SEMICON COMPONENTS INC BE De a Susshse gooodu" 4 = a -08- MK FEATURES: DESCRIPTION 15 Amp to 70 Amp These hermetically sealed rectifiers are used in switching power - 50V to 800 V supplies and regulators up to 800 V. The ultra high speed character- istics and the availability of high voltage are not commonly found * 35 ns to 70 ns together. These features are a most useful characteristic in military ; i applications where derating is a requirement. * High Temperature Operation PP 9 q Metallurgically Bonded MAXIMUM RATINGS 25 AMP. DO4 50 AMP. DO5 Tyee oT Pay [Ye b Th [hw [A TYPE [Pay | Oe b |] bow | *t, NUMBER / Volts | Volts | Amps | uA |Amps | ns | CASE NUMBER | Volts | Volts | Amps | uA| Amps | ng | CASE SUES701 50 | .950 2s 20 | S00 | 35) DO4 SUES501 50 0.95 50 25| 700 | 50|/ DOS SUES702 100 | = 950 25 20; 500 | 35) DO4 SUES502 75 0.95 | 50 25} 700 | 50] DOS SUES703 150 .950 25 20 500 35] DO4 SUES503 100 0.95 50 25 700 50] DOS SUES704 200 | 1.25 20 50 | 500 | 50) DO4 SUES504 125 0.95 | 50 25| 700 | 50) DOS SUES705 300 1.25 20 50 | 500 | 50/ DO4 SUES505 150 0.95 50 25| 700 | 50] DOS SUES706 400 | 1.25 20 50 | S00 | 50| DO4 15 AMP. DO4 70 AMP. DO5 TYPE Pay | Ye b h | bow |, TYPE Pav | Ye b 4 | bem | *T,, NUMBER | Volts | Volts | Amps | uA | Amps | ns | CASE NUMBER | Volts | Volts | Amps; uA | Amps | ns | CASE SUES707 500 1.2 15 50 200 50] DO4 SUES801 50 975 70 25 800 507; DOS SUES708 600 1.2 15 50 200 50| DO4 SUES802 100 975 70 25 800 50 | DOS SUES709 700 15 15 50 | 200 70} DO4 SUES803 150 975 70 25 | 800 50 | DOS SUES710 800 15 15 20 | 200 70} DO4 SUES804 200 1.25 50 70 | 700 50) DOS SUES805 300 125 | 50 70 | 700 | 50} DOS SUES806 400 125 | 50 70 | 700 | 50] DOS 20 AMP. DO4 TYPE Pay Ve b ot bem | Te 35 AMP. DO5 NUMBER | Volts | Volts | Amps | uA | Amps | ns | CASE TYPE Poy V, b Lol bee | Te ** 1N5812 50 0.95 20 10 250 35) DO4 NUMBER Volts Volts Amps uA jAmps | ng {CASE _ 1N5813 75 0.95] 20 10] 250 | 35] DOs SUESROF 500 735] 3E 50071 400 1 601 DOS 1N5814 100 0.95] 20 10] 250 | 35] DO4 1NS815 | 125 095} 20 10] 250] 35| DOs SUES808 | 600 125 | 35 | 100 | 400 | 50} 005 ~ 4iN5B16 150 o9s | 20 10| 250 | 35| Dos SUES809 700 1.25 | 35 100 | 400 | 70] DOS SUES810 800 15 35 100 | 400 | 70 | DOS 30 AMP. TO3 30 AMP. TO3 (DUAL) - PER LEG TYPE Pav | Ye b h | bem | *T,, TYPE ra a b h | be [T, NUMBER | Volts | Volts | Amps | uA | Amps! ng | CASE NUMBER | Volts | Voits | Amps | uA {Amps | ns | CASE SUES601 50 915 30 25 800 50 | To3 SUES2601 50 .930 15 20 500 35 TOS SUES602 100 915 30 25 800 50 | TO3 SUES2602 100 830 15 20 500 35 TO3 SUESS03 450 915 30 5 800 50 | TO3 SUES2603 150 .930 15 20 500 35 TO3 SUES604 200 12 30 70 B00 50 | TO3 SUES2604 200 1.25 15 50 500 50 TO3 SUES605 | 300 12 | 30 70 | 800 | 50| To3 SUES2605 | 300 | 1.25 15 50 | 500 | 50 | TO3 SUES606 400 1.2 30 70 800 50 | To3 SUES2606 400 4.25 15 50 500 50 TO3 25 AMP. TO3 25 AMP. TO3 (DUAL) - PER LEG TYPE Pay VE ) h | bow | *T, TYPE Pay Ve b | bsw | *T,, NUMBER | Volts | Volts Amps uA | Amps {| ns {CASE NUMBER | Voits {| Volts Amps uA | Amps | ns | CASE SUES607 500 1.25 25 100 400 50} TO3 SUES2607 500 12 125 70 200 50 TO3 SUES608 600 1.25 | 25 100) 400 | 50/ TO3 SUES2608 | 600 | 1.2 12.5 70 | 200 | 50 | Tos SUES609 700 1 25 100) 400 ) 70] TO3 SUES2609 | 700 1.2 12.5 70 | 200 | 70 | Tos SUES610 800 15) 25 100} 400 | 70) TO3 SUES2610 | 800 | 1.5 12.5 70 | 200 | 70 | TOS 70 AMP. DOS TYPE Pay VE 4 | be | 7, NUMBER Volts Volts Amps uA | Amps | ng | CASE 1N6304 50 975 | 70 30 | 800 | 50 | DOS 1N6305 100 975 | 70 30 | 800 | 50 | DOS 1N6306 150 975 | 70 30 | 800 | 50 | DOS * Tay RATIO .5/1-.25 ** AVAILABLE AS JAN, JTX AND JTXV TO MIL-S-19500/478A Semicon 66 Components incSEMICON COMPONENTS INC CSE D WM 613515? 0000850 5 mm Deere gee Ta en eT Boe egoakaas coe . . . * ey ie. Ves/tp Ve /\Ip TYPICAL Ve /ig TYPICAL TYPICAL SUES 701 703 ~~ E = < (N581 < a \ a IN5816 a : Lat 0 123 4 5 6 7 8 9101112131415 og se 8 67 @ 9ioiviaiaiats Vp - VOLTS Vp VOLTS Ve VOLTS TYPICAL REVERSE CURRENT MAXIMUM SURGE CAPABILITY vs. REVERSE VOLTAGE TYPICAL REVERSE CURRENT vs REVERSE VOLTAGE O001 00001 & bot iN58 12-16 0001 THRU SUES 706 z : = < 001 a Ww % < s = a B I ' w 4 ~ 1 R 1 +-4 SUES 701 & INSB12 {- THRU THRU = 10 1 10 100 1000 SUES 703 1N5816 | 4 NO. OF CYCLES : oT @ 60Hz - 100 z. =] - 140130120110 100 90 80 70 6O SO 40 30 20 t0 0 150 140 130120110100 30 80 70 60 50 40 30 20 10 0 V_ REV V (% OF PIV) VR REV Vi% OF PIV) OUTPUT CURRENT vs CASE TEMPERATURE na uw oi A (SUES 701-706) S B (1NS812 IN6816) 4 | 2 | oO Zz - < ec uw 3 R 100 125 150 175 Tg CASE TEMPERATURE (C} 67 Semicon omponents incSEMICON HESS foe 1000 00 COMPONENTS INC cde a eee SUES 707-710 SUES 2607-2610 Me 135157 Oo00a51 7 gore MAXIMUM SURGE CAPABILITY SUES 707 THRU SUES 710 100 000 oO 2 10 000 gE @ z 8 iw c _ > 1.000 vn wh Qo xR 700 010 001 1 10 100 1000 G 1 2 3 4 6 7 8 9 101.4 1213 1416816171819 20 21 22 2.3 2.4 NO. OF CYCLES ~ Vp VOLTS TYPICAL REVERSE CURRENT v5. REVERSE VOLTAGE 001 OUTPUT CURRENT SUES 707-710 vs. SUES 2607 THRU CASE TEMPERATURE sues 9610 100 SUES 707 90 THRU SUES 710 80 01 70 oO z & 60 x uw 50 oO 40 6 = 30 a 20 ft 1 = l x 80 100 110 120 130 140 150 (Tc) CASE TEMP. C 10 100 100050 30120110100 90 80 70 60 SO 40 30 20 10 0 % OF PIV Semicon 68 Components wweCoe PD oe ae R a semen COMPONENTS INC me 4135157 000045e 7 % OF RATING ~ Ig AMPERES OUTPUT CURRENT vs CASE TEMPERATURE 120s mii trop bb bet ee SUES 601-606. . iy [ft SUES 2601-2606 SUES 601-606 100 tt edhe Ue cb trep ee SUES 2601-2606 pooh ' i + + oO t z ! Ez ba < 1 Lo uw +t 4 : ec 2 wv uw 36 1 I: 100 425 150 176 CASE TEMPERATURE (C} Veflp TYPICAL NO. OF CYCLES TYPICAL Vp /ig PRE F sues 2601-2603 wor 4 i SUES 604-606 - 200400V oy edde Ih ot my peel Ig AMPS Ip AMPS ett cette eke vee 1 ott 0 12 3 4 5 6 7 $8 9 1011121391415 Ve - VOLTS Pi 50-150V TYPICAL REVERSE CURRENT vs REVERSE VOLTAGE ~L. Ve ~ VOLTS TYPICAL Ip/VR & SUES 601 THRU SUES 603 180 140 130520110100 90 80 70 60 50 40 30 20 10 0 Vp REV V (% OF Flv) Ip ~ MA PIV 50-150V TYPICAL REVERSE CURRENT vs REVERSE VOLTAGE 90001 s } Ro | ie LOTTE + tw. = + SUES 2604 - THRU _. SUES 2606 Ip MA 14D 130120 110 100 90 70 60 50 40 10 Vp REV V (% OF PIV} 140130120110100 96 (% OF FIV) 50 40 30 20 10 a Ip AMPS ig AMPS 50-150V : suesbor er PTI PL i | 5 100 ps 10. ' 2 t+ ro Pi aa 1 | bo i if bo t of 10 t } . PEE dP ded ibe dl pe EG ryt o1! Poo rudd i O12 3 45 6 7 8 9 10111219 14 Vp - VOLTS TYPICAL Vp /ig : _ PEEL Ei tipi perepe. F SUES 2608 2606 doi |] | fo. 4 | t t , 1 | | whe. r elite ede bit. | eae eee ened + mans eee re il ; 6 7 8 9101112131415 Vp VOLTS TYPICAL Ip/Vp SUES 604 THRU 2 ig MA PIV 200-400V 100 140 130120110100 90 (% OF PIV} 50 40 30 20 10 0 69 Semicon omponents incCOMPONENTS INC 2s ago sh. She eR son fs 1000 00 100.000 10.000 w a = ft a 1.000 400 a10 oot Qo 1 2 #3 #4 90 80 70 Q z & 60 < [iad u 50 0 40 2 ~ 30 20 1 80 NOTES: Velle TYPICAL 8 9 1014114213 141514 ~ Ve VOLTS OUTPUT CURRENT vs. CASE TEMPERATURE SUES 607 THRU SUES 610 6 1.718 19 2.0 SUES 607 THRU SUES 610 SUES 2607 THRU SUES 2610 110 120 130 (Te) CASE TEMP. C * STANDARD POLARITY IS CATHODE COMMON TO CASE + ADD SUFFIX LTR R FOR ANODE COMMON TO CASE + SUES2601 SERIES ARE DUAL CHIP CENTER TAP DEVICES WITH CASE COMMON 140 150 ose Nee sans ales : % OF SURGE RATING MAX SURGE SUES 607 THRU SUES 610 & SUES 2607 THRU SUES 2610 1 10 100 NO. OF CYCLES 1000 TYPICAL REVERSE CURRENT vs. REVERSE VOLTAGE 001 SUES 607 THRU SUES 610 at Ig - MA 10.0 PIN 1 PIN 2 PIN 1 PIN 2 PIN 1 PIN 2 CASE CASE CASE COMMON ANODE COMMON CATHODE DOUBLER NEGATIVE OUTPUT POSITIVE OUTPUT (CONSULT 140 130120110100 90 80 70 6G 50 40 30 20 10 0 REVERSE POLARITY STD POLARITY FACTORY) % OF PIV Semicon 70 omponents incSEMICON COMPONENTS INC CSE D MM 4613515? 0000854 2 mm ULTRA FAST RECOVERY RECTIFIERS DO-4, DO-5, TO-3 HERMETIC SEALED AND MILITARY (501-505, 801-806) TYPICAL TYPICAL TYPICAL IR'VR in VR Ip VR TTT T nn 7 | | not 1 1 : it | ed SAaULAEREERREREREE ERE ht SUES 501 ' , ' SUES 801 eh THR . oo * ; THRU : SUES 505 tt F~ SUES 803 , 7 001 0001 2 s 2 > + 3B 3 3S 7 01 - 9 o Nw g I > 2 > < < = = = < 1 1 Ss x ' 4 - = 1 10 100 = = 100 140 130120 110 100 90 (% OF PIV, 50 40 30 20 10 0 140 130120 110 100 90 (%& OF PIV, 50 40 30 20 10 0 140 130120 110 100 90 1% OF Flv) be 40 30 20 10 0 % OF PIV-VOLTS % OF PIV-VOLTS % OF PIV VOLTS Vyrlp TYPICAL Veigp TYPICAL Ve/le TYPICAL 200 + SUES 804 806 100 00 + SUES 501-505 200- SUES 801-803 ; 100 yn = = 10 10 2 10 b = + g < 10 < to ! 10 ~ + 19 10 10 o1 123 46 5 6 7 @8 910111213914 Q1 o1 -L VOLTS o 12 3 4 5 86 7 B 1011121314 QO 12 3 4 5 6 7 B $ 1011124391415 VF Vp VOLTS Ve ~ VOLTS MAXIMUM SURGE CAPABILITY OUTPUT CURRENT vs CASE TEMPERATURE 120 lI : I 4 SUES 501-505 A SUES B01 806 100 SUES 801-~806 8 110 iu 8 SUES 501-505 90 | de wi oo: ' & ze m4 <x e I <7 fay wa = 60 1 Cc g 2 5O = w E o 0 z B x x 20 I 10 ONE CYCLE ' 100 126 150 175 5 y 10 100 1000 Tg CASE TEMPERATURE () NO OF CYCLES 71 Semicon Components incVeAp TYPICAL MAX SURGE CAPABILITY SUES 807 SUES 807 THRU THRU SUES 810 1000.00 SUES 810 100 000 9 z Ee t 10000 c < 2 we wn ~ 4.900 o x 100 010 1 10 100 1000 .001 NO. OF CYCLES 01 2 38 4 5 6 7 8 9 101.1 1213 141516 17 18 19 2.0 ~ Ve VOLTS TYPICAL REVERSE CURRENT v5. REVERSE VOLTAGE 001 OUTPUT CURRENT vs. CASE TEMPERATURE 100 SUES 810 SUES 807 90 THRU 01 SUE: 80 S$ 810 70 gO < Zz 6 oc u 50 o 40 1 2 30 < 20 = | 10 a 80 100 110 120 130 140 150 (Te) CASE TEMP C 10 100 100-640 120110100 90 BO 70 60 50 40 30 20 10 0 % OF PIV Semicon 72 Components inc