SMBJ15CA中文资料.doc

SMBJ5.0(C)A - SMBJ440(C)A 600W Surface Mount Transient Voltage Suppressor Features 600W Peak Pulse Power Dissipation 5.0V - 440V Standoff Voltages Glass Passivated Die Construction Uni- and Bi-Directional Versions Available Excellent Clamping Capability Fast Response Time Plastic Material - UL FlammabilityClassification Rating 94V-0Mechanical DataCase: SMB, Transfer Molded EpoxyTerminals: Solderable per MIL-STD-202,Method 208Polarity Indicator: Cathode Band(Note: Bi-directional devices have no polarityindicator.)Marking: Date Code and Marking CodeSee Page 2Weight: 0.1 grams (approx.)MAXIMUM RATINGSRating at Ta = 25 ?C ambient temperature unless otherwise specified.DO-214AA (SMB)0.083(2.11)0.155(3.94)0.075(1.91)0.130(3.30)0.185(4.70)0.160(4.06)0.012(0.31)0.006(0.15)0.096(2.44)0.083(2.13)0.050(1.27)0.008(0.203)0.030(0.76)MAX.0.220(5.59)0.200(5.08)Dimensions in inches and (millimeters) RatingSymbolValueUnitsPeak Pulse Power Dissipation on 10/1000ms (1) waveform (Notes 1, 2, Fig. 3)PPPMMinimum 600WattsPeak Pulse Current on 10/1000mswaveform (Note 1, Fig. 5)IPPMSee TableAmpsPeak forward Surge Current8.3 ms single half sine-wave superimposed onrated load ( JEDEC Method )(Notes 2, 3)Maximum Instantaneous Forward Voltage at 50AVFMSee Note 3, 4VoltsOperating Junction and Storage Temperature RangeTJ, TSTG- 65 to + 150?CNote : (1) Non-repetitive Current pulse, per Fig. 5 and derated above Ta = 25 ?C per Fig. 1 (2) Mounted on 5.0mm2 (0.013mm thick) land areas. (3) Measured on 8.3ms. Single half sine-wave or equivalent square wave, duty cycle = 4 pulses per minutes maximum. SMBJ15CA=TYPEMarkingReverseBreakdownStand-OffVoltageVoltageMin. ITBreakdownVoltageTestMax. ITCurrentMaximumClamping VoltageIPPPeakReversePulseLeakageCurrentVRMW (Uni)(BI)(Uni)(Bi)VRMW (V)VBR MIN(V)VBR MAX(V)IT (mA)VC(V)IPP(A)IR(uA)SMBJ5.0SMBJ5.0CKDAD5.06.407.55109.662.5800.0SMBJ5.0ASMBJ5.0CAKEAE5.06.407.25109.265.2800.0SMBJ6.0SMBJ6.0CKFAF6.06.678.451011.452.6800.0SMBJ6.0ASMBJ6.0CAKGAG6.06.677.671010.358.3800.0SMBJ6.5SMBJ6.5CKHAH6.57.229.141012.348.8500.0SMBJ6.5ASMBJ6.5CAKKAK6.57.228.301011.253.6500.0SMBJ7.0SMBJ7.0CKLAL7.07.789.861013.345.1200.0SMBJ7.0ASMBJ7.0CAKMAM7.07.788.951012.050.0200.0SMBJ7.5SMBJ7.5CKNAN7.58.3310.671.014.342.0100.0SMBJ7.5ASMBJ7.5CAKPAP7.58.339.581.012.946.5100.0SMBJ8.0SMBJ8.0CKQAQ8.08.8911.31.015.040.050.0SMBJ8.0ASMBJ8.0CAKRAR8.08.8910.231.013.644.150.0SMBJ8.5SMBJ8.5CKSAS8.59.4411.921.015.937.720.0SMBJ8.5ASMBJ8.5CAKTAT8.59.4410.821.014.441.720.0SMBJ9.0SMBJ9.0CKUAU9.010.012.61.016.935.510.0SMBJ9.0ASMBJ9.0CAKVAV9.010.011.51.015.439.010.0SMBJ10SMBJ10CKWAW1011.114.11.018.831.95.0SMBJ10ASMBJ10CAKXAX1011.112.81.017.035.35.0SMBJ11SMBJ11CKYAY1112.215.41.020.129.95.0SMBJ11ASMBJ11CAKZAZ1112.214.01.018.233.05.0SMBJ12SMBJ12CLDBD1213.316.91.022.027.35.0SMBJ12ASMBJ12CALEBE1213.315.31.019.930.25.0SMBJ13SMBJ13CLFBF1314.418.21.023.825.25.0SMBJ13ASMBJ13CALGBG1314.416.51.021.527.95.0SMBJ14SMBJ14CLHBH1415.619.81.025.823.35.0SMBJ14ASMBJ14CALKBK1415.617.91.023.225.95.0SMBJ15SMBJ15CLLBL1516.721.11.026.922.35.0SMBJ15ASMBJ15CALMBM1516.719.21.024.424.65.0SMBJ16SMBJ16CLNBN1617.822.61.028.820.85.0SMBJ16ASMBJ16CALPBP1617.820.51.026.023.15.0SMBJ17SMBJ17CLQBQ1718.923.91.030.519.75.0SMBJ17ASMBJ17CALRBR1718.921.71.027.621.75.0SMBJ18SMBJ18CLSBS1820.025.31.032.218.65.0SMBJ18ASMBJ18CALTBT1820.023.31.029.220.55.0SMBJ20SMBJ20CLUBU2022.228.11.035.816.85.0SMBJ20ASMBJ20CALVBV2022.225.51.032.418.55.0SMBJ22SMBJ22CLWBW2224.430.91.039.415.25.0SMBJ22ASMBJ22CALXBX2224.428.01.035.516.95.0SMBJ24SMBJ24CLYBY2426.733.81.043.014.05.0SMBJ24ASMBJ24CALZBZ2426.730.71.038.915.45.0SMBJ26SMBJ26CMDCD2628.936.61.046.612.95.0SMBJ26ASMBJ26CAMECE2628.933.21.042.114.35.0SMBJ28SMBJ28CMFCF2831.139.41.050.012.05.0SMBJ28ASMBJ28CAMGCG2831.135.81.045.413.25.0Note: ( 1 ) VBR measured after IT applied for 300 ms., IT = square wave pulse or equivalent. ( 2 ) Surge Current Waveform per Figure 5 and Derate per Figure 1 ( 3 ) A Transient suppressor is normally selected according to the reverse Stand-off Voltage (VWM) which should be equal to or greater then the D.C. or continuous peak operating voltage level. SMBJ15CA ReverseBreakdownBreakdownMaximumPeakReverseTYPEMarkingStand-OffVoltageVoltageTestClampingPulseLeakageVoltageMin. ITMax. ITCurrentVoltage IPPCurrentVRMW(Uni)(BI)(Uni)(Bi)VRMW (V)VBR MIN(V)VBR MAX(V)IT (mA)VC(V)IPP(A)IR(uA)SMBJ30SMBJ30CMHCH3033.342.21.053.511.25.0SMBJ30ASMBJ30CAMKCK3033.338.31.048.412.45.0SMBJ33SMBJ33CMLCL3336.746.51.059.010.25.0SMBJ33ASMBJ33CAMMCM3336.742.21.053.311.35.0SMBJ36SMBJ36CMNCN3640.050.71.064.39.35.0SMBJ36ASMBJ36CAMPCP3640.046.01.058.110.35.0SMBJ40SMBJ40CMQCQ4044.456.31.071.48.45.0SMBJ40ASMBJ40CAMRCR4044.451.11.064.59.35.0SMBJ43ASMBJ43CAMTCT4347.854.91.069.48.65.0SMBJ45SMBJ45CMUCU4550.063.31.080.37.55.0SMBJ45ASMBJ45CAMVCV4550.057.51.072.78.35.0SMBJ48SMBJ48CMWCW4853.367.51.085.57.05.0SMBJ48ASMBJ48CAMXCX4853.361.31.077.47.85.0SMBJ51SMBJ51CMYCY5156.771.81.091.16.65.0SMBJ51ASMBJ51CAMZCZ5156.765.21.082.47.35.0SMBJ54SMBJ54CNDDD5460.076.01.096.36.25.0SMBJ54ASMBJ54CANEDE5460.069.01.087.16.95.0SMBJ58SMBJ58CNFDF5864.481.61.01035.85.0SMBJ58ASMBJ58CANGDG5864.474.11.093.66.45.0SMBJ60SMBJ60CNHDH6066.784.51.01075.65.0SMBJ60ASMBJ60CANKDK6066.776.71.096.86.25.0SMBJ64SMBJ64CNLDL6471.190.11.01145.35.0SMBJ64ASMBJ64CANMDM6471.181.81.01035.85.0SMBJ70SMBJ70CNNDN7077.898.61.01254.85.0SMBJ70ASMBJ70CANPDP7077.889.51.01135.35.0SMBJ75SMBJ75CNQDQ7583.0105.71.01344.55.0SMBJ75ASMBJ75CANRDR7583.095.81.01215.05.0SMBJ90SMBJ90CNWDW90100126.51.01603.85.0SMBJ90ASMBJ90CANXDX90100115.51.01464.15.0SMBJ100SMBJ100CNYDY100111141.01.01793.45.0SMBJ100ASMBJ100CANZDZ100111128.01.01623.75.0SMBJ110SMBJ110CPDED110122154.51.01963.15.0SMBJ110ASMBJ110CAPEEE100122140.51.01773.45.0SMBJ120SMBJ120CPFEF120133169.01.02142.85.0SMBJ120ASMBJ120CAPGEG120133153.01.01933.15.0SMBJ130SMBJ130CPHEH130144182.51.02312.65.0SMBJ130ASMBJ130CAPKEK130144165.51.02092.95.0SMBJ150SMBJ150CPLEL150167211.51.02682.25.0SMBJ150ASMBJ150CAPMEM150167192.51.02432.55.0SMBJ160SMBJ160CPNEN160178226.01.02872.15.0SMBJ160ASMBJ160CAPPEP160178205.01.02592.35.0Note: ( 1 ) V BR measured after IT applied for 300 ms., IT = square wave pulse or equivalent. ( 2 ) Surge Current Waveform per Figure 5 and Derate per Figure 1 ( 3 ) A Transient suppressor is normally selected according to the reverse Stand-off Voltage (V WM) which should be equal to or greater then the D.C. or continuous peak operating voltage level.SMBJ15CA TYPEMarkingReverseBreakdownStand-OffVoltageVoltageMin. ITBreakdownVoltageTestMax. ITCurrentMaximumClamping VoltageIPPPeakReversePulseLeakageCurrentVRMW (Uni)(BI)(Uni)(Bi)VRMW (V)VBR MIN(V)VBR MAX(V)IT (mA)VC(V)IPP(A)IR(uA)SMBJ170SMBJ170CPQEQ170189239.51.03042.05.0SMBJ170ASMBJ170CAPRER170189217.51.02752.25.0SMBJ180SMBJ180CPSES180200253.81.03211.95.0SMBJ180ASMBJ180CAPTET180200230.41.02902.15.0SMBJ190SMBJ190CPUEU190211267.91.03391.85.0SMBJ190ASMBJ190CAPVEV190211243.21.03062.05.0SMBJ20