100RUH68ME11

Polymer Aluminium Electrolytic Capacitor, 68 µF, 100 V, Radial Leaded, 0.03 ohm

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Manufacturer: VINATECH
Product type: Aluminium Polymer Capacitors
ESR: 0.03ohm
SVHC: No SVHC (25-Jun-2025)
Capacitance: 68µF
Voltage(DC): 100V
Product Range: RUH Series
Product Width: -
Product Height: 11.5mm
Product Length: -
Ripple Current: 2.8A
Product Diameter: 10mm
Capacitor Mounting: Through Hole
Capacitor Terminals: Solder
Capacitance Tolerance: ± 20%
Lifetime @ Temperature: 3000 hours @ 105°C
Capacitor Case / Package: Radial Leaded
Operating Temperature Max: 105°C
Operating Temperature Min: -55°C

Delivery and price
Units per pack	800
Price	1.02 €
Current stock	500+
Lead time	30 days

Datasheet

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Halogen<br>Less<br>oe ROHS]<br>**----- End of picture text -----**<br>


|**Items**<br>Temperature range<br>~~a~~<br>Temperature range|**Characteristics**<br>-55 to +105°C<br>~~a~~<br>-55 to +105°C|**Characteristics**<br>-55 to +105°C<br>~~a~~<br>-55 to +105°C|
|---|---|---|
|Rated voltage range<br>Rated voltage range|63 to 125Vdc<br>63 to 125Vdc||
|Capacitance range<br>Capacitance range|8.2 to 330µF<br>8.2 to 330UF||
|Capacitance tolerance<br>Capacitance tolerance|±20%[M] (at 20°C,120Hz)<br>+20% [M] (at 20°C, 120Hz)||
|Tangent of loss angle<br>Tangent of loss angle|Less than or equal to the value of Standard Ratings(at 20°C,120Hz)<br>Less than or equal to the value of Standard Ratings (at 20°C, 120Hz)||
|Leakage current<br>Leakage current|Less than or equal to the value of Standard Ratings(at 20°C,after 2 minutes)<br>Less than or equal to the value ofStandard Ratings (at 20°C, after 2 minutes)||
|ESR<br>ESR|Less than or equal to the value of Standard Ratings<br>Less than or equal to the value of Standard Ratings||
|Characteristics of impedance<br>Characteristics ofimpedance|Z+105°C/Z+20°C≤ 1.25,Z-55°C/Z+20°C≤ 1.25 at 100kHz<br>Z+i05ec/Z+20°¢ < 1.25, Z-s5°c/Z+20°¢ < 1.25 at 100kHz||
|Endurance<br>Endurance|105°C,3,000 hrs at rated voltage<br>105°C, 3,000 hrs at rated voltage||
||Appearance|No significant damage<br>No significant damage|
||Capacitance change|Within±20% of the initial value<br>~~Within+20%of theinitialvalue~~|
||Tangent of loss angle(tanδ)|≤150% of the initial specified value<br>~~Within+20% of the initial value~~<br><150% ofthe initial specified value|
||ESR(mΩ)|≤150% of the initial specified value<br><150% ofthe initial specified value|
||Leakage current|≤The initial specified value<br><the initial specified value|
|Damp Heat (Steady State)<br>DampHeat(SteadyState)|60°C,90 to 95% RH,1,000 hrs,No-applied Voltage<br>60°C, 90 to 95% RH, 1,000 hrs, No-applied Voltage||
||Appearance|No significant damage<br>No significant damage|
||Capacitance change|Within±20% of the initial value<br>~~Within+20%of theinitialvalue~~<br><150%oftheinitialspecifiedvalue|
||Tangent of loss angle(tanδ)|≤150% of the initial specified value<br>~~Within+20% of the initial value~~<br><150% ofthe initial specified value|
||ESR(mΩ)|≤150% of the initial specified value<br><150% ofthe initial specified value|
||Leakage current|≤The initial specified value<br><the initial specified value|
|Resistance to soldering heat<br>Resistanceto soldering heat|Flow method(260±5°C,10s)<br>Flow method (260+5°C, 10s)||
||Appearance|No significant damage<br>No significant damage|
||Capacitance change|Within±10% of the initial value<br>~~Within+10%of theinitialvalue~~|
||Tangent of loss angle(tanδ)|≤130% of the initial specified value<br>~~Within+10% of the initial value~~<br><130% ofthe initial specified value|
||ESR(mΩ)|≤130% of the initial specified value<br><130% ofthe initial specified value|
||Leakage current|≤The initial specified value<br><the initial specified value|



|**µF**<br>**R V**<br>**(SV)**<br>8.2<br>Dees<br>8.2|**R V**<br>**63**<br>**(72.4)**<br>6.3×6<br>Dees<br>(72.4)<br>6.3x6|**80**<br>**(92)**<br>Dees<br>(92)|**100**<br>**(115)**<br>Dees<br>(115)|**125**<br>**(143)**<br>Dees<br>(143)|
|---|---|---|---|---|
|10|8×7||8×11.5|8×11.5|
|12<br>7||8×11.5<br>|||
|15<br>|8×7<br>||8×11.5<br>|8×11.5|
|18<br>~~ce~~|~~ce~~|~~ce~~|10×11.5<br>~~ce~~||
|22<br>~~ce~~<br>~~n|~~|~~ce~~<br>~~|ens|~~|10×11.5<br>~~ce~~<br>~~|~~|10×11.5<br>~~ce~~<br>~~|~~|~~|~~|
|27<br>~~n|~~|8×11.5<br>~~|ens|~~|10×11.5<br>~~|ws)~~|~~ws)|~~|~~|~~|
|33<br>~~n |~~|8×11.5<br>~~| ens |~~|~~|~~|~~|~~|10×11.5<br>~~|~~|
|39|8×11.5||||
|47<br>~~STS~~|10×11.5<br>~~STS Te~~|~~Te~~|||~~amas~~||||
|56<br>~~STS~~|10×11.5<br>~~STS Te~~|~~Te~~|||~~amas~~||||
|68<br>~~STS~~|~~STS Te~~|10×11.5<br>~~Te~~||10×11.5<br>|~~amas~~||||
|82||10×11.5|||
|100<br>~~120~~|10×11.5||10×16||
|120<br>~~120~~|10×11.5||||
|330<br>~~120~~|10×16||||



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4A4 Date Code<br>RUH Series<br>15 Rated capacitance [㎌]<br>100V Rated voltage [V]<br>**----- End of picture text -----**<br>


|**Size**<br>6.3×6|**ØD±0.5**<br>6.3|**L**<br>6.0|**L'**<br>Lma×<br>~~|~~|**P±0.5**<br>2.5|**Ød**<br>0.45|
|---|---|---|---|---|---|
|8×7<br>~~Bis|~~|8.0<br>~~|80|~~|7.0<br>~~|15|~~||3.5|0.45<br>~~0.60~~|
|8×11.5<br>~~Bis|~~|8.0<br>~~|80|~~|11.5<br>~~|15|~~|L+1.0ma×<br>~~|~~|3.5|0.60<br>~~0.60~~|
|10×11.5<br>~~Bis |~~|10.0<br>~~| 80 |~~|11.5<br>~~| 15 |~~||5.0|0.60<br>~~0.60~~|
|10×16<br>~~10x16~~|10.0|16.0||5.0|0.60<br>~~0.60~~|



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Rated Ripple<br>Rated Rated Size ESR Tangent of  Leakage<br>Current Part<br>Voltage Capacitance ØD x L (20°C,100kHz) Loss Angel Current<br>(105°C,100kHz) Number<br>[Vdc] [µF] [mm] [mΩ] [max.] [max.] [µA, max.]<br>[mArms]<br>8.2 6.3 x 6 55 1200 0.12 103 63RUH6R8MC6<br>10 8 x 7 50 1400 0.12 126 63RUH10MD7<br>15 8 x 7 50 1500 0.12 189 63RUH15MD7<br>27 8 x 11.5 35 2800 0.12 340 63RUH27MD11<br>33 8 x 11.5 30 3000 0.12 416 63RUH33MD11<br>63 39 8 x 11.5 29 3400 0.12 491 63RUH39MD11<br>47 10 x 11.5 29 3300 0.12 592 63RUH47ME11<br>56 10 x 11.5 28 3400 0.12 706 63RUH56ME11<br>100 10 x 11.5 25 4000 0.12 1260 63RUH100ME11<br>120 10 x 11.5 25 4000 0.12 1512 63RUH120ME11<br>330 10 x 16 20 4500 0.12 4158 63RUH330ME11<br>12 8 x 11.5 38 1900 0.12 192 80RUH12MD11<br>22 8 x 11.5 38 2000 0.12 352 80RUH22MD11<br>22 10 x 11.5 35 2300 0.12 352 80RUH22ME11<br>27 10 x 11.5 35 2400 0.12 432 80RUH27ME11<br>80<br>47 8 x 11.5 35 2600 0.12 752 80RUH47MD11<br>47 10 x 11.5 28 3000 0.12 752 80RUH47ME11<br>68 10 x 11.5 30 3000 0.12 1088 80RUH68ME11<br>82 10 x 11.5 30 3200 0.12 1312 80RUH82ME11<br>10 8 x 11.5 42 1800 0.12 200 100RUH10MD11<br>15 8 x 11.5 40 2000 0.12 300 100RUH15MD11<br>18 10 x 11.5 38 2200 0.12 360 100RUH18ME11<br>22 10 x 11.5 38 2300 0.12 440 100RUH22ME11<br>100<br>39 10 x 11.5 35 2500 0.12 780 100RUH39ME11<br>47 10 x 11.5 35 2600 0.12 940 100RUH47ME11<br>68 10 x 11.5 30 2800 0.12 1360 100RUH68ME11<br>100 10 x 16 25 3200 0.12 2000 100RUH100ME16<br>10 8 x 11.5 50 1500 0.12 250 125RUH10MD11<br>125 15 8 x 11.5 50 1800 0.12 375 125RUH15MD11<br>33 10 x 11.5 40 2000 0.12 825 125RUH33ME11<br>**----- End of picture text -----**<br>


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Updated at June 9, 2026

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