dimensions type 267 n series is specially designed to smd, based on our technology of chip tantalum capacitors acquired over many years. fully - molded construction provides excellent mechanical protection, superior moisture resistance and high soldering heat resis tance. this series is high - reliability capacitors developed for devices, such as automotive electric components, to be used under severe environmental conditions. 1. suitable for automotive electronics, such as engine control units, abs, air bags, and etc. 2. aec - q200 compliant 3. lead - free and rohs compliant features rating stsndard rating august, 201 0 type 267 n series (aec - q200 compliant) [ b case ] [ a case ] w t w t [ c case ] t w p 1 p 2 l c p 1 t [ d case ] w (mm) case code eia code l0.2 w0.2 t0.2 p 1 0.2 p 2 min. c0.1 a 3216 3.2 1.6 1.6 0.75 1.4 1.2 b 3528 3.5 2.8 1.9 0.8 1.5 2.2 c 6032 6.0 3.2 2.5 1.3 3.0 2.2 d 7343 7.3 4.4 2.8 1.3 4.0 2.4 r.v.(vdc) 0.1 a 0.15 a 0.22 a 0.33 a 0.47 a a,b 0.68 a a a,b 1 a a a a,b 1.5 a a a,b a,b 2.2 a a,b a,b b,c 3.3 a a,b a,b b b,c 4.7 a a a,b a,b b,c c 6.8 a a a,b a,b b,c c c,d 10 a a,b a,b a,b b,c c,d 15 a a,b a,b b,c c c 22 b a,b a,b,c b,c c,d d 33 b a,b b,c c,d d 47 c c d c,d 68 c d 100 cap.( m item rating remarks category temperature range (operating temperature range) 1
ordering information note ( 1 ) product date sign is shown in accordance with appendix 1 table 13 of jis c 5101 - 1 ( 2 ) rated voltage of a case size is show n bellow in accordance with appendix 1 table 9 of jis c 5101 - 1 rated voltage 4 6.3 10 16 20 25 35 code g j a c d e v ( 3 ) rated capacitance of a case size is shown bellow, with 1 alphabet character and 1 number, in accordance with appendix 1 table 10 a nd appendix 1 table 11 of jis c 5101 - 1 capacitance ( f) 0.1 0.15 0.22 0.33 0.47 0.68 code a5 e5 j5 n5 s5 w5 capacitance ( f) 1.0 1.5 2.2 3.3 4.7 6.8 code a6 e6 j6 n6 s6 w6 capacitance ( f) 10 15 22 33 47 68 code a7 e7 j7 n7 s7 w7 marking 267 n 1002 226 m r c type series rated voltage capacitance capacitance tolerance style of reeled package case code [a case] date code ( 1 ) ) rated capacitance tolerance (+/ - 10% notation) jw6 a d.c. rated voltage ( 2 ) rated capacitance (f) ( 3 ) anode notation [c,d case] 106k 16 a rated capacitance tolerance (k:+/ - 10%) [b case] 474 35 a rated capacitance tolerance (+/ - 10% notation ) rated capacitance in pf date code ( 1 ) ) d.c. rated voltage anode notation date code ( 1 ) ) rated capacitance tolerance (+/ - 10% notation) [a case] jw6 a d.c. rated voltage ( 2 ) rated capacitance (f) ( 3 ) anode notation [c,d case] 106k 16 a rated capacitance tolerance (k:+/ - 10%) [b case] 474 35 a rated capacitance tolerance (+/ - 10% notation) rated capacitance in pf date code ( 1 ) ) d.c. rated voltage anode notation marking rated voltage marking capacitance capacitance tolerance marking code reel size anode notation case code eia code 4001 4dvc 104 0.1 m 180 reel m 180 reel m 330 reel m 330 reel m m m m m m m m m m m m m m 2
catalog numbers and rating of standard products in order to expect the self alignment effect, it is recommended that the land width is almost the same size as terminal of capacitor, and space between lands(c) nearly equal to the space between terminals for ap propriate soldering. recommended solder pa d layout august ,201 0 a b c rated voltage capacitance case code (vdc) ( m m (mm) case eia size code flow reflow a 3216 3.0 2.0 1.5 1.5 b 3528 3.2 2.0 2.4 1.8 c 6032 4.2 2.4 2.5 3.3 d 7343 5.2 2.4 2.7 4.6 b c a 3
4 rated voltage capacitance case code (vdc) ( m :no code for single item. r(n or l(p m
performance no . item (1) performance test method 1 leakage current (a) shall not exceed 0.01 cv or 0.5 a whichever is greater. iec 60384 - 1 , 4.9 applied voltage : rated voltage duration : 5 min measuring temperature : room tempera ture 2 capacitance (f) shall be within tolerance of the nominal value specified. iec 60384 - 1 , 4.7 measuring frequency : 120 hz 20% measuring voltage : 0.5 vrms +1.5 ~ 2 vdc measuring temperature : room temperature 3 dissipation factor shall not exceed the values shown in catalog numbers and rating of standard products . iec 60384 - 1 , 4.8 measuring frequency : 120 hz 20% measuring voltage : 0.5 vrms +1.5 ~ 2 vdc measuring temperature : room temperature 4 equivalent series resistance shall not exceed t he values shown in catalog numbers and rating of standard products . measuring frequency : 1 0 0 k hz measuring temperature : 20c 5 characteristics at high and lowtemperature iec 60384 - 1 , 4.29 step 1 leakage current capacitance dissipation factor shall not exceed the value in no.1. shall be within tolerance of the nominal value specified. shall not exceed the values shown in catalog numbers and rating of standard products . measuring temperature : 20 2c step 2 leakage current capacitance change d issipation factor shall not exceed the values shown in catalog numbers and rating of standard products . shall be within % of the value at step 1 shall not exceed the values shown in catalog numbers and rating of standard products . measuring temperatu re : - 55 3c step 3 leakage current capacitance change dissipation factor shall not exceed the value in no.1. shall be within 2% of the value at step 1. shall not exceed the values shown in catalog numbers and rating of standard products. measuring temperature : 20 2c step 4 leakage current capacitance change dissipation facto r shall not exceed 0.1 cv or 5 a whichever is greater. shall be within % of the value at step 1 shall not exceed the values shown in catalog numbers and rating of stan dard products . measuring temperature : 85 2c step 5 leakage current capacitance change dissipation factor shall not exceed 0. 125 cv or 6.3 a whichever is greater. shall be within % of the value at step 1 shall not exceed the values shown in cata log numbers and rating of standard products. measuring temperature : 125 2c measuring voltage : derated voltage at 125c step 6 leakage current capacitance change dissipation factor shall not exceed the value in no.1. shall be within 2% of the valu e at step 1. shall not exceed the values shown in catalog numbers and rating of standard products. measuring temperature : 20 2c 6 hightempera ture exposure leakage current capacitance change dissipation factor appearance shall not exceed 10 times value in no. 1 within 15 % of initial value. shall not exceed the values shown in catalog numbers and rating of standard products. there shall be no evidence of mechanical damage. mil - std - 202 method 108 temperature : 125 2c duration : 1000 hrs 7 temperatu re cycle leakage current capacitance change dissipation factor appearance shall not exceed 5 times value in no. 1 within 15 % of initial value. shall not exceed the values shown in catalog numbers and rating of standard products. there shall be no evidence of mechanical damage. jesd22 method ja - 104 step 1 : - 55 3c, 30 3 min . step 2 : 25 c, 3 min .max. step 3 : 125 2c, 30 3 min . step 4 : 25 c, 3 min .max. number of cycles : 1000 8 moisture resistance leakage current capacitance change dissipa tion factor appearance shall not exceed 10 times value in no. 1 within 10 % of initial value. shall not exceed the values shown in catalog numbers and rating of standard products. there shall be no evidence of mechanical damage. mil - std - 202 method 10 6 9 b iased humidity leakage current capacitance change dissipation factor appearance shall not exceed 10 times value in no. 1 within 10 % of initial value. shall not exceed the values shown in catalog numbers and rating of standard products. there shall be no ev idence of mechanical damage. mil - std - 202 method 10 3 temperature : 85 2c moisture : 85 5 %rh applied voltage : dc r ated voltage duration : 1000 hrs 10 operational life leakage current capacitance change dissipation factor appearance shall not exceed 1 .25 times value in no. 1 within 15 % of initial value. shall not exceed the values shown in catalog numbers and rating of standard products. there shall be no evidence of mechanical damage. mil - std - 202 method 10 8 test temperature : 125 3c a pplied voltag e : dc rated voltage 2/3 duration : 2000 hrs series resistance : do not exceed 3 ? 11 resistance to solvents leakage current capacitance change dissipation factor shall not exceed the value in no.1. shall n within 10 % of initial value. shall not excee d the values shown in catalog numbers and rating of standard products. mil - std - 202 method 215 12 mechanical shock (specified pulse) there shall be no intermittent contact of 0.5 ms or greater duration or arcing or other indication of breakdown, nor shal l there be any open or short - circuiting or evidence of mechanical damage. mil - std - 202 method 213 test condition : f peak value : 1500g duration : 0.5 ms wave form : half - sine +48 0 +10 - 5 + 10 - 5 +48 0 +15 0 +10 0 0 - 12 +72 0 5
no . item (1) performance test method 13 vibration capacitance appearance initi al value to remain steady during measurement. there shall be no evidence of mechanical damage. mil - std - 202 method 204 vibration amplitude : 5g (peak) frequency range : 10 ~ 2000 hz duration : 20min in each of three mutually perpendicular directions , 12 cy cles. 14 resistance to soldering heat leakage current capacitance change dissipation factor appearance shall not exceed the value in no.1. shall n within 10 % of initial value. shall not exceed the values shown in catalog numbers and rating of standard pr oducts. there shall be no cracks and other damage. mil - std - 202 method 210 solder temperature : 2 60 5c duration : 10 1 sec 15 thermal shock leakage current capacitance change dissipation factor appearance shall not exceed 5 times value in no. 1 within 15 % of initial value. shall not exceed the values shown in catalog number s and rating of standard products. there shall be no evidence of mechanical damage. mil - std - 202 method 107 step 1 : - 55 3c, 15 min . step 2 : 1 25 2 c, 15 min . maximum transfer ti me : 20s number of cycles : 300 16 esd there shall be no evidence of mechanical damage. aec - q200 - 002 component classification 1b 17 solderability solder bath/dip a nd look test the dipped portion of the lead shall be covered more than 95% with new solde r. j - std - 002 solder temperature : 235 5c dipping time : 5 0.5 sec capacitor t erminal shall be dipped into melted solder. resistance to dissolution metallization test leaching/dewetting shall be no more than 5% of the solderable metallization exhibi ting exposed underlying . j - std - 002 solder temperature : 2 60 5c dipping time : 30 0.5 sec capacitor t erminal shall be dipped into melted solder. 18 board flex (substrate bending t est ) capacitance appearance capacitance shall be stable during bending p osition of the substrate. there shall be no evidence of mechanical damage. aec - q200 - 005 bend the board : 3 mm duration : 5s 19 terminal strength (shear test) no exfoliation between lead terminal and board. aec - q200 - 006 applied pressure : 17.7n duration : 60s 6
frequency characteristics temperature char acteristics frequency(hz) impedance ) 0.001 0.01 0 . 1 1 10 100 1k 10 k 100 1k 10k 100k 1m 10m impedance esr 267n 16vdc - 10 m ) 0 . 001 0.01 0.1 1 10 100 1k 10k 100 1 k 10k 100 k 1m 10m impedance esr 267 n 10 vdc - 4 . 7 m - 8 - 6 - 4 - 2 0 2 4 6 8 10 12 - 60 - 40 - 20 0 20 40 60 80 100 120 capacitance change 0.00 0.02 0.04 0.06 0.08 0.10 - 60 - 40 - 20 0 20 40 60 80 100 120 dissipation factor temperature( 0.010 0.100 1.000 10.000 0 20 40 60 80 100 120 leakage current m ? m 7
biased humidity 85 , 85%rh 85 operational life 125 , rated voltage 2/3 - 5 - 4 - 3 - 2 - 1 0 1 2 mean max. min. 267n 16vdc - 10 m 0 0.01 0.02 0.03 0.04 0.05 0.001 0.01 0.1 1 10 1 10 100 1000 10000 capacitance ma - 15 - 12 - 9 - 6 - 3 0 3 6 mean max. min. 0 0.01 0.02 0.03 0 . 04 0.05 0.001 0.01 0.1 1 10 1 10 100 1000 10000 capacitance ma m 8
application notes for tantalum solid electrolytic capacitor 1. operating voltage tantalum solid electrolytic capacitor shall be operated at the rated voltage or lower. rated voltage: the rated voltage refers to the maximum dc voltage that is allowed to be continuously applied between the capacitor terminals at the rated temperature. surge voltage: the surge voltage refers to the voltage that is allowed to be instantaneously applied to the capacitor at th e rated temperature or the maximum working temper ature. the capacitor shall withstand the voltage when a 30 - second cycle of application of the voltage through a 1000 series resistance is repeated 1000 times in 6 - minute periods. when designing the circuit, the equipments required reliability must be co nsidered and appropriate voltage derating must be performed. 2. application that contain ac voltage special attention to the following 3 items. (1) the sum of the dc bias voltage and the positive peak value of the ac voltage should not exceed the rated vo ltage. (2) reverse voltage should not exceed the allowable values of the negative peak ac voltage. (3) ripple voltage should not exceed the allowable values. 3. permissible reverse voltage if reverse voltage exceeding the value shown in the following tabl e is applied to the capacitor, there is a fear of a fluctuation of leakage current and an increase in failure rate. to avoid the permissible reverse voltage, use the capacitor under bias voltage as re quired. the above specifications apply for acciden tal reverse voltage. if reverse voltage is constantly applied to the capacitor, use it with non - polar connection. 4. permissible ripple voltage permissible ripple voltage is determined by the loss of element and heat radiation of case and lead wire. this is influenced by capacitance, frequency of ripple, esr and operating temperature. the permissible ripple voltage values are shown in our technical document. 5. application on low - impedance circuit the failure rate of low impedance circuit at 0.1/v is abo ut five times greater than that of a 1/v circuit. to curtail this higher failure rate, tantalum capacitors used in low impedance circuits, such as filters for power supplies, particularly switching power supplies , or for noise by - passing, require that ope rating voltage be derated to less than half of the rated voltage. actually, less than 1/3 of the rated voltage is recommended. 6. non polar application tantalum capacitors can be used as a non - polar unit if two capacitors are connected back - to - back when reserve voltage is applied at a more than permissible value, or in a purely ac circuit. the two capacitors should both be of the same rated voltage and capacitance tolerance, and they should both be twice the required capacitance value. ripple voltage: p ermissible ripple voltage shall not exceed the value allowed for either c1 or c2 (this will be the same, as the capacitors should be identical.) capacitance: c1c2 / c1 + c2 leakage current: if terminal a is (+), the leakage current will be equal to c1s leakage current. if terminal b is (+), the leakage current will be equal to c2s leakage current. 7. soldering 7.1. preheating to obtain optimal reliability and solderability conditions, capacitors should be pre - heated at 130 to 200 c for approximately 6 0 to 120 seconds. 7.2. soldering the body of the capacitor shall not exceed 260 c during soldering. (1) reflow soldering reflow soldering is a process in which the capacitors are mounted on a printed board with solder paste. there are two methods of refl ow soldering: direct and atmospheric heat. direct heat (hot plate) during the direct heat method, the capacitor has been positioned on a printed board, which is then placed upon a hot plate. the capacitor maintains a lower temperature than the substrate , which in turn stays at a lower temperature than the hot plate. atmospheric heat a) vps (vapor phase soldering) during vps,the substrate is heated by an inert liquid with a high boiling point. the temperature of the capacitors body and the temperature of the substrate are about the same as the atmosphere. this temperature should be below 240 c. b) near and far ir ray due to the heat absorption of the capacitors body, the internal temperature of the capacitors may be 20 ~ 30 c higher than the setting te mperature and may exceed 260 c . temperature control is crucial in maintaining a temperature of 260 c or lower. c) convention oven an infrared ray is the main source of heat in this process. the temperature of the substrate and the capacitors can be mainta ined at a similar level by the circulation of heated air, or an inert gas. temperature of boards surface reflow cooling pre - heat time t 2 t 1 t 3 a 1 a 2 + - - + a c1 c2 b temperature time t1=130 9
( 2 ) soldering with a soldering iron soldering with a soldering iron cannot be recommended due to the lack of consistency in maintaining temperatures and process times. if this method should be necessary, the iron should never touch the capacitors terminals, and the temperature of the soldering iron should never exceed 290 c . the application of the iron should not exceed 3 seconds. ( 3 ) please consult us for other methods. 8. solvent cleaning cleaning by organic solvent may damage capacitors appearance and performance. however, our capacitors are not effected even when soaked at 20 ~ 30 c 2 - propanol for 5 minutes. when introducing new cleaning methods or changing the clean ing term, please consult us. 9. protective resin coating after components are assembled to substrate, a protective resin coating is sometimes applied. as this resin coating cures, it gives mechanical and thermal stress to tantalum capacitors. this stress can cause damage to the capacitors, which affects their reliability. before using a resin coating, proper research must be done in regards to the material and process to insure that excessive st ress will not be applied to capacitors and other components. 10. vibration approximately 300 g shall be applied to a capacitor, when dropped from 1 meter to a concrete floor. although capacitors are made to withstand this drop test, stress from shock due to falling or striking does cause damage to the capacitors and increases failure rates. do not subject capacitors to this type of mechanical stress. 11. ultrasonic cleaning matsuo does not recommend ultrasonic cleaning. this may cause damage to the capacitors, and may even cause broken terminals. if the ultrasonic c leaning process will be used, please note the following: (1)the solvent should not be boiled. (lower the ultrasonic wave output or use solvent with the high boiling point.) (2)the recommended wattage is less than 0.5 watts per cm 2 . (3)the cleaning time sho uld be kept to a minimum. also, samples must be swang in the solvlent. please consult us. 12. additional notes when more than one capacitor is connected in series, a resistor that can distribute the voltage equally to the capacitors shall be connected i n parallel. the capacitor cases shall not be cut even if the mounting space is insufficient. during a customers aging process, voltage should remain under the rated voltage at all times. capacitors should never be touched or manipulated while operati ng. capacitors are not meant to be dismantled. when testing capacitors, please examine the power source before conducting test to insure the testers polarity and applied voltage. in the event of a capacitor burning, smoking, or emitting an offensive smell during operation, please turn the circuit off and keep hands and face away from the burning capacitor. if a capacitor be electrical shorted, it becomes hot, and the capacitor element may ignite. in this case, the printed board may be burnt out . capacitors should be stored at room temperature under low humidity. capacitors should never be stored under direct sunlight, and should be stored in an environment containing dust. if the capacitors will be operated in a humid environment, they shoul d be sealed with a compound under proper conditions. capacitors should not be stored or operated in environments containing acids, alkalis or active gasses. when capacitors are disposed of as scrap or waste, they should be treated as industria waste since they contain various metals and polymers. capacitors submitted as samples should not be used for production purposes. these application notes are prepared based on guideline of notabilia for fixed tantalum electrolytic capacitors with solid electr olyte for use in electronic equipment (eiaj rcr - 2386) issued by japan electronics and information technology industries association (jeita). for the details of the instructions (explanation, reasons and concrete examples), please refer to this guideline, or consult our sales department. pleas e f eel f ree t o as k o ur sales d ep art ment f o r mo re inf ormation o n tant alum so lid elec t roly tic cap ac it o r . overseas sales dep. 5 - 3 , 3 - chome,sennari - cho,toyonaka - shi,osaka 561 - 8558 ,japan tel : 06 - 6332 - 0883 fax : 06 - 6332 - 0920 head office 5 - 3 , 3 - chome,sennari - cho,toyonaka - shi,osaka 561 - 8558 ,japan tel : 06 - 6332 - 0871 fax : 06 - 6331 - 1386 url http://www.ncc - matsuo.co.jp/ specifications on this catalog are subject to change without prior notice. please inquire of our sales department to confirm specifications prior to use. r matsuo matsuo electric co., ltd. 10
|
