Type 4CMX 85 C, High-Cap, Computer Grade, Radial Leaded Best Value Printed Circuit Mount Type These capacitors are designed for power supply filters, welding equipment, computer hold up power and other industrial applications requiring high capacitance, low ESR and high ripple currents. Highlights * Low ESR * High Ripple Currents High Capacitance Printed-circuit Mounting Specifications Operating Temperature: 40 C to +85 C Rated Voltage: 6.3 to 450 Vdc Capacitance: 58 to 510,000uF Capacitance Tolerance: 10% + 75% Leakage Current: <6 ~/CV A, 6 max, 5 min, Cold Impedance: ~20 C multiple of 25 C Z< 20 for 6.3 to 10 V, 8 for 16 to 50 V, 4 for 63 to 100 V, 3 for 150 V & up Ripple Current Multipliers: Ambient Temperatures ok> 45C | 55C | 65C | 75C | 85C B23 2.00 | 200 | 173 | 1.41 1.00 ees f 400X Q p 2.119 Frequency Jo seg 120H z kHz SkHz 10 kH 6.3to50V 0.80 085 1.00 105 108 1.08 1.08 63to250V 080 083 1.00 1.15 120 120 1.20 nee 300 t0500V 0.78 0.80 1.00 130 140 140 1.40 Load Life: 1,000 h @ +85 C and full load A Capacitance +20% ESR 200% of limit DCL 100% of limit Shelf Life: 500 h @ 85 C, capacitance, ESR and DCL, initial requirements Vibration: 10 to 55 Hz, 0.06 and 10 g max, 2 hin each plane. j 140 Technology Place Pelee CORNELL iter, 5.29657 DUBILIER (864) 843-2277, Fax (864) 843-3800 -du ; ; http://www.corne ilier.com Your Source For Capacitor Solutions E-mail: cde@cornell-dubilier.com 2.113Type 4CMX 85 C, High-Cap, Computer Grade, Radial Leaded Outline Drawings STRAIGHT LEADS (S) max r Ld. c & LAY DOWN, 3 LEADS (L) m NO INTERNAL CONNECTION a d j- _ t + ALL PINS At ' - | SONA Fb aon ten ue i Laydown Style Case Dimensions Case Inches Millimeters Code | 02.031 -LMAX C+.015 S+.031 E+.031 F2.015 | Dz.78 LMAX Cz.78 S+.78 E+.78 Fx.38 AK 1.375 1.75 050 0.175 0.25 0.55 34.93 4445 12.70 4.45 6.35 13.97 AA 1.375 2.25 0.50 0.175 0.25 0.55 34.93 57.15 = 12.70 4.45 6.35 13.97 AH 1.375 2.75 0.50 0.175 0.25 0.55 34.98 69.85 12.70 4.45 6.35 13.97 AB 1.375 3.25 0.50 0.175 0.25 0.55 34.93 8255 12.70 4.45 6.35 13.97 AJ 1.375 3.75 0.50 0.175 0.25 0.55 34.93 95.25 12.70 4.45 6.35 13.97 AC 1.375 4.25 0.50 0.175 0.25 0.55 34.93 107.95 12.70 4.45 6.35 13.97 AD 1.375 4.75 0.50 0.175 0.25 0.55 34.93 120.65 12.70 4.45 6.35 13.97 AE 1.375 5.25 0.50 0.175 0.25 0.55 34.93 133.35 12.70 4.45 6.35 13.97 AF 1.375 5.75 0.50 0.175 0.25 0.55 34.93 146.05 12.70 4.45 6.35 13.97 EA 1.75 2.25 0.70 0.375 0.35 0.90 4445 57.15 17.78 9.53 8.89 22.86 EH 1.75 2.75 0.70 0.375 0.35 0.90 4445 69.85 17.78 9.53 8.89 22.86 EB 1.75 3.25 0.70 0.375 0.35 0.90 44.45 82.55 17.78 9.53 8.89 22.86 EJ 1.75 3.75 0.70 0.375 0.35 0.90 4445 95.25 17.78 9.53 8.89 22.86 EC 1.75 4.25 0.70 0.375 0.35 0.90 44.45 107.95 17.78 9.53 8.89 22.86 | ED 1.75 4.75 0.70 0.375 0.35 0.90 44.45 120.65 17.78 9.53 8.89 22.86 | EE 1.75 5.25 0.70 0.375 0.35 0.90 44.45 133.35 17.78 9.53 8.89 22.86 | EF 1.75 5.75 0.70 0.375 0.35 0.90 44.45 146.05 17.78 9.53 8.89 22.86 BA 2.00 2.25 0.80 0.425 0.40 1.00 80.80 57.15 2032 1080 10.16 25.40 BH 2.00 2.75 0.80 0.425 0.40 1.00 50.80 69.85 20.32 1080 10.16 25.40 BB 2.00 3.25 0.80 0.425 0.40 1.00 50.80 82.55 20.32 10.80 10.16 25.40 BJ 2.00 3.75 0.80 0.425 0.40 1.00 50.80 95.25 20.32 10.80 10.16 25.40 BC 2.00 4.25 0.80 0.425 0.40 1.00 50.80 107.95 2032 1080 10.16 25.40 BD 2.00 475 0.80 0.425 0.40 1.00 50.80 12065 20.32 1080 10.16 25.40 BE 2.00 5.25 0.80 0.425 0.40 1.00 50.80 133.25 2032 10.80 10.16 25.40 BF 2.00 5.75 0.80 0.425 0.40 1.00 50.80 146.05 20.32 1080 10.16 25.40 Capacitors 3 == 28 4 Es Sa ta o Part Numbering System 4CMX 433 - U . AK Type Capacitance Tolerance Voltage Case Code Insulation Terminal 4CMX 100=10 uF M = +20% 6R3 = 6.3 Vdc 0 = None (blank) = Straight Leads 101=100 nF P=-10%+30% 063 = 63 Vdc 8 = PVC & standoffs L = Lay Down (3 leads) 102 = 1000 pF U= -10%+75% 100 = 100 Vdc 9 = Polyester 433 = 43,000 uF T= 10% +50% & standoffs 140 Technology Place Liberty, SC 29657 CDE CORNELL (864) 843-2277, Fax (864) 843-3800 DUBILIER http:/Avww.cornell-dubilier.com . / 2.114 E-mail: cde@cornell-dubilier.com Your Source For Capacitor SolutionsType 4CMX 85 C, High-Cap, Computer Grade, Radial Leaded Typical Performance Curves Impedance vs. Frequency Characteristics ESR vs. Temperature Characteristics (10 kHz) 10 100 1.0 ESR w = 10 a M F 3 ., 640Q0UF 150Vdc 3 1 g 01 wo *e, * ty > wa "Ine, a __Impedance |--.. 4 _14 z _ = 17,000uF 50Vde p>*" 3 tee ai 4. fa Capacitance oo Pao ta abe |__ 42,000uF 50Vde 212,000nF 12Vde 0.1 55 -40 -20 0 25 40 60 85 105 0.001 Temperature ("C) 100 1k 100k 1M 10M 10k Frequency (Hz) Type 4CMX Operating Life in Kilohours vs Ripple Current a 100 & So. = oc iy BS 2-5: 4 Te a 5 43 oo a q & 10 zx i 1 0 Of 02 03 04 OF 06 07 O8 OF 1 th 12 13 14 15 Rated Ripple-Current Multiple 140 Technology Place rele =e CORNELL i iperty, sc 29657 DUBILIER (864) 843-2277, Fax (864) 843-3800 . . http://www.cornell-dubilier.com Your Source For Capacitor Solutions -mail: cde@cornell-dubilier.com 2.115Type 4CMX 85 C, High-Cap, Computer Grade, Radial Leaded Ratings ESR Max.mQ2 Ripple Current Nom ESR Max.mQ - Ripple Current Nom Cap. Catalog +25 C A+ 85C Size {in} Cap. Catalog +25 C A+ 85C Size (in) uF Number 120Hz 10kHz 120Hz 10 kHz DXL uF Number 120 Hz 10kHz 120Hz 10 kHz DXL 6.3 Vde (8 Vde Surge) 16 Vde (20 Vde Surge) (cont'd) 43000 4CMX433U6R3AK8 = 43 26 46 6.3 13/8x 15/8 230000 4CMX234U016BC8 10 5.7 139 184 2x4 1/8 68000 4CMX683UER3AA8 28 17 6 79 13/8x2 1/8 260000 4CMX264U016BD8 84 53 158 199 2x4 5/8 92000 4CMX923U6R3AH8 = 21 13 73 97 13/8x2 5/8 300000 4CMX304U016BE8 = 74) 65.1 176 8621.2 2x5 1/8 120000 4CMX124U6R3AB8 17 11 82 107 138x318 330000 4CMX334U016BF8 7.10 (55.0 184 219 2x5 5/8 160000 4CMX164U6R3BA8_ 20 12 8.i tit 2x21 20 Vde (25 Vide Surge) 170000 4CMX174U6R3AC8) = 8.7) 86 12.10 12.8 13/8x4 8 210000 4CMX214U6R3BH8 15 9 95 13.9 2x2 5/8 22000 4CMX223U020AK8 45 26 45 6.3 13/8x1 5/8 270000 4CMX274U6R3BB8 13 7 11.0 15,7 2x3 1/8 34000 4CMX343U020AA8 29 17 5.9 79 13/8x2 1/8 300000 4CMX304U6R3EC8 10 68 12.7 163 13/4x4 1/8 47000 4CMX473U0Z20AH8 = 22 13 a4 97 13/8x2 5/8 330000 4CMX334U6R3BJ8_ 11 6.2 126 168 2x3 5/8 59000 4CMX593U020AB8 18 11 8.0 10.7 13/8x318 380000 4CMX384U6R3BC8 10 57 13.9 184 2x4 1/8 80000 4CMX803U020BA8 20 12 810 114 2x2 1/8 440000 4CMX444U6R3BD8 6.6 53 178 199 2x45/8 85000 4CMXB53U020AC8.13.885 9.9 129 13/8x41/8 500000 4CMXS04U6R3BE8 5.9 5.1 197 212 2x51/8| | 110000 4CMX114U020BH8 16 9.0 94 139 2x25/8 560000 4CMXS64U6R3BF8 5.7 49 205 221 2x55/81 | 140000 4CMXI44U020BB8 13 7.0 11 157 2x31/8 150000 4CMX154U020EC8 10 68 127 163 13/4x41/8 7.5 Vde (9 Vdc Surge) 170000 4CMX174U020BJ8 11 6.2126 = 168 2x 3.5/8 41000 4CMX413U7R5AK8 4400 264.5 6.3 13/8 x 15/8 200000 4CMX204U020BC8 10 57 139 184 2x41/8 65000 4CMX653U7ASAAS 29 17 G0 7.9 13/8 x2 1/8 220000 4CMX224U020BD8 8.5 5.3 15.7 8469199 2x45/8 88000 4CMX883U7R5AH8 22 8130 7.200 (97 13/8x25/8 250000 4CMX254U020BE8 75 51 174 212 2x51/8 110000 4CMX114U7R5AB8 17 11 8.1 10.7 13/8x3 1/8 280000 4CMX284U020BF8 71. 50 184 219 9x5 5/8 150000 4CMX154U7R5BA8 20 12 8.1 11.1 2x2 1/8 160000 4CMX164U7R5AC8 13 86 99 128 13/8x41/8 25 Vde (30 Vde Surge) 200000 4CMX204U7R5BH8 = 15 9 95 13.9 2x25/8 17000 4CMX173U025AK8 47 26 44 6.3 13/8x15/8 260000 4CMX264U7R5BB8 13 7 11.0 15.7 2x3 1/8 27000 4CMX273U025AA8 30 17 58 7.9 13/8x21/8 290000 4CMX294U7R5EC8 10 68 12.7 16.3 13/4x4 1/8 36000 4CMX363U025AH8 23 13 6.9 97 13/8x2 5/8 310000 4CMX314U7R5BJ8_ 11 6.2 12.6 168 2x3 5/8 46000 4CMX463U025AB8 18 11 79 10.7 13/8x31/8 370000 4CMX374U7A5BC8 10 5.7 139 184 2x4 1/8 61000 4CMXB13U025BA8 21 13 79 106 2x2 1/8 Capacitors > = & = < ua @ ua oO _ S a co x 420000 4CMX424U7R5BD8 83 5.3 15.9 19.9 2x 45/8 65000 4CMX653U025AC8 14 86 95 128 13/x41/8 480000 4CMX484U7R5BE8 7.3 5.1 17.7 21.2 2x5 1/8 84000 4CMX843U025BH8 17 9 9 13.9 2x25/8 530000 4CMXS34U7RSBF8_ 7 4.9 18.5 22) 2x55/8) | 410000 4CMX114U025BB8 14 97.1 106 156 2x31/8 40 Vide (12 Vde Surge) 120000 4CMX124U025EC8 10 68 127 163 13/4x41/8 130000 4CMX134U025BU8 11 6.2 126 168 2X3 5/8 37000 ACMX373U010AK8 440-26 4.56.3 13/8X 15/8] TF Gsqo09 acmxi54u025BC8 10. 5.7 139 184 2x41/8 0D seebs elon , iH s, ay ee 170000 4CMX174U025BD8 8.7 54 155 197 2x45/8 x 200000 4CMX204U025BE8 76 5.1 173 212 2x51/8 100000 4CMX104U010AB8.17=O11.=CtsBSs10.7:13/8X3-1/8 140000 4CMX144U010AC8 13-86 9.9 128. 13/8x41/8| [220000 ACMX224U025BF8 7.35.0 18.1 tg 2x5 5/8 140000 4CMX144U010BA8. 20. 212+2#81~COW.1~S*Ct DUB 30 Ve (36 Vide Surge) 190000 4CMX194U010BH8 15 9 95 139 2x25/8 14000 4CMX143U030AK8 48 2702S 4.2StS A 230000 4CMX234U010BB8 13 4 97 411.0 157 2x318 7000 ACMX2D3U00AA8 31=18StSG 260000 4CMX264U010EC8 10 68 12.7 16.3 13/4x41/8 30000 4CMX303U030AH8 23 13 67 9.7 13/8x25/8 280000 4CMX284U010B/8 11 6.2 126 16.8 2x3 5/8 38000 4CMX383U030AB8 19 1 76 10.7 13/8x34/8 13/8 x 15/8 76 13/8x2 1/8 eat ACNaadLolObEe : 23 Re es ee 54000 4CMX543U030AC8. 14.~OwT~=OBG)S(127 1:3/8x41/8 35.1 17. x 70000 4CMX703U030BH8 17 91 90 138 2x25/ 480000 4CMX484U010BF8 7 49 185 22.1 2x5 5/8 88000 4CMX883U030BB8 14 71 106 156 2x3 1/8 16 Vde (20 Vdc Surge) 98000 4CMX983U030EC8 12 68 106 163 13/4x41/8 P00 GCMXDBSUDIGAKS d4SDES*CCSSC DT GBaTGe| |110000 4CMXI14U030BI8 11 6.3 126 1662x358 130000 4CMXI34U030BC8 10 57 139 184 2x41/8 40000 4CMX403U016AA8 29 17045 6.3: 13/82 1/8 140000 4CMX144U030BD8 87 05.4 155 197 2x45/8 55000 4CMXSS3U016AH8 22 13 7.2 97 13/8x25/8 70000 4CMX703U016AB8 17 11 81 10.7 1.3/8x31/8| | 160000 ACMXT64U030BEB 7.6 5.1 17.3 212 2x5 1/8 94000 ACMX943U018BAB 20 12+~OB1~O11~SC x2 17] [180000 ACMX184U030BF8 73 5 (181 2192x558 99000 4CMX993U016AC8 13 86 99 128 13/8x41/8 40 Vdc (50 Vdc Surge) 130000 4CMX134U016BH8 15 9) 95139. 2x25/8, 180000 ACMXie4U01@BB8 13=*<~* NK BOK UB 9800 4CMX982U040AK8 49 27 42 6.1 13/8x15/8 180000 4CMX184U016EC8 10 68 127 163 13/4x41/8 m0 teMnoaueaoane x it ve tener 200000 4CMX204U016BJ8 11 62 126 168 2x358 : x 140 Technology Place Liberty, st 29657 CDE CORNELL (864) 843-2277, Fax (864) 843-3800 DUBILIER http://Awww.cornell-dubilier.com ; ; 2.116 E-mail: cde@cornell-dubiliercom Your Source For Capacitor SolutionsType 4CMX, 85 C, High-Cap, Computer Grade, Radial Leaded Ratings ESR Max.mQ Ripple Current Nom ESR Max.mQ Ripple Current Nom Cap. Catalog +25 C A+85C Size (in) Cap. Catalog +25 C A+85 Size (in) uF = Number 120Hz 10kKHz 120Hz 10KHz = DXL uF = Number 120Hz 10kHz 120Hz 10kHz DXL 40 Vdc (50 Vde Surge) (cont'd) 75 Vde (95 Vde Surge) (cont'd) 27000 4CMX273U040ABB_ 19) 117.5) '10.7 13/8x318 41000 4CMX413U075BE8 13 93 134 166 2x51/8 33000 4CMX333U040BA8 25 13 7.2 106 2x21 46000 4CMX463U075BF8 11 74 147 19 2x5 5/8 38000 4CMX383U040AC8_ 1400 887) 8812.7 13/8x41/8 46000 4CMX463U040BH8 19 9.2 85 137 2x25/8 100 Vde (125 Vde Surge) 58000 4CMX583U040BB8_ 15 =7.2 102 155 2x31 2400 4CMX242U100AK8 103 53.1 3.1 5.4 13/8x15/8 65000 4CMX653U040EC8 12 7.0 105 16 13/4x41/8 3800 4CMX382U100AA8 66 31 4.00 7.6 13/8 x2 1/8 70000 4CMX703U040BJ8 12 63 12 166 2x358 5200 4CMXS22UT00AH8_ 49 245.0 8.9 13/8 25/8 82000 4CMX823U040BC8 11 58 132 182 2x41/8 6600 4CMX662U100ABB 39 200 55 9.7 13/8x3 18 94000 4CMX943U040BD8 9.2 54 151 197 2x458 8800 ACMX882U100BA8_37 235.6 75 2x2 1/8 110000 4CMX114U040BE8_ 8.15.2 168 21.0 2x5 1/8 9300 4CMX832U100AC8 28 14067 11.3 13/8 x4 1/8 120000 4CMX124U040BF8 7.7 5.0 177 21.9 2x55 12000 4CMX123U100BH8 28 18 7.00 9.3 -2x25/8 15000 4CMX153U100BB8 23 14S 883s109)S 2 x 3.1/8 50 Vdc (65 Vdc Surge) 17000 4CMX173U100EC8_ 170 = 11s9.6Ss12.8 -13/4x4 1/8 6700 4CMX672U050AK8 49.207.+=ODSs= SBIR 18000 4CMX183U100BJ8_ 19 12 95 125 2x35/8 11000 4CMX113U050AA8 32 18 55 76 13/8x21/8 22000 4CMX223U100BC8 17 12 10.7 13.2 2x41/8 14000 4CMX143U050AH8 24 14 6.6 94 13/8x 25/8 25000 4CMX253U100BD8 15 12 11.9 14.2 2x 45/8 18000 4CMX183U050AB8 19 11 7.5 107 13/8x31/8 28000 4CMX283U100BE8 130 1113.1 15.3 2x5 1/8 26000 4CMX263U050ACB 14 =688 8812.6 13/8x4 1/8 150 Vide (180 Vdc Surge) 31000 4CMX313U050BH8 19 92 85 137 2x2 5/8 40000 4CMX403U050BB8 16 72 99 15.5 2x3 1/8 44000 4CMX443U050EC8 = 12 7.0 10.5 16.0 13/4x41/8 48000 4CMX483U050BJ8 12 6.4 12 16.5 2x3 5/8 920 4CMX921U150AK8 153 971 25 3.2 13/8x 1 5/8 1600 4CMX162U150AA8 87.5 55 3.2 47 13/8x2 1/8 2300 4CMX232U150AH8 63 38 3.8 6.1 13/8 x 2 5/8 a 56000 4CMX563U050BC8 11 5.8 132 182 2x41/8 en seven teoben 9 te a MD 8 go> 65000 4CMX653U0508D8 = 93 5.4 15 = 197 2x 45/8 4200 4CMX422U150AC835.~21~COwSC B41 325 73000 4CMX733U050BE8 82 52 167 210 2x51/8 5000 ACMXSO2UISOBH8 38 4203SCdG3OtCwDSSC DB 255 81000 4CMX813U050BF8 78 50 176 219 2x55/8 6400 4CMXB42U150BB8 28 418 O75~=~C BIB aes 63 Vie (75 Vdc Surge) 7300 4CMX732U150EC8 23 415 #883 11.0 13/4x41/8 7800 _4CMX782U150BU8 23 15 8.6 11.2 2x3 5/8 9200 4CMX922U150BC8 20 14 97 8=612.5 2x4 1/8 11000 4CMX113U150BD8 18 12 108 138 2x 45/8 12000 4CMX123U150BE8 16 1414.8 15.0 2x5 1/8 14000 4CMX143U150BF8 = 15 10 12.7 16.0 2x5 5/8 5100 4CMX512U063AK8 50 34 41 5.3 13/8x 15/8 8100 4CMX812U063AA8 32 22 5.4 6.9 13/8x2 1/8 11000 4CMX113U063AH8 24 17 6.5 8.2 13/8x 25/8 14000 4CMX143U063AB8 20 14 7.4 9.2 13/8x3 1/8 18000 4CMX183U063BA8 23 18 7.0 76 2x2 1/8 20000 4CMX203U063AC8 15 10 8.7 10.6 13/8x4I/8 200 Vdc (250 Vdc Surge) 24000 4CMX243U063BH8 18 = 14831 2 25/8 490 4CMX491U200AK8 176 109 19 27 13/8x15/8 34000 4CMX343U063EC8 12 10 10.4 116 13/4x41/ 1200 4CMX122U200AH8 63 36 37 5.4 13/8x 25/8 37000 4CMX373U063BJ8 12 10 10.2 W141 2x3 5/8 1600 4CMX162U200AB8 50 28 45 65 13/8x31/8 43000 4CMX433U063BC8 11 8.9 13.2 14.7 2x41 1900 4CMX192U200BA8 49 31 49 6.5 2x2 1/8 50000 4CMX503U063BD8 10 8.2 14.5 16.0 2x 45/8 2200 4CMX222U200AC8 35 24 6.0 7.8 13/8x41/8 56000 4CMX563U063BE8 9.3 17) 15.7 17.2 2x5 1/8 2600 4CMX262U200BH8 35 93 6.3 82 2x25/8 62000 4CMX623U063BF8 87 7.3 16.6 18.1 2x55/8 3400 4CMX342U200BB8 28 18 75 97 2x3 1/8 3800 4CMX382U200EC8 23 15 8.3 11.0 13/4x41/8 75 Vide (98 Vdc Surge) 4100 4CMX412U200BJ8 23 15 86 4.22 x 3.5/8 3600 4CMX362U075AK8 95 52 25 38 13/8x 15/8 4900 4CMX492U200BC8 20 14 97 1268 2x41/8 5600 4CMXS62U075AA8 61 = 3 35 = 6.4 13/8x2 1/8 5700 4CMX572U200BD8 18 12 108 138 2x45/8 7600 4CMX762U075AH8 44 24 44 6.7 13/8 x 2 5/8 6400 4CMX642U200BE8 16 11 11.8 15.0 2x51/8 9700 4CMX972U075AB8 = 336 19 5.2 10.2 13/8x31/8 7200 4CMX722U200BF8 15 10 12.7 16.0 2x5 5/8 13000 4CMX133U075BA8 36 23 5.7 75 2x2 1/8 14000 4CMX143U075AC8 26 14 70 106 1x3/8x 41/8 250 Vde (300 Vde Surge) 18000 4GMX183U075BH8 27 18 27.200 (9.4) 2x 2.5/8 400 4CMX401U250AK8 234 105 18 27 13/8x15/8 22000 4CMX223U075BB8 2214) 8H sidi=LOs( (aw 2X 3.1/8 700 4CMX701U250AA8 123 51 24 42 13/8x21/8 25000 4CMX253U075EC8 16 11 99 129 13/4x4 1/8 -980 4CMX981U250AH8 83 37 32 54 13/8x25/8 27000 4CMX273U075BJ8_ 18 12 98 125 2x35/8 1300 4CMX132U250AB8 65 29 39 65 13/8x31/8 32000 4CMX323U075BC8 16 11 +110 140 2x41/8 1500_4CMX152U250BA8_ 59 30 4.5 6.6 2x2 1/8 37000 4CMX373U075BD8 14 10 121 15.3 2x45/8 1800 4CMX182U250ACB 46 = 21 53 7.8 13/8x 41/8 140 Technology Place foley CORNELL iiterty, sc 29657 DUBILIER (864) 843-2277, Fax (864) 843-3800 ; ; http://www.cornell-dubilier.com Your Source For Capacitor Solutions E-mail: cde@cornell-dubilier com 2.117o Esa 2a 4 Es =U ta oc Capacitors Type 4CMX, 85 C, High-Cap, Computer Grade, Radial Leaded Ratings ESR Max.mQ2 Ripple Current Nom ESR Max.mQ Ripple Current Nom Cap. Catalog +25 C A+85C Size (in) Cap. Catalog 425 C A+ 85C Size (in) pF Number 120Hz =10kHz 120Hz 10 kHz DXL uF Number 120Hz 10kHz 120Hz 10 kHz DXL 250 Vdc (300 Vde Surge} (cont'd) 400 Vdc (450 Vdc Surge) (cont'd) 2100 4CMX212U250BH8 43 22 5.7 8.4 2x2 5/8 2500 4CMX252U400BD8 57 38 6.1 74 2x 45/8 2700 4CMX272U250BB8 34 17 68 10.0 2x3 1/8 2800 4CMX282U400BE8 51 34 6.7 8.2 2x5 1/8 3100 4CMX312U250EC8 29 15 75 11.1 13/4x41/8 3100 4CMX312U400BF8 46 31 7.2 8.8 2x 5 5/8 3400 4CMX342U250BJ8 28 15 79 11.5 2x3 5/8 4000 4CMX402U250BC8_ 24 13 89 ~=(129 2x 41/8 450 Vde (500 Vde Surge) 4600 4CMX462U250BD8 22 42 99 142 2x 45/8 160 4CMX161U450AK8 620 360 1.2 1.7 13/8x 15/8 5200 4CMX522U250BE8 19 11 10.8 15.4 2x5 1/8 290 4CGMX291U450AA8 370 220 1.6 2.4 13/8x2 1/8 5800 4CMX582U250BF8 18 10 W6 16.3 2x5 5/8 400 4CMX401U450AH8 270 160 2.0 2.9 13/8x25/8 520 4CMX521U450AB8 210 120 2.4 3.4 13/8x3 1/8 300 Vide (360 Vdc Surge) 670 4CMX671U450BA8 180 110 29 38 2x21/8 320 4CMX321U300AK8 490 340 1.4 1.8 13/8 x 1 5/8 750 4CMX751U450AC8 150 85 2.9 4.1 13/8x41/8 510 4CMX511U300AA8 300 200 1.9 2.5 13/8x2 1/8 930 4CMX931U450BH8 130 83 3.5 47 2x2 5/8 690 4CMX691U300AH8 210 150 2.4 3.1 13/8x2 5/8 1200 4CMX122U450BB8 100 65 41 5.4 2x3 1/8 870 4CMX871U300AB8 170 110 2.7 3.6 13/8x3 1/8 1400 4CMX142U450EC8 = 86 53 48 5.8 13/4x 4 1/8 1200 4CMX122U300AC8_ 120 80 3.4 44 13/8x4 1/8 1500 _4GMX152U450BJ8 84 54 4.6 6.0 2x3 5/8 1200 4CMX122U300BA8 150 110 3.2 40 2x2 1/8 1700 4CMX172U450BC8 72 46 5.2 6.5 2x41/8 1600 4CMX162U300BH8 110 78 4.0 49 2x2 5/8 2000 4CMX202U450BD8 62 40 5.8 7.2 2x4 5/8 2000 4CMX202U300BB8 83 61 46 5.6 2x3 1/8 2300 4CMX232U450BE8 56 36 6.4 8.0 2x51 2300 4CMX232U300EC8 70 50 49 6.0 13/4x41/8 9500 4CMX252U450BF8 50 32 6.9 8.7 2x5 5/8 2400 4CMX242U300BJ8_ _69 50 5.1 6.2 2x3 5/8 2900 4CMX292U300BC8 59 43 5.7 6.7 2x41/8 3300 4CMX332U300BD8 51 38 6.4 74 2x 45/8 3700 4CMX372U300BE8 46 34 7.0 8.2 2x5 1/8 4100 4CMX412U300BF8 41 31 7.7 8.8 2x5 5/8 350 Vde (400 Vde Surge) 250 4CMX251U350AK8 540 350 13 1.8 13/8x 15/8 420 4CMX421U350AA8 320 210 1.8 2.5 13/8x2 1/8 570 4CMX571U350AH8 230 150 2.2 3.0 13/8x25/ 720 4CMX721U350AB8 180 120 2.6 3.5 13/8x318 910 4CMX911U350BA8 160 110 3.1 3.9 2x2 1/8 1000 4CMX102U350AC8 130 82 3.2 43 13/8x4 1/8 1200 4CMX122U350BH8 110 79 3.8 48 2x2 5/8 1600 4CMX162U350BB8 90 62 44 5.6 2x3 1/8 1800 4CMX182U350EC8 75 51 46 5.9 13/4x41/8 1900 4CMX192U350BJ8 74 51 49 6.1 2x3 5/8 2200 4CMX222U350BC8 63 44 5.5 6.6 2x41/8 2600 4CMX262U350BD8 55 39 6.2 7.3 2x 4 5/8 2900 4CMX292U350BE8 49 34 6.8 8.2 2x5 1/8 3200 4CMX322U350BF8 44 31 74 8.8 2x5 5/8 400 Vde (450 Vde Surge) 240 4CMX241U400AK8 560 340 13 1.8 13/8 x1 5/8 380 4CMX381U400AA8 330 210 1.8 2.5 13/8x2 1/8 520 4CMX521U400AH8 240 150 2.2 3.0 13/8 x2 5/8 660 4CMX661U400AB8 190 110 2.5 3.5 13/8x3 1/8 880 4CMX881U400BA8 170 110 3.0 3.9 2x2 1/8 930 4CMX931U400AC8 130 80 31 43 13/8x41/8 1200 4CMX122U400BH8 120 79 3.7 48 2x2 5/8 1500 4CMX152U400BB8 93 62 43 5.5 2x3 1/8 1700 4CMX172U400EC8 78 51 45 5.9 13/4x4 1/8 1800 4CMX182U400BJ8 77 51 4.8 6.1 2x3 5/8 2200 4CMX222U400BC8 65 44 5.4 6.6 2x41/8 140 Technology Place Liberty, Se 29657 CORNELL (864) 843-2277, Fax (864) 843-3800 DUBILIER http://Awww.cornell-dubilier.com ; . 2.118 E-mail: cde@cornell-dubilier.com Your Source For Capacitor Solutions