2N1545-2N1641 Numerical Index ele MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS | c= | REPLACE- | PAGE Po | Bi T V Ver_ |= Nee @ Ic V @\ a = TYPE = 5 MENT | NUMBER USE J ce | ce 5 # CEISATI <2 4 | 2 ~. = => @ 25C | S| C {| (volts) | (volts) |S | (min) (max) 5} (volts) s 3 5/3 2N1545 G{ P 7-64 LPA 90w | c | 100 60 45 (58 75 | 150 3.0A 0.2 3.0A LOK IE 2N15454 1 C| P 7-64 | LPA 90w | c | 100 60 45/s| 75 3.0A 0.2] 3.0A 3.0K] E 2N1546 G] P 7-64 LPA 90w | Cc} 100 80 60] Ss 75 { 150 3.0A 0.2 3.0A 1.0K] E 2N1546A | G| PF 7-64 LPA 90W | c} 100 80 6075 75 3.0A 0.2 3.0A 3.0K ]E 2N1547 G| P 7-64 LPA 90W] Cc | 100 100 7515S 75 | 150 3.0A 0.2 3.0A L.OK|E 2N1547A4 ] G] P 7-64 LPA 90W } Cc} 100 100 73/58 75 3.0A 0.2 3.0A 3.0K 1E 2N1548 G| P 7-64 LPA 90W | Cc } 100 120 90) 5 75 | 150 3.04 0.2 3.04 1.0K] E 2N1549 G| P 7-67 LPA 90W | C | 100 40 30] S 10 30 10A 1.0 10A 2N15494 1 G} P 7-67 | LPA gow | c | 100 40 301S ) 10} 30 LOA 1.0 10A 5.0K] E 2N1550 G) P 7-67 LPA 90W |; C } 100 60 45] S 10 30 10A 1.0 LOA 2NI550A} G| P 7-67 | LPA gow | c | 100 60 45/s] 10] 30 10A 1.0 10A 5.0K TE 2N1551 |G] P 7-67 | LPA gow | c | 100 80 60];s | 10] 30 LOA 1.0 10A 2N1551A | G] P 7-67 LPA 90W | c | 100 80 60} S 10 30 10A 1.0 LOA 5.0K |E 2N1552 G| P 7-67 LPA 90W {Cc ] 100 100 75/8 10 30 LOA 1.0 1OA 2N1552A | GI P 7-67 LPA 90W | Cc} 100 100 758 10 30 10A 1.0 10A 5.OK/E 2N1553 G| P 7-67 LPA 90W | c | 100 40 30158 30 60 LOA 0.5 LOA 1.0K] E 2N1553A |G] P 7-67 LPA 90W | c | 100 40 20/0 30 60 10A 0.5 10A 3.0K ]E 2N1554 | G|P 7-67 | LRA 90W | c } 100 60 45/5} 30] 60 10A 0.5 104 L.OK] E 2N15544 | G| P 7-67 LPA 90w | c | 100 60 30] 0 30 60 10A 0.5 10A 3.0K /E 2N1555 | c| P 7-67 | LPA gow | c | 100 80 60/s | 30] 60 10A 0.5 10A 1.0K | E 2N1555A | G| P 7-67 | LPA gow | c | 100 80 40/0] 30] 60 10A 0.5 10A 3.0K | E 2N1556 | G|P 7-67 | LPA 90w | c | L004 100 74s | 30) 60 10A 0.5 LOA L.OK LE 2N1556A | G] P 7-67 LPA 90W | Cc | LOO 100 50|0 30 60 10A 0.5 LOA 3.0K /E 2NL557 GIP 7-67 LPA gow | c | 100 40 3015S 50 | 100 LOA 0.4 LOA L.OKIE 2N1557A 1G] P 7-67 LPA 90W | Cc | 100 40 20/0 50 | LOO LOA 0.5 10A 3.0K) E 2N1558 | GIP 7-67 | LPA gow | c | Loo 40 45/s | 50] 100 LOA 0.4 10A L.OK LE 2N1558A | G| P 7-67 | LPA 90w | c | 100 60 30} 0] 50] 100 10A 0.5 10A 3.0K |E 2N1559 |G] P 7-67 | LPA 90w | c | 100 80 60]S { 50] 100 LOA 0.4 10A L.OK | E 2N1559A | G| P 7-67 LPA 90W | Cc | 100 80 40 ]0 50 | 100 10A 0.5 LOA 3.0K |E 2N1560 G| P 7-67 LPA 90W | Cc | 100 100 75 |S 50 | 100 10A 0.4 10A 1.0K E 2N1560A | G] P 7-67 LPA gow | c | 100 100 50]0 50 { 100 LOA 0.5 10A 3.0K] E 2N1561 G|P 9-24 RFA 250M | A | 100 25 15) 0 3.0 200M 2N1562 G| P 9-24 RFA 250M | A | 100 25 15 |0 4.0 200M 2N1564 S| N | 2N2218 8-108] AFA 600M | A j 175 80 6010 15 50 5.0M 1.0 LOM 20 |E 2N1565 S$] N | 2N2218 8-108) AFA 600M | A} 175 80 60] 0 30 | 100 5.0M 1,0 10M 40 ]E 2N1566 S| N ] 2N2219 8-108] AFA 600M | A | 175 80 60 |} 0 60 | 200 53.0M 1.0 LOM 80} E 2NL566A | S| N | 2N2219 8-108] AFA 600M | A | 175 80 60 | 0 60 | 200 5.0M] 0.95 10M 80 | E 100M | T 2N1572 S| N AFA 600M ; A | 175 125 80/0 15 50 5.0M 1.0 10M 20|E 2N1573 s|N AFA 600M | A j 175 125 80/0 30 | 100 5.0M 1.0 10M 40 ,E 2N1574 S| N AFA 600M } A | 175 125 80/0 60 } 200 5.0M 1,0 10M 80] E 2N1585 | GIN RFA} 750M | A | 100 25 10,0] 20 10M 2N1586 S| N AFA 125M] A 85 15 10 | 0 | 5.0 27 1,0M 1.5 5.0M | 9.0/E 5.0M|B 2N1587 S|] N AFA 125M] A 85 30 20)0 15.0 27 1.0M 1.5 5.0M |] 9.0j/E 5.0M } B 2NL588 S|N AFA 125M | A 85 60 40 |0 15.0 27 1.0M 1.5 5.0M 9.0]JE 5.0M |B 2N1589 S| N AFA 125M; A 85 15 10/0 20 75 1.0M 1.5 5.0M 25 |E 5.0M/B 2N1590 S|N AFA 125M | A 85 30 20]0 20 75 L.0M 1.5 5.0M 25 ]/E 5.0M |B 2NL591 s)N AFA 125M) 4 85 60 40)0]) 20 75 1.0M 1.5 5.0M 25 ],E 5.0M]B 2N1592 SIN AFA 125M 1A 85 15 10/0 40 | 210 1.0M 1.5 5.0M JOE 5.0M 1B 2N1593 S|N AFA 125M} A 85 30 20,0} 40] 210 1.0M 1.5 5.0M 70 |E 5,0M | B 2N1594 s|N AFA 125M | A 85 60 4010] 40 | 210 1.0M 1.5 5.0M 7O|E 5.0M |B 2N1595 thru Thyristors, see Table on Page 1-154 2N1604 2N1605 GIN MSS 150M |-A | LOO 25 2410} 40 20M 0.15 12M 4,0M |B 2N1605A |G|N Mss | 0.2W | A } 100 40 40 40 20M } 0.15 12M 4.0M |B 2NL606 S;P HSS 100M | A | 140 10 10} s | 6.0 30 15M | 0.15 5,0M 7.2M/T 2N1607 S| P HSs 100M | A | 140 10 10 |S | 6.0 30 15M | 0,15 5.0M 10M | T 2N1608 S| P HSs 100M | A | 140 10 10 | s {6.0 30 15M} 0.15 5.0M 25M | T 2N1609 G{ P | 2N2140 7-78 LPA 95 80 60 | oO 30 75 100M 1.0 500M 2N1610 G| P | 2N2145 7-78 LPA 95 80 60 | 0 50 | 125 100M 0.6 500M 2N1611L G| P | 2N2138 7-78 LPA 95 60 40/0 30 75 100M 1.0 500M 2N1612 | G{ P | 2N2143 7-78 | LPA 95 60 40 }o | 50/125 | 100m 0.6 | 500M 2N1613 S|N 8-30 MSA} 800M /A {200 75 50 }R } 405120 150M 4.5 150M 30 | E 60M | T 2N1613A | S | N | 2N2218 8-108 | MSA 1,0W | A | 200 75 50 7R 40 | 120 150M 1.0 150M 30 ]E 60M | T 2N1613B | S|N MSA] 1.,0W} A |200] 120 55 |R | 40]120| 150M 0.2 | 150M 30 | E 60M | T 2n1614 |G| P | 2N1924 6-37 | MSA| 240M | A | 100 65 40 |R ] 18} 43 20M | 0.13 20M 500K | B 2N1615 |S |N RFA| 5.5M{A {200 ] 100 | LOO |o | 25 5. 0M 5.0 50M 2.0M | T 2N1616 S| N |] 2N3487 7-115 | HPA 60w | c {175 60 60 | 0 15 75 2.04 2.0 2.0A 3.0M | T 2N1616A | s | N | 2N3487 7-115 | LPA a5w tc | 200 60 60 }o} 20] 60] 2.0A 1.0] 2.0A 3.0M | T 2N1L617 S| N | 2N3487 7+115 | HPA 60W | c | 175 80 B80] V 15 75 2.04 2.0 2.0A 3.0M | T 2N161L7A | S| N | 2N3487 7-115] LPA 85W 1 C | 200 80 70 | 0 20 60 2.0A 1.0 2.0A 3.0M | T 2N1618 |S] N | 2N3488 7-115 | HPA eow |] c]175 1 100 | 100} Vv} 15] 75] 2.0a 2.0 | 2.04 3.0M | T 2N1618A {S| N | 2N3488 7-115] LPA 85w | Cc | 200 100 80 | 0 20 60 2,04 1.0 2.0A 3.0M | T 2N1620 | S| N | 2N3446 7-111} HPA eow}c}{l75 | 100 | 100 ;V | 15] 75 | 2.0a 2.0] 2.0A 3.0M | T 2N1622 G]N AFA |0.12W]A 85 90 90 |S 40 5.0M 5.0M 2N1623 |S) P AFA} 250M ]A | 160 50 20)0 79.0} 40] 1.0M 0.3] 5.0M 100K | B 2N1624 1 G}N MSS | 0.15W | A | LOO 25 20{R | 60 | 180 30M 5.0M |B 2N1631 G| P | 2N3325 9-71 RFC 80M | A 85 34 40], E 2N1632 |G] P | 2N3325 9-71 | RFC Bg0M | A} 85 34 40 | 8 2N1633 | G|P REC som }A ) 85 34 27,5 2N1634 | G|P RFC 80M } A] 85 34 27) E 2N1635 |G} P RFC som |A | 85 34 40 | E 2N1636 |G|P RFC gom |A | 85 34 40 ]E 2N1637 |G{P | 2N3325 9-71 | RFC goM [A | 85 34 40 1E 2N1638 |G | P | 2N3325 9-71 | RFC som |A |] 85 34 70 |E 2N1639 G| P } 2N3325 9-71 | RFC 80M | A 85 34 40 ]/E 2N1640 1S | P cup | 250M ]A | 160 30 20 | u | 6.0 100* 2NL641 |S | P CHP | 250M {A | 160 30 10 |u { lo 100% 1-120Numerical Index THYRISTOR INDEX 2N681-2NI1601 PAGE iF Veom/Vrom Tt ley Ver TYPE REPLACEMENT NUMBER A V ot mA v 2N681 4-10 25 25 125 40 2.0 2N681A 28 25 125 40 2.0 2N682 4-10 25 50 125 40 2.0 2N682A 28 50 125 40 2.9 2N683 4-10 25 100 125 40 2.0 2N683A 28 100 125 40 2.0 2N684 4-10 25 150 125 40 2.0 2N684A 28 150 125 40 2:0 2N685 4-10 25 200 125 40 2.0 2N685A 28 200 125 40 2.0 2N686 4-10 25 250 125 40 2.0 2N686A 28 250 125 40 2.0 2N687 4-10 25 300 125 40 2.0 2N687A 28 300 125 40 2.0 2N688 4=10 25 400 125 40 2.0 2N688A 28 400 125 40 2-0 2N689 4-10 25 500 125 40 2.0 2N689A 28 500 125 40 2.0 2N690 25 600 125 40 2.0 QN690A 25 600 125 4.0 2:0 2N691 25 700 125 40 2.0 2N692 25 800 125 40 2.0 2N764%* 0.39 30 125 1.0 110 2N765* 0.20 60 125 1.0 1.0 2N766%* 0.20 100 125 1.0 1.0 2N767* 0.20 200 125 1.0 1.0 2N876 0.35 15 150 0.2 0.8 2N877 0.35 30 150 0.2 0.8 2N878 0.35 60 150 0.2 0.8 2N879 0.35 100 150 0.2 0.8 2N880 0.35 150 150 0.2 0.8 2N881 0.35 200 150 0.2 0.8 2N882 0.35 300 150 0.2 0.8 2N8833 0.35 400 150 0.2 0.8 2N884 0.35 15 150 0.02 0.6 2N885 0.35 30 150 0.02 0.6 2N886 0.35 60 150 0.02 0.6 2N887 0.35 100 150 0.02 0.6 2N888 0.35 150 150 0.02 0.6 2N889 0.35 200 150 0.02 0.6 2N890 0.35 300 150 0.02 0.6 2N891 0.35 400 150 0.02 0.6 2N892% 0.250 15 125 0.05 0.70 2N893* 0.250 15 125 0.05 0.70 IN894%* 0.250 30/15 125 0.05 0.70 2N895%* 0.250 30/15 125 0.05 0.70 2N896* 0.250 60/15 125 0.05 0.70 2N897* 0.250 60/15 125 0.05 0:70 2N898* 0.250 100/15 125 0.05 0.70 2N899% 0.250 100/15 125 0.05 0.70 2N900* 0.250 200/15 125 0.05 0.70 2N9O1L* 0.250 200/15 125 0.05 0.70 2N948 6.26 30 150 0.02 1.0 2N049 0.26 60 150 0.02 1:0 2N950 0.26 100 150 0.02 1.0 2N951 0.26 200 150 0.02 1:0 2N1595 4-13 1.6 50 125 10 3.0 2N1595A 1.6 50 150 2.0 2.0 2N1L596 4-13 1.6 100 125 10 3.0 2N1596A 1.6 100 150 2.0 2.0 2N1597 4-13 1.6 200 125 10 3.0 2N1597A 1.6 200 150 2.0 2:0 2N1598 4-13 1.6 300 125 10 310 2N1598A 1.6 300 150 2.0 2.0 2N1599 4-13 116 400 125 10 310 2N1599A 116 400 150 2.0 2:0 2N1600 2N4168 4-26 4.0 50 125 10 3.0 2N1600A 4.0 50 125 4.5 3.0 2NL601 2N4169 4-26 4.0 100 125 10 3.0 1-155MMAR M DD MD DD A WDWw ww) Thyristors THYRISTOR PRODUCTS THYRISTOR QUICK SELECTIOR 800 mA 1.6 AMP 2.0 AMP 8.0 AMP THYRISTORS 9 SILICON : i eH, . CONTROLLED ate a ey al RECTIFIERS an ey | | 4 ip r je (ak | Plastic Plastic J Case 85 Case 86 Case 87 Case 88 Case 29(10)| Case 31A Case 63 Case 90 Case 85L | caseser | cases7_ | case sar (Leads) (Leads) (Leads) (Leads) V 2N2322 2N4151 2N4167 MCR2604-1 | MCR2605-1 25 MCR846-1 2N4212# anaiso | angi7s| 2na1a3 2naig1 30V 2N5060# - -- _ _ 2N1595 2N4152 2N4168 MCR2604.2 | MCR2605-2 50V _ 2N2323# | MCRS46-2 2N4441 2N42134 2N4160 2N4176 2N4184 2N4192 60V 2N5061 #4 -- _ _ 2N1596 2N4153 2N4169 | MCR2604-3 | MCR2605-3 100V 2N5062# 2N2324# | MCR846-3 _ 2N4214# 2N41619 | 2N4177 2N41859 | 2n4193 2N2325# 150V 2N5063# -- 2N4215# 200 2N1597 2N4154 2N4170 MCR2604.4 | MCR2605-4 2N2326# | MCR846-4 2N4442 BLOCKING 2N4216# 2N4162 | 2N4178 2n4186 2n4194 (DC OR PEAK) VOLTS 250V _ -- _ _ 2N4155 2N4171 MCR2604-5 | MCR2605-5 _- 2N1598 _ - 300V 2N4163 2N4179 2N4187 2N4195 2N4156 2N4172 MCR2604-6 MCR2605-6 400V 2N1599 _ 2N4443 2N41640 2N4180 2nN4188 2n4196 2N4157 2N4173 MCR2604.-7 | MCR2605-7 500V ~ ~ ~ ~ 2naies | 2n4181] 2n4189 2n4197 2N4158 2N4174 MCR2604-8 | MCR2605-8 _ ~ 2 600V NaaMA 2N4166 2N4182 2N4190 2Nn4198 700V _ _ 800V _ _ _ _ _ _ _ *Reverse polarity available (add suffix R": i.e. 2N5164R) 4-4 **Formerly MCR2818 and MCR2918, -2, ~4, -6, -8 respectively. #Sensitive gate devicesSilicon Controlled Rectifiers 2N1595 thro 2n 1599 I = 1.6 A RMS Veromirep} = 50-400 V Industrial-type, low-current silicon controlled recti- fiers in a three-lead package ideal for printed-circuit applications. Current handling capability of 1.6 am- peres at junction temperatures to 125C. CASE 31A (70-5) MAXIMUM RATINGS (Ts = 125C unless otherwise noted) Rating Symbol Value Unit Peak Reverse Blocking Voltage* VROM(rep)* Volts 2N1595 50 2N1596 100 2N1597 200 2N1598 300 2N1599 400 Forward Current RMS kk 1.6 Amp (All Conduction Angles) Peak Forward Surge Current Ipm(surge) Amp (One Cycle, 60 Hz, Ty = -65 to+125C) 15 Peak Gate Power - Forward Porm 0.1 Watt Average Gate Power - Forward PGF(AV) 0.01 Watt Peak Gate Current - Forward Iorm 0.1 Amp Peak Gate Voltage - Forward Vorm 10 Volts Reverse Vorm 10 Operating Junction Temperature Range Ty ~-65 to +125 C Storage Temperature Range T stg ~65 to +150 % *Vrom for all types can be applied on a continuous de basis without incurring damage. MAXIMUM ALLOWABL| FORWARD GATE Curl CURRENT GATE TRIGGER CHARACTERISTICS FORWARD CONDUCTING CHARACTERISTICS 1005 = 10 50 MAXIMUM ALLOWABLE GATE POWER _ =z le Gare VOLTAGE Pera = 100 mW = 204 Reouaed To = 5 14 RRIGGER ALLUNITS EY Ez 20 & 5.074 & AS A TRIGGER CIRCUIT DESIGN CRITERIA = 10 & S < ALL UNITS WILL TRIGGER AT ANY VOLTAGE 5 B 20+ 2-2 AND CURRENT WITHIN THIS AREA e Fe< 2 of & 104 322 =< 8 o5- fe 10 ma GATE GURRENT REQUIRED Zz o2 = naz (yo 1256 Sma) =. NOTE; VOLTAGE DROP MEASURED wp 0.24 zee (Ts = 65C 15 mA) 2 01 2 INCH FROM BOTTOM OF CASE = 01 >= Ss Sod morwumauaeans gees |g 92 [TYPICAL TRIGGER POINT . = T, 4 D 001 => z T, = 25C a TO 0.01, 1,0 2.0 3.0 4.0 5.0 8 9 10 : : : . . Vg GATE VOLTAGE (VOLTS) vp, INSTANTANEOUS FORWARD ON VOLTAGE (VOLTS) (T, = 25C, ANODE @ 12 VOLTS) 4-13Silicon Controlled Rectifiers 2N1595 thru 2N1599 (continued) ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) Characteristic Symbol Min | Typ | Max Units Peak Forward Blocking Voltage* Vrom* Volts (Ty = 125C) 2N1595 50 | _ 2N1596 100 | _ 2N1597 200 | _ 2N1598 300 ; _ 2N1599 400 | _ Peak Forward Blocking Current Igom mA (Rated Vrom with gate open, T, = 125C) | | 1.0 Peak Reverse Blocking Current lrhom mA (Rated Vom, T; = 125C) | | 100 Gate Trigger Current (Continuous dc) Igor mA (Anode Voltage = 7 Vdc, Ry =12 2) }2.0 | 10.0 Gate Trigger Voltage (Continuous dc) Vor Volts = 122) j0.7 | 3.0 (Anode Voltage = 7 Vdc, R (Anode Voltage = Rated VFom: Ry = 122, Ty; = 125C) Yowr 0.2 _ _ L Holding Current Ino mA (Anode Voltage = 7 Vdc, Gate Open) 15.0 _ Forward On Voltage Vr Volts (Ip = 1 Ade) ]1. 2.0 Turn-On Time (tg + t,) ton BS Ig = 10 mA, Ip = 1A) _ 0.8 _ Turn-Off Time t ff Ss 0 (lp = 1A,Ip = 14, dv/dt = 20 V/ us, Ty= 125C) | 10 _ (VExm = rated voltage) (Vpxm = rated voltage) Te, CASE TEMPERATURE (C) *V rom for all types can be applied on a continuous de basis without incurring damage. CURRENT DERATING CASE TEMPERATURE AMBIENT TEMPERATURE 130 140 : 1 (1) DC, 14, 36, 62, CIRCUIT 20 z 120 INDUCTIVE LOAD, 50 TO 400 Hz S = (2) 125C JUNCTION TEMPERATURE 110 SS 0 180 = 100 \ SS PN | z 100 \ \ N a CONDUCTION ANGLES = #80 = 90 30*.. 69 NASR. E60 YN) NS e 1odel Db 80 } NOTES: t 120 MOF = 40 (1) DC, 14, 36, 69, CIRCUIT > 3 70 | RESISTIVE OR INDUCTIVE LOAD, 50 70 400 Hz 90 (2) CASE TEMPERATURE MEASURED AT CENTER OF BOTTOM OF CASEN| oc aq | (3) 125C JUNCTION TEMPERATURE \ | 60 i L i L 0 0 02 O04 O06 oO8 10 12 14 16 0 0.1 02 03 0.4 05 06 lecavp, AVERAGE FORWARD CURRENT (AMP) Ietavy, AVERAGE FORWARD CURRENT (AMP) 4-14