Bulletin 12081/A Intemational 2r|Rectifier SD300N/R SERIES STANDARD RECOVERY DIODES Stud Version Features 380A Wide current range High voltage ratings up to 3200V High surge current capabilities Stud cathode and stud anode version Standard JEDEC types DIODE Ce BS) J i] & S i) Typical Applications Converters M@ Power supplies Machine tool controls High power drives @ Medium traction applications Major Ratings and Characteristics SD300N/R Parameters Units 04 to 20 25 to 32 leavy 380 380 A @T, 100 70 C leans) 595 425 A lesu = @ BOHZ 6050 6050 A @ 60Hz 6335 6335 t @ 50Hz 183 183 KA?s @ 60Hz 167 167 KAs Vaaw range 400 to 2000 | 2500 to 3200 Vv case style DO-205AB (DO-9) T, - 40 to 180 - 40 to 150 C D-77SD300N/R Series ELECTRICAL SPECIFICATIONS Voltage Ratings Voltage Vary > Maximum repetitive Vasu Maximum non- lary Max. Type number Code peak reverse voltage repetitive peak rev. voltage @T,=T, max. Vv Vv mA 04 400 500 08 800 900 12 1200 1300 SD300NW/R 16 1600 1700 15 20 2000 2100 25 2500 2600 28 2800 2900 32 3200 3300 Forward Conduction SD300N/R . ee Parameter Units} Conditions 04to20 | 25to32 leeayy Max. average forward current 380 270 A 180 conduction, half sine wave @ Case temperature 100 100 C ley) Max. average forward current 300 380 A 180 conduction, half sine wave @ Case temperature 125 70 C lejamsy Max. RMS forward current 595 425 A | DC @T, = 88C (02 to 24), T, = 91C (25 to 32) lege Max. peak, one-cycle forward, 6050 6050 t=10ms | No voltage non-repetitive surge current 6335 6335 A t= 8.3ms | reapplied 5090 5090 t= 10ms | 100% Vio, 5330 5330 t= 8.3ms | reapplied Sinusoidal half wave, t Maximum I*t for fusing 183 183 t=10ms | No voltage | Initial T, = T, max. 167 167 t= 8.3ms | reapplied KAs 129 129 t=10ms | 100% Von, 118 118 t= 8.3ms | reapplied 2t Maximum [vt for fusing 1830 1830 |KAvs| t= 0.1 to 10ms, no voltage reapplied V Low level vatue of threshold F(To)1 0.95 0.95 (16.7% xnxI.<i<nXle), T, = 7, max. voltage V F(AV) FAV)! J J Vv High level value of threshold Fro 9 1.05 | 1.05 (I> @X leay)T, = T, max. voltage (vy r Low level value of forward n 0.75 | 0.75 (16.7% x WX egy <1< HX ley) Ty = T, Max. slope resistance 2 m No High level value of forward slope resistance 0.66 0.66 (> mx leay)T, = T, max. Vey Max. forward voltage drop 1.83 1.83 Vv la 1180A, T, = T, max, t, = 10ms sinusoidal wave D-78SD300N/R Series Thermal and Mechanical Specifications Parameter SD300N/R Units | Conditions 04to20 25to 32 T, Max. junction operating temperature range | -40 to 180 | -40 to 150 o, Tt Max. storage temperature range -55 to 200 | -55 to 200 c Rinzc 4 Max. thermal resistance, junction to case 0.11 DC operation K/W Rincs Max. thermal resistance, case 0.04 Mounting surface, smooth, flat and to heatsink . greased T Max. allowed mounting torque +10% 27 Nm } Not lubricated threads wt Approximate weight 250 9 i] Case style DO-205AB (DO-9) See Outline Table i 2 = LJ AR jc Conduction (The folowing table shows the increment of thermal resistence R,,, when devices operate at different conduction angles than DC) . Sinusoidal conduction | Rectangular conduction . . Conduction angle Units | Conditions 04 to 20 | 25 to 32 04to 20 | 2510 32 180 0.019 0.019 0.013 0.013 120 0.023 0.023 0.023 0.023 g0 0.028 0.028 0.030 0.030 K/W qT, = T, max. 60 0.042 0.042 0.044 0.044 30 0.073 0.073 0.074 0.074 Ordering Information Table Device Code - Diode - Essential part number Q = Standard recovery - N =Stud Norma! Polarity (Cathode to Stud) R = Stud Reverse Polarity (Anode to Stud) - Voltage code: Code x 100 = V,,,, (See Voltage Ratings table) - P= Stud base DO-205AB (DO-9) 3/4" 16UNF-2A M = Stud base DO-205AB (DO-9) M16 X 1.5 B = Flag top terminal (for Cathode/ Anode Leads) S = Isolated lead with silicone sleeve Ho Bons ~ | (Red = Reverse Polarity; Blue = Normal Polarity) None = Non isolated lead EE - C = Ceramic Housing (over 1600V) V = Glass-metal seal (only up to 1600V) D-79SD300N/R Series Outline Table CERAMIC HOUSING 19 (0.75) 4 (0.16) MAX. MAX. =F 7 Y DIA. 8.5 (0.33) NOM. woo 9.5 (0.37) MIN. g {0.054 8.1.) o 2 i rs s DIA. 27.5 (1.08) MAX. | = z OOO _ nN = g 2 a, = / 8 x Sw 32 32 5 a | og i ar | | Conform to JEDEC DO-205AB (DO-9) | All dimensions in millimeters (inches) 3/4"-16UNF-2A* bau an} * FOR METRIC DEVICE: M16X 1.5 GLASS-METAL SEAL 19 (0.75) 410.16) MAX MAX. | a : | z T ol Sy. a _ & ce a A| td a Yo a DIA, 8.5 (0.33) NOM. 8: S| (0.054 s.i.) o # , rr e ] ef \ Zz DIA. 28.5 (1.08) MAX. a9 econ Yb & e| 8 ; oyion 4 | SW 32 ! os, 8 Y Y Ry $s ; 8 | _= | | 3/4-18UNF-2A" o> * FOR METRIC DEVICE: M16 X 1.5SD300N/R Series Outline Table CERAMIC HOUSING 21 (0.83) 44 (0.55) DIA. 6.5 (0.25) ; 5 r - Ss 2 % DIA. 27.5 (1.08) MAX. Es a g S ~k a 2| & =e 37 3 Ye s3 < _ - FF 3 | o< -= N 1 port /4"-16UNF-2A FOR METRIC DEVICE. M16 X 1.5 ; s ae | DO-205AB (DO-9) Fiag = = All dimensions in millimeters (inches) 2 _ GLASS-METAL SEAL 21 (0.83) 14 (0.85) DIA. 6.5 (0.26) % = DIA, 28.5 (1.12) MAX, e| = | ss] st & aa 2 = 21 (0.83) MAX W4"-1GUNF-2A* FOR METRIC OEVICE: M16 X 1.5 "| 3 (0.12) 32 (1.26) D-81SD300N/R Series Maximum Allowable Case Temperature (C) Moximum Allowable Case Temperature CC) 180 oO SD300N/R Series (400V to 2000V) Y SD3O00N/R Series (400V to 170 thuc (BC) = 0.11 thyc (BC) = 0.11 160 6 150 : a 140 = e Conduction Perlod 10 120 2 8 110 g 100 we 90 120. . 5 30 180 | pc 0 50 100 150 200 250 300 350 400 2 O 100 200 300 400 500 600 700 Average Forward Current (A) Average Forward Current (A) Fig. 1 - Current Ratings Characteristics Fig. 2 - Current Ratings Characteristics 150 T 7 - r Gg 150 = 7 SD300N/R Series (2500V to 3200V) x SDSOO0N/R Series (2500V to 3200V) 140 (OC) = = ON 1K/W $ 140 Rityc Po) = ou KAW | ! I | | & 130 we - 130 oo 5 \ | Lee = Fae I KEL Angle 9 120 0 . Conduction Perlod- 120 8 \ ANY \ Xx, 5 \\ N10 ' 8 \ z 100 S t jo: 18 e E 0 60 100 160 200 300 2 0 100 200 300 400 500 Average Forward Current (A) Average Forward Current (A) Fig. 3 - Current Ratings Characteristics Fig. 4 - Current Ratings Characteristics 700 = 8 a . o . : 8 sop of D pNP YY RMS Limit & 400 | + t : fp g 300 : 9 o | | Conduction Angle Q 200 To t SD300N/R Series 2 100 (400V to 2000V)4 gE Ty = 180C 3 0 i | ! O SO 100 150 200 260 300 350 400 40 60 80 100 120 140 160 180 Average Forward Current (A) Maximum Aliowable Ambient Temperature C) Fig. 5 - Forward Power Loss Characteristics D-82Maximum Average Forward Power Loss (W) Maximum Average Forward Power Loss (W) Maximum Average Forward Power Loss (W) SD300N/R Series RMS Limit Conduction bt td 2k 26 (400V to 2000V) Ty=180C | 2k/w 0 100 200 300 400 500 600 40 60 80 100 120 140 160 180 Average Forward Current (A) Maximum Allowable Ambient Temperature CC) Fig. 6 - Forward Power Loss Characteristics 8 8 8 0 f\ a 200 Cpnaustion SD300N/R Series 100 . to Ty = 150C Oo 580 100 150 200 260 300 350 400 50 75 100 125 150 Average Forward Current (A) Maximum Allowaole Ambient Temperature (C) Fig. 7 - Forward Power Loss Characteristics DC 18@ 120 90 or 3 RMS Limit o Cet SD300N/R Series (2500V to 3200V) Ty = 180C Q Q 100 200 300 40 SO 60 50 78 100 125 150 Average Forward Current (A) Maximum Allowaole Ambient Temperature (C) Fig. 8 - Forward Power Loss Characteristics D-83SD300N/R Series Peak Hal Sine Wave Forward Current (A) 5500 At Anye Rated Load Condition And With < 6500 Maximum Non Repetitive Surge Current Rated Following Surge. += 6000 ~T"Versus Pulse Train Duration. 5000 5 Initial Ty= Ty 5 5500 1. Initial Ty = Ty max. 4500 . @ 60 Hz 0.0083 O No Voltage Reapplied @ 50 Hz 0.0100 p 9000 >} Rated VeemReappiied 8 4500 | Ln tf 4000 3 ee Kt Le La 2 4000 N wtp te 3500 @ NN! | i 6 3500 rt + 7 3000 5 3000 So oy uo | ! 2500 % 2500 : SET % 2000 ; + tt 2000 SD3OON/R Series) | . hm 3 1500 T Ti 1500 1000 a ! ] 10 100 0.01 0.1 ] Number Of Equal Amplitude Half Cycle Currant Pulses (N) Pulse Train Duration (s) Fig. 9 - Maximum Non-Repetitive Surge Current Fig. 10 - Maximum Non-Repetitive Surge Current 10000 < 5 5 1000 Ty=Ty max. aw 5 SD300N/R e 100 0.5 1 1.5 2 2.5 3 3.5 Instantaneous Forward Voltage (V) Fig. 11 - Forward Voltage Drop Characteristics Steady State Value: Rinic = 0.11 K/W Operation) . o S Transient Thermal lmpedance Z yp, j- (K/W) 0.001 0.001 0.01 0.1 1 10 Square Wave Pulse Duration (8) Fig. 12-Thermat Impedance Z,, ,, Characteristics D-84