P6SMB6.8A thru P6SMB220CA Surface Mount Transient Voltage Suppressors SYNSEM! SEMICONDUCTOR Peak Pulse Power 600W Breakdown Voltage 6.8 to 220V Features @ Plastic package has Underwriters Laboratory Flammability Classification 94-0 @ Low profile package with built-in strain relief for surface mounted applications @ Glass passivated junction @ Low incremental surge resistance @ GOOW peak pulse power capability with a 10/1000us DO-214AA (SMB waveform, repetition rate (duty cycle): 0.01% ( ) @ Excellent clamping capability i @ Very fast response time a | ol @ High temperature soldering guaranteed: i | | .4473.73) 250CH10 seconds at terminals 1 || TIT(348) q - my - . M2..31 Mechanical Data B08 15) @ Case: JEDEC DO-2144A (SMB) molded plastic over passivated sai i eterna Solder plated, solderable per MIL-STD-750 orate erminals: Solder plated, solderable per MIL-STD-750, ovate Method 2026 ! +e ))4 od @ Polarity: For uni-directional types the band denotes the cathode, OBB(1.A1) | | ] .08(.20) which is positive with respect to the anode under normal TVS 025(0-90) 0K-10) operation i 215(5.48) _ @ Weight O.0030z., 0.093g 2075.28) Dimensions in inches and (millimeters) Devices for Bidirectional Applications For bi-directional devices, use suffix CAfeg. PSSMB1OCA). Electrical characteristics apply in both directions. Maximum Ratings and Thermal Characteristics (Ratings at 25C ambientternperature unless othenvise specified.) Parameter Symbol Yalue Unit Peak pulse power dissipation with a 104 000us weayeformn CF Prose Minimum 600 Wt Peak pulse current with a 10/1 000us wayveforrn fee See Next Table A Power dissipation on infinite heatsink, T,=50 Pras 6.0 Ww Peak fonward surge curment, 8.3ms single half sine-waye uni-directional only @ bow 100 A Thermal resistance junction te leads Pax 20 eC AN Thermal resistance junction to ambient air Resa 100 oC Operating junction and storage ternperature range Tlegs -66 to +160 oS Notes: = 1. Nor-repetitive current pulse, per Fig. 3 and derated above T =26C per Fig. 2 2. Mourtedon 0.23 0.2"(5.0%5.0rnrrh copper pads to each tenninal 3. Mounted on minimum recommended pad layoutP6SMB6.8A thru P6SMB220CA Electrical Characteristics Ratings at 26C ambient temperature unless otherwise specified V.=3.5 at |. =504 (uni-directional only} Maximum . : Breakcow:n voltage reverse Maximum Maximum Maximum Device marking Vie Test Standoff keakage peak pube clamping temperature code {Vols} current voltage at Ving current voltage at coefficient atl, Mies Le I ls ov. Device type UNI Bl Min. Maz. {nv} Volts} (uA) {A} ,, (Volts) fics ie) PaSMBs. ga, Vea aVES 6.45 FAd 10 5.80) 1000 571 10.5 O.05F PaSMB? 5A FVBA FoC A3 7.88 10 640 Bog 634 11.3 0.061 PaSMBS. 2A aves ayes 99 8.61 1a .02 200 49.6 124 0.086 Pasig. 14 OVA OAC 6.65 9.65 1.0 Fad 80 44.6 134 0.068 PaESMB1 Os, 104, 10C 9.60 10.6 1.0 6.65 10 4di4 14.5 O.07g PeSMB11 A 1A 1 10.6 11.6 1.0 94g 6.0 38.6 16.6 O.078 Pesmibd 24 124, 12 114 12.6 1.0 10.2 5.0 36.9 167 O.078 PaSMB1 34, 134, 13 te4 14 1.4 WA 6.0 33.0 18.2 0.081 PaSMIBT SA, 164, 16 14.5 16.8 1.0 12.8 1.0 28.3 a2 08d Pasi 6a, 164, 160 18.2 16.8 1.0 13.6 1.0 267 22.6 0.086 Paesnib as, 184, 18 Fa 16.9 1.0 16.3 1.0 23.8 26.2 0.088 PaSMB2o4, 204 200 19.0 21.0 1.0 Wa 1.4 217 ary o.090 Pasmbeas, 224, 220 20.9 23.1 1.0 18.8 1.0 19.6 30.6 O.0g2 PasMibeds, adh 24 22.8 262 1.4 20.5 1.0 18.4 33.2 O.0Gd PaSMBe7A, TA aig 267 284 1.0 231 1.0 16.0 37.6 0.096 Pasmib soa, 304, 3000 26.5 31.6 1.0 25.6 1.0 14.56 414 O.09F Pasmibssa, a34, 330 314 47 1.0 26.2 1.0 134 457 0.098 Passes, 64 360 34.2 o7.8 1.0 30.8 1.0 12.0 49.9 o.099 PasMiBbsga, ao, 30 a1 41.0 14 33.3 1.0 WA 63.9 100 PasSMiB4 ss, 434, 430 40.9 46.2 1.0 36.8 1.0 10.4 69.3 O11 PaSMBATA 47a, 47 dd 7 49.4 1.0 402 1.0 a3 6d.8 O10 PasmiBsis BLA 61C 45.5 63.6 1.0 43.6 1.0 8.6 Fod o.102 Passes, 5oA 560 63.2 5o.g 1.0 47.6 1.0 7.8 Fg o.103 PaSMBG2s, G28 620 58.9 65.1 1.0 83.0 1.4 1 65.0 0.1 Od Pas MiBaas, gaA, 6ac 64.5 Fid 14 58.1 1.0 6.6 G20 O01 Od Pas MB? 5A, FoR Foe W143 7e8 1.4 641 1.4 6.8 103 0.106 Pas Mibeea, g2A B20 74 86.1 1.4 Fad 1.0 6.3 113 0.106 PaSMBS1A a1A gic 86.5 g6.5 1.0 77.8 1.0 48 126 0.4106 Pas MB 00,4, 1004, (aoc 96.0 108 1.0 86.5 1.0 dd 137 0.106 PaSMB1108, 1104, 1100 108 116 1.4 od 0) 1.4 3.9 152 O.10F Pas MB 204, 1204, 20d lid 126 1.4 102 1.0 3.6 166 OOF PaS MB 304, 1304, 1300 124 Tar 1.4 WwW 1.4 3.4 179 O10 Pas MB1 504, 1504, 1600 143 168 14 128 1.0 2.9 2oF O.108 P@S MB 1 60.4, 1604, 1606 162 168 1.0 138 1.0 27 214 0.408 Pas MB 170.4, 17 os, Trac 162 179 1.0 146 1.0 2.6 23d 0.108 PSS MB 1 80.4, 1804, 180c FA 189 1.0 154 1.0 2d 246 0.108 Pas MB 2004, 200A, 2000 190 210 1.4 TFA 1.6 22 afd 6.108 PaaS MB 2 20.4, 2204 2200 204 231 1.0 186 1.0 1.8 328 0.408 Notes: 1. View measured after |, applied for 300us, |_=square wave pulse or equivalent 2 Surge current waveform per Fig. 3 and derate per Fig. 2 3. For bidirectional types with V,,, of 10 valts and less, the |, limit is doubled 4. Allternms and symbols are consistent with AN SWIEEE G62.36RATINGS AND CHARACTERISTIC CURVES P6SMB6.8A thru P6SMB220CA (T, = 25C unless otherwise notech lppa Peak Pulse Current, % las Pepa Peak Pulse Power (kW) Transient Thennal Impedance (|C/W) Fig. 1 Peak Pulse Power Rating Curve 100: 10 1 i ha ro 0.2 x 0.2 (0.5 x 0.5mm) Pad Areas 0.1 Otps = 1.08 10,5. 100yus. 1,0ms 10ms ta Pulse Width (sec.) Fig. 3- Pulse Waveform 150 | T T Ty = 25C 4 i | eS tr = 10usac. Pulse Width (1d) | : | | is defined as the point Peak Value _ where the paak current L Ippa decays to 50% of lprw 100 \. Halt Value IPP IPPM 2 50 Se 10/1000usec. Waveform | as delined by R.E.A. = td 0 l 0 1.0 20 3.0 4.0 t Time (ms) Fig. 5 - Typical Transient Thermal Impedance 100 10 1.0 o1 0.001 0.01 0.1 1 10 100: 1000 tp Pulse Duration (sec) Fig. 2 Pulse Derating Curve 100 =i mn Peak Pulse Power (Pre) or Current (IPF) Derating in Percentage, % R 3 mn Oo 2 50 75 #100 #125 61500== 175 200 Ta Ambient Temperature (C) Fig. 4 Typical Junction Capacitance eae Measured at c Zero Bias & : 1,000 ; e 2 Va. Measured al 2 100 Stand-Ott = Vw f Unt Directional Ty = 25C ==== B/-Directional f= 1.0MHz Vsig = SomVp-p 10 100 200 Vwa Reverse Stand-Off Voltage (V) Fig. 6 - Maximum Non-Repetitive Peak Forward Surge Current 10 1 200 8.3ms Single Half Sine-Wave WEDEC Method) Unidirectional Only 100 lsu Peak Forward Surge Current (A) 10 1 10 100 Number of Cyclas at 6OH2