SMAJ SERIES creat by art 400 Watts Suface Mount Transient Voltage Suppressor SMA/DO-214AC Pb RoHS COMPLIANCE Features For surface mounted application Low profile package Built-in strain relief Glass passivated junction Excellent clamping capability Fast response time: Typically less than 1.0ps from 0 volt to BV min Typical IR less than 1uA above 10V High temperature soldering guaranteed: 260 / 10 seconds at terminals Plastic material used carried Underwriters Laboratory Flammability Classification 94V-0 400 watts peak pulse power capability with a 10 / 1000 us waveform (300W above 78V) Green compound with suffix "G" on packing code & prefix "G" on datecode Mechanical Data Dimensions in inches and (millimeters) Marking Diagram Case: Molded plastic Terminals: Pure tin plated, lead free XX Polarity: Indicated by cathode band G = Green Compound Packaging: 12mm tape per EIA Std RS-481 Y = Year Weight: 0.064 gram M = Work Month = Specific Device Code Maximum Ratings and Electrical Characteristics Rating at 25 ambient temperature unless otherwise specified. Type Number Symbol Value Unit Peak Power Dissipation at TA=25, Tp=1ms(Note 1) PPK 400 Watts Steady State Power Dissipation PD 1 Watts Peak Forward Surge Current, 8.3ms Single Half Sine-wave Superimposed on Rated Load (JEDEC method) (Note 2) IFSM 40 Amps VF 3.5 Volts TJ, TSTG -55 to +150 Maximum Instantaneous Forward Voltage at 25.0A for Unidirectional Only Operating and Storage Temperature Range Note 1: Non-repetitive Current Pulse Per Fig. 3 and Derated above TA=25 Per Fig. 2 Note 2: Mounted on 5 x 5mm Copper Pads to Each Terminal Devices for Bipolar Applications 1. For Bidrectional Use C or CA Suffix for Types SMAJ5.0 through Types SMAJ188 2. Electrical Characterstics Apply in Both Directions Version:G11 RATINGS AND CHARACTERISTIC CURVES (SMAJ SERIES) FIG. 1 PEAK PULSE POWER RATING CURVE FIG.2 PULSE DERATING CURVE PEAK PULSE POWER(PPP) OR CURRENT (IPP) A DERATING IN PERCENTAGE (%) PPPM, PEAK PULSE POWER, KW 100 NON-REPETITIVE PULSE WAVEFORM SHOWN in FIG.3 TA = 25 10 1 125 100 75 50 25 0 0.1 0.1 1 10 100 1000 0 10000 FIG. 3 CLAMPING POWER PULSE WAVEFORM IFSM, PEAK FORWARD SURGE A CURRENT (A) PEAK PULSE CURRENT (%) 120 Peak Value IPPM 100 Half Value-IPPM/2 10/1000usec, WAVEFORM as DEFINED by R.E.A. 80 75 100 125 150 175 200 FIG. 4 MAXIMUM NON-REPETITIVE FORWARD SURGE CURRENT UNIDIRECTIONAL ONLY 50 PULSE WIDTH(td) is DEFINED as the POINT WHERE the PEAK CURRENT DECAYS to 50% OF IPPM tr=10usec 50 TA, AMBIENT TEMPERATURE (oC) tp, PULSE WIDTH, (uS) 140 25 60 40 20 8.3mS Single Half Sine Wave JEDEC Method 40 30 20 10 td 0 0 0.5 1 1.5 2 2.5 3 3.5 4 t, TIME ms 0 1 10 NUMBER OF CYCLES AT 60 Hz CJ, JUNCTION CAPACITANCE (pF) A FIG. 5 TYPICAL JUNCTION CAPACITANCE 10000 MEASURED AT ZERO BIAS 1000 100 TA=25 f=1.0MHz Vsig=50mVp-p MEASURED at STAND-OFF VOLTAGE,Vwm 10 1 10 100 V(BR), BREAKDOWN VOLTAGE (V) Version:G11 100 ELECTRICAL CHARACTERISTICS (TA=25 unless otherwise noted) Device Device Marking Code Working Peak Reverse Voltage VWM Min Max (mA) Maximum Clamping Voltage at IPPM Vc(V) (Note5) 9.6 Breakdown Voltage Test VBR (V) Current at IT IT Maximum Maximum Peak Pulse Reverse Leakage Surge Current @ VWM IPPM ID (uA) (A)(Note5) 41.7 800 SMAJ5.0 AD 5 6.4 7.3 10 SMAJ5.0A AE 5 6.4 7 10 9.2 43.5 800 SMAJ6.0 AF 6 6.67 8.15 10 11.4 35.1 800 SMAJ6.0A AG 6 6.67 7.37 10 10.3 38.8 800 SMAJ6.5 AH 6.5 7.22 8.82 10 12.3 32.5 500 SMAJ6.5A AK 6.5 7.22 7.98 10 11.2 35.7 500 SMAJ7.0 AL 7 7.78 9.51 10 13.3 30.1 200 SMAJ7.0A AM 7 7.78 8.6 10 12.0 33.3 200 SMAJ7.5 AN 7.5 8.33 10.30 1.0 14.3 28.0 100 SMAJ7.5A AP 7.5 8.33 9.21 1.0 12.9 31.0 100 SMAJ8.0 AQ 8 8.89 10.9 1.0 15.0 26.7 50.0 SMAJ8.0A AR 8 8.89 9.83 1.0 13.6 29.4 50.0 SMAJ8.5 AS 8.5 9.44 11.5 1.0 15.9 25.2 10.0 SMAJ8.5A AT 8.5 9.44 10.4 1.0 14.4 27.8 10.0 SMAJ9.0 AU 9 10 12.2 1.0 16.9 23.7 5.0 SMAJ9.0A AV 9 10 11.1 1.0 15.4 26.0 5.0 SMAJ10 AW 10 11.1 13.6 1.0 18.8 21.3 5.0 SMAJ10A AX 10 11.1 12.3 1.0 17.0 23.5 5.0 SMAJ11 AY 11 12.2 14.9 1.0 20.1 19.9 5.0 SMAJ11A AZ 11 12.2 13.5 1.0 18.2 22.0 5.0 SMAJ12 BD 12 13.3 16.3 1.0 22.0 18.2 5.0 SMAJ12A BE 12 13.3 14.7 1.0 19.9 20.1 5.0 SMAJ13 BF 13 14.4 17.6 1.0 23.8 16.8 5.0 SMAJ13A BG 13 14.4 15.9 1.0 21.5 18.6 5.0 SMAJ14 BH 14 15.6 19.1 1.0 25.8 15.5 5.0 SMAJ14A BK 14 15.6 17.2 1.0 23.2 17.2 5.0 SMAJ15 BL 15 16.7 20.4 1.0 26.9 14.9 5.0 SMAJ15A BM 15 16.7 18.5 1.0 24.4 16.4 5.0 SMAJ16 BN 16 17.8 21.8 1.0 28.8 13.9 5.0 SMAJ16A BP 16 17.8 19.7 1.0 26.0 15.4 5.0 SMAJ17 BQ 17 18.9 23.1 1.0 30.5 13.1 5.0 SMAJ17A BR 17 18.9 20.9 1.0 27.6 14.5 5.0 SMAJ18 BS 18 20 24.4 1.0 32.2 12.4 5.0 SMAJ18A BT 18 20 22.1 1.0 29.2 13.7 5.0 SMAJ20 BU 20 22.2 27.1 1.0 35.8 11.2 5.0 SMAJ20A BV 20 22.2 24.5 1.0 32.4 12.3 5.0 SMAJ22 BW 22 24.4 29.8 1.0 39.4 10.2 5.0 SMAJ22A BX 22 24.4 26.9 1.0 35.5 11.3 5.0 SMAJ24 BY 24 26.7 32.6 1.0 43.0 9.3 5.0 SMAJ24A BZ 24 26.7 29.5 1.0 38.9 10.3 5.0 SMAJ26 CD 26 28.9 35.3 1.0 46.6 8.6 5.0 SMAJ26A CE 26 28.9 31.9 1.0 42.1 9.5 5.0 SMAJ28 CF 28 31.1 38 1.0 50.0 8.0 5.0 SMAJ28A CG 28 31.1 34.4 1.0 45.4 8.8 5.0 SMAJ30 CH 30 33.3 40.7 1.0 53.5 7.5 5.0 SMAJ30A CK 30 33.3 36.8 1.0 48.4 8.3 5.0 SMAJ33 CL 33 36.7 44.9 1.0 59.0 6.8 5.0 SMAJ33A CM 33 36.7 40.6 1.0 53.3 7.5 5.0 SMAJ36 CN 36 40 48.9 1.0 64.3 6.2 5.0 SMAJ36A CP 36 40 44.2 1.0 58.1 6.9 5.0 SMAJ40 CQ 40 44.4 54.3 1.0 71.4 5.6 5.0 SMAJ40A CR 40 44.4 49.1 1.0 64.5 6.2 5.0 SMAJ43 CS 43 47.8 58.4 1.0 76.7 5.2 5.0 SMAJ43A CT 43 47.8 52.8 1.0 69.4 5.8 5.0 Version:G11 ELECTRICAL CHARACTERISTICS (TA=25 unless otherwise noted) Working Peak Reverse Voltage VWM Maximum Maximum Peak Pulse Reverse Leakage Surge Current @ VWM IPPM ID (uA) (A)(Note5) 5.0 5.0 SMAJ45 CU 45 50 61.1 1.0 Maximum Clamping Voltage at IPPM Vc(V) (Note5) 80.3 SMAJ45A CV 45 50 55.3 1.0 72.7 5.5 SMAJ48 CW 48 53.3 65.1 1.0 85.5 4.7 5.0 SMAJ48A CX 48 53.3 58.9 1.0 77.4 5.2 5.0 SMAJ51 CY 51 56.7 69.3 1.0 91.1 4.4 5.0 SMAJ51A CZ 51 56.7 62.7 1.0 82.4 4.9 5.0 SMAJ54 RD 54 60 73.3 1.0 96.3 4.2 5.0 SMAJ54A RE 54 60 66.3 1.0 87.1 4.6 5.0 SMAJ58 RF 58 64.4 78.7 1.0 103 3.9 5.0 SMAJ58A RG 58 64.4 71.2 1.0 93.6 4.3 5.0 SMAJ60 RH 60 66.7 81.5 1.0 107 3.7 5.0 SMAJ60A RK 60 66.7 73.7 1.0 96.8 4.1 5.0 SMAJ64 RL 64 71.1 86.9 1.0 114 3.5 5.0 SMAJ64A RM 64 71.1 78.6 1.0 103 3.9 5.0 SMAJ70 RN 70 77.8 95.1 1.0 125 3.2 5.0 SMAJ70A RP 70 77.8 86 1.0 113 3.5 5.0 SMAJ75 RQ 75 83.3 102 1.0 134 3.0 5.0 SMAJ75A RR 75 83.3 92.1 1.0 121 3.3 5.0 SMAJ78 RS 78 86.7 106 1.0 139 2.9 5.0 SMAJ78A RT 78 86.7 95.8 1.0 126 3.2 5.0 SMAJ85 RU 85 94.4 115 1.0 151 2 5.0 SMAJ85A RV 85 94.4 104 1.0 137 2.2 5.0 SMAJ90 RW 90 100 122 1.0 160 1.9 5.0 SMAJ90A RX 90 100 111 1.0 146 2.1 5.0 SMAJ100 RY 100 111 136 1.0 179 1.7 5.0 SMAJ100A RZ 100 111 123 1.0 162 1.9 5.0 SMAJ110 SD 110 122 149 1.0 196 1.6 5.0 SMAJ110A SE 110 122 135 1.0 177 1.7 5.0 SMAJ120 SF 120 133 163 1.0 214 1.4 5.0 SMAJ120A SG 120 133 147 1.0 193 1.6 5.0 SMAJ130 SH 130 144 176 1.0 231 1.3 5.0 SMAJ130A SK 130 144 159 1.0 209 1.5 5.0 SMAJ150 SL 150 167 204 1.0 266 1.1 5.0 SMAJ150A SM 150 167 185 1.0 243 1.3 5.0 SMAJ160 SN 160 178 218 1.0 287 1 5.0 SMAJ160A SP 160 178 197 1.0 259 1.2 5.0 SMAJ170 SQ 170 189 231 1.0 304 1 5.0 SMAJ170A SR 170 189 209 1.0 275 1.1 5.0 Device Device Marking Code Breakdown Voltage Test VBR (V) Current at IT IT Min Max (mA) 5.0 SMAJ188 ST 188 209 255 1.0 344 0.9 5.0 SMAJ188A SS 188 209 231 1.0 328 0.91 5.0 Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A=25 per Fig. 2 2. Mounted on 5 x 5mm copper pads to each terminal 3. Lead temperature at T L=75 4. Measure on 8.3ms single half sine-wave duty cycle=4 pulses per minutes maximum 5. Peak pulse power waveform is 10/1000 us 6. For Bi-Directional devices having V R of 10 volts and under, the I R limit is double. Version:G11 TVS APPLICATION NOTES: Transient Voltage Suppressors may be used at various points in a circuit to provide various degrees of protection. The following is a typical linear power supply with transient voltage suppressor units plaved at different points. All provide protection Transient Voltage Suppressor 1 provides maximum protection. However, the system will probably require replacement of the line fuse(F) since it provides a dominant portion of the series impedance when a surge is encountered. Hower, we do not recommend to use the TVS diode here, unless we can know the electric circuit impedance and the magnitude of surge rushed into the circuit. Otherwise the TVS diode is easy to be destroyed by voltage surge. Transient Voltage Suppressor 2 provides execllent protection of circuitry excluding the transformer(T). However, since the transformer is a large part of the series impedance, the chance of the line fuse opening during the surge condition is reduced. Transient Voltage Suppressor 3 provides the load with complete protection. It uses a unidirectional Transient Voltage Suppressor, which is a cost advantage. The series impedance now includes the line fuse, transformer, and bridge rectifier(B) so failure Any combination of this three, or any one of these applivations, will prevent damage to the load. This would require varying trade-offs in power supply protection versus maintenance(changing the time fuse). An additional method is to utilize the Trans RECOMMENDED PAD SIZES The pad dimensions should be 0.010"(0.25mm) longer than the contact size, in the lead axis. This allows a solder filler to form, see figure below. Contact factort for soldering methods. Version : G11