July 2012 atch rela dE NS eEcoparts SOLID TANTALUM CAPACITORS<. We declare that all our tantalum capacitors are produced in accordance with EU ROHS and REACH Directive. 1. ROHS Compliance The following restricted materials are not used in packaging materials as well as products in compliance with the law and restriction. Cd, Pb, Hg, Cr+6, PBB, PBDE 2. No use of materials breaking Ozone layer The following ODS materials are not used in our fabrication process. ODS material : Freon, Haron, 1-1-1 TCE, CCl4, HCFC If you want more detailed Information,Please Visit Samsung Electromechanics Website [htto://www.semlcr.com]CONTENTS Precautions in using Tantalum Capacitors 4 Characteristics Explanation Manganese Dioxide Type Conductive Polymer Type Marking & Taping Specification SCN Series Standard series SCS Series Extended series SCS P Series 2012 size miniaturized SCM Series 1608 size ultra miniaturized SCF Series FaceDown type SCE Series LowESR SCL Series Low-Profile PCS Series Ultra LowESR PCL Series LowESR, Low-Profile Marking Specification Taping Specification .| Operational Attentions The operational attentions to the use of the tantalum capacitors are as follows: * Electrical Environmental * Conditions for mounting on equipment and circuit boards * Mechanical vibration, shock If the tantalum capacitors are used without satisfying any one of these conditions, the probability of short-circuiting, current leakage or other problems to occur increases. To avoid such problems, observe the following precautions when using the tantalum capacitors. Correct Use [Guality graces] Samsung devices are classified into the following quality graces in accordance with their applications. The quality grade of all devices in this document is "standard"; the devices in this document cannot be used for "special" or "specific" quality grade applications. Customers who intend to use a product or products in this document for applications other than those specified under the" standard" quality grade must contact Samsung sales representative in advance. Standard: This quality grade is intended for applications in which failure of malfunction of the device is highly unlikely to cause harm to persons or darnage to property, or be the source of any negative effects or problems in the wider community. Special: This quality grade is intended for special applications that have common requirements, such specifi industrial fields. Devices with a "special" quality grade are designed, manufactured, and tested using a more stringent quality assurance program than that used for "stardard" grade devices. There is a high possibility that failure or malfunction of the device when used for applications in this category will cause harm to persons or damage to property, or create negative effects or problems in the wider community. Specific: Devices with a "specific" quality grade are designed, manufactured, and tested using a quality assurance program that is designed by the customer or that is created in accordance with the customer's specifications. There is an extremely high possibility that failure of malfunction of the device when being used for applications in the wider community. Customers who use Samsung's products for these "specific" application must conclude an individual quality agreement and/or development agreement with Samsung. A quality assurance program designated by the customer must also be determined in advance [Cautions] Samsung devices are classified into the following three quality grades: "Standard," "Special," and "Specific." The Specific quality grade applies only to devices developed based on a customer-designated quality assurance program for a specific application. The recommended applications of a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device before using it in a particular application. Standard: Computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment, and industrial robots Special : Transportation equipment(automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment, and medical equipment (not specifically designed for life support) Specific: Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems, or medical equipment for life support, etc. The quality grade of Samsung devices is "Standard" unless otherwise specified in Samsung's data sheets or data books. if customers intend to use Samsung devices for applications other than those specified for Standard quality grade, they should contact an Samsung sales representative in advance. Circuit designing cautions [Manganese dioxide type] Low voltage application or High resistance connected to the Capacitor in series A problem could possibly result if the following application exists: Low voltage, high resistance connected to the capacitor in series, and a circuit sensitive to leakage current. A problem could occur due to the lower recovery of the leakage current characteristic of tantalum capacitor, caused by heat stress during the soldering process. [Polymer type] Prohibited circuits Since problems can be expected, polymer products cannot be used on the following circuits. 1) High impedance voltage retention circuits 2) Coupling circuits 3) Time constant circuits 4) Circuits greatly affected by leakage current 5)The circuit in which two or more samsung polyrner products are connected in a series so as to raise the endurance voltage 1. Operating Voltage 1) The voltage derating factor should be as great as possible. Under normal conditions, the operating voltage should be reduced to 50% or less of the rating. It is recommended that the operating voltage be 30% or less of the rating, particularly when the tantalum capacitors are used in a low-impedance circuit(see Figs. 1, 2, and 3). 2) For circuits in which a switching, charging, discharging, or other momentary current flows, it is recommended that the operating voltage be 30% or less of the rating, with a resistor connected in series to limit the current to 300 mA or less. 3) When the tantalum capacitors are to be used at an ambient temperature of higher than 85c, the recommended operating range shown in Fig. 3 should not be exceeded * Low-impedance circuits Power supply filter Power supply bypass Power a) (+) 4 supply circuit 6 Fig. 1 Fig. 2Upper limit Voltage delating (rated voltage x %) -55 -40 -20 0 20 40 60 80 100 125 Operating temperature(C) Fig. 3 2. Ripple The maximum permissible ripple voltage and current are related to the ratings case size. Please consult us detail informations. 2.1 Ripple Current The maximum permissible ripple current, IMAX, is calculated as follows: IMAx = PMAX ESR). where: IMAX : Maximum permissible capacitor ripple current (Arms). PMAX : Maximum permissible capacitor power loss (W). Varies with the ambient temperature and case size. Calculated according to Table 1. ESR (T ): Capacitor equivalent series resistance (9 ). Since the ESR(f) value varies with the ripple frequency, however, the following correction must be made in accordance with the operating frequency (see Fig. 4). ESR(f) = K- ESR(120) K: Coefficient for the operating frequency ( Fig. 4). =Tand-Xca 2en 8 ESR(120) = Tan + Xc onfc where: ESR (120) : Equivalent series resistance at 120 Hz( ). Xc : Capacitive reactance at 120 Hz(Q). C : Electrostatic capacitance at 120 Hz (yF). f : Operating frequency (Hz). Table 1 Maximum permissible power loss values (PMAX) by case size 2.2 Ripple Voltage If an excessive ripple voltage is applied to the tantalum capacitors, their internal temperature rises due to Joule heat, resulting in the detriment of their reliability. Ambient PMAX(W) temperature(C)) U |J.QK/ PR/|AS | BT) C | D 25 0.015 |0.015 | 0.015} 0.030 | 0.030 | 0.030 | 0.050 55 0.010 |0.010 | 0.010)0.019 | 0.019} 0.019 )0.032 85 0.005 |0.005 | 0.005] 0.010 | 0.010} 0.010 | 0.018 Frequency| Kk 10 120/10 _ 400 | 0.8 _ 1.0 1k 0.65 g 10k | 0.50 0.1 20k 0.45 ool aay OOT Lie, EE ReE) LEENED Gntehs 40k __ {0.48 100 1K 10K 100K 1M 100k {0.40 Frequency (Hz) 1M 0.35 Fig. 4 Correction coefficient(K) Ripple Voltage | Rating Voltage Operating Voltage Working Voltage | | 4 Voltage Time (sec) Fig. 5 1) The tantalum capacitors must be used in such a conditions that the sum of the Working voltage and ripple voltage peak values does not exceed the rated voltage (Fig. 5) 2) Ensure that an reverse voltage due to superimposed voltages is not applied to the capacitors. 3) The maximum permissible ripple voltage varies with the rated voltage. Ensure that ripple voltage does not exceed the values shown in Figs. 6 and 7. If, however, the capacitors are used at a high temperature, the maxirnum permissible ripple voltage must be calculated as follows: Vrms(at 55C) =0.7 < Vrms(at 25C) Vrms(at 85@) =0.5 < Vrms(at 25C) Vrms(at 125C) =0.3 X Vims(at 25C) oS oO 100[7 se Case size NB sore Case size UE E s \ cE 0.1 1 10 100 0.1 1 10 100 Frequency Frequency Fig. 6 Maximum permissible Fig. 7 Maximum permissible ripple voltage(P, A, B) ripple voltage(C, D) Maximum permissible ripple voltage S 3. Reverse Voltage Solid tantalum capacitors are polarized device and may be perma- nently damaged or destroyed, if connected with the wrong polarity. 1) The tantalum capacitors must not be operated and changed inreverse mode. And also the capacitors must not be used in an only AC circuit. 2) The tantalum capacitor dielectric has a rectifying characteristics. Therefore, when a reverse voltage is applied to it, a large current flows even at a low reverse voltage.As a result, it may spontan- eously generate heat and lead to shorting. 3) Make sure that the polarity and voltage is correct when applying a multimeter or similar testing instrument to the capacitors because a reverse voltage or overvoltage can be accidentally applied. 4) When using the capacitors in a circuit in which a reverse voltage is applied, consult your local SAMSUNG ELECTRO- MECHANICS agent. If the application of an reverse voltage is 4 Characteristics Explanation SCN Series SCS Series SCS-P Series SCM Series SCF Series SCE Series SCL Series PCS Series PCL Series Marking Specification Taping Specification onSAMSUNG ELECTRO-MECHANICS unavoidable, it must not exceed the following values: At 20 C: 10% of the rated voltage of 1 V, whichever smaller. At 85 C: 5% of the rated voltage or 0.5 V, whichever smaller. 4. Reliability of Tantalum Capacitors 4.1 General The failure rate of the tantalum capacitor varies with the derating ratio, ambient temperature, circuit resistance, circuit application, etc. Therefore, when proper selections are made so as to afford additional margins, higher reliabilities can be derived from the tantalum capacitors. Some examples of actual failure rates are presented below for your reference. 4.2 Failure Rate Calculation Formula The tantalum capacitors are designed to work at their basic failure rates shown in Table 3 that prevail when the rated voltage is applied for 1000 hours at 85C. Table 3 Basic failure rate Type Classification Basic failure rate SCF Face - down type SCE Low ESR type 1%/1000h SCM _ | Ultra-Miniature type (0603) SCL Low profile type Scs Small type SCN Standard type PCS,PCL | Conductive Polymer type Failure rate calculation formula Ause = A85 X Ky X Ker Ause: Estimated capacitor failure rate under the operating conditions. 485: Basic failure rate (Table 3) Kv: Failure rate correction coefficient by the ambient temperature and derating factor. Kr: Failure rate correction coefficient by the circuit resistance, which is the series-connected resistance divided oy the voltage applied to the capacitor. This resistance is connected in series when the power supply side is viewed from the capacitor side. K (derating factor)=operating voltage/rated voltage 4,3 Reliability Prediction Solid tantalum capacitors exhibit no degration failure mode during shelf storage and show a constantly decreasing failure rate(i.e., absence of wearout mechanism) during life tests. This failure rate is dependent upon three important application conditions:DCvoltage, temperature, and circuit impedance. Estimates of these respective effects are provided by the reliability nornograph (Figure 9.) The nomograph relates failure rate to voltage and temperature while the table relates failure rate to impedance. These estimates apply to steady-state DC condition, and they assume usage within all other rated conditions. Standard conditions, which produce a unity failure rate factor, are rated voltage, +85 C, and 0.1 ohm-per-volt impedance. While voltage and ternperature are straight-forward, there is some- times difficulty in determining impedance. What is required is the circuit impedance seen by the capacitor. If several capacitors are connected in parallel, the impedance seen by each is lowered by the source of energy stored in the other capacitors. Energy is sim- ilarly stored in series inductors. Voltage de-rating is a common and useful approach to improved reliability. It can be persued too far, however, when it leads to in- Stallation of higher voltage capacitors of much larger size. It is possible to lose more via higher inherent failure rate than is gained by voltage derating. SAMSUNG typically recommends 50% derating, especially in low impedance circuits. Failure rate is conventionally expressed in units of percent per thousand hours. As a sample calculation, suppose a particular batch of capacitors has a failure rate of 0.5%/ Khr under sta- ndard conditions. What would be the predicted failure rate at 0.7times rated voltage, 60 and 0.60/V? The nomgraph gives a factor of 7 x 10-2 and the table gives a factor of 0.4. The failure rate estimate is then : 0.5X7X102xX0.4=1.4%X 102 or 0.014%/ Khr Table 4 Circuit Impedance Reliability Factors Circuit Impedance Failure Rate Impedance (ohms / volt) (multiplying factor) 0.1 1.0 0.2 0.8 0.4 0.6 0.6 0.4 0.8 0.3 1.0 0.2 2.0 0.1 3 or greater 0.07 2 12074 1@ 1107 49) 1007 Ss 1.0 = 0 L 10 L ~ 907 r 0.7 Lee e c+ 5 - 10 = & 80-4 @t a g Connect the temperature 2 a5 S and applied voltage ratio 2 Loa = fe 70-1 of interest with a straight - 102 @ 2 iS edge. The multiplier of 2 ~ 5 60-4 failure rate is given at the 2 03 & S intersection of this line with are = oS 2 > the model scale. i 504 P 0.2 2 Given T1&V1 Reed failure rate a multiplier F1 - 104 < 407) Given T&F2 Read voltage V2 Given F3&V3 Read allowable 4 ~ 0.1 304 temp T3 L igs 20-7 T F Vv Fig. 9 Reliability Nomograph5. Mounting Precautions 5.1 Limit Pressure on Capacitor Installation with Mounter A capacitor that has been damaged should be discarded to avoid later problems resulting from mechanical stress. Pressure must not exceed 4.9 N with a tool end diameter of 1.5 mm when applied to the capacitors using an absorber, centering tweezers, or the like. An excessively low absorber setting position would result in not only the application of undue force to the capacitors but capacitor and other component scattering,circuit board wiring breakage, and/or cracking as well, particularly when the capacitors are mounted together with other chips having a height of 1 mm or less. 5.2 Flux (1) Select a flux that contains a minimum of chlorine and amine. (2) After flux use, the chlorine and amine in the flux remain and must therefore be removed. 5.3 Recommended Soldering Pattern Dimensions |-___+_____- ee _ \\ : Capacitor X ! W SS ja Pattern = ! | Temp. SAMSUNG ELECTRO-MECHANICS ean (2) Reflow soldering see figures qo... 260C Max Pre-heating Cooling Time (sec) Fig. 10 General type Dimensions) Capacitors size| _ Pattern dimensions NN Case SL W x y z JiQ.K 1.6 0.85 0.9 1.0 0.7 P,R 2.0 1.25 1.2 14 0.8 AS 3.2 1.6 1.6 1.2 1.2 B,T 35 28 1.6 2.2 14 CM 5.8 32 23 24 24 DW. 1.3 43 2.3 2.6 3.8 Face - down type ~.Dimensions} Capacitors size| _ Pattern dimensions we Case L W X y z U 1.0 0.5 0.3 0.4 0.65 5.4 Chip Soldering Temperature and Time Capacitors are capable of withstanding the following soldering temperatures and conditions; (1) Waved soldering Capacitor body temperature: 230C ~ 260C Time: 5 seconds or less FIGURE: Typical Temperature Profile of Reflow Soldering for Pb-free Products (235C ~245'C, Recommendation Temperature) With Pb-free products, if used under 235C, the quality confirmation must be needed. (3) Soldering with a soldering iron The use of a soldering iron should be avoided wherever possible If it is unavoidable, follow the instructions set forth in Table 5. The time of soldering with an iron should be one. Table 5 Tape All case 350C Max 3S@C MAX 30W max Time 5.5 Cleaning after Mounting The following solvents are usable when cleaning the capacitors after mounting. Never use a highly active solvent. - Halogen organic solvent (HCFC225, etc.) - Alcoholic solvent (IPA, ethanol, etc.) - Petroleum solvent, alkali saponifying agent, water, etc. Circuit board cleaning must be conducted at a temperature of not higher than 50 C and for an immersion time of not longer than30 minutes. When an ultrasonic cleaning method is used, cleaning must be conducted at a frequency of 48 kHz or lower, at an vibrator output of 0.02 W/cm3, at a temperature of not higher than 40 C, and for a time of 5 minutes or shorter. NOTE 1: Care must be exercised in cleaning process so that the mounted capacitor will not come into contact with any cleaned object or the like or will not get rubbed by a stiff brush or the like. If such precautions are not taken particularly when the ultrasonic cleaning method is employed, terminal breakage may occur. NOTE 2: When performing ultrasonic cleaning under conditions other than stated above, conduct adequate advance checkout. 6. Other (1) For further details, refer to EIAJ RCR-2368, Precautions and Guidelines for Using Electronic Device Tantalum Capacitors. (2) If you have any questions, feel free to contact your local SAMSUNG ELECTRO-MECHANICS agent. 4 Characteristics Explanation SCN Series SCS Series SCS-P Series SCM Series SCF Series SCE Series SCL Series PCS Series PCL Series Marking Specification Taping Specification 6| 1. Capacitance 1-1. Rated Capacitance(Cr) This is the nominal rated capacitance. capacitance is measured at 120Hz, 1.0V RMS, DC Bias 1.0V~2.0V 1-2. Capacitance tolerance This is the permissible variation of the actual value of the capacitance from the rated value. Available in standard EIA nominal values with 420% & +10% tolerance. 1-3. Temperature dependence of capacitance. The capacitance of a tantalum capacitance varies with temperature. TYPICAL CAPACITANCE vs. TEMPERATURE % Capacitance -55 25 0 25 50 75 100 125 Temperature(C) 1-4, Frequency dependence of capacitance The effective capacitance decrease as frequency increases. Beyond 100k the capacitance continues to drop until resonance is reached. CAPACITANCE vs. FREQUENCY 250 Capacitance(uF ) rer > uw QO Ko Oo me uw oO o 100 1000 {0000 100000 1000000 Frequency( Hz ) | 2. Voltage 2-1. Rated voltage(Vr) This is the rated d.c. voltage for continuous operation at 85 C. 2-2. Category voltage(Vc) Tantalum capacitors are designed to operate continuously over the temperature range of -55C to +85C with operating voltage. these capacitance may be operated at 125 with 2/3 derated voltage as shown in fig. 100% 80% 60% 40% 20% -40 0 40 80 120 Operating Temperature(C) Figure 1 Working DC Voltage Change With Temperature 2-3. Surge voltage(Vs) Surge voltage is the maximum voltage to which the capacitor can be subjected under transient conditions: including the sumof peak AC ripple, DC bias and any transients. the surge voltage must not be used as a parameter in the design of circuits in which, in the normal course of operation, the capacitor is periodically charged and discharged. 85 125 Rated Surge Category Surge Voltage(Vdc) | Voltage(Vdc) | Voltage(Vdc) | Voltage(Vdc) 25 3.1 1.6 2.0 4 5.2 2.7 3.52 6.3 8 4 5 10 13 4 8 16 20 10 12 20 26 13 16 25 32 17 20 35 46 23 28 50 65 33 40 2-4, Reverse voltage and polarity. Solid tantalum capacitors are polarized device and may be perm- anently damaged or destryed if connected with the wrong polarity. They are intended to cover short term reversals of polarity, such as those occuring during switching transients of during a minor portion of an impressed waveform.continuous application of reverse voltage without normal polarization will result in a degration of leakage current. The peak reverse polarity voltage applied to the capacitor must not exceed: at +20, 10% of rated voltage at +85 C, 5% of rated voltage or 1V,whichever is greater. LEAKAGE CURRENT vs. BIAS VOLTAGE Leakage Current(uA) SHR ABNONBKRODADWS -20 0 20 40 60 80 100 Applied Voltage(Volts) If higher voltages of reverse polarity occur, then two capacitors with the same norminal capacitance and rated voltage should be connected in series in such a way as to form a non-polar combi- nation(back-to-back configuration with the negative terminations connected together). when d.c. voltage are switched, measures must be taken to ensure that the reverse polarized capacitance avoid a reduction in its life expectancy. 2-5.Super imposed A.C. voltage(V:.m.s) Ripple voltage. This is the maximum r.m.s alternating voltage ;superimposed on a d.c. voltage, that may be applied to a capacitor. 1) The sum of the working voltage and ripple voltage peak value does not exceed the rated d.c working voltage. 2) Ensure that an reverse voltage due to super imposed voltages is not applied to the capacitors. 3)If,hoeever,the capacitors are used at a high temperature, the maximum permissible ripple voltage must be calculated as follows : Vrms (at 55C) =0.7 x Vrms(at 25C ) Vrms (at 85C)=0.5 x Vrms(at 25 C) Vrms (at 125C )=0.3 x Vrms(at 25 C) | 3. Dissipation Factor (D.F) 3.Dissipation factor (D.F.) Refer to part number tables for maximum DF limits. Dissipation factor is measured at 120 Hz, 1.0Volt RMS and 1.0~2.0 volts DC at +25. The application of dc bias causes a small reduction in DF, about 0.2% when full rated voltage is applied DF increases with increasing frequency. TYPICAL DF vs FREQUENCY 50 & 5 a 3S = a1 0.1 0.1 1 10 100 Frequency(kHz) Dissipation factor is a very useful low frequency (120hz) measure- ment of the resistive component of a capacitor. It 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), when impedance. (z) and equivalent series resistance (esr) are the normal parameters of concern. DF= R/Xc =22fCR where DF=dissipation factor R=equivalent series resistance(ohms) Xc=capactive reactance(ohms) f =frequency(hertz) C=series capacitance(farads) DF is also referred to as tan or loss tangent. The quality factor "Q is the reciprocal of DF. DF increases with temperature above +25 C and may also increase at lower temperatures. Unfortunately, one general limit for DF cannot be specified for all capacitance/voltage combinations, nor can response to temperature be simply stated. Precautions in using Tantalum Capacitors SCN Series SCS Series SCS-P Series SCM Series SCF Series SCE Series SCL Series PCS Series PCL Series Marking Specification Taping Specification 9SAMSUNG ELECTRO-MECHANICS | 4. D. C. Leakage Current The leakage current is dependent on the voltage applied, the elapsed time since the voltage was applied the component temp. it is measured at +25C with the rated voltage applied. the rated d.c voltage shall be applied to terminals across the test capacitor Cx. by the method as shown below. $2 Rs Multiplier of Leakage Current ce 001 s1 + WY fas 0 10 20 30 40 50 60 70 80 90 100 110 Percent of Rated Voltage = ~ 0.001 Voltage vs DC Leakage Current 5-1 Temperature dependence of the leakage current Leakage Current Ratio 0.1 55-40 -20 0 20 40 60 80 100 125 Temperature(C) when operating at high temperature range from 85 to 125%, the operation shall be carried out at a derated voltage or less. Derating voltage Vt at any temperature between 85 and 125% Shall be calculated by the following equation. _\V- Vi - Va 7 Vt=Vr 10 (T- 85) when Vt : Derated voltage at any temp. Vr: Rated voltage Va : Derated voltage at 125 5-2 Leakage Current vs Rated voltage The leakage current drops rapidly below the value corresponding to the rated voltage VR When reduced voltage are applied. The effect of voltage derating on the leakage current is shown in the graph. This will also give a significant increase in the reliability for any application.SAMSUNG ELECTRO-MECHANICS [ 5. Impedance(Z) & ESR TYPICAL DF vs TEMPERATURE 18 17 ae 1.6 where: 15 f = frequency, Hertz 14 L= inductance, Henries ae 143 Precautions in using 312 Tantalum Capacitors Bi 1 09 08 55 5 45 95 Temperature(Celcius) SCN Series 4. Impedauce(Z), and Equivalent Series Resistance(ESR) Total impedance of the Capacitor above Resonance 4-1 Impedance(Z) The impedance is measured at 25 and 100KHZ. 4-2. Equivalent Series Resistance (ESR) SCS Series this is the ratio of voltage to current at a specified frequency. The ESR is measured at 25C and 100KHZ. three factors contribute to the impedance of a tantalum capacitor; Resistance losses occur in all practical forms capacitors. the resistance of the semiconductor layer, the capacitance value Equivalent Series Resistance (ESR) is the preferred high-frequency and the inductance of the electrode and leads. at high frequencies statement of the resistance unavoidably appearing in these SCS-P Series the inductance of leads becomes a limiting factor. capacitors. ESR is not a pure resistance, and it decreases with increasing frequency. TYPICAL IMPEDANCE vs FREQUENCY The ESR is frequency dependent and can be found by using the 100 relationship, SCM Series a ESR = tan 0/ 2nfC 2 10 ESR Is the contributing factors to impedance, and at high trequen- 3 cies (100KHZ and above) It becomes the dominant factor. GCE Series 3 | TYPICAL ESR vs FREQUENCY z 0.1 SCE Series 0.1 1 10 100 1000 _ Frequency(kHz) a = . ; . ce SCL Series Total impedance of the capacitor is the vector sum of capacitive a reactance(Xc) and ESR, below resonance; above resonance total impedance is the vector sum of inductive reactance(XL) and ESR (Figure 5 and 6). wi 1 10 700 1000 PCS Series Frequency(kHz) X= ; bm Typical impedance versus frequency curve is shown in Figure. PCL Series 2nfC where: TYPICAL ESR vs FREQUENCY f = frequency, Hertz 100 Marking C =capacitance, Farad = Specification 2 19 = Xe g Taping S 1 Specification 0.1 y 0.1 1 10 100 1000 wore nee ee enn ee ee eeeeseees Frequency(kHz) Total impedance of the Capacitor above Resonance 10 u| Feature Lead Frame EMC j \ C/Ag Tantalum wire T2205 Mno2 Tantalum Power | Configuration And Dimension Normal type Face - down type yp L WW: 7 typi | | | | L Wie Zp |Z -_ I T H - Wey "| Unit : mm Case Code EIA Code L W: W. H Z Us 1005 1,040.2 0.5+0.2 0.4+0.05 0.60 max 0.25+0.1 I 1005 1.0.0.2 0540.2 0.4+0.05 0.55 max 0.251.0.1 J 1608 -10 1.6+0.15 al 0.6+0.1 Se 04+0.1 -0.1 0, nome -0. wane Ke 1608 -9 1.6+0.1 0.85+0.1 0.6+0.1 0.8+0.1 0.4+0.1 K 1608 -9 1040.45 Reate 06+01 0.90max 04+0.1 R 2012L 2.0+0.2 1.25+0.2 0.9+0.1 0.95 max 0540.2 P 2012 2.0+0.2 1.25+0.2 0.9+0.1 1140.1 0.45+0.1 P- 2012 2.0+0.2 1.25+0.2 0.9+0.1 1.2 max 0.5+0.2 S 3216L 3.2+03 1.6+0.2 1.24011 1140.1 0.8+03 A 3216 3.21.0.2 1.60.2 1.2401 1640.2 0.8+03 T 3528L 35+0.2 2.8+0.2 2.2+0.1 1.2 max 0.8403 B 3528 3.5+0.2 2.8+0.2 2.2+0.1 1.9+0.2 0.8+03 C 6032 6.0+0.3 3.2+0.3 2.2+0.1 25403 13+03 D 7343 7.3403 43+03 2440.1 28103 13+03 Case Code *(Face-down type) | Part Number Code TC SCE OJ 107 Tantalum Capacitor ! Type of series Rated Voltage Code Capacitance Code Capacitance Tolerance Code Case Size Code Packing Code (A=7 inches, C=13 inches) Packing Polarity Code MDA 0150 Maximum ESR in MilliohmsSAMSUNG ae ee fs) | Manganese Dioxide Type Series System Diagram SCF Face down type SCM 1608 Miniaturized SCL Low Profile La 1005size Vitra miniaturized 1608, 2012size High Capacitance Face down terminal type 1608size Miniaturized Precautions in using Tantalum Capacitors 4 Characteristics Explanation SCS Series SCS-P Series Low Profile 2102~7343size SCM Series SCS SCE Extended series Low ESR ees Low ESR fa SCN Standard series 3216~7343size Low Capacitance 3216~7343size SCE Series SCL Series PCS Series PCL Series Marking Specification Taping Specification a 12| | Feature The product is a standard type that has been most widely used among tantalum chip capacitors. * Molded case available in four case codes. - Compatible with automatic pick and place equipment. - Meets or exceeds EIA standard 535BAAC. : rs) a - Environment-Friendly(Pb-free) tantalum capacitor. | Specifications Capacitance Range 0.15uF to 68uF Tolerance +20%(M), +10%(k) C<1.0uF D.F<4.0% Dissipation 1.5uF <C<6.8uF D.F<6.0% Factor (Tan 6) 10uF <C<68 uk D.F<8.0% C>100uk D.F< 10.0% Leakage Current between 0.01CV and 0.5uA, whichever is larger Rated Voltage (VR) T< 85 40 6.3 10 16.0 20.0 25.0 35.0 Category Voltage 85C<T<1250 25 4.0 63 10.0 | 130 | 160 | 22.0 T<85C 5.2 8.0 13.0 20.0 25.0 32.0 44.0 Surge Voltage(V) BC <T<125 32 5.0 3.0 13.0 | 160 | 20.0 | 280 Operating Temperature 55 to 125C | Standard Value and Case Size a RV Cap.(uz) 4V(0G) 6.3V(0J) 10V(1A) 16V(1C) 20V(1D) 25V(1E) 35V(1V) 0.15 154 A 0.22 224 A 0.33 334 A A 0.47 474 A A B 0.68 684 A A 1.0 105 A A B 15 155 A A B 2.2 225 A A B 33 335 A B C C C 47 475 B C D 6.8 685 B C C C D D 10 106 B C C C D D 15 156 Cc C C D D 22 226 C C D D a3 336 C D D 47 476 D D 68 686 D| Ratings & Part Number Reference . DC DF ESR Part Number 4 care Leakage (%)@+25C (2)@+25 (uA) @ +25 'CMax. 120Hz Max. 100KHz Max. 4 volt Rating@ +85 C(2.5 volt Rating @+125 C) TCSCNOG225*AAR A 22 0.5 6 10.0 SS TCSCNOG335*AAR A 33 05 6 8.0 te meee antalum Capacitors TCSCNOG106*BAR B 10 0.5 6 35 TCSCNOG156*CAR C 15 0.6 6 2.5 TCSCNOG226*CAR C 22 0.9 6 1.8 4 Characteristics TCSCNOG336*CAR C 33 13 6 18 Explanation TCSCNOG476*DAR D 47 1.9 6 1.0 TCSCNOG686*DAR D 68 27 6 08 6.3 volt Rating @+85 C(4 volt Rating @+125 C) SONS TCSCNOJ155*AAR A 15 0.5 6 10.0 TCSCNOJ225* AAR A 22 0.5 6 8.0 ( . SCS Series TCSCNOJ685*BAR B 68 0.5 6 35 TCSCNOJ106*CAR C 10 0.6 6 3.0 TCSCNOJ156*CAR C 15 0.9 6 1.8 TCSCNOJ226*CAR C 22 14 6 18 SCS-P Series TCSCNOJ336*DAR D 33 2.0 6 15 TCSCNOJ476*DAR D 47 3.0 6 08 10 volt Rating @+85 C(6.3 volt Rating@ +125 C) SCM Series TCSCN1A105*AAR A 1.0 0.5 4 12.0 TCSCN1A155*AAR A 15 0.5 6 8.0 TCSCN1A475*BAR B 47 0.5 6 35 SCF Series TCSCN1A685*CAR C 68 0.7 6 3.0 TCSCN1A106*CAR C 10 1.0 6 18 TCSCN1A156*CAR C 15, 15 6 18 ( SCE Series TCSCN1A226*DAR D 22 22 6 12 TCSCN1A336*DAR D 33 33 6 0.8 16 volt Rating @+85 C(10 volt Rating@+125) . TCSCN1C684*AAR A 0.68 05 4 12.0 ( iets TCSCN1C105*AAR A 1.0 0.5 4 10.0 TCSCN1C335*BAR B 33 0.5 6 35 TCSCN1C475*CAR Cc 47 0.7 6 3.0 PCS Series TCSCN1C685*CAR C 68 1.0 6 1.9 TCSCN1C106*CAR C 10 1.6 6 18 TCSCN1C156*DAR D 15 24 6 1.2 PCL Series TCSCN1C226*DAR D 22 35 6 08 / 20 volt Rating @+85 C(13 volt Rating@ +125C) wand TCSCN1D474*AAR A 0.47 05 4 15.0 Specification TCSCN1D684*AAR A 0.68 0.5 4 12.0 TCSCN1D225*BAR B 22 0.5 6 35 TCSCN1D335*CAR C 33 0.7 6 3.5 Taping TCSCN1D475*CAR C 47 1.0 6 24 Specification TCSCN1D685*CAR C 68 14 6 1.9 TCSCN1D106*DAR D 10 2.0 6 13 TCSCN1D156*DAR D 15 3.0 6 1.0 14 15SAMSUNG ELECTRO-MECHANICS DC DF ESR Part Number os an Leakage (%)@+25C (2)@+25C (uA) @ +25 'C Max. 120Hz Max. 100KHz Max. 25 volt Rating@+85'C(16 volt Rating@+125C) TCSCN1E334*AAR A 0.33 0.5 4 15.0 TCSCN1E474*AAR A 0.47 0.5 4 14.0 TCSCN1E155*BAR B 15 0.5 6 5.0 TCSCN1E335*CAR C 33 0.8 6 22 TCSCN1E475*CAR C 47 2. 6 24 TCSCN1E685*DAR D 6.8 17 6 1.4 TCSCN1E106*DAR D 10 25 6 1.0 35 volt Rating @+85 C (22 volt Rating@+125C) TCSCN1V154*AAR A 0.15 0.5 4 19.0 TCSCN1V224*AAR A 0.22 0.5 4 18.0 TCSCN1V334*AAR A 0.33 0.5 4 15.0 TCSCN1V474*BAR B 0.47 0.5 4 8.0 TCSCN1V105*BAR B 1.0 0.5 4 5.0 TCSCN1V225*CAR C 2.2 0.7 6 3.5 TCSCN1V335*CAR C 3.3 1.2 6 2.5 TCSCN1V475*DAR D 47 1.6 6 15 TCSCN1V685*DAR D 6.8 23 6 1.3 All technical data relates to an ambient temperature of +25 C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.0 volts. DCL is measured at rated voltage after 5 minutes. Insert K for +10% tolerance and M for +20%.Miniaturized tantalum chip capacitors with extened capacitance. (Reduced size 1/2 to 1/3 in comparison with SCN.) - Molded case available in four case codes. - New low profile size. * Compatible with automatic pick and place equipment. - Meets or exceeds EIA standard 535BAAC. (Precautions in using - Environment-Friendly(Pb-free) tantalum capacitor. \ Tantalum Capacitors 4 Characteristics Explanation | Specifications Aj Range 0.47 uF to 680uF { SCN Series Tolerance +20%(M), +10%(K) Dissipation Factor (Tan 0) Refer to Specification Leakage Current Refer to Specification SiSs Rated Voltage(VR) T<850 2.0 6.3 10.0 16.0 20.0 25.0 35.0 Category Voltage(V) 85C <T<1250 1.6 4.0 6.3 10.0 | 13.0 | 16.0 | 22.0 T<85 3.1 8.0 | 130 | 200 | 250 | 320 | 440 | scspseries Capacitance Voltage (V Surge Voltage ty) 850 <T<125t 2 50 | so | 130 | 160 | 200 | 280 Operating Temperature -55 to125 SCM Series SY SCF Series | Standard Value and Case Size ss SS Cap(ukt) -R- | 2.5V(0E) | 4V(0G) | 6.3V(0)) | 10V(1A) | 16V(1C) | 20V(1D) | 25V(1E) | 35V(1V) SCE Series 0.15 154 0.22 224 a 0.33 334 0.47 474 A ( SCL Series 0.68 684 A A Ss 1.0 105 A A A 1.5 155 A A A,B 29 225 A A A AB B ( 33 335 A A A A.B A,B B 47 475 A A A A.B A.B B C mma 6.8 685 A A A.B A.B B B,C C 10 106 A [AB [AB | AB | Bc [ec | co \ Poem 15 156 A.B A.B A.B B.C C CD CD eS 22 226 A.B A.B ae B.C BCD CD D 33 336 AB | ABC | ABC | BGD | GD D D Maring 47 476 ABC | ABC I|ABCD| CD D Specification 68 686 B,C B,C, D CD CD D 100 107 ABCD 8,C,D CD D D as 150 157 c,D CD D Taping 220 227 B BCD | CD D Specification 330 337 D D Sa<7 470 477 D D 680 687 16 Aeim SAMSUNG ELECTRO-MECHANICS | Ratings & Part Number Reference . DC DF ESR Part Number Ge | apace Leakage (%)@+25% (2) 425 (uA) @ +25 C Max. 120Hz Max. 100KHz Max. 2.5 volt Rating@+85'C(1.6 volt Rating @+125 C) TCSCSOE227*BAR BC 220 | 55 | 18 12 A volt Rating @+85 C(2.5 volt Rating@+125) TCSCSOG475*AAR A 47 05 8 8.0 TCSCSOG685*AAR A 68 05 8 6.0 TCSCSOG106#AAR A 10 05 8 6.0 TCSCSOG156*AAR A 15 06 8 4.0 TCSCSOG156*BAR B 15 06 8 35 TCSCSO0G226*AAR A 22 09 8 4.0 TCSCS0G226*BAR B 22 09 8 35 TCSCSOG336*AAR A 33 13 8 4.0 TCSCS0G336*BAR B 33 13 8 3.5 TCSCSO0G476*AAR A 47 19 8 2.0 TCSCS0G476*BAR B 47 19 8 3.5 TCSCS0G476*CAR 47 19 8 1.8 TCSCS0G686*BAR B 68 27 8 1.8 TCSCSOG686*CAR C 68 2.7 8 1.6 TCSCS0G107*AAR A 100 40 30 2.0 TCSCS0G107*BAR B 100 40 8 0.8 TCSCSO0G107*CAR C 100 40 8 1.6 TCSCSOG107*DAR D 100 40 8 0.8 TCSCS0G157*CAR C 150 6.0 8 1.2 TCSCS0G157*DAR D 150 6.0 8 0.8 TCSCSOG227MBAR B 220 88 18 0.5 TCSCS0G227*CAR C 220 88 8 0.6 TCSCS0G227*DAR D 220 8.8 8 0.9 TCSCS0G337*DAR D 330 13.2 8 0.7 TCSCS0G477*DAR D 470 18.8 10 0.6 6.3 volt Rating @+85 C (4 volt Rating@+125) TCSCS0J335*AAR A 3.3 0.5 8 8.0 TCSCS0J475* AAR A 47 0.5 8 6.0 TCSCS0J685 *AAR A 6.8 0.5 8 6.0 TCSCS0J106*AAR A 10 0.6 8 4.0 TCSCS0J106*BAR B 10 0.6 8 35 TCSCS0J156* AAR A 15 0.9 8 4.0 TCSCSOJ156*BAR B 15 0.9 8 35 TCSCS0J226*AAR A 22 1.4 8 2.0 TCSCS0J226*BAR B 22 14 8 35 TCSCS0J336* AAR A 33 2 6 2.0 TCSCS0J336*BAR B 33 2 8 3.0 TCSCS0J336*CAR C 33 2 8 1.8 TCSCS0J476* AAR A 47 3 12 2.0 TCSCS0J476*BAR B 47 3 8 1.3 TCSCS0J476*CAR C 47 3 8 1.6 TCSCS0J686* BAR B 68 43 8 35 TCSCS0J686* CAR C 68 43 8 1.2 TCSCS0J686*DAR D 68 43 8 0.8 TCSCSOJ107*BAR B 100 6.3 10 0.8 TCSCSOJ107*CAR C 100 6.3 8 0.8 TCSCS0J107*DAR D 100 6.3 8 0.8 TCSCS0J157*CAR G 150 95 8 1.3 TCSCS0J157*DAR D 150 95 8 0.9 TCSCS0J227*CAR G 220 13.9 8 0.6 TCSCS0J227*DAR D 220 13.9 8 0.7 TCSCS0J337*DAR D 330 20.8 8 0.5 TCSCS0J477*DAR D 470 29.6 10 0.3SAMSUNG ELECTRO-MECHANICS . DC DF ESR Part Number es aaa Leakage (%)@425 (2)@425C (uA) @+25 'C Max. 120Hz Max. 100KHz Max. 10 volt Rating @+85 C (6.3 volt Rating @+125C) TCSCS1A225*AAR A 22 05 8 8.0 SS TCSCS1A335*AAR A 33 05 8 6.0 Precautions in using TCSCS1A475*AAR A 47 0.5 8 6.0 Tantalum Capacttors TCSCS1A685* AAR A 6.8 07 8 6.0 TCSCS1A685*BAR B 6.8 07 8 35 4. Characteristics TCSCS1A106*AAR A 10 i 8 2.0 Explanation TCSCS1A106*BAR B 10 1 8 35 TCSCS1A156*AAR A 15 15 8 4.0 TCSCS1A156*BAR B 15 15 8 35 ; TCSCS1A226*AAR A 22 9 8 2.0 SCN Series TCSCS1A226*BAR B 22 22 8 3.0 TCSCS1A226*CAR C 22 22 8 1.8 a TCSCS1A336*AAR A 33 33 12 2.0 SCS TCSCS1A336*BAR B 33 33 8 18 TCSCS1A336*CAR C 33 33 8 1.6 TCSCS1A476MAAR A 47 94 20 30 TCSCS1A476*BAR B 47 47 8 1.6 SCS-P Series TCSCS1A476*CAR C 47 47 8 12 TCSCS1A476*DAR D 47 47 8 0.8 TCSCS1A686*CAR C 68 6.8 8 0.9 TCSCS1A686*DAR D 68 6.8 8 08 SCM Series TCSCS1A107*CAR Cc 100 10 8 1.2 TCSCS1A107*DAR D 100 10 8 0.7 TCSCS1A157*DAR D 150 15 8 08 ; TCSCS1A227*DAR D 220 ag 8 04 SCF Series 16 volt Rating@+85C(10 volt Rating@+125) TCSCS1C155*AAR A 15 0.5 8 8.0 . TCSCS1C225*AAR A 22 05 8 6.0 SCE Series TCSCS1C335*AAR A 33 0.5 8 6.0 TCSCS1C475*AAR A 47 0.7 8 4.0 TCSCS1C475*BAR B 47 0.7 8 35 SCL Series TCSCS1C685*AAR A 6.8 1.0 8 35 TCSCS1C685*BAR B 6.8 1.0 8 35 TCSCS1C106* AAR A 10 1.6 8 3.0 TCSCS1C106*BAR B 10 1.6 8 35 PCS Series TCSCS1C156*BAR B 15 24 8 3.0 TCSCS1C156*CAR C 15 24 8 18 TCSCS1C226*BAR B 22 35 8 23 TCSCS1C226*CAR C 22 35 8 1.6 PCL Series TCSCS1C336*BAR B 33 53 8 14 TCSCS1C336*CAR C 33 53 8 15 TCSCS1C336*DAR D 33 5.3 8 08 Marking TCSCS1C476*CAR C 47 75 8 14 Specification TCSCS1CA76*DAR D 47 75 8 0.8 TCSCS1C686*CAR C 68 10.9 8 1.4 TCSCS1C686*DAR D 68 10.9 8 08 Taping TCSCS1C107*DAR D 100 16 8 0.7 Specification 18 19; DC DF ESR Part Number me aaa Leakage (%)@+25C (2)@+25C (uA) @ +25 C Max. 120Hz Max. 100KHz Max. 20 volt Rating@ +85 C(13 volt Rating @+125C) TCSCS1D105*AAR A 1.0 0.5 6 10.0 TCSCS1D155*AAR A 15 0.5 8 8.0 TCSCS1D225*AAR A 2.2 0.5 8 7.0 TCSCS1D335*AAR A 3.3 0.7 8 4.0 TCSCS1D335*BAR B 3.3 0.7 8 3.5 TCSCS1D475*AAR A 47 1.0 8 3.5 TCSCS1D475*BAR B 47 1.0 8 35 TCSCS1D685*BAR B 6.8 14 8 3.5 TCSCS1D106*BAR B 10 2.0 8 3.0 TCSCS1D106*CAR C 10 2.0 8 1.8 TCSCS1D156*CAR 15 3.0 8 17 TCSCS1D226*BAR B 22 44 6 1.8 TCSCS1D226* CAR C 22 44 8 1.6 TCSCS1D226*DAR D 22 44 8 0.8 TCSCS1D336*CAR C 33 6.6 8 12 TCSCS1D336*DAR D 33 6.6 8 0.8 TCSCS1D476*DAR D 47 9.4 8 0.7 TCSCS1D686*DAR D 68 13.6 8 0.7 TCSCS1D107*DAR D 100 20.0 8 0.9 25 volt Rating@+85C(16 volt Rating@+125 TC) TCSCS1684*AAR A 0.68 0.5 6 10.0 TCSCS1E105*AAR A 1.0 0.5 6 8.0 TCSCS1E155*AAR A 15 0.5 8 8.0 TCSCS1E225*AAR A 22 0.6 8 6.0 TCSCS1E225*BAR B 2.2 0.6 8 45 TCSCS1E335*AAR A 3.3 0.8 6 3.7 TCSCS1E335*BAR B 3.3 0.8 8 a5 TCSCS1E475*BAR B 47 1.2 8 3.0 TCSCS1E685*BAR B 6.8 1.7 8 2.8 TCSCS1685*CAR C 6.8 1.7 8 1.9 TCSCS1E106*BAR B 10 25 8 1.8 TCSCS1E106*CAR C 10 2.5 8 1.5 TCSCS1E156*CAR C 15 37 8 1.5 TCSCS1E156*DAR D 15 37 8 1.0 TCSCS1E226*CAR G 22 55 8 1.2 TCSCS1E226*DAR D 22 5.5 8 0.8 TCSCS1E336*DAR D 33 8.2 8 0.7 35 volt Rating @ +85 C(22 volt Rating @+125C) TCSCS1V474*AAR A 0.47 0.5 6 12.0 TCSCS1V684*AAR A 0.68 0.5 6 10.0 TCSCS1V105*AAR A 1.0 0.5 6 75 TCSCS1V155*AAR A 15 0.5 8 75 TCSCS1V155*BAR B 18 0.5 8 5.0 TCSCS1V225*BAR B 2.2 0.7 8 4.2 TCSCS1V335*BAR B 3.3 1.2 8 3.5 TCSCS1V475*CAR C 47 1.6 8 25 TCSCS1V685*CAR C 6.8 23 8 2.0 TCSCS1V106*CAR Cc 10 35 8 1.6 TCSCS1V106*DAR D 10 35 8 1.0 TCSCS1V156*CAR C 15 5.3 8 1.4 TCSCS1V156*DAR D 15 5.2 8 0.8 TCSCS1V226*DAR D 22 77 8 0.9 TCSCS1V336MDAR D 33 11.5 6 0.9 All technical data relates to an ambient temperature of +25 C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.0 volts. DCL is measured at rated voltage after 5 minutes. Insert K for +10% tolerance and M for +20%.| Feature Reduced to about 1/3 the cubic volume of the SCN. - New low profile case size. (0805 size tantalum chip capacitors) - Compatible with automatic pick and place equipment. - Meets or exceeds EIA standard 535BAAC. | Specifications Precautions in using Tantalum Capacitors 4 Characteristics Explanation SCN Series . R Capacitance ange 0.22 uP to 22uP / Tolerance +20%(M), + 10%(K) Dissipation Factor (Tan 0) Refer to Specification Leakage Current between 0.01CV and 0.5uA, whichever is larger SCS Series Rated Voltage(VR) T<85C 4.0 6.3 10.0 16.0 | 20.0 | 25.0 | 35.0 Category Voltage(V) 850 <T<125C 25 | 40 | 63 | 100 | 130 | 160 | 220 rie T<85C 5.2 8.0 13.0 20.0 25.0 32.0 44.0 Surge Voltage ge Voltage (v) 85e <T<1250 32 | 50 | 80 | 130 | 160 | 200 | 280 Ste Operating Temperature -55 to125 SCM Series . SCF Series | Standard value and case size ( Cap.(uk) RY 4v(0G) 6.3V(0J) 10V(1A) 16V(10) 20V(1D) SCE Series 0.22 224 P P P P 0.33 334 047 474 Pp Pp P P SCL Series 0.68 684 P P P P 1.0 105 P P P P PCS Series 15 155 22 225 P P P P ( poeta 33 335 P P P 47 475 P P P Monn 68 685 p p Specification 10 106 P P P Taping 15 156 Specification 22 226 P P 33 336 P 47 476 100 107 20 21| Ratings & Part Number Reference . DC DF ESR Part Number eo Leakage (%)@+25C (2)@+25C (uA) @ +25 C Max. 120Hz Max. 100KHz Max. 4 volt Rating @+85 C(2.5 volt Rating@+125) TCSCS0G224*PAR P 0.22 0.5 4 25 TCSCSOG474*PAR P 0.47 0.5 4 25 TCSCSO0G684*PAR P 0.68 0.5 4 20 TCSCS0G105*PAR P 1 0.5 6 20 TCSCS0G225*PAR P 2.2 0.5 6 15 TCSCS0G335*PAR P 3.3 0.5 6 8 TCSCSOG475*PAR P 47 0.5 8 9 TCSCSOG685*PAR P 6.8 0.5 6 8 TCSCSOG106*PAR P 10 0.5 8 6 TCSCS0G226*PAR P 22 0.9 8 3 6.3 volt Rating @+85 C(4 volt Rating@+125) TCSCS0J224 *PAR P 0.22 0.5 4 25 TCSCS0J474 *PAR P 0.47 0.5 4 25 TCSCS0J684 *PAR P 0.68 0.5 4 20 TCSCSOJ105*PAR P 1 0.5 6 20 TCSCSOJ225*PAR P 2.2 0.5 6 15 TCSCS0J335 *PAR P 3.3 0.5 6 8 TCSCSOJ475 *PAR P 47 0.5 8 9 TCSCS0J685 * PAR P 6.8 0.5 6 8 TCSCSOJ106*PAR P 10 0.6 8 5 TCSCSOJ226MPAR P 22 14 8 4 TCSCSOJ336MPAR P 33 2. 18 2 10 volt Rating @+85 C (6.3 volt Rating @+125 C) TCSCS1A224*PAR P 0.22 0.5 4 25 TCSCS1A474*PAR P 0.47 0.5 4 25 TCSCS1A684*PAR P 0.68 0.5 4 20 TCSCS1A105*PAR P | 0.5 6 20 TCSCS1A225*PAR P D2 0.5 6 1s TCSCS1A335*PAR P 3.3 0.5 6 8 TCSCS1A475*PAR P 47 0.5 8 4 TCSCS1A106*PAR P 10 1.0 8 6 16 volt Rating@ +85 (10 volt Rating@+125) TCSCS1C224*PAR P 0.22 0.5 6 25 TCSCS1C474*PAR P 0.47 0.5 6 25 TCSCS1C684*PAR P 0.68 0.5 6 20 TCSCS1C105*PAR P 1.0 0.5 6 20 TCSCS1C225*PAR P 22 0.5 6 6.5 20 volt Rating @ +85 C(13 volt Rating @+125 C) TCSCS1D474*PAR P 0.47 0.5 4 25 TCSCS1D684*PAR P 0.68 0.5 4 20 All technical data relates to an ambient temperature of +25 C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.0 volts. DCL is measured at rated voltage after 5 minutes. Insert K for +10% tolerance and M for +20%.| Specifications | Feature Reduced to about 40% the cubic volume of P Case. - New low profile case size. - Compatible with automatic pick and place equipment. * Meets or Exceeds EIA standard 535BAAC. - Environment-Friendly(Pb-free) tantalum capacitor. Precautions in using Tantalum Capacitors 4 Characteristics Explanation SCN Series Capacitance Range 1.O0pP to 10uF ( Tolerance +20%(M) Dissipation Factor (Tan 0) Refer to Specification Leakage Current between 0.01CV and 0.5uA, whichever is larger ee Rated Voltage(VR) T<85C 4.0 6.3 10.0 | 160 | 200 | 25.0 | 35.0 Category Voltage(V) BC <T<125 2.5 40 6.3 10.0 | 130 | 160 | 220 T<850 52 30 | 130 | 200 | 250 | 320 | 440 | SCS-PSeries rge Vol Suge Voltage() 85C<T<125 3.2 5.0 8.0 13.0 16.0 20.0 28.0 Operating Temperature -55 to125 sats | SCF Series | Standard Value and Case Size _ R.V SCE Series 4v(0G 6.3V(0J 10V(1A 16V(1C 20V(1D 25V(1E caplit) (06) (03) (1A) (10) (10) (1E) 1.0 105 J JK SCL Series 1.6 155 PCS Series 2.2 225 J J J a3 a5 PCL Series 47 475 J J,K Marking 6.8 685 J J Specification 10 106 J,K J Taping 15 156 Specification 22 226 22 23Ruts tsa ie ae Nes | Ratings & Part Number Reference DC DF ESR Part Number = on Leakage (%)@+25 (2)@+25 (uA) @ +25 CMax. 120Hz Max. Max. 4 volt Rating @+85 C(2.5 volt Rating@+125C) TCSCMOG10SMIAR J 1.0 0.5 8.0 15 TCSCM0G225MJAR J 22 0.5 8.0 10 TCSCMOG475MJAR J 47 05 8.0 10 TCSCMOG685MJAR J 68 05 8.0 TCSCMOG106MJAR J 10 05 8.0 TCSCMOG106MKAR K 10 0.5 20.0 6 6.3 volt Rating @+85 C (4 volt Rating@ +125) TCSCMOJ10SMJAR J 1.0 0.5 8.0 15 TCSCMOJ225MJAR J 22 0.5 8.0 10 TCSCMOJ475NUAR J 47 0.5 8.0 10 TCSCMOJ475MKAR K 47 05 20.0 TCSCMOJ635JAR J 68 05 8.0 TCSCMOJ106MAR J 10 0.63 8.0 4 10 volt Rating @ +85 C (6.3 volt Rating @+125C) TCSCM1A105MJAR J 1.0 0.5 8.0 10 TCSCM1A225MJAR J 22 0.5 8.0 10 TCSCM1A475MJAR J 47 0.5 8.0 6 TCSCM1A106MJAR J 10 1 20 7 16 volt Rating @+85 C(10 voit Rating @+125C) TCSCM1C105MWJAR J 1.0 0.5 8.0 15 TCSCM1C105MKAR K 1.0 05 10 25 TCSCM1C225MJAR J 22 05 8.0 75 All technical data relates to an ambient temperature of +25 C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.0 volts. DCL is measured at rated voltage after 5 minutes. Insert M tolerance for + 20%.circuits | Feature SCF type is face down type with excellent performance characteristics for filtering, by-passing, coupling, blocking Designed for very slim and high capacitance 1005 size * Molded Case available - Environmental Friendly Component(Halogen free) Precautions in using Tantalum Capacitors 4 Characteristics Explanation | Specifications Capacitance Range 1.Ouk to 47h SCN Series Tolerance +20%(M) Dissipation Factor (Tan 0) Refer to Specification Leakage Current Refer to Specification SCS Series Rated Voltage(VR) T<85C 4.0 6.3 10.0 | 160 | 200 | 250 | 35.0 Category Voltage(V) 850 <T<125 2.5 40 6.3 10.0 | 13.0 | 16.0 | 22.0 T<85C 5.2 8.0 13.0 20.0 25.0 32.0 44.0 Surge Voltage (V -P Seri 9 ge(V) 85C <T<125 32 | 50 | 80 | 130 | 160 | 200 | 280 staat Operating Temperature -55 to 125 SCM Series | Standard Value and Case Size Cap.(ut) RV 4V(0G) 6.3V(0J) 10V(1A) 16V(10) Scie 1 105 | 22 225 U ay a3 Yul u SCE Series 22 226 K 33 156 P a . SCL Series (_ ): Under Development | Ratings & Part Number Reference 7 PCS Series ; D DF(%) ESR(Q) Capacitance o Part Number P (UF) Leakage (A) @+25 @+25C @+25C Max. 120HZ Max. Max. ; 7 ; 7 PCL Series 4 volt Rating @ +85 (2.5 volt Rating @ +125 Cc) TCSCFOG475MIAR | 47 0.5 15 15 TCSCFOG475MUAR U 47 0.5 10.0 15 Marking 6.3 volt Rating @+85 C(4 volt Rating @+125 C) Specification *TCSCFOJ105KIAR | 1.0 0.5 6.0 15 TCSCFOJ225MUAR U 2.2 0.5 6.0 15 Taping TCSCFOJA75MUAR U 47 2.96 15 20 Specification TCSCFOJ228MKAR K 22 1.4 20 6 TCSCFOJ476MPAR P 47 2.96 20 3 10 volt Rating @ +85 C(6.3 volt Rating @+125) TCSCF1A336MPAR Pp 33 3.3 20 TCSCF1A476MPAR P 47 23.5 20 Insert K for + 10% tolerance and M for +20%. 24| Specifications | Feature Designed for very Low ESR. - Molded case available in four case codes. - Extended range values. * Compatible with automatic pick and place equipment. Meets or exceeds EIA standard 535BAAC. * Suitable for high frequency as high speed PC, Switching Regulators, DC/DC converter, and etc. - Environment-Friendly(Pb-free) tantalum capacitor. ; Range Capacitance 9 1.OuF to 470uF Tolerance +20%(M), +10%(K) Dissipation Factor (Tan 0) Refer to Specification Leakage Current between 0.01CV and 0.5uA, whichever is larger Rated Voltage(VR) T<85C 4.0 6.3 10.0 | 16.0 | 20.0 | 25.0 | 35.0 Category Voltage (V) BC<KT<1250 25 40 63 10.0 | 13.0 | 160 | 22.0 T<85 20.0 25.0 32.0 440 Surge Voltage(V) =0e)) Bi an 0 85 <T<125C 3.2 5.0 8.0 13.0 16.0 20.0 28.0 Operating Temperature -55 to 1250 [ Standard Value and Case Size Cap. -R-V 4V(OG) | 63V(0J) | 10V(1A) | 16V(1C) | 20V(1D) | 25V(1E) | 35V(1V) 1.0 105 A(3000) 15 155 Aaa 22 225 (3000) (3500) (3000) B(3000) B(2000) 33 335 (3500) (2500) B(2000) 47 475 (1800) Bench 8(1500) (1000) 68 685 (1800) (1800) B(1000) 10 106 A(1500) a an (700) 15 156 A(1500) (1500) B(800) D(600) 22 226 A(1200) B(700) (400/500) D(300) D(400) 2 | me a A(1000 B(500/650) (350) 47 ub 51500) Beat D(200) 68 686 B(500) oot 100 107 C1300) b4{00V'50) D450) 220 227 (250) D(150) 330 337 470 477 D(100/200) NOTE: The EIA & CECC standards for low ESR Solid Tantalum Capacitors allow an ESR movement to 1.25 times catalogue limit post mounting. ESR limits quoted in brakets are in millichms| Ratings & Part Number Reference : DC DF ESR Part Number ae naira Leakage (%)a4250 | (Q)@425 (uA) @ +25 C Max. 120Hz Max. Max. 6.3 volt Rating@+85 C(4 volt Rating @+125C) TCSCEOJ685*AAR1800 A 6.8 05 8 18 TCSCEOJ106*AAR1500 A 10 0.6 8 15 TCSCEO/156*AAR1500 A 15 1.0 8 15 TCSCEOJ226*AAR1200 A 22 14 8 12 TCSCEOJ336*AAR1000 A 33 2.1 8 1.0 TCSCEOJ476*AAR1000 A 47 3.0 12 1.0 TCSCEOJ336*BARO600 B 33 2.0 8 0.6 TCSCEOJ476*BARO500 B 47 3.0 8 0.5 TCSCEOJ686*BARO500 B 68 43 8 05 TCSCEOJ107*BARO500 B 100 6.3 8 0.5 TCSCEOJ107*CARO300 C 100 6.3 8 0.3 TCSCEOJ227 *CARO250 C 220 13.9 8 0.25 TCSCEO/477 *DARO200 D 470 29.6 10 0.2 TCSCEOJ477 *DCRO100 D 470 10 1.0 10 volt Rating @ +85 C(6.3 volt Rating @+125C) TCSCE1A225*AAR3000 A 2.2 05 8 3.0 TCSCE1A475*AAR1800 A 47 05 8 1.8 TCSCE1A685*AAR1800 A 6.8 07 8 18 TCSCE1A106*AAR2000 A 10 10 8 2.0 TCSCE1A106*AAR1800 A 10 10 8 18 TCSCE1A106*BAR1000 B 10 10 8 1.0 TCSCE1A156*AAR1500 A 15 15 8 15 TCSCE1A226*BARO700 B 22 22 8 0.7 TCSCE1A336*BARO650 B 33 33 8 0.65 TCSCE1A336*CARO500 C 33 33 8 0.5 TCSCE1A476*BARO650 B 47 47 8 0.65 TCSCE1A476*BARO500 B 47 47 8 05 TCSCE1A476*CARO500 C 47 47 8 0.5 TCSCE1A476*DARO400 D 47 47 8 0.4 TCSCE1A686*CARO300 C 68 6.8 8 0.3 TCSCE1A686*DARO300 D 68 6.8 8 0.3 TCSCE1A107*CARO250 C 100 10.0 8 0.25 TCSCE1A107*DARO150 D 100 63 8 0.15 TCSCE1A107*DCRO100 D 100 10.0 8 0.1 TCSCE1A227*DARO150 D 220 22.0 8 0.15 16 volt Rating @+85 C(10 volt Rating@ +125 C) TCSCE1C225*AAR3500 A 22 05 8 35 TCSCE1C335*AAR3500 A 33 05 8 35 TCSCE1C475*AAR3000 A 47 0.8 8 3.0 TCSCE1C475*BAR2000 B 47 0.8 8 2.0 TCSCE1C106*BAR1000 B 10 1.6 8 1.0 TCSCE1C106*BARO800 B 10 1.6 8 0.8 TCSCE1C106*C ARO60O C 10 1.6 8 0.6 TCSCE1C156*BARO800 B 15 24 8 0.8 TCSCE1C226*C ARO500 C 22 35 8 05 TCSCE1C226*CARO400 C 22 35 8 0.4 TCSCE1C336*CARO400 C 33 53 8 0.4 TCSCE1C336*DARO400 D 33 53 8 0.4 TCSCE1C476*CARO350 C 47 7.5 8 0.35 TCSCE1C476*DARO200 D 47 75 8 0.2 TCSCE1C107*DCRO150 D 100 16 8 0.15 / Precautions in using Tantalum Capacitors 4 4 Characteristics Explanation J SCN Series SCS Series ( SCS-P Series | ( SCM Series Sq SCF Series > eel ( SCL Series X \ PCS Series | { PCL Series X { Marking acer a Taping \ Specification 26SAMSUNG ELECTRO-MECHANICS DC DF ESR Part Number case on Leakage (%)@+25C (2)@+25 (uA) @+25 C Max. 120Hz Max. Max. 20 volt Rating @ +85 C(13 volt Rating @+125) TCSCE1D225* AAR3000 A 2.2 0.5 8 3.0 TCSCE1D335*AAR2500 A 33 0.5 8 25 TCSCE1D685*BAR1000 B 68 14 8 1.0 TCSCE1D106*CARO700 Cc 10 2.0 8 0.7 25 volt Rating @ +85 C(16 volt Rating @+125C) TCSCE1E155*AAR3000 A 1.5 0.5 8 3.0 TCSCE1E155*BAR2000 B 1.5 0.5 8 2.0 TCSCE1E225*BAR3000 B 2.2 0.6 8 3.0 TCSCE1E335*BAR2000 B 33 0.8 8 2.0 TCSCE1E475*BAR1500 B 47 1.2 8 15 TCSCE1E226*DARO300 D 22 5.5 8 0.3 35 volt Rating @+85 C (22 volt Rating@+125C) TCSCE1V105*AAR3000 A 1.0 0.5 8 3.0 TCSCE1V225*BAR2000 B 22 0.7 8 2.0 TCSCE1V475*CAR1000 C 47 1.6 8 1.0 TCSCE1V156* DARO600 D 15 5.3 8 0.6 TCSCE1V226* DARO400 D 22 77 8 04 All technical data relates to an ambient temperature of +25C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.0 volts. DCL is measured at rated voltage after 5 minutes. Insert K for +10% tolerance and M for +20%.(Low-Profile ' | Feature - Low Profile case size - Reduced thickness up to 64% of SCS series - Molded Case available in four case codes. - Compatible with automatic pick and place equipment. - Meets or Exceeds EIA Standard 535BAAC. - Terminations: 100 % Sn , RoHS Compliant Precautions in using Tantalum Capacitors 4 Characteristics Explanation | Specifications Capacitance Range 104 to 100uF SCN Series Tolerance +20%(M) Dissipation Factor (Tan 0) Refer to Specification Leakage Current between 0.01CV and 0.5uA, whichever is larger SCS Series Rated Voltage(VR) T<85C 4.0 6.3 10.0 | 160 | 200 | 25.0 | 35.0 Category Voltage(V) 85C<TS<125 2.5 4.0 6.3 10.0 | 130 | 160 | 220 T<85C 52 | 80 | 130 | 200 | 250 | 320 | 440 SCS-P Series Surge Voltage (V) 85 <T<125 32 | 50 | 80 | 130 | 160 | 200 | 280 Operating Temperature -55 to125 SCM Series : SCF Series | Standard Value and Case Size Capasy 8: | avos) | 63v0) | toa) | teviiq | 20v(ID) 25W(1E) SCE Series 10 106 R 22 226 33 336 S S S PCS Series 47 476 68 686 PCL Series 100 107 : Marking Specification 150 157 Taping Specification FORAGE 28 29SAMSUNG Re ee te | Ratings & Part Number Reference . DC Y ESR() Part Number ca Leakage (uA) al ae @+25CMax. 120Hz Max. Max. 4 Volt Rating @+85 (2.5 Volt Rating @+125C) TCSCLOG336MSAR Ss 33 1.32 10 2.0 TCSCLOG107MTAR T 100 4.00 20 1.3 6.3 Volt Rating @+85 (4Volt Rating @+125C) Tesclo3zzemsar | Ss | 33 2.07 10 2.0 10 Volt Rating @+85C (6.3Volt Rating @+125C) TCSCLO1A106MRAR R 10 1.0 8 3.0 TCSCLO1A336MSAR Ss 33 33 10 1- Seen | Feature EMC Lead Frame [~~ Precautions in using Tantalum Capacitors 4 Characteristics Explanation qantaum wre . a Conductive polymer SCN Series | Configuration And Dimension {SCS Series Normal type SCS-P Series SCM Series Unit : mm Case Code EIA Code L Ww: We H z ( ee P 2012 2.0+0.2 1.25+0.2 0.9+0.1 1.2 max 0.5+0.2 T 3528L 3.5+0.2 2.8+0.2 2.2+0.1 1.2 max 0.8+0.3 L 3528 3.5+0.2 2.8+0.2 2.2+0.1 1.5 max 0.8+0.3 (SCE Series B 3528 3.5+0.2 2.8+0.2 2.2+0.1 1.9+0.1 0.8+0.3 SCL Series | Part Number Code rssin Tantalum Capacitor Type of series (| PCLSeries Rated Voltage Code Capacitance Code("157":150) Marking | Capacitance Tolerance Code(M:20%) Suecrca Case Size Code . ( Taping Packing Code Specification Packing Polarity Code Maximum ESR in Milliohms 30 31SUSU . ELECTRO-MECHANICS | Conductive Polymer Type Series System Diagram PCS Extended series eine- tai ESTE aS PCL Low ESR type Low Profile Low Profile| Feature The Polymer Capacitor(PCS Series) have inherently low ESR(equivalent series resistance) and are capable of higher ripple current handling, producing lower ripple voltages, less power and heat dissipation than standard product for the most efficient use of circuit power. The Polymer Capacitor has the same structure as a Mn02 type chip tantalum capacitor. It has conductive polymer cathode as a substitute for Mn02 type. | Specifications Capacitance Range 4.7 uk to 330uE Tolerance +20%(M) Dissipation Factor (Tan 0) Refer to Specification Leakage Current Refer to Specification Rated Voltage(VR) 2.5 6.3 10.0 Category T< 85 2.5 6.3 10.0 Voltage(Vv) 850 <T<1050 2.0 5.0 8.0 Surge T<85 3.1 8.0 13.0 Voltage(V) 85% <T<105C 25 6.3 10.0 Operating Temperature -55 to 105 | Standard Value and Case Size Cap.(uk) RV 2.5V(0E) 6.3V(0J) 10V(1A) 47 475 P(1000) 100 107 B(40/45/70) 150 157 Ooo 220 227 B(35) 330 337 (B) (__): Under Development | Ratings & Part Number Reference . DC DF(? ESR(me Part Number ce aired Leakage (uA) @ oh @ Re e @+25CMax. 120Hz Max. Max. 2.5 volt Rating @+85C (2.0 volt Rating@+105 C) TCPCSOE227MBAROO35 | B(3528) 220 55 8 35 TCPCSOE227MBAROOSS | B(3525) 220 55 8 55 6.3 volt Rating@+85C(5.0 volt Rating@+105 C) TCPCSOJIO7MBAROO70 =| B(3528) 100 63 8 70 TCPCSOJ107MBAROO45 | B(3528) 100 63 8 45 TCPCSOJ107MBAROO40 | B(3528) 100 63 8 40 TCPCSOJ157MBAROO35 | B(3528) 150 94.5 8 35 TCPCSOJ157MBAROO70 | B(3528) 150 94.5 8 70 TCPCSOJ1S7MLARO200 | (3825) 150 94.5 10 200 10 volt Rating @ +85 C(8 volt Rating @+105 C) TCPCS1A475MPAR1000_| _P(2012)_| 47 5 6 1000 / Precautions in using \_ Tantalum Capacitors ZA a / 4 Characteristics \ Explanation ( SCN Series fo SCS Series \ ( SCS-P Series ( SCM Series ( SCF Series ( SCE Series ( SCL Series ( PCL Series / Marking \ Specification / Taping y Specification 33| Feature - Low Profile case size - Reduced thickness up to 63% of PCS series - Compatible with automatic pick and place equipment. - Terminations: 100 % Sn , RoHS Compliant | Specifications Capacitance Range Ar Tolerance +20%(M) Dissipation Factor (Tan 0) Refer to Specification Leakage Current Refer to Specification Rated Voltage(VR) 6.3 Category T< 850 6.3 Voltage (V) 80 <T< 1050 5.0 Surge T<85 8.0 Voltage (V) 850 <T<105C 6.3 Operating Temperature -55 to 105 | Standard Value and Case Size Cap.(ut) RV 6.3V(0J) 47 476 (70) (_ ): Under Development | Ratings & Part Number Reference . DC DF(%) ESR(m) Part Number ea ee Leakage (A) @+25C @+25C @+25 CMax. 120Hz Max. Max. 6.3 volt Rating @+85 C (5 volt Rating@ +105 C) TCPCLO476MTAROO70 | 1(3528) | 47 | 29.6 | 8 | 70| A, B, C, D, S, T Case A, S(Low-Profile) case (SCN, SCS, SCE series ) (SCL series J Precautions in using Tantalum Capacitors Capacitance Code in pF 4 Characteristics _~ Rated Voltage Explanation (G4V J:6.3V A:10V C:16V D:20V E:25V V: 35V) \________ Polarity (White) SCN Series SCS Series B, T (Low-Profile) case (SCN, SCS, SCE series J (SCL series } SCS-P Series Capacitance Code in uF SCM Series Rated Voltage 1 OV SCF Series ____+__+__~ Polarity (White) SCE Series SCL Series C, D case ; PCS Series Polarity (White) Taping Specification Capacitance in uF Rated VoltageSAMSUNG ELECTRO-MECHANICS | PR Case P, R(Low-Profile) case (SCS series } (SCL series } MAA Capacitance Code (A: 1.0 E:1.5 J:2.2 N:3.3 S:47 W:68) Rated Voltage (G:4V J:6.3V A: 10V C:16V D: 20V) Polarity (White) | Code Reference Sg, uk a 4 6.3 10 16 20 0.22 gj jj aj g 0.47 gs js as cs ds 0.68 gw jw aw cw dw 1.0 Ga Ja Aa Ca 1.5 2.2 Gj ) Aj i 33 Gn Jn An 47 Gs Js As 6.8 Gw Jw 10 GA JA AA 22 GJ iJ 33 JNSAMSUNG ELECTRO-MECHANICS | J, Q, K Case 1608 case (SCM series) 0 case} (Q case) Voltage, Capacitance Polarity (White) (K case J Capacitance Code Rated Voltage (G:AV J:6.3V A:10V C:16V D:20V) Polarity (White) | J, Q(Low-Profile) Case Code Reference _| K Case Code Reference cSierre go | 4 6.3 10 16 pow] 4 6.3 10 16 1.0 a B c 1.0 15 D E F G 15 2.2 | J K L 2.2 3.3 M N 0 P 33 47 R S T U 47 Js 6.8 V X Y 6.8 10 Z A b 10 GA Precautions in using Tantalum Capacitors 4 Characteristics Explanation SCN Series SCS Series SCS-P Series SCM Series SCF Series SCE Series SCL Series PCS Series PCL Series Taping SpecificationSAMSUNG ELECTRO-MECHANICS | Conductive Polymer Type P case + Capacitance Code (A1.0 E:1.5 J:2.2 N:3.3 $:4.7 W-6.8) Rated Voltage (G:4V J:6.3V A:10V C:16V_ D: 20V) -__________ Polarity (White Stripe) B, L, T case Capacitance (150uF) Rated Voltage(6.3V) Po Polarity| Face Down Type U case(1005mm size) Rated Voltage, Capacitane Code SAMSUNG ELECTRO-MECHANICS | case(1005mm size) Rated Voltage, Capacitane Code Polarity gp 4 6.3 10 1.0 a 22 J 33 47 r s K case(1608mm size) Rated Voltage, Capacitane Code P case(2012mm size) Rated Voltage, Capacitane Code Polarity Polarity Se. ge 4 6.3 10 22 J 33 M O 47 S t cSierre Precautions in using Tantalum Capacitors 4 Characteristics Explanation SCN Series SCS Series SCS-P Series SCM Series SCF Series SCE Series SCL Series PCS Series PCL Series etn Taping Specification 39| Taping Specification Cover Tape F 15 co Romoval Speed The tantalum chip capacitors shall be packaged in tape and reel from for effective use. Tape: Semitransparent embossed plastic VILLI T a Cover tape: Attached with press, polyester a = on ee The tension of removing the cover tape, F=10~70g | Carrier Tape Dimension Right hand Di / Embossed i Orientation available Embossed Carrier + Pere Od A CLO eLL@ UI } CJ Wo yd WW} WW de D2 P| Pi P2 KK Direction of Feed EMBOSSED PLASTIC TAPE Unit: mm(inch) et W+03 | F01 | E401 | Po+0.1 | +01 | +01) D401 | DMin.) t | A+0.2 | B+O2 | K+0.2 UI 074 | 128 | 062 2 a +0.1 +0.1 +0.1 Q 0.82 $0.6 0.98 1.80 JK 1.0 R 1.1 14 2.3 p 8 35 14 4 s 1.75 2 4 015 0.25 13 91.0 1.9 3.5 A 1.9 T 13 3.3 3.8 B 2.1 C 3.7 6.4 3.0 12 5.5 8 61.5 D 48 77 3.3EST ELECTRO-MECHANICS gue | Reel Dimension Precautions in using a Tantalum Capacitors =i | 4 4 Characteristics Explanation SCN Series ~ A W ~t SCS Series Unit: mm { $CS-P Series Symbol Tape Width A B C 7" Red 8mm @180+0/-3 @60+1/-0 13403 G41+02 12mm 180403 60+1/-0 B13+03 g4a+02 Sansui 13" Red 8rnm @330+2.0 @80+10 @13+03 GA+02 12mm @330+2.0 @80+1.0 B13+03 B4+02 (scr series Symbol Tape Width E W t 7" pe 8mm 2.0+05 9+05 1.2402 SCE Series 12mm 2.0+05 13+0.5 12+02 . 8mm 20+05 9405 22402 13" Reel SCL Series 12mm 2.0+05 1340.5 22+02 PCS Series | Quantity Per Reel Unit : mm(inch) PCL Series Case Code 178mm(7")reel 330mm(13")reel : U, | 10,000 pcs / Reel - Marking Specification J@Q),K 4,000 pcs / Reel - P(R) 3,000 pcs / Reel 3 A(5), B(1) 2,000 pcs / Reel 8,000 pcs / Reel C,D 500 pcs / Reel 2,500 pcs / Reel 41im SAMSUNG ELECTRO-MECHANICS | Packaging Table Ih General type Inner Box 30+1.0 . Front 185+1.0 ~~ OS s6210 180+ 1.0 Outer Box 4 197+5.0 4 My Front tO x. 375+5.0 Ue 352+5.0 Polymer type Inner Box Outer Box 5+10% a 2201.0 hrontt | ~ 229+3.0 Front ~ | HN 355+3.0 LC ea.0 i 7 | 230+ 1.0 | 475+3.0 (ei Ee Taping Packaging Box Packaging TYPE Inch Packaging nec! , Inner Box Outer Box Code eels Quantity Reels Quantity Inner Quantity Max Box Max 1005 | 0402 AR 7" 10,000 5 50,000 10 500,000 1608 | 0603 AR EF 4,000 5 20,000 10 200,000 2012 | 0805 AR 7" 3,000 5 15,000 10 150,000 AR 7" 2,000 5 10,000 10 100,000 3216 | 1206 CR 13" 8,000 5 40,000 5 200,000 AR - 2,000 5 10,000 10 100,000 3528 | 1311 CR 13" 8,000 5 40,000 5 200,000 AR 7" 500 4 2,000 10 20,000 6032 | 2312 CR 13 2,500 4 10,000 5 50,000 AR 7" 500 4 2,000 10 20,000 7343 | 2818 CR 13" 2,500 4 10,000 5 50,000ISO/TS 16949 ISO 14001 OHSAS 18001 SAMSUNG ELECTRO-MECHANICS QC080000 an Certificate of Registration Certificate of Registration Certificate of Registration Be = 1ECQ Certificate of Cont ity Seen Quality System Certification List Table 1:Certification list of Samsung Factory Certification Section PHILIPPINES Authority BSI TS 91430-005 ISO/TS 16949 Sunnie Date 2009 - 08 - 14 Validity 2012 - 08 - 13 Authority BSI EMS 77354 ISO 14001 Mumibrer Date 2009 - 08 - 04 Validity 2012 - 08 - 03 Authority BSI Number OHS 568723 OSHAS18001 Date 2010-12-21 Validity 2013 - 12 - 20 Authority UL Number Pl-HSPM-1001 acosoo00 Date 2010 - 07 - 05 Validity 2013 - 07 - 04 42 43PSAMSUNGd SAMSUNG ELECTRO-MECHANICS Inside Edge www.SemilCf.com Passive components sales offices Head office 206, Cheomdansaneop Road, Yeongtong- gu, Suwon-city, Gyeonggi province, Korea, 443-743 Europe Te |:+82-31-210-6328 E-mail :james.pyun@samsung.com America Te|:+82-31-210-6803 E-mail: wesley.roh@samsung.com Asia Tel:+82-31-210-6791 E-mail: peter_kim@samsung.com Domestic Te |:+82-31-210-5074 E-mail: boungho.lee@samsung.com Manufacturing sites Suwon Plant (Korea) 206, Cheomdansaneop Road, Yeongtong- gu, Suwon-city, Gyeonggi province, Korea, 443-743 Te|:+82-31-210-5074 E-mail: boungho.lee@samsung.com Busan Plant (Korea) 1623-2, Songjeong- dong, Gangseo-gu, Busan, Korea, 618-270 Te|:+82-51-970-7671 E-mail: kyc.kweon@samsung.com Tianjin Plant (China) 27, Heiniucheng- Road, Hexi District, Tianjin, 300210 China Te|:+86-22-2397-9000(310) E-mail: moohantop.Park@samsung.com High Tech (China) Xiqing Dist. Micro-Electronics Industrial Park, Jingang Highway, Tianjin, China 300485 Tel:+ 022-23979000-313 E-mail: enhao.song@samsung.com Binhai Plant(China) 80, XiaQing Road, West area of BinHai development zone, TianJin, 300458, China Te |:+86-22-6686-3333( 1300) E-mail:sk1000.kim@samsung.com Philippines Plant (Philippines) e America sales office Block No.5, Calamba Premiere Irvine Office International Park, Batino, Calamba, 3333 Michelson Drive, Laguna, Manila, Philippines 4027 Suite 500, Irvine, CA 92612, USA Tel:+63-49- 545-0422 Tel:1-949-797-8016 E-mail: donna@samsung.com E-mail:andrew.skelly@samsung.com Asia sales offices eEurope sales offices Shenzhen Office Frankfurt Office 46 F, New World Center, Samsung Haus, Am Kronberger Hang 6, Yitian Road, Futian District, D-65824 Schwalbach/Ts. Germany Shenzhen, 518026 China Tel:49-6196-66-7255 Tel:86-755-8608-5571 a - E-mail: frank. goebe!@samsung.com E-mail: jackson.xian@samsung.com Ace: Hungary Office Shanghai Office ; H-2310, Leshegy utca 2-4, Rm. 1211, Shanghai International Szigetszentmiklos, Pest megye, Hungary Trade Center, No. 2201 Yan an(W) Rd., Tel:36-24-551-448 Shanghai, 200335 China E-mail:jun21c.lee@samsung.com Tel:86-21-6270-4168(274) J o E-mail: dennis.cha@samsung.com Domestic Distributors HongKong Office Korchip Corporation @/F.,Central Plaza, 18 Harbour Road, 817-38, Anyang 2- dong, Manan- gu, Wanchai, Hongkong, China Anyang-city, Gyeonggi province, Tel:852-28626344 Korea, 430-812 E-mail: vivianchan@samsung.com Tel:+82-31-361-8100 E-mail: itasap@korchip.com Qingdao Office Rm 1201. Growne Plaza Qingdao 76, SAMT Xiang Gang Zhong Rd, Qingdao, Daekyung Bldg., 983-10, Daechi-dong, 266071 China Gangnam-gu, Seoul, Korea Tel:86-532-85779102 Tel:+82-2-3458-9000 E-mail :zhengguo.cui@samsung.com E-mail:info@isamt.com Taiwan Office CHUNGMAC 9F-1, Np. 399 Ruey Kuang Rd., Neihu 301 Gwonseon Medivill, 544-14 District, Taipei City, Taiwan, 114 Gokbanjeong-dong, Gwonseon-gu, Tel:886-2- 2656-8356 Suwor-si, Gyeonggi-do Korea E-mail: kevin0130.wang@samsung.com Te|:+82-31-234-2367~8 E-mail: webmaster @chungmac.co.kr Singapore Office 3 Church Street Samsung Hub, YOUNGDUK #23-02 Singapore 049483 Gasan-Dong 632, Seobusaeigil, Tel:65-6833-3228 Geumcheon-Gu, Seoul, Korea E-mail: winson.yeong@samsung.com Tel:+82-2-2107-7860 E-mail: siyang1109@gmail.com Bangkok Office 28rd Floor, Lake Rajada Office Complex 193/89 Rachadapisek Road, Khet Klongtoey, Bangkok 10110, Thailand Tel:66-2-661-8004~5 E-mail: yangshin. yi@samsung.com All information indicated in this catalog is as of July. 2012 * The specifications and designs contained herein may be subject to change without notice.