er1600 thru er1604 superfast recovery rectifiers voltage - 50 to 400 volts current - 16.0 amperes features l plastic package has underwriters laboratory flammability classification 94v - o utilizing flame retardant epoxy molding compound l exceeds environmental standards of mil - s - 19500/228 l low power loss, high efficiency l low forward voltage, high current capability l high surge capacity l super fast recovery times, high voltage l dual rectifier (epitaxial chip) construction mechanical data case: to - 220a b molded plastic terminals: leads, solderable per mil - std - 202, method 208 polarity: as marked mounting position: any weight: 0.08 ounces, 2.24 grams maximum ratings and electrical characteristics ratings at 25 ambient temperature unless otherwise specifi ed. single phase, half wave, 60hz, resistive or inductive load. for capacitive load, derate current by 20%. er1600 er1601 er1601a ER1602 er1603 er1604 units maximum recurrent peak reverse voltage 50 100 150 200 300 400 v maximum rms voltage 35 70 105 1 40 210 320 v maximum dc blocking voltage 50 100 150 200 300 400 v maximum average forward rectified current at t c =90 16.0 a peak forward surge current, 8.3ms single half sine - wave superimposed on rated load(jedec method) 125 a maximum forward voltage at 8.0a per element 0.95 1.30 v maximum dc reverse current at t a =25 dc blocking voltage per element t a =125 10 500 a typical junction capacitance (note 1) 85 p f maximum reverse recovery time(note 2) 35 50 ns typical junction resistance(note 3) r jc 3.0 /w operating and storage temperature range t j - 55 to +150 notes: 1. measured at 1 mhz and applied reverse voltag e of 4.0 vdc 2. reverse recovery test conditions: i f =.5a, i r =1a, irr=.25a 3. thermal resistance junction to case to - 220ab
rating and characteristic curves er1600 thru er1604 fig. 1 - forward current derating curve fig. 2 - typical instantan eous forward characteristic fig. 4 - maximum non - repetitive surge current fig. 3 - typical reverse characteristics fig. 5 - typical junction capacitance
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