7 7294621 Powerex nc 4s DE 7294b21 ono1aa3a PP more [1N5179 SEE PAGE 266 | Lead Mounted TIN5332 SEE PAGE 209 | Rectifier } AIS SERIES | TRANSIENT VOLTAGE PROTECTED | 1N5624 5.0 Amps 200-800 Volts T1N5625 THE GENERAL ELECTRIC A15 IS A 5,0 AMPERE RATED, AXIAL LEADED 1N5627 GENERAL PURPOSE RECTIFIER. ITS DUAL HEATSINK CONSTRUCTION PROVIDES RIGID MECHANICAL SUPPORT FOR THE PELLET AND EXCEL- LENT THERMAL CHARACTERISTICS. PASSIVATION AND PROTECTION OF THE SILICON PELLETS PN JUNCTION ARE PROVIDED BY SOLID GLASS; NO ORGANIC MATERIALS ARE PRESENT WITHIN THE HERMETI- CALLY SEALED PACKAGE. The A15 is Transient Voltage Protected. This device will dissipate up to 1000 watts in the reverse direction without damage. Voltage Transients generated by household or industrial power lines are dissipated. absolute maximum ratin QS: (25C unless otherwise specified) 1N5624 1N5625 1N5626 1N5627 (A15B) (A15D) (ASM) (AT5N) *Reverse Voltage (65C to +175C, Ts) Repetitive Peak, Varu 200 400 600 800 Volts DC, Vr 200 400 600 800 Volts Average Forward Current, Ip *70C ambient, see rating curves + 3.0 _, Amps 25C ambient, see rating curves 5.0 . Amps *Peak Surge Forward Current, Irgy Non repetitive, .0083 sec., half sine wave, Full Load JEDEC Method - + 125 , Amps Peak Surge Forward Current, Irsy Non-repetitive, .001 sec., half sine wave, Full load 175C, T; 225 . Amps *Junction Operating Temperature Range , 65 to +175 i C *Storage Temperature Range ____ 65 to +200 _______._., C I?t, RMS for fusing .001 to .01 sec. 25 . Ampsec Peak Non-repetitive Reverse Power Rating 20 psec half sine wave at Max Ty; , 1000 Watts *100 zsec., JEDEC -_____. 450 __e" Watts *Mounting: Any position. Lead temperature 290C maximum to 14 from body for 5 seconds maximum during mounting. electrical characteristics: Maxmum Forward Voltage Drop, Vr Ip = 5.0A, Ty = 25C 11 _, Volts *I, = 8.0A, T, = 70C + 0.95 4 Volts Maximum Reverse Current, Ip, at rated Varu T; = 25C -$_____ 50 _________, pA *T, = 176C 300 300 200 200 pA Typical Reverse Current @ 25C 1.0 . yA Typical Reverse Recovery Time, Trr . 2.5 , psec Maximum Reverse Recovery Time, Tir + 5.0 . psec Recovery Circuit Per MIL-S-19500/286C 294 / N 5624%- { *JEDEC Registered data. . 1764 6-09 7294621 POWEREX INC 74 DE tet4b21 ooo1aay o ff reol.iS Ab CIRCUIT DESIGN INFORMATION 1N5624-7 MAXIMUM ALLOWABLE DC OUTPUT CURRENT RATINGS SINGLE PHASE, RESISTIVE AND INDUCTIVE LOADS NN | | eohs DN oN LEAD LENGTH = 3/8" ~N q Ray, 50C/WATT TYPICAL Rau ect cow g 2.5 ~ SI Tle LUG MOUNTING =] i a | < =65* t ee i. PON I sesame) WINDS tee 3 PD q 2 > a @ EAo venaT +34 2, L. i PhD ul escrow z SNA 30 AQ NY & Ww 2 10 PNOn : 2 PSS N NX , SS os WN 1 N 30 50 70 30 ito 130 150 170 x sO 0 %0 we 130 (60 Wo AMGIENT TEMPERATURE -*C THe POINT TE c AMBIENT OPERATION TIE POINT OPERATION (See Tie Point Mounting Below) TYPICAL CHARACTERISTICS INSTANTANEOUS FORWARD CURRENT-AMPERES INSTANTANEOUS REVERSE CURRENT~MICROAMPERES 20 INSTANTANEOUS REVERSE VOLTAGE-VOLTS. INSTANTANEOUS FOWARD VOLTAGE-VOLTS FORWARD CHARACTERISTICS REVERSE CHARACTERISTICS 1765 6-10 IX 34624 2_ 295 ee ee, eee ee ee ee we ee ee wo ere $e 7294621 POWEREX INC 74 DE ff r2t4ne1 ooo13a5 2 ff T-O1-15 A15 1N5624-7 TYPICAL CHARACTERISTICS a 3 AT MAXIMUM JUNCTION TEMPERATURE ns a PEAK FORWARD SURGE CURRENT - AMPERES PEAK REVERSE POWER-WATTS CYCLES AT 60 CYCLES PER SECOND HALF SINEWAVE PULSE DURATION (CURRENT? MAXIMUM NON-REPETITIVE MAXIMUM NON-REPETITIVE MULTICYCLE FORWARD AVALANCHE SURGE POWER SURGE CURRENT g 30 = LT 8 - "| i k 25 LY 2 = | < ~ 5 3 ae = 1 2 7 at & w a4 z 16 7 f | 8 10 a a << = 8 Wl x= ro PEAK REVERSE VOLTAGE DC VOLTs 0 V8 V4 48 v2 &/8 3/4 78 1.0 L, LEAD LENGTH ~ INCHES JUNCTION CAPACITANCE STEADY STATE THERMAL RESISTANCE JN 56 24) 296 1766 6-11 Current Derating (capacitive load) Average forward current as specified under maximum ratings, page 1, and derating curves for high temperature operation, above, must be corrected for applications with capacitive loads. As the current conduc- tion angle, a, is decreased, the peak current required to maintain the same average current increases, i.e., the peak-to-average current ratio increases from 3.14. Figure 8 gives the derating required based on this increase in peak to average current ratio for sine wave operation. For more complete information consult Application Note 200.30. METHOD: 1. Determine conduction angle in degrees for particular circuit as designed. 2. Enter Figure 3 for the particular conduction angle and read corresponding percent of forward current per cell. 8. Multiply this value times average forward current for resistive load from igures 1 and 2 as given for the actual ambient or tiepoint temperature required. FORWARD f CURRENT 7294621 POWEREX INC 4 DER 7254b21 OOOLBaL 4 i T-0)-15 A15 1N5624-7 @ = CONDUCTION ANGLE (180) a@': SHORTENED CONDUCTION ANGLE OSCILLOSCOPE PRESENTATION 100 See Typical Examples Below 1] 90 TYPICAL EXAMPLES (25C Ambient Temperature) | ERRORS ERRICLEREE| units |G Li Lk & 70 tt Conduction Angle (a) 170 | 110] 130 | 70 {Degrees y | | NK 1 | | & 60 t Rated Average Current 3 3 3 3 |Amp. a . (Resistive Load) 5 a % of Average Current 0.98 | 0.86 | 0.92 | 0.73 |% g J i Rated Average Current 29 2.6 2.8 2.2 |Amps. * 40 A (Capacitive Load) 4 OUTLINE DRAWING 6.000 MIR. el 2502 C10 (25.400 Mm.) T%6.3802.384ual 083 MEN, (2.1082 tlm.) QF a | a La) 280m Tr (6.350 max } -O53MAX. DIA. (1.3462 Nm) TINNED COPPER WIRE ALL DIMENSIONS ARE IN INCHES AND (METRIC) 10 20 30 40 50 60 70 80 90 100 IIO 120 130 [40 150 160 170 180 FORWARD CONDUCTION ANGLE IN DEGREES-a DERATING FOR SHORTENED CONDUCTION ANGLE TYPICAL TIE LUG MOUNTS # 20 WIRE \perF Board TYPICAL PC BOARD MOUNTING 1.0" (Oy LL J o86 GLASS EPOXY PC BOARD [W562 4F 297 1767 6-12