SMAJ5.0 thru 188CA SYHSEM! SEMICONDUCTOR Surface Mount Transient Voltage Suppressors Peak Pulse Power 400W Stand Off Voltage 5.0 to 188V Features @ Plastic package has Underwriters Laboratory Flammability Classification 94-0 @ Optimized for LAN protection applications @ Ideal for ESD protection of data lines in accordance with IEG 1000-4-2 (IEC&01-2) @ Ideal for EFT protection of data lines in accordance with IEG 1000-4-4 (IECG01-4) @ Low profile package with builtin strain relief for surface mounted applications @ Glass passivated junction @ Low incremental surge resistance, excellent clamping capability @ 400 peak pulse power capability with a 104000us wave- form, repetition rate (duty cycle): 0.01% (S00WV above 78V) @ Very fastresponse time @ High temperature soldering guaranteed: 250C/10 seconds at terminals Mechanical Data @ Case: JEDEC DO-214AC(SMA) molded plastic over passivated chip @ Terminals: Solder plated, solderable per MIL-STO-70, Method 2026 @ Polarity: For uni-directional types the band denotes the cathode, which is positive with respect to the anode under normal TVS operation @ Mounting Position: Any @ Weight 0.00207., 0.064g Devices for Bidirectional Applications DO-214AC (SMA) .064( 1.83) - 05 (1.27) l i 1042.65) 1 O40) t .1841(4.60) -157(4.00) 08542, 25) 751.30) | 1 0121.31) 0051.15) | .008(.20) | O04. 10) 0541.80) 031(0.00) .205(6.20) nl 184.80) Dimensions in inches and (millimeters) For bi-directional devices, use suffix CA (e.g. SMAJIOCA). Electrical characteristics apply in both directions. Maximum Ratings and Thermal Characteristics (Ratings at 25C ambienttermperature unless othenvise specified.) Parameter Symbol Value Unit a 10/1000us wavesormea (eee Fig. 1) Pe 400 wW Peak pulse current with a 10/1 000us wavetomn | lea See Next Table A Peak forward surge curert, 6.3ms single half sine-wave | 40 A uni-directional onty @ eM Typical thermal resistance, junctionte ambiert Re 120 oh Typical therrnal resistance, junction to lead Pe 30 olny Operating junction and storage ternperature range Tye Tan 65 to +150 C Notes: 2. Mounted on 0.22 0.2" (6.05.0 mm) copper pads te each terminal 3. Mounted on minimum recommended pad layout 1. Nor-repetitive current pulse, per Fig. 3 and derated above T.=25C per Fig. 2 Rating is 300K above 7ayElectrical Characteristics SMAJ5.0 thru 188CA Ratings at 26C ambient temperature unless otherwise specified. V=3.5'7 at | =254 (uni-directional ony} . Maximum Maximum Device Brealtiow n voltage reverse peak pube Maximum marking Mee Test Stand-off kakage surge clamping code {volts} current voltage at ,,, current voltage atl, Ms Le Newt at |e isa Device ty pe UNI Bl Min. Max. {mA} (Vo lis} {uA} {A} ,, (Volts) SMAIS.O AD WO 6.40 FBe 10 ho Boo 417 4.6 SMLAIS 08, @ AE WE 6.40 FOF 10 6.0 800 436 a2 SMAIG.0 AF WEF 6.67 6.15 19 60 800 36.1 114 SMALE G6, AGS WS 6.67 FF 10 60 800 36.8 10.3 SMAIG.5 AH WH 22 a.82 10 65 500) 32.6 12.3 SMALE 64, AK WK Ye 7.98 10 65 Boo 367 W2 SMA ti AL WL Ye 9.64 10) Fo 200 30.4 13.3 SMA ts, AMM Wit V8 6.60 10 7.0 200 33.3 12.0 SMAI? 6 AM Wh 6.93 10.2 1.0 Fa oo 28.0 14.3 SMA? 58, AP WP 6.93 921 1.0 F6 O90 31.0 129 SMAI. AG Wo 8.69 10.9 1.0 a0 60) 267 16.0 SMAE G6, AR WR 5.89 9.83 1.4 a0 60 2o4 13.6 SMAIE.6 AS WS Gdd 16 10 65 14 26.2 16.9 SMAI 6A, AT WT add 14 1.0 5 14 27.8 id4 SMAIS 0 AU Wl 10.0 12.2 1.0 a0 60 237 16.9 SMALE G8, AM Wy 10.0 114 1.4 a0 0 26.0 164 SMAI O AW yyy 114 13.6 1.0 10 1.0 21.3 18.8 SMA OS, AX WH 14 12.3 1.4 10 1.0 23.6 17.0 SMAI Aur Wit 12.2 14.9 14 1 1.0 19.9 204 SMAITIA Ag WE 12.2 13.6 1.0 1 1.0 22.0 18.2 SMAI 2 Bo 20 13.3 16.3 1.0 lz 1.0 18.2 22.0 SMA 2a, BE ME 15.5 ld 1.4 12 1.0 20.1 19.9 SMAI 3 BF =F Idd 7.6 1.0 13 10 16.8 23.8 SMAI SA. BS mG Idd 16.9 1.40 15 1.0 18.6 #15 SMA 4 BH =H 16.6 194 14 id 10 16.6 25.8 SMA 44, BE BK 16.6 Fe 1.0 ld 1.0 We 23.2 SMAI S BL =L 167 20d 1.0 16 10 14.9 26.9 SMAI oA, Bh = 167 16.6 1.0 16 1.0 16.4 edd SMAI BH 2 17.8 218 14 16 10 13.9 28.8 SMA 64, BP =P 17.8 197 14 16 1.0 16.4 26.0 SMAI? Ba xo 18.9 23.4 14 VF 1.0 13.4 30.5 SMA FA BR AR 18.9 20.9 10 VF 1.0 14.6 27.6 SMAI a BS a3 20.0 add 1.0 18 1.0 124 32.2 SMA Ba, BT =. 20.0 22.1 1.0 18 1.0 Tay 29.2 SMAIZO Bu mu 222 27.4 14 ay) 1.0 12 36.8 SMAIZ OS, BY a #22 4.5 1.0 20 1.0 123 24 SMAIZ2 Buy AW add 29.8 14 a2 1.0 10.2 39.4 SMAIZ 24, Bx Boy edd 26.9 10 22 1.0 11.3 36.5 SMAJ24 BY mY 267 32.4 1.0 24 10 a9 43.0 SMAI 44, BZ me 267 29.5 1.0 ad 1.0 10.3 32.9 SMAIZ6 co YO #89 36.3 1.40 26 10 3.6 46.6 SMAIZSA, CE YE 28.9 31.9 1.0 26 1.0 9.6 424 SMAIZ8 CF ate 311 38.0 14 28 1.0 8.0 50.0 SMAIZ BA, cS YS a1 S44 1.0 28 1.0 8.8 454 SMAIIO GH YH 33.3 407 1.0 30 10 6 63.5 SMAI OS, CK YK 33.3 36.8 1.0 30 1.0 8.9 4o4 Notes: 1. Very 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 having V,,, of 19 Volts and less, the |, limit is doubled 4. Allterns and symbels are consistent with AMNSWIEEE 062.35 6. Forthe bidirectional SMAJS.0.C4, the maximum Very is 7.25.SMAJ5.0 thru 188CA Electrical Characteristics Ratings at 26C ambient termperature unless otherwise specified. V.=3.5' atl =254 (unidirectional only) r Maximum Maximum Maximum Device Brealdiown voltage reverse peak pube | clamping marking oe} ; Test Stand-off kakage surge voltage foe {Volts} current yoltage at Vins current atl... at I, . 1,8 leans! , Device type in. i {mA} {volts} {uA} iA} {volts} SMAIS3S 33 1.0 6.8 69.0 SMAII3A, 33 1.0 7 63.3 SMAIIE 36 1.4 5.2 64.5 SMAISEA, 36 1.0 6.9 58.1 SMAI 40 1.0 6.4 Tia SMAI OA, 40 1.0 6.2 64.5 SMAI 43 1.0 6.2 Ta? SMAI SA, 43 1.0 6.5 694 SMAJAS 45 1.4 5.0 80.5 SMAI S a, 45 1.0 6.5 fer SMAI 48 1.0 47 $6.5 SMAI EA, 49 1.0 5.2 ra SMIASST A 1.0 4d 914 SMLAJE TA 4 1.0 4.9 S24 SM ASE 54 1.4 42 96.5 SMLAISAS, 54 1.0 4.6 a7. SMASES 6a 1.0 3.9 4103 SMLASS EA, tts] 1.0 4.9 95.6 SMASEG 6a 1.0 a7 10F SMAI GA, 6a 1.0 4.1 96.5 Sh AJ 64 64 1.0 3.6 14 SMA GA, Riv 64 1.0 3.9 103 SMA OG RN 7a 1.0 3.2 125 SMA GA, FP 7a 1.0 3.6 113 SMAJSF& Ro To 1.4 3.0 134 SMAI EA, RR 74 1.0 3.3 121 SMAI S RS Te 1.0 2.9 439 SMALL? BA, RT To 1.0 3.2 126 SMAJES RU 86 1.0 2.0 181 SMLAJBEA, 85 1.0 ae 137 SMAJaO Ruy 90 1.0 1.9 160 SMASIOA, Rx oo 1.0 2.1 146 Sh AJ1 00 RY 1.0 VF 179 RZ 1.0 1.9 162 1.0 4.5 196 1.0 AF VF 1.0 14 aid 1.0 1.6 195 1.4 1.3 231 1.0 14 209 1.0 1.1 268 1.0 1.2 1.0 1.0 1.0 1.2 1.0 ogo 1.4 4.09 1.0 0.9 1.0 0.94 SIAL T OO.A, SMIAIITO 3D SMIAITT OA SE SMAI 20 SF SMAIT 20.4, 3G SMA 30 $H SMIAIT O84, SK VK SINAIT 50 BL VL SMIAIT SOA, SM VM SMAI 60 SN VN SMA 604 SP VP SMAT7O 3Q vQ 231 SMAI FO SR VR 209 SNIAIT 88 33 V3 209 256 SNIAIT BBA, $T VT 209 231 slolsls|olel=|/solelslslele]sleolelelslelsl[solelelslelelslelelelelelsleolelels=lelelslelelelslelsls> = Notes: 1. Ver measured after | applied for 300us square wave pulse or equivalent 2. Surge current waveform pear Fig. 3 and derate per Fig. 2 3. For bidirectional types having V,,,07170 Volts and less, the |, linnit is doubled 4. Allternmns and symbols are consistent with ANSIIEEE 62.36RATINGS AND CHARACTERISTIC CURVES SMAJ5.0 thru 188CA (T, = 25C unless othensise notech Pepa Peak Pulse Power (kW) Ippm Peak Pulse Current, % lnsx Transient Thermal Impedance (jC/W) Fig. 1 Peak Pulse Power Rating Curve 100 = a Re 0.2 x 0.2" (5.0 x 5.0mm) Non-repetitive Pulse Waveform shown in Fig. Ta = 25C Pad Areas | Otps 1.0us 10us 100us 1.0ms 10ms lg Pulse Width (sec, ) Fig. 3 - Pulse Waveform 150 , I I = eas T T i = e| fa tr= 10usec. Pulse Width (td) : | is defined as the point Peak Value | where the peak current woo IPpm decays to 50% of Ippy \, Half Value IPP IPPmt 2 | om 1OTO0isec. Waveform | as defined by R.E.A. Pe a td stn L o 1.0 2.0 3.0 40 t{ Time (ms) Fig. 5 Typical Transient Thermal Impedance 1000 100 10 1 0.001 0.01 04 tp Pulse Duration (sec) 1 10 400 1000 Fig. 2 Pulse Derating Curve Ree! 0.2 x 0.2" (5.0 x 5.0mm} Copper Pad Areass Peak Pulse Power (PrP) or Current (lppm) Derating in Percentage, % 0 2 50 75 6100 #6125 0 1500 175 200 Ta Ambient Temperature (jC) Fig. 4 Typical Junction Capacitance 3 T= 26C c f= 1,0MHz a Vsig = 50mVp-p a = = 1,000 g a oO Uni-Directianal 5 = = 100 3 | uo 10 1 10 Ww 2 Vian; Breakdown Voltage (\V) Fig. 6 - Maximum Non-Repetitive Forward Surge Current Uni-Directional Only 200 Ty = Ty max. 8.3ms Single Half Sine-Wave (JEDEC Method) 100 lesm Peak Forward Surge Current (A) & 10 1 5 10 50 100 Number of Cycles at 60 Hz