ADVANCED POWER TECHNOLOGY b3E D M@@ 0257909 0001032 78 MMAVP 3 ~ ADVANCED wy POWER 1 -Cathode Naa, TECHNOLOGY 2- Anode APT30D60B 600V 30A APT3OD50B 500V 30A APT30D40B 400V 30A ULTRAFAST SOFT RECOVERY RECTIFIER DIODE PRODUCT APPLICATIONS PRODUCT FEATURES PRODUCT BENEFITS Back of Case-Cathode e Anti-Parallel Diode Ultrafast Recovery Times Low Losses -Switchmode Power Supply | . oo. -Inverters Soft Recovery Characteristics + Low Noise Switching e Free Wheeling Diode . -Motor Controllers Popular TO-247 Package Cooler Operation -Converters - Low Forward Voltage - Higher Reliability Systems * Snubber Diode 9 igher Reliability Syste - Uninterruptible Power Supply (UPS) - High Blocking Voltage + Increased System Power Induction Heating Density . + High Speed Rectifiers - Low Leakage Current MAXIMUM RATINGS. .___ All Ratings: T, = 25C unless otherwise specified. Symbol | Characteristic / Test Conditions APT30D60B-50B-40B | UNIT Vp Maximum.D.C. Reverse Voltage Vary | Maximum Peak Repetitive Reverse Vottage i 600-500-400 Volts Vawma | Maximum. Werking Peak Reverse Voltage I-(AV) | Maximum. Ayerage Forward Current (T,, = 85C, Duty Cycle = 0.5) 30 . |-(RMS) | RMS Forward Current 70 Amps leon Non-Repetitive Forward Surge Current (T, = 45C, 8.3mS) 320 Ty Tete Operating and StorageTemperature Range -55 to 150 0 T Lead Tetriperature: 0.063" from Case for10 Sec. - 300 STATIC ELECTRICAL CHARACTERISTICS Symbol | Characteristic / Test Conditiv.: MIN TYP MAX j} UNIT I= 30A 1.6 VE Maximum Forward Voltage I, = 60A 1.5 Volts be t= 30A, T, = 150C 14] Maximum Reverse Leakage Current Va = Vp Rated 250 Va = Vp Rated, T, = 125C 500 , Cc, Junction Capacitance, Vp = 200V 40 pF Le Series Inductance (Lead to Lead 5mm from Base) 10 nH 405 S.W. COLUMBIA STREET PHONE ... (503) 382-8028 BEND, OREGON 97702-1035 U.S.A. FAX...... (503) 388-0364ADVANCED POWER TECHNOLOGY 6&3E D MM 0257909 0001033 504 MMAVP DYNAMIC CHARACTERISTICS APT30D60B-50B-40B Symbol | Characteristic MIN TYP MAX UNIT teed Reverse Recovery Time, |, = 1.0A, di./dt = -15A/uS, V_ = 30V, T= 25C 50 65 @ tae Reverse Recovery Time T= 25C 50 65 te I. = 30A, di,/dt = -240A/uS, V, = 350V T = 100C 80 180 ns bet Forward Recovery Time T= 25C 155 tie I= 30A, di, /dt = 240A/LS, V,, = 350V T,= 100C 155 laam: | Reverse Recovery Current T= 25C 4 10 Amps lnaM2 | |; = 30A, di,/dt = -240A/uS, V_, = 350V T, = 100C 7.5 15 Q., | Recovery Charge T = 25C 100 325 C Qi | i =30A, di,/dt = -240A/LS, V,, = 350V T= 100C 300 | 1350 Vie Forward Recovery Voltage T) = 25C 3 Volts Vio | |. = 30A, di,/dt = 240A/uS, V, = 350V T, = 100C 3 Rate of Fall of Recovery Current Ty = 25C 400 diM/dt Aus I, = 30A, di, /dt = -240A/nS, V, = 350V (See Figure 10) T, = 100C 200 THERMAL AND MECHANICAL CHARACTERISTICS Symbol! | Characteristic / Test Conditions MIN TYP MAX UNIT Resco | Junction-to-Case Thermal Resistance 0.90 C/W Rea | Junction-to-Ambient Thermal Resistance 40 0.22 oz. | W, | Package Weight | 6.1 gm. | 10 ib. in. Torque | Maximum Mounting Torque (Screw Type = 6-32 or 3mm Machine) ; 1 Nm 1.0 0.6 = wSt oO = OG 0.05 w ao = 3 ty = 0.01 NOTE: SINGLE PULSE ZB oJ t _ nw 0.005 ' | b+ 12 o] DUTY FACTOR D=t/tp PEAK Ty=Ppm X Zauc + To 0.001 105 10-4 103 102 1071 1.0 10 RECTANGULAR PULSE DURATION (SECONDS) FIGURE 1, MAXIMUM EFFECTIVE TRANSIENT THERMAL IMPEDANCE, JUNCTION-TO-CASE vs PULSE DURATION053-6002 Rev - ty, REVERSE RECOVERY TIME tray, REVERSE RECOVERY CURRENT te, FORWARD CURRENT Cy, JUNCTION CAPACITANCE (AMPERES) ADVANCED POWER TECHNOLOGY APT30D60B-50B-40B 4100 80 Ty = 150C 60 40 20 0 05 1.0 1.5 2.0 2.5 Ve, ANODE-TO-CATHODE VOLTAGE (VOLTS) Figure 2, Forward Voltage Drop vs Forward Current (AMPERES) 40 Ty 100C 2350 30 20 10 og 200 600. 800. 1000 dig/dt, CURRENT SLEW RATE (AMPERES SEG) Figure 4, Reverse Recovery Current vs Current Slew Rate (nano-SECONDS) 200 Ty= 100C VR=350v 160 120 BO 40 0 800 10 dig/dt, CURRENT SLEW RATE (AMPERES SEC) Figure 6, Reverse Recovery Time vs Current Slew Rate (pico-FARADS) 800 500 100 50 30 0.01 0.05 0.1 Figure 8, Junction Capacitance vs Reverse Voltage 6b3E D MM 0257909 OOO1034 4uop mAyp MA K;, DYNAMIC PARAMETERS Q,,, REVERSE RECOVERY CHARGE ty,, FORWARD RECOVERY TIME 0.5 1 5 Vr_, REVERSE VOLTAGE (VOLTS) 800 (nano-COULOMBS) 400 1000 dinidt, CURRENT SLEW RATE (AMPERES/USEC) Figure 3, Reverse Recovery Charge vs Current Slew Rate 2.0 16 1.2 0.8 (NORMALIZED) 0.4 0.0 50 25 25 75 100 125 Ty, JUNCTION TEMPERATURE Cop Figure 5, Dynamic Parameters vs Junction Temperature 150 1200 15.0 Ty= 100C Vp=350V WwW 30a 1000 125 < 3 ~ > G 800 10.0 > 2 wo g 5B & 600 75 O2 wn wo 6 cs 5 oO & 400 50 = x 200 25 > 0 800 000 digit, CURRENT Stew RATE (AMPERES / SEC) Figure 7, Forward Recovery Voltage/Time vs Current Slew Rate 50 100 200ADVANCED POWER TECHNOLOGY 6&3E D Ml 0257909 0001035 387 MMAVP Ve APT30D60B-50B-40B D.U.T. Ho 7 rage ov---L___| |_|. die/at Adjust . | TRANSFORMER Figure 9, Diode Reverse Recovery Test Circuit and Waveforms 0 i- - Forward Conduction Current 6 di-/dt - Current Slew Rate, Rate of Forward oO Current Change Through Zero Crossing. 6 loay - Peak Reverse Recovery Current. 0 trp - Reverse Recovery Time Measured from Point of I, Current Falling Through Zero to a Tangent Line {9 diM/at} Extrapolated Through Zero Defined by 0.75 and 0.50 Inn. 8 Q,, - Area Under the Curve Defined by Inay, and try. | ore lp (ce lam) @ diM/dt - Maximum Rate of Current Change During the Trailing Portion of t,, Figure 10, Diode Reverse Recovery Waveform and Definitions TO-247AD Package Outline ~*~ 5.31 (209) 15.49 5.38 (.212 1.49 (.059) 6.18 (242) BSC 5 [tes (ss Ba0} 3 620 (Dad i 2.49 (.098) it \ y G} _ mt of Notch 3 |! 20.80 (819 : 3.55 (.140 3 21.46 (84 3.81 150 Ss | | [ t v 4.50 (.177) Max. 19.81 (.780 n _ 0.40 (.016 20.32 Bory 2.13 { OBay 0.79 1.01 1.40 O88 Anode | Cathode > 2/69 {302} 10.50 (.430) BSC Dimensions in Millimeters and (Inches) APT Reserves the right to change, without notice, the specifications and information contained herein. 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