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| certified tn-190 r5 aha 10/11/01 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 1 of 20 tantalum chip capacitors type tmc: standard capacitance range 1. scope of application the tmc series of molded tantalum chip capacitors offers an extensive range of values in eia - us and eia - japan compatible sizes. by design, strict process control and a commitment to provide the most reliable product in the industry, the tmc has passed our customers� most severe humidity / temperature / pressure induced life stress testing. for surface mount applications, the space saving, highly reliable tmc is the preferred tantalum chip capacitor. 2. features epoxy molded body, ul94v-0 flammability eia - us and eia - japan compatible sizes 100% burn-in and end-of-line testing extended values per case size excellent humidity and solder resistance 3. type designation the type designation shall be the following form: case dimensions koa speer electronics, inc.
_ + a6 _ + c & e case 10 16 abbreviated capacitance a6: 1.0 f production month, year code production month, year code belt marking for anode part marking a & b case tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com standard range case size (table 1a) standard values voltage code 0g 0j 1a 1c 1d 1e 1v 1h 85? rated voltage (vdc) 4 7 10 16 20 25 35 50 surge voltage (vdc) 5 9 13 20 26 32 46 63 125? derated voltage (vdc) 2.5 4 6.3 10 13 16 23 32 capacitance ( u f) cap code 0.1 104 a a 0.15 154 a b 0.22 224 a b 0.33 334 a b 0.47 474 a b c 0.68 684 a b c 1.0 105 a b c 1.5 155 a b c e 2.2 225 a b c e 3.3 335 a b c 4.7 475 b c e 6.8 685 b c e 10 106 b c e 15 156 c e 22 226 c e 33 336 c e 47 476 e 68 686 e case size (table 1b) tmcp series standard values voltage code oe 0g 0j 1a 1c 1d 1e rated voltage (vdc) 2.5 4 6.3 10 16 20 25 capacitance ( u f) cap code 0.10 104 p 0.15 154 p 0.22 224 p 0.33 334 p 0.47 474 p p 0.68 684 p p p 1.0 105 p p p 1.5 155 p p p 2.2 225 p p p p 3.3 335 p p p p 4.7 475 p p p p 6.8 685 p p p 10.0 106 p p p 15.0 156 p p 22.0 226 p p _ + _ + a6 part marking 10v1 f abbreviated capacitance (a6:1 f) aa 6.3v1 f belt marking for anode belt marking for anode abbreviated capacitance (a:1 f) rated voltage marking (a:10v) marking value (uf) a5 0.10 e5 0.15 j5 0.22 n5 0.33 s5 0.47 w5 0.68 a6 1.0 e6 1.5 j6 2.2 n6 3.3 s6 4.7 w6 6.8 a7 10.0 upper number indicates capacitance in f. lower number indicates rated voltage (16v). page 2 of 20 koa speer electronics, inc. in case that simple capacitance symbol is same as case size, rated voltage symbol is marking on higher voltage one. when marking the symbol of rated voltage and capacitance, a multipler of capacitance symbol is omitted. simple symbol is referenced to jis c 5143 clause 10, and eiaj rc-3813 clause 7.1. esr eia leakage tand max ( ? ) part no. case ? ? (max) % max 100 khz 2.5 vdc @ 85? continued tmcoee157 d 150 3.75 8 0.9 tmcoec227 c 220 5.50 8 0.9 tmcoee227 d 220 5.50 8 0.9 tmcoee337 d 330 8.25 10 0.9 tmcoee477 d 470 11.75 10 0.5 4.0 vdc @ 85? tmcogp155 p 1.5 0.50 8 25.0 tmcogp225 p 2.2 0.50 8 25.0 tmcogp335 p 3.3 0.50 8 20.0 tmcoga335 a 3.3 0.50 6 9.0 tmcogp475 p 4.7 0.50 8 12.0 tmcoga475 a 4.7 0.50 6 7.5 tmcogp685 p 6.8 0.50 8 10.0 tmcoga685 a 6.8 0.50 6 6.5 tmcogp106 p 10 0.50 8 9.0 tmcoga106 a 10 0.50 6 3.0 tmcogb106 b 10 0.50 6 4.0 tmcogp156 p 15 0.60 8 8.0 tmcoga156 a 15 0.60 8 4.0 tmcogb156 b 15 0.60 8 3.0 esr eia leakage tand max ( ? ) part no. case ? ? (max) % max 100 khz 2.5 vdc @ 85? tmcoep225 p 2.2 0.50 8 25.0 tmcoep335 p 3.3 0.50 8 25.0 tmcoep475 p 4.7 0.50 8 12.0 tmcoep685 p 6.8 0.50 8 10.0 tmcoea685 a 6.8 0.50 6 6.5 tmcoep106 p 10 0.50 8 9.0 tmcoea106 a 10 0.50 8 6.0 tmcoep156 p 15 0.50 8 8.0 tmcoea156 a 15 0.50 8 4.0 tmcoep226 p 22 0.55 8 7.0 tmcoea226 a 22 0.55 8 2.8 tmcoeb226 b 22 0.55 8 2.5 tmcoea336 a 33 0.83 8 4.0 tmcoeb336 b 33 0.83 8 2.8 tmcoga476 a 47 1.18 12 3.0 tmcoeb476 b 47 1.18 8 2.4 tmcoeb686 b 68 1.70 8 1.8 tmcoec686 c 68 1.70 8 1.6 tmcoeb107 b 100 2.50 12 0.9 tmcoec107 c 100 2.50 8 0.9 tmcoec157 c 150 3.75 8 0.9 standard values voltage code 0e 0g 0j 1a 1c 1d 1e 1v 1h 85? rated voltage (vdc) 2.5 4 7 10 16 20 25 35 50 surge voltage (vdc) 3.2 5 9 13 20 26 32 46 63 125? derated voltage (vdc) 1.6 2.5 4 6.3 10 13 16 23 32 capacitance ( u f) cap code 0.10 104 p a a 0.15 154 p a ab 0.22 224 p a ab 0.33 334 p a b 0.47 474 p p a ab bc 0.68 684 p p ap a ab bc 1.0 105 p p ap a a ab c 1.5 155 p p ap a a ab bc ce 2.2 225 p p ap ap a ab b bc ce 3.3 335 p ap ap ap ab ab b bc e 4.7 475 p ap ap abp ab abc bc ce e 6.8 685 ap ap abp ab ab bc c ce 10.0 106 ap abp abp ab abc bc ce ce 15.0 156 ap abp ab abc bc ce ce e 22.0 226 abp abp abc bc bce ce e e 33.0 336 ab abc abc bce ce e e 47.0 476 ab abc bce bce ce e 68.0 686 bc bce bce ce e 100 107 bc bce bce ce e 150 157 ce ce bce e 220 227 ce ce e e 330 337 e e e 470 477 e e tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 3 of 20 part marking c & e case 47 10 v a,b & p case g s 6 voltage code g = 4 vdc voltage code (same as tmc) s 6 = 4.7 uf anode (+) production month, year code extended range case size (table 1c) includes standard and p case sizes note: to obtain environ- mental specifications information please contact koa speer. marking voltage e 2.5 g4 j7 a10 c16 d20 e25 v35 h50 technical data koa speer electronics, inc. esr eia leakage tand max ( ? ) part no. case ? ? (max) % max 100 khz 7.0 vdc @ 85? continued tmcoje337 d 330 23.10 10 0.5 10 vdc @ 85? tmc1ap684 p 0.68 0.50 6 25.0 tmc1ap105 p 1.0 0.50 6 25.0 tmc1ap155 p 1.5 0.50 8 20.0 tmc1aa155 a 1.5 0.50 6 10.0 tmc1ap225 p 2.2 0.50 8 15.0 tmc1aa225 a 2.2 0.50 6 7.0 tmc1ap335 p 3.3 0.50 8 10.0 tmc1aa335 a 3.3 0.50 6 5.5 tmc1ap475 p 4.7 0.50 8 9.0 tmc1aa475 a 4.7 0.50 6 5.0 tmc1ab475 b 4.7 0.50 6 4.0 tmc1aa685 a 6.8 0.68 6 3.6 tmc1ab685 b 6.8 0.68 6 3.0 tmc1aa106 a 10 1.00 8 2.8 tmc1ab106 b 10 1.00 8 2.5 tmc1aa156 a 15 1.50 8 3.2 tmc1ab156 b 15 1.50 8 2.8 tmc1ac156 c 15 1.50 6 2.0 tmc1ab226 b 22 2.20 8 2.0 tmc1ac226 c 22 2.20 8 1.8 tmc1ab336 b 33 3.30 8 1.8 tmc1ac336 c 33 3.30 8 1.6 tmc1ae336 d 33 3.30 6 1.1 tmc1ab476 b 47 4.70 10 4.0 tmc1ac476 c 47 4.70 8 1.1 tmc1ae476 d 47 4.70 8 0.9 tmc1ac686 c 68 6.80 8 0.9 tmc1ae686 d 68 6.80 8 0.9 tmc1ac107 c 100 10.00 10 4.0 tmc1ae107 d 100 10.00 8 0.9 tmc1ae157 d 150 15.00 8 0.9 tmc1ae227 d 220 22.00 8 0.6 16 vdc @ 85? tmc1cp474 p 0.47 0.50 6 25.0 tmc1cp684 p 0.68 0.50 6 25.0 tmc1cp105 p 1.0 0.50 6 20.0 tmc1ca105 a 1.0 0.50 4 11.0 tmc1ca155 a 1.5 0.50 6 8.0 tmc1ca225 a 2.2 0.50 6 6.5 tmc1ca335 a 3.3 0.53 6 5.0 tmc1cb335 b 3.3 0.53 6 4.5 tmc1ca475 a 4.7 0.75 6 4.0 tmc1cb475 b 4.7 0.75 6 3.5 tmc1ca685 a 6.8 1.09 6 3.0 tmc1cb685 b 6.8 1.09 6 2.5 tmc1ca106 a 10 1.60 8 4.0 tmc1cb106 b 10 1.60 8 2.8 tmc1cc106 c 10 1.60 6 2.0 tmc1cb156 b 15 2.40 8 2.0 tmc1cc156 c 15 2.40 8 1.8 tmc1cc226 c 22 3.52 8 1.6 tmc1ce226 d 22 3.52 6 1.1 tmc1cc336 c 33 5.28 8 1.1 tmc1ce336 d 33 5.28 8 0.9 esr eia leakage tand max ( ? ) part no. case ? ? (max) % max 100 khz 4.0 vdc @ 85? continued tmcogp226 p 22 0.88 8 6.0 tmcoga226 a 22 0.88 8 2.8 tmcogb226 b 22 0.88 8 2.5 tmcoga336 a 33 1.32 8 4.0 tmcogb336 b 33 1.32 8 2.8 tmcogc336 c 33 1.32 6 2.0 tmcoga476 a 47 1.88 12 4.0 tmcogb476 b 47 1.88 8 2.4 tmcogc476 c 47 1.88 8 1.8 tmcogb686 b 68 2.72 8 1.8 tmcogc686 c 68 2.72 8 1.6 tmcoge686 d 68 2.72 6 1.1 tmcogb107 b 100 4.00 12 4.0 tmcogc107 c 100 4.00 8 0.9 tmcoge107 d 100 4.00 8 0.9 tmcogc157 c 150 6.00 8 0.9 tmcoge157 d 150 6.00 8 0.9 tmcogc227 c 220 8.80 12 4.0 tmcoge227 d 220 8.80 8 0.9 tmcoge337 d 330 13.20 10 0.9 tmcoge477 d 470 18.80 10 0.5 7.0 vdc @ 85? tmcojp105 p 1.0 0.50 6 25.0 tmcojp155 p 1.5 0.50 6 25.0 tmcojp225 p 2.2 0.50 8 25.0 tmcoja225 a 2.2 0.50 6 8.0 tmcojp335 p 3.3 0.50 8 12.0 tmcoja335 a 3.3 0.50 6 7.0 tmcojp475 p 4.7 0.50 8 10.0 tmcoja475 a 4.7 0.50 6 6.0 tmcojp685 p 6.8 0.50 8 9.0 tmcoja685 a 6.8 0.50 6 5.0 tmcojb685 b 6.8 0.50 6 4.0 tmcojp106 p 10 0.50 8 8.0 tmcoja106 a 10 0.70 8 4.0 tmcojb106 b 10 0.70 8 3.0 tmcoja156 a 15 1.05 8 2.8 tmcojb156 b 15 1.05 8 2.5 tmcoja226 a 22 1.54 8 4.0 tmcojb226 b 22 1.54 8 2.3 tmcojc226 c 22 1.54 6 2.0 tmcoja336 a 33 2.31 10 4.0 tmcojb336 b 33 2.31 8 2.0 tmcojc336 c 33 2.31 8 1.8 tmcojb476 b 47 3.29 8 1.8 tmcojc476 c 47 3.29 8 1.6 tmcoje476 d 47 3.29 6 1.1 tmcojb686 b 68 4.28 10 4.0 tmcojc686 c 68 4.76 8 1.5 tmcoje686 d 68 4.76 8 0.9 tmcojb107 b 100 6.30 8 4.0 tmcojc107 c 100 7.00 8 0.9 tmcoje107 d 100 7.00 8 0.9 tmcojb157 b 150 6.00 8 4.0 tmcojc157 c 150 9.45 10 4.0 tmcoje157 d 150 10.50 8 0.9 tmcoje227 d 220 15.40 8 0.9 tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 4 of 20 technical data (continued) koa speer electronics, inc. esr eia leakage tand max ( ? ) part no. case ? ? (max) % max 100 khz 16 vdc @ 85? continued tmc1cc476 c 47 7.52 8 1.2 tmc1ce476 d 47 7.52 8 0.9 tmc1ce686 d 68 10.90 8 0.9 tmc1ce107 d 100 16.00 8 0.9 20 vdc @ 85? tmc1dp104 p 0.10 0.50 6 25.0 tmc1dp154 p 0.15 0.50 6 25.0 tmc1dp224 p 0.22 0.50 6 25.0 tmc1dp334 p 0.33 0.50 6 25.0 tmc1dp474 p 0.47 0.50 6 25.0 tmc1dp684 p 0.68 0.50 6 25.0 tmc1da684 a 0.68 0.50 4 12.0 tmc1da105 a 1.0 0.50 4 8.0 tmc1da155 a 1.5 0.50 6 6.5 tmc1da225 a 2.2 0.50 6 5.0 tmc1db225 b 2.2 0.50 6 3.5 tmc1da335 a 3.3 0.66 6 3.5 tmc1db335 b 3.3 0.66 6 3.0 tmc1da475 a 4.7 0.94 6 3.0 tmc1db475 b 4.7 0.94 6 3.0 tmc1db685 b 6.8 1.36 6 2.5 tmc1dc685 c 6.8 1.36 6 2.0 tmc1db106 b 10 2.00 8 2.0 tmc1dc106 c 10 2.00 8 1.9 tmc1dc156 c 15 3.00 8 1.7 tmc1de156 d 15 3.00 6 1.1 tmc1dc226 c 22 4.40 8 1.1 tmc1de226 d 22 4.40 8 0.9 tmc1dd336 j 33 6.60 8 0.9 tmc1de336 d 33 6.60 8 0.9 tmc1de476 d 47 9.40 8 0.9 25 vdc @ 85? tmc1ea474 a 0.47 0.50 4 14.0 tmc1ea684 a 0.68 0.50 4 10.0 tmc1ea105 a 1.0 0.50 4 8.0 tmc1ea155 a 1.5 0.50 6 7.5 tmc1eb155 b 1.5 0.50 6 5.0 tmc1eb225 b 2.2 0.55 6 4.5 tmc1eb335 b 3.3 0.83 6 3.5 tmc1eb475 b 4.7 1.18 6 3.0 tmc1ec475 c 4.7 1.18 6 2.4 tmc1ec685 c 6.8 1.70 6 2.0 tmc1ec106 c 10 2.50 8 1.8 tmc1ee106 d 10 2.50 6 1.2 tmc1ee156 d 15 3.75 8 1.0 tmc1ee226 d 22 5.50 8 0.9 tmc1ee336 d 33 8.25 8 0.9 35 vdc @ 85? tmc1va104 a 0.1 0.50 4 24.0 tmc1va154 a 0.15 0.50 4 21.0 tmc1va224 a 0.22 0.50 4 18.0 tmc1va334 a 0.33 0.50 4 15.0 tmc1va474 a 0.47 0.50 4 12.0 tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 5 of 20 esr eia leakage tand max ( ? ) part no. case ? ? (max) % max 100 khz 35 vdc @ 85? continued tmc1vb474 b 0.47 0.50 4 10.0 tmc1va684 a 0.68 0.50 4 8.0 tmc1vb684 b 0.68 0.50 4 8.0 tmc1va105 a 1.0 0.50 4 7.0 tmc1vb105 b 1.0 0.50 4 6.5 tmc1vb155 b 1.5 0.53 6 5.2 tmc1vc155 c 1.5 0.53 6 4.5 tmc1vb225 b 2.2 0.77 6 4.2 tmc1vc225 c 2.2 0.77 6 3.5 tmc1vb335 b 3.3 1.16 6 3.0 tmc1vc335 c 3.3 1.16 6 2.5 tmc1vc475 c 4.7 1.65 6 2.2 tmc1ve475 d 4.7 1.65 6 1.5 tmc1vc685 c 6.8 2.38 6 1.5 tmc1ve685 d 6.8 2.38 6 1.3 tmc1vc106 c 10 3.5 8 1.6 tmc1ve106 d 10 3.50 8 1.0 tmc1ve156 d 15 5.25 8 1.0 tmc1ve226 d 22 7.70 6 0.9 50 vdc @ 85? tmc1ha104 a 0.1 0.50 4 22.0 tmc1ha154 a 0.15 0.50 4 16.0 tmc1hb154 b 0.15 0.50 4 17.0 tmc1ha224 a 0.22 0.50 4 18.0 tmc1hb224 b 0.22 0.50 4 14.0 tmc1hb334 b 0.33 0.50 4 12.0 tmc1hb474 b 0.47 0.50 4 10.0 tmc1hc474 c 0.47 0.50 4 8.0 tmc1hb684 b 0.68 0.50 4 7.0 tmc1hc684 c 0.68 0.50 4 7.0 tmc1hc105 c 1.0 0.50 4 5.5 tmc1hc155 c 1.5 0.75 6 4.0 tmc1he155 d 1.5 0.75 6 4.0 tmc1hc225 c 2.2 1.10 6 2.5 tmc1he225 d 2.2 1.10 6 2.5 tmc1he335 d 3.3 1.65 6 2.0 tmc1he475 d 4.7 3.35 6 1.4 technical data (continued) koa speer electronics, inc. bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com tn-190 r5 page 6 of 20 typical performance characterisitics temperature characteristics temperature characteristics tmc 16v, 1? tmc 20v, 0.68? tmc 16v, 3.3? tmc 20v, 2.2? koa speer electronics, inc. no. items requirement test method guideline tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 7 of 20 4. characteristics 4.1 electrical characteristics -55? to +85? keep the sum of peak dc voltage and ripple voltage within the rated voltage and never go over it. measuring frequency: 120 � 12hz measuring voltage: 0.5vrms +0.5 ~ 2.0 vdc measurement circuit: equivalent series circuit measurement shall be made under the same conditions as those given for the measure- ment of capacitance. apply the rated voltage through 1000 ?00 ? protective resistor, and measure the current after 5 minutes voltage application. r : series protective resistor a : dc current meter or electronic current meter v : dc voltage meter s1 : switch s2 : protective switch for current meter cx : capacitor sample ac voltage (0.5vrms or less) of a frequency specified below, shall be applied and the volt- age drop across the capacitor terminals shall be measured. the impedance shall be calculated by the following equation. frequency: 100 � 10khz impedance: (z) = e/i where e:voltage drop across the capacitor terminals i: current flowing through the capacitor rated voltage maximum permissible ripple voltage nominal capacitance dissipation factor (df) tangent of loss angle (tan ) d.c. leakage current (cc) impedance high frequency 1 2 3 4 5 6 2.5v to 50vdc refer to page 18 0.10? to 470? (?0% or ?0%) see techincal data tables for details. less than 0.01cv(?) or 0.5 (?), whichever is the greater. c=nominal capacitance (?) v=rated voltage (vdc) capacitance (?) impedance value less than 0.47 ? 0.68 to 1.5 less than 20 ? 2.2 to 6.8 less than 10 ? more than 10 less than 4 ? r s1 v a s2 cx + _ d c cx a ~ ~ v ~ ( ) cx : capacitor sample ~ : ac power source a : ac current meter v : ac voltage meter ~ ~ koa speer electronics, inc. -55 temperature ( c) 020 85 125 0 100 80 60 40 20 percentage to rated voltage (%) capacitance (?) -55? +85? +125? less than less than less than 0.047 to 1.0 0.09 0.07 0.09 less than less than less than 1.5 to 6.8 0.10 0.08 0.10 less than less than less than 10 to 470 0.12 0.10 0.12 tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 8 of 20 temperature characteristics surge test temperature derated voltage no. items requirement test method guideline 4. characteristics 4.1 electrical characteristics 7 8 9 when operating at an ambient temperature range from 85? to 125?, the operation shall be carried out at a derating voltage or less as shown below. step temperature duration 1 20 � 2? � 2 -55 � 3? 2 hours 3 20 � 2? 0.25 hours 4 85 � 2? 2 hours 5 125 � 2? 2 hours table 3 step 2 step 4 step 5 change in relative to the value capacitance in step 1 - 10 to 0% tangent of not more than the loss angle value in table 3 change in relative to the value capacitance in step 1 - 0 to +10% leakage 0.1cv or 5 � a current or less tangent of not more than the loss angle value in table 3 change in relative to the value capacitance in step 1 - 0 to +12% leakage 0.125cv or 6.25 � a current or less tangent of not more than the loss angle value in table 3 step 1: capacitance and tangent of loss angle shall be measured. step 2: after the capacitor has been stored for 2 hours, capacitance and tangent of loss angle shall be measured. the measurement shall be made at thermal equilibrium. step 4, 5: after the capacitor has been stored for 2 hours, capacitance, tangent of loss angle and leakage current shall be measured. the measurement shall be made a thermal equilibrium. however, measurement shall be made at a temperature derating voltage in step 5. the capacitor shall be subjected to the surge voltage as specified below in a cycle of 6?.5min. which consists of a charge period of 30? sec. followed by a discharge period of approx. 5 min. 30 sec. at 85?? for 1000 cycles. the capacitor shall be stored under standard atmospheric conditions to obtain thermal equilibrium, after which measurement shall be made. r1: series protective resistor (33 ? ) r2: discharge resistor (33 ? ) v : dc voltmeter cx: test capacitor s: switch change in relative to the value capacitance before test +5% tangent of loss angle clause 4.1.4 shall be satisfied leakage current clause 4.1.5 shall be satisfied rated voltage (v) 2.5 4 7 10 16 20 25 35 50 surge voltage (v) 3.2 5 8 13 20 26 32 45 63 r1 s v r2 cx + _ derating voltage vt at any temperature t between 85? and 125? shall be calculated by the following formula: vr - vd v t = vr - (t - 85) 40 rated voltage (v) 2.5 4 7 10 16 20 25 35 50 derating voltage at 125? (v) 1.6 2.5 4 6.3 10 13 16 22 32 temperature (?) vr: rated voltage vd: derating voltage at 125? koa speer electronics, inc. test temperature: 235 � 5? for 2 � 0.5 seconds. others are based on jis c 5102 clause 8.4. (test method is according to clause 1.) the methods are in accordance with jis c 5143 appendix i and ii. after preheat of 5 minutes at 150?. immersion at 260 � 5? 10 � 1 seconds for a, b cases. 5 � 0.5 seconds for c, d, e cases. reflow at 260 � 5? 10 � 1 seconds. soldering iron method (1) 25 watt soldering iron: less than 3 seconds at one side with 350 ? (2) 30 watt soldering iron: less than 3 seconds at one side with 300?0? re-soldering shall be one time only. after surface mounting by soldering (2 times), if you do screening to heat capacitors, it is for temperature process to establish to under drawing of temperature - time. leaving them for 1~2 hours later, you measure them. the tmc capacitors will withstand 6 hours of vibration testing, 2 hours in each of three mutual- ly perpendicular planes. the frequency will vary from 10 hz to 55 hz and back to 10 hz over a one minute period, continuously during each 2 hour test, with a total excursion of 1.5 mm. during the last 30 minutes of vibration, in each direction, electrical tests shall be conducted. the capacitor shall be stored at a temperature of 40 � 2? and relative humidity of 90% to 95% for 500 hours. then the capacitor shall be subjected to standard atmospheric conditions for 1 to 2 hours, after which measurements shall be made. a new uniform coating of solder shall cover a minimum of 75% of the surface being immersed. change in relative to the value capacitance before test ?% tangent of clause 4.1.4 loss angle shall be satisfied leakage clause 4.1.5 current shall be satisfied appearance there shall be no defoma- tion of case or distinct looseness of electrodes change in relative to the value capacitance before test ?0% tangent of clause 4.1.4 loss angle shall be satisfied leakage not more than 125% of current initial value (clause 4.1.5) appearance no remarkable abnormality and markings shall be legible change in within +5% of initial value capacitance tangent of within initial value specified loss angle leakage within initial value specified current appearance all markings shall be legible, no abnormalities change in relative to the value capacitance before test ?0% tangent of clause 4.1.4 shall be satisfied loss angle leakage clause 4.1.5 current shall be satisfied appearance no remarkable abnormality and markings shall be legible tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com no. items conditions specifications 4. characteristics 4.2 endurance characteristics (continued) 1 2 3 4 5 solderability resistance to soldering heat surface mounting by soldering (2 times) screening to heat vibration damp heat (steady state) 120 20 15 100 45 time (min) temp. ( c) page 9 of 20 +0 -10 +24 0 koa speer electronics, inc. tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 10 of 20 testing is conducted for 2,000 hours @ 85??? with the rated voltage applied through a 3 ? series protective resistor. measurements will be taken after stabilization for 1 to 2 hours, at room temperature. the readings shall comply with the required specifications. the capacitor shall be subjected to each specified temperature for each specified period shown in the table below. these 4 steps consti- tutes one rotation. 5 continuous rotations shall be carried out. step temperature (?) duration 1 -55 � 3 30 � 3 min 2 normal temperature 3 max 3 125 � 2 30 � 3 min 4 normal temperature 3 max expose the capacitor to 40 � 2? at 90~95% rh and apply dc voltage equal to rated voltage through 1k ohm series protective resistor 500 ?2 hours. then expose it for 4 hours in the standard atmospheric conditions and then, carry out the measurement. the capacitor soldered to the alumina plate, is pushed sideway horizontally with 1.5kg.f ten- sile load as shown below. for the other proce- dures, refer to jis c 5143 accessories note 3. (1) cleaning by immersion i solvent: ipa immersion time: 5? minutes temperature: 20~25? (2) cleaning by immersion ii solvent: water immersion time: 5? minutes temperature: 55?? (3) ultrasonic cleaning frequency: 25?khz or 40 khz output power: less than 20w/l time: 5 minutes temperature-ipa: 20~25? water: 55?? change in relative to the value capacitance before test ?0% tangent of clause 4.1.4 loss angle shall be satisfied leakage not more than 125% of current initial value (clause 4.1.5) appearance no remarkable abnormality and markings shall be legible change in relative to the value capacitance before test ?0% tangent of clause 4.1.4 loss angle shall be satisfied leakage clause 4.1.5 current shall be satisfied change in relative to the value capacitance before test ?0% tangent of not more than 150% of loss angle initial value (clause 4.1.4) leakage not more than 200% of current initial value (clause 4.1.5) appearance no remarkable abnormality and markings shall be legible there will be no evidence of mechanical degradation in terminals and the unit. change in relative to the value capacitance before test +3% tangent of clause 4.1.4 loss angle shall be satisfied leakage clause 4.1.5 current shall be satisfied appearance no abnormality between the capacitor and terminals. no. items conditions specifications 4. characteristics 4.2 endurance characteristics (continued) 6 7 8 9 10 electrical endurance change in temperature resistance to damp heat terminal strength resistance to solvent alumina plate solder capacitor unit +8 -4 koa speer electronics, inc. table 4-examples of markings on the unit tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 11 of 20 5. markings 5.1 marking methods markings are printed on the surface of the capacitor unit. _ + a6 abbreviated capacitance a6: 1.0 f production month, year code belt marking for anode wv 2.5 4 7 10 16 20 25 35 50 cap 0e 0g 0j 1a 1c 1d 1e 1v 1h 0.10 104 a5 0.15 154 e5 0.22 224 j5 0.33 n5 n5 0.47 s5 vs5 hs5 v 0.47 50 v 0.68 w5 ew5 vw5 hw5 v 0.68 50 v 1.0 a6 da6 ea6 va6 1 50 1.5 e6 ce6 de6 ee6 ve6 v 1.5 1.5 35 50 v 2.2 j6 aj6 cj6 dj6 ej6 vj6 v 2.2 2.2 35 50 v 3.3 n6 jn6 an6 cn6 dn6 en6 vn6 v 3.3 3.3 35 50 v 4.7 gs6 js6 as6 cs6 ds6 es6 v 4.7 4.7 4.7 25 v 35 v 50 v 6.8 ew6 gw6 jw6 v w6 v aw6 cw6 dw6 v 6.8 6.8 6.8 20 v 25 v 35 v 10 ea7 ga7 v a7 v ja7 aa7 ca7 v 10 da7 v 10 10 10 16 v 20 v 25 v 35 v 15 ee7 ge7 je7 ae7 v 15 ce7 v 15 15 15 15 10 v 16 v 20 v 25 v 35 v 22 ej7 gj7 jj7 v 22 aj7 v 22 cj7 v 22 22 22 7 v 10 v 16 v 20 v 25 v 33 en7 gn7 v 33 jn7 v 33 an7 v 33 33 33 4 v 7 v 10 v 16 v 20 v 47 es7 gs7 v 47 js7 v 47 47 47 47 4 v 7 v 10 v 16 v 20 v 68 ew7 v 68 gw7 v 68 68 68 68 2.5 v 4 v 7 v 10 v 16 v 100 ea8 v 100 100 100 100 100 2.5 v 4 v 7 v 10 v 16 v 150 150 150 150 150 2.5 v 4 v 7 v 10 v 220 220 220 220 220 2.5 v 4 v 7 v 10 v 330 330 330 330 2.5 v 4 v 7 v 470 470 470 2.5 v 4 v a, b cases c, e cases 5.2 label descriptions in minimum package unit (1) manufacturer? name (2) production lot number (3) part number (4) rated voltage (5) nominal capacitance value (6) nominal capacitance tolerance (7) quantity table-5 tables of printed markings refer to pages 2 & 3 for case sizes. _ + 10 16 upper number indicates capacitance in f. lower number indicates rated voltage (16v). production month, year code belt marking for anode 123456789 10 11 12 1999 a b c d e f g h j k l m 2000 n p q r s t u v w x y z 2001 a b c d e f g h j k l m 2002 n p q r s t u v w x y z month year 1999 jan. fix as code ??and alphabetical order follows. (i, i, o, o are not being used) koa speer electronics, inc. lot number symbol tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 12 of 20 5.3 marking methods (p series only) markings are printed on the surface of the capacitor unit. production month, year code capacitance symbol (a6: 1 f) belt marking for anode capacitance symbol (a: 1 f) belt marking for anode rated voltage symbol (a: 10v) a6 d aa d production month, year code examples of marking in case that simple capacitance symbol is same as case size, rated voltage symbol is marking on higher voltage one. when marking the symbol of rated voltage and capacitance, a multipler of capacitance symbol is omitted. simple symbol is referenced to jis c 5143 clause 10, and eiaj rc-3813 clause 7.1. 10v1? 6.3v1? 5.4 3-2 label descriptions in minimum package unit (1) manufacturer�s name (2) production lot number (3) part number (4) rated voltage (5) nominal capacitance (6) nominal capacitance tolerance (7) quantity table 5.a1-table of rated values and marking v,dc 2.5 4 6.3 10 16 20 25 cap ? oe og oj 1a 1c 1d 1e code 0.047 es 473 0.068 ew 683 0.10 da 104 0.15 de 154 0.22 dj 224 0.33 dn 334 0.47 s5 ds 474 0.68 w5 cw dw 684 1.0 a6 aa ca 105 1.5 e6 je ae 155 2.2 j6 gj jj aj 225 3.3 en gn jn an 335 4.7 es gs js as 475 6.8 ew gw jw 685 10 ea ga ja 106 15 ee ge 156 22 ej gj 226 refer to page 2 for case sizes. koa speer electronics, inc. tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 13 of 20 6. quality 6.1 failure rate not more than 1.0% per 1,000 hours 6.2 series circuit resistance obtain series circuit resistance from figure 1 (percentage of failure rate vs. circuit resistance) and figure 2 (failure rate improvement factors). as failure rate is based on 1 ? /v of series circuit resistance, it is 0.38% for 1,000 hours in case of 3 ? /v, for example. 6.3 quality assurance requirements mil - std - 105d inspection level ii, normal inspection, single sampling. 1 vibration 6 0 2 solderability terminal strength, 6 0 humidity resistance 0 3 stability at low and high temperature surge voltage 6 0 4 high temperature load 6 0 5 resistance to soldering heat 6 0 items aql short, open 0.1% capacitance, dissipation factor, leakage current 0.4% appearance dimensions, constructions 0.65% table 6 6.4 endurance test 7. others 7.1 based on jis c 5143 (1991 edition) characteristic lb and eiaj rc 3813 characteristic b 7.2 method of testing: jis c 5102 (1994 edition) and eiaj rc 3813 table 7 sample permissible number of group items quantity defectives koa speer electronics, inc. tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 14 of 20 magnification of failure rate 1 0.1 0.01 0.001 0.0001 20 40 60 80 100 120 ambient temperature (c ) k=1.0 k=0.8 k=0.6 k=0.4 k=0.2 k = (circuit resistance 1 ? /v) working volt rated volt percentage of failure rate 1 10 100 0.1 1 10 0.1 circuit resistance ( ? /v) figure 1 - circuit resistance vs. percentage of failure rate figure 2 - failure rate improvement factors 7. others (continued) koa speer electronics, inc. tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 15 of 20 description symbol case size tol. pabce % pocket width a 1.5 1.9 3.1 3.7 4.8 0.1 pocket length b 2.2 3.5 3.9 6.3 7.7 0.1 pocket pitch f 4.0 4.0 4.0 8.0 8.0 0.1 feed hole pitch h 4.0 4.0 4.0 4.0 4.0 0.1 feed hole diameter j 1.5 1.5 1.5 1.5 1.5 +0.1-0.0 feed hole position e 1.75 1.75 1.75 1.75 1.75 0.1 feed hole to d 3.5 3.5 3.6 5.5 5.5 0.1 pocket center g 2.0 2.0 2.0 2.0 2.0 0.1 tape width c 8.0 8.0 8.0 12.0 12.0 0.3 tape thickness t 0.2 0.2 0.2 0.3 0.3 max overall thickness k 1.6 2.5 2.5 3 3.4 max carrier tape packaging specifications 8. product symbol 9. dimensions of the carrier tape and standard parts quantity per reel 9.1 dimensions d c e pocket h j f a direction of tape flow b perforation t k g 9.2 inserting direction (polarity orientation) polarity l: to be inserted with polarity r: to be inserted with the positive side to the feed hole. the negative side to the feed hole. direction of tape flow direction of tape flow 9.3 reel dimensions label r d e wt c ba tape width 8 12 a � 180 b � 60 c � 0.2 ? 13 d � 0.8 ? 21 e � 0.5 2.0 w � 0.3 9.0 13.0 t � 0.4 1.3 r � 0.4 10.5 0 -3 +1 0 (unit: mm) tmc og a 475 m l r h series rated case nominal capacitance carrier tape polarity leader code voltage size capacitance tolerance packaging orientation length koa speer electronics, inc. 9.4 tape leader and trailer 10. packaging specifications 10.1 peel - off strength of cover tape in the following method, f + 0.294 � 0.196n shall be maintained, when cover tape is peeled off. 10.2 component insertion on reel (1) it is required that the number of empty places in the tape per reel shall not exceed two per 1,000 pcs without consecutive empty places. (2) components in the tape are to be prevented from overturning, reverse turning and side turning in the pocket holes. 10.3 splicing (cover tape) the method of correcting improperly inserted component on reel. (a) cut three sides of a cover tape over the pocket hole where the component is improperly inserted and put the transparent adhesive tape on it. the adhesive tape shall not go over the sealing width of a cover tape. 11. marking on reel principally, markings on reel cover following items on label. (1) nominal capacitance value (5) production lot number lot number description (2) nominal capacitance tolerance (6) manufacturer? name (example) (3) rated voltage (7) product type symbol 0 1 0 1 2 3 (4) quantity production control number production month production year tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 16 of 20 components inserted tape leader more than 40 mm more than 200 mm tape trailer more than 40 mm � = 10 to 15 degrees f = 0.294 � 0.196n peel - off speed 0.005m/s splice cutting place for repair adhesive cover patch for repair the patch covers each three pockets before and after the center pocket for repair. adhesive cover patch for repair cover tape carrier tape � koa speer electronics, inc. tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 17 of 20 12. materials of tape and reel (1) reel (shape and dimensions as per 2.3) (2) embossed carrier (shape and dimensions as per 2.1) (3) cover tape 13. packaging capacitors must be packaged prior to shipment so as to prevent damage during transportation or storage. the period of storage at a normal room temperature and humidity is two years after production. 14. inner structure and constituent materials no. item material note 1 element tantalum 2 electrolyte manganese oxide (mn0 2 ) 3 cathode layer carbon, silver 4 conductive adhesive silver 5 anode lead wire tantalum 6 supporter teflon 7 mold resin epoxy 8 positive terminal nickel silver (0.1t) diagonal line: sn90, pb10 9 negative terminal nickel silver (0.1t) solder plating table - 1 4 6 5 7 8 1 2 3 9 diagonal line diagonal line koa speer electronics, inc. tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 18 of 20 15. handling cautions for use of tmc type tantalum solid electrolytic capacitors 15.1 ripple voltage a. keep the sum of peak dc voltage and ripple voltage within the rated voltage and never go over it b. when ripple voltage applied, use less value than shown below in case of high temperature use, calculate permissible ripple voltage by using the following formula: vrms (at 50?) = 0.7 x vrms (at 25?) vrms (at 85?) = 0.5 x vrms (at 25?) 15.2 reverse polarity voltage a. tmc type solid tantalium capacitors are polar and reverse polarity voltage must not be applied. but, for short time application, the peak reverse polarity voltage applied to the capacitor must not exceed: at 25? - 10% of rated voltage or 1v, whichever is smaller. at 85? - 5% of rated voltage or 0.5v, whichever is smaller. b. careless contact of the tester to the capacitor will cause reverse polarity voltage and excessive voltage. 15.3 voltage derating have voltage derating ratio as large as possible. especially, in case of low impedance circuit use, not more than 1/3 of rated voltage is recommended. for moment heavy current run like switching or pulse voltage. the value of resistor is recommended to be more than 3 ohms per volt. (limit to less than 300ma for rush current). 15.4 applications a. limit of stress stress given to the capacitor by sucking tools and centering tweezers must not exceed 4.9n (stress time not more than 5 sec.) with the 1.5� point. especially, the setting position of sucking tools is too low will cause not only overloading to the capacitor, but also wire - snapping on pc boards and scattering of capacitors and other parts, when consolidated mounting with other chip components of less than 1mm in height. frequency (khz) maximum permissible ripple voltage (vrms) koa speer electronics, inc. tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com page 19 of 20 15.4 applications (continued) b. recommended soldering pattern dimensions the recommended chip soldering pattern dimensions are as shown in table 2 and fig. 1. note, however, that they are affected by such factors as reflow conditions, solder type, and circuit board size. if the pattern area is significantly larger than the capacitor terminal area, the capacitor in place may be displaced when the solder melts. l y w x z x capacitor fig. 1 - recommended soldering pattern dimensions dimensions capacitor size pattern dimensions case size l wxyz p 2.0 1.25 1.2 1.1 0.8 a 3.2 1.6 1.6 1.2 1.2 b 3.5 2.8 1.6 2.2 1.4 c 5.8 3.2 2.3 2.4 2.4 e 7.3 4.3 2.3 2.6 3.8 table 2 - recommended soldering pattern c. flux use login - family flux and avoid the use of strong acid and high activational materials. d. solderability carry out soldering under following conditions. we recommend soldering at a lower temperature and at a shorter time. 1) soldering iron temperature at the point of soldering iron: not higher than +350? soldering time: less than 3 seconds output: less than 30w 2) reflow (atomospheric and hot - plate) capacitor body temperature: not higher than +260? time: not more than 10 seconds a permissible range for peak temperature and time as per fig. 2. a) there is no problem in such a hot - plate heating method which will heat the bottom side, but in case of the top side heating by infra-red, the temperature of capacitor body becomes higher than the surface of pc boards. caution must be taken. 200 220 240 260 temperature ( c) time (sec.) 50 40 30 20 10 0 fig. 2 koa speer electronics, inc. tn-190 r5 bolivar drive p.o. box 547 bradford, pa 16701 usa 814-362-5536 fax 814-362-8883 www.koaspeer.com notice: the information contained in this tech note is believed to be accurate and up-to-date. koa speer electronics reserves t his right to change these specifications without notice. page 20 of 20 d. solderability (continued) b) in case of near infra-red heating with big power output, sudden temperature increase will occur and preheating at 130? - 160? for more than one minute is recommended. please be sure that the temperature between maximum reflow temperature and the one used will remain less than 100? c) if solder land is bigger than the capacitor terminal, slipping off of the capacitor in its position will happen. please take care that this does not happen. 3) solder immersion solder bath temperature: not higher than 260? time: a, b, p cases: not more than 10 seconds c, e cases: not more than 5 seconds a permissible range for peak temperature and time as per fig. 3 a) consideration must be taken to remove ?as?because solderability is sometimes bad for high density of components. b) pre-heat as much as possible and avoid sudden heating to the capacitor. recommended pre-heat temp. is 130~160? for more than one minute and the temperature between peak temp. and pre-heat is less than 100?. e. cleaning allow board surface temperature to drop to normal temperature fully, after which cleaning shall be made. usable solvent are as follows: ?halogen system organic solvent (hcfc225, methylene chloride and the like.) ?alcohol type solvent (ipa, ethylalcohol and the like.) ?petroleum type solvent, alkaline saponification agent, water and the like. cleaning must me made under the following conditions. temperature: not higher than +50? immersion time: not more than 30 minutes in case of ultrasonic cleaning, it must be made with a frequency of less than 45khz, an output of less than 0.02w/cm 3 within 5 minutes at less than +40?. 1) ultrasonic cleaning should be avoided as much as possible, but when above cleaning is carried out, please see to it that mounted capacitors do not bump against other parts and no hard brush will be used to rub circuit boards. 2) ultrasonic cleanings mentioned above are based on thyrister - inveter method. so, for cleanings with other methods, please carry out much of pre-tests. f. conductive adhesive the use of conductive adhesive for capacitor mounting should be avoided. please consult koa speer for use if necessary. 200 220 240 260 temperature ( c) time (sec.) 20 10 0 a, b, p cases c, e cases fig. 3 koa speer electronics, inc. 130 koa speer electronics, inc. ?bolivar drive ?p.o. box 547 ?bradford, pa 16701 ?usa ?814-362-5536 ?fax: 814-362-8883 ?www.koaspeer.com specifications given herein may be changed at any time without prior notice. please confirm technical specifications before you order and/or use. tmc standard tantalum chip capacitor features � epoxy molded body, ul94v-0 flammability � eia - us and eia - japan compatible sizes � 100% burn-in and end-of-line testing � extended values per case size � excellent humidity and solder resistance � marking: black body color with white marking te: 7" embossed plastic ordering information tmc p: 2012 a: 3216 b: 3528 c: 6032 e: eia-d 0e: 2.5v 0g: 4v 0j: 7v 1a: 10v 1c: 16v 1d: 20v 1e: 25v 1v: 35v 1h: 50v l: snpb t: sn k: ?0% m:?0% reference capacitance ranges and case sizes chart tmc c c r l case size type voltage code nominal capacitance packaging tolerance polarity orientation polarity orientation leader length cover/carrier termination material packaging tolerance old part # new part # 475 1e m te l 475 r h m 1e nominal capacitance case size type voltage code for further information on packaging, please refer to appendix a. dimensions and construction .126?008 (3.20.2) .110?008 (2.80.2) .063?008 (1.60.2) .063?008 (1.60.2) .028?012 (0.70.3) .073?008 (1.90.2) .047?008 ( 1.20.2) .138?008 (3.50.2) .031?012 (0.80.3) .087?008 (2.20.2) w2 g d t w1 l dimensions inches (mm) .079?008 (2.00.2) .049?008 (1.250.2) .047 max. (1.2 max.) .031 min. (0.8 min.) .055?008 (1.40.2) .055?008 (1.40.2) .126?008 (3.20.2) .098?008 (2.50.2) .236?012 (6.00.3) .051?012 (1.30.3) .087?008 (2.20.2) .094?008 (2.40.2) .169?012 (4.30.3) .110?008 (2.80.2) .287?012 (7.30.3) .051?012 (1.30.3) .094?004 (2.40.1) .15?008 (3.80.2) .035?004 (0 .90.1) .020?012 (0 .50.3) case size p (2012) a (3216) b (3528) c (6032) e (eia-d) (inch size code) w2 side d l w1 end d g bottom t tantalum chip capacitors 1218 reader's spreads 6/20/02 10:07 am page 129 131 koa speer electronics, inc. ?bolivar drive ?p.o. box 547 ?bradford, pa 16701 ?usa ?814-362-5536 ?fax: 814-362-8883 ?www.koaspeer.com specifications given herein may be changed at any time without prior notice. please confirm technical specifications before you order and/or use. tmc standard tantalum chip capacitor capacitance ranges and case sizes part marking standard values voltage code rated voltage (vdc) 85? surge voltage (vdc) derated voltage (vdc) 125? capacitance (?) capcode 0g 0j 1a 1c 1d 1e 1v 1h 4 7 10 16 20 25 35 50 5 9 13 20 26 32 46 63 2.5 4 6.3 10 13 16 23 32 aa ab ab ab b a b c e a a a b a b a b c b c a,b e c e c e c e e c bc bc ce c c e e e 0.1 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10 15 22 33 47 68 104 154 224 334 474 684 105 155 225 335 475 685 106 156 226 336 476 686 standard values voltage code rated voltage (vdc) 85? surge voltage (vdc) derated voltage (vdc) 125? 0e 2.5 3.2 1.6 0g 4 5 2.5 0j 7 9 4 1a 10 13 6.3 1c 16 20 10 1d 20 26 13 1e 25 32 16 1v 35 46 23 standard range extended range 1h 50 63 32 capacitance (?) capcode .047 473 .068 683 .1 104 .15 154 .22 224 .33 334 .47 474 .68 684 1.0 105 1.5 155 p 2.2 225 p 3.3 335 p 4.7 475 a,p 6.8 685 a,p 10 106 a,p 15 156 a,b,p 22 226 a,b 33 336 b 47 476 b,c 68 686 b,c 100 107 c,e 150 157 c,e 220 227 e 330 337 e 470 477 e e c,e c,e b,c,e b,c,e a,b,c a,b,c a,b,p a,b,p a,b,p a,p a,p a,p p p p p paa p a a,b p a a,b pab ppaa,bb,c p p a,p a a,b b,c p p a,p a a a,b c p a,p a a a,b b,c c,e a,p a,p a a,b b b,c c,e a,p a,p a,b a,b b b,c e a,p a,b,p a,b a,b,c b,c c,e e a,b,p a,b,c a,b b,c c c,e a,b,p a,b,c a,b,c b,c c,e e a,b b,c a,b,c c,e c,e e a,b,c b,c b,c,e c,e e a,b,c b,c,e c,e e b,c,e b,c,e c,e e b,c,e c,e e b,c,e c,e e c,e c,e ee e value (f) .1 .15 .22 .33 .47 .68 1.0 1.5 2.2 3.3 4.7 6.8 10.0 marking a5 e5 j5 n5 s5 w5 a6 e6 j6 n6 s6 w6 a7 a & b case c & e case voltage code g = 4 vdc value code (same as tmc) (s6 = 4.7 ?) anode (positive) same marking as standard tmc c & e case belt marking anode a 6 10 25 g s 6 47 10 production month/year code production month/year code production month/year code rated voltage (vdc) capacitance symbol (a6:1?) lot number symbol is expressed ?� as january 1999 as a starting month and year in an alphabetical order and in a small letter to a capital (letters of i, i, o, and o are excluded) nominal capacitance (10?) belt marking (positive) standard range extended range lot number symbol year month 123456789101112 1999 abcdefghjklm 2000 npqrs tuvwxyz 2001 abcdefghjklm 2002 npqrstuvwxyz voltage 2.5 4 7 10 16 20 25 35 50 marking eg j acde vh a, b & p case tantalum chip capacitors pms 300 neg. black neg. 1218 reader's spreads 6/20/02 10:07 am page 130 |
Price & Availability of TMC1DP104KLLH
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