con Controlled Rectifiers N TO209AC (TO-94) Note 1: 1/2-20 UNF3A Note 2: Full thread within 2 1/2 threads S ANZ025 = 2ZN2050 Dim. Inches Millimeter Minimum Maximum Minimum Maximum Notes V2ZEZACTIOMMVOW>S -- _-- -- -- 1 1.050 1.060 26.67 26.92 across flats --- 1.161 --- 29.49 5.850 6.144 149.10 156.06 6.850 7.375 173.99 187.33 197 827 20.24 21.01 .276 286 701 7.26 --- 948 --- 24.08 425 499 10.80 12.67 2 .260 .280 6.60 71 Dia. .900 -600 12.70 15.24 140 -150 3.56 3.81 --- 295 --- 7.49 Microsemi Forward & Reverse Catalog Number Repetitive Blocking 2N2023 2N2024 2N2025 2N2026 2N2027 2N2028 2N2029 2N2930 To specify dv/dt higher than 200V/usec., contact factory. 25V 50V 100V 150V 200V 250V 300V 400V Reverse Transient Blocking 25V 50V 100V 150V 200V 250V 300V 400V e High dv/dt100 V/usec. #1400 Amperes surge current Low forward on-state voltage Package conforming to TO209AC outline Economical for general purpose phase control applications Electrical Characteristics Max. RMS on-state current Max. average on-state cur. Max. peak on-state voltage Max. holding current Max. peak one cycle surge current Max. I2t capability for fusing IT(RMS) 110 Amps IT(AV) 70 Amps VIM 1.6 Volts Iq 200 mA ITSM =: 1400 A I2 8130A2S To = 110C Tc = 110C ITM = 220 A(peak) Tc = 110C, 60 Hz t = 8.3 ms Thermal and Mechanical Characteristics Operating junction temp range Storage temperature range Maximum thermal resistance Typical thermal resistance (greased) Mounting torque Weight VJ TSTG Reuc 6CS -65C to 150C 65C to 150C 0.40C/W Junction to case 0.20C/W Case to sink 100-130 inch pounds 3.6 ounces (102.0 grams) typical OWic LAWRENCE roseml 6 Lake Street Lawrence, MA 01841 PH: (978) 620-2600 FAX: (978) 689-0803 www.microsemi.com 04-24-07 Rev. 1 Z2ZN2Z2O025 ZN 2050 Switching Critical rate of rise of onstate current (note 1) di/dt 100A /usec. TJ = 125C Typical delay time (note 1) td 3.0 usec. 5 Typical circuit commuted turnoff time (note 2) tq 100 usec. TJ = 125C Note 1: '7M Note 2: !TM 50A, di/dt = reapplied dv/dt = 20V/usec., linear to rated VDRM, VGT = OV 50A, YD = VDRM. YGT = 12V open circuit, 20 ohm0.1 usec. rise time 5A/usec., VR during turnoff interval = 50V min., Triggering Max. gate voltage to trigger VET 3.0V Ty = 25C Max. nontriggering gate voltage Ve 0.25V Ty = 125C Max. gate current to trigger | GT 100mA TJ = 25C Max. peak gate power PoM 15W Average gate power PG(AV) 3.0W tp = 10 usec Max. peak gate current | GM 4,0A Max. peak gate voltage (forward) VGM 10V Max. peak gate voltage (reverse) Vem 5.0V Blocking Max. leakage current lDRM,! RRM 10mA Ty =150C & VDRM,VRRM Max. reverse leakage IDRM,! RRM 100uA Ty =25C & VDRM,YRRM Critical rate of rise of offstate voltage dv/dt 100V/usec. Ty =150C 04-24-07 Rev. 1 ZN2Z2025 Figure 1 Typical Forward OnState Characteristics 8000 6000 4000 1000 800 600 400 200 100 80 60 40 20 Instantaneous OnState Current Amperes 10 8 1.2 16 2.0 24 2.8 3.2 Instantaneous OnState Voltage Volts Figure 2 Forward Current Derating s 150 140 |- SS SS 130 ~ 120 SAX. \ 110 Y Y 100 90 BO} |Ig071120 [180 10 20 30 40 50 60 70 80 90 100 Maximum Allowable Case Temperature Average OnState Current Amperes 3.6 Junction to Case ZN Z0 50 Figure 3 Maximum Power Dissipation 105 3 . ot /|/ 27 ey 7 V 2 6 30 L Y B Y 6 / Y / _ Vl 2 30 by Yi E Y Ss 15 x oO = 0 0 10 20 30 40 50 60 70 80 90 100 Average On-State Current Amperes Figure 4 Transient Thermal Impedance 0.7 2S o on o ip 2 iw \ ho \ oO = \ x a Thermal Impedance C/Watts 0 .001 .01 0.1 1.0 10 100 Time in Seconds 04-24-07 Rev. 1