B41303B8228M000

|**Snap-In Capacitors**|**B41303**|
|---|---|
|**Standard**–**85 °C**|**B43303**|
|**B41303, B43303**||
|**General-purpose grade capacitors**|7|



## **Applications** 

- I Switch-mode power supplies in industrial and entertainment electronics 

## **Features** 

- I High ripple current capability 

- I Different case sizes available for each capacitance value 

## **Construction** 

- I Charge-discharge proof, polar 

- I Aluminum case, fully insulated 

- I Snap-in solder pins to hold component in place on PC-board 

- I Minus pole marking on case surface 

- I Minus pole not insulated from case 

- I Overload protection (safety vent) 

## **Terminals** 

- I Standard version with 2 terminals 

   - 2 lengths available: 6,3 and 4,5 mm 

- I 3 terminals: length 4,5 mm 

   - (terminal arrangement ensures correct insertion) 

**210** 10/02 

~~ee~~ **B41303 / B43303 Standard** – **85 °C** 

## **Specifications and characteristics in brief** 

||B41303<br>~~eee~~|B43303**(not for new design)**|
|---|---|---|
|Rated voltage UR<br>Surge voltage US|10 … 100 VDC<br>1,15 · UR<br>~~eee~~|200 … 500 VDC<br>1,15 · UR(for UR ≤250 VDC)<br>1,10 · UR(for UR ≥385 VDC)|
|Rated capacitance CR<br>Capacitance tolerance|680 … 47 000µF<br>±20 %  M|22 … 1 500µF<br>±20 %  M|
|Leakage current IL<br>(5 min, 20°C)|IL<br>0,3 µA<br>CR<br>µF<br>-------<br>UR<br>V<br>-------<br>⋅<br>⋅<br>0,7<br>≤<br>4µA<br>+<br>(<br>J||
|Self-inductance ESL|Approx. 20 nH||
|Useful life<br>85 °C, UR; I~R<br>40 °C, UR; 1,15 · I~R<br>Requirements:|>   2 000 h<br>> 100 000 h<br>>   2 000 h<br>> 100 000 h<br>∆C/C ≤ ±45 % of initial value<br>ESR ≤3 times initial spec. limit<br>IL<br>≤initial specified limit<br>∆C/C ≤ ±30 % of initial value<br>ESR ≤3 times initial spec. limit<br>IL<br>≤initial specified limit<br>Failure percentage: ≤1 %<br>Failure rate:<br>≤100 fit (≤100 · 10–9/h)<br>(for definiton “fit”, refer to chapter “Quality”, page 62)||
|Voltage endurance test<br>85°C; UR<br>Post test requirements:|2 000 h<br>∆C/C ≤ ±15 % of initial value<br>ESR ≤1,3 times initial spec. limit<br>IL<br>≤initial specified limit|2 000 h<br>∆C/C ≤ ±10 % of initial value<br>ESR ≤1,3 times initial spec. limit<br>IL<br>≤initial specified limit|
|Vibration resistance|To IEC 60068-2-6, test Fc:<br>displacement amplitude 0,35 mm, frequency range 10…55 Hz,<br>acceleration max. 5g, duration 3×2 h||
|IEC climatic category|To IEC 60068-1:<br>40/085/56 (– 40°C/+ 85°C/56 days<br>damp heat test)<br>25/085/56 (– 25°C/+ 85°C/56 days<br>damp heat test)||
|Detail specification<br>Sectional specification|Similar to CECC 30301-806<br>IEC 60384-4||



**211** 10/02 

~~|~~ **B41303 / B43303** 

**Standard** – **85 °C** 

## **Dimensional drawings** 

**==> picture [246 x 244] intentionally omitted <==**

**----- Start of picture text -----**<br>
Minus pole marking Minus pole marking<br>: i \ . (, Al2 i 4<br>——_ SS<br>a<br>0 Pf<br>Lt ) Poot ao<br>Mounting<br>| ost ~ pa fa. seee holes<br>L+| 1 ,540,2 | |<br>Mounting<br>hol es<br>- SAS,<br>) 02+0,1 ot ie<br>wr KAL0140-J 02,5 min. 43" KAL0324-F<br>**----- End of picture text -----**<br>


Snap-in terminals, standard (length 6,3 ± 1 mm). Also available in a shorter version with a length of 4,5 –1 mm. For packing mode and ordering example see next page. 

Snap-in capacitors are also available with 3 terminals (length 4,5 –1 mm). 

For packing mode and ordering example see next page. 

|Dimensions (mm)|Dimensions (mm)|Approx.|Packing units|Dimensions (mm)|Dimensions (mm)|Approx.|Packing units|
|---|---|---|---|---|---|---|---|
|d + 1|l±2|weight (g)|(pieces)|d + 1|l±2|weight (g)|(pieces)|
|22|25|9|160|30|20|14|80|
|22|30|12|160|30|25|17|80|
|22|35|15|160|30|30|23|80|
|22|40|18|160|30|35|29|80|
|22|45|20|160|30|40|36|80|
|25|25|13|130|30|45|41|80|
|25|30|17|130|30|50|46|80|
|25|35|19|130|35|20|19|60|
|25|40|22|130|35|40|44|60|
|25|45|25|130|35|45|52|60|
|||||35|50|59|60|
|||||35|55|66|60|



**212** 10/02 

**==> picture [68 x 20] intentionally omitted <==**

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B41303 / B43303<br>Standard  –  85 °C<br>**----- End of picture text -----**<br>


## **Packing of snap-in capacitors** 

For ecological reasons the packing is pure cardboard. Components can be withdrawn (in full or in part) in the correct position for insertion. 

## **Ordering codes** 

|**Ordering codes**||
|---|---|
|Snap-in terminals<br>Version|Identification in 3rd block of ordering code|
|Standard terminals (6,3±1) mm|M000|
|Short terminals (4,5−1) mm|M007|
|3 terminals (4,5−1) mm|M002|



## Ordering example: 

> B41303A3109M007 } snap-in capacitor with short terminals 

> B41303A3109M002 } snap-in capacitor with 3 terminals 

**213** 10/02 

**B41303 / B43303** 

**Standard** – **85 °C** 

## **Overview of available types** 

## **Type B41303** 

|UR(VDC)|10|16|25|40|63|100|
|---|---|---|---|---|---|---|
|CR(µF)|Case dimensions d×l (mm)||||||
|680||||||22×30<br>25×25|
|1 000||||||22×35<br>25×30|
|1 500|||||22×30<br>25×25|25×35<br>30×30|
|2 200|||||22×35<br>25×30|30×35|
|3 300||||22×30<br>25×25|25×35<br>30×30|30×45|
|4 700|||22×30<br>25×25|22×35<br>25×30|30×35||
|6 800||22×30<br>25×25|22×35<br>25×30|25×40<br>30×30|30×45||
|10 000|22×30<br>25×25|22×35<br>25×30|25×35<br>30×30|30×35|||
|15 000|22×35<br>25×30|25×40<br>30×30|30×35|30×50|||
|22 000|25×40<br>30×30|30×35|30×45||||
|33 000|30×35|30×45|||||
|47 000|30×45||||||



The capacitance and voltage ratings listed above are available in different cases upon request. Other voltage and capacitance ratings are also available upon request. 

**214** 10/02 

**B41303 / B43303 Standard** – **85 °C** 

## **Overview of available types** 

## **Type B43303 (not for new design)** 

|UR(VDC)|200|250|385|400|450|500|
|---|---|---|---|---|---|---|
|CR(µF)|Case dimensions d×l (mm)||||||
|22||||||22×25|
|33||||||22×30|
|47||||||22×40|
|68|||22×25|22×30|22×35|25×40|
|100|||22×30<br>25×25|22×35<br>25×30|22×40|30×40|
|120||||25×30|25×35||
|150||22×25|22×40<br>25×30|22×40<br>25×30|30×35|30×50|
|180|||||30×35||
|220|22×25|22×30<br>25×25|25×40<br>30×35|25×40<br>30×30|30×50||
|270||||30×35|30×45||
|330|22×30<br>25×25|22×40<br>25×35|30×45|30×45|35×40||
|390||||30×45<br>35×40|35×45||
|470|22×40<br>30×25|25×40<br>30×30|35×40|35×45|35×50||
|560|||35×45|35×50|||
|680|25×40<br>30×35|30×40||35×55|||
|1 000|30×45<br>35×40|35×45|||||
|1 200|35×45|35×50|||||
|1 500|35×50||||||



The capacitance and voltage ratings listed above are available in different cases upon request. Other voltage and capacitance ratings are also available upon request. 

**215** 10/02 

**B41303 / B43303 Standard** – **85 °C** 

## **Technical data and ordering codes** 

|10|10 000<br>10 000<br>15 000<br>15 000<br>22 000<br>22 000<br>33 000<br>47 000|22×30<br>25×25<br>22×35<br>25×30<br>25×40<br>30×30<br>30×35<br>30×45|66<br>66<br>54<br>54<br>46<br>46<br>41<br>38|59<br>59<br>49<br>49<br>43<br>43<br>39<br>36|4,7<br>4,7<br>5,6<br>5,6<br>6,7<br>6,7<br>7,3<br>8,3|1,8<br>1,8<br>2,2<br>2,2<br>2,6<br>2,6<br>2,8<br>3,2|B41303A3109M000<br>B41303J3109M000<br>B41303B3159M000<br>B41303J3159M000<br>B41303A3229M000<br>B41303J3229M000<br>B41303B3339M000<br>B41303B3479M000|
|---|---|---|---|---|---|---|---|
|16|6 800<br>6 800<br>10 000<br>10 000<br>15 000<br>15 000<br>22 000<br>33 000|22×30<br>25×25<br>22×35<br>25×30<br>25×40<br>30×30<br>30×35<br>30×45|71<br>71<br>58<br>58<br>49<br>49<br>43<br>39|59<br>59<br>52<br>52<br>45<br>45<br>40<br>37|4,5<br>4,5<br>5,2<br>5,2<br>6,4<br>6,4<br>7,3<br>8,1|1,8<br>1,8<br>2,0<br>2,0<br>2,5<br>2,5<br>2,8<br>3,1|B41303A4688M000<br>B41303J4688M000<br>B41303B4109M000<br>B41303J4109M000<br>B41303A4159M000<br>B41303J4159M000<br>B41303B4229M000<br>B41303B4339M000|
|25|4 700<br>4 700<br>6 800<br>6 800<br>10 000<br>10 000<br>15 000<br>22 000|22×30<br>25×25<br>22×35<br>25×30<br>25×35<br>30×30<br>30×35<br>30×45|77<br>77<br>62<br>62<br>52<br>52<br>45<br>40|67<br>67<br>56<br>56<br>48<br>48<br>42<br>38|4,4<br>4,4<br>4,9<br>4,9<br>5,5<br>5,5<br>7,0<br>8,1|1,7<br>1,7<br>1,9<br>1,9<br>2,3<br>2,3<br>2,7<br>3,1|B41303A5478M000<br>B41303J5478M000<br>B41303B5688M000<br>B41303J5688M000<br>B41303B5109M000<br>B41303J5109M000<br>B41303B5159M000<br>B41303B5229M000|



> Preferred types 

> 1) 120 Hz conversion factor of ripple current: _I_ ~ (120 Hz) = 1,03 · _I_ ~ (100 Hz) 

> 2) Ordering code for standard terminals (6,3 mm). To determine the ordering code for short terminals (4,5 mm) and 3 terminals (4,5 mm) see page 213. 

**216** 10/02 

~~|~~ **B41303 / B43303 Standard** – **85 °C** 

|UR<br>VDC|CR<br>100 Hz<br>20 °C<br>µF|Case<br>dimensions<br>d×l<br>mm|ESRmax<br>100 Hz<br>20°C<br>mΩ|Zmax<br>10 kHz<br>20°C<br>mΩ|I~max<br>100 Hz<br>40°C<br>A|I~R1)<br>100 Hz<br>85°C<br>A|Ordering code2)|
|---|---|---|---|---|---|---|---|
|40|3 300<br>3 300<br>4 700<br>4 700<br>6 800<br>6 800<br>10 000<br>15 000|22×30<br>25×25<br>22×35<br>25×30<br>25×40<br>30×30<br>30×35<br>30×50|77<br>77<br>66<br>66<br>55<br>55<br>47<br>41|71<br>71<br>59<br>59<br>50<br>50<br>44<br>39|4,4<br>4,4<br>4,9<br>4,9<br>6,1<br>6,1<br>6,8<br>8,4|1,7<br>1,7<br>1,9<br>1,9<br>2,4<br>2,4<br>2,6<br>3,3|B41303A7338M000<br>B41303J7338M000<br>B41303B7478M000<br>B41303J7478M000<br>B41303A7688M000<br>B41303J7688M000<br>B41303B7109M000<br>B41303A7159M000|
|63|1 500<br>1 500<br>2 200<br>2 200<br>3 300<br>3 300<br>4 700<br>6 800|22×30<br>25×25<br>22×35<br>25×30<br>25×35<br>30×30<br>30×35<br>30×45|120<br>120<br>89<br>89<br>69<br>69<br>58<br>49|100<br>100<br>77<br>77<br>62<br>62<br>52<br>45|3,5<br>3,5<br>4,2<br>4,2<br>5,2<br>5,2<br>6,2<br>7,3|1,4<br>1,4<br>1,6<br>1,6<br>2,0<br>2,0<br>2,4<br>2,8|B41303A8158M000<br>B41303J8158M000<br>B41303B8228M000<br>B41303J8228M000<br>B41303B8338M000<br>B41303J8338M000<br>B41303B8478M000<br>B41303B8688M000|
|100|680<br>680<br>1 000<br>1 000<br>1 500<br>1 500<br>2 200<br>3 300|22×30<br>25×25<br>22×35<br>25×30<br>25×35<br>30×30<br>30×35<br>30×45|180<br>180<br>130<br>130<br>97<br>97<br>75<br>60|150<br>150<br>110<br>110<br>83<br>83<br>66<br>54|2,9<br>2,9<br>3,4<br>3,4<br>4,4<br>4,4<br>5,5<br>6,5|1,1<br>1,1<br>1,3<br>1,3<br>1,7<br>1,7<br>2,1<br>2,5|B41303A9687M000<br>B41303J9687M000<br>B41303B9108M000<br>B41303J9108M000<br>B41303B9158M000<br>B41303J9158M000<br>B41303B9228M000<br>B41303B9338M000|



> Preferred types 

> 1) 120 Hz conversion factor of ripple current: _I_ ~ (120 Hz) = 1,03 · _I_ ~ (100 Hz) 

> 2) Ordering code for standard terminals (6,3 mm). To determine the ordering code for short terminals (4,5 mm) and 3 terminals (4,5 mm) see page 213. 

**217** 10/02 

**B41303 / B43303 Standard** – **85 °C** 

## **Technical data and ordering codes** 

|200|220<br>330<br>330<br>470<br>470<br>680<br>680<br>1 000<br>1 000<br>1 200<br>1 500|22×25<br>22×30<br>25×25<br>22×40<br>30×25<br>25×40<br>30×35<br>30×45<br>35×40<br>35×45<br>35×50|1250<br>900<br>800<br>560<br>560<br>390<br>390<br>260<br>260<br>220<br>180|960<br>640<br>640<br>450<br>450<br>310<br>310<br>210<br>210<br>180<br>140|1,7<br>2,2<br>2,3<br>2,9<br>3,0<br>3,8<br>4,0<br>5,3<br>5,6<br>6,4<br>7,4|0,77<br>1,0<br>1,0<br>1,3<br>1,3<br>1,7<br>1,8<br>2,4<br>2,5<br>2,9<br>3,3|B43303D0227M000<br>B43303D0337M000<br>B43303M0337M000<br>B43303D0477M000<br>B43303M0477M000<br>B43303D0687M000<br>B43303M0687M000<br>B43303D0108M000<br>B43303E0108M000<br>B43303A0128M000<br>B43303A0158M000|
|---|---|---|---|---|---|---|---|
|250|150<br>220<br>220<br>330<br>330<br>470<br>470<br>680<br>1 000<br>1 200|22×25<br>22×30<br>25×25<br>22×40<br>25×35<br>25×40<br>30×30<br>30×40<br>35×45<br>35×50|1400<br>920<br>920<br>620<br>620<br>440<br>440<br>300<br>220<br>180|1200<br>740<br>740<br>500<br>500<br>360<br>360<br>240<br>170<br>150|1,4<br>1,8<br>1,8<br>2,5<br>2,5<br>3,2<br>3,1<br>4,2<br>5,8<br>6,6|0,63<br>0,82<br>0,84<br>1,1<br>1,2<br>1,4<br>1,4<br>1,9<br>2,6<br>3,0|B43303C2157M000<br>B43303C2227M000<br>B43303L2227M000<br>B43303C2337M000<br>B43303L2337M000<br>B43303C2477M000<br>B43303L2477M000<br>B43303C2687M000<br>B43303A2108M000<br>B43303A2128M000|
|385|68<br>100<br>100<br>150<br>150<br>220<br>220<br>330<br>470<br>560|22×25<br>22×30<br>25×25<br>22×40<br>25×30<br>25×40<br>30×35<br>30×45<br>35×40<br>35×45|2700<br>1800<br>1800<br>1200<br>1200<br>800<br>800<br>540<br>410<br>340|2200<br>1500<br>1500<br>940<br>940<br>640<br>640<br>440<br>330<br>280|1,0<br>1,3<br>1,3<br>1,7<br>1,7<br>2,3<br>2,4<br>3,2<br>4,1<br>4,7|0,45<br>0,58<br>0,59<br>0,79<br>0,77<br>1,0<br>1,1<br>1,4<br>1,8<br>2,1|B43303H0686M000<br>B43303H0107M000<br>B43303R0107M000<br>B43303H0157M000<br>B43303R0157M000<br>B43303H0227M000<br>B43303P0227M000<br>B43303H0337M000<br>B43303E0477M000<br>B43303A0567M000|



- 1) 120 Hz conversion factor of ripple current: _I_ ~ (120 Hz) = 1,03 · _I_ ~ (100 Hz) 

2) Ordering code for standard terminals (6,3 mm). 

To determine the ordering code for short terminals (4,5 mm) and 3 terminals (4,5 mm) see page 213. 

**218** 10/02 

**B41303 / B43303 Standard** – **85 °C** 

|UR<br>VDC|CR<br>100 Hz<br>20°C<br>µF|Case<br>dimensions<br>d×l<br>mm|ESRmax<br>100 Hz<br>20°C<br>mΩ|Zmax<br>10 kHz<br>20°C<br>mΩ|I~max<br>100 Hz<br>40°C<br>A|I~R1)<br>100 Hz<br>85°C<br>A|Ordering code2)|
|---|---|---|---|---|---|---|---|
|400|68<br>100<br>100<br>120<br>150<br>150<br>220<br>220<br>270<br>330<br>390<br>390<br>470<br>560<br>680|22×30<br>22×35<br>25×30<br>25×30<br>22×40<br>25×30<br>25×40<br>30×30<br>30×35<br>30×45<br>30×45<br>35×40<br>35×45<br>35×50<br>35×55|2400<br>1600<br>1600<br>1350<br>1100<br>1100<br>700<br>700<br>580<br>450<br>400<br>440<br>360<br>300<br>250|2000<br>1420<br>1420<br>1180<br>920<br>920<br>630<br>630<br>520<br>420<br>360<br>350<br>290<br>240<br>200|1,0<br>1,3<br>1,4<br>1,5<br>1,7<br>1,7<br>2,2<br>2,2<br>2,6<br>3,2<br>3,5<br>3,7<br>4,3<br>4,9<br>5,6|0,48<br>0,61<br>0,63<br>0,69<br>0,79<br>0,77<br>1,0<br>1,0<br>1,2<br>1,4<br>1,6<br>1,7<br>1,9<br>2,2<br>2,5|B43303G0686M000<br>B43303G0107M000<br>B43303Q0107M000<br>B43303A9127M000<br>B43303A9157M000<br>B43303B9157M000<br>B43303B9227M000<br>B43303A9227M000<br>B43303A9277M000<br>B43303G0337M000<br>B43303A9397M000<br>B43303A0397M000<br>B43303F0477M000<br>B43303F0567M000<br>B43303A0687M000|
|450|68<br>100<br>120<br>150<br>180<br>220<br>270<br>330<br>390<br>470|22×35<br>22×40<br>25×35<br>30×35<br>30×35<br>30×50<br>30×45<br>35×40<br>35×45<br>35×50|3700<br>2500<br>2100<br>1700<br>1370<br>1200<br>910<br>840<br>710<br>590|3080<br>2080<br>1730<br>1420<br>1180<br>1000<br>790<br>670<br>570<br>470|1,1<br>1,4<br>1,6<br>1,9<br>2,1<br>2,7<br>2,9<br>3,4<br>3,9<br>4,5|0,50<br>0,64<br>0,72<br>0,88<br>0,97<br>1,2<br>1,3<br>1,5<br>1,8<br>2,0|B43303A5686M000<br>B43303B5107M000<br>B43303A5127M000<br>B43303A5157M000<br>B43303A5187M000<br>B43303A5227M000<br>B43303A5277M000<br>B43303A5337M000<br>B43303A5397M000<br>B43303A5477M000|
|500|22<br>33<br>47<br>68<br>100<br>150|22×25<br>22×30<br>22×40<br>25×40<br>30×40<br>30×50|9200<br>6200<br>4400<br>3000<br>2100<br>1400|7700<br>5200<br>3700<br>2500<br>1800<br>1200|0,52<br>0,68<br>0,91<br>1,2<br>1,6<br>2,1|0,24<br>0,31<br>0,41<br>0,54<br>0,71<br>0,94|B43303A6226M000<br>B43303A6336M000<br>B43303A6476M000<br>B43303A6686M000<br>B43303A6107M000<br>B43303A6157M000|



- 1) 120 Hz conversion factor of ripple current: _I_ ~ (120 Hz) = 1,03 · _I_ ~ (100 Hz) 

- 2) Ordering code for standard terminals (6,3 mm). To determine the ordering code for short terminals (4,5 mm) and 3 terminals (4,5 mm) see page 213. 

**219** 10/02 

**B41303 / B43303 Standard** – **85 °C** 

## **Useful life** 

depending on ambient temperature TA under ripple current operating conditions[1)] UR ≤ 100 VDC 

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**----- Start of picture text -----**<br>
3,0 KAL0539-6<br>B41303<br>Ι~<br>Ι~R 2,5<br>p 2,0 S<br>1,5<br>1,0<br>0,5<br>0<br>40 50 60 70 80 ˚C 90<br>S O , TA<br>R ≥ 200 VDC 200 VDC<br>2,5 KAL0540-9<br>B43303<br>Ι~<br>Ι~R 2,0<br>1,5<br>| SAN<br>1,0<br>0,5<br>0 W \\\ k<br>40 50 60 70 80 ˚C 90<br>VV A TA<br>100 000 h 50 000 h 25 000 h 10 000 h 5 000 h 2 500 h 2 000 h<br>100 000 h 50 000 h 25 000 h 10 000 h 5 000 h 2 000 h<br>**----- End of picture text -----**<br>


## UR ≥ 200 VDC 200 VDC 

1) Refer to page 40 for an explanation on how to interpret the useful life graphs. 

**220** 10/02 

## ~~|~~ **B41303 / B43303** - 

**==> picture [68 x 20] intentionally omitted <==**

**----- Start of picture text -----**<br>
B41303 / B43303<br>Standard  –  85 °C<br>**----- End of picture text -----**<br>


**Frequency factor of permissible ripple current I~** versus frequency f UR ≤ 100 VDC 

**Frequency factor of permissible ripple current I~** versus frequency f UR ≥ 200 VDC 

**==> picture [343 x 425] intentionally omitted <==**

**----- Start of picture text -----**<br>
1,5 KAL0152-8 1,5 KAL0144-H<br>Ι~f B41303 Ι~f B43303<br>Ι~100 Hz 63 V, 100 V Ι~100 Hz<br>Saw Le — te ETI<br>1,3 1,3<br>tI ter 25 V, 40 V Fg UI<br>1,2 1,2<br>LN aOc 2<br>10 V, 16 V<br>1,1 ANveh 1,1 ATT<br>1,0 1,0<br>AP|  A<br>0,9 ge| 0,9 eT<br>0,8 T T 0,8<br>5 10 [2] 5 10 [3] Hz 2 5 10 [2] 5 10 [3] Hz 2<br>f f<br>Frequency characteristics of ESR Frequency characteristics of ESR<br>Typical behavior Typical behavior<br>R ≤ 100 VDC 100 VDC UR ≥ 200 VDC<br>KAL0149-N KAL0155-X<br>1,5 1,5<br>ESR f B41303 ESR f f B43303<br>ESR —  100 Hz Lal Te | ESR 100 Hz 100 Hz Ey TTT<br>1,3 1,3<br>1 1,2 TNNGAI |II) 1,2 ENITIENUTTTPTINUTTTPTITTTPTIPTI<br>1,1 NU 1,1 INTTTT<br>10, 16 V<br>1,0 25 V, 40 V 1,0<br>TN 63 V, 100 V Oe<br>0,9 SING 0,9 INE EET |<br>0,8 HL NSS 0,8 CUTE NUTT]<br>0,7 HI INS J 0,7 UE ING |<br>0,6 |UI YEPENT 0,6 UTUM| PNTUM| PNT| PNT PNT<br>0,5 5 10 [2] 5 10 [3] Hz 2 0,5 5 10 [[2]] | th 5 10 [[3]] Hz 2<br>f f<br>**----- End of picture text -----**<br>


**Frequency characteristics of ESR** Typical behavior UR ≤ 100 VDC 100 VDC 

**==> picture [163 x 188] intentionally omitted <==**

**----- Start of picture text -----**<br>
KAL0155-X<br>1,5<br>ESR f f B43303<br>Ey TTT<br>ESR 100 Hz 100 Hz<br>1,3<br>1,2 ENITIENUTTTPTINUTTTPTITTTPTIPTI<br>1,1 INTTTT<br>1,0<br>Oe<br>0,9 INE EET |<br>0,8 CUTE NUTT]<br>0,7 UE ING |<br>0,6<br>UTUM| PNTUM| PNT| PNT PNT<br>0,5 5 10 [[2]] | th 5 10 [[3]] Hz 2<br>f<br>**----- End of picture text -----**<br>


**221** 10/02 

**B41303 / B43303** 

## **Standard** – **85 °C** 

## **Impedance Z** 

versus frequency f Typical behavior at 20 °C UR ≤ 100 VDC 

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**----- Start of picture text -----**<br>
10 2 a KAL0153-G<br>Ω B41303<br>Z 10 [1] aeeuiiaaiianianiiaiiiSePE|<br>4<br>N<br>10 0 SS)oe A<br>4 CNN<br>ENON: 1000 µF/100 V<br>10 CONTIN _1 10000 µF/40 V LH<br>ETH NH NCEE EAHVail<br>4 INTLT | Ae NA<br>10 CCITT _2 TTT<br>eT<br>4 PTTRETT PT Ta Tat Pe|fT<br>10 - _310 LEAT 1 10 2 ET 10 3 PTET 10 [4] TE 10 TE 5 10 6 Hz 10 7<br>— f<br>**----- End of picture text -----**<br>


## **Impedance Z** 

versus frequency f at different temperatures T for 100 µF/400 VDC Typical behavior 

**==> picture [156 x 187] intentionally omitted <==**

**----- Start of picture text -----**<br>
10 3 a KAL0325-N<br>Ω B43303<br>Z FoST<br>10 2 BOD ell<br>ei _40 ˚C Corr<br>4<br>\ Ll ING<br>10 1 LL TINC TET TITRA ING TTT<br>QIN _25 ˚C<br>4<br>ONENAS<br>10 [0] 0 ˚C<br>LI AIT TRAE TUT TNS<br>CUTIEeC TEINTiSIPN<br>4 CET APE 20 ˚C ee<br>CCIENo<br>10 _1<br>ECU TIN<br>4 EaPOIECAI A 85 ˚C ao<br>10 - _210 LEU [1] 10 [2] TTT 10 3 ET 10 4 Pa 10 5 TT Hz 10 6<br>f<br>**----- End of picture text -----**<br>


**222** 10/02 

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