PCH1D151MCL4GS

**CONDUCTIVE  POLYMER  ALUMINUM  SOLID  ELECTROLYTIC  CAPACITORS** 

## Chip Type, Higher Capacitance **NEW** High Temperature Range **PCH** ~~ev~~ F ~~4 [~~ a ~~—~~ 

High reliability, High voltage (to 80V). : Low ESR, High ripple current.Long life of 4000 hours at 135°C. **PCZ** HighTemperature Current **PCH** Frequency HighTemperature **PCR** Feature SMD type : Lead free reflow soldering conditi ~~o~~ n at 260°C peak complete correspondence. 

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|Compliant to the RoHS directive (2011/65/EU,(EU)2015/863).|
|:|ESR after Endurance at -40°C.AEC-Q200 compliant. Please contact us for details.|
|a|Specifications|
|a|Item|Performance Characteristics|
|Category Temperature Range|–55 to +135°C|
|eS|Rated Voltage Range|16 to 80V|
|eeTT|Rated Capacitance Range|12 to 1000μF|
|Capacitance Tolerance|± 20%   at 120Hz, 20°C|
|—|Tangent of loss angle (tan δ)|Less than or equal to the specified value at 120Hz, 20°C|
|—a|ESR|[ (]|1)|Less than or equal to the specified value at 100kHz, 20°C|
|Leakage Current (|2)|After 2 minutes' application of rated voltage, leakage current is not more than 0.03CV or 3(μA), whichever is greater.|
|TS|Temperature Characteristics|Z–|55°C / Z+20°C|1.25       (100kHz)|
|(Max.Impedance Ratio)|
|Capacitance change|Within ± 20% of initial capacitance value (|3)|
|The specifications listed at right shall be met when the|tan δ|150% or less of the initial specified value|
|Endurance|applied for 4000 hourscapacitors are restored to 20°C after  the rated voltage is at 135°C.|a|ESR|(|a|1)|200% or less of the initial specified value|
|———Pw|Leakage current (|2)|Less than or equal to the initial specified value|
|SSS|
|Shelf Life|After storing the capacitors under no load at 135°C for 1000 hours and then performing voltage treatment based on JIS C 5101-4|
|clause 4.1 at 20°C, they shall meet the specified values for the endurance characteristics listed above.|
|ESR after Endurance|[ (]|1)|Less than or equal to the specified value at 100kHz, -40°C|
|Capacitance change|Within ± 20% of initial capacitance value (|3)|
|Damp Heat|The specifications listed at right shall be met when the|tan δ|150% or less of the initial specified value|
|(Steady State)|capacitors are restored to 20°C after the rated voltage is applied for 2000 hours at 85°C, 85% RH.|a|ESR|(|a|1)|200% or less of the initial specified value|
|ee|————|Leakage current (|2)|Less than or equal to the initial specified value|
|After soldering the capacitor under the soldering conditions prescribed|
|here, the capacitor shall meet the specifications listed at right.|
|Pre-heating shall be done at 150 to 200°C and for 60 to 180 sec.|Capacitance change|Within ± 10% of the initial capacitance value (|3)|
|Resistance to|The duration for over +230°C temperature at capacitor surface shall|tan δ|130% or less than the initial specified value|
|Soldering Heat|not exceed 60 seconds.In case peak temperature is 260°C or less, reflow soldering shall be|a|ESR|(|1)|130% or less than the initial specified value|
|two times maximum.|Leakage current (|2)|Less than or equal to the initial specified value|
|Measurement for solder temperature profile shall be made at the|
|a|capacitor top.|
|a|Marking|Navy blue print on the case top|
|1  ESR should be measured at both of the terminal ends closest where the terminals protrude through the plastic platform.|
|2  Conditioning : If any doubt arises, measure the leakage current after the voltage treatment of applying DC rated voltage continuously to the capacitor for 120|
|minutes at 105°C.|Type numbering system  (Example : 35V 150μF)|
|3  Initial value : The value before test of examination of resistance to soldering.|
|1|2|3|4|5|6|7|8|9|10|11|12|13|14|
|n|Dimensions|P|C|H|1|V|1|5|1|M|C|L|1|G|S|
|_|Standard|.|Positive|ooo|oo|Taping code|
|Plastic platform|Size code|
|Capacitance|Lot No.|0.3 MAX.|C±0.2|Configuration|
|ay|||Capacitance tolerance (±20%)|L——|Configuration|code|
|Rated capacitance (150µF) (150µF)150µF))|Standard|L|
|+|||=|Rated voltage (35V) (35V)35V))|-——|Vibration Resistance|S|
|Series name|
|Type|
|S|a|ta|
|Series|Voltage (V:35V)|φφ8,106.3:|L:|L±0.3±0.5|H|Negative|Standard SizeSize|φ6.3 × 6L6.3 × 6L× 6L6L|φ6.3 × 8L6.3 × 8L× 8L8L|φ8 × 7L8 × 7L× 7L7L|φ8 × 10L8 × 10L× 10L10L|φ8 × 12L8 × 12L× 12L12L|φ10 × 8L10 × 8L× 8L8L|φ10 × 10L10 × 10L× 10L10L|φ10  (mm) × 12.7L10  (mm) × 12.7L (mm) × 12.7L× 12.7L12.7L|Vibration Resistance SizeSize|φ6.3 × 8L6.3 × 8L× 8L 8L|φ8 × 10.5L8 × 10.5L× 10.5L 10.5L|φ10 × 10.5L10 × 10.5L× 10.5L 10.5L|φ10  (mm) × 13.2L10  (mm) × 13.2L (mm) × 13.2L× 13.2L13.2L|
|Positive|φDD|6.3|6.3|8.0|8.0|8.0|10.0|10.0|10.0|φDD|6.3|8.0|10.0|10.0|
|[|Vibration Resistance|ES|S|FEEERFEEE|L|5.9|7.9|6.9|9.9|11.9|7.9|9.9|12.6|L|7.5|10.0|10.0|12.7|
|Capacitance|Lot No.|}|Plastic platform|+|||A|||7.3|||7.3|f|9.0|||9.0|||9.0|fF|11.0|ft|11.0|ft|11.0|A|7.3|9.0|11.0|11.0|
|0.3 MAX.|C±0.2||||B|6.6|||6.6|{||8.3|||8.3|||8.3|fo|10.3|||10.3|ft|10.3|B|6.6|8.3|10.3|10.3|
|.|ae|FRREEEEEE|C|6.6|6.6|8.3|8.3|8.3|10.3|10.3|10.3|C|6.6|8.3|10.3|10.3|
|U|s|i|E|2.1|2.1|3.2|3.2|3.2|4.6|4.6|4.6|E|2.5|3.1|4.6|4.6|
|H|0.5 to 0.8|0.5 to 0.8|0.8 to 1.1|0.8 to 1.1|0.8 to 1.1|0.8 to 1.1|0.8 to 1.1|0.8 to 1.1|H|0.5 to 0.8|1.1 to 1.5|1.1 to 1.5|1.1 to 1.5|
|ae|Voltage|ee|Frequency coefficient of rated ripple current|
|L±0.5|H|V 16 20 25 35 50 63 80|Frequency0/ 120Hz 1kHzquency0/ 120Hz 1kHzuency0/ 120Hz 1kHzy0/ 120Hz 1kHz0/ 120Hz 1kHz 120Hz 1kHz|10kHz|100kHz or more|
|Series|Voltage (V:35V)|Negative|
|°|--—|l|N|s|oS|Code|C|D|E|V|H|J|K|Coefficient|0.05 0.30 0.70|1.00|

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Type numbering system  (Example : 35V 150μF) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 P C H 1 V 1 5 1 M C L 1 G S ooo oo Taping code Size code Configuration Capacitance tolerance (±20%) L—— Configuration code Rated capacitance (150µF) (150µF)150µF)) Standard L | = Rated voltage (35V) (35V)35V)) -—— Vibration Resistance S Series name Type Standard SizeSize φ6.3 × 6L6.3 × 6L× 6L6L φ6.3 × 8L6.3 × 8L× 8L8L φ8 × 7L8 × 7L× 7L7L φ8 × 10L8 × 10L× 10L10L φ8 × 12L8 × 12L× 12L12L φ10 × 8L10 × 8L× 8L8L φ10 × 10L10 × 10L× 10L10L φ10  (mm) × 12.7L10  (mm) × 12.7L (mm) × 12.7L× 12.7L12.7L Vibration Resistance SizeSize φ6.3 × 8L6.3 × 8L× 8L 8L φ8 × 10.5L8 × 10.5L× 10.5L 10.5L φ10 × 10.5L10 × 10.5L× 10.5L 10.5L φ10  (mm) × 13.2L10  (mm) × 13.2L (mm) × 13.2L× 13.2L13.2L φDD 6.3 6.3 8.0 8.0 8.0 10.0 10.0 10.0 φDD 6.3 8.0 10.0 10.0 ~~FEEERFEEE~~ L 5.9 7.9 6.9 9.9 11.9 7.9 9.9 12.6 L 7.5 10.0 10.0 12.7 ~~|~~ A ~~|~~ 7.3 ~~|~~ 7.3 ~~f~~ 9.0 ~~|~~ 9.0 ~~|~~ 9.0 ~~fF~~ 11.0 ~~ft~~ 11.0 ~~ft~~ 11.0 A 7.3 9.0 11.0 11.0 ~~||~~ B 6.6 ~~|~~ 6.6 ~~{|~~ 8.3 ~~|~~ 8.3 ~~|~~ 8.3 ~~fo~~ 10.3 ~~|~~ 10.3 ~~ft~~ 10.3 B 6.6 8.3 10.3 10.3 ~~FRREEEEEE~~ C 6.6 6.6 8.3 8.3 8.3 10.3 10.3 10.3 C 6.6 8.3 10.3 10.3 ~~i~~ E 2.1 2.1 3.2 3.2 3.2 4.6 4.6 4.6 E 2.5 3.1 4.6 4.6 H 0.5 to 0.8 0.5 to 0.8 0.8 to 1.1 0.8 to 1.1 0.8 to 1.1 0.8 to 1.1 0.8 to 1.1 0.8 to 1.1 H 0.5 to 0.8 1.1 to 1.5 1.1 to 1.5 1.1 to 1.5 Voltage ~~ee~~ Frequency coefficient of rated ripple current V 16 20 25 35 50 63 80 Frequency0/ 120Hz 1kHzquency0/ 120Hz 1kHzuency0/ 120Hz 1kHzy0/ 120Hz 1kHz0/ 120Hz 1kHz 120Hz 1kHz 10kHz 100kHz or more ~~oS~~ Code C D E V H J K Coefficient 0.05 0.30 0.70 1.00 φ6.3×8L(φ6.3×8L),φ8×10L(φ8×10.5L),φ10×10L(φ10×10.5L),φ10×12.7L(φ10×13.2L) : The vibration structure-resistant product is also available upon request, please ask for details. (   ) : Size of the vibration structure-resistant product. 

Aid electrode 

Dimension table in next page. 

58 

**CONDUCTIVE  POLYMER  ALUMINUM  SOLID  ELECTROLYTIC  CAPACITORS** 

## **PCH** 

## Dimensions 

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Initial Low temp.<br>Rated Voltage(V)(code) Surge Voltage (V) Rated Capacitance(µF) φCase SizeD × L (mm) tan δ (20°C / 100kHz) (mESRΩ) (-40°C / 100kHz)EnduranceESR after (mΩ) (135°C / 100kHz)Rated Ripple(mArms) Part Number<br>120 6.3 × 6    0.08 36 72 900 PCH1C121MCL1GS<br>220   6.3 × 8      0.08 23 46 1500 PCH1C221MCL4GS<br>220 8 × 7 0.08 30 60 1100 PCH1C221MCL1GS<br>16 470   8 × 10 0.08 17 34 2400 PCH1C471MCL6GS<br>（1C） 20 470 10 × 8   0.08 22 44 1900 PCH1C471MCL1GS<br>560   8 × 12 0.08 16 32 2700 PCH1C561MCL1GS<br>680 10 × 10 0.08 19 38 2300 PCH1C681MCL1GS<br>1000    10 × 12.7 0.08 13 26 2500 PCH1C102MCL1GS<br>100 6.3 × 6    0.08 41 82 900 PCH1D101MCL1GS<br>150 6.3 × 8    0.08 25 50 1200 PCH1D151MCL4GS<br>150 8 × 7 0.08 39 78 800 PCH1D151MCL1GS<br>20 330   8 × 10 0.08 19 38 2300 PCH1D331MCL6GS<br>（1D） 25 330 10 × 8   0.08 23 46 1800 PCH1D331MCL1GS<br>470   8 × 12 0.08 18 36 2500 PCH1D471MCL1GS<br>560 10 × 10 0.08 20 40 2200 PCH1D561MCL1GS<br>680    10 × 12.7 0.08 14 28 3000 PCH1D681MCL1GS<br>56 6.3 × 6    0.08 43 86 900 PCH1E560MCL1GS<br>100 6.3 × 8    0.08 27 54 1100 PCH1E101MCL4GS<br>100 8 × 7 0.08 41 82 800 PCH1E101MCL1GS<br>25 220   8 × 10 0.08 20 40 2300 PCH1E221MCL6GS<br>（1E） 31 220 10 × 8   0.08 24 48 1800 PCH1E221MCL1GS<br>270   8 × 12 0.08 19 38 2300 PCH1E271MCL1GS<br>330 10 × 10 0.08 20 40 2200 PCH1E331MCL1GS<br>470    10 × 12.7 0.08 15 30 2900 PCH1E471MCL1GS<br>47 6.3 × 6    0.08 48 96 800 PCH1V470MCL1GS<br>68 6.3 × 8    0.08 31 62 1100 PCH1V680MCL4GS<br>  68 8 × 7 0.08 44 88 800 PCH1V680MCL1GS<br>35 150   8 × 10 0.08 22 44 2200 PCH1V151MCL6GS<br>（1V） 43 150 10 × 8   0.08 25 50 1800 PCH1V151MCL1GS<br>220   8 × 12 0.08 21 42 2300 PCH1V221MCL1GS<br>270 10 × 10 0.08 20 40 2200 PCH1V271MCL1GS<br>330    10 × 12.7 0.08 16 32 2800 PCH1V331MCL1GS<br>22 6.3 × 6    0.08 50 100 700 PCH1H220MCL1GS<br>39 6.3 × 8    0.08 36 72 900 PCH1H390MCL4GS<br>  39 8 × 7 0.08 45 90 900 PCH1H390MCL1GS<br>50   82   8 × 10 0.08 26 52 2100 PCH1H820MCL6GS<br>（1H） 63   82 10 × 8   0.08 34 68 1600 PCH1H820MCL1GS<br>120   8 × 12 0.08 25 50 2100 PCH1H121MCL2GS<br>120 10 × 10 0.08 25 50 2100 PCH1H121MCL1GS<br>180    10 × 12.7 0.08 19 38 2500 PCH1H181MCL1GS<br>12 6.3 × 6    0.08 51 102 700 PCH1J120MCL1GS<br>22 6.3 × 8    0.08 45 90 800 PCH1J220MCL4GS<br>  22 8 × 7 0.08 48 96 800 PCH1J220MCL1GS<br>63   39   8 × 10 0.08 28 56 1900 PCH1J390MCL1GS<br>（1J） 79   47 10 × 8   0.08 35 70 1500 PCH1J470MCL1GS<br>  56   8 × 12 0.08 27 54 2100 PCH1J560MCL1GS<br>  68 10 × 10 0.08 28 56 2000 PCH1J680MCL1GS<br>100    10 × 12.7 0.08 24 48 2100 PCH1J101MCL1GS<br>12 6.3 × 8    0.08 50 100 800 PCH1K120MCL1GS<br>27   8 × 10 0.08 38 76 1000 PCH1K270MCL1GS<br>80<br>（1K） 100 39   8 × 12 0.08 35 70 1100 PCH1K390MCL1GS<br>47 10 × 10 0.08 33 66 1200 PCH1K470MCL1GS<br>68    10 × 12.7 0.08 28 56 1500 PCH1K680MCL1GS<br>Rated ripple current  (mArms) at 135°C 100kHz<br>Taping specifications are given in page 23.  No marked,   1   will be put at 12th digit of type numbering system.<br>: In this case,   2   will be put at 12th digit of type numbering system.<br>Recommended land size, soldering by reflow are given in page 18, 19. : In this case,   4   will be put at 12th digit of type numbering system.<br>Please refer to page 3 for the minimum order quantity. : In this case,   6   will be put at 12th digit of type numbering system.<br>59<br>**----- End of picture text -----**<br>


Rated ripple current  (mArms) at 135°C 100kHz No marked, 1 will be put at 12th digit of type numbering system. : In this case, 2 will be put at 12th digit of type numbering system. : In this case, 4 will be put at 12th digit of type numbering system. : In this case, 6 will be put at 12th digit of type numbering system.