VARO SEMICONDUCTOR, INC. VARO P.O. BOX 676, 1000 N. SHILOH, GARLAND, TEX. 75040 (214) 272-4551 TWX 910-860-5178 ee a [= x EPOXY BRIDGE RECTIFIERS 1 AMP 2 & 6 AMP 10 AMP = Controlled Avalanche series has 250V, 450V, 650V and 850V minimum avalanche volt- ages (Vp) = Non-controlled Avalanche series with 50V, 100V, 200V, 400V, 600V and 800V (V,,,,) mu Fast recovery series with 200 nanosec. reverse recovery (t,,). The EBR bridge rectifiers combine economical cost, high reliability and circuit-to-case elec- trical isolation. They are available in a wide range of current and voltage ratings. 9F MAXIMUM RATINGS @ T,= 25C (UNLESS OTHERWISE SPECIFIED) i ear Gis: t VEQ7 200 14 200 1@TA 50 to +150 VE47 400 2 200 1 A 50 to +150 VEG? 60 4 200 1 A 50 to +150 VE8s7 80 5 200 1 A 50 to +150 1 AMP NON-CONTROLLED AVALANCHE Will 2! 7 1 A 50 to +150 VEO: 35 1 A 50 to +150 VEL 101 70 1 A 50 to +150 VE2 20 140 NA 1 A 50 to +150 Vedi 40 280 1 A 50 to +150 VEG! 60 420 1 A 50 to +150 VE8i 80 560 1@Ta 50 to +150 1 AMP FAST RECOVERY VEO8X 35 1 A 50 to +125 VE18X 10 70 1 A 50 to +125 VE28X 20 140 NA 1 A 50 to +125 VE48X ant 280 1 A 50 to +125 68. 60 560 1@Ta =50 to +125 2 AMP CONTROLLED AVALANCHE VS247 200 140 10 A 50 to +150 VS447 400 280 0 A 50 to +150 VS647 600 420 10 A 50 to +150 VS847 800 560 0 A =50 to +150 2 AMP NON-CONTROLLED AVALANCHE s04' 3 A 50 to +150 VS141 101 i A 50 to +150 VS24) 20 14 NA A 50 to +150 VS44) 40 28 A 50 to +150 VS64: 60 42 A 50 to +150 VS84: 80 560 A 50 to +150 2 AMP FAST RECOVERY so4ax 5 3 A 50 to +135 VS148X to X A 50 to +135 VS248Xx 20 14 NA A 50 to +135 VS44aXx 40 28 A 50 to +135 VS648X 60. 420 2 A 50 to +135 6 AMP CONTROLLED AVALANCHE (See Note 1) VH247 200 141 400 50 to +150 VH44? 400 28 400 50 to +150 VH647 600 421 400 50 to +150 VH847 800 56 400 50 to +150 6 AMP NON-CONTROLLED AVALANCHE (See Note 1) VHO4! 3 50 to +150 VH14i 1 7 50 to +150 VH24i 2 14 NA 50 to +150 VH44i a 281 50 to +150 VH64i 421 50 to +150 VH84 Be 56 = 50 to +150 S AMP FAST RECOVERY (See Note 1) 'HO48X 3 5 50 to +135 VH148X 1 I 50 to +135 VH248X 2 14 NA 50 to +135 VH448Xx a 281 50 to +135 VH648Xx 60 560 @ = 50 to +135 10 AMP CONTROLLED AVALANCHE VJ247 200 14 400 10 c 50 to +150 VJ4a7 400 23 400 10 c 50 to +150 VJ647 600 42 400 10 c 50 to +150 VI847 800 56 400 10 c 50 to +350 10 AMP NON-CONTROLLED AVALANCHE VJO4i 5 KL c 50 to +150 vJ14 10 70 c ~50 to +150 W241 20 140 NA c 50 to +150 vJ4ai 400 280 c 50 to +150 VJ64! 60 420 c 50 to +150 VJ84) 801 560 @Tc 50 to +150 10 AMP FAST RECOVERY yoaex 5 3 VJ148X 10 7 VJ248X 20 141 NA VJ448X 400 28 VJ648x 600 42 NOTE 1: Mount to heat sink as shown on next page for full rated lo. VARO SEMICONDUCTOR, INC. P.O. BOX 676, 1000 N. SHILOH, GARLAND, TEX. 75040 (214) 272-4551 TWX 910-860-5178 152 28 IA ON 10 AMP .490 @- 510 1 Turret terminals optional on all 2A, 6A & 10A de- vices. Add $0.10 per unit. ac Add TT' suffix to part no. 2A, 6A & 10A ELECTRICAL CHARACTERISTICS @ T,= 25C (UNLESS OTHERWISE SPECIFIED) z al a [=3[=2 EPOXY BRIDGE RECTIFIERS i TYPICAL MOUNTING EBR TO Al HEAT SINK - THERMAL JOINT 4-~~-~_~_. COMPOUND 2 BELLEVILLE SPRING WASHER 12-15 IN./LB. TORQUE USING 6-32 UNC 2A THREAD OR EQUIVALENT. HEAT SINK MOUNTING VE27 250 701 1. 5 LS-028 $ $1.4 VE47 450 90 1. BS NA 028 2 VE67 650 110 1. 1 028 i VE87. 850 1301 1. 1 -028 Sl 1 AMP NON-CONTROLLED AVALANCHE W110 1, -028 90 VEO8 1. +028 VE18 1. -028 VE28 NA NA 1. NA LS-028 VE48 1. 5 1 5-028 VE68 1. 5 1 28 VE83 1 5 1 LS-028 6 ae 1 AMP FAST RECOVERY (See Note 2) VEO8X 1 10 2 LS-04. 34 21 VE18X 1. 10 2 LS -04 4 35 VE28X NA NA 1. 10 2 LS-04. A 50 VE48X 1, 10 2 LS-04: 65 VE68X 1, 10 2 LS-04. 62 2 AMP CONTROLLED AVALANCHE VS247 25 701 1 DLS-02: 20 10 S447 451 90 1 NA DLS-02) +30 VS647 651 1101 1 DLS-02: 60 50 VS847 850 1301 1 DLS-02: 86 63 2 AMP NON-CONTROLLED AVALANCHE S04 1. DLS-02) 95 85 VS14! . DLS- 00 90 VS24: NA NA NA OLs-' 10 vs44i DLS- 20 10 VS64) OLs- +50 VS84 DLS-02: 65 54 2 AMP FAST RECOVERY (See Note 2) Vs048X 4. 201 DLS-044 48 33 VS148X 4 20 DLS-044 65 50 VS248X NA NA As 206 DLS-044 81 83 S448X 4s 206 DLS-044 98 1 VS648X. 4A 201 BLS-044 21 29 6 AMP CONTROLLED AVALANCHE VH247 250 700 1. OLs-029 VH4a47 450 10 1. 5 NA DLS-029 VH647 650 1100 1. 5 DLS-02! VH847 850 1300 1. 5 DLS-029 6 AMP NON-CONTROLLED AVALANCHE VHO4 1. . DBLS-02: VH14) 1. . DLS-02! VH24! NA NA 1, . NA DLS-02! VH44' 1. s DLS-02! VH64 1. + DLS-02! VH84 1. 1. DLS-02! S_AMP FAST RECOVERY (See Note 2) VHO48X 14 1 4 200 DLS-040 VH148x 14 1 4 200 OLS-04 VH248Xx NA NA 14 1 200 DLS-041 VH448X 14 1 4 200 DLS-04! VH648X 14 1 4 200 DLS-04 10 AMP CONTROLLED AVALANCHE Vs247 251 70 1 DLS-04; VJ447 AS 901 1 NA DLS-04; VJ647 651 110 1 DLS-04; VJ847 851 1304 1 DLS-04: 10 AMP NON-CONTROLLED AVALANCHE vjo48 1. 5 LS-04 VJ148 . . LS- VI248 NA NA . NA LS. viaag . LS. VJ648 . LS-04 VJ848 BI LS-04 10 AMP FAST RECOVERY (See Note 2) V3O48X 1 2 LS-04 VJ148X 1 2 LS VJ248X NA NA 1 2 LS-04 VJ448X 1 2 LS-04 VJ648X . 1 2 LS-04 NOTE 2: t+ measured at Ir = 1 Amp, Ie = 2 Amps, Recovery to trirtc) = .2 Amps. oman eT