SYHNSEM! SEMICONDUCTOR 1.5KE6.8 thru 1.5KE440CA and 1N6267 thru 1N6303A Peak Pulse Power Transient Voltage Suppressors 1500W Breakdown Voltage 6.8 to 440V Features @ Plastic package has Underwriters Laboratory Flammability Classification 947-0 @ Glass passivated junction @ 1500\V peak pulse power capabililtfy an 10/1000us waveform , repetition rate (duty cycle}: 0.05% @ Excellent clamping capability @ Low incremental surge resistance @ Very fastresponse time @ High temperature soldering guaranteed: 265C/10 seconds, 0.375" (9.5mm) lead length, Slbs. (2.3 kg) tension @ Includes 1N6286? thru IN6303.A4 Mechanical Data @ Case: Molded plastic body over passivated junction @ Terminals: Plated axial leads, salderable per MIL-STD-750, Method 2026 @ Polarity: For unidirectional types the color band denotes the cathode, whichis positvre with respect to the anode under normal TS operation @ Mounting Position: Any @ Weight O.0450z., 1.2q DO-201 -210(5.3) 190(4.8) 1 a DIA. 375 (9.5) 285 (7.2) 7 1.0 (25.4) MIN. 042 (1.07) 038 (0.96) "=" DIA. JD Dimensions in inches and (millimeters) Devices for Bidirectional Applications For bi-directional, use C or CA suffix for types 1.5KE6.6 thru types 15K E440 (e.g. 1.5KE6.6C, 1.5K E440CA). Electrical characteristics apply in both directions. Maximum Ratings and Characteristics (T,=2C unless othensise noted) Parameter Symbol Value Unit issipati i wy Peak power dissipation witha 10 O00us waveform p Minirrurn 1500 WM (Fig. 1) FEM Peak pulse current with a 101 000us wayetorn leet See Next Table A Steady state power dissipation p 85 Wt at T =F 6, lead lengths 0.375" (9. from) @ racy " Peak fonvard sume current 8.3rns single half sine-wayve uni-directional orty & Fem 200 Amps Maxirmurn instantaneous forvard voltage at 1004 for unidirectional onty & ce eee Yells Typical thernal resistance junctiorHo-le ad Ra 20) ory Typical thennal resistance junctionto-armbiert Pau 7a oo Operating junction and storage temperature range Tees Ege -66 fo +175 a Notes: 1. Ner-repetitive current pulse, per Fig.3 and derated above T,=26C per Fig. 2 # Mounted on copper pad area of 1.67.6" (40s 40 ror) per Fig. 5 3. Measuredon 8.3ms single half sine-wave or equivalent square wave, duty eyde =4 pulses per minute maximum 4V, 53.0 Viordevices of V_.s220V, and V.=5.0 Voltmax. for devices of Veen1.5KE6.8 thru 1.5KE440CA and 1N6267 thru 1N6303A Electrical Characteristics (T,=25C unless othenwise netech Maximum Brealdiown voltage reverse Maximum Maximum Maximum wok} it Test Stand-off kakage peak pube clamping temperature current voltage at Via, current voltage at coefficient JEDEC Good-Ark : atl, Voona 1 Vem! Vee of Veer Type number | Part number Min. Max. {mA} {Volts} {uA} {A} , (Volts } (JAC TH6287 1.5KE6.8 612 7.48 10 6.60) ood 135 10.8 OL0gF THeZe7 A 1.6KE6.84 gh Fld 10 6.60) {ood 143 10.6 O08 TMezee 1.5KEF.6 a75 6.25 10 6.05 500 128 We 0.061 TNEZ88A, 1.5KEF.6A FAS 7.88 10 G40 Bon 133 11.3 6.061 THE28o 1.5KE8.2 7.38 902 10 6.63 200) q20 12.6 0.066 TH28o4, T.AKEG.2A FFG 6.41 10 Foe 200 124 12.1 0066 THEST Oo 1.5KES1 8.19 1.4 1.0 7.37 Bt) 149 13.8 0.068 TM62F OA TAKES. 1A 6.65 9.65 1.0 FFG 50) 112 13.4 0.068 TMezr1 1.5KE19 900 11.0 1.0 G10 10 1490 16.0 0.079 TNeST 1A 1BKETOA 60 10.6 1.0 8.65 16 103 14.6 Oo7g ThesT? 1.5KE11 4.90 124 1.0 8.92 6.0 92 6 16.2 O.076 THEST 2A LSKEWA 10.6 11.6 1.0 S40 6.0 g6.2 16.6 O.O76 THEZTS 15KE 10.8 13.2 1.0 a72 6.0 B67 V7.3 O.076 TMer aA, 1.6KETZA 114 12.6 1.0 10.2 6.0 89.8 167 0078 TMesr4 1.5KE13 W7 14.3 1.0 10.5 5.0 Fag 19.9 0.081 TNesr4 aA, 1.5KETSA 124 17 1.0 1.4 6.0 82.4 18.2 0.087 THES75 1.5KE1S 13.6 16.6 1.0 124 1.0 68.2 22.0 008d TH6ST EA 1.SKETSA 14.3 16.8 1.0 12.8 1.0 Foe 21.2 0.084 TH6S7 6 1.5KEG 144 17.6 1.0 12.9 1.0 63.8 23.6 0.0868 TMer aA, 1.6KE1GA 16.2 16.8 1.0 13.6 1.4 667 22.6 0086 IMezry? 1.5KE18 16.2 19.6 1.0 14.5 1.4 56.5 26.5 0.088 INEZ A 1.5SRET&A 7 18.9 1.0 16.3 1.0 69.5 26.2 0088 INee7 8 15KE2o 18.0 22.0 1.0 16.2 1.0 61.5 294 0.050 THEST BA 1.5KESOA 19.0 21.0 1.0 174 1.0 B42 ait 0.090) THesTo 15KES? 19.8 aq? 1.0 8 1.0 47.0 319 o.092 TM2r oA, 1AKEZA 20.9 23.1 1.0 18.8 1.4 49.9 30.6 0.092 TMezeo 1.5KE24 21.6 26.4 1.0 19.4 1.4 43.2 347 0 Od THe23o4, 1SRESdA 22.8 #62 1.0 20.5 1.4 465.2 33.2 0 Obed TN6284 1.5KE2? 243 oo 7 1.0 21.8 1.0 38.4 39.4 0096 THE28 14, 1SKESTA 267 264 1.0 23.1 1.0 40.0 7.6 0.0968 TM2e2 1.AKE3o 27.0 33.0 1.0 243 1.4 34.5 436 0097 THE2824, 15KESOA 28.56 31.5 1.0 26.6 1.0 36.2 414 o.0gF TMe2e3 1.5KE33 2o7 36.3 1.0 26.8 1.4 314 ay? 0.098 TM6Z834, 1SKESSA 314 a4.7 1.0 282 14 32.8 457 0098 TNezed 1.5KE3& 24 39.5 1.0 291 1.0 28.8 62.0 0.099 THE2B4 4, 15KES6A 34.2 37.8 1.0 30.8 1.0 304 499 0.099 TM236 1.5KE39 36.1 429 1.0 31.6 1.4 26.5 56.4 O.100 THESB5A, 1.5KESSA a7 41.0 1.0 33.3 1.0 27.8 63.9 o.100 TM286 1.5KEd3 387 A739 1.0 34.8 1.4 242 61.9 0.101 TMeZ86A 1.5KEdSA 409 452 1.0 36.8 1.0 26.9 69.3 0.101 TMesey 1.BKEd? 423 S17 1.0 38.1 1.0 224 a78 O11 THEZE7 A 1.BKEATA 447 494 1.0 40.2 1.0 23.4 64.8 0.404 TM238 1.6KE61 459 56.1 1.0 415 1.4 20.4 Fa O12 THE2BB4, 1.5KEGB1A 405 63.6 1.0 43.6 1.0 214 Fo O10 TM2e9 1.SRKE5S Sod 61.6 1.0 454 1.4 18.6 60.6 o103 TMeZeo4, 1.SKESGA 53.2 58.8 1.0 47g 1.4 19.6 FF O.1031.5KE6.8 thru 1.5KE440CA and 1N6267 thru 1N6303A Electrical Characteristics (T,=25C unless othenwise noted) Maximum Breakiiown voltage feverse Maximum Maximum Maximum Veo Test Stand-off leakage peak pube clamping temperature {volts} y current yoltage at ,,, current yoltage at coefficient JEDEC Good Ark ; atl, Vora ad leew? Ieee otf Veer Type number | Part number Min. Max. {nw} (Vio ts} (wy {A} ,, (Volts) (6c TN2go 1. BKEG? 66.8 682 14 60.2 1.0 16.9 89.0 O.10d TNe2o04, 1 SKEGZA 58.9 66.1 1.0 63.01 1.0 7.6 86.0 O10 TN294 1.6KE68 a12 748 1.0 66.1 1.0 16.3 98.0 O10 TNe2g1 A 1 SKEGG A, 64.5 fia 1.0 584 1.0 16.3 92.0 O14 TNe2g2 1.SKETS a7.6 82.5 1.0 607 1.4 13.9 109 O.105 TN2g28, 1 SKEF SA 713 Fag 1.4 644 1.0 14.6 10d O06 TNe293 1. SKE82 73.8 go 1.0 66.4 1.0 127 118 O.106 TNG293.4, 1SKES24 74 36.1 1.0 Fo 1.0 13.3 113 O.106 TN2o4 1.6KES1 81.9 1o0 1.0 Ya 1.0 116 131 o.108 TNe2o4a 1.SKE97 4 86.5 95.5 1.0 iG 1.0 12.0 126 O16 TN6296 1.SKE100 90 0) 110 1.0 81.0 1.0 10.4 Idd O.106 TN2g54, SKE O04 96.0 105 1.4 86.5 1.0 10.9 137 O16 TNe296 1.6KE110 99.0 121 1.0 age 1.0 9.6 168 OF TN2g64, 1.6KE11 04, 106 114 1.4 Sd 1.0 a9 162 OOF TN2oy 1.6KE120 108 132 1.0 oF 2 1.0 a7 173 OOF TNe2or A 1.6KE1 204, 1i4 126 1.0 102 1.0 a1 166 OA1gF TNe298 1.6KE130 WF 149 1.6 106 1.0 6.0 187 OOF TN2g54 1.6KE1 304, 12d 137 1.4 111 1.0 5.4 179 OF TNe2gg 1.6KE150 136 166 1.4 121 1.4 Fa 216 o.108 TN2gg4, 1. 6KE1 504, 143 158 1.4 128 1.0 Fe aur O16 TNe300 1.6KE160 144 176 1.0 130 1.0 6.6 230 O16 TNes004 1.6KE1 60.4, 152 168 1.0 136 1.0 6.8 219 O18 1N6301 1.6KE1%o 169 187 1.0 136 1.40 61 edd a.108 TNs01A 1. SKET OA 1d2 174 1.4 146 1.0 64 23d O18 TNs02 1.6KE180 1a2 198 1.0 146 1.0 6.8 258 o.4108 TNso28 1.6KE1 804, 171 188 1.4 154 1.0 61 246 o.108 TN303 TSKE20O 180 220 1.0 162 1.0 f.2 aur o.408 TNes034, TSKE2004 * 190 210 1.0 171 1.0 6.6 aid 0.108 1SKE220 198 ad2 1.0 176 1.0 44 d44 O.108 TSKEZ2 04 * 208 231 14 186 1.6 4.6 328 o.108 1 SKE26O 226 275 1.0 ate 1.0 42 360 odo 1 SKEZ5 04, 2af 263 14 aid 1.0 dd S44 oo TSKESO0 ero 350 1.0 243 1.0 3.6 430 4d 1. SKE F004 286 34 1.0 256 1.0 3.6 4i4 odo 1.6KE950 316 365 1.0 28d 1.0 3.0 Sod a1 1. SKES504, 333 368 1.0 300 1.0 a1 482 oo 1SKEdoo 360 4d 1.0 32d 1.0 2.6 ard odd 1 SKEd O04 380 420 1.4 342 1.0 a7 6d odio 1. SKEdd0 306 ded 1.0 356 1.0 2d 831 odo 1 SKEdd 04, 418 462 1.0 a76 1.0 2.6 602 odo Notes: 1. Vier measured after |, applied for 300us, |_=square wave pulse or equivalent 2. Surge current waveform per Fig. 3 and derate per Fig. 2 3. Allterns and symbels are consistent with ANSIIEEE GA82.35 4. For bidirectional types with V_ 10 volts and less the ID limit is doubled Application: This series of Siliaon Transient Suppressors is used in applications where large voltage transients can pemnanenth damage voltage sensitive components. The T5 diede can be used in applications where induced lightning on rural orrenote transmission lines presents a hazard te electronic circuitry (ref: FLEA. specification P.E. 60), This Transient Voltage Suppresser diede has a pulse power rating of 1500 watts forone millisecond. The response time of TYS diode clamping actionis effectively instantane- ous (1% 109 seconds bidiredional): therefore, they can proted integrated dreuits, MOS deviees, hybrids, and other voltage sensitive sericonductors and components. TS diodes carn also be usec in senes or parallel to increase the peak power ratings.RATINGS AND CHARACTERISTIC CURVES 1.5KE6.8 thru 1.5KE440CA and 1N6267 thru 1N6303A (T, = 25C unless otherwise notech Fig. 1 - Peak Pulse Power Rating Curve Prpu Peak Pulse Power (kW) lpeu Peak Pulse Current, % lrasiw Pav), Steady State Power Dissipation (W) 100 10 1 a1 Otps 1.0ys 10us 1001s 10ms 10ms ty Pulse Width (sec.) Fig. 3- Pulse Waveform 150 ; I I ; La T T | eet ir = 10us0c. Pulse Width (id) . | | is defined as the point Peak Value | where the peak cunrent L lppw decays to $0% of lppw 100 Hall Value IPP lpPM 2 | a 10/1000psec. Wavelorm | as delined by R.E.A. a al td 0 1 0 10 20 3.0 40 t Time (ms) Fig. 5 Steady State Power Derating Curve 8.0 60 Hz 7.0 Resistive or > Inductiva Load 6.0 X 5.0 L = 0.375" (9.5mm) N: 4.0 } Lead Lengths N F GoD CEN 2.0 - Yl 16x 16x .040" \ 1.0 - (40 x 40x Imm) 0 Copper Heal Sinks 0 25 50 75 100 125 150 175 200 TL Lead Temperature (C) Peak Pulse Power (Ppp) or Current (IPP) Derating in Percentage, % wn oO Fig. 2 Pulse Derating Curve 8 ~~ cn mM wn 0 0 25 50 75 100 125 150 175 200 Ta Ambient Temperature (C) Fig. 4 - Typical Junction Capacitance 10,000 =e he { | Unidirectional S| | Bidirectional ----~- a St | | | & 1,000 sl HY, a gs" ee ge a i ey a | j is | ths f | t 8 Litt } ZslT ~~ . & Va = Rated Nok 2; 100 F&F Stand-off Voltage TPs, of | o a5 {= 1 MHz tf es Vsig = 50mVp-p ; | TS iq [Tr=25C | 5 10 100 500 Peak Forward Surge Current (A) V(6R), Breakdown Voltage (V) Fig. 6 - Maximum Non-repetitive Peak Forward Surge Current Unidirectional Only an eae | 8.3ms Single Half Sine-Wave Ph _EDEC Method) Ty = Ty max. ~~. bu = 4 iE ss 10 1 10 100 Number of Cycles at 60 HzRATINGS AND CHARACTERISTIC CURVES 1.5KE6.8 thru 1.5KE440CA and 1N6267 thru 1N6303A (T, = 25C unless othensise notech AVC, Incremental Clamping Voltage AVC, Incremental Clamping Voltage Fig. 7 Incremental Clamping Voltage Curve (Unidirectiona 100 Waveform: 8x 20 impube AVc = Ve - Vier) 20 10 2.0 1.0 0.2 0.1 o5 1 2.0 10 20 50 Ipp, Peak Pulse Current (A) Fig. 7 Incremental Cl ing Voltage : Curve (Bidirectional) - Waveform: @x 20 Impube AVe = Ve - Viery 100 = W o oO zt IN 5 oo = 2.0 10 20 50 IPP, Peak Pulse Current (A) o in _ Fig. 8 Incremental Clamping Voltage 9 Curve (Unidirectiona a 100 Wavetorm: 10 x 700 Impulse 1.5KE200 , ao=No~Vera 1.5KE 130 20 s PB 10 : 20 2 2 0.2 0.1 05 1 2.0 10 50 Ipp, Peak Pulse Current (A) Fig. 10 Incremental Clamping Voltage i60 Curve (Bidirectional) Wavelorm: 10 x 100 Impulse AVe = Vc - Vier) a = 20 $s 2 10 i o 20 E 1.0 2 oO a 02 0.1 o5 1 2.0 10 20 50 Ipp, Peak Pulse Current (A)1.5KE6.8 thru 1.5KE440CA and 1N6267 thru 1N6303A RATINGS AND CHARACTERISTIC CURVES (T, = 25C unless otherwise notech Fig. 11 Instantaneous Forward Voltage Fig. 12 Breakdown Voltage Temperature Characteristics Curve Coefficient Curve 1,000 100 Forward Current Pulse width = 300us 1% Duty Cycle Tj=25C 0 04 08 12 1.6 2.0 Instantaneous Forward Current (A) Fig. 13 Typical Transient Thermal Impedance @V Temperature Coefficient (mV/C) Transient Thermal Impedance (C/W) 0.001 0.01 o1 1 10 100: 1000 tp Pulse Duration (sec)