SMS25VB47M5*11_5.0TP

RoHS MESSRS: APPROVAL NO 214 - 016 DATE 2008.12.25 ALUMINUM ELECTROLYTIC CAPACITOR APPROVAL SHEET CATALOG TYPE SMS SERIES USER PART NO. 适 用 机 种 特 记 事 项 Pb-FREE QINGDAO SAMYOUNG ELECTRONICS CO.,LTD MANAGER OF DEVELOPMENT DEPARTMENT GONG JANG SUG 长孔 硕 USER APPROVAL: APPROVAL NO.： SamYoung(Korea) : 146-1,SANGDAEWON-DONG,JOONGWON-GU,SUNGNAM-CITY,KYUNGKI-DO,KOREA SamYoung(China) : No.5 CHANGJIANG ROAD,PINGDU-CITY,SHANDONG-PROVINCE,CHINA 样式：H-1001-011 A4 （210×297） SamYoung Electronics Co., Ltd. APPROVAL NO. PAGE: 1 OF 5 ALUMINUM ELECTROLYTIC CAPACITOR 214 - 016 DATE: 2008.12.25 Specifications of SMS Series Characteristics Item Rated Voltage Range Operating Temperature Range 100 VDC or less 160 ~ 450VDC - 40 ~ + 85 ℃ - 25 ~ + 85 ℃ Nominal Capacitance Range 0.1 ~ 15,000 uF Capacitance Tolerance ±20% (AT 120Hz,20℃） After 2 minute:0.01CRVR ( μA ) or 3 μA, After 1 minute whichever is greater Leakage Current CRVR≤1，000 CRVR＞1，000 CRVR≤1，000 CRVR＞1，000 Where,CR =Nominal capacitance (μF) ( at 20 ℃ ) 0.1CRVR+40 VR =Rated Voltage (VDC) Dissipation Factor ( TANδ) After 5 minutes 0.04CRVR+100 Rated voltage(VDC) 6.3 10 16 25 35 50 63 TANδ 0.24 0.20 0.16 0.14 0.12 0.10 0.09 ( 20℃，120Hz ) 0.03CRVR+15 0.02CRVR+25 100 160~250 350~450 0.08 0.20 0.24 350 400 450 When the capacitance exceeds 1000μF,0.02 shall be added every 1000μF increase. Temperature Characteristic Rated voltage(VDC) 6.3 10 16 25 35~100 (Impedance ratio at 120Hz) Z-25℃/z+20℃ 4 3 2 2 2 4 8 12 16 16 Z-40℃/z+20℃ 10 8 6 4 3 - - - - - The following specifications shall be satisfied when the capacitors are restored to 20℃ after the rated voltage applied for 2,000 hours at 85℃. Capacitance change:≤± 20% of initial Value ≤150% of initial specified value TANδ Leakage current : ≤Initial specified value The following specifications shall be satisfied when the capacitors are restored to 20℃ after the rated voltage applied for 2,000 hours at 85℃. Capacitance change:≤± 20% of initial Value ≤200% of initial specified value TANδ (where,150% for≥ WV 450VDC ) Leakage current:≤Initial specified value The following specifications shall be satisfied when The following specifications shall be satisfied when the capacitors are restored to 20℃ after exposing the capacitors are restored to 20℃ after exposing them at 85℃ for a half assurance load life time them at 85℃ for a half assurance load life time without voltage applied. without voltage applied. Capacitance change:≤± 20% of initial Value Capacitance change:≤± 20% of initial Value ≤150% of initial specified value TANδ ≤200% of initial specified value TANδ Leakage current : ≤Initial specified value Leakage current : ≤200% of initial specified value Satisfies characteristic W of KS C 6421 Load Life Shelf Life Others B.MARKING:WITH BLACK SLEEVE, WHITE INK L' L 20MIN F±0.5 A.DIAGRAM OF DIMENSION 5MIN SMS ΦD + VINYL SLEEVE SAFETY VENT（≥6.3φ） Φd ≤10 SAM 16 V YOUNG 330μF (M) 85℃ ≥12.5φ FRONT VIEW OF CAPACITOR When ΦD≤8,ΦD'≤ΦD+0.5,and L'≤L+1.5 When ΦD＞8,ΦD'≤ΦD+0.5,and L'≤L+2.0 ΦD 5 6.3 8 10 12.5 16 18 Φd 0.5 0.5 0.6 0.6 0.6 0.8 0.8 F 2.0 2.5 3.5 5.0 5.0 7.5 7.5 LOT NO. Φ D' 160 200~250 ← BACK VIEW OF CAPACITOR ← 李波 SamYoung Electronics Co., Ltd. ← 清杨 鸽 仁郑 爱 PAGE: 2 OF 5 ALUMINUM ELECTROLYTIC CAPACITORS APPROVAL NO. 214 - 016 RATINGS OF SMS SERIES wv CAP 6.3 10 16 25 ØDXL(mm) 35 0.1 0.22 0.33 0.47 0.68 1 2.2 3.3 4.7 6.8 10 22 33 47 68 100 220 330 470 680 1000 2200 3300 4700 6800 10000 15000 5X11 55 5X11 79 5X11 110 5X11 150 6.3X11 256 6.3X11 313 8X11.5 441 10X12.5 616 10X12.5 747 12.5X20 1457 12.5X20 1649 16X25 2287 16X25 2562 16X31.5 3102 18X31.5 3785 5X11 59 5X11 84 5X11 100 5X11 130 5X11 165 6.3X11 280 8X11.5 405 8X11.5 483 10X12.5 675 10X16 896 12.5X20 1514 12.5X25 1922 16X25 2433 16X31.5 2954 18X35.5 3448 5X11 44 5X11 75 5X11 90 5X11 110 5X11 151 6.3X11 211 8X11.5 370 8X11.5 453 10X12.5 626 10X20 902 10X20 1094 12.5X25 1798 16X25 2303 16X31.5 2854 18X31.5 3192 5X11 54 5X11 80 5X11 97 5X11 138 6.3X11 191 6.3X11 231 8X11.5 405 10X12.5 576 10X16 752 10X20 988 12.5X20 1407 16X25 2134 16X31.5 2673 18X35.5 3386 5X11 40 5X11 50 5X11 58 5X11 87 5X11 129 6.3X11 177 6.3X11 213 8X11.5 306 10X12.5 526 10X16 706 10X20 909 12.5X20 1296 12.5X25 1714 16X31.5 2521 18X31.5 3218 50 63 100 160 200 250 350 400 450 5X11 7.5 5X11 10 5X11 12 5X11 17 5X11 20 5X11 24 5X11 36 5X11 44 5X11 53 5X11 63 5X11 76 5X11 113 6.3X11 158 6.3X11 190 8X11.5 269 8X11.5 327 10X16 615 10X20 823 12.5X20 1153 12.5X25 1519 16X25 2034 18X35.5 3049 5X11 8.2 5X11 11 5X11 13 5X11 18 5X11 21 5X11 25 5X11 37 5X11 46 5X11 57 5X11 68 5X11 82 6.3X11 140 6.3X11 171 8X11.5 242 10X12.5 347 10X12.5 409 10X20 726 12.5X20 1044 12.5X25 1358 16X25 1811 16X31.5 2403 5X11 8.5 5X11 13 5X11 15 5X11 18 5X11 21 5X11 25 6.3X11 39 5X11 47 5X11 58 5X11 69 6.3X11 95 8X11.5 165 10X12.5 235 10X16 308 10X20 360 10X20 450 16X25 929 16X25 1262 16X31.5 1647 18X35.5 2230 6.3X11 19 6.3X11 23 6.3X11 26 6.3X11 39 8X11.5 54 8X11.5 66 10X12.5 90 10X16 112 10X20 195 12.5X20 280 12.5X25 341 16X25 447 16X25 602 18X35.5 1099 6.3X11 19 6.3X11 23 6.3X11 27 6.3X11 40 8X11.5 56 10X12.5 74 10X12.5 92 10X16 123 10X20 198 12.5X25 286 12.5X25 372 16X25 490 16X31.5 608 18X40 1153 6.3X11 20 6.3X11 24 6.3X11 28 8X11.5 45 10X12.5 62 10X12.5 77 10X12.5 94 10X20 125 12.5X25 233 12.5X25 312 16X25 412 16X25 495 18X35.5 658 8X11.5 21 8X11.5 25 8X11.5 29 10X12.5 52 10X16 63 10X16 78 10X16 101 12.5X20 134 12.5X25 254 16X25 312 16X31.5 418 16X35.5 569 18X40 778 8X11.5 21 8X11.5 25 8X11.5 30 10X12.5 53 10X16 64 10X20 84 12.5X20 110 12.5X20 156 16X25 254 16X31.5 345 16X35.5 473 18X35.5 611 10X12.5 27 10X16 42 10X20 63 12.5X20 82 12.5X20 99 12.5X20 141 16X31.5 252 16X35.5 348 16X35.5 423 18X40 573 Case Size ØD X L (mm) Ripple Current (mArms)AT 85℃,120Hz SamYoung Electronics Co., Ltd. PAGE: 3 OF 5 APPROVAL NO. ALUMINUM ELECTROLYTIC CAPACITORS 214 - 016 STRUCTURE AND MATERIALS LEAD WIRE LEAD WIRE AL LEAD PACKING PAD AL FOIL ( - ) AL LEAD AL FOIL ( + ) VINYL SLEEVE AL CASE ADHESIVE TAPE ELEMENT SEPARATOR CE04 TYPE *MINIATURE SIZED TYPE CAPACITORS COMPONENT PART NAME MATERIALS LEAD WIRE TINNED COPPER - PLY WIRE(Pb-FREE) AL LEAD ALUMINUM 99.92 % OVER PACKING PAD SYNTHETIC RUBBER OR BAKE PAD(Pb-FREE) SLEEVE P.V.C （POLY VINYL CHLORIDE） AL CASE ALUMINUM 99.0 % OVER VENDER SAMATRON IL KWANG FORMED ALUMINUM 99.9 % OVER SUNG NAM (KOREA/CHINA) TIAN TAI (CHINA) SUNG NAM MOO DEUNG (KOREA/CHINA) HA NAM (KOREA/CHINA) AO XING (CHINA) K.D.K / JCC / MATSUSHITA (JAPAN) BECROMAL (ITALY) SATMA LUXON / LITON INSULATION PAPER ADHESIVE TAPE POLY PROPYLENE FILM (FRANCE) (CHINA) (TAIWAN) K.D.K (JAPAN) ALUKO / K-JCC (KOREA) AFT / YINGKELAI / SHENGHONG (CHINA) N.K.K / M.F.G / DAIFUKU SEPARATOR (KOREA) ECHO / INTERTEC YINGKELAI / HUAFENG / HEC ETCHED ALUMINUM 98.0 % OVER (KOREA/CHINA) D.N TECH HUAFENG / HISTAR AL FOIL (KOREA/CHINA) SAM ATRON ALUKO / SAM YOUNG AL FOIL (KOREA/CHINA) IL KWANG (JAPAN) SPO (GERMANY) MHD (AMERICA) KAN (CHINA) DAI IL (KOREA) NITTO (JAPAN) SamYoung Electronics Co., Ltd. PAGE: 4 OF 5 When using aluminum electrolytic capacitors,pay strict attention to the following: 1. Electrolytic capacitors for DC application require polarization. Confirm the polarity.If used in reversed polarity,the circuit life may be shortened or the capacitor may be damaged.For use on circuits whose polarity is occasionally reversed,or whose polarity is unknown,use bi-polarized capacitors (BPseries).Also,note that the electrolytic capacitor cannot be used for AC application. 2. Do not apply a voltage exceeding the capacitor`s voltage rating. If a voltage execeeding the capacitor`s voltage rating is applied,the capacitor may be damaged as leakage current increases. When using the capacitor with AC voltage superimposed on DC voltage,care must be exercised that the peak value of AC voltage does not exceed the rated voltage. 3. Do not allow excessive ripple current to pass. Use the electrolytic capacitor at current values within the permissible ripple range.If the ripple current exceeds the specified value,request capacitors for high ripple current applications. 4. Ascertain the operating temperature range. Use the electrolytic capacitors according to the specified operating temperature range.Usage at room temperature will ensure longer life. 5. The electrolytic capacitor is not suitable for circuits in which charge and discharge are frequently repeated. 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 engineering department for assistance in these applications. 6. Apply voltage treatment to the electrolytic capacitor which has been allowed to stand for a long time. If the electrolytic capacitor is allowed to stand for a long time,its withstand voltage is liable to drop,resulting in increased leakage current.If the rated voltage is applied to such a product,a large leakage current occurs and this generates internal heat,which damaged the capacitor.If the electrolytic capacitor is allowed to stand for a long time,therefore,use it after giving voltage treatment (Note 1).(However,no voltage treatment is required if the electrolytic capacitor is allowed to stand for less than 2 or 3 years at normal temperature.) 7. Be careful of temperature and time when soldering. When soldering a printed circuit board with various,components,care must be taken that the soldering temperature is not too high and that the dipping time is not too long.Otherwise,there will be adverse effects on the electrical characteristics and insulation sleeve of electrolytic capacitors in the case of small-sized electrolytic capacitors,nothing abnormal will occur if dipping is performed at less than 260℃ for less than 10 seconds. 8. Do not place a soldering iron on the body of the capacitor. The electrolytic capacitor is covered with a vinyl sleeve.If the soldering iron comes in contact with the electrolytic capacitor body during wiring,damage to the vinyl sleeve and/or case may result in defective insulation,or improper protection of the capacitor element. 9. Cleaning circuit boards after soldering. Some solvents have adverse effects on capacitors. Please refer to the next page. 10.Do not apply excessive force to the lead wires or terminals. If excessive force is applied to the lead wires and terminals,they may be broken or their connections with the internal elements may be affectde.(For strength of terminals,refer to KS C6035 KS C6421(JIS C5102,JIS C5141) 11.Care should be used in selecting a storage area. If electrolytic capacitors are exposed to high temperatures caused by such things as direct sunlight,the life of the capacitor may be adversely affected.Storage in a high humidity atmosphere may affect the solderability of lead wires and terminals. 12.Surge voltage. The surge voltage rating is the maximum DC over-voltage to which the capacitor may be subjected for short periods not exceeding approximately 30 seconds at infrequent intervals of not more than six minutes.According to KS C6421,the test shall be conducted 1000 cycles at room temperature for the capacitors of characteristic W of KS C6421 or at the maximum operating temperature for the capacitors of characteristics B and C of KS C6421 with voltage applied through a series resistance of 1000 ohms without discharge.The electrical characteristics of the capacitor after the test are specified in KS C6421.Unless otherwise specified,the rated surge voltage are as follows: Rated Voltage(V) 2 4 6.3 10 16 25 35 50 63 80 100 160 200 250 315 350 400 450 500 Rated Surge Voltage(V) 2.5 5 8 13 20 32 44 63 79 100 125 200 250 300 365 400 450 500 550 Note 1 Voltage treatment … Voltage treatment shall be performed by increasing voltage up to the capacitor`s voltage rating gradually while lowering the leakage current.In this case,the impressed voltage shall be in the range where the leakage current of the electrolytic capacitor is less than specified value.Meanwhile,the voltage treatment time may be effectively shortened if the ambient temperature is increased (within the operating temperature range). Note 2 For methods of testing, refer to KS C 6035, KS C 6421，（JIS C 5102，JIS C 5141） SamYoung Electronics Co., Ltd. PAGE: 5 OF 5 CLEANING CONDITIONS Aluminum electrolytic capacitors that have been exposed to halogenated hydrocarbon cleaning and defluxing solvents are susceptible to attack by these solvents.This exposure can result in solvent penetration into the capacitors, leading to internal corrosion and potential failure. Therefore, for ordinary capacitors, the cleaning materials of alcohol system had to be used. However, the solvent proof type capacitors of Samyoung Elec. Can withstand cleaning by some halogenated solvents shown: (rated voltage≤100 VDC only) * FREON TE R OR TES R Cleaning method: One of immersion, ultrasonic or vap or cleaning. Maximum cleaning time: 5 minutes(where, KRE,SRM is 2 minutes) * 1,1,1-Trichlorethane Cleaning method: immersion cleaning at the normal temperature Maximum cleaning time: 5 minutes(where, KRE,SRM is not assured) — Caution — * When the lead space of the capacitor is different from the hole space of the PC board to be mounted , use the lead forming type capacitor to prevent stress on seal. * Consult for flux to be used and other cleaning conditions. (Freon TE and TES are registered trademarks of Dupont,Inc.) * lnfluence of cleaning solvent for aluminum electrolytic capacitor. Aluminum electrolytic capacitors are easily affeceted by halogen ions,particularly by chloride ions. Excessive amounts of halogen ions,if happened to enter the inside of the capacitors, will give corrosion accidents-rapid capacitance drop and vent open. The extent of corrosion accidents varies with kinds of electrolytes and seal-materials. Therefore, the prevention of halogen ion contamination is the most improtant check point for quality control in our procuction lines. At present, halogenated hydrocarboncontained organic solvents such as Trichloroethylene, 1,1,1-Trichloroethane, and Freon are used to remove flux from circuit boards. However, if general types of aluminum electroytic capacitors,whose seal constructions are not solvent-proof, are cleaned with such solvents, the solvents may gradually penetrate the seal portion and erode. The inside of the capacitors. The mechanism of corrosion of aluminum electrolytic capacitors by halogen ions can be explained as follows: Halides(RX) are absorbed and diffused into the seal portion. The halides then enter the inside of the capacitors and contact with the electrolyte of the capacitors. Where by halogen ions are made free by a hydrolysis with water in the electrolyte: RX + H2O → ROH + H+ + X- The halogen ions (X ) react with the dielectric substance(Al2O3) of aluminum electrolytic capacitors: + AI2O3 + 6H + 6X →2ALX3 + 3H2O AIX3 is dissociated with water: + ALX3 + 3H2O → AL（OH）3 + 3H + 3X - SamYoung Electronics Co., Ltd.