BBC BROWN BOVERI BROWN, BOVERI & CIE AKTIENGESELLSCHAFT MANNHEIM Geschaftsbereich Halbleiter und Stromrichter Telefon (06206) 503-1, Telex 04-65 727 Postfach 200, D-6840 Lampertheim Brochure Order No. D HS 60624/10 E FMC Silicon Power Rectifiers. Series 204 12 Amperes Average Data and Diagrams are related to 60 cycles Catalog Number equivalent to Peak Polarity JEDEC Reverse Standard Reverse Numbers Voltage $20410 R20410 1N1200, 1N1200A _ 100 $20420 R20420 1N1202, 1N1202A 200 $20430 R20430 1N1203, 1N1203A 300 $20440 R20440 1N1204, 1N1204A 400 $20450 R20450 1N1205, 1N1205A 500 Electrical Characteristics Maximum Average Forward Current, Single-Phase, Half-Wave DC Rating at 150C Case Temperature 12 Amps. Maximum Surge Current (one cycle of 60 Hz sine wave) 240 Amps. Peak Forward Voltage at 30 Amperes (25C Case Temperature) 1.2 Volts Max. Rated Peak Reverse Voltage Range 100 to 500 Volts Maximum Peak Reverse Current at 170C Case Temperature 5.0 MA Maximum Operating Frequency 100 kHz Maximum |?t (less than 8 ms), 240 Amps,? Sec. Mechanical Characteristics Base Steel stud and base with a # 10-32 UNF-2A thread for through mounting on a heat sink. Nickel plating produces low contact resistance and prevents corrosion. Header Glass to metal construction. Hermetically sealed to base. Weight Approximately 0.16 ounce (4.5 grams) Mounting Position May-be mounted in any position Mountin Torque 30 inch pounds maximum Dimensions In accordance with JEDEC DO-4 Outline Thermal Characteristics Storage Temperature Range ~65C to +200C Operating Temperature Range Junction 65C to +190C Impedance (C/W), Junction to Case 3.0 Max. Environmental Specifications Tests in accordance with (MIL-E-1) Tests include: Temperature cycling, Salt spray, Vibration, Shock, Moisture resistance and Temperature soaky Standard, cathode on stud A Reverse, anode on stud Dim. Inches Millimeter Notes Minimum Maximum Minimum Maximum A 1 B 44 47 11.41 11.89 Cc 42 44 10.77. 1140 2 D_ 72 18.26 E 09 1.52 F 20 5.16 Note 1: No. 10-32 UNF-2A Note 2: Hex. Across Flats Figure 1 Figure 2 Figure 3 Load current versus case temperature Maximum power dissipation versus forward Maximum forward characteristics current 20 20 1000 18 18 #360 16 ~ ws 16 Conduction tae angle 180 /| Lg | 14 14 | o i20/ / % 100 LLL g o 12 12 = 2 / / < 3 f z E 10 10 *60 / 5 x = oS 8 8 /) 5 6 2 V, 2 g = / S10 x 6 i 6 A 5 | = L B / Y 360 Z = DP, '\D 3 & 4 E 4 7 | 3 2 B he 8 2 5 2 Conduction 1 5 5 z angie B a 0 o 0 bd nt = 0 120 130 140 150 160 170 180 190 0 2 4 6 8 10 12 14 16 18 20 0 5 10 15 20 25 30 35 Diode Case Temperature C Forward Current-Average Amperes Instantaneous Forward VoltageVolts Figure 4 Figure 5 Transient thermal impedance Maximum surge current at rated load A 280 3 E = 3.0 ~~ ft 240 ow La | ES / 200 + {4 Vj ra a = L B | QS 2.0 O 160 } ---> J oF & 120 | IN 28 / | Z NN o & 8g 10 y t a7] 06 BOF t t . 4 3 Q LY x 40 ++] Se TT i 2 | TF 32 et | 5 Lt 001.01 0.1 1.0 10.0 100.0 1 10 100 Time in Seconds Time in Cycles Klassifikations-Nr. 0701-541 Printed in the Federal Republic of Germany HS 1967 E - 1/2 (8.76.3) B 740 - 7765 MP