POWMEREX RIGO 2200A ' Powerex, inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 General Purpose Rectifier 2200 Amperes Average 1600 Volts F OIA. TYP. G DEEP TYP. pane pcammone L pao | 4 0, | LL awooe CASE NUMBER R9G NOMINAL DIMENSIONS fe +4 Fy STRIKE DISTANCE = .73 INCH / 18.5 MM MIN. CREEPAGE DISTANCE = 1.17 INCH / 29.7 MM MIN. Scale = 2" syu. |] a B c o F G INCHES |] 1.85 2.90 2.60 030 | 1.040/1.080 | 140 085 H MM | 47.0 | 73.7 66.0 | 0.76 | 26.42/27.43 | 3.56 2/6 RIGO 2200A (Outline Drawing) Ordering Information: Select the complete 8 digit part number you desire from the table below. Typical Recovery Voltage Current Time VaRM Mav) ter Type {Volts) (A) (usec) R9GO 01 22 XX through 16 100V 2200A 15usec through 1600V R9GO 1800A General Purpose Rectifier 2200 Amperes Average, 1600 Volts Description: Powerex General Purpose Rectifiers are designed for high blocking voltage capability with low forward voltage to minimize conduction losses. These hermetic Pow-R-Disc devices can be mounted using commercially available clamps and heatsinks. Features: Low Forward Voltage Low Thermal Impedance Hermetic Packaging OOOd Excellent Surge and It Ratings Applications: [] Power Supplies (-] Motor Control .] Free Wheeling Diode L] Battery Chargers C Resistance Welding G-89 POWMEREX ee ee Powerex, inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 RIGO 2200A General Purpose Rectifier 2200 Amperes Average, 1600 Volts Absolute Maximum Ratings Characteristics Symbol R9GO 2200A Units Non-repetitive Transient Peak Reverse Voltage VrRsmM Varn + 200V Volts RMS Forward Current, To = 134C lF(rms) 3455 Amperes Average Current 180 Sine Wave, Tc = 134C lF(av) 2200 Amperes RMS Forward Current, To = 55C lF(rms) 5340 Amperes Average Current 180 Sine Wave, Tc = 55C lF(av) 3400 Amperes Peak One Cycle Surge Forward Current (Non-repetitive) 60Hz lism 30000 Amperes Peak One Cycle Surge Forward Current (Non-repetitive) 50Hz lism 27400 Amperes 3 Cycle Surge Current lism 22000 Amperes 10 Cycle Surge Current lism 18500 Amperes It (for Fusing) for One Cycle, 60Hz 2 3,700,000 A?sec Maximum [2t of Package (t= 8.3 msec). it 90 x 106 Asec Operating Temperature Tj -40 to +150C C Storage Temperature Tig -40 to +190C C Approximate Weight 1 Ib. 454 9 Mounting Force 5000 to 6000 Ib. 2270 to 2700 kg. G-90 POWEREX Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 R9GO 2200A General Purpose Rectifler 2200 Amperes Average, 1600 Vaits Electrical Characteristics, Tj = 25C Unless Otherwise Specified Characteristics Symbol Test Conditions Min. Typ. Max. Units Peak Reverse Leakage Current lRRM Tj = 125C, VR = VRRM 150 mA Forward Voltage Drop VEM len = 1500A, Duty Cycle < 0.1% 1.10 Volts Threshold Voltage, Low-level V(TO)1 Tj = 150C, | = 15%, Irqyy to alt (ay) 0.79109 Volts Slope Resistance, Low-level 'T"4 0.08773 = =maQ Threshold Voltage, High-level ViToO)2 Tj = 150C, | = alt(ay) to lpg 0.73267 Volts Slope Resistance, High-level 'T2 0.09978 mQ Vtw Coefficients, Low-level Tj = 150C, | = 15% T(av) to nT (av) Ay = 0.87442 B, = -0.02263 C1 = 6.427E-05 Dy = 3.061E-03 Vtw Coefficients, High-level Tj = 150C, 1 = mhyyay) to Itsy Ag= 6.40712 Bo = -0.87093 Co = 4,383E-05 Dg= 0.02888 Typical Reverse Recovery Time ter To = 25C, IEnq = 1500A, 15 usec dip/dt = 25A/usec, ty = 190ysec Thermal Characteristics Maximum Thermal Resistance, Double Sided Cooling Junction-to-Case Re(-c) 0.020 C/W Case-to-Sink Rec-s) 0.0075 C/W G-91 G-92 POWEREX Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 RIGO 2200A General Purpose Rectifier 2200 Amperes Average, 1600 Volts Maximum On-State Forward Voltage Drop (T]= 190C) On-State Voltage - Vim - Volts 100 1000 10000 Instantaneous On-State Current - ifm - Amperes 100000 Maximum On-State Power Dissipation (Sinusoidal Waveform) 8 3 f N, g 8 Z | 7 ie | a DUCTION ANGLE ea 8 Maximum Power Dissipation = Watts 2 8 o 0 400 800 1200 1600 2000 2400 Average On-State Current - If{av) - Amperes Maximum On-State Power Dissipation (Rectangular Waveform) 6 - = 00 1000 = 1800) 2000 2800 3000-3500 = 4000 Average On-State Current - If{av) - Amperes Maximum Transient Thermal Impedance {Junction to Case) 0.025 [ 5 0.02 [Rea0-22} ' TI PB = | 8 0.015 ZL 4 y E 0.01 A 3 5 0.008 Eo oH CO 0.0001 0.001 0.01 0.1 1 10 100 Time - t - Seconds Maximum Allowable Case Temperature {Sinusoidal Waveform) Max. Case Temperature - Tcase - C 0 400 800 4200 1600 2000 2400 Average On-State Current - iffav) - Amperes Maximum Allowable Case Temperature (Rectangular Waveform) 190 @ 180 170 e160 = # 150 E 140 g 430 120 5 = 110 100 0 00 1000 16800 2000 2500 3000 Average On-State Current - if(av) - Amperes 3600 = 4000