() - CONDUCTIVE POLYMER ALUMINUM SOLID ELECTROLYTIC CAPACITORS (HYBRID TYPE) / series 135 20004000 Load life : 135 20004000 hours (Hybrid Type) High Temperature, High Ripple Current AEC-Q200 RRoHSoHS complicomplianceance /SPECIFICATION Item Characteristics -55 +135(150) Category Temperature Range 2563Vdc Rated Voltage Range 20% 20, 120Hz Capacitance Tolerance I=0.01CV3 A I=0.01CV or 3A whichever is greater. (After 2 minutes) Leakage Current (MAX) I= A C= F V= Vdc Leakage Current Capacitance Rated Voltage (Vdc) 20, 120Hz 25 35 50 63 (tan) Rated Voltage Dissipation Factor(MAX) tan 0.14 0.12 0.10 0.08 1251354000 6.3 2000 Endurance After applying rated voltage with rated ripple current for 4000 hours(6.3:2000 hours) at 125 or 135, the capacitors shall meet the following Criteria. 85,85%RH 2000 After applying rated voltage for 2000 hours at 85 and humidity of 85%, the capacitors Biased Humidity shall meet the following Criteria . 150300 6.3 150 After applying rated voltage for 300 hours(6.3:150 hours) at 150,the capacitors Over Temperatur Proof shall meet the criteria. 30% Capacitance Change Within 30% of the initial value. 200% Dissipation Factor Not more than 200% of the specified value. Criteria 200% ESR Not more than 200% of the specified value. Leakage Current Not more than the specified value. Low Temperature Stability Z(-55)/Z(+20) 2.0 (100kHz) Z(-25)/Z(+20) 1.5 Impedance Ratio (MAX) /PART NUMBER PHV/PZH x M Series Capacitance Capacitance Tolerance Option Lead Forming Case Size Rated Voltage / /MARKING Voltage code MULTIPLIER FOR RIPPLE CURRENT No. 110 Lot No. Frequency (Hz) 100f<1k 1kf<10k 10kf<20k 68 (Vdc) 25 35 50 63 E HV Rated Voltage Capacitance Coefficient 0.05 0.30 0.70 E V H J Series HV,ZH,PH Frequency (Hz) 20kf<50k 50kf<100k 100k Voltage code Coefficient 0.80 0.90 1.00 Rated voltage code Negative 21Temperature coeffcient () / CONDUCTIVE POLYMER ALUMINUM SOLID ELECTROLYTIC CAPACITORS (HYBRID TYPE) /DIMENSIONS 0.2 (mm) L + MAX A1 D L A1 B1 C W1 P 6.3 6.1 6.6 6.6 2.7 0.5 0.8 1.8 0 6.3 8 6.6 6.6 2.7 0.5 0.8 1.8 0 8 10.5 8.3 8.3 2.9 0.8 1.1 3.1 0 10 10.5 10.3 10.3 3.2 0.8 1.1 4.5 0 10 12.5 10.3 10.3 3.2 0.8 1.1 4.5 0.3 0.3MAX W1 0.5MAX 10 16.5 10.3 10.3 3.2 0.8 1.1 4.5 0.3 LAMINATED CASE (mm) d D L F d 8 9 3.5 0.6 1.5 10 9 5.0 0.6 1.5 10 11 5.0 0.6 1.5 L+MAX MIN MIN D+0.5MAX 10 15 5.0 0.6 1.5 10X20Rubbertype 10 20 5.0 0.6 2 Gas escape type. /STANDARD SIZE Size Rated RippleCurrent Permissible Ripple Current (mA) DL (mm) E.S.R (m/100kHz MAX) Rated (mArms,100kHz) Capacitance Voltage (F) (Vdc) PHV (LeadWire) 20 -40 135 125 135,100kHz 125,100kHz 100,100kHz (SMD) PZH - 56 6.36.1 50 900 1400 1260 1630 2320 - 100 6.38 30 1400 2200 1970 2540 3610 220 810.5 89 22 1600 2900 2250 2910 4120 330 1010.5 109 20 2000 3600 2820 3640 5160 25 470 1012.5 1011 14 2300 4100 3240 4180 5930 560 1016.5 1015 11 2900 4800 4090 5280 7480 - 820 1020 9 3100 5100 4370 5640 8000 - 47 6.36.1 60 900 1400 1260 1630 2320 - 68 6.38 35 1400 2200 1970 2540 3610 150 810.5 89 22 1600 2900 2250 2910 4120 270 1010.5 109 20 2000 3600 2820 3640 5160 35 330 1012.5 1011 14 2300 4100 3240 4180 5930 470 1016.5 1015 11 2900 4800 4090 5280 7480 - 1020 680 9 3100 5100 4370 5640 8000 68 810.5 89 30 1300 2300 1760 2370 3220 100 1010.5 109 28 1600 2900 2250 2910 4120 150 1012.5 1011 18 2100 3400 2960 3820 5420 50 180 1016.5 1015 13 2600 4200 3670 4730 6710 - 270 1020 11 2700 4500 3810 4910 6960 33 810.5 89 40 1200 2100 1550 2200 2830 56 1010.5 109 30 1500 2600 1970 2730 3610 68 1012.5 1011 19 2000 3200 2820 3640 5160 63 100 1016.5 15 2400 3900 3380 4370 6190 1015 - 1020 150 13 2500 4100 3520 4550 6450 /TEMPERATURE COEFFICIENT FOR RIPPLE CURRENT Temperature 100 105 110 115 125 135 Area unable to continuous T() operation under ripple current applied. 2.58 Coefficient 2.58 2.44 2.30 2.16 1.82 1.41 (IMAX/Ir) 1.41 IMAX/I (I ) 0 0 Area of able to (IMAX) continuous operation under ripple current applied. Temperature coefficient IMAX/I Coefficient indica 0 100 135 ting the maximum permissible ripple current (IMAX) that can be continuously applied beyond the rated Ambient temperature current (I ). Estimated lifetime complies with our 0 lifetime calculation formula. 22 D+0.5MAX 0.2 B1 C P C F 0.5