UUR1V221MNL1GS

ALUMINUM ELECTROLYTIC CAPACITOR 220UF 35

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Manufacturer: NICHICON
Product type:
ALUMINUM ELECTROLYTIC CAPACITOR 220UF 35V 20%, SMD; Capacitor Case / Package:Radial Can - SMD; Capacitance:220µF; Voltage(DC):35V; ESR:-; Lifetime @ Temperature:2000 hours @ 85°C
ESR: -
MSL: -
SVHC: 6,6'-di-tert-butyl-2,2'-methylenedi-p-cresol
Polarity: Polar
Capacitance: 220µF
Voltage(DC): 35V
Product Range: 0
Product Width: -
Qualification: AEC-Q200
Product Height: 10mm
Product Length: -
Ripple Current: 265mA
Product Diameter: 10mm
Capacitor Terminals: Solder
Capacitance Tolerance: 20%
Lifetime @ Temperature: 2000 hours @ 85C
Capacitor Case / Package: Radial Can - SMD
Operating Temperature Max: 85°C
Operating Temperature Min: -40°C

Delivery and price
Units per pack	1
Price	0.473 €
Current stock	10+
Lead time	30 days

Datasheet

**ALUMINUM  ELECTROLYTIC  CAPACITORS** 

## **UUR** 

Chip Type, High CV 

Chip type, higher capacitance. Designed for surface mounting on high density PC board. ~~3~~ Applicable to automatic mounting machine fed with carrier taCompliant to the RoHS directive (2011/65/EU,(EU)2015/863).pe. ~~:~~ AEC-Q200 compliant. Please contact us for details. **UUG** Extendedrange **UUR** m ~~i~~ e Higher (} C/V **UWX** Specifications Item Performance Characteristics Category Temperature Range –40 to +85°C ~~———~~ Rated Voltage Range 4 to 100V ~~—————————————~~ Rated Capacitance Range 3.3 to 1500µF ~~ee~~ Capacitance Tolerance ± 20% at 120Hz, 20°C Leakage Current After 1 minute's application of rated voltage at 20°C,  leakage current is not more than 0.03CV (µA) . ~~es~~ Measurement frequency : 120Hz at 20°C Tangent of loss angle (tan δ) Rated voltage (V) 4 6.3 10 16 25 35 50 63 100 tan (MAX.) 0.35 0.28 0.24 0.20 0.16 0.14 0.12 0.12 0.12 ~~SE~~ Measurement frequency: 120Hz Rated voltage (V) 4 6.3 10 16 25 35 50 63 100 Stability at Low Temperature Impedance ratio Z–25°C / Z+20°C 7 5 4 3 2 2 2 2 2 ZT / Z20 (MAX.) Z–40°C / Z+20°C 15 10 8 6 4 3 3 3 3 ~~OE~~ The specifications listed at right shall be met when Capacitance change Within ±20% of the initial capacitance value Endurance the capacitors are restored to 20°C after the rated tan δ 200% or less than the initial specified value voltage is applied for 2000 hours at 85°C. Leakage current Less than or equal to the initial specified value ~~PP~~ Shelf Life After storing the capacitors under no load at 85°C for 1000 hours and then performing voltage treatment based on JIS C 5101-4 ~~SEE EEE EES~~ clause 4.1 at 20°C, they shall meet the specified values for the endurance characteristics listed above. ~~ee —~~ Resistance to soldering The capacitors are kept on a hot plate for 30 seconds, which is maintained at 250°C. The capacitors shall meet Catan pδacitance change Within ±10% of the initial caLess than or equal to the initial spacitance valuepecified value heat the characteristic requirements listed at right when they ~~i~~ are removed from the plate and restored to 20°C. Leakage current Less than or equal to the initial specified value ~~Ce~~ Marking Black print on the case top. 

## Chip Type 

Type numbering system  (Example : 10V 100µF) 

**==> picture [511 x 283] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 2 3 4 5 6 7 8 9 10 11 12 13 14<br> (φ6.3,  φ8  6.2)  Plastic platform Positive U U R 1 A 1 0 1 M C L 1 G S<br>Capacitance 1: 2Voltage o 0.3MAX. e C±0.2 Taping code<br>Lot No. Size code<br>® T I [ A T 7 i KV Configuration —<br>Trade mark1 Capacitance tolerance (±20%) φ D × L Code<br>Rated capacitance (100µF) 6.3 × 5.8 CL<br>= O L±0.3 H i Rated voltage (10V) 6.3 × 7.7 CL<br>Negative   8 × 6.2 CL<br>1 Size φ8 × 6.2 only Series name  8 × 10 NL<br>2 Voltage mark for 6.3V is   6V  .  Type 10 × 10 NL<br>i h e | [E= ==<br> (φ8  10,  φ10)<br>(mm)<br>Plastic platform Positive φ D × L 6.3 × 5.8 6.3 × 7.7 8 × 6.2 8 × 10 10 × 10<br>Lot No. Capacitance 0.3MAX. C±0.2 A 2.4 2.4 3.3 2.9 3.2<br>Trade mark 2 Voltage B 6.6 6.6 8.3 8.3 10.3<br>C 6.6 6.6 8.3 8.3 10.3<br>E 2.2 2.2 2.3 3.1 4.5<br>L 5.8 7.7 6.2 10 10<br>H 0.5 to 0.8 0.5 to 0.8 0.5 to 0.8 0.8 to 1.1 0.8 to 1.1<br>L±0.5 H<br>Ooi |__ | — thX 6 Negative .<br>Pressure relief vent Frequency coefficient of rated ripple current<br>Cap.(µF) Frequency 50 Hz  120 Hz  300 Hz  1 kHz      10 kHz or more<br>00 Less than 47V 0.80  1.00  1.15  1.40  1.67<br>100 to 1500 0.85  1.00  1.08  1.20      1.30<br>Dimension table in next page.<br>— ee eee<br>0.5MAX.<br>A±0.2<br>0.5± E<br>A2 100 10V Dφ B±0.2 A±0.2<br>0.5MAX.<br>A±0.2<br>E<br>A2 220 16V D±0.5φ B±0.2 A±0.2<br>**----- End of picture text -----**<br>


— CAT.8100J 

**ALUMINUM  ELECTROLYTIC  CAPACITORS** 

## **UUR** 

## **■** Dimensions 

**==> picture [512 x 35] intentionally omitted <==**

**----- Start of picture text -----**<br>
Rated Voltage（V） CapacitanceRated Case Size tan δ Leakage Current（ [µA] ） Rated Ripple（mArms） Part Number<br>（code） （µF） φD×L（mm） （ at 20℃ after 1 minute ） （85℃/120Hz）<br>**----- End of picture text -----**<br>


|Rated Voltage<br>（V）<br>（code）|Rated<br>Capacitance<br>（µF）|Case Size<br>φD×L（mm）|tanδ|Leakage Current<br>（µA）<br>（<br>at 20℃ after<br>1 minute ）|Rated Ripple<br>（mArms）<br>（85℃/120Hz）|Part Number|
|---|---|---|---|---|---|---|
||||||||
|4<br>（0G）|330|6.3×5.8|0.35|39.6|152|UUR0G331MCL1GS|
||470|6.3×7.7|0.35|56.4|200|UUR0G471MCL1GS|
||680|8×10|0.35|81.6|284|UUR0G681MNL1GS|
||1000|8×10|0.35|120|344|UUR0G102MNL1GS|
||1500|10×10|0.35|180|347|UUR0G152MNL1GS|
|6.3<br>（0J）|220|8×6.2|0.28|41.58|160|UUR0J221MCL1GS|
||220|6.3×5.8|0.28|41.58|143|UUR0J221MCL6GS|
||330|8×6.2|0.28|62.37|190|UUR0J331MCL1GS|
||330|6.3×7.7|0.28|62.37|188|UUR0J331MCL6GS|
||470|8×10|0.28|88.83|265|UUR0J471MNL1GS|
||680|8×10|0.28|128.52|318|UUR0J681MNL1GS|
||1000|10×10|0.28|189|400|UUR0J102MNL1GS|
||1000|8×10|0.28|189|372|UUR0J102MNL6GS|
||1500|10×10|0.28|283.5|489|UUR0J152MNL1GS|
|10<br>（1A）|100|6.3×5.8|0.24|30|70|UUR1A101MCL1GS|
||150|6.3×5.8|0.24|45|85|UUR1A151MCL1GS|
||220|8×6.2|0.24|66|175|UUR1A221MCL1GS|
||220|6.3×7.7|0.24|66|173|UUR1A221MCL6GS|
||330|8×10|0.24|99|240|UUR1A331MNL1GS|
||470|8×10|0.24|141|290|UUR1A471MNL1GS|
||680|10×10|0.24|204|374|UUR1A681MNL1GS|
||1000|10×10|0.24|300|454|UUR1A102MNL1GS|
|16<br>（1C）|100|8×6.2|0.20|48|125|UUR1C101MCL1GS|
||150|6.3×7.7|0.20|72|151|UUR1C151MCL1GS|
||220|8×10|0.20|105.6|215|UUR1C221MNL1GS|
||220|6.3×7.7|0.20|105.6|162|UUR1C221MCL6GS|
||330|8×10|0.20|158.4|270|UUR1C331MNL1GS|
||470|10×10|0.20|225.6|330|UUR1C471MNL1GS|
||470|8×10|0.20|225.6|307|UUR1C471MNL6GS|
||680|10×10|0.20|326.4|396|UUR1C681MNL1GS|
|25<br>（1�）|47|6.3×5.8|0.16|35.25|65|UUR1�470MCL1GS|
||100|8×6.2|0.16|75|145|UUR1�101MCL1GS|
||100|6.3×7.7|0.16|75|143|UUR1�101MCL6GS|
||150|8×10|0.16|112.5|192|UUR1�151MNL1GS|
||220|10×10|0.16|165|250|UUR1�221MNL1GS|
||220|8×10|0.16|165|232|UUR1�221MNL6GS|
||330|10×10|0.16|247.5|305|UUR1�331MNL1GS|
||330|8×10|0.16|247.5|284|UUR1�331MNL6GS|
||470|10×10|0.16|352.5|393|UUR1�471MNL1GS|
|35<br>（1V）|33|6.3×5.8|0.14|34.65|55|UUR1V330MCL1GS|
||47|8×6.2|0.14|49.35|105|UUR1V470MCL1GS|
||47|6.3×5.8|0.14|49.35|94|UUR1V470MCL6GS|
||100|8×10|0.14|105|175|UUR1V101MNL1GS|
||100|6.3×7.7|0.14|105|132|UUR1V101MCL6GS|
||150|8×10|0.14|157.5|214|UUR1V151MNL1GS|
||220|10×10|0.14|231|265|UUR1V221MNL1GS|
||220|8×10|0.14|231|246|UUR1V221MNL6GS|
||330|10×10|0.14|346.5|324|UUR1V331MNL1GS|



CAT.8100J 

**ALUMINUM  ELECTROLYTIC  CAPACITORS** 

## **UUR** 

## **■** Dimensions 

**==> picture [512 x 35] intentionally omitted <==**

**----- Start of picture text -----**<br>
Rated Voltage（V） CapacitanceRated Case Size tan δ Leakage Current（ [µA] ） Rated Ripple（mArms） Part Number<br>（code） （µF） φD×L（mm） （ at 20℃ after 1 minute ） （85℃/120Hz）<br>**----- End of picture text -----**<br>


|Rated Voltage<br>（V）<br>（code）|Rated<br>Capacitance<br>（µF）|Case Size<br>φD×L（mm）|tanδ|Leakage Current<br>（µA）<br>（<br>at 20℃ after<br>1 minute ）|Rated Ripple<br>（mArms）<br>（85℃/120Hz）|Part Number|
|---|---|---|---|---|---|---|
||||||||
|50<br>（1H）|22|6.3×5.8|0.12|33|45|UUR1H220MCL1GS|
||33|8×6.2|0.12|49.5|95|UUR1H330MCL1GS|
||33|6.3×7.7|0.12|49.5|94|UUR1H330MCL6GS|
||47|8×10|0.12|70.5|140|UUR1H470MNL1GS|
||47|6.3×7.7|0.12|70.5|105|UUR1H470MCL6GS|
||100|10×10|0.12|150|195|UUR1H101MNL1GS|
||100|8×10|0.12|150|181|UUR1H101MNL6GS|
||150|10×10|0.12|225|238|UUR1H151MNL1GS|
||220|10×10|0.12|330|289|UUR1H221MNL1GS|
|63<br>（1J）|4.7|6.3×5.8|0.12|8.883|31|UUR1J4R7MCL1GS|
||10|8×6.2|0.12|18.9|46|UUR1J100MCL1GS|
||22|8×10|0.12|41.58|96|UUR1J220MNL1GS|
||33|8×10|0.12|62.37|117|UUR1J330MNL1GS|
||47|8×10|0.12|88.83|140|UUR1J470MNL1GS|
||100|10×10|0.12|189|232|UUR1J101MNL1GS|
|100<br>（2A）|3.3|6.3×5.8|0.12|9.9|29|UUR2A3R3MCL1GS|
||4.7|8×6.2|0.12|14.1|40|UUR2A4R7MCL1GS|
||4.7|6.3×5.8|0.12|14.1|35|UUR2A4R7MCL6GS|
||10|8×10|0.12|30|77|UUR2A100MNL1GS|
||22|8×10|0.12|66|100|UUR2A220MNL1GS|
||33|10×10|0.12|99|130|UUR2A330MNL1GS|
||47|10×10|0.12|141|155|UUR2A470MNL1GS|



Taping specifications are given in page 20. 

Recommended land size, soldering by reflow are given in page 16, 17. 

Please select UUG(p.181) if high CV products are required. 

Please refer to page 3 for the minimum order quantity. 

CAT.8100J

Updated at April 27, 2026

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