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30CPQ150 Dataheets PDF



Part Number 30CPQ150
Manufacturers International Rectifier
Logo International Rectifier
Description SCHOTTKY RECTIFIER
Datasheet 30CPQ150 Datasheet30CPQ150 Datasheet (PDF)

Bulletin PD-2.299 rev. B 12/01 30CPQ150 SCHOTTKY RECTIFIER 30 Amp Major Ratings and Characteristics Characteristics IF(AV) Rectangular waveform VRRM IFSM @ tp = 5 µs sine VF TJ @ 15 Apk, TJ=125°C (per leg) Description/ Features The 30CPQ150 center tap Schottky rectifier series has been optimized for low reverse leakage at high temperature. The proprietary barrier technology allows for reliable operation up to 175° C junction temperature. Typical applications are in switching power supplies, c.

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Bulletin PD-2.299 rev. B 12/01 30CPQ150 SCHOTTKY RECTIFIER 30 Amp Major Ratings and Characteristics Characteristics IF(AV) Rectangular waveform VRRM IFSM @ tp = 5 µs sine VF TJ @ 15 Apk, TJ=125°C (per leg) Description/ Features The 30CPQ150 center tap Schottky rectifier series has been optimized for low reverse leakage at high temperature. The proprietary barrier technology allows for reliable operation up to 175° C junction temperature. Typical applications are in switching power supplies, converters, free-wheeling diodes, and reverse battery protection. 175° C TJ operation Center tap TO-247 package High purity, high temperature epoxy encapsulation for enhanced mechanical strength and moisture resistance Low forward voltage drop High frequency operation Guard ring for enhanced ruggedness and long term reliability 30CPQ150 Units 30 150 1000 0.78 A V A V - 55 to 175 °C Case Styles 30CPQ150 Base Common Cathode 2 1 3 2 Anode 1 Anode 2 Common Cathode TO-247AC www.irf.com 1 30CPQ150 Bulletin PD-2.299 rev. B 12/01 Voltage Ratings Part number VR Max. DC Reverse Voltage (V) VRWM Max. Working Peak Reverse Voltage (V) 30CPQ150 150 Absolute Maximum Ratings Parameters IF(AV) Max. Average Forward Current IFSM EAS IAR * See Fig. 5 Per Device Per Leg 30CPQ Units 30 15 1000 340 11.25 0.50 A mJ A A Conditions 50% duty cycle @ TC = 135°C, rectangular wave form 5µs Sine or 3µs Rect. pulse Following any rated load condition and with 10ms Sine or 6ms Rect. pulse rated VRRM applied Max. Peak One Cycle Non-Repetitive Surge Current (Per Leg) * See Fig. 7 Non-Repetitive Avalanche Energy (Per Leg) Repetitive Avalanche Current (Per Leg) TJ = 25 °C, IAS = 0.50 Amps, L = 90 mH Current decaying linearly to zero in 1 µsec Frequency limited by TJ max. VA = 1.5 x VR typical Electrical Specifications Parameters VFM Max. Forward Voltage Drop (Per Leg) * See Fig. 1 (1) 30CPQ Units 1.00 1.19 0.78 0.93 0.1 15 340 7.5 10000 V V V V mA mA pF nH V/ µs @ 15A @ 30A @ 15A @ 30A Conditions TJ = 25 °C TJ = 125 °C VR = rated VR IRM CT LS Max. Reverse Leakage Current (Per Leg) * See Fig. 2 (1) Max. Junction Capacitance (Per Leg) Typical Series Inductance (Per Leg) TJ = 25 °C TJ = 125 °C VR = 5VDC, (test signal range 100Khz to 1Mhz) 25°C Measured lead to lead 5mm from package body dv/dt Max. Voltage Rate of Change (Rated VR) (1) Pulse Width < 300µs, Duty Cycle <2% Thermal-Mechanical Specifications Parameters TJ Tstg Max. Junction Temperature Range Max. Storage Temperature Range 30CPQ Units -55 to 175 -55 to 175 2.20 1.10 0.24 6 (0.21) 6 (5) 12 (10) °C °C Conditions RthJC Max. Thermal Resistance Junction to Case (Per Leg) RthJC Max. Thermal Resistance Junction to Case (Per Package) RthCS Typical Thermal Resistance, Case to Heatsink wt Approximate Weight T Mounting Torque Case Style Min. Max. °C/W DC operation °C/W DC operation * See Fig. 4 °C/W Mounting surface , smooth and greased g (oz.) Kg-cm (Ibf-in) TO-247AC(TO-3P) JEDEC 2 www.irf.com 30CPQ150 Bulletin PD-2.299 rev. B 12/01 1000 100 Tj = 175˚C Reverse Current - IR (mA) 10 1 0.1 0.01 0.001 150˚C 125˚C 100˚C 75˚C 50˚C 25˚C Instantaneous Forward Current - I F (A) 100 Tj = 175˚C Tj = 125˚C Tj = 25˚C 0.0001 0 25 50 75 100 125 150 Reverse Voltage - V R (V) Fig. 2 - Typical Values Of Reverse Current Vs. Reverse Voltage (Per Leg) 1000 10 Junction Capacitance - CT (pF) Tj = 25˚C 100 1 0 0.5 1 1.5 2 2.5 3 Forward Voltage Drop - V FM (V) Fig. 1 - Max. Forward Voltage Drop Characteristics (Per Leg) 10 0 30 60 90 120 150 Reverse Voltage - V R (V) Fig. 3 - Typical Junction Capacitance Vs. Reverse Voltage (Per Leg) 10 Thermal Impedance Z thJC (°C/W) 1 D = 0.50 D = 0.33 D = 0.25 D = 0.17 D = 0.08 P DM 0.1 t 1 t2 0.01 Notes: Single Pulse (Thermal Resistance) 1. Duty factor D = t1/ t2 2. Peak Tj = Pdm x ZthJC + Tc 0.001 0.00001 0.0001 0.001 0.01 0.1 1 t1 , Rectangular Pulse Duration (Seconds) 10 100 Fig. 4 - Max. Thermal Impedance ZthJC Characteristics (Per Leg) www.irf.com 3 30CPQ150 Bulletin PD-2.299 rev. B 12/01 180 Allowable Case temperature (°C) 16 DC Average Power Loss (Watts) D = 0.08 D = 0.17 D = 0.25 12 D = 0.33 D = 0.50 160 RMS Limit 140 Square wave (D = 0.50) 80% Rated Vr applied 8 DC 120 see note (2) 4 100 0 5 10 15 20 25 Average Forward Current - I F(AV) (A) Fig. 5 - Max. Allowable Case Temperature Vs. Average Forward Current (Per Leg) Non-Repetitive Surge Current - I FSM (A) 0 0 5 10 15 20 25 Average Forward Current - I F(AV) (A) Fig. 6 - Forward Power Loss Characteristics (Per Leg) 1000 At Any Rated Load Condition And With Rated Vrrm Applied Following Surge 100 10 100 1000 10000 Square Wave Pulse Duration - t p (microsec) Fig. 7 - Max. Non-Repetitive Surge Current (Per Leg) L H IG H -SPE ED SW ITC H FREE-W HE EL D IO D E 40H FL40S02 V d = 25 V olt D UT IRFP460 Rg = 25 ohm + C UR RE N T M O N ITO R Fig. 8 - Unclamped Inductive Test Circuit (2) Formula used: TC = TJ - (Pd + PdREV) x RthJC ; Pd = Forward Power Lo.


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