P6KE6.8 thru P6KE440CA Transient Voltage Suppressors SYMSEMI SEMICONDUCTOR Peak Pulse Power 600W Breakdown Voltage 6.8 to 440V Features @ Plastic package has Underwriters Laboratory Flammability Classification 94-0 @ Glass passivated junction @ G0OW peak pulse power capabililty with a 10/1000us waveform, repetition rate (duty cycle): 0.01% @ Excellent clamping capability @ Low incremental surge resistance DO-204AC (DO-15) @ Very fastresponse time @ High temp. soldering guaranteed: 265C/10 seconds , 0.375" (9.5mm) lead length, 5lbs. (2.3 kg) tension ] i Mechanical Data atest egg) @ Case JEDEC DO-204AC(00-15) molded plastic body over L J passivated junction ie ' @ Terminals: Solder plated axial leads, solderable per : moe MIL-STD-?50, Method 2026 ann @ Polarity: For unidirectional types the color band denotes the | I cathode, which is positive with respect to the anode under aaa normal TVS operation O287) wel MIN @ Mounting Position: Any Dy @ Weight 0.01507.,04q ! Dimensions in inches and (millimeters) Devices for Bidirectional Applications For bi-directional devices, use suffix C or CA for types P6KE6.6 through types P6KE440 (e.g. PEKEB 8C, PGK E44 0C A). Electrical characteristics apply in both directions. Maximum Ratings and Characteristics (T,=26C unless otherwise noted) Parameter Symbol Yalue Unit Peak power dissipation with a 10'1000us waveform (Fig. 1) Pie Minimum 60g 00 Ww Peak pulse current with a 10/1 000us waveform ( Lag See Next Table A Steady state power dissipation p 5.0 wt at 7 =75C, lead lengths 0.375" (8. Srey) (7 Mia Peak forward sume curent, 8.3ms single half sine-waye aa 400 A wen arpa nat tige | seme | vote Typical thermal resistance junetiorto-lead Pay 20 oC Typical thermal resistanee junctionte-anmbient Resa 75 oh Operating junction and storage temperature range Teg teae -56 to +176 a Notes: = 1. Nor-repetitive current pulse, per Fig. 3 and derated above T =26C per Fig. 2 2. Mounted on copper pad area of 1.6% 1.9" 40 x40rnn per Fig 5 3. Measured on 8.3ms single half sine-wave or equivalent square wave, duty cyde =4 pulses per minute maximum 4.V,=5.5 Vfor devices of V..<220, and _=5.0 Volt max fordevices of V.=220yP6KE6.8 thru P6BKE440CA Electrical Characteristics (Ratings at 25C ambient temperature unless othenwise specified.) Maximum Breakdown vottage reverse Maximum Maximum Maximum Ve Test Stanc-off bakage peak pulse | clamping temperature cols} (9 curent yoltage at Ving current yoltage at coefficient atl, Vina 1 Ve eat La of.,, Device type Min. Max. {ma} (volts) (wA} v, (Volts) ms fC} PEKEG.S 6.12 746 10 5.60) qo00 65.6 10.8 O.0gF PSKEG.GA, 645 7.14 1a 5.80) 1o00 oF. 10.5 O.0o7 PEKEY.5 6.76 6.26 10 6.06 500 61.3 Wi? 0.061 PKE? 54, A3 7.88 10 6.40 500) 63.1 11.5 0.064 P&KES.2 7.38 402 10 6.63 200 46.0 12.6 O.066 PKES.24, FY 6.61 1a F 02 200 49.6 12.1 0.065 PE&KES.1 8.19 10.0 1.0 rete 60 43.6 13.8 0.068 PE&KES 14, 8.65 966 4.0 748 ot 44.8 13.4 O68 PEKETO 9.00 11.0 4.0 6.10 10 40.0 15.0 O.org PE&KETOA, 9 Gt 40.6 4.0 8.65 qo 41d 14.6 O.oF3 P&KE11 9.90 421 4.0 8.92 6.0 oF.0 18.2 O.076 PKEI14, 10.5 11.6 1.0 $40 6.0 36.6 16.6 O07 5 PE&KE12 10.8 13.2 4.0 S72 5.0 a4 7 173 O.076 PERE 2A 4 12.6 4.0 {oe 4.0 35.9 17 o.o78 PEKET3 Wy 14.3 4.0 10.6 5.0 31.6 19.0 0.081 PEKETSA 124 137 4.0 14 6.0 33.0 182 0.081 P&KET5 13.6 16.5 4.0 12.1 4.0 2f3 22.0 o.08d PKE15A4, 14.3 16.8 1.0 12.8 1.0 26.3 21.2 0.084 PE&KE16 14.4 17.6 4.0 12.5 1.0 25.5 23.5 0.086 PEKETGA, 16.2 16.8 4.0 13.6 1.0 26r 22.6 0.086 P&KE18 182 14.8 4.0 14.6 4.0 22.6 26.6 O.088 PE&KETBA 74 18.9 4.0 16.3 1.0 23.8 252 0.088 PKEZO 18.0 22.0 4.0 18.2 1.0 20.6 254 o.090 PKEZOA, 19.0 21.0 1.0 Wa 1.0 217 277 0.090) PKEZe2 19.8 242 1.0 17.8 1.0 18.3 31.5 O.0g2 PEKEZ2A, 20.9 23.1 1.0 18.8 1.0 18.6 30.6 o.oge Pa&KEsd 21.4 26.4 4.0 194 1.0 173 Sd? O.0od PEKEZdA, 22.8 #62 4.0 20.6 1.0 18.41 33.2 Oo Gd PaKES? 24.3 2o7 4.0 21.8 1.0 15.3 35.1 0.096 PKEZT A 257 25.4 1.0 23.1 1.0 16.0 37.6 0.096 P&KESO 27.0 35.0 1.0 249 1.0 13.8 43.6 O.0g7 PEKESOA, 28.6 31.6 4.0 25.6 1.0 14.5 414 o.ogF PEKESS oor 36.3 4.0 268 1.0 12.6 qi iy 098 PE&KESSA 31.4 347 4.0 2o2 1.0 13.4 457 0.098 PEKES6 32.4 349.6 4.0 24.41 1.0 41.6 62.0 o.099 PE&KESGA, 34.2 37.8 4.0 308 1.0 12.0 49.5 0.099 P&KESS 35.4 42.9 1.0 31.4 1.0 10.6 56.4 0.100 PEKESSA, Sf. 41.0 4.0 33.9 1.0 11.1 63.9 o.100 P&KE43 SBF 47.3 4.0 34.8 1.0 a? 61.5 oct P&RKESSA, 40.9 45.2 4.0 36.8 1.0 40.4 69.3 oc Pa&KEd? 42.3 ot? 4.0 38.1 1.0 8.8 org o.101 P&KE4? A, 447 49.4 4.0 402 1.0 43 64.8 oc PKES1 46.9 56.1 1.0 41.3 1.0 6.2 73.6 0.102 PE&KES14. 486.5 63.6 4.0 43.6 1.0 6.6 TOA O12 PKES6 bod 61.6 4.0 45.4 1.0 7.6 80.6 o.1o3 P&KESGA, ha2 68.8 4.0 475 1.0 7.8 fra o.103Electrical Characteristics P6KE6.8 thru P6KE440CA (Ratings at 25C ambienttemperature unless otherwise spedfied) Haig) voltage gical Maximum Maximum Maximum (volts} a Test Standoff lkeakage peak pube clamping temperature cunent voltage at Vay cunent yoltage at coefficient at I, Wai 1 lent? Ui ei of View Device type Min. Max. {mA} {Volts} (uA) {A} , (Volts) 4 foc} PaKEG? 56.8 66.2 1.4 5o.2 1.0 ay 89.0) 0.104 Pak EG 24, 68.9 66.1 1.0 63.0) 1.0 FA 86.0) O14 PaKEGS 61.2 74.8 1.0 65.1 1.0 6.1 98.0 O10 Pak E84, 64.6 Ti4 1.0 56.1 1.0 6.6 92.0 010d PaRE?S 67.6 82.6 1.0 boy 1.0 6.6 108 0.108 Peake? Ss, 73 eg 1.0 6d. 1.0 5.6 103 0.108 PaKEG? 73.8 0.2 1.0 66.4 1.0 5.4 118 0.105 Pak ES 2A, 7 861 1.0 704 1.0 6.3 113 0.108 PaRES1 81.9 100 1.0 Fay 1.0 46 131 0.1068 PaKESTA 86.5 96.6 1.0 Fre 1.0 4.5 14 0.106 Pe@RE1 00 90.0) 110 1.0 81.0 1.0 42 144 0.1068 PeRE1 O04, 96.0 108 1.0 86.5 1.0 4d iv 0.106 PaKET1O 99.0) 121 1.0 89.2 1.0 38 158 O17 PaKE11 08 105 1146 1.4 gd.) 1.0 39 162 OOF PaRE1 20 108 152 1.0 ar? 1.0 3.6 173 Oy Peake 204, t14 126 1.0 102 1.0 36 166 O10F Pe@KE1 30 117 143 1.0 105 1.0 a 187 o10F PeKE1 304, led 1a? 1.0 11 1.0 a4 179 OTF PeKET 50 195 166 140 121 1.0 26 216 0.108 P@KE1 504, 143 168 1.0 128 1.0 24 207 o108 PaKE1 60 Idd 176 1.0 130 1.0 26 230 108 PeKET 604, 162 168 1.0 134 1.0 27 214 0.108 PakET?O 163 187 140 138 1.0 2 edd 0.108 PeRET TOA 162 174 1.0 145 1.0 2.6 234 o.108 PeKE 80 162 198 1.0 146 1.0 23 268 0.108 PeKE1 BOA, 1 189 1.4 164 1.0 2a 2d6 O108 PaK E200 180 220 1.0 162 1.0 2.1 287 o.108 PaRE2 OCA, qaa 210 1.0 1741 1.0 22 274 0.108 Pa EZ 20 198 ed? 1.0 175 1.0 VF add 0.108 Pak E2204, 209 231 1.0 185 1.0 1.8 328 O.108 PaKEZoO 225 276 1.0 202 1.0 VF 360 a1 PaREZ SOA, 237 269 1.0 #14 1.0 VF add a1 PaKESo0 27o 330 1.0 243 1.0 14 430 oid PS@RE S004, 286 316 1.0 256 1.0 14 414 o110 PaKE So 316 386 1.0 28d 1.0 12 Bod 11d PeKESo04, 333 368 1.0 300 1.0 12 402 O11 Pak Ed og 360 440 1.0 d24 1.0 1.0 ord a1 Pek Ed 004, 380 420 1.0 342 1.0 14 B48 a1 Pak Edd 396 48d 1.4 366 1.0 0.96 631 od Pak Ed404, 418 462 1.0 376 1.0 1.0 aoe oa Notes: 1. V/.. measured after | applied for 30 0us, L=square wave pulse or equivalent EF) 2. Surge current waveform per Fig. 3 and derate per Fig. 2 3. Forbidirectionaltypes with ,of1Ovolts andlass, the |, lirit is doubled 4. Allternmns and symbols are consistent with ANSIIEEE Ca2.36 Description: This PERE TVS series is 4 low cost comme;rcal product for use in applications where large voltage transients can permanently damage voltage sensitive components. The PSkE senes device types are designed in 4 small package size where power and space is a consideration. They are characterized by their high surge capability, extrerneby fast response time, and bwirpedance, (Ror. Because ofthe unpredictable nature of transients, andthe variationofthe impedance with respect tothese transients, inpedance, per se, is not specified as 4 parametric value. However, a rrinimurn voltage atlow current conditions (BV) and a maximum clamping voltage (ch at a maxirnurm peak pulse current is spectfied. In seme instances, the thermal effect (see Vc Clarrping Yottage) may be responsible for 5056 to 70%. of the observed voltage differential when subjectedto high current pulses for several duty eydes, thus making a maximum impedance specification insignificant. In case of a severe current overload or abnormal transient beyond the maximum ratings, the Transient Voltage Suppressor will initially fail 'short'thus tripping the systernts circuit breaker or fuse while protecting the entire dreuit. Gunes depicting clamping voltage ys. various current pulses are available from the factory, Extended power curves ys. pulse time are also available.P6KE6.8 thru PGKE440CA RATINGS AND CHARACTERISTIC CURVES (T, = 25C unless othensise notech Fig. 1 Peak Pulse Power Rating Curve 100 z Non- repetitive Pulse g Waveform shown iin Fig. o Ta = 25C a 10 3 = ao = & 1 | & | Ol is 1.0us 10us 100us 1.0ms 10ms td Pulse Width (sec.) Fig. 3-Pulse Waveform 150 . af | r= 10, sec, _+ Ty = 25C c = } Pulse Width (td) is defined z E> Peak Value as the point where the 6 | aly IPP T peak current decays to gs Half Value lrem} 50% of IrpM zi iS 2 4 = 50 10/1000usec. Wavelorm o asdefinedbyR.EA 4 z = all id 4 Qo 0 1.0 2.0 3.0 4.0 t - Time (ms) Fig. 5 Steady State Power Derating Curve 5.0 | Loss" (2.5mm) 60 Hz Resistive or a 2 = Lead Lengths \ Inductive Load 65 eT ee tN 2 Golick oO 1.6 1.6 x 040" \ 73 1.25 | (40x 40x 1mm) z ue % 9 2 50 75 86100 #125 #4150 #175 200 T. Lead Temperature (jC) Fig. 7 Typ. Reverse Leakage Characteristics 1,000 8 Measured al Devices Stand-off Voltage, Vw Ta = 25C Leakage Current (WA) 1.3 lp Instantaneous Reverse S s 3 = 100 200 300 400 500 Vier) Breakdown Voltage (V) Peak Pulse Power (Ppp) Fig. 2 Pulse Derating Curve or Current (lpm) a 8B Derating in Percentage, % 3 ha wn o oO 25 50 75 100 125 150 175 200 Ta Ambient Temperature (C) Fig. 4 Typ. Junction Capacitance Uni-Directional ae y= 20 Measured al = 1,0MHz Zero Blas = SOmVp-p | 3 8 Measured at Stand-On Voltage. Von C, Junction Capacitance (pF) = S 10 100 200 Vier) Breakdown Voltage (V) Fig. 6 - Max. Non-Repetitive Forward Surge Current 200 Uni-Directional Only | Ts = Ts max. 4.3ms Single Hall Sine-Wave (JEDEG Method) g lesm Peak Forward Surge Current (A) a 5 10 50 100 Number of Cycles at 60 Hz Fig. 8 Typ. Transient Thermal Impedance 100 = 6 = Transient Thermal Impedance (iC) oa Le 0.001 0.01 0.1 1 10 100 1000 tp Pulse Duration (sec)