SCRs JAN & JANTX 2N3027-2N3032 0.5 Amp, Planar FEATURES DESCRIPTION e JAN and JANTX Types Available ; The 2N3027 series of planar SCRs (controlled switches) are intended for use in Fully Characterized for Worst Case Design _ military and space applications requiring a high degree of reliability. They offer a Passivated Planar Construction for Maximum unique combination of extremely fast switching, precise triggering, high pulse Reliabilityand Parameter Uniformity power, small size, intrinsic parameter stability, and high radiation tolerance. Low On-State Voltage and Fast Switchin at High Current Levels 8 The JAN and JANTX types are specified under MIL-S-19500/419, and are included Typical Turn-On Time: 0.12us in MIL-STD-701 as recommended types for military usage. Typical Recovery Time: 0.7zs @ Pulse Currents: to 30A ABSOLUTE MAXIMUM RATINGS JAN & JANTX 2N3027 JAN & JANTX 2N3028 JAN & JANTX 2N3029 JAN & JANTX 2N3030 JAN & JANTX 2N3031 JAN & JANTX 2N3032 Repetitive Peak Off-State Voltage, Vory Repetitive Peak Reverse Voltage, Very... D.C. On-State Current, |, 100C Case ... 75C Ambient .. Repetitive Peak On-State Current, Iray -- Surge (Non-Rep.) On-State-Current, I;s,, 50ms .... 8ms . Peak Gate Current, ley -..--.. Average Gate Current, lotayy . Reverse Gate Voltage ...... Reverse Gate Current .... Storage Temperature Range ve see Operating Temperature Range 0.000... ccc emeeescseess nescence setisenestierinserennee 65C to 150C cece w. 100V Note: Blocking voltage ratings apply over the operating temperature range, provided the gate is connected to the cathode through an appropriate resistor, or adequate gate bias is used. (See section on bias stabilization.) MECHANICAL SPECIFICATIONS JAN & JANTX 2N3027-2N3032 TO-18 t B-#* Cc INCHES MILLIMETERS tT CATHODE A | _.178-.195 DIA. 4.52-4.95 DIA. A Fma=m> Dd B | .170-.210 4.31-5.33 t = 45 cc] SMIN. 12.70 MIN. : te D | .209-.230 DIA 5.31-5.84 DIA. thro \e c [os BERK | anes Sb F | 020 MAX. 508 MAX. G | .1002.010 DIA. 2.544.254 DIA. H | .0412.005 1.042.127 J] 028-.048 Fil-1.22 uy 533 ome UNTITRODEELECTRICAL SPECIFICATIONS (at 25C unless noted) 2N3027 2N3028 2N3029 JAN & JANTX 2N3027-2N3032 Parameter Symbot Min. Typicai Max. Units Test Conditions SUBGROUP 1 MiL-STD-750 Visual and Mechanical - _ _ - Method 2071 SUBGROUP 2 (25C Tests) Off-State Current loa _ 002 0.1 uA Rox = 1K, Vorw = Rating Reverse Current term - 002 0.1 vA Rox = 1K, Varw = Rating Reverse Gate Voltage Vor 5 8 - v log = 0.1mMA Gate Trigger Current Vor 5 8 200 uA Res = 10K, Vp = 5V Gate Trigger Voltage Ver 40 55 80 v Res = 1008, Vp = SV On-State Voltage vy 08 12 15 v i; = 1A (pulse test) Holding Current la 03 0.7 5.0 mA Rex = 1K, Vp = 5V SUBGROUP 3 (25C Tests) Off-State Voltage Critical Rate of Rise dv,/dt 30 60 - v/ us Rox = 1K, Vp = 30V Gate Trigger-on Pulse Width tog (on) _ 07 0.2 ps Ig = 10MA, 1, = 1A, Voy = 30V Delay Time tg _ 08 - as Ig c= 10mA, |, = 1A, Vp = 30V Rise Time t, _ 04 - as Ig = 10mA, I, = 1A, Vp = 30V Circuit Commutated Turn-off Time ty - 07 2.0 HS I, sz 1A, ip = 1A, Rex = 1K SUBGROUP 4 (150C Tests) High Temp. Off-State Current lorm _ 2 20 BA Rex = 1K, Vogy = Rating High Temp. Reverse Current lara _ 20 50 uA Rex = 1K, Vaaw = Rating High Temp. Gate Trigger Veltage Ver 10 15 0.6 Vv Re; = 1002, Vp = 5V High Temp. Holding Current I, 05 .20 10 mA Rex = 1K, Vp = 5V SUBGROUP 5 (65C Tests) Low Temp. Gate Trigger Voltage Ver 0.6 0.75 11 v Reg = 1009, V, = 5V Low Temp. Gate Trigger Current ler 0 150 12 mA Res = 10K, Vp = SV Low Temp. Holding Current Ia 0.5 3.5 10 mA Rex = 1K, Vp = 5V ELECTRICAL SPECIFICATIONS (at 25C unless noted) 2N3030 2N3031 2N3032 Parameter Symbol Min, Typical Max. Units Test SUBGROUP 1 MIL-STD-750 Visual and Mechanical _ _ _ _ _ Method 2071 SUBGROUP 2 {25C Tests) Off-State Current lbem _ 002 0.1 BA Rox = 1K, Vogy = Rating Reverse Current Trans - .002 01 pA Rex = 1K, Vaan = Rating Reverse Gate Voltage Veg 5 8 _ v leg = 0.1mMA Gate Trigger Current ler 5 20 BA Res == 10K, Vp = 5V Gate Trigger Voltage Vex 0.44 0.6 Vv Res = 1002, Vp = 5V On-State Voltage Vy 0.8 12 15 Vv i, = 1A (putse test) Holding Current ly 0.3 10 4.0 mA Rox = 1K, Vp == 5V SUBGROUP 3 (25C Tests) Off-State Voltage Critical Rate of Rise dv,/dt 30 60 _ v/us Rex = 1K, Vp = 30V Gate Trigger-on Pulse Width tog (on) _ 05 01 Ss lg = 10mA, |, = 1A, Vp = 30V Delay Time ty _ O1 _ 2S 1g = 10mA, !, = 1A, Vp = 30V Rise Time t, _ 5 _ BS Ig = 10mA, |, = 1A, Vp = 30V Circuit Commutated Turn-off Time ty ~ 0.7 2.0 Bs I, = 1A, ip = 1A, Rey = 1K SUBGROUP 4 (150C Tests} High Temp. Off-State Current lorm - 2 20 BA Rex = 1K, Vorm = Rating High Temp. Reverse Currerit Jaem 20 50 BA Rex = 1K, Ver = Rating High Temp. Gate Trigger Voltage Ver 10 5 0.4 Vv Res = 1009, V, = 5V High Temp. Holding Current I, 05 30 2.0 mA Re, = 1K, Vp = 5V SUBGROUP 5 (65C Tests) Low Temp. Gate Trigger Voltage Ver 0.44 0.8 0.95 v Res = 1002, Vp = SV Low Temp. Gate Trigger Current ler 0 0.4 0.5 mA Res = 10K, Vp = 5V Low Temp. Holding Current i, 0.5 5.0 8 mA Rox = 1K, Vp = 5V High Reliability Processing The 2N3027-2N3032 series provides a compiete range of high reliability processing from the standard devices that undergo extensive electrical testing, through JAN and JANTX levels. 100% processing, Group B, and Group C tests for JAN and JANTX devices is shown below. For further details, see MIL-S-19500/419(EL). 100% Screening TX-Types Group B Tests Subgroup 1 Physical Dimensions High Temperature Storage Subgroup 2 -- Solderability Temperature Cycling Temperature Cycling Constant Acceleration Thermal Shock Fine & Grass Hermetic Seal Constant Acceleration Electrical Test Moisture Resistance Burn-in Subgroup 3 --- Surge Current Electrical Test Subgroup 4 - Blocking Life Test Subgroup 5 - Storage Life Test Subgroup 6 Operating Life Test UNITRODE CORPORATION 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 534 TWX (710) 326-6509 + TELEX 95-1064 Group C Tests Subgroup 1 Shock Vibration, Variable Frequency Subgroup 2 Salt Atmosphere Subgroup 3 Terminal Strength Subgroup 4 High Temp. Anode Voltage Critical rate or rise Subgroup 5 Storage Life Test Subgroup 6 Operating Life Test PRINTED IN U.S.A.JAN & JANTX 2N3027-2N3032 TYPICAL CHARACTERISTICS 2N3027 2N3028 2N3029 1 Gate Trigger Current 2 Gate Trigger Voltage 1400 14 1200 = 12 ALL UNITS FIRE| ~ w 5 1000 g Ww te 1 tf 3 & v. 3 800 ALL UNITS > o x 8 or Max. ind w /) wi a 3 LY: oO a = FF 6 0 BELL // = o 4 3 200 | Yer MIN, ALL | Max, 5 ' /} i > . | 5 4 . | NO UNITS FIRE ter HIN NO UNITS FIRE 200 0 i L L 65 25 0 25 50 75 100 125 150 65 25 0 25 50 75 100 125 150 T, JUNCTION TEMPERATURE (C) T, JUNCTION TEMPERATURE (C) 3. Min. Critical dv/dt (25C R Bias) 4 Min. Critical dv/dt (125C . R Bias) 500 T 500 T [ red \ } T, = 125C 200 ee 200 + a 3002 | 13 = 1 a ur @ t > 100 Tt = 100 N it = uww_| 1% = \ NM \ 3 ws 3 ~<an00 4 > Tr 2 XO KN o \ ~. > tk. Zz 2 Nb 3k 4 > 20 Kot Ssh 01 2 10 %, S 10 \ i b = t z T, = 25C Ee S el \ tok | _\._/ 4, z 5 Nk = tC | 5 LE ~ = \_ 40 2 2 Nt Rex = 30K = Z 2 fie = 10K = 001 z ! = = = 1 /-BIASED AS SHOWN IN FIG. 1 21 + t | = BIASED AS SHOWN IN FIG. 1 .5 DASH LINES SHOW .001 ufd CAPACITOR 5 001 ADDED BETWEEN GATE AND CATHODE ADDED BETWEEN GATE ANO CATHODE, 2 2 1 L 1 L 1 2 5 10 20 50 100 200 1 2 5 10 20 50 100 = 200 V> APPLIED OFF-STATE VOLTAGE (V) Vp APPLIED OFF-STATE VOLTAGE (V) 5 Max. Holding Current (Resistor Bias) 6 Min, Holding Current (Resistor Bias) MAX. |,, MAX. HOLDING CURRENT (mA) MIN. |, MIN. HOLDING CURRENT (mA) 65 25 0 25 50 75 100 125 150 65 25 Oo 25 50 75 100 125 150 T, JUNCTION TEMPERATURE (C) T, JUNCTION TEMPERATURE (C) UNITRODE CORPORATION + 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 TWX (710) 326-6509 TELEX 95-1064 535 PRINTED IN U.S.A.JAN & JANTX 2N3027-2N3032 TYPICAL CHARACTERISTICS 2N3030 2N3031 2N3032 1 Gate Trigger Current 2 Gate Trigger Voltage 600 14 = 3 500 = 5 5 12 ALL UNITS FIRE ut Wl & 400 Gg 2 = 1 9 pa oO % 300 ALL UNITS FIRE 8 L o a 8 2 200 g = 2 ZL, Va, Ve, MA w x 6 x, = 100 ; Hf LeZ | sr MAX, 5 4 TIT. 5 0 o tin ALOT = ley MIN. I f 100 .2 }-- NO UNITS FIRE NO UNITS FIRE | | 200 0 6 25 0 25 50 75 100 125 150 65 25 0 25 50 75 100 125 150 T, JUNCTION TEMPERATURE (C) T, JUNCTION TEMPERATURE (C) 3 Min. Critical dv/dt (25C R Bias) 4 Min. Critical dv/dt (125C R Bias) 500 Vo | [ne 200 +7 _ 3002 ii 3 3 @ 100 + x > > 1K = = 50 ; % 3 . s > & 2 Nos | ig [S~3 5S 0 Lk z a t oO <= 95 ay = Bw pu aac ve = E 10K m e 5 \e Oo = vs = Jo, 3 2 NK Rex = 30K ~ = = 10K + 003 = l Zz Z 1 BIASED AS SHOWN IN FIG. 1 = = ED AS SHOWN IN FIG. 1 -5 -DASH LINES SHOW .001 fd CAPACITOR LINES SHOW 001 afd ADDED BETWEEN GATE AND CATHODE ADDED BETWEEN GATE AND CATHODE 2 . 1 2 5 10 20 50 100 200 1 2 5 10 20 50 100 200 V, - APPLIED OFF-STATE VOLTAGE (V) Vp APPLIED OFF-STATE VOLTAGE (V) 5 Max. Holding Current (Resistor Bias) 6 Min. Holding Current (Resistor Bias) 50 20 10 MAX. |, MAX. HOLDING CURRENT (mA) n MIN. |,, MIN. HOLDING CURRENT (mA) 05 . 65 25 0 25 50 75 100 125 150 65 25 0 25 50 75 100 125 150 T, JUNCTION TEMPERATURE (C) T, JUNCTION TEMPERATURE (C) UNITRODE CORPORATION 5 FORBES ROAD LEXINGTON, MA 02173 TEL. (617) 861-6540 TWX (710) 326-6509 TELEX 95-1064 536 PRINTED IN U.S.A.JAN & JANTX 2N3027-2N3032 CURRENT RATINGS C2 Peak Current vs. Case Temperature Ci Forward on Current vs. Voltage P, POWER DISSIPATION (W) 3 A 3 2 A 0 Typical Characteristics 1, ON-STATE CURRENT (A) lem REPETITIVE PEAK ON-STATE CURRENT (A) 05 1 2 5 1 2 5 10 20 50 90 100 110 120 130 140 150 V, ON-STATE VOLTAGE (V} To max MAX. CASE TEMPERATURE (C) C3 Peak Current vs. Ambient Temperature TO-18 Ratings (see note) ~ bu ty 2 , T.=100C 2 4 YH DASH LINE BLOCKING VOLTAGE May (20C -1 [NOT BE SUSTAINED FOR 0.1 SECONDS AFTER SURGE A P, POWER DISSIPATION (W) c4 Surge Current vs. Time = 4 3 2 a 0 z = 50 = 50 ~~ + bE b \ |, BEFORE SURGE = 0 z <= \ wi wl N x 20 = 20 be x = \ \ > 3S 10 2 10 . ra E = 5 cE 5 \ 2 NN K 5 2 S 2 {SOLID LINE RATED NLS x > ~ |BLOCKING VOLTAGE NS . <= 61 ui 4 {MAY BE APPLIED AFTER o : SURGE NSA y 3 E 5 w a. w 3 w | | = + 05 2 05 1 0 25 50 75 100 125 150 "105 10-4 10-3 10-2 lo? 1 10 102 103 T, ma MAX. AMBIENT TEMPERATURE (C) SURGE DURATION (Sec) C6 Average Current vs. Ambient Temperature C5 Average Current vs. Case Temperature TO-18 Ratings (see note) P, POWER DISSIPATION (W) P, POWER DISSIPATION (W) 5 4 3 a a 0 4 3 2 a 0 Vita.) ~ AVG. ON-STATE CURRENT (A) \y133 AVG. ON-STATE CURRENT (A) 90 100 110 120 130 140 150 0 25 50 75 100 125 150 To max MAX. CASE TEMPERATURE (C) T), me, MAX. AMBIENT TEMPERATURE (C) A may UNITRODE CORPORATION + FORBES ROAD LEXINGTON, MA 02173 + TEL. (617) 861-6540 TWX (710) 326-6509 TELEX 95-1064 537 PRINTED IN U.S.A.JAN & JANTX 2N3027-2N3032 SWITCHING SPEEDS S1 Maximum Delay Time t,, Rise Time t,, $2 Maximum Delay Time t,, Rise Time t,, and Gate Trigger Pulse Width t,, (on) and Gate Trigger Pulse Width t,, (on) 10 10 5 5 p= 1A 2 2 1 1 MAX, ty (lg = 0.5mA) 3 Max, z 5 25 fog Ug = 0.5may a = = 2 = 2 = - MAX. ty (Ig = 1omA) a a 08 05 02 02 01 01 01.02 05 1 2 5 1 2 5 10 20 65 25 0 25 50 75 100 125 150 Ig PULSE GATE CURRENT (mA) T, JUNCTION TEMPERATURE (C) S3 Maximum Delay Time t,, Rise Time t,, $4 Maximum Circuit Commutated and Gate Trigger Pulse Width t,, (on) Turn-off Time t, T, == 25C MAX. ty (Ie = 0.5MA) s MAX. t,, (Ic, = 0.5MA) y | = = MAX. ty (lg = 10mA) MAX. t,, (ig = 10mA} MAX. t, 9 t, -~ CIRCUIT COMMUTATED TURN-OFF (xs) a 2 5 1 2 5 10 20 65 ~25 0 25 50 75 100 125 150 I, ON-STATE CURRENT (A) T, JUNCTION TEMPERATURE (C) $5 Maximum Circuit Commutated Turn-off Time t, nee ia TIME (xs) = 1K 21.2 5 1 2 5 10 20 1, ON-STATE CURRENT (A) UNITRODE CORPORATION FORBES ROAD LEXINGTON, MA 02173 + TEL. (617) 861-6540 TWX (710) 326-6509 + TELEX 95-1064 538 PRINTEO IN U.S.A.