ 20 0.1 ~ 0.1 ~ 330 1 ~ 0 0.1 ~ 20 0.1 ~ 0 0.1 ~ 0 1 ~ 0 0.1 ~ 0.1 ~ 00 0.1 ~ 0 33 ~ 00 ~ 00 Load Life Time (hours) 00 00 5000 00 5000 5000 3000 00 Page 2 2 2 31 33 3 35 3 0 2 3 5 6 Miniature luminum Electrolytic Capacitors General Type(5C) General Type(5C) Low Impedance Ballast, Charger dapter High Reliability Non-polarize Series Features Series chart pplication guidelines, General introduction Part number System Lead forming, Cutting and Taping SD Standard SS Standard, height mm SE Standard, height 5mm RD Standard, wide temp. RM Wide temp. range RK Wide temp. range, height mm RE Wide temp. range, height 5mm RZ Extremely low impedance, high reliability WL Extremely low impedance, miniaturized, wide voltage RP Extremely low impedance, Long life WF Extremely low impedance, miniaturized, Long life WB Ultra low impedance WK Ultra low impedance WS Low impedance, height mm B For ballast applications, smaller case size RH High ripple current BH For ballast applications, high ripple BL For ballast applications, Long life BK For ballast applications, high temp. BM For ballast applications,high temp. for C use CH For charger, adapter RB High temp. range, for 1C use, minaturized V High temp. range, for 0C use, low impedance VB High temp. range, for 155C use RN Wide temp. range NP Standard NS Height mm NE Height 5mm BP For crossover networks BR For crossover networks, wide temp NF For horizontal current correction NH For horizontal current correction Operating Temperature ( C) -0(-) ~ 5-0 ~ 5-0 ~ 5-55(-0, -) ~ 5-0 ~ 5-55 ~ 5-55 ~ 5-55 ~ 5-0(-) ~ 5-55 ~ 5-0 ~ 5-0 ~ 5-0 ~ 5-55 ~ 5-0(-) ~ 5-0(-) ~ 5 - ~ 5 - ~ 5-0(-) ~ 1-0(-) ~ - ~ 5-55(-0) ~ 1-0 ~ 0-0 ~ 155-0 ~ 5-0 ~ 5-0 ~ 5-0 ~ 5-0 ~ 5-0 ~ 5-0 ~ 5-0 ~ 5 General Miniature Long Life Solvent Proof Voltage (VDC) ~ 500 ~ 63 ~ 63 ~ 50 ~ 50 ~ 63 ~ 50 ~ 63 ~ 50 ~ 50 ~ 0 ~ 0 ~ ~ 35 0 ~ 50 0 ~ 00 0 ~ 00 0 ~ 50 0 ~ 00 0 ~ 00 00,50 ~ 0 ~ 63 ~ 0 ~ 0 ~ 0 ~ 63 ~ 50 ~ 50,0,0 0,50,50 Capacitance (F) 1.0 ~ 3000 0.1 ~ 2 0.1 ~ 330 2.2 ~ 2 1.0 ~ 33000 0.1 ~ 6 0.1 ~ 2 0. ~ 00 0.22 ~ 00 1.0 ~ 00 0. ~ 00 0. ~ 00 0 ~ 3300 6. ~ 0 1.0 ~ 2 1.0 ~ 2.2 ~ 0 6. ~ 2.2 ~ 2.2 ~ 2.2 ~ 6 1.0 ~ 00 1.0 ~ 2 1.0 ~ 00 0.1 ~ 000 0. ~ 000 0.1 ~ 0.1 ~ 1.0 ~ 0 3.3 ~ 0 1.0 ~ 1.0 ~ Load Life Time (hours) 00 ~ 00 00 ~ 5000 ~ 5000 000 ~ 000 5000 ~ 000 ~ 5000 5000 00 5000 5000 000 ~ 000 5000 ~ 000 00 00 00 Page 2,3 50 51 5 5 5 5 62 6 65 66 6 1 3 5 0 1 2 3 5 6 0 2 6 0 1

CONTENTS New series Upgrade series Low Leakage Special Type Series RL LL LS LE TF Features Low leakage current, wide temp. range Low leakage current, standard Low leakage current, height mm Low leakage current, height 5mm For photo flash, standard Operating Temperature ( C) -55 ~ 5-0 ~ 5-0 ~ 5-0 ~ 5 - ~ 55 General Miniature Long life Solvent Proof Voltage (VDC) ~ 50 ~ 0 ~ 63 ~ 50 260 ~ 330 Capacitance (F) 0.1 ~ 330 1.0 ~ 0 0.1 ~ 0 0.1 ~ 0 60 ~ Load Life Time (hours) 00 00 --- Page 2 3 5 6 Large luminum Electrolytic Capacitors Snap-in Terminal LUG Ter minal Screw Terminal Special Type Series Features Series chart Part number system Packaging quantity(pcs) / box HC HJ HE HK HL HN HT HY HB Q LM GT CU GF GL EV EY M DF LW,SW R HP Standard Miniaturized Wide temp. range, standard Wide temp. range, miniaturized Wide temp. range miniaturized, long life Wide temp. range, Ultra smaller size 15mmL, miniaturized Wide temp. range long life High temp. range, for 1C use Permissible bnormal Voltage, snap-in terminal For general use Standard Wide temp. range, standard For inverter circuits, long life High ripple, long life For inverter circuits, long life For inverter circuits, long life For audio equipment For photo flash For Wleding Machine For inverter ir-conditioning system Horizontal Mount type Operating Temperature ( C) -0(-) -0(-) -0(-) -0(-) -0(-) -0(-) - -0(-) -0 - -0(-) -0(-) -0 - - - - -0 - - - -0 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 1 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 5 ~ 55 ~ 5 ~ 5 ~ 5 General Miniature Long life Solvent Proof Voltage (VDC) ~ 500 0 ~ 50 ~ 500 0 ~ 50 0 ~ 50 0 ~ 50 0 ~ 00 0 ~ 50 ~ 0 0, 00 ~ 50 ~ 50 ~ 00 350 ~ 600 350 ~ 50 00 ~ 50 350 ~ 50 ~ 0 330, 360 315, 5-0, 00 Capacitance (F) 56 ~ 0000 56 ~ 3300 ~ 6000 ~ 200 1 ~ 0 2 ~ 3300 3 ~ 30 ~ 0 0 ~ 00 ~ 0 6 ~ 000 ~ 60000 2 ~ 0000 00 ~ 1 0 ~ 1 20 ~ 600 0 ~ 1 0 ~ 33000-0 2 ~ 20-6 ~ 00 Load Life Time (hours) 3000 3000 5000 3000 000 00 ~ 5000 0 5000 000 - - - Page 3 1 1 115 11 2 1 1 0 3 6 10 15 1 2 1 Plastic Film Capacitors Series Features Operating Temperature ( C) Voltage (VDC) Capacitance (F) Page Inductive Type Non-Inductive Type Series chart Part number system, Lead forming, Cutting, Taping and Packaging TY TS TX TL P.E.T. Film. For general use P.E.T. Film. Small sized P.E.T. Film. Metallized P.E.T. Film. Small sized -0 ~ 5-0 ~ 5-0 ~ 5-0 ~ 5 0 ~ 00 50 0 ~ 630 63 ~ 630 0.001 ~ 0. 0.001 ~ 0. 0.001 ~ 0. 0.01 ~ 3. 3 152 15 155 156 15 Electric Double Layer Capacitors Series Features Series chart pplication guidelines Part number system, Lead forming, Cutting, Taping and Packaging DS Lead type,the small size and high capacitance DP Screw type, The large size and high capacitance Operating Temperature ( C) Voltage (VDC) Capacitance (F) Load Life Time (hours) -(-0) ~ 0(60) 2.5 1.0 ~ 0 00 - ~ 60 2.5 300 ~ 5000 00 Page 3 0 1 2 3 5

LIST OF SUBSTITUTE FOR DISCONTINUED SERIES Production discontinuation of old series at Samwha is implemented as planned. Technical documents and samples are available upon the request to study alternative products. The following series are discontinued. Please use the recommended replacements in the table. Type Discontinued Series Characteristics Obsolete Year Substitute Series Page CHIP TYPE MC GC TC 5C miniature 5C high CV 5C high CV Year 0 Year 0 Year 06 SC 31 JC 35 UC 1C high CV Year 0 CF 5 S 5C standard Year 16 SG G 5C standard, hours 5C high Voltage Year 0 Year 1 SD 5 SV 5C low profile Year 06 SK Height mm, high CV Year 16 SS 5 R 5C standard Year 1 MINITURE RDIL LED TYPE RG RV RX 5C standard 5C low profile Low impedance Year 0 Year 06 Year 02 RD 5 RT 5C 3000 hours Year 16 WL 6 RF 5C 5000 hours Year RW 1C hours, standard Year 06 RB 6 WD Extremely low lmpedance, standard Year 06 RZ 66 RQ Extremely low lmpedance, long life Year 06 RP 1 WZ Ultra low lmpedance, miniature Year 06 WK HM 5C standard, snap-in 00 hours Year 1 KL HS 5C standard, snap-in hours 5C standard, snap-in hours Year 16 Year 1 HC 1 HQ 5C miniature, snap-in hours Year 16 LRGE TYPE H HD 5C standard, snap-in 00 hours 5C miniature, snap-in hours Year 1 Year 16 HE 115 HU 5C snap-in, long life Year 06 HY 1 QB 5C withstanding overvoltage Year 06 Q SX SM Non inductive type, screw terminal 5C standard, screw terminal Year 1 Year 06 GT 3 SF For photo flash Year 16 DF 1 6

ENVIRONMENTL FRIENDLY CPCITORS s you are very concerned about world-wide environmental protection, Samwha Electric contributes to minimize banned materials of RoHS law. Now we offer completely Lead-free products and non Polyvinyl Chloride(PVC) sleeve products. Corresponding to RoHS Directive ITEM SMD type (Solid type) luminum electrolytic capacitors Lead terminal type (Solid type) Snap-in(Lug) terminal type Film capacitors Lead terminal type Product Pictures Corresponding to RoHS Directive Complied Complied Complied Complied Cadmium(Cd) Lead(Pb) Mercury(Hg) Does not contain. Does not contain. Does not contain. Does not contain. Hexavalent chromium(cr+6) Brominated flame retardants (PBBs, PBDEs) Identification for RoHS compliance parts Insulating sleeves Parts numbers are not changed. Not used Replaced with P.E.T. Marking PET or P is indicated on sleeve materials. -- Bottom plate -- -- Replaced with P.P. -- Lead Free Capacitor(terminal plating & soldering heat resistance) ITEM SMD type (Solid type) luminum electrolytic capacitors Lead terminal type (Solid type) Snap-in(Lug) terminal type Film capacitor Lead terminal type Construction of terminals. Fe / Cu / Sn(Fe / Cu / g). ( ) Solid type. Plating on terminal Changed plating from Sn-Pb to Sn(g)0%. ( ) Solid type. Heat resistance of soldering (Please contact us for detail.) Recommended reflow soldering D:260C, sec. Max. D ~:0C, sec. Max. D.5:C, sec. Max. Recommended flow soldering condition : 260C, sec. Max. Whisker 60C / RH 0% 2,000 hours, -55 / +5C 2,000 cycle, room temp. 2,000 hours. No difference with Sn-Pb.(Whisker is not observed.). ( ) Snap-in(Lug) type. Lead(Pb) - free marking dd Lead-free marking as left side on inner and outer carton box. Solderability tensile strength No difference with Sn-Pb Identification for Lead(Pb) free compliance parts Parts numbers are not changed.

ENVIRONMENTL FRIENDLY CPCITORS Background EU declared RoHS law to restrict the using of six hazardous substances. (February, 03) (Pb, Cd, Cr 6+, Hg, PBBs, PBDEs) Law Contents Enforcement date RoHS The using restriction of six hazardous substances. (Pb, Cd, Cr 6+, Hg, PBBs, PBDEs) July 1, 06. WEEE Restriction of Recovery / Recycle rate January 1, 0. EuE Environmental Friendly Design Enacting RoHS : Restriction of Hazardous Substances EuE : Ecodesign of End Use Equipment PBBs : Polybrominated biphenyls WEEE : Waste Electrical and Electronic Equipment PBDEs : Polybrominated diphenyl ethers Road map of Environmental Friendly Products & Status Year 03 Year 0 Year 05 Year 06 Lead Free RoHS Supplying of Environmental Friendly Products(July 1, 03) Total abolition of EU RoHS six prohibited Substances (Cd, Pb, Hg Cr 6+, PBBs, PBDEs)

LUMINUM ELECTROLYTIC CPCITORS pplication guidelines Correct application and strict adherence to the important information listed below, will be ensure optimum performance of the capacitors over their entire specified life. 1. POLRITY If you should reverse the polarities of a aluminum electrolytic capacitor, it would lead to short-circuited circuitry and may further result in an explosion if the unit is kept energized. SMWH offers unit of or more with safety vent design as the standard type in order to prevent possible accidents that may take place if the unit should be connected with its polarities reversed. It is advisable to use non-polar capacitors for a DC circuit where the polarity is to be reversed. 2. OVERVOLTGE Do not apply overvoltage. When overvoltage is applied to the capacitor, leakage current increase drastically, causing heat generation, short-circuit or breakage. 3. RIPPLE LOD The rated ripple current given for certain conditions(temperature, Frequency) shall not be exceeded. If so, early failure may result. The sum of DC-bias and maximum amplitude of ripple voltage shall be within rated voltage and 0V. Electrolytic capacitors are not normally designed for C application.. TEMPERTURE RNGE Use the electrolytic capacitors according to the specified operating temperature range. Usage at room temperature will ensure longer life. 5. CHRGE/DISCHRGE If used in circuits in which charge and discharge are frequently repeated, the capacitance value may drop, or the capacitor may be damaged. Please consult our technical department for assistance in these applications. 6. FOR SERIES CONNECTION luminum electrolytic capacitors may be connected in series, but when doing so it should be noted that the voltage distribution will be according to their leakage currents. This phenomenon may induce irregularities in voltage load and cause maximum ratings to be exceeded, this could have drastic consequences especially with high voltage capacitors. Series connected electrolytic capacitors should therefore be supplied the voltages shall be proportionally distributed by balancing resistors. balancing resistor

LUMINUM ELECTROLYTIC CPCITORS. FOR PRLLEL CONNECTION When you install more than 2 capacitors in parallel, consider the balance of current flowing into the capacitors.. LED STRESS Do not apply excessive force to the lead wires or terminals. If excessive force is applied to the lead wires and/or terminals, they may break and cause an open circuit. fter mounting, avoid holding or applying force to the capacitor. Do not twist or carry the PC board by grasping the capacitor body after the capacitor are soldered to the PC board.. MOUNTING The distance between the terminal holes on the circuit board should be the same as that between the lead wires or terminals of the capacitor. Excessive force in mounting on circuit boards should be avoided. Improper insertion of the lead wires in circuit board may cause electrolyte leakage, break the lead wires or impair their connection with the internal elements. When the distance between the two terminal holes on the circuit board cannot be reduced to that between the lead wires, lead formed capacitors are recommended. hole hole The main chemical solution of the electrolyte and the separator paper used in the capacitors are combustible. The electrolyte is conductive. When it comes in contact with the PC board, there is a possibility of pattern corrosion or short circuit between the circuit pattern which could in result smoking or catching fire. Do not locate any circuit pattern beneath the capacitor end seal. In order to prevent possible damage by vibration on the circuit board, kindly bond our capacitors on the circuit board or use any fastening devices. If the capacitor safety vent is placed toward circuit board, the There should not be any circuit pattern or circuit wire above the capacitor safety vent. Unless otherwise specified, following space should be made above the capacitor safety vent.

LUMINUM ELECTROLYTIC CPCITORS hole should be made to match the capacitor vent position. Do not install screw terminal capacitor with end seal side down. When you install a screw terminal capacitor in a horizontal mount, the positive terminal must be in the upper position.. SOLDERING In the dip soldering process of PC board with aluminum electrolytic capacitors mounted, secondary shrinking or crack of the sleeve may be observed when solder temperature is too high and/or dipping time is too long. If the lead wire of other components or pattern of bothsided PC board is close to the capacitor terminal the similar failure may be also originated. Please avoid having flux adhere to any portion except the terminal. Solder iron does not touch any portion of capacitor body. 11. Cleaning, Mounting of the PCB after soldering 1)When you clean a PCB, halogen cleaning agents can cause corrosion of aluminum foil and lead tab. If you need to clean, please replace lsopropyl lcohol(ip), Water as halogenated cleaning atents. 2)5minutes either by ultrasonic, vapor or immersion cleaning method.(chip type:2minutes) Be careful not to apply mechanical stress to the terminals or lead wires 3)Common type of halogenated cleaning agents are listed below Chemical Name Trichlorotrifluoroethane Fluorotrichloromethane 1,1,1-Trichloroethane Trichloroethylene Structural Formula CCIF CCIF CHCI CHCI Representatice Brand Name Freon TF, Daiflon S-3 Freon-11, Daiflon S-1 Cholroethene Trichlene Methyl Chloride CHCI MC Don t use the solvents listed above as clearning solvent agents even for solvents proof capacitors, because it has strong chemical reaction. )When using a latex-based adhesive on the capacitor s rubber end seal for adhesion to a PCB, corrosion may occur depending on the kind of solvent in the adhesive. Select an adhesive as an organic solvent with dissolved polymer that is not halogenated hydrocarbon. 5)Penetration Channel of Solvent and Corrosion Mechanism Trichlorotrifluoroethane Fluorotrichloromethane 1,1,1-Trichloroethane Trichloroethylene Methyl Chloride CCIF CCIF CHCI CHCI CHCI Freon TF, Daiflon S-3 Freon-11, Daiflon S-1 Cholroethene Trichlene MC 11

LUMINUM ELECTROLYTIC CPCITORS Penetration between the rubber and the aluminum case Penetration between the rubber and the lead wires Penetration through the rubber CI-gotten inside a capacitor reacts with aluminum. I + 3CI- ICI3 + 3e- Then, ICI3 resolves in water ICI3 + 3H2O I(OH)3 + 3H+ + 3CI- Thus, the CI- ion is freed again and repeats the corrosion of aluminum. 3 3 3 2 3. INSULTION MTERIL Sleeve material The standard sleeve material is P.V.C or P.E.T if exposed to xylene, toluene, etc. and then subjected to high heat, the sleeve may crack. Case and cathode terminal The case of capacitor is not insulated from the cathode terminal. Dummy terminals for snap-in type Dummy terminals are not insulated from the element. Dummy terminals are for added stability only, and should never be electrically connected to either the positive or negative terminal. P.V.C P.E.T SNP-IN. STORGE Do not store the capacitors in high temperature and high humidity conditions. void direct sunlight. (Recommendable conditions : 5 to 35C, 5 to 5% RH) Store the capacitors in the package. Capacitors should not be direct contact with water, brine or oil. Capacitors must not be exposed to toxic gases such as hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, or ammonium. When the capacitor is stored for a long time without applying voltage, leakage current tends to increase, due to deterioration of aluminum oxide film. This returns to normal by applying voltage. pply voltage(ging) before use if the capacitor is stored long time. It is recommended to apply DC working voltage to the capacitor for 30 minutes through 1kof protective series resistor.

LUMINUM ELECTROLYTIC CPCITORS General introduction Rated capacitance The capacitance value for which the capacitor has been designed and which is usually indicated upon it. Tolerance on rated capacitance Preferred values of tolerance on rated capacitance are: -/%, -/%, -/30%, -/50%, -/% Rated voltage The maximum direct voltage, or peak value of pulse voltage which may be applied continuously to a capacitor at any temperature within operating temperature range. Ripple voltage n alternating voltage may be applied, provided that the peak voltage resulting from the alternating voltage, when superimposed on the direct voltage, does not exceed the value of rated voltage or fall under 0V and that the ripple current is not exceeded. Surge voltage The maximum instantaneous voltage which may be applied to the terminations of the capacitor for a specified time at any temperature with the operating temperature range. Dissipation factor (tan) The power loss of the capacitor divided by the reactive power of the capacitor at a sinusoidal voltage of specified frequency. Leakage current Leakage current flows through a capacitor when DC voltage is applied in correct polarity. It is dependent on voltage, temperature and time. Ripple current ny pulsating voltage (or ripple voltage superimposed on DC bias) across a capacitor results in an alternating current through the capacitor. Because of ohmic and dielectric losses in the capacitor, this alternating current produced an increase of temperature in the capacitor cell. The capacitor should be used within specified permissible ripple current in each standard products table. In other condition of ambient temperature and frequency, ripple current multiplied by following multiplier can be applied as maximum permissible ripple current. *frequency coefficient 1. SMD type aluminum electrolytic capacitors Rated voltage (VDC) Surge voltage (VDC) 35 5 32 Frequency Coefficient 50Hz 0.0 1Hz 1.00 300Hz 1.1 1kHz 1.36 khz~ 1.50 Rated voltage (VDC) Surge voltage (VDC) Rated voltage (VDC) Surge voltage (VDC) Equivalent series resistance (ESR) The ESR of an equivalent circuit having capacitance, inductance and resistance in series measured with alternating current of approximately sinusoidal waveform at a specified frequency. where, ESR = 0 50 63 0 0 0 50 63 0 1 0 0 0 315 350 00 50 0 300 365 00 50 500 tan 2fC f = measurement frequency (1Hz) C = measurement capacitance (F) 2. Miniature aluminum electrolytic capacitors WV F Frequency ~ ~0 6 ~ 60 00 ~ 0~500 0. ~ 2 330 ~ 50Hz 0.5 0.0 0.5 0.0 0.0 1Hz 1.00 1.00 1.00 1.00 1.00 300Hz 1.35 1. 1. 1. 1. 3. Large aluminum electrolytic capacitors Frequency WV ~ 0 0 ~ 0 300 ~ 50Hz 0.5 0.5 0.5 1Hz 1.00 1.00 1.00 300Hz 1.06 1. 1.15 1kHz 1.55 1.35 1.15 1.0 1. 1kHz 1.15 1. 1. khz~ 2.00 1.50 1.15 1.60 1.15 khz~ 1. 1.5 1.0. Large aluminum electrolytic capacitors (Screw terminal type) WV Frequency 50Hz 1Hz 300Hz 1kHz khz~ ~ 0 0.0 1.00 1. 1.15 1. 0 ~ 0 0.0 1.00 1.15 1. 1.30 300 ~ 0.2 1.00 1. 1.35 1.0

LUMINUM ELECTROLYTIC CPCITORS Failure rate The failure rate of an aluminum electrolytic capacitor follows a bathtub curve. factory customer Failure rate (a) (b) (c) Time (a) initial failure period (infant mortility) (b) random failure period (useful life period) (c) wear-out failure period Expected life - (for reference) Temperature, humidity, ripple current and atmospheric pressure etc. have influence on the life of aluminum electrolytic capacitors. mong them, temperature has the greatest effect on life of capacitors. The relationship between ambient temperature and life of capacitor can be explained to so-called RRHENIUSequation, generally the life of capacitor is reduced approximately by one-half for each temperature increase of C. The life acceleration equation computes as shown below. T0-T L = L0 2 L : Expected life at operating temperature TC (h) L0 : Load life at maximum operating temperature T0C (h) Expected life chart - (for reference) Capacitor ambient temperature (C) 0 1 1 0 0 0 0 60 50 0 30 5C h product 5C 00h product 5C h product 5C 5000h product 5C 000h product 1C 00h product 2-h operation h/day Hours Years Years 2,000 5,000,000,000 50,000 0,000 0,000 Hours 1 2 3 5 Years 3 6 15 30 Years 1

1 POLYMER LUMINUM ELECTROLYTIC CPCITORS

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS Hi-CP (Conductive Polymer luminum Electrolytic Capacitor) Hi-CP is an electrolytic capacitor that uses a highly electric conductive polymer as it s electrolyte. Hi-CP has excellent temperature and load life characteristics due to adoption of stable polymer in high temperature. Compared to other electrolytic capacitors, the Hi-CP is a low impedance capacitor suitable for high frequency making it ideal for digital circuit. 1. Circuit design (1) The conducting polymer capacitor cannot be used in circuits that undergo frequent charging and discharging because the resulting internal heat buildup can cause capacitor failure. (2) Do not use the capacitor in time-constant or coupling circuits. In these type of circuit, electrical characteristics such as capacitance can change under certain environmental conditions. 2. Capacitor handling techniques (1) Capacitor insertion Incorrect land size may cause problems with capacitor placement and mountability. Refer to the land size table for appropriate design dimensions. (2) Soldering When using a soldering iron, set the tip temperature to no more than 300C, and work in as short a time as possible under seconds. While soldering, do not apply strong force to the capacitor. Reflow soldering The conducting polymer capacitor is designed specifically for reflow soldering. Maintain soldering conditions (pre-heating, reflow temperature, time) within the range indicated in the product specifications. If soldering time is lengthened or temperature is higher, the heat can damage the capacitor element and / or the molded case. Do not perform reflow soldering more than twice. (3) Circuit board cleaning Capacitors can withstand immersion in solvent at 60C or under for up to 5 minutes. Be sure to sufficiently wash (about 3 min. with water) and dry ( min. at 0C) the board afterward. 3. Electrical characteristics comparison of Capacitors Species High Frequency Temperature llowable ripple Miniaturized l Electrolytic capacitor MLCC Film Capacitor Tantal Capacitor Hi-CP Superior Ordinary Inferior

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS Taping Specifications for SMD Type Polymer Capacitors (Vertical type) Carrier Tape P00.1 P.1 D0 0.1 0 F0.1 E0.1 W0.3 B0.2 t1 SOLID TYPES t.2 P.1 0.2 DL B D0 E F P0 P1 P2 t1 t 2 W 5. 5 6. 11...6. 5.6 6..6.6... 5.6 6..6.6.. 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 5.5.5.5 11.5 11.5 11.5 11.5 2 2 2 2 2 2 2 0. 0. 0. 0. 0. 0. 0. 5. 6.2 6.2.2.3 11 2 2 2 2 Reel(Taping Code : VR) Recommended Land Size 0.5 23 2.0 01.0 32 C B DL 5. 5 6. 11...6 1 1 1 1 26 26 26 DL Q ty/reel(pcs) Q ty/box(pcs) 5. 5 6. 11...6 00 00 00 00 500 00 0 000 000 000 000 5000 000 DL B C 5. 5 6.. 11..6 1.0 1. 2.1 2..3 2..3 6.2..1 11.1.1 11.1.1 1.6 1.6 1.6 1. 1. 1. 1. Recommendable reflow soldering temperature 5s 0 Peak temperature Temperature on the surface of capacitor (C) 0 0 1s 30s 0 Time (sec.) 1

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS Chip type, With Conductive Polymer Series Low ESR, high ripple current Designed for surface mounting on high density PC board Load life for hours at 5C Complied to the RoHS directive Hi-CP DRWING (Unit : mm) PRT NUMBER SYSTEM (See Page 2) 1 Item Operating temperature range Leakage current max. Capacitance tolerance Dissipation factor max. ESR Temperature characteristics (Impedance ratio at 0kHz) Load life (after application of the rated voltage for hours at 5C, In case of WV is applied V) Resistance to soldering heat (Refer to Page 1 for soldering recommendation) -55 ~ +5C Less than or equal to the value of Table1 % at 1Hz, C Less than or equal to the value of Table1 Less than or equal to the value of Table1 Z-55C / Z+C 0.5~1. Leakage current Capacitance change tan Leakage current Capacitance change tan Characteristics Z+5C / Z+C 0.5~1. Less than specified value Within % of initial value Less than % of specified value Less than specified value Within % of initial value Less than 0% of specified value In case of some problems for measured values, measure after applying rated voltage for 2.5 to V products or temperature derating voltage Lot No. Capacitance F Series Code Voltage V is 6 Negative Polarity DIMENSIONS D0.5 Plastic plateform L0.3 0.3 max. B0.2 C0.2 R 0.5 max. Positive E 0.2 0.2 Negative Size D L B C E R 5. 5 6. 11...6 5 5. 6. 11...6.3 5.3 6.6.3.3.3.3.3 5.3 6.6.3.3.3.3 1 1. 2.1 3.2 3.2.6.6 1. 2.2 2.5 2. 2. 3.2 3.2 0.6~0. 0.6~0. 0.6~0. 0.6~0. 0.~1.1 0.6~0. 0.~1.1 F WV(SV) 2.5(3.3) (5.2) (.2) (11.5) (1.) (23) () 3.3. 6. 15 22 2 33 3 56 6 2 0 1 5. 5 5 6. 5. 5 5. 5. 5. 5. 5 6.. 5. 5 5 6. 6... 5 6. 6... 11..6 6.. 11..6 11. 2. 20 330 6... 11..6 0 11. 560 11..6 Case size DL(mm) 60 10 0 11..6..6.6 Size is available Size 6. is available Size. is available

1 CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS SOLID TYPES Table1. F(Chip type) Series Characteristics List Series 2.5 2.5 2.5 5 5 5 5 5 5 5 11..6 5. 6. 6.. 11..6 5. 6.... 11..6 5. 5. 5. 5. 6. 6.... 11..6 5. 6. 6.... 11..6 6. 6... 11..6 6.. 11..6 2 60 0 33 3 6 330 60 560 10 22 2 0 1 2 2 330 0 0. 6. 15 33 56 1 20 330 330 560 3.3 15 22 3 56 2 0 330 22 2 33 56 6 0 6. 22 33 56 23 0 0 60 0 35 35 0 0 5 0 1 35 15 2 0 0 50 5 35 35 30 1 260 1 0 50 5 0 35 30 30 1 60 60 5 5 0 0 2 0 60 50 30 2 230 5 50 0 10 1 60 60 300 5 50 0 10 1 20 60 300 300 300 2 50 60 60 00 0 10 60 60 30 300 300 350 5230 660 60 10 21 260 30 30 360 10 10 0 0 33 3 10 0 30 300 0.15 0.1 0.15 0.15 0.1 0.15 0.0 0.0 0.0 0.1 0.1 0.15 0.15 0.0 0.1 0.1 0.1 0.15 0.15 0.1 0.1 0.1 0.15 0.15 0.1 0.1 0.1 1 30 50 66 6 1 1 26 5 60 6.3 1 3 6 151 2 2 52 52 5 23.5 3 50 5 5 1 300 300 50 660 660 0 26. 1 16 1 1 262 3 0 56 56 2 0 2 1 22 22 00 600 5 1 25 00 ESR(mΩ)max. Ripple current Dissipation factor Leakage Current WV F D(mm) L(mm) at C (m rms)at 5 C at C ()(max.) 0~300kHz 0kHz 1Hz after 2 minutes

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS NEW Chip type, Large Capacitance, Low ESR Serise Large capacitance, Low ESR than F Series Complied to the RoHS directive Hi-CP Item Operating temperature range Leakage current max. Capacitance tolerance Dissipation factor max. ESR Temperature characteristics (Impedance ratio at 0kHz) Load life (after application of the rated voltage for hours at 5C) -55 ~ +5C Less than or equal to the value of Table1 % at 1Hz, C Less than or equal to the value of Table1 Less than or equal to the value of Table1 Z-55C / Z+C 0.5~1. Leakage current Capacitance change ESR tan Characteristics Z+5C / Z+C 0.5~1. Less than specified value Within % of initial value Less than % of specified value Less than % of specified value Resistance to soldering heat (Refer to Page 1 for soldering recommendation) Leakage current Capacitance change tan Less than specified value Within % of initial value Less than 0% of specified value In case of some problems for measured values, measure after applying rated voltage for 1 minutes at 5C. DRWING (Unit : mm) PRT NUMBER SYSTEM (See Page 2) Size D L B C E R Lot No. Capacitance FH Series Code Voltage V is 6 D0.5 Plastic plateform 0.3 max. B0.2 C0.2 Positive 0.5 max. E 0.2 0.2 5 6. 11..6 5 6. 11..6 5.3 6.6.3.3.3 5.3 6.6.3.3.3 1. 2.1 3.2.6 3.2 2.2 2.5 2. 2. 3.2 0.6~0. 0.6~0. 0.6~0. 0.~1.1 0.~1.1 Negative Polarity L0.3 R Negative DIMENSIONS F WV(SV) 2.5(3.3) (5.2) (.2) (11.5) (1.) 3 6 0 1 2 20 330 30 5 5 5 6. 5 6. 5 6. 6. 560 11. 60 6. 11. 11. Case size DL(mm) 10 0 200 11..6 11. 11.

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS NEW Chip type, Gurranteed at 1C Serise The FT Series is very reliable, gurranteeing performance Suitable for use in smoothing circuits of vehicle-mounted equipment, industrial equipment, etc Complied to the RoHS directive Hi-CP SOLID TYPES Item Operating temperature range Leakage current max. Capacitance tolerance Dissipation factor max. ESR Temperature characteristics (Impedance ratio at 0kHz) Load life (after application of the rated voltage for hours at 1C) -55 ~ +1C Less than or equal to the value of Table1 % at 1Hz, C Less than or equal to the value of Table1 Less than or equal to the value of Table1 Z-55C / Z+C 0.5~1. Leakage current Capacitance change ESR tan Characteristics Z+1C / Z+C 0.5~1. Less than specified value Within % of initial value Less than 0% of specified value Less than 0% of specified value Resistance to soldering heat (Refer to Page 1 for soldering recommendation) Leakage current Capacitance change tan Less than specified value Within % of initial value Less than 0% of specified value In case of some problems for measured values, measure after applying rated voltage for 1 minutes at 1C. DRWING (Unit : mm) PRT NUMBER SYSTEM (See Page 2) Size D L B C E R Lot No. Capacitance FT Series Code Voltage V is 6 D0.5 Plastic plateform 0.3 max. B0.2 C0.2 Positive 0.5 max. E 0.2 0.2 6. 11...6 6. 11...6 6.6.3.3.3.3 6.6.3.3.3.3 2.2 3.2 3.2.6.6 2.5 2. 2. 3.2 3.2 0.6~0. 0.6~0. 0.~1.1 0.~1.1 0.~1.1 Negative Polarity L0.3 R Negative DIMENSIONS WV(SV) F (11.5) (1.) (2) 35(0).2 1 22 3 56 2 6. 6.. 11..6 6.. 11..6 Case size DL(mm) 21

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS Taping Specifications for Lead Type Polymer Capacitors DRWING P2 P h L H P1 F W2 W0 W1 W t P0 d D0 pplicable Drawing No. Description Symbol Tolerance Body Height Lead Dia. Body Pitch Feeding Hole Pitch Feeding Hole lignment Feeding Hole lignment Lead Center Spacing Body Inclination Tape Width dhesive Tape Width Feeding Hole lignment dhesive Tape Margin Length from Seating Plane Feeding Hole Dia. Total Tape Thickness Cut Lead Height Taping Code mmo L 1 6 d 0.05 0.5 0.60 P 1.0 P0 P1 P2 F h W W0 W1 W2 0.2 0. 5.1 1.0 0.6/-0.2 2.5 2.0 0.5 min. 0.5 max. H D0 t 0.5 0.2 0.2 max. 1.5 leader PC PF 0.60 0.6.. 3.5 5 3.5 5.0 0 1.0.0.0 2.0 1.5.0 0. 11.0 P PCKGING Q ty(pcs.) / BOX Size mmo D Case Height L H W Q ty 6 332 230 2 0 332 332 332 230 230 10 2 51 00 00 500 mmo Tear off W L H BULK PCKING QUNTITY(PCS) / BOX Size D L V-BG INNER BOX MIDDLE BOX 6 50 6000 00 50 6000 00 00 30 10 00 30 10 0 0 6000 CUTTING PCKING QUNTITY(PCS) / BOX Size D L V-BG INNER BOX MIDDLE BOX 6 50 6000 00 50 6000 00 500 000 000 00 30 10 0 0 6000 22

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS Lead type, With Conductive Polymer Series Low ESR, high ripple current Load life for hours at 5C Complied to the RoHS directive Hi-CP SOLID TYPES Item Operating temperature range Leakage current max. Capacitance tolerance Dissipation factor max. ESR Temperature characteristics (Impedance ratio at 0kHz) Load life (after application of the rated voltage for hours at 5C, In case of WV is applied V) -55 ~ +5C Less than or equal to the value of Table1 % at 1Hz, C Less than or equal to the value of Table1 Less than or equal to the value of Table1 Leakage current Capacitance change tan Z-55C / Z+C 0.5~1. Characteristics Z+5C / Z+C 0.5~1. Less than specified value Within % of initial value Less than % of specified value In case of some problems for measured values, measure the after applying rated for 2.5 to V products or temperature derating voltage for V products for 1 minutes at 5C. DRWING (Unit : mm) PRT NUMBER SYSTEM (See Page 50) Capacitance Lot No. 0 6FB Series Code Voltage Negative Polarity D0.5max. Laminated Case L max. d Silvered CP Wire 15min. min. P0.5 Size D L P d 6.0.0.0 6.0.0.0.0.0 2.5 2.5 3.5 3.5 5.0 0.5 0.5 0.6 0.6 0.6 0.5 0.5 0.5 0.5 0.5 DIMENSIONS F WV(SV) 2.5(3.3) (5.2) (.2) (11.5) (1.) (23) () 6. 1 22 33 3 56 6 2 0 1 2 20 330 30 0 560 60 00 10 0 200 3300 6 6 6 6 6 6 6 Case size DL(mm) 6 6 23

2 CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS Table 1. FB(Lead type) Series Characteristics List Series 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 30 560 60 00 0 200 3300 0 2 20 330 30 0 560 60 10 2 2 330 0 60 00 10 0 56 6 0 1 20 330 30 0 560 60 3 2 0 20 330 0 22 56 6 0 6. 1 22 33 56 6 0 6 6 6 6 6 6 6 6 6 0 0 35 2 2 5 35 2 35 50 11 60 2 0 60 0 0 30 30 30 60 60 60 60 5500 5560 6650 1 1 60 30 3300 3300 500 60 60 500 60 30 310 500 660 660 60 5560 5560 2 2 2 2 60 2 5650 5650 5650 60 21 2 360 5000 60 60 2 2 2 33 3 10 0 2230 2230 20 300 33 3 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 15 30 500 50 50 50 0 1 16 2 26 3 36 5 60 3 1 2 52 5 33 60 15 10 1 6 0 300 50 660 0 0 11 60 262 3 56 6 56 1 22 22 00 600 5 1 2 25 00 50 10 ESR(mΩ)max. Ripple current Dissipation factor Leakage Current WV F D(mm) L(mm) at C (m rms)at 5 C at C ()(max.) 0~300kHz 0kHz 1Hz after 2 minutes

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS Taping Specifications for SMD type Polymer Capacitors (Horizontal type) Carrier Tape t1 Feeding hole D0 0.2 +0.1 0 B0.2 Chip pocket F0.1 E0.1 W0.3 SOLID TYPES t.2 Chip component P.1 P.1 P00.1 D.1 Size code C D B D0 D1 E F P0 P1 P2 t1 t2 W.. 1.5 1.6 1.5 5.5.0.0 2.0 0.3 2.2.0.. 1.5 1.6 1.5 5.5.0.0 2.0 0.3 3..0.. 1.5 1.6 1.5 5.5.0.0 2.0 0.3.5.0 Packaging Specifications E0.5 C0.5 D0. 0 min. 3302.0 Size code C D Q ty / Reel 3000 pcs. pcs. pcs. W1.5 t0.5 C D E W t.0 21.0 2.0 1.0 2.0 Recommendable reflow soldering temperature 5s 0 Peak temperature Temperature on the surface of capacitor (C) 0 0 1s 30s 0 Time (sec.)

CONDUCTIVE POLYMER LUMINUM ELECTROLYTIC CPCITORS UPGRDE Chip type, With Conductive Polymer Series Low ESR, high ripple current Excellent noise-absorbent characteristics Very stable capacitance, impedance and ESR against temperature Designed for use smoothing circuit of power supplies and noise limiter Complied to the RoHS directive Hi-CP Item Operating temperature range Leakage current max. Capacitance tolerance Dissipation factor max. ESR Load life (after application of the rated voltage for 00 hours at 5C) Moisture resistance (after leaving capacitors under no load at 60C for 500 hours 0% R.H.) Characteristics -0 ~ +5C I = 0.0CV or 3 whichever is greater (after 2 minutes) % at 1Hz, C 0.06 max. at 1Hz, C ESR at C 0kHz, as per table below Leakage current Capacitance change tan Leakage current Capacitance change of lnitial value tan Less than specified value Within % of initial value Less than % of specified value Less than 300% of specified value 2, 2.5V.DC V.DC V.DC ~V.DC +0, -% +60, -% +50, -% +0, -% Less than % of specified value DRWING (Unit : mm) PRT NUMBER SYSTEM (See page 2) (Example : V F) Voltage Size Code C D L.3.3.3 0J6 Lot No W.3.3.3 Capacitance W1 2. 2. 2. + Polarity (positive) H 1. 2..2 S 1.3 1.3 1.3 W0.3 S0.3 L0.3 H0.1 W.1 FC 0J 6 M 33 VR Internal control code Taping Size(L.3, W:.3, H:1.) Capacitance torerance(%) Capacitance(F) Rated voltage(v) Series name DIMENSIONS & MXIMUM PERMISSIBLE RIPPLE CURRENT 26 WV F 2 2.5.5 2.2. 6..2 15 22 33 56 6 2 0 1 2 330 30 0 55 0 2 1 00 0 00 3500 3500 300 300 C C D D 55 0 2 1 00 00 3500 300 300 C D D 55 0 2 1 00 00 3500 300 300 C D D 55 0 2 1 00 00 3500 3500 300 C D D 55 0 2 1 1 15 00 00 00 3000 D D 0 60 50 30 00 00 00 00 Size code Ripple current (m rms) at 5C, 0kHz ESR (m) max. at C, 0kHz 1 0 0 5 00 00 00 00