Numerical Index 2N1732-2N1868 ale MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS fe | & | REPLACE. | PAGE Po 1B] Ty | Ves | Vee |= tre @ Ie Voxsan @ | Blt |B TE (2/5 | ment | numper| USE & 13 ge ol a BL Tel z|= @ 25C | BY] C | volts) | (volts) |S | (min) (max) 5} (volts) 5 3 5|3 2N1732 GIN APA 150M | A 85 30 30], xX 40 LOM 5.0M/B 2N1742 Gt P | 2N3283 9-51 RFC 60M | A | 125 20 20/5 10 2.0M 2N1743 G] P | 2N3284 9-51 | RFC 60M | A |] 125 20 20]; S 10 2.0M 2NL744 G| P | 2N3284 9-51 RFC 60M} A | 125 20 20/S 10 2.0M 2N1745 G| P| 2N3285 9-51 RFC 60M | A | 100 20 20]|Ss 10 2.0M 2N1746 G} P | 2N3323 9-71 RFC 60M | A | LOO 20 20) 58 10 1,0M 100M | M 2N1747 G| P | 2N3324 9-71 RFC 60M | A | 100 20 20/8 10 1.0M 2N1748 G| P| 2N3324 9-71 VAC 60M | A | 100 25 25158 30 /E 80M | T 2N1748A | G| P | 2N3323 9-71 VAG 60M | A | 100 25 25/8 50 |E 100M | T 2N1L749 Gi P | 2N3323 9-71 VAC 75M {A | 100 40 40|8 30 |E 80M [| T 2NL750 G| P AFC I5M|A 75 14 6.0]S 18 40 500* 30M | M 2N1751 G} P| 2N2832 7-91 LPA 110 80 so] s 30 90 20A 0.5 20A 20/E 1.5M |B 2N1752 G] P| 2N3325 9-71 | AFC 60M | A | 100 12 12/58 50 /E 50M | M 2N1753 G| P RFA 30M | A 85 30 18} 0 50 | 220 100* 2N1754 G| P | 2N964 8-74 HSS 50M [A 85 13 13 4S 20 LOM 0.2 10M 2NL755 G| P | 2N2137 7-78 PMS 2EWw ic 95 40 35/8 36 75 0.54 0.7 3.04 15K | E 2N1756 G| P | 2N2138 7+78 PMS 28W Ic 95 60 50]s 30 75 0.54 0.7 3.0A 2N1757 G| P | 2N2139 7-78 PMS 28W 1c 95 80 65 |S 30 75 0.5A 0.7 3.0A I5SKj,E 2NL758 G] P | 2N2140 7-78 PMS 28W1C 95 LOG 75/8 30 75 0.54 0.7 3.0A ISK E 2N1759 G| P | 2N2142 7-78 PMS 28W tC 95 40 35/5 60 | 150 0.5A 0.5 3.0A 15K] E 2N1760 G| P | 2N2143 7-78 PMS 28W | C 95 60 50 |S 60 | 150 0.5A 0.5 3.04 ISK], E 2N1761 G{ P| 2N2144 7-78 PMS 28W |] Cc 95 80 65 )S 60 | 150 0,54 0.5 3.04 ISK] E 2N1762 Gi P| 2N2145 7-78 PMS 28W | Cc 95 100 75 |S 60 | 150 0.54 0.5 3.0A 15K | E 2N1763 SN MSS 0.3W {A [175 40 25 | 0 1.5 10M 2N1764 Sj N MSS O.3W1A] 175 20 15 | 0 1.5 10M 2N1765 Thyristor, see Table on Page 1-154 2N1768 S| N] 2N3713 7-125] MSS 40W } C } 200 60 40)0 35 | 100 750M } 0.75 750M 600K | B 2N1769 8 | N | 2N2713 | 7-125] MSS how | 200 100 55 |0 35 | 100 750M | 0.75 750M 600K |B 2N1770 thru Thyristors, see Table on Page 1-154 2N1778 2N1779 G| P MSS LooM | A | 100 25 20 }R 20 60 30M 2N1780 S| P MSS 100M | A | 100 25 25 |R 30 | 110 30M 4,.0M 1B 2N1L781 G| P MSS 100M | A } 100 25 25 |X 40 20M | 0.15 12M 4.0M |B 2N1782 G | P MSS 100M | A | 100 30 20 |X 30 | 150 10M | 0.20 50M 5.0M {7B 2N1783 G| P MSS 100M | A | 100 30 1570 20 10M 0.32 200M 30)E 5.0M [B 2N1784 GI} P MSS 100M | A | LOO 30 20 }0 20 LOM | 0.32 200M 10M |B 2N1785 G] P | 2N3324 9-71 | RFC ASM JA 85 10 10) 3s 40 1.0M SOM ) M 2N1786 GP | 2N3323 9-71 RFC 45M] A 85 10 10] Ss 15 1.0M 50M |M 2N1787 G| P | 2N3324 9-71 RFC 45M] A 85 15 15 }8 25 1,0M 50M |M 2N1788 G} P | 2N3324 9-71 RFC 50M | A | 100 35 35S 50 1.0M 100M | M 2N1789 G| P | 2N3325 9-71 RFC 60M | A | L100 35 35 |5S 20 1.0M LOOM | M- ant7e0 G| P | 2N3323 9-71 RFC 60M | A | 100 35 35 |S 40 1.0M 100M { M 2N179 thru Thyristors, see Table on Page 1-154 2N1807 2N1808 GIN MSA 150M | A 85 25 0.15 12M 4.0M |B 2N1809 S|N PMS 250W | C [175 50 50 [Vv 10 LOA 1.5 LOA 2N1810 |S) N PMS 250W | C } 175 100 Lod tv 10 10A L.5 10A 2N1811 | S| N PMS | 250W|C]175} 150] 150/V J] 10 10A 1.5 10A 2N1812 S| N PMS 250W | Cc | 175 200 200 | V 10 10A 1.5 10A 2N1813 S|N PMS 250W {| C | 175 250 250 |v 10 10A 1.5 LOA 2N1814 S|] N PMS 250W | Cc | 175 300 300 | Vv 10 10A 1.5 LOA 2N1816 S|N PMS 250W | C | 175 50 50 /V 10 LSA 1.5 15A 2N1817 Ss] N PMS 250W ) C 4175 100 100 |} V 10 154 1.5 154 2N1818 S|, N PMS 250W | Cc | 175 150 150 | V 10 15A 1.5 15A 2N1819 S|N PMS 250W | Cc | 175 200 200 | Vv 10 15A 1.5 15A 2N1820 S|N PMS 250W 1c | 175 250 250 | V 10 15A 1.5 15A 2N1821 S/N PMS 250W | C | 175 300 300 | V 10 15A 1.5 15A 2N1823 S|N PMS 250W | C | 175 50 50] 10 20A 1.5 20A 2N1824 S|N PMS 250W | Cc {175 100 100 | Vv 10 20A 1.5 20A 2N1825 S| N PMS 250W | C | 175 150 150 | V 10 20A 1.5 20A 2N1826 S\N PMS 250W | Cc | 175 200 200 | V 10 20A 1.5 204 2N1827 SIN PMS 250W | C | 175 250 250 /V 10 204 1.5 204 2N1828 s|N PMS 250W | C | 175 300 300 | V 10 20A 1.5 20A 2N1830 S}N PMS 250W | c ) 175 50 50 7) V 10 254 1.5 254 2N1831 S|N PMS 250W |} Cc | 175 100 100 | V 10 25A 1.5 25A 2N1832 S| N PMS 250W | C | 175 150 150 | V 10 25A 1.5 25A 2N1833 S|N PMS 250W | C | 175 200 200 | V 10 254 1.5 25A 2N1834 S|] N PMS 250W | C | 175 250 250 | Vv 10 25A 1.5 25A 2N1835 SIN PMS 250W |} Cc 1175 300 300 | Vv 10 254 1.5 25A 2N1837 S| Nj 2N2218 8-108] HSS 800M }A | 300 80 30,0 40 } 120 150M 0.8 150M 140M | T 2N1837A | Sj N | 2N2218 8-108] Hss 0,8W]A 1175 80 30 ;O; 40/120} 0.15A 0.8 | 0.154 140M | T 2N1837B | S| WN HSS 0.8W {A j 200 80 30]/01 40/120 ]0.15A 0.8) 0,15A 140M | T 2N1838 S| N } 2N2218 8-108 | HSs 0.6W | A | 175 45 20)0 40 | 150 0.14 1.4 O.1A 90M | T 2N1839 S| N | 2N2218 8-108; HSS O.6W |} A | 175 45 20/0 12 50 0.1A 1.4] 0.154 90M | T 2N1840 S| N{ 2N2218 8-108} HSS Q.6W YA [175 25 15 10 10 | 100 | 0,154 1.410.154 90M | T 2N1841 S| N HPA 2.0W }A {150 100 50 ]0 15 50 15M 1.0 1.0A 60M | E 2N1842 thru Thyristors, see Table on Page 1-154 2N1850 2N1853 P HSS 150M | A 85 18 6.0),0 30 6.0M 0.2 6.0M 2N1854 GP HSS 150M | A 85 18 6.910] 40 20M 0.2 20M 40M (T 2N1864 G| P | 2N3324 9-71 RFC 60M ] A | 100 20 20/S 10 1,0M 20/E 50M |M 2N1865 G| P | 2N3325 9-71 RFC 60M | A | 100 20 20}5 40 1.0M 2N1866 G | P | '2N3323 9-71 RFC 60M |} A | 100 35 35 |S 40 1. OM 2N1867 G] P | 2N3324 9-71 RFC 60M | A | 100 35 35 |S 10 1,.0M 2N1868 G] P | 2N3325 9-71 REC 60M {A | 100 20 20 |S 10 2.0M 1-1222N1602-2N1850A THYRISTOR INDEX (continued) Numerical Index PAGE I, Veom/Vrom im ler Ver TYPE REPLACE MENT NUMBER A V oe mA v 2N1602 2N4170 4-26 4.0 200 125 10 3.0 2N1603 2N4171 4-26 4.0 300 125 10 3.0 2N1604 2N4172 4-26 4.0 400 125 10 3.0 2N1686* Q.5 30 125 1.0 1.0 2N1687* 0.5 60 125 1.0 1.0 2N1688* 0.5 100 125 1.0 1.0 2N1689* 0.5 200 125 1.0 1.0 2N1765 Q.5 400 85 10 1.5 2N1770 2N4167 4-26 4.7 25 125 15 2.0 2N1770A 4.7 25 150 15 2.0 2N1771 2N4168 4-26 4.7 50 125 15 2.0 2N1771A 4.7 50 150 15 2.0 2N1772 2N4169 4-26 4.7 100 125 15 2.0 2N1772A 4.7 100 150 15 2.0 2N1773 2N4170 4-26 4.7 150 125 15 2.9 2N1773A 4.7 150 150 15 2.0 2N1774 2N4170 4-26 4.7 200 125 15 2.0 2N1774A 4.7 200 150 15 2.0 2N1775 2N4171 4-26 4.7 250 125 15 2.0 2N1775A 4.7 250 150 15 2.0 2N1776 2N4171 4-26 4.7 300 125 15 2.0 2N1776A 4.7 300 150 15 2.0 2N1776B 4.7 300 150 15 2.0 2N1777 2N4172 4-26 4a? 400 125 15 2.0 2N1777A 7.0 400 150 15 2.0 2N1778 2N4173 4-26 7.4 500 125 15 2.0 2N1778A 7.0 500 150 15 2.0 2N1792 110 60 125 75 3.0 2N1793 110 120 125 75 3.0 2N1794 L1O 180 125 75 3.0 2N1795 110 240 125 75 3.0 2N1796 110 300 125 75 3.0 2N1797 110 360 125 75 3.0 2N1798 110 480 125 75 3.0 2N1799 110 600 125 75 3.0 2N1800 110 720 125 75 3.0 2N1801 110 840 125 75 3.0 2N1802 110 960 125 75 3.0 2N1803 110 1080 125 90 3.0 2N1804 110 1200 125 90 3.0 2N1805 110 500 125 75 3.0 2N1806 110 600 125 75 3.0 2N1807 110 700 125 75 3.0 2N1842 4-15 16 25 100 80 2.9 2N1842A 4-18 16 25 125 80 2.0 2N1842B 20 25 125 75 3.0 2N1843 4-15 16 50 100 80 2.0 2N1843A 4-18 16 50 125 80 2.0 2N1843B 20 50 125 75 3.0 2N1844 4-15 16 100 100 80 2.0 2N1844A 4-18 16 100 125 80 2.9 2N1844B 20 100 125 75 3.0 2N1845 4-15 16 150 100 80 2:0 2N1845A 4-18 16 150 125 80 2.0 2N1845B 20 150 125 75 3.0 2N1846 4-15 16 200 100 30 2.0 2N1846A 4-18 16 200 125 80 2.0 2N1L846B 20 200 125 75 3.0 2N1847 4-15 16 250 100 80 2.0 2N1847A 4-18 16 250 125 80 2.0 2N1847B 20 250 125 75 3.0 2N1848 4-15 16 300 100 80 2:0 2N1848A 4-18 16 300 125 80 2.0 2N1848B 20 300 125 75 3.0 2N1849 4-15 16 400 100 80 2.0 2N1849A 4-18 16 400 125 80 2.0 2N1849B 20 400 125 75 3.0 2N1850 4-15 16 500 100 80 2.0 2N1850A 4-18 16 500 125 80 2.0 1-156Silicon Controlled Rectifiers 2N1842 thru 2N1850 Veo ay = 25500 V Industrial-type, silicon controlled rectifiers ina stud package with current handling capability to16 amperes at junction temperatures to 100C. CASE 64 (TO-48) MAXIMUM RATINGS (T, = 100C unless otherwise noted) Rating Symbol Value Unit Peak Reverse Blocking Voltage* Vromirep)* Volts 2N1842 25 2N1843 50 2N1844 100 2N1845 150 2N1846 200 2N1847 250 2N1848 300 2N1849 400 2N1850 500 Peak Reverse Blocking Voltage VROM(non-rep) Volts (Transient) 2N1842 35 (Non-Recurrent 5 ms max.) 2N1843 75 2N1844 150 2N1845 225 2N1846 300 2N1847 350 2N1848 400 2N1849 500 2N1850 600 Forward Current RMS Ik 16 Amp (All Conduction Angles) Circuit Fusing Considerations 12t Aas (Tz = -40 to +100C, t = 8.3 ms) 60 Peak Forward Surge Current IFM(surge) Amp (One Cycle, 60 Hz, Ty = ~40 to +100C) 125 Peak Gate Power - Forward Porm 5.0 Watts Average Gate Power Forward Par( AV) 0.5 Watt Peak Gate Current - Forward lpgm 2.0 Amp Peak Gate Voltage - Forward Vorm 10 Volts Reverse Vorm 5.0 Operating Junction Temperature Range Ty -40 to +100 C Storage Temperature Range Tstg -40 to +125 C Stud Torque _ 30 in.-Ib. *VROM(rep) for all types can be applied on a continuous dc basis without incurring damage. Ratings apply for zero or negative gate voltage. 4-15 Silicon Controlled Rectifiers 2N1842 thru 2N1850 (continued) ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise r oted) Characteristic Symbol Min | Typ | Max Units Peak Forward Blocking Voltage* Vom" Volts (Ty = 100C) 2N1842 25, ~_ 2N1843 50 _ _ 2N1844 100 | _ 2N1845 150 | 2N1846 200 _ _ 2N1847 250 | _ 2N1848 300 | _ 2N1849 400 | _ 2N1850 500 | _ Peak Forward or Reverse Blocking Current Irom mA (Rated Vrom or Vpoy gate open, Ty = 100C) Trom |] | 6.0 Gate Trigger Current (Continuous dc} ler mA (Anode Voltage = 7 Vdc, Ry = 50 2) 15 80 Gate Trigger Voltage (Continuous dc) Vor Volts (Anode Voltage = 7 Vdc, R, = 50 Q) | 0.8 2.0 = = = 0 (Anode Voltage = Rated Vpoyy, Ry = 502, T; = 100C) | Venp [0.3 ) | Holding Current Tyo mA (Anode Voltage = 7 Vde, Gate Open) | 20 _ Forward On Voltage VE Volts {Ip = 16 Adc) jii 1.8 Turn-On Time (tg + t,) ton us Ug = 50 mA, Ip = 10 A) | 1.0 _ Turn-Off Time tote us (lp = 10 A, Ip = 10 A; dv/dt = 20 V/s, Ty = 100C) |2]; (Vexm = rated voltage) (Vpxm = fated voltage) Forward Voltage Application Rate dv/dt V/ us (Gate open, Ty = 100C) | 30 Thermal Resistance (Junction to Case) 85c }10 } 20 | %C/w *Vrom for all types can be applied on a continuous de basis without incurring damage. Ratings apply for zero or negative voltage. 4-162N1842 MAXIMUM ALLOWABLE hru 2N1850 (continued) Silicon Controlled Rectifiers FORWARD GATE CURRENT ior == 2 AMP GATE TRIGGER CHARACTERISTICS FORWARD CONDUCTING CHARACTERISTICS 20 + = ' PEAK GATE POWER = 104 2.0 VOLTS Poru = 5 WATTS = 3 REQUIRED TO = 054 TRIGGER ALL UNITS w 777 MAXIMUM ~ . a = 4 rv i AS A TRIGGER CIRCUIT DESIGN CRITERIA 3 = dies ALL UNITS WILL TRIGGER AT ANY VOLTAGE = pod | TEE! AND CURRENT WITHIN THiS AREA @ 5 zs | = iad x= = & =e | 80 mA GATE CURRENT REQUIRED 2 Bold | ez F__TOTRIGGER ALL UNITS = ra EE u 4 Zcz -- a 3 us 3 CIRCUITS BY CHOOSING PROP! an *g0 Se, { a CONDUCTION ANGLE Patan | 7 a p 8 90 T ON w a" x * SN ~ *180 DC 4 3 [ a FINS 1/16" THICK COPPER - 99 + = 2 F-witn emissivity = 90% ~ S> DC, 14, 34, 6G, CIRCUIT-RESISTIVE OR E HO NES binedtly INOUCTIVE LOAD, 50 TO 400 Hz + MINIMUM SPACING == 3/4 0 ] | | 0 1 0 4 6 8 10 12 14 16 20 40 60 80 100 lejavj AVERAGE FORWARD CURRENT (AMP) 4-17 T,, AMBIENT TEMPERATURE (C)