SMDTC04100TA00KQ00

ci D 

## ~~WIMA SMD-PET~~ 

## Metallized Polyester (PET) 

SMD Film Capacitors with Box Encapsulation 

## Special Features 

## Electrical Data 

## Test voltage: 1.6 Ur, 2 sec. Voltage derating: 

- ˜ Size codes 1812, 2220, 2824, 4030, 5040 and 6054 with PET and encapsulated 

Capacitance range: 

0.01 mF to 6.8 mF Rated voltages: 63 VDC, 100 VDC, 250 VDC, 400 VDC, 630 VDC, 1000 VDC Capacitance tolerances: 

A voltage derating factor of 1.25 % per K must be applied from +85) C for DC voltages and from +75) C for AC voltages 

˜ Operating temperature up to 100° C 

- ˜ Self-healing 

- ˜ According to RoHS 2011/65/EC 

±20%, ±10% (±5% available subject to special enquiry) 

Reliability: Operational life  300 000 hours Failure rate  2 fit (0.5 x Ur and 40+ C) 

## ~~Typical Applications~~ 

## Operating temperature range: 

–55+ C to +100+ C (+125° C available subject to special enquiry) Climatic test category: 

For general DC-applications e.g. 

˜ By-pass 

- ˜ Blocking 

˜ Coupling and decoupling 55/100/21 according to IEC ˜ Timing for size codes 1812 to 2824 55/100/56 according to IEC for size codes 4030 to 6054 ~~Construction~~ Insulation resistance at +20+ C: Dielectric: Ur Utest C  0.33 mF 0.33 mF < C  6.8 mF Polyethylene-terephthalate (PET) film 63 VDC  50 V  3.75 x 10[3] M¸  1250 sec (M¸ x mF) Capacitor electrodes: 100 VDC 100 V (mean value: 1 x 10[4] M¸) (mean value: 3000 sec) Vacuum-deposited Internal construction:  250 VDC 100 V  1 x 10[4] M¸  3000 sec (M¸ x mF) (mean value: 5 x 10[4] M¸) (mean value: 10 000 sec) Measuring time: 1 min. Dissipation factors at +20) C: tan d Plastic film at f C  0.1 mF 0.1 mF < C  1.0 mF C > 1.0 mF Vacuum-deposited electrode 1 kHz   8 x 10[-3]   8 x 10[-3]  10 x 10[-3] Metal contact layer (schoopage) 10 kHz  15 x 10[-3]  15 x 10[-3] – 100 kHz  30 x 10[-3] – – Terminating plate Maximum pulse rise time: for pulses equal to the rated voltage ~~eB SSS———~~ Pulse rise time V/msec Capacitance Encapsulation: max. operation/test mF Solvent-resistant, flame-retardant plastic 63 VDC 100 VDC 250 VDC 400 VDC 630 VDC 1000 VDC case, UL 94 V-0 0.01  ... 0.022 30/300 35/350 40/400 35/350 40/400 50/500 Terminations: 0.033 ... 0.068 20/200 20/200 40/400 21/210 25/250 32/320 Tinned plates. 0.1   ... 0.22 10/100 10/100 12/120 14/140 17/170 – Marking: 0.33  ... 0.68 8/80 6/60 9/90 10/100 – – Box colour: Black. 1.0   ... 2.2 3.5/35 4/40 7/70 – – – 3.3   ... 6.8 3/30 3/30 – – – – ~~Bannan Dip Solder Test/Processing Packing~~ Resistance to soldering heat: Available taped and reeled in 12 mm 

Available taped and reeled in 12 mm blister pack. 

Test Tb in accordance with DIN IEC 60068-2-58/DIN EN 60384-19. 

Soldering bath temperature max. 260+ C. Detailed taping information and graphs Soldering duration max. 5 sec. at the end of the catalogue. Change in capacitance DC/C  5 %. Soldering process: 

Wave soldering and re-flow soldering For further details and graphs please (see temperature/time graphs page 12). refer to Technical Information. 

16 

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## ~~WIMA SMD-PET~~ 

## Continuation 

|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|
|---|---|---|---|---|---|---|---|---|---|
|Continuation<br>~~-~~||||||||||
|General Data||||||||||
|||||||||||
|Capacitance|63 VDC/40 VAC*<br>Size<br>H<br>Part number<br>code ± 0.3|||100 VDC/63 VAC*<br>Size<br>H<br>Part number<br>code ± 0.3|||Size<br>code|250 VDC/160 VAC*<br>H<br>Part number<br>± 0.3||
|0.01mF|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC02100KA00_ _ _ _<br>SMDTC02100QA00_ _ _ _<br>SMDTC02100TA00_ _ _ _|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTD02100KA00_ _ _ _<br>SMDTD02100QA00_ _ _ _<br>SMDTD02100TA00_ _ _ _|1812<br>2220<br>2824|4.0<br>3.5<br>3.0|SMDTF02100KB00_ _ _ _<br>SMDTF02100QA00_ _ _ _<br>SMDTF02100TA00_ _ _ _|
|0.015 „|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC02150KA00_ _ _ _<br>SMDTC02150QA00_ _ _ _<br>SMDTC02150TA00_ _ _ _|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTD02150KA00_ _ _ _<br>SMDTD02150QA00_ _ _ _<br>SMDTD02150TA00_ _ _ _|1812<br>2220<br>2824|4.0<br>3.5<br>3.0|SMDTF02150KB00_ _ _ _<br>SMDTF02150QA00_ _ _ _<br>SMDTF02150TA00_ _ _ _|
|0.022 „|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC02220KA00_ _ _ _<br>SMDTC02220QA00_ _ _ _<br>SMDTC02220TA00_ _ _ _|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTD02220KA00_ _ _ _<br>SMDTD02220QA00_ _ _ _<br>SMDTD02220TA00_ _ _ _|1812<br>2220<br>2824|4.0<br>3.5<br>3.0|SMDTF02220KB00_ _ _ _<br>SMDTF02220QA00_ _ _ _<br>SMDTF02220TA00_ _ _ _|
|0.033 „|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC02330KA00_ _ _ _<br>SMDTC02330QA00_ _ _ _<br>SMDTC02330TA00_ _ _ _|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTD02330KA00_ _ _ _<br>SMDTD02330QA00_ _ _ _<br>SMDTD02330TA00_ _ _ _|2220<br>2824<br>4030|3.5<br>3.0<br>5.0|SMDTF02330QA00_ _ _ _<br>SMDTF02330TA00_ _ _ _<br>SMDTF02330VA00_ _ _ _|
|0.047 „|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC02470KA00_ _ _ _<br>SMDTC02470QA00_ _ _ _<br>SMDTC02470TA00_ _ _ _|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTD02470KA00_ _ _ _<br>SMDTD02470QA00_ _ _ _<br>SMDTD02470TA00_ _ _ _|2220<br>2824<br>4030|3.5<br>3.0<br>5.0|SMDTF02470QA00_ _ _ _<br>SMDTF02470TA00_ _ _ _<br>SMDTF02470VA00_ _ _ _|
|0.068 „|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC02680KA00_ _ _ _<br>SMDTC02680QA00_ _ _ _<br>SMDTC02680TA00_ _ _ _|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTD02680KA00_ _ _ _<br>SMDTD02680QA00_ _ _ _<br>SMDTD02680TA00_ _ _ _|2220<br>2824<br>4030|3.5<br>3.0<br>5.0|SMDTF02680QA00_ _ _ _<br>SMDTF02680TA00_ _ _ _<br>SMDTF02680VA00_ _ _ _|
|0.1mF|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC03100KA00_ _ _ _<br>SMDTC03100QA00_ _ _ _<br>SMDTC03100TA00_ _ _ _|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTD03100KA00_ _ _ _<br>SMDTD03100QA00_ _ _ _<br>SMDTD03100TA00_ _ _ _|2220<br>2824<br>4030|3.5<br>5.0<br>5.0|SMDTF03100QA00_ _ _ _<br>SMDTF03100TB00_ _ _ _<br>SMDTF03100VA00_ _ _ _|
|0.15  „|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC03150KA00_ _ _ _<br>SMDTC03150QA00_ _ _ _<br>SMDTC03150TA00_ _ _ _|1812<br>2220<br>2824|4.0<br>3.5<br>3.0|SMDTD03150KB00_ _ _ _<br>SMDTD03150QA00_ _ _ _<br>SMDTD03150TA00_ _ _ _|2220<br>2824<br>4030|4.5<br>5.0<br>5.0|SMDTF03150QB00_ _ _ _<br>SMDTF03150TB00_ _ _ _<br>SMDTF03150VA00_ _ _ _|
|0.22   „|1812<br>2220<br>2824|3.0<br>3.5<br>3.0|SMDTC03220KA00_ _ _ _<br>SMDTC03220QA00_ _ _ _<br>SMDTC03220TA00_ _ _ _|1812<br>2220<br>2824|4.0<br>3.5<br>3.0|SMDTD03220KB00_ _ _ _<br>SMDTD03220QA00_ _ _ _<br>SMDTD03220TA00_ _ _ _|2220<br>2824<br>4030|4.5<br>5.0<br>5.0|SMDTF03220QB00_ _ _ _<br>SMDTF03220TB00_ _ _ _<br>SMDTF03220VA00_ _ _ _|
|0.33   „|1812<br>2220<br>2824|4.0<br>3.5<br>3.0|SMDTC03330KB00_ _ _ _<br>SMDTC03330QA00_ _ _ _<br>SMDTC03330TA00_ _ _ _|2220<br>2824<br>4030|4.5<br>5.0<br>5.0|SMDTD03330QB00_ _ _ _<br>SMDTD03330TB00_ _ _ _<br>SMDTD03330VA00_ _ _ _|<br>2824<br>4030<br>5040|5.0<br>5.0<br>6.0|SMDTF03330TB00_ _ _ _<br>SMDTF03330VA00_ _ _ _<br>SMDTF03330XA00_ _ _ _|
|0.47   „|1812<br>2220<br>2824|4.0<br>3.5<br>3.0|SMDTC03470KB00_ _ _ _<br>SMDTC03470QA00_ _ _ _<br>SMDTC03470TA00_ _ _ _|2220<br>2824<br>4030|4.5<br>5.0<br>5.0|SMDTD03470QB00_ _ _ _<br>SMDTD03470TB00_ _ _ _<br>SMDTD03470VA00_ _ _ _|<br>4030<br>5040|5.0<br>6.0|SMDTF03470VA00_ _ _ _<br>SMDTF03470XA00_ _ _ _|
|0.68  „|2220<br>2824<br>4030|4.5<br>3.0<br>5.0|SMDTC03680QB00_ _ _ _<br>SMDTC03680TA00_ _ _ _<br>SMDTC03680VA00_ _ _ _|2824<br>4030<br>5040|5.0<br>5.0<br>6.0|SMDTD03680TB00_ _ _ _<br>SMDTD03680VA00_ _ _ _<br>SMDTD03680XA00_ _ _ _|5040|6.0|SMDTF03680XA00_ _ _ _|
|1.0mF|2220<br>2824<br>4030|4.5<br>3.0<br>5.0|SMDTC04100QB00_ _ _ _<br>SMDTC04100TA00_ _ _ _<br>SMDTC04100VA00_ _ _ _|2824<br>4030<br>5040|5.0<br>5.0<br>6.0|SMDTD04100TB00_ _ _ _<br>SMDTD04100VA00_ _ _ _<br>SMDTD04100XA00_ _ _ _|6054|7.0|SMDTF04100YA00_ _ _ _|
|1.5   „|2824<br>4030|5.0<br>5.0|SMDTC04150TB00_ _ _ _<br>SMDTC04150VA00_ _ _ _|4030<br>5040|5.0<br>6.0|SMDTD04150VA00_ _ _ _<br>SMDTD04150XA00_ _ _ _||Part number completion:<br>Tolerance:<br>20 % = M<br>10 % = K<br>5 % = J<br>Packing:<br>bulk = S<br>Pin length:  none = 00<br>Taped version see page 147.||
|2.2   „|2824<br>4030|5.0<br>5.0|SMDTC04220TB00_ _ _ _<br>SMDTC04220VA00_ _ _ _|5040|6.0|SMDTD04220XA00_ _ _ _||||
|3.3   „|4030|5.0|SMDTC04330VA00_ _ _ _|5040|6.0|SMDTD04330XA00_ _ _ _||||
|||||||||Part number completion:||
|||||||||Tolerance:<br>20 % = M<br>10 % = K<br>5 % = J<br>Packing:<br>bulk = S<br>Pin length:  none = 00<br>Taped version see page 147.||
|4.7   „|5040|6.0|SMDTC04470XA00_ _ _ _|6054|7.0|SMDTD04470YA00_ _ _ _||||
|6.8   „|6054|7.0|SMDTC04680YA00_ _ _ _|||||||
|* AC voltage: f =50 Hz; 1.4 x Urms+ UDC Ur<br>Dims. in mm.<br>Rights reserved to amend design data without prior notification.||||||||||



* AC voltage: f = 50 Hz; 1.4 x Urms + UDC  Ur Dims. in mm. 

Rights reserved to amend design data without prior notification. 

Continuation page 18 

17 

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## ~~WIMA SMD-PET~~ 

## Continuation 

## General Data 

|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|D<br>~~WIMA SMDPET~~|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Continuation<br>General Data<br>~~-~~|||||||||||||||||
|Capacitance|400 VDC/200 VAC*<br>Size<br>H<br>Part number<br>code<br>± 0.3|||630 VDC/300 VAC*<br>Size<br>H<br>Part number<br>code<br>± 0.3||||||||||1000 VDC/400 VAC*<br>Size<br>H<br>Part number<br>code<br>± 0.3|||
|0.01mF|2824<br>4030|3.0<br>5.0|SMDTG02100TA00_ _ _ _<br>SMDTG02100VA00_ _ _ _|4030|<br>5.0|||SMDTJ02100VA00_ _ _ _|||||||||
|0.015 „|2824<br>4030|3.0<br>5.0|SMDTG02150TA00_ _ _ _<br>SMDTG02150VA00_ _ _ _|4030|<br>5.0|||SMDTJ02150VA00_ _ _ _||||||5040|6.0|SMDTO12150XA00_ _ _ _|
|0.022 „|2824<br>4030|3.0<br>5.0|SMDTG02220TA00_ _ _ _<br>SMDTG02220VA00_ _ _ _|5040|<br>6.0|||SMDTJ02220XA00_ _ _ _||||||5040|6.0|SMDTO12220XA00_ _ _ _|
|0.033 „|2824<br>4030|5.0<br>5.0|SMDTG02330TB00_ _ _ _<br>SMDTG02330VA00_ _ _ _|5040|<br>6.0|||SMDTJ02330XA00_ _ _ _||||||5040|6.0|SMDTO12330XA00_ _ _ _|
|0.047 „|2824<br>4030|5.0<br>5.0|SMDTG02470TB00_ _ _ _<br>SMDTG02470VA00_ _ _ _|5040|<br>6.0|||SMDTJ02470XA00_ _ _ _||||||6054|7.0|SMDTO12470YA00_ _ _ _|
|0.068 „|4030<br>5040|5.0<br>6.0|SMDTG02680VA00_ _ _ _<br>SMDTG02680XA00_ _ _ _|5040|<br>6.0|||SMDTJ02680XA00_ _ _ _|||||||||
|0.1mF|4030<br>5040|5.0<br>6.0|SMDTG03100VA00_ _ _ _<br>SMDTG03100XA00_ _ _ _|6054|<br>7.0|||SMDTJ03100YA00_ _ _ _|||||||||
|0.15  „|4030<br>5040|5.0<br>6.0|SMDTG03150VA00_ _ _ _<br>SMDTG03150XA00_ _ _ _|6054|<br>7.0|||SMDTJ03150YA00_ _ _ _|||||||||
|0.22   „|5040|6.0|SMDTG03220XA00_ _ _ _|6054|<br>7.0|||SMDTJ03220YA00_ _ _ _|||||||||
|0.33   „|5040|6.0|SMDTG03330XA00_ _ _ _||||||||||||||
|0.47   „|6054|7.0|SMDTG03470YA00_ _ _ _||||||||||||||
|* AC voltage: f =50 Hz; 1.4 x Urms+ UDC Ur<br>Dims. in mm.<br>The values of the WIMA SMD-PEN range according to<br>the main catalogue 2009 are still available on request.<br> <br> <br> <br> <br> <br> <br> <br><br>||||Solder pad<br>H<br>L<br>d<br>d<br>Bonding slit|||recommendation<br>W<br>b<br>c<br>a|||||||Part number completion:<br>Tolerance:<br>20 % = M<br>10 % = K<br>5 % = J<br>Packing:<br>bulk = S<br>Pin length:  none = 00<br>Taped version see page 147.|||
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||||||||||||||||||
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||||||||||||||||||
|||||Size<br>code||L<br>±0.3||W<br>±0.3||d|a<br>min.|b<br>min.|c<br>max.||||
|||||1812<br>2220<br>2824<br>4030<br>5040<br>6054||4.8<br>5.7<br>7.2<br>10.2<br>12.7<br>15.3||3.3<br>5.1<br>6.1<br>7.6<br>10.2<br>13.7|0.5<br>0.5<br>0.5<br>0.5<br>0.7<br>0.7||1.2<br>1.2<br>1.2<br>2.5<br>2.5<br>2.5|3.5<br>4<br>4<br>6<br>6<br>6|3.5<br>4.5<br>6.5<br>9 <br>11.5<br>14||||
|Rights reserved to amend design data without prior notification.|||||||||||||||||



Rights reserved to amend design data without prior notification. 

18 

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Recommendation for Processing and Application of SMD Capacitors 

## ~~Layout Form~~ 

The components can generally be positioned on the carrier material as desired. In order to prevent soldering shadows or ensure regular temperature distribution, extreme concentration of the components should be avoided. In practice, it has proven best to keep a minimum distance of the soldering surfaces between two WIMA SMDs of twice the height of the components. 

## ~~Soldering Process~~ 

## Re-flow soldering 

## ~~Solder Pad Recommendation~~ 

W b H a + nd[| a d L c d Ce oe Bonding slit [__] Size L W d a b c code ± 0.3 ± 0.3 min. min. max. 1812 4.8 3.3 0.5 1.2 3.5 3.5 2220 5.7 5.1 0.5 1.2 4 4.5 2824 7.2 6.1 0.5 1.2 4 6.5 4030 10.2 7.6 0.5 2.5 6 9 5040 12.7 10.2 0.7 2.5 6 11.5 6054 15.3 13.7 0.7 2.5 6 14 ~~THAT~~ 

The solder pad size recommendations given for each individual series  are to be understood as minimum dimensions which can at any time be adjusted to the layout form. 

## ~~Processing~~ 

The processing of SMD components 

## – assembling – soldering 

## – electrical final inspection/ calibrating 

must be regarded as a complete process. The soldering of the printed circuit board, for example, can constitute considerable stress on all the electronic components. The manufacturer‘s instructions on the processing of the components are mandatory. 

- Temperature/time graph for the permissible processing temperature of the WIMA SMD film capacitor for typical convection soldering processes. Due to the diverse procedures and the varying heat requirements of the different types of components, an exact processing tl 6054 |250°C 

Due to the diverse procedures and the must not be exceeded when establishing varying heat requirements of the different the solder profile according to your actual types of components, an exact processing requirements. As short term limit a max. temperature for re-flow soldering processes temperature of T = 210° C inside the cannot be specified. The graph shows the component should not be exceeded when upper limits of temperature and time which processing WIMA SMD capacitors. 

## ~~SMD Handsoldering~~ 

The below data are to be regarded as guideline values and should serve to avoid damage to the dielectric caused by excessive heat during the soldering process. The soldering quality depends on the tool used and on the skill and experience of the person with the soldering iron in hand. 

WIMA SMD capacitors with plastic film dielectric are generally suitable for handsoldering, e. g. for lab purposes, with a soldering iron where, however, similar to automated soldering processes, a certain duration and temperature should not be exceeded. These parameters are dependent on the physical size of the components and the relevant heat absorption involved. 

|Size code|Temperature ° C / ° F|Time duration|
|---|---|---|
|1812<br>2220<br>2824<br>4030<br>5040<br>6054|250 / 482<br>250 / 482<br>260 / 500<br>260 / 500<br>260 / 500<br>260 / 500|2 sec plate 1 / 5 sec off / 2 sec plate 2<br>3 sec plate 1 / 5 sec off / 3 sec plate 2<br>3 sec plate 1 / 5 sec off / 3 sec plate 2<br>5 sec plate 1 / 5 sec off / 5 sec plate 2<br>5 sec plate 1 / 5 sec off / 5 sec plate 2<br>5 secplate 1 / 5 sec off / 5 secplate 2|



12 

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## Recommendation for Processing and Application of SMD Capacitors (Continuation) 

## ~~Solder Paste~~ 

To obtain the best soldering performance we suggest the use of following solder paste alloy: 

## Lead free solder paste 

Sn - Bi 

Sn - Zn (Bi) 

Sn - Ag - Cu (suitable for SMD-PET 5040/ 6054 and SMD-PPS) 

Solder paste with lead Sn - Pb - Ag (Sn60-Pb40-A, Sn63-Pb37-A) 

## ~~Washing~~ 

WIMA SMD components with plastic encapsulation - like all other components of similar construction irrespective of the make - cannot be regarded as hermetically sealed. Due to today’s common washing substances, e. g. on aqueous basis instead of the formerly used halogenated hydrocarbons, with enhanced washing efficiency it became obvious that assembled SMD capacitors may show an impermissibly high deviation of the electrical parameters after a corresponding washing process. Hence it is recommended to refrain from applying industrial washing processes for WIMA SMD capacitors in order to avoid possible damages. 

## ~~Initial Operation/Calibration~~ 

Due to the stress which the components are subjected to during processing, reversible parameter changes occur in almost all electronic components. The capacitance recovery accuracy to be expected with careful processing is within a scope of 

##  DC/C   5 %. 

For the initial operation of the device a minimum storage time of 

advisable to prolong the storage time to 

## t  10 days 

In this way ageing effects of the capacitor structure can be anticipated. Parameter changes due to processing are not to be expected after this period of time 

## ~~Humidity Protection Bags~~ 

Taped WIMA SMD capacitors are shipped in humidity protection bags according to JEDEC standard, level 1 (EMI/static-shielding bags conforming to MIL-B 81705, Type 1, Class 1). Under controlled conditions the components can be stored two years and more in the originally sealed bag. Opened packing units should be consumed instantly or resealed for specific storage under controlled conditions. 

## ~~Reliability~~ 

Taking account of the manufacturer‘s guidelines and compatible processing, the WIMA SMD stand out for the same high quality and reliability as the analogous through-hole WIMA series. The technology of metallized  film capacitors used e.g. in WIMA SMD-PET achieves the best values for all fields of application. The expected value is about: 

Û0  2 fit 

Furthermore the production of all WIMA components is subject to the regulations laid down by ISO 9001:2008 as well as the guidelines for component specifications set out by IEC quality assessment system (IECQ-CECC) for electronic components. 

## Electrical Characteristics and Fields of Application 

dielectrics WIMA SMD capacitors have a number of other outstanding qualities: 

” favourable pulse rise time ” low ESR 

” low dielectric absorption 

” available in high voltage series 

” large capacitance spectrum ” stand up to high mechanical stress 

” good long-term stability 

As regards technical performance as well as quality and reliability, the WIMA SMD series offer the possibility to cover nearly all applications of conventionally throughhole film capacitors with SMD components. Furthermore, the WIMA SMD series can now be used for all the demanding capacitor applications for which, in the past, the use of through-hole components was mandatory: 

” measuring techniques 

” oscillator circuits 

” differentiating and integrating circuits 

” A/D or D/A transformers 

” sample and hold circuits ” automotive electronics 

With the WIMA SMD programme available today, the major part of all plastic film capacitors can be replaced by WIMA SMD components. The field of application ranges from standard coupling capacitors to use in switch-mode power supplies as filter or charging capacitors with high voltage and capacitance values, as well as in telecommunications e.g. the well-known telephone capacitor 1mF/250VDC. 

## t  24 hours 

is to be taken into account. With calibrated devices or when the application is largely dependent on capacitance it is 

Basically the WIMA SMD series have the same electrical characteristics as the analogous through-hole WIMA capacitors. Compared to ceramic or tantalum 

13 

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## Blister Tape Packaging and Packing Units of the WIMA SMD Capacitors 

**==> picture [528 x 533] intentionally omitted <==**

**----- Start of picture text -----**<br>
+2<br>Tape reel: W1 - 0 Tape advance and return:<br>Tape return Tape advance Cover film advan<br>10 - 20 empty compartments 10 - 20 empty compartments min. 200 mm<br>Unwinding direction<br>All dims. in mm.<br>W2 max. Type W2max W1±  [2] 0 N ±1.5<br>A0 A1 T 1812 19 12.4 62<br>2220 19 12.4 62<br>2824 19 12.4 62<br>4030 22.4 16.4 60<br>5040 30.4 24.4 90<br>P P0 P2 D0 D1 K 6054 30.4 24.4 90<br>Packing units<br>Size Code 1812 ± 0.1A0  A1 ± 0.1B0  B1 + 0.1 D0  + 0.1 D1  ± 0.1P  ± 0.1P0*  ± 0.05P2  ± 0.1E  ± 0.05F  G ± 0.3W  [W] ± 0.2 [0 ] ± 0.1K  ± 0.1T  taped Reel  taped Reel  bulk<br>Box size Code -0 -0 180 mm P 330 mm P Mini Standard<br>4.8 x 3.3 x 3 KA 3.55 3.3 5.1 4.8 P1.5 P1.5 8 4 2 1.75 5.5 2.2 12 9.5 3.4 0.3 700 2500 1000 3000<br>4.8 x 3.3 x 4 KB 3.55 3.3 5.1 4.8 P1.5 P1.5 8 4 2 1.75 5.5 2.2 12 9.5 4.4 0.3 500 2000 1000 3000<br>Size Code 2220 ± 0.1A0  A1 ± 0.1B0  B1 + 0.1 D0  + 0.1 D1  ± 0.1P  ± 0.1P0*  ± 0.05P2  ± 0.1E  ± 0.05F  G ± 0.3W  [W] ± 0.2 [0 ] ± 0.1K  ± 0.1T  taped Reel  taped Reel  bulk<br>Box size Code -0 -0 180 mm P 330 mm P Mini Standard<br>5.7 x 5.1 x 3.5 QA 6.3 5.7 5.6 5.1 P1.5 P1.5 8 4 2 1.75 5.5 1.95 12 9.5 3.7 0.3 500 1800 1000 3000<br>5.7 x 5.1 x 4.5 QB 6.3 5.7 5.6 5.1 P1.5 P1.5 8 4 2 1.75 5.5 1.95 12 9.5 4.7 0.3 400 1500 1000 3000<br>Size Code 2824 ± 0.1A0  A1 ± 0.1B0  B1 + 0.1 D0  + 0.1 D1  ± 0.1P  ± 0.1P0*  ± 0.05P2  ± 0.1E  ± 0.05F  G ± 0.3W  [W] ± 0.2 [0 ] ± 0.1K  ± 0.1T  taped Reel   bulk<br>Box size Code -0 -0 330 mm P Mini Standard<br>7.2 x 6.1 x 3 TA 6.6 6.1 7.7 7.2 P1.5 P1.5 12 4 2 1.75 5.5 0.9 12 9.5 3.4 0.3 1500 500 2000<br>7.2 x 6.1 x 5 TB 6.6 6.1 7.7 7.2 P1.5 P1.5 12 4 2 1.75 5.5 0.9 12 9.5 5.4 0.4 750 500 2000<br>Code ± 0.1A0  [A][1] ± 0.1B0  B1 + 0.1 D0  + 0.1 D1  ± 0.1P  ± 0.1 [P][0][* ] ± 0.05P2  ± 0.1E  ± 0.05F  [G] ± 0.3W  [W] ± 0.2 [0 ] ± 0.1K  ± 0.1T  taped Reel   bulk<br>-0 -0 330 mm P Mini Standard<br>Size Code 4030 VA 10.7 10.2  8.1  9.1 P1.5 P1.5 16 4 2 1.75  7.5 1.9   16 13.3 5.5 0.3 775 500 2000<br>Size Code 5040 XA 13.5 12.7 11 11.5 P1.5 P1.5 16 4 2 1.75 11.5 4.7 24 21.3 6.5 0.3 600 200 1000<br>Size Code 6054 YA 17.0 16.5 15.6 15.0 P1.5 P1.5 20 4 2 1.75 11.5 2.95 24 21.3 7.5 0.3 450 100  500<br>0.5 1.5<br>� �<br>13 N<br>180/330<br>G<br>B0 B1 W W0<br>F<br>E<br>+0 - 2<br>**----- End of picture text -----**<br>


* cumulative after 10 steps p 0.2 mm max. Samples and pre-production needs on request or 1 Reel minimum. 

## Part number codes for SMD packing 

|Part number codes for SMD packing|Part number codes for SMD packing|Part number codes for SMD packing||
|---|---|---|---|
|||||
|W (Blister)<br>12<br>12<br>16<br>24|Pin mm|Code||
||180|P||
||330|Q||
||330|R||
||330|T||
|||||
|Bulk Standard||S||
|||||



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## WIMA Part Number System 

A WIMA part number consists of 18 digits and is composed as follows: 

Field  1 -  4: Type description Field  5 -  6: Rated voltage Field  7 - 10: Capacitance Field 11 - 12: Size and PCM 

Field 13 - 14: Version code (e.g. Snubber versions) Field 15: Capacitance tolerance Field 16: Packing Field 17 - 18: Pin length (untaped) 

**==> picture [490 x 38] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18<br>M K S 2 C 0 2 1 0 0 1 A 0 0 M S S D<br>**----- End of picture text -----**<br>


|MKS 2|MKS 2|MKS 2|63 VDC|63 VDC|63 VDC||0.01mF|0.01mF|0.01mF|2.5 x 6.5 x 7.2||-|-||20 %<br>bulk|||6|-2|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||||||||||||||||||||
|Type description:|||Rated voltage:||||Capacitance:|||Size:|||||Tolerance:|||||
|SMD-PET||= SMDT|2.5 VDC||= A1||22 pF|= 0022||4.8 x 3.3 x 3 Size 1812||= KA|||20 %<br>= M|||||
|SMD-PPS||= SMDI|4 VDC||= A2||47 pF|= 0047||4.8 x 3.3 x 4 Size 1812||= KB|||10 %<br>= K|||||
|FKP 02||= FKP0|14 VDC||= A3||100 pF|= 0100||5.7 x 5.1 x 3.5 Size 2220||= QA|||5 %<br>= J|||||
|MKS 02||= MKS0|28 VDC||= A4||150 pF|= 0150||5.7 x 5.1 x 4.5 Size 2220||= QB|||2.5 %<br>= H|||||
|FKS 2||= FKS2|40 VDC||= A5||220 pF|= 0220||7.2 x 6.1 x 3 Size 2824||= TA|||1 %<br>= E|||||
|FKP 2||= FKP2|5 VDC||= A6||330 pF|= 0330||7.2 x 6.1 x 5 Size 2824||= TB|||...|||||
|MKS 2||= MKS2|50 VDC||= B0||470 pF|= 0470||10.2 x 7.6 x 5 Size 4030||= VA||||||||
|MKP 2<br>FKS 3||= MKP2<br>= FKS3|63 VDC<br>100 VDC||= C0<br>= D0||680 pF<br>1000 pF|= 0680<br> = 1100||12.7 x 10.2 x 6 Size 5040 <br>15.3 x 13.7 x 7 Size 6054||= XA<br> = YA|||Packing:|||||
|FKP 3||= FKP3|160 VDC||= E0||1500 pF|= 1150||2.5 x 7 x 4.6 PCM 2.5||= 0B|||AMMO H16.5 340 x 340 = A|||||
|MKS 4||= MKS4|250 VDC||= F0||2200 pF|= 1220||3 x 7.5 x 4.6 PCM 2.5||= 0C|||AMMO H16.5 490 x 370 = B|||||
|MKP 4||= MKP4|400 VDC||= G0||3300 pF|= 1330||2.5 x 6.5 x 7.2 PCM 5||= 1A|||AMMO H18.5 340 x 340 = C|||||
|MKP 10||= MKP1|450 VDC||= H0||4700 pF|= 1470||3 x 7.5 x 7.2 PCM 5||= 1B|||AMMO H18.5 490 x 370 = D|||||
|FKP 4||= FKP4|600 VDC||= I0||6800 pF|= 1680||2.5 x 7 x 10 PCM 7.5||= 2A|||REEL H16.5 360||||= F|
|FKP 1||= FKP1|630 VDC||= J0||0.01mF|= 2100||3 x 8.5 x 10 PCM 7.5||= 2B|||REEL H16.5 500||||= H|
|MKP-X2||= MKX2|700 VDC||= K0||0.022mF|= 2220||3 x 9 x 13 PCM 10||= 3A|||REEL H18.5 360||||= I|
|MKP-X2 R||= MKXR|800 VDC||= L0||0.047mF|= 2470||4 x 9 x 13 PCM 10||= 3C|||REEL H18.5 500||||= J|
|MKP-Y2||= MKY2|850 VDC||= M0||0.1mF|= 3100||5 x 11 x 18 PCM 15||= 4B|||ROLL H16.5||||= N|
|MP 3-X2||= MPX2|900 VDC||= N0||0.22mF|= 3220||6 x 12.5 x 18 PCM 15||= 4C|||ROLL H18.5||||= O|
|MP 3-X1||= MPX1|1000 VDC||= O1||0.47mF|= 3470||5 x 14 x 26.5 PCM 22.5||= 5A|||BLISTER W12 180||||= P|
|MP 3-Y2||= MPY2|1100 VDC||= P0||1mF|= 4100||6 x 15 x 26.5 PCM 22.5||= 5B|||BLISTER W12 330||||= Q|
|MP 3R-Y2||= MPRY|1200 VDC||= Q0||2.2mF|= 4220||9 x 19 x 31.5 PCM 27.5||= 6A|||BLISTER W16 330||||= R|
|Snubber MKP||= SNMP|1250 VDC||= R0||4.7mF|= 4470||11 x21 x 31.5 PCM 27.5||= 6B|||BLISTER W24 330||||= T|
|Snubber FKP||= SNFP|1500 VDC||= S0||10mF|= 5100||9 x 19 x 41.5 PCM 37.5||= 7A|||Bulk/TPS Standard||||= S|
|GTO MKP||= GTOM|1600 VDC||= T0||22mF|= 5220||11 x 22 x 41.5 PCM 37.5||= 7B|||...|||||
|DC-LINK MKP|3|= DCP3|2000 VDC||= U0||47mF|= 5470||94 x 49 x 182 DCH_||= H0||||||||
|DC-LINK MKP|4|= DCP4|2500 VDC||= V0||100mF|= 6100||94 x 77 x 182 DCH_||= H1||||||||
|DC-LINK MKP 4S||= DCPS|3000 VDC||= W0||220mF|= 6220||...||||||||||
|DC-LINK MKP|5|= DCP5|4000 VDC||= X0||1 F|= A010||||||||||||
|DC-LINK MKP|6|= DCP6|6000 VDC||= Y0||2.5 F|= A025||||||||||||
|DC-LINK HC||= DCH_|250 VAC||= 0W||50 F|= A500||Version code:||||||||||
|DC-LINK HY||= DCHY|275 VAC||= 1W||100 F|= B100||Standard<br>= 00|||||Pin length (untaped)|||||
|SuperCap C||= SCSC|300 VAC||= 2W||110 F|= B110||Version A1<br>= 1A|||||3.5 ±0.5 = C9|||||
|SuperCap MC||= MC_ _|400 VAC||= 3W||600 F|= B600||Version A1.1.1 = 1B|||||6 -2<br>= SD|||||
|SuperCap C60||= SCSC|440 VAC||= 4W||1200 F|= C120||Version A2<br>= 2A|||||16 ±1<br>= P1|||||
|SuperCap R||= SCSR|500 VAC||= 5W||...|||...|||||...|||||
|SuperCap MR||= MRPP|...|||||||||||||||||



The data on this page is not complete and serves only to explain the part number system. Part number information is listed on the pages of the respective WIMA range. 

146