P6SMBJ210C中文资料

SMBJ5.0(C)A – SMBJ200ADocument number: DS19002 Rev. 20 - 2 1 of 6 May 2017© Diodes Incorporated Features∙600W Peak Pulse Power Dissipation ∙5.0V to 200V Standoff Voltages ∙Glass Passivated Die Construction ∙Uni- and Bi-Directional Versions Available ∙Excellent Clamping Capability ∙Lead-Free Finish; RoHS Compliant (Notes 1 & 2) ∙Halogen and Antimony Free. “Green” Device (Note 3)Mechanical Data ∙Case: SMB ∙Case Material: Molded Plastic.UL Flammability Classification Rating 94V-0∙Moisture Sensitivity: Level 1 per J-STD-020∙Terminals: Lead Free Plating (Matte Tin Finish).Solderable per MIL-STD-202, Method 208∙Weight: 0.1 grams (Approximate)Ordering Information (Note 4)*x = Device Voltage, e.g., SMBJ170A-13-F.Notes: 1.EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant. All applicable RoHS exemptions applied.2.See http:///quality/lead_free.html for more information about Diodes Incorporated’s definitions of Hal ogen- and Antimony-free, "Green" and Lead-free.3.Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and <1000ppm antimony compounds.4.For packaging details, go to our website at /design/support/packaging/diodes-packaging/. Marking InformationBi-Directional Device Cathode Band for Uni-Directional DeviceTop View Bottom Viewxx = Product Type Marking Code (See Page 3) = Manufacturers’ Code MarkingYWW = Date Code MarkingY = Last Digit of Year (ex: 7 for 2017)WW = Week Code (01 to 53)YWWxx 找电子元器件上宇航军工SMBJ5.0(C)A – SMBJ200A Document number: DS19002 Rev. 20 - 22 of 6 May 2017© Diodes IncorporatedThermal CharacteristicsNotes: 5. Valid provided that terminals are kept at ambient temperature.6. Measured with 8.3ms single half sine-wave. Duty cycle = 4 pulses per minute maximum.7. Unidirectional units only.SMBJ5.0(C)A – SMBJ200A Document number: DS19002 Rev. 20 - 2 6 of 6 May 2017© Diodes IncorporatedSuggested Pad LayoutPlease see http:///package-outlines.html for the latest version.SMB。

MECHANICAL DATACase: SMB (DO-214AA)Molding compound meets UL 94 V-0 flammability rating Base P/N-E3 - RoHS-compliant, commercial gradeBase P/N-M3 - halogen-free, RoHS-compliant, commercial gradeBase P/NHE3_X - RoHS-compliant and AEC-Q101 qualified Base P/NHM3_X - halogen-free, RoHS-compliant, and AEC-Q101 qualified(“_X” denotes revision code e.g. A, B, ..... and only available for 250 V to 540 V type)Terminals: matte tin plated leads, solderable per J-STD-002 and JESD 22-B102E3, M3, HE3, and HM3 suffix meets JESD 201 class 2 whisker testPolarity: for uni-directional types the band denotes cathode end, no marking on bi-directional typesNotes(1) Non-repetitive current pulse, per fig. 3 and derated above T A= 25 °C per fig. 2 (2) Mounted on 0.2" x 0.2" (5.0 mm x 5.0 mm) copper pads to each terminalFEATURES• Low profile package• Ideal for automated placement • Glass passivated chip junction• Available in uni-directional and bi-directional • 600 W peak pulse power capability with a 10/1000 μs waveform, repetitive rate (duty cycle): 0.01 %• Excellent clamping capability • Very fast response time• Low incremental surge resistance• Meets MSL level 1, per J-STD-020, LF maximum peak of 260 °C• AEC-Q101 qualified available- Automotive ordering code: base P/NHE3 or P/NHM3(1) Pulse test: t p 50 ms(2) Surge current waveform per fig. 3 and derate per fig. 2(3) For bi-directional types with V WM of 10 V and less, the I D limit is doubled(4) All terms and symbols are consistent with ANSI/IEEE CA62.35(5) V F = 3.5 V at I F = 50 A (uni-directional only)RATINGS AND CHARACTERISTICS CURVES (T A = 25 °C unless otherwise noted)1001011007550250.10.1 µs 1.0 µs 10 µs 100 µs 1.0 ms 10 ms0 25 50 75 100125 150 175 200t d - Pulse Width (s) TJ - Initial Temperature (°C) Fig. 1 - Peak Pulse Power Rating Curve Fig. 2 - Pulse Power or Current vs. Initial Junction TemperatureFig. 3 - Pulse Waveform Fig. 5 - Typical Transient Thermal Impedance Fig. 4 - Typical Junction Capacitance Fig. 6 - Maximum Non-Repetitive Peak Forward Surge Current PPPM-PeakPulsePower(kW)PeakPulsePower(PPP)orCurrent(IPP)DeratinginPercentage,%。

WEITRON600W Surface MountPeak Pulse Power 600 Watt Stand-off Voltage 6.8 To 550 VOLTSTransient Voltage Suppressors* 600 Watt Peak Power Dissipation * Glass Passivated Die Construction* Excellent Clamping Capability Fast Response Time* Plastic Material Has UL Flammability Classification Rating 94V-O* Case: Transfer Molded Epoxy* Polarity: Indicator by Cathode Band* Terminals: Solderable per MIL-STD-202 Method 208* Weight: 0.1grams(approx)(Bi-directional Devices Has no Polarity Indicator)NOTE: 1. Non-Repetitive Current Pulse, per FIG3 and Derated 2. Mounted on 5.0mm Copper Pads to each Terminal3. 8.3ms Single Half Sine-Wave, or equivalent Square above TA=25 C per FIG2Wave, Duty Cycle=4 pulses per minutes Maximum.Maximum Ratings2UNI- POLAR BI-POLAR(1)UNI BI P6SMB6.8A P6SMB7.5A P6SMB8.2A P6SMB9.1A P6SMB10A P6SMB11A P6SMB12A P6SMB13A P6SMB15A P6SMB16A P6SMB18A P6SMB20A P6SMB22A P6SMB24A P6SMB27AP6SMB30A P6SMB33A P6SMB36A P6SMB39A P6SMB43A P6SMB47A P6SMB51A P6SMB56A P6SMB62A P6SMB68A P6SMB75A P6SMB82A P6SMB91A P6SMB100A P6SMB110A P6SMB120A P6SMB130A P6SMB150A P6SMB160A P6SMB170A P6SMB180A P6SMB200A P6SMB220A P6SMB250A P6SMB300A P6SMB350A P6SMB400A P6SMB440A P6SMB480A P6SMB510A P6SMB530A P6SMB540A P6SMB550A P6SMB6.8CA P6SMB7.5CA P6SMB8.2CA P6SMB9.1CA P6SMB10CA P6SMB11CA P6SMB12CA P6SMB13CA P6SMB15CA P6SMB16CA P6SMB18CA P6SMB20CA P6SMB22CA P6SMB24CA P6SMB27CA P6SMB30CA P6SMB33CA P6SMB36CA P6SMB39CA P6SMB43CA P6SMB47CA P6SMB51CA P6SMB56CA P6SMB62CA P6SMB68CA P6SMB75CA P6SMB82CA P6SMB91CA P6SMB100CA P6SMB110CA P6SMB120CA P6SMB130CA P6SMB150CA P6SMB160CA P6SMB170CA P6SMB180CA P6SMB200CA P6SMB220CA P6SMB250CA P6SMB300CA P6SMB350CA P6SMB400CA P6SMB440CA P6SMB480CA P6SMB510CA P6SMB530CA P6SMB540CA P6SMB550CA 6V8A 5.80 6.451010.558.110007V5A 6.407.131011.354.08008V2A 7.027.791012.150.42009V1A 7.788.651013.445.55010A 8.559.50114.542.11011A 9.4010.50115.639.1512A 10.2011.40116.736.5513A 11.1012.40118.233.5515A 12.8014.30121.228.8516A 13.6015.20122.527.1518A 15.3017.10125.524.2520A 17.1019.00127.722.0522A 18.8020.90130.619.9524A 20.5022.80133.218.4527A 23.1025.70137.516.3530A 25.6028.50141.414.7533A 28.2031.40145.713.3536A 30.8034.20149.912.2539A 33.3037.10153.911.3543A 36.8040.90159.310.3547A 40.2044.70164.89.4551A 43.6048.50170.18.7556A 47.8053.20177.07.9562A 53.0058.90185.07.2568A 58.1064.60192.0 6.6575A 64.1071.301103.0 5.9582A 70.1077.901113.0 5.4591A 77.8086.501125.0 4.95100A 85.5095.001137.0 4.55110A 94.00105.001152.0 4.05120A 102.00114.001165.0 3.75130A 111.00124.001179.0 3.45150A 128.00143.001207.0 2.95160A 136.00152.001219.0 2.85170A 145.00162.001234.0 2.65180A 154.00171.001246.0 2.55200A 171.00190.001274.0 2.25220A 185.00209.001328.0 1.95250A 214.00237.001344.0 1.85300A 256.00285.001414.0 1.55350A 300.00332.001482.0 1.35400A 342.00380.001548.0 1.15440A 376.00418.001602.0 1.05480A 408.00456.001658.00.95510A 434.00485.001698.00.95530A 540A 550A 6V8C 7V5C 8V2C 9V1C 10C11C12C13C 15C16C18C20C 22C24C 27C 30C 33C36C 39C 43C 47C51C56C62C 68C75C82C91C100C 110C 120C 130C 150C 160C 170C 180C 200C 220C 250C 300C 350C 400C 440C 480C 510C 530C 540C 550C 450.00459.00467.00503.50513.00522.507.147.888.619.5510.5011.6012.5013.7015.8016.8018.9021.0023.1025.2028.4031.5034.7037.8041.0045.2049.4053.6058.8065.1071.4078.8086.1095.50105.00116.00126.00137.00158.00168.00179.00189.00210.00231.00263.00315.00368.00420.00462.00504.00535.00556.50567.00577.50111725.0740.0760.00.80.80.8555For bidirectional type having Vrwm of 10 volts and less, the IR limit is double.for parts without A , the V BR is + + 10%.BREAK DO WN VOLTAGE V BR (V)(1)V BR (V)(2)MAX.@I TTEST CURRE NT I T (mA)MAXIMUM CLAMPING VOLTAGE @Ipp Vc(V)PEAK PULSE CURRENT Ipp (A)P6SMBPART NUMBER DEVICE MARKING CODEREVERSE STAND-OFF VOLTAGE V RWM (V)MIN.@I T REVERSE LEAKAGE @ V RWMI R (µA)(3)Electrical characteristicsNOTE: 1. Suffix C denotes Bi-direction device, Suffix A denotes the V is 5% BR2. V messured with I Current pulse=300us.BRT 3.WEITRONWEITRONP P P M — P e a k P u l s e P o w e r (k W )FIG. 6 - Maximum Non-Repetitive PeakForward Surge CurrentNumber of C ycles at 60H Z11100t p — P ulse Duration (sec)T r a n s i e n t T h e r m a l I m p e d a n c e (C /W )FIG. 5 - Typical T ransient ThermalImpedance0.0010.010.11101001000I P P M — P e a k P u l s e C u r r e n t , % I R S MRatings and Characteristic CurvesSMB Outline DimensionWEITRON。

MS210扫描器操作说明第一章：概述第二章：键盘接口第三章：RS232接口第四章：终端接口第五章：光笔仿真接口第六章：设置Display VersionFactory Default第一章概述感谢您使用Unitech的产品。

扫描器的最主要的功能是可以取代键盘的输入，从而提高输入速度及准确性。

Unitech的任何一款扫描枪都可支持键盘口、USB口、RS232、光笔仿真模式。

应用时，选择不同类型的接口方式时，需选择相应的连接线及对扫描器进行相应的接口方式设置。

如果您是通过键盘口安装，扫描器支持绝大部分的主流PC及IBM终端。

键盘口的安装相当简单，且不需对相关软件和硬件进行修改。

如果您是通过RS232串口安装，则扫描器通过RS232协议发送数据，通讯的速度（波特率）可以从300bps 到38400bps进行选择，硬件及软件握手需遵循协议规定。

扫描器支持下列的条码类型：Code 39standard and Full ASCⅡ；Codabar;UPC/EAN with supplement codes; UCC/EAN 128;Interleaved 2 of 5; Code 32(Italian pharmacy);Standard 2 of 5; Code 93;MSI code; Code 128;Plessey code; Label code Ⅳand Ⅴ；China postal code (Toshiba code);第二章键盘口所谓的键盘口安装，是将扫描器连接在PC（或终端）与键盘之间（见Figure 1）。

通过键盘口将数据送到主机上，是键盘的一种延伸。

一、 安装通过下图，您可以轻松地将扫描器安装好。

首先从盒子内将“Y”型连接线取出。

安装步骤：1．确认扫描器具有正确连接系统的Y（L）的键盘接线，将RJ45插入到扫描器底部的接口；2．关掉系统电源；3．将键盘剥离系统；4．将Y（L）接头的两个接口分别接到键盘的系统，以串联的形式连接，可同时接多台；5．打开系统电源；6．如果无法连接，请您检查所有的连线是否正确。

SMBJ SERIESSURFACE MOUNT TRANSIENT VOLTAGE SUPPRESSORSPART NUMBER REVERSE BREAKDOWN BREAKDOWN TEST MAXIMUM PEAK REVERSE MARKING ADD C FOR BI- STAND-OFF VOLTAGE VOLTAGE CURRENT CLAMPING PULSE LEAKAGE CODE DIRECTIONAL VOLTAGE VBR (V) VBR (V) IT VOLTAGE CURRENT @ VRWMSee Note 1 VRWM (V) MIN. @IT MAX. @IT (mA) @Ipp Vc (V) Ipp (A) IR(A) UNI BI µSMBJ5.0(C) 5.0 6.40 7.55 10 9.6 62.5 800 KD AD SMBJ54(C) 54 60.0 76.00 1 96.3 6.2 5 ND DD SMBJ48(C) 48 53.3 67.50 1 85.5 7.0 5 MW CWSMBJ43(C) 43 47.8 60.50 1 76.7 7.8 5 MS CS SMBJ36(C) 36 40.0 50.70 1 64.3 9.3 5 MN CN SMBJ30(C) 30 33.3 42.20 1 53.5 11.2 5 MH CH SMBJ26(C) 26 28.9 36.60 1 46.6 12.4 5 MD CD SMBJ22(C) 22 24.4 30.90 1 39.4 15.2 5 LW BWSMBJ18(C) 18 20.0 25.30 1 32.2 18.6 5 LS BS SMBJ16(C) 16 17.8 22.60 1 28.8 20.8 5 LN BN SMBJ14(C) 14 15.6 19.80 1 25.8 23.3 5 LH BH SMBJ12(C) 12 13.3 16.90 1 22.0 27.3 5 LD BD SMBJ10(C) 10 11.1 14.10 1 18.8 31.9 5 KW AW SMBJ8.5(C) 8.5 9.44 11.92 1 15.9 37.7 10 KS AS SMBJ7.5(C) 7.5 8.33 10.67 1 14.3 42.0 100 KN ANSMBJ6.5(C) 6.5 7.22 9.14 10 12.3 48.7 500 KH AH SMBJ5.0(C)A 5.0 6.40 7.25 10 9.2 65.2 800 KE AE SMBJ54(C)A 54 60.0 69.00 1 87.1 6.9 5 NE DE SMBJ48(C)A 48 53.3 61.30 1 77.4 7.7 5 MX CX SMBJ43(C)A 43 47.8 54.90 1 69.4 8.6 5 MT CT SMBJ36(C)A 36 40.0 46.00 1 58.1 10.3 5 MP CP SMBJ30(C)A 30 33.3 38.30 1 48.4 12.4 5 MK CK SMBJ26(C)A 26 28.9 33.20 1 42.1 14.2 5 ME CE SMBJ22(C)A 22 24.4 28.00 1 35.5 16.9 5 LX BX SMBJ18(C)A 18 20.0 23.30 1 29.2 20.5 5 LT BT SMBJ16(C)A 16 17.8 20.50 1 26.0 23.1 5 LP BP SMBJ14(C)A 14 15.6 17.90 1 23.2 25.8 5 LK BK SMBJ12(C)A 12 13.3 15.30 1 19.9 30.2 5 LE BE SMBJ10(C)A 10 11.1 12.80 1 17.0 35.3 5 KX AX SMBJ8.5(C)A 8.5 9.44 10.82 1 14.4 41.7 10 KT AT SMBJ5.0(C)A 7.5 8.33 9.58 1 12.9 46.5 100 KP AP SMBJ6.5(C)A 6.5 7.22 8.30 10 11.2 53.6 500 KK AK SMBJ6.0(C)A 6.0 6.67 7.67 10 10.3 58.3 800 KG AD SMBJ58(C)A 58 64.4 74.10 1 93.6 6.4 5 NG DGSMBJ51(C)A 51 56.7 65.20 1 82.4 7.3 5 MZ CZ SMBJ45(C)A 45 50.0 57.50 1 72.7 8.3 5 MV CV SMBJ40(C)A 40 44.4 51.10 1 64.5 9.3 5 MR CR SMBJ33(C)A 33 36.7 42.20 1 53.3 11.3 5 MM CM SMBJ28(C)A 28 31.1 35.80 1 45.4 13.2 5 MG CG SMBJ24(C)A 24 26.7 30.70 1 38.9 15.4 5 LZ BZ SMBJ20(C)A 20 22.2 25.50 1 32.4 18.5 5 LV BV SMBJ17(C)A 17 18.9 21.70 1 27.6 21.7 5 LR BR SMBJ15(C)A 15 16.7 19.20 1 24.4 24.0 5 LM BM SMBJ13(C)A 13 14.4 16.50 1 21.5 27.9 5 LG BG SMBJ11(C)A 11 12.2 14.00 1 18.2 33.0 5 KZ AZ SMBJ9.0(C)A 9.0 10.0 11.50 1 15.4 39.0 5 KV AV SMBJ8.0(C)A 8.0 8.89 10.23 1 13.6 44.1 50 KR AR SMBJ7.0(C)A 7.0 7.78 8.95 10 12.0 50.0 200 KM AM SMBJ6.0(C) 6.0 6.67 8.45 10 11.4 52.6 800 KF AF SMBJ58(C) 58 64.4 81.60 1 103 5.8 5 NF DF SMBJ51(C) 51 56.7 71.80 1 91.1 6.6 5 MY CY SMBJ45(C) 45 50.0 63.30 1 80.3 7.5 5 MU CU SMBJ40(C) 40 44.4 56.30 1 71.4 8.4 5 MQ CQ SMBJ33(C) 33 36.7 46.50 1 59.0 10.2 5 ML CL SMBJ28(C) 28 31.1 39.40 1 50.0 12.0 5 MF CF SMBJ24(C) 24 26.7 33.80 1 43.0 14.0 5 LY BY SMBJ20(C) 20 22.2 28.10 1 35.8 16.7 5 LU BU SMBJ17(C) 17 18.9 23.90 1 30.5 19.7 5 LQ BQ SMBJ15(C) 15 16.7 21.10 1 26.9 22.3 5 LL BL SMBJ13(C) 13 14.4 18.20 1 23.8 25.2 5 LF BF SMBJ11(C) 11 12.2 15.40 1 20.1 29.9 5 KY AY SMBJ9.0(C) 9.0 10.0 12.60 1 16.9 35.5 5 KU AU SMBJ8.0(C) 8.0 8.89 11.30 1 15.0 40.0 50 KQ AQ SMBJ7.0(C) 7.0 7.78 9.86 10 13.3 45.1 200 KL ALPART NUMBER REVERSE BREAKDOWN BREAKDOWN TEST MAXIMUM PEAK REVERSE MARKING ADD C FOR BI- STAND-OFF VOLTAGE VOLTAGE CURRENT CLAMPING PULSE LEAKAGE CODE DIRECTIONAL VOLTAGE VBR (V) VBR (V) IT VOLTAGE CURRENT @ VRWMSee Note 1 VRWM (V) MIN. @IT MAX. @IT (mA) @Ipp Vc (V) Ipp (A) IR(A) UNI BI µSMBJ60(C) 60 66.7 84.5 1 107 5.6 5 NH DH SMBJ160(C) 160 178 226.0 1 287 2.1 5 PN EN SMBJ130(C) 130 144 182.5 1 231 2.6 5 PH EHSMBJ110(C) 110 154.5 1 196 3.0 5 PD ED 122 SMBJ90(C) 90 100 126.5 1 160 3.8 5 NW DW SMBJ78(C) 78 86.7 109.8 1 139 4.3 5 NS DSSMBJ70(C) 70 77.8 98.6 1 125 4.8 5 NN DN SMBJ60(C)A 60 66.7 76.7 1 96.8 6.2 5 NK DK SMBJ160(C)A 160 178 205.0 1 259 2.3 5 PP EP SMBJ130(C)A 130 144 165.5 1 209 2.9 5 PK EK SMBJ110(C)A 110 122 140.5 1 177 3.4 5 PE EE SMBJ90(C)A 90 100 115.5 1 146 4.1 5 NX DX SMBJ78(C)A 78 86.7 99.7 1 126 4.7 5 NT DT SMBJ70(C)A 70 77.8 89.5 1 113 5.3 5 NP DP SMBJ64(C)A 64 71.1 81.8 1 103 5.8 5 NM DM SMBJ170(C)A 170 189 217.5 1 275 2.2 5 PR ERSMBJ150(C)A 150 167 192.5 1 243 2.5 5 PM EM SMBJ120(C)A 120 133 153.0 1 193 3.1 5 PG EG SMBJ100(C)A 100 111 128.0 1 162 3.7 5 NZ DZ SMBJ85(C)A 85 94.4 108.2 1 137 4.4 5 NV DV SMBJ75(C)A 75 83.3 95.8 1 121 4.9 5 NR DR SMBJ64(C) 64 71.1 90.1 1 114 5.3 5 NL DL SMBJ170(C) 160 189 239.5 1 304 2.0 5 PQ EQSMBJ150(C) 150 167 211.5 1 268 2.2 5 PL ELSMBJ120(C) 120 169.0 1 214 2.8 5 PF EF 133 SMBJ100(C) 100 111 141.0 1 179 3.4 5 NY DY SMBJ85(C) 85 94.4 119.2 1 151 3.9 5 NU DU SMBJ75(C) 75 83.3 105.7 1 134 4.5 5 NQ DQ。

P6SMB11CAT3 Series600 Watt Peak Power Zener Transient Voltage Suppressors Bidirectional*The SMB series is designed to protect voltage sensitive components from high voltage, high energy transients. They have excellent clamping capability, high surge capability, low zener impedance and fast response time. The SMB series is supplied in ON Semiconductor’s exclusive, cost-effective, highly reliable Surmetic t package and is ideally suited for use in communication systems, automotive, numerical controls, process controls, medical equipment, business machines, power supplies and many other industrial/consumer applications.Features•Working Peak Reverse V oltage Range − 9.4 to 77.8 V •Standard Zener Breakdown V oltage Range − 11 to 91 V •Peak Power − 600 W @ 1 ms•ESD Rating of Class 3 (>16 KV) per Human Body Model •Maximum Clamp V oltage @ Peak Pulse Current•Low Leakage < 5 m A Above 10 V•UL 497B for Isolated Loop Circuit Protection •Response Time is Typically < 1 ns•Pb−Free Packages are AvailableMechanical Characteristics:CASE:V oid-Free, Transfer-Molded, Thermosetting Plastic FINISH:All External Surfaces are Corrosion Resistant and Leads are Readily SolderableMAXIMUM CASE TEMPERATURE FOR SOLDERING PURPOSES: 260°C for 10 SecondsLEADS:Modified L−Bend Providing More Contact Area to Bond Pads POLARITY:Polarity Band Will Not be IndicatedMOUNTING POSITION:AnyMAXIMUM RATINGSRating Symbol Value Unit Peak Power Dissipation (Note 1) @ T L = 25°C,Pulse Width = 1 msP PK600WDC Power Dissipation @ T L = 75°C Measured Zero Lead Length (Note 2) Derate Above 75°CThermal Resistance, Junction−to−LeadP DR q JL3.04025WmW/°C°C/WDC Power Dissipation (Note 3) @ T A = 25°C Derate Above 25°CThermal Resistance, Junction−to−AmbientP DR q JA0.554.4226WmW/°C°C/WOperating and Storage Temperature Range T J, Tstg−65 to+150°CStresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.1.10 X 1000 m s, non−repetitive2.1″ square copper pad, FR−4 board3.FR−4 board, using ON Semiconductor minimum recommended footprint, asshown in 403A case outline dimensions spec.*Please see P6SMB6.8AT3 to P6SMB200AT3 for Unidirectional devices.Devices listed in bold, italic are ON Semiconductor Preferred devices. Preferred devices are recommended choices for future use and best overall value.Device Package Shipping†ORDERING INFORMATIONP6SMBxxCAT3SMB2500/T ape & ReelP6SMBxxCAT3G SMB(Pb−Free)2500/T ape & Reel†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our T ape and Reel Packaging Specifications Brochure, BRD8011/D.The “T3” suffix refers to a 13 inch reel.ELECTRICAL CHARACTERISTICS(T A = 25°C unless otherwise noted)Symbol ParameterI PP Maximum Reverse Peak Pulse CurrentV C Clamping Voltage @ I PPV RWM Working Peak Reverse VoltageI R Maximum Reverse Leakage Current @ V RWMV BR Breakdown Voltage @ I TI T Test CurrentQ V BR Maximum Temperature Coefficient of V BRELECTRICAL CHARACTERISTICS (Devices listed in bold, italic are ON Semiconductor Preferred devices.)Device*DeviceMarkingV RWM(Note 4)I R@V RWMBreakdown Voltage V C @ I PP(Note 6)Q V BRC typ(Note 7)V BR Volts (Note 5)@ I T V C I PPVolts m A Min Nom Max mA Volts Amps%/°C pFP6SMB11CAT3, G P6SMB12CAT3, G P6SMB13CAT3, G 11C12C13C9.410.211.155510.511.412.411.051213.0511.612.613.711115.616.718.23836330.0750.0780.081865800740P6SMB15CAT3, G P6SMB16CAT3, G P6SMB18CAT3, G P6SMB20CAT3, G 15C16C18C20C12.813.615.317.1555514.315.217.11915.0516182015.816.818.921111121.222.525.227.7282724220.0840.0860.0880.09645610545490P6SMB22CAT3, G P6SMB24CAT3, G P6SMB27CAT3, G P6SMB30CAT3, G 22C24C27C30C18.820.523.125.6555520.922.825.728.5222427.053023.125.228.431.5111130.633.237.541.420181614.40.090.0940.0960.097450415370335P6SMB33CAT3, G P6SMB36CAT3, G P6SMB39CAT3, G P6SMB43CAT3, G 33C36C39C43C28.230.833.336.8555531.434.237.140.933.053639.0543.0534.737.84145.2111145.749.953.959.313.21211.210.10.0980.0990.10.101305280260240P6SMB47CAT3, G P6SMB51CAT3, G P6SMB56CAT3, G P6SMB62CAT3, G 47C51C56C62C40.243.647.853555544.748.553.258.947.0551.05566249.453.658.865.1111164.870.177859.38.67.87.10.1010.1020.1030.104220205185170P6SMB68CAT3, G P6SMB75CAT3, G P6SMB82CAT3, G P6SMB91CAT3, G 68C75C82C91C58.164.170.177.8555564.671.377.986.56875.05829171.478.886.195.51111921031131256.55.85.34.80.1040.1050.1050.1061551401301204. A transient suppressor is normally selected according to the working peak reverse voltage (V RWM), which should be equal to or greater thanthe DC or continuous peak operating voltage level.5.V BR measured at pulse test current I T at an ambient temperature of 25°C.6.Surge current waveform per Figure 2 and derate per Figure 3 of the General Data − 600 Watt at the beginning of this group.7.Bias Voltage = 0 V, F = 1 MHz, T J = 25°C*The “G’’ suffix indicates Pb−Free package available. Please refer back to Ordering Information on front page.P , P E A K P O W E R (k W )P 1101000.1t, TIME (ms)Figure 2. Pulse WaveformTYPICAL PROTECTION CIRCUITFigure 3. Pulse Derating CurveP E A K P U L S E D E R A T I N G I N % O F P E A K P O W E R O R C U R R E N T @ T A = 25C°T A , AMBIENT TEMPERATURE (°C)Figure 4. Typical Junction Capacitance vs. BiasVoltageBIAS VOLTAGE (VOLTS)110100C , C A P A C I T A N C E (p F )APPLICATION NOTESRESPONSE TIMEIn most applications, the transient suppressor device is placed in parallel with the equipment or component to be protected. In this situation, there is a time delay associated with the capacitance of the device and an overshoot condition associated with the inductance of the device and the inductance of the connection method. The capacitive effect is of minor importance in the parallel protection scheme because it only produces a time delay in the transition from the operating voltage to the clamp voltage as shown in Figure 4.The inductive effects in the device are due to actual turn-on time (time required for the device to go from zero current to full current) and lead inductance. This inductive effect produces an overshoot in the voltage across the equipment or component being protected as shown in Figure 5. Minimizing this overshoot is very important in the application, since the main purpose for adding a transient suppressor is to clamp voltage spikes. The SMB series have a very good response time, typically < 1 ns and negligible inductance. However, external inductive effects could produce unacceptable overshoot. Proper circuit layout, minimum lead lengths and placing the suppressor device as close as possible to the equipment or components to be protected will minimize this overshoot. Some input impedance represented by Z in is essential to prevent overstress of the protection device. This impedance should be as high as possible, without restricting the circuit operation.DUTY CYCLE DERATINGThe data of Figure 1 applies for non-repetitive conditions and at a lead temperature of 25°C. If the duty cycle increases, the peak power must be reduced as indicated by the curves of Figure 6. A verage power must be derated as the lead or ambient temperature rises above 25°C. The average power derating curve normally given on data sheets may be normalized and used for this purpose.At first glance the derating curves of Figure 6 appear to be in error as the 10 ms pulse has a higher derating factor than the 10 m s pulse. However, when the derating factor for a given pulse of Figure 6 is multiplied by the peak power value of Figure 1 for the same pulse, the results follow the expected trend.VFigure 5. Figure 6.Figure 7. Typical Derating Factor for Duty CycleD E R A T I N GF A C T O R10.70.50.30.050.10.010.020.030.07D, DUTY CYCLE (%)UL RECOGNITIONThe entire series has Underwriters Laboratory Recognition for the classification of protectors (QVGV2)under the UL standard for safety 497B and File #116110.Many competitors only have one or two devices recognized or have recognition in a non-protective category. Some competitors have no recognition at all. With the UL497B recognition, our parts successfully passed several testsincluding Strike V oltage Breakdown test, Endurance Conditioning, Temperature test, Dielectric V oltage-Withstand test, Discharge test and several more.Whereas, some competitors have only passed a flammability test for the package material, we have been recognized for much more to be included in their Protector category.PACKAGE DIMENSIONSSMBDO−214AACASE 403A−03ISSUE F*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering andMounting Techniques Reference Manual, SOLDERRM/D.SURMETIC is a trademark of Semiconductor Components Industries, LLC.ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。

SMBJ5.0(C)A - SMBJ440(C)A600W Surface Mount Transient Voltage SuppressorFeatures600W Peak Pulse Power Dissipation5.0V - 440V Standoff VoltagesGlass Passivated Die ConstructionUni- and Bi-Directional Versions AvailableExcellent Clamping CapabilityFast Response TimePlastic 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 T a = 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)Rating Symbol Value Units Peak Pulse Power Dissipation on 10/1000μs (1)waveform (Notes 1, 2, Fig. 3) P PPM Minimum 600 Watts Peak Pulse Current on 10/1000μswaveform (Note 1, Fig. 5) I PPM See T able Amps Peak forward Surge Current8.3 ms single half sine-wave superimposed onrated load ( JEDEC Method )(Notes 2, 3)Maximum Instantaneous Forward Voltage at 50A V FM See Note 3, 4 Volts Operating Junction and Storage T emperature Range T J, T STG - 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.SMBJ10CATYPE MarkingReverse BreakdownStand-Off VoltageVoltage Min. @I TBreakdownVoltage TestMax. @ I T CurrentMaximumClampingVoltage@I PPPeak ReversePulse LeakageCurrent @V RMW(Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ5.0 SMBJ5.0C KD AD 5.0 6.40 7.55 10 9.6 62.5 800.0 SMBJ5.0A SMBJ5.0CA KE AE 5.0 6.40 7.25 10 9.2 65.2 800.0 SMBJ6.0 SMBJ6.0C KF AF 6.0 6.67 8.45 10 11.4 52.6 800.0 SMBJ6.0A SMBJ6.0CA KG AG 6.0 6.67 7.67 10 10.3 58.3 800.0 SMBJ6.5 SMBJ6.5C KH AH 6.5 7.22 9.14 10 12.3 48.8 500.0 SMBJ6.5A SMBJ6.5CA KK AK 6.5 7.22 8.30 10 11.2 53.6 500.0 SMBJ7.0 SMBJ7.0C KL AL 7.0 7.78 9.86 10 13.3 45.1 200.0 SMBJ7.0A SMBJ7.0CA KM AM 7.0 7.78 8.95 10 12.0 50.0 200.0 SMBJ7.5 SMBJ7.5C KN AN 7.5 8.33 10.67 1.0 14.3 42.0 100.0 SMBJ7.5A SMBJ7.5CA KP AP 7.5 8.33 9.58 1.0 12.9 46.5 100.0 SMBJ8.0 SMBJ8.0C KQ AQ 8.0 8.89 11.3 1.0 15.0 40.0 50.0 SMBJ8.0A SMBJ8.0CA KR AR 8.0 8.89 10.23 1.0 13.6 44.1 50.0 SMBJ8.5 SMBJ8.5C KS AS 8.5 9.44 11.92 1.0 15.9 37.7 20.0 SMBJ8.5A SMBJ8.5CA KT AT 8.5 9.44 10.82 1.0 14.4 41.7 20.0 SMBJ9.0 SMBJ9.0C KU AU 9.0 10.0 12.6 1.0 16.9 35.5 10.0 SMBJ9.0A SMBJ9.0CA KV AV 9.0 10.0 11.5 1.0 15.4 39.0 10.0 SMBJ10 SMBJ10C KW AW 10 11.1 14.1 1.0 18.8 31.9 5.0 SMBJ10A SMBJ10CA KX AX 10 11.1 12.8 1.0 17.0 35.3 5.0 SMBJ11 SMBJ11C KY AY 11 12.2 15.4 1.0 20.1 29.9 5.0 SMBJ11A SMBJ11CA KZ AZ 11 12.2 14.0 1.0 18.2 33.0 5.0 SMBJ12 SMBJ12C LD BD 12 13.3 16.9 1.0 22.0 27.3 5.0 SMBJ12A SMBJ12CA LE BE 12 13.3 15.3 1.0 19.9 30.2 5.0 SMBJ13 SMBJ13C LF BF 13 14.4 18.2 1.0 23.8 25.2 5.0 SMBJ13A SMBJ13CA LG BG 13 14.4 16.5 1.0 21.5 27.9 5.0 SMBJ14 SMBJ14C LH BH 14 15.6 19.8 1.0 25.8 23.3 5.0 SMBJ14A SMBJ14CA LK BK 14 15.6 17.9 1.0 23.2 25.9 5.0 SMBJ15 SMBJ15C LL BL 15 16.7 21.1 1.0 26.9 22.3 5.0 SMBJ15A SMBJ15CA LM BM 15 16.7 19.2 1.0 24.4 24.6 5.0 SMBJ16 SMBJ16C LN BN 16 17.8 22.6 1.0 28.8 20.8 5.0 SMBJ16A SMBJ16CA LP BP 16 17.8 20.5 1.0 26.0 23.1 5.0 SMBJ17 SMBJ17C LQ BQ 17 18.9 23.9 1.0 30.5 19.7 5.0 SMBJ17A SMBJ17CA LR BR 17 18.9 21.7 1.0 27.6 21.7 5.0 SMBJ18 SMBJ18C LS BS 18 20.0 25.3 1.0 32.2 18.6 5.0 SMBJ18A SMBJ18CA LT BT 18 20.0 23.3 1.0 29.2 20.5 5.0 SMBJ20 SMBJ20C LU BU 20 22.2 28.1 1.0 35.8 16.8 5.0 SMBJ20A SMBJ20CA LV BV 20 22.2 25.5 1.0 32.4 18.5 5.0 SMBJ22 SMBJ22C LW BW 22 24.4 30.9 1.0 39.4 15.2 5.0 SMBJ22A SMBJ22CA LX BX 22 24.4 28.0 1.0 35.5 16.9 5.0 SMBJ24 SMBJ24C LY BY 24 26.7 33.8 1.0 43.0 14.0 5.0 SMBJ24A SMBJ24CA LZ BZ 24 26.7 30.7 1.0 38.9 15.4 5.0 SMBJ26 SMBJ26C MD CD 26 28.9 36.6 1.0 46.6 12.9 5.0 SMBJ26A SMBJ26CA ME CE 26 28.9 33.2 1.0 42.1 14.3 5.0 SMBJ28 SMBJ28C MF CF 28 31.1 39.4 1.0 50.0 12.0 5.0 SMBJ28A SMBJ28CA MG CG 28 31.1 35.8 1.0 45.4 13.2 5.0 Note:( 1 ) V BR measured after I T applied for 300 s., I T = 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 beequal to or greater then the D.C. or continuous peak operating voltage level.SMBJ10CAReverse Breakdown Breakdown Maximum Peak Reverse TYPE Marking Stand-Off Voltage Voltage Test Clamping Pulse LeakageVoltage Min. @I T Max. @ I T Current Voltage @I PP Current @V RMW (Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ30 SMBJ30C MH CH 30 33.3 42.2 1.0 53.5 11.2 5.0 SMBJ30A SMBJ30CA MK CK 30 33.3 38.3 1.0 48.4 12.4 5.0 SMBJ33 SMBJ33C ML CL 33 36.7 46.5 1.0 59.0 10.2 5.0 SMBJ33A SMBJ33CA MM CM 33 36.7 42.2 1.0 53.3 11.3 5.0 SMBJ36 SMBJ36C MN CN 36 40.0 50.7 1.0 64.3 9.3 5.0 SMBJ36A SMBJ36CA MP CP 36 40.0 46.0 1.0 58.1 10.3 5.0 SMBJ40 SMBJ40C MQ CQ 40 44.4 56.3 1.0 71.4 8.4 5.0 SMBJ40A SMBJ40CA MR CR 40 44.4 51.1 1.0 64.5 9.3 5.0 SMBJ43A SMBJ43CA MT CT 43 47.8 54.9 1.0 69.4 8.6 5.0 SMBJ45 SMBJ45C MU CU 45 50.0 63.3 1.0 80.3 7.5 5.0 SMBJ45A SMBJ45CA MV CV 45 50.0 57.5 1.0 72.7 8.3 5.0 SMBJ48 SMBJ48C MW CW 48 53.3 67.5 1.0 85.5 7.0 5.0 SMBJ48A SMBJ48CA MX CX 48 53.3 61.3 1.0 77.4 7.8 5.0 SMBJ51 SMBJ51C MY CY 51 56.7 71.8 1.0 91.1 6.6 5.0 SMBJ51A SMBJ51CA MZ CZ 51 56.7 65.2 1.0 82.4 7.3 5.0 SMBJ54 SMBJ54C ND DD 54 60.0 76.0 1.0 96.3 6.2 5.0 SMBJ54A SMBJ54CA NE DE 54 60.0 69.0 1.0 87.1 6.9 5.0 SMBJ58 SMBJ58C NF DF 58 64.4 81.6 1.0 103 5.8 5.0 SMBJ58A SMBJ58CA NG DG 58 64.4 74.1 1.0 93.6 6.4 5.0 SMBJ60 SMBJ60C NH DH 60 66.7 84.5 1.0 107 5.6 5.0 SMBJ60A SMBJ60CA NK DK 60 66.7 76.7 1.0 96.8 6.2 5.0 SMBJ64 SMBJ64C NL DL 64 71.1 90.1 1.0 114 5.3 5.0 SMBJ64A SMBJ64CA NM DM 64 71.1 81.8 1.0 103 5.8 5.0 SMBJ70 SMBJ70C NN DN 70 77.8 98.6 1.0 125 4.8 5.0 SMBJ70A SMBJ70CA NP DP 70 77.8 89.5 1.0 113 5.3 5.0 SMBJ75 SMBJ75C NQ DQ 75 83.0 105.7 1.0 134 4.5 5.0 SMBJ75A SMBJ75CA NR DR 75 83.0 95.8 1.0 121 5.0 5.0 SMBJ90 SMBJ90C NW DW 90 100 126.5 1.0 160 3.8 5.0 SMBJ90A SMBJ90CA NX DX 90 100 115.5 1.0 146 4.1 5.0 SMBJ100 SMBJ100C NY DY 100 111 141.0 1.0 179 3.4 5.0 SMBJ100A SMBJ100CA NZ DZ 100 111 128.0 1.0 162 3.7 5.0 SMBJ110 SMBJ110C PD ED 110 122 154.5 1.0 196 3.1 5.0 SMBJ110A SMBJ110CA PE EE 100 122 140.5 1.0 177 3.4 5.0 SMBJ120 SMBJ120C PF EF 120 133 169.0 1.0 214 2.8 5.0 SMBJ120A SMBJ120CA PG EG 120 133 153.0 1.0 193 3.1 5.0 SMBJ130 SMBJ130C PH EH 130 144 182.5 1.0 231 2.6 5.0 SMBJ130A SMBJ130CA PK EK 130 144 165.5 1.0 209 2.9 5.0 SMBJ150 SMBJ150C PL EL 150 167 211.5 1.0 268 2.2 5.0 SMBJ150A SMBJ150CA PM EM 150 167 192.5 1.0 243 2.5 5.0 SMBJ160 SMBJ160C PN EN 160 178 226.0 1.0 287 2.1 5.0 SMBJ160A SMBJ160CA PP EP 160 178 205.0 1.0 259 2.3 5.0 Note:( 1 ) V BR measured after I T applied for 300 s., I T = 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 beequal to or greater then the D.C. or continuous peak operating voltage level.SMBJ10CATYPE MarkingReverse BreakdownStand-Off VoltageVoltage Min. @I TBreakdownVoltage TestMax. @ I T CurrentMaximumClampingVoltage@I PPPeak ReversePulse LeakageCurrent @V RMW(Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ170 SMBJ170C PQ EQ 170 189 239.5 1.0 304 2.0 5.0 SMBJ170A SMBJ170CA PR ER 170 189 217.5 1.0 275 2.2 5.0 SMBJ180 SMBJ180C PS ES 180 200 253.8 1.0 321 1.9 5.0 SMBJ180A SMBJ180CA PT ET 180 200 230.4 1.0 290 2.1 5.0 SMBJ190 SMBJ190C PU EU 190 211 267.9 1.0 339 1.8 5.0 SMBJ190A SMBJ190CA PV EV 190 211 243.2 1.0 306 2.0 5.0 SMBJ200 SMBJ200C PW EW 200 222 282.0 1.0 356 1.7 5.0 SMBJ200A SMBJ200CA PX EX 200 222 256.0 1.0 322 1.9 5.0 SMBJ210 SMBJ210C PY EY 210 233 296.1 1.0 375 1.6 5.0 SMBJ210A SMBJ210CA PZ EZ 210 233 268.8 1.0 339 1.8 5.0 SMBJ220 SMBJ220C QD FD 220 244 310.2 1.0 392 1.5 5.0 SMBJ220A SMBJ220CA QE FE 220 244 281.6 1.0 355 1.7 5.0 SMBJ250 SMBJ250C QF FF 250 278 342.5 1.0 447 1.3 5.0 SMBJ250A SMBJ250CA QG FG 250 278 309.0 1.0 403 1.5 5.0 SMBJ300 SMBJ300C QH FH 300 333 411.0 1.0 535 1.1 5.0 SMBJ300A SMBJ300CA QK FK 300 333 371.0 1.0 484 1.2 5.0 SMBJ350 SMBJ350C QL FL 350 389 479.5 1.0 624 1.0 5.0 SMBJ350A SMBJ350CA QM FM 350 389 432.0 1.0 565 1.1 5.0 SMBJ400 SMBJ400C QN FN 400 444 548.0 1.0 687 0.9 5.0 SMBJ400A SMBJ400CA QP FP 400 444 494.0 1.0 645 0.9 5.0 SMBJ440 SMBJ440C QQ FQ 440 489 602.8 1.0 786 0.8 5.0 SMBJ440A SMBJ440CA QR FR 440 489 543.0 1.0 710 0.8 5.0SMBJ10CARatings and Characteristic Curves T A =25癈 unless otherwise notedSMBJ10CA。

SMBJ5.0(C)A - SMBJ440(C)A600W Surface Mount Transient Voltage SuppressorFeatures600W Peak Pulse Power Dissipation5.0V - 440V Standoff VoltagesGlass Passivated Die ConstructionUni- and Bi-Directional Versions AvailableExcellent Clamping CapabilityFast Response TimePlastic 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 T a = 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)Rating Symbol Value Units Peak Pulse Power Dissipation on 10/1000μs (1)waveform (Notes 1, 2, Fig. 3) P PPM Minimum 600 Watts Peak Pulse Current on 10/1000μswaveform (Note 1, Fig. 5) I PPM See T able Amps Peak forward Surge Current8.3 ms single half sine-wave superimposed onrated load ( JEDEC Method )(Notes 2, 3)Maximum Instantaneous Forward Voltage at 50A V FM See Note 3, 4 Volts Operating Junction and Storage T emperature Range T J, T STG - 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.A2TYPE MarkingReverse BreakdownStand-Off VoltageVoltage Min. @I TBreakdownVoltage TestMax. @ I T CurrentMaximumClampingVoltage@I PPPeak ReversePulse LeakageCurrent @V RMW(Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ5.0 SMBJ5.0C KD AD 5.0 6.40 7.55 10 9.6 62.5 800.0 SMBJ5.0A SMBJ5.0CA KE AE 5.0 6.40 7.25 10 9.2 65.2 800.0 SMBJ6.0 SMBJ6.0C KF AF 6.0 6.67 8.45 10 11.4 52.6 800.0 SMBJ6.0A SMBJ6.0CA KG AG 6.0 6.67 7.67 10 10.3 58.3 800.0 SMBJ6.5 SMBJ6.5C KH AH 6.5 7.22 9.14 10 12.3 48.8 500.0 SMBJ6.5A SMBJ6.5CA KK AK 6.5 7.22 8.30 10 11.2 53.6 500.0 SMBJ7.0 SMBJ7.0C KL AL 7.0 7.78 9.86 10 13.3 45.1 200.0 SMBJ7.0A SMBJ7.0CA KM AM 7.0 7.78 8.95 10 12.0 50.0 200.0 SMBJ7.5 SMBJ7.5C KN AN 7.5 8.33 10.67 1.0 14.3 42.0 100.0 SMBJ7.5A SMBJ7.5CA KP AP 7.5 8.33 9.58 1.0 12.9 46.5 100.0 SMBJ8.0 SMBJ8.0C KQ AQ 8.0 8.89 11.3 1.0 15.0 40.0 50.0 SMBJ8.0A SMBJ8.0CA KR AR 8.0 8.89 10.23 1.0 13.6 44.1 50.0 SMBJ8.5 SMBJ8.5C KS AS 8.5 9.44 11.92 1.0 15.9 37.7 20.0 SMBJ8.5A SMBJ8.5CA KT AT 8.5 9.44 10.82 1.0 14.4 41.7 20.0 SMBJ9.0 SMBJ9.0C KU AU 9.0 10.0 12.6 1.0 16.9 35.5 10.0 SMBJ9.0A SMBJ9.0CA KV AV 9.0 10.0 11.5 1.0 15.4 39.0 10.0 SMBJ10 SMBJ10C KW AW 10 11.1 14.1 1.0 18.8 31.9 5.0 SMBJ10A SMBJ10CA KX AX 10 11.1 12.8 1.0 17.0 35.3 5.0 SMBJ11 SMBJ11C KY AY 11 12.2 15.4 1.0 20.1 29.9 5.0 SMBJ11A SMBJ11CA KZ AZ 11 12.2 14.0 1.0 18.2 33.0 5.0 SMBJ12 SMBJ12C LD BD 12 13.3 16.9 1.0 22.0 27.3 5.0 SMBJ12A SMBJ12CA LE BE 12 13.3 15.3 1.0 19.9 30.2 5.0 SMBJ13 SMBJ13C LF BF 13 14.4 18.2 1.0 23.8 25.2 5.0 SMBJ13A SMBJ13CA LG BG 13 14.4 16.5 1.0 21.5 27.9 5.0 SMBJ14 SMBJ14C LH BH 14 15.6 19.8 1.0 25.8 23.3 5.0 SMBJ14A SMBJ14CA LK BK 14 15.6 17.9 1.0 23.2 25.9 5.0 SMBJ15 SMBJ15C LL BL 15 16.7 21.1 1.0 26.9 22.3 5.0 SMBJ15A SMBJ15CA LM BM 15 16.7 19.2 1.0 24.4 24.6 5.0 SMBJ16 SMBJ16C LN BN 16 17.8 22.6 1.0 28.8 20.8 5.0 SMBJ16A SMBJ16CA LP BP 16 17.8 20.5 1.0 26.0 23.1 5.0 SMBJ17 SMBJ17C LQ BQ 17 18.9 23.9 1.0 30.5 19.7 5.0 SMBJ17A SMBJ17CA LR BR 17 18.9 21.7 1.0 27.6 21.7 5.0 SMBJ18 SMBJ18C LS BS 18 20.0 25.3 1.0 32.2 18.6 5.0 SMBJ18A SMBJ18CA LT BT 18 20.0 23.3 1.0 29.2 20.5 5.0 SMBJ20 SMBJ20C LU BU 20 22.2 28.1 1.0 35.8 16.8 5.0 SMBJ20A SMBJ20CA LV BV 20 22.2 25.5 1.0 32.4 18.5 5.0 SMBJ22 SMBJ22C LW BW 22 24.4 30.9 1.0 39.4 15.2 5.0 SMBJ22A SMBJ22CA LX BX 22 24.4 28.0 1.0 35.5 16.9 5.0 SMBJ24 SMBJ24C LY BY 24 26.7 33.8 1.0 43.0 14.0 5.0 SMBJ24A SMBJ24CA LZ BZ 24 26.7 30.7 1.0 38.9 15.4 5.0 SMBJ26 SMBJ26C MD CD 26 28.9 36.6 1.0 46.6 12.9 5.0 SMBJ26A SMBJ26CA ME CE 26 28.9 33.2 1.0 42.1 14.3 5.0 SMBJ28 SMBJ28C MF CF 28 31.1 39.4 1.0 50.0 12.0 5.0 SMBJ28A SMBJ28CA MG CG 28 31.1 35.8 1.0 45.4 13.2 5.0 Note:( 1 ) V BR measured after I T applied for 300 s., I T = 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 beequal to or greater then the D.C. or continuous peak operating voltage level.2 of 5Reverse Breakdown Breakdown Maximum Peak Reverse TYPE Marking Stand-Off Voltage Voltage Test Clamping Pulse LeakageVoltage Min. @I T Max. @ I T Current Voltage @I PP Current @V RMW (Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ30 SMBJ30C MH CH 30 33.3 42.2 1.0 53.5 11.2 5.0 SMBJ30A SMBJ30CA MK CK 30 33.3 38.3 1.0 48.4 12.4 5.0 SMBJ33 SMBJ33C ML CL 33 36.7 46.5 1.0 59.0 10.2 5.0 SMBJ33A SMBJ33CA MM CM 33 36.7 42.2 1.0 53.3 11.3 5.0 SMBJ36 SMBJ36C MN CN 36 40.0 50.7 1.0 64.3 9.3 5.0 SMBJ36A SMBJ36CA MP CP 36 40.0 46.0 1.0 58.1 10.3 5.0 SMBJ40 SMBJ40C MQ CQ 40 44.4 56.3 1.0 71.4 8.4 5.0 SMBJ40A SMBJ40CA MR CR 40 44.4 51.1 1.0 64.5 9.3 5.0 SMBJ43A SMBJ43CA MT CT 43 47.8 54.9 1.0 69.4 8.6 5.0 SMBJ45 SMBJ45C MU CU 45 50.0 63.3 1.0 80.3 7.5 5.0 SMBJ45A SMBJ45CA MV CV 45 50.0 57.5 1.0 72.7 8.3 5.0 SMBJ48 SMBJ48C MW CW 48 53.3 67.5 1.0 85.5 7.0 5.0 SMBJ48A SMBJ48CA MX CX 48 53.3 61.3 1.0 77.4 7.8 5.0 SMBJ51 SMBJ51C MY CY 51 56.7 71.8 1.0 91.1 6.6 5.0 SMBJ51A SMBJ51CA MZ CZ 51 56.7 65.2 1.0 82.4 7.3 5.0 SMBJ54 SMBJ54C ND DD 54 60.0 76.0 1.0 96.3 6.2 5.0 SMBJ54A SMBJ54CA NE DE 54 60.0 69.0 1.0 87.1 6.9 5.0 SMBJ58 SMBJ58C NF DF 58 64.4 81.6 1.0 103 5.8 5.0 SMBJ58A SMBJ58CA NG DG 58 64.4 74.1 1.0 93.6 6.4 5.0 SMBJ60 SMBJ60C NH DH 60 66.7 84.5 1.0 107 5.6 5.0 SMBJ60A SMBJ60CA NK DK 60 66.7 76.7 1.0 96.8 6.2 5.0 SMBJ64 SMBJ64C NL DL 64 71.1 90.1 1.0 114 5.3 5.0 SMBJ64A SMBJ64CA NM DM 64 71.1 81.8 1.0 103 5.8 5.0 SMBJ70 SMBJ70C NN DN 70 77.8 98.6 1.0 125 4.8 5.0 SMBJ70A SMBJ70CA NP DP 70 77.8 89.5 1.0 113 5.3 5.0 SMBJ75 SMBJ75C NQ DQ 75 83.0 105.7 1.0 134 4.5 5.0 SMBJ75A SMBJ75CA NR DR 75 83.0 95.8 1.0 121 5.0 5.0 SMBJ90 SMBJ90C NW DW 90 100 126.5 1.0 160 3.8 5.0 SMBJ90A SMBJ90CA NX DX 90 100 115.5 1.0 146 4.1 5.0 SMBJ100 SMBJ100C NY DY 100 111 141.0 1.0 179 3.4 5.0 SMBJ100A SMBJ100CA NZ DZ 100 111 128.0 1.0 162 3.7 5.0 SMBJ110 SMBJ110C PD ED 110 122 154.5 1.0 196 3.1 5.0 SMBJ110A SMBJ110CA PE EE 100 122 140.5 1.0 177 3.4 5.0 SMBJ120 SMBJ120C PF EF 120 133 169.0 1.0 214 2.8 5.0 SMBJ120A SMBJ120CA PG EG 120 133 153.0 1.0 193 3.1 5.0 SMBJ130 SMBJ130C PH EH 130 144 182.5 1.0 231 2.6 5.0 SMBJ130A SMBJ130CA PK EK 130 144 165.5 1.0 209 2.9 5.0 SMBJ150 SMBJ150C PL EL 150 167 211.5 1.0 268 2.2 5.0 SMBJ150A SMBJ150CA PM EM 150 167 192.5 1.0 243 2.5 5.0 SMBJ160 SMBJ160C PN EN 160 178 226.0 1.0 287 2.1 5.0 SMBJ160A SMBJ160CA PP EP 160 178 205.0 1.0 259 2.3 5.0 Note:( 1 ) V BR measured after I T applied for 300 s., I T = 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 beequal to or greater then the D.C. or continuous peak operating voltage level.A3TYPE MarkingReverse BreakdownStand-Off VoltageVoltage Min. @I TBreakdownVoltage TestMax. @ I T CurrentMaximumClampingVoltage@I PPPeak ReversePulse LeakageCurrent @V RMW(Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ170 SMBJ170C PQ EQ 170 189 239.5 1.0 304 2.0 5.0 SMBJ170A SMBJ170CA PR ER 170 189 217.5 1.0 275 2.2 5.0 SMBJ180 SMBJ180C PS ES 180 200 253.8 1.0 321 1.9 5.0 SMBJ180A SMBJ180CA PT ET 180 200 230.4 1.0 290 2.1 5.0 SMBJ190 SMBJ190C PU EU 190 211 267.9 1.0 339 1.8 5.0 SMBJ190A SMBJ190CA PV EV 190 211 243.2 1.0 306 2.0 5.0 SMBJ200 SMBJ200C PW EW 200 222 282.0 1.0 356 1.7 5.0 SMBJ200A SMBJ200CA PX EX 200 222 256.0 1.0 322 1.9 5.0 SMBJ210 SMBJ210C PY EY 210 233 296.1 1.0 375 1.6 5.0 SMBJ210A SMBJ210CA PZ EZ 210 233 268.8 1.0 339 1.8 5.0 SMBJ220 SMBJ220C QD FD 220 244 310.2 1.0 392 1.5 5.0 SMBJ220A SMBJ220CA QE FE 220 244 281.6 1.0 355 1.7 5.0 SMBJ250 SMBJ250C QF FF 250 278 342.5 1.0 447 1.3 5.0 SMBJ250A SMBJ250CA QG FG 250 278 309.0 1.0 403 1.5 5.0 SMBJ300 SMBJ300C QH FH 300 333 411.0 1.0 535 1.1 5.0 SMBJ300A SMBJ300CA QK FK 300 333 371.0 1.0 484 1.2 5.0 SMBJ350 SMBJ350C QL FL 350 389 479.5 1.0 624 1.0 5.0 SMBJ350A SMBJ350CA QM FM 350 389 432.0 1.0 565 1.1 5.0 SMBJ400 SMBJ400C QN FN 400 444 548.0 1.0 687 0.9 5.0 SMBJ400A SMBJ400CA QP FP 400 444 494.0 1.0 645 0.9 5.0 SMBJ440 SMBJ440C QQ FQ 440 489 602.8 1.0 786 0.8 5.0 SMBJ440A SMBJ440CA QR FR 440 489 543.0 1.0 710 0.8 5.0A4Ratings and Characteristic Curves T A =25癈 unless otherwise notedA5。

SMBJ5.0(C)A - SMBJ440(C)A600W Surface Mount Transient Voltage SuppressorFeatures600W Peak Pulse Power Dissipation5.0V - 440V Standoff VoltagesGlass Passivated Die ConstructionUni- and Bi-Directional Versions AvailableExcellent Clamping CapabilityFast Response TimePlastic 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 T a = 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)Rating Symbol Value Units Peak Pulse Power Dissipation on 10/1000μs (1)waveform (Notes 1, 2, Fig. 3) P PPM Minimum 600 Watts Peak Pulse Current on 10/1000μswaveform (Note 1, Fig. 5) I PPM See T able Amps Peak forward Surge Current8.3 ms single half sine-wave superimposed onrated load ( JEDEC Method )(Notes 2, 3)Maximum Instantaneous Forward Voltage at 50A V FM See Note 3, 4 Volts Operating Junction and Storage T emperature Range T J, T STG - 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.SMBJ6.0CATYPE MarkingReverse BreakdownStand-Off VoltageVoltage Min. @I TBreakdownVoltage TestMax. @ I T CurrentMaximumClampingVoltage@I PPPeak ReversePulse LeakageCurrent @V RMW(Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ5.0 SMBJ5.0C KD AD 5.0 6.40 7.55 10 9.6 62.5 800.0 SMBJ5.0A SMBJ5.0CA KE AE 5.0 6.40 7.25 10 9.2 65.2 800.0 SMBJ6.0 SMBJ6.0C KF AF 6.0 6.67 8.45 10 11.4 52.6 800.0 SMBJ6.0A SMBJ6.0CA KG AG 6.0 6.67 7.67 10 10.3 58.3 800.0 SMBJ6.5 SMBJ6.5C KH AH 6.5 7.22 9.14 10 12.3 48.8 500.0 SMBJ6.5A SMBJ6.5CA KK AK 6.5 7.22 8.30 10 11.2 53.6 500.0 SMBJ7.0 SMBJ7.0C KL AL 7.0 7.78 9.86 10 13.3 45.1 200.0 SMBJ7.0A SMBJ7.0CA KM AM 7.0 7.78 8.95 10 12.0 50.0 200.0 SMBJ7.5 SMBJ7.5C KN AN 7.5 8.33 10.67 1.0 14.3 42.0 100.0 SMBJ7.5A SMBJ7.5CA KP AP 7.5 8.33 9.58 1.0 12.9 46.5 100.0 SMBJ8.0 SMBJ8.0C KQ AQ 8.0 8.89 11.3 1.0 15.0 40.0 50.0 SMBJ8.0A SMBJ8.0CA KR AR 8.0 8.89 10.23 1.0 13.6 44.1 50.0 SMBJ8.5 SMBJ8.5C KS AS 8.5 9.44 11.92 1.0 15.9 37.7 20.0 SMBJ8.5A SMBJ8.5CA KT AT 8.5 9.44 10.82 1.0 14.4 41.7 20.0 SMBJ9.0 SMBJ9.0C KU AU 9.0 10.0 12.6 1.0 16.9 35.5 10.0 SMBJ9.0A SMBJ9.0CA KV AV 9.0 10.0 11.5 1.0 15.4 39.0 10.0 SMBJ10 SMBJ10C KW AW 10 11.1 14.1 1.0 18.8 31.9 5.0 SMBJ10A SMBJ10CA KX AX 10 11.1 12.8 1.0 17.0 35.3 5.0 SMBJ11 SMBJ11C KY AY 11 12.2 15.4 1.0 20.1 29.9 5.0 SMBJ11A SMBJ11CA KZ AZ 11 12.2 14.0 1.0 18.2 33.0 5.0 SMBJ12 SMBJ12C LD BD 12 13.3 16.9 1.0 22.0 27.3 5.0 SMBJ12A SMBJ12CA LE BE 12 13.3 15.3 1.0 19.9 30.2 5.0 SMBJ13 SMBJ13C LF BF 13 14.4 18.2 1.0 23.8 25.2 5.0 SMBJ13A SMBJ13CA LG BG 13 14.4 16.5 1.0 21.5 27.9 5.0 SMBJ14 SMBJ14C LH BH 14 15.6 19.8 1.0 25.8 23.3 5.0 SMBJ14A SMBJ14CA LK BK 14 15.6 17.9 1.0 23.2 25.9 5.0 SMBJ15 SMBJ15C LL BL 15 16.7 21.1 1.0 26.9 22.3 5.0 SMBJ15A SMBJ15CA LM BM 15 16.7 19.2 1.0 24.4 24.6 5.0 SMBJ16 SMBJ16C LN BN 16 17.8 22.6 1.0 28.8 20.8 5.0 SMBJ16A SMBJ16CA LP BP 16 17.8 20.5 1.0 26.0 23.1 5.0 SMBJ17 SMBJ17C LQ BQ 17 18.9 23.9 1.0 30.5 19.7 5.0 SMBJ17A SMBJ17CA LR BR 17 18.9 21.7 1.0 27.6 21.7 5.0 SMBJ18 SMBJ18C LS BS 18 20.0 25.3 1.0 32.2 18.6 5.0 SMBJ18A SMBJ18CA LT BT 18 20.0 23.3 1.0 29.2 20.5 5.0 SMBJ20 SMBJ20C LU BU 20 22.2 28.1 1.0 35.8 16.8 5.0 SMBJ20A SMBJ20CA LV BV 20 22.2 25.5 1.0 32.4 18.5 5.0 SMBJ22 SMBJ22C LW BW 22 24.4 30.9 1.0 39.4 15.2 5.0 SMBJ22A SMBJ22CA LX BX 22 24.4 28.0 1.0 35.5 16.9 5.0 SMBJ24 SMBJ24C LY BY 24 26.7 33.8 1.0 43.0 14.0 5.0 SMBJ24A SMBJ24CA LZ BZ 24 26.7 30.7 1.0 38.9 15.4 5.0 SMBJ26 SMBJ26C MD CD 26 28.9 36.6 1.0 46.6 12.9 5.0 SMBJ26A SMBJ26CA ME CE 26 28.9 33.2 1.0 42.1 14.3 5.0 SMBJ28 SMBJ28C MF CF 28 31.1 39.4 1.0 50.0 12.0 5.0 SMBJ28A SMBJ28CA MG CG 28 31.1 35.8 1.0 45.4 13.2 5.0 Note:( 1 ) V BR measured after I T applied for 300 s., I T = 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 beequal to or greater then the D.C. or continuous peak operating voltage level.SMBJ6.0CAReverse Breakdown Breakdown Maximum Peak Reverse TYPE Marking Stand-Off Voltage Voltage Test Clamping Pulse LeakageVoltage Min. @I T Max. @ I T Current Voltage @I PP Current @V RMW (Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ30 SMBJ30C MH CH 30 33.3 42.2 1.0 53.5 11.2 5.0 SMBJ30A SMBJ30CA MK CK 30 33.3 38.3 1.0 48.4 12.4 5.0 SMBJ33 SMBJ33C ML CL 33 36.7 46.5 1.0 59.0 10.2 5.0 SMBJ33A SMBJ33CA MM CM 33 36.7 42.2 1.0 53.3 11.3 5.0 SMBJ36 SMBJ36C MN CN 36 40.0 50.7 1.0 64.3 9.3 5.0 SMBJ36A SMBJ36CA MP CP 36 40.0 46.0 1.0 58.1 10.3 5.0 SMBJ40 SMBJ40C MQ CQ 40 44.4 56.3 1.0 71.4 8.4 5.0 SMBJ40A SMBJ40CA MR CR 40 44.4 51.1 1.0 64.5 9.3 5.0 SMBJ43A SMBJ43CA MT CT 43 47.8 54.9 1.0 69.4 8.6 5.0 SMBJ45 SMBJ45C MU CU 45 50.0 63.3 1.0 80.3 7.5 5.0 SMBJ45A SMBJ45CA MV CV 45 50.0 57.5 1.0 72.7 8.3 5.0 SMBJ48 SMBJ48C MW CW 48 53.3 67.5 1.0 85.5 7.0 5.0 SMBJ48A SMBJ48CA MX CX 48 53.3 61.3 1.0 77.4 7.8 5.0 SMBJ51 SMBJ51C MY CY 51 56.7 71.8 1.0 91.1 6.6 5.0 SMBJ51A SMBJ51CA MZ CZ 51 56.7 65.2 1.0 82.4 7.3 5.0 SMBJ54 SMBJ54C ND DD 54 60.0 76.0 1.0 96.3 6.2 5.0 SMBJ54A SMBJ54CA NE DE 54 60.0 69.0 1.0 87.1 6.9 5.0 SMBJ58 SMBJ58C NF DF 58 64.4 81.6 1.0 103 5.8 5.0 SMBJ58A SMBJ58CA NG DG 58 64.4 74.1 1.0 93.6 6.4 5.0 SMBJ60 SMBJ60C NH DH 60 66.7 84.5 1.0 107 5.6 5.0 SMBJ60A SMBJ60CA NK DK 60 66.7 76.7 1.0 96.8 6.2 5.0 SMBJ64 SMBJ64C NL DL 64 71.1 90.1 1.0 114 5.3 5.0 SMBJ64A SMBJ64CA NM DM 64 71.1 81.8 1.0 103 5.8 5.0 SMBJ70 SMBJ70C NN DN 70 77.8 98.6 1.0 125 4.8 5.0 SMBJ70A SMBJ70CA NP DP 70 77.8 89.5 1.0 113 5.3 5.0 SMBJ75 SMBJ75C NQ DQ 75 83.0 105.7 1.0 134 4.5 5.0 SMBJ75A SMBJ75CA NR DR 75 83.0 95.8 1.0 121 5.0 5.0 SMBJ90 SMBJ90C NW DW 90 100 126.5 1.0 160 3.8 5.0 SMBJ90A SMBJ90CA NX DX 90 100 115.5 1.0 146 4.1 5.0 SMBJ100 SMBJ100C NY DY 100 111 141.0 1.0 179 3.4 5.0 SMBJ100A SMBJ100CA NZ DZ 100 111 128.0 1.0 162 3.7 5.0 SMBJ110 SMBJ110C PD ED 110 122 154.5 1.0 196 3.1 5.0 SMBJ110A SMBJ110CA PE EE 100 122 140.5 1.0 177 3.4 5.0 SMBJ120 SMBJ120C PF EF 120 133 169.0 1.0 214 2.8 5.0 SMBJ120A SMBJ120CA PG EG 120 133 153.0 1.0 193 3.1 5.0 SMBJ130 SMBJ130C PH EH 130 144 182.5 1.0 231 2.6 5.0 SMBJ130A SMBJ130CA PK EK 130 144 165.5 1.0 209 2.9 5.0 SMBJ150 SMBJ150C PL EL 150 167 211.5 1.0 268 2.2 5.0 SMBJ150A SMBJ150CA PM EM 150 167 192.5 1.0 243 2.5 5.0 SMBJ160 SMBJ160C PN EN 160 178 226.0 1.0 287 2.1 5.0 SMBJ160A SMBJ160CA PP EP 160 178 205.0 1.0 259 2.3 5.0 Note:( 1 ) V BR measured after I T applied for 300 s., I T = 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 beequal to or greater then the D.C. or continuous peak operating voltage level.SMBJ6.0CATYPE MarkingReverse BreakdownStand-Off VoltageVoltage Min. @I TBreakdownVoltage TestMax. @ I T CurrentMaximumClampingVoltage@I PPPeak ReversePulse LeakageCurrent @V RMW(Uni) (BI) (Uni) (Bi) V RMW (V) V BR MIN(V) V BR MAX(V) I T (mA) V C(V) I PP(A) I R(uA) SMBJ170 SMBJ170C PQ EQ 170 189 239.5 1.0 304 2.0 5.0 SMBJ170A SMBJ170CA PR ER 170 189 217.5 1.0 275 2.2 5.0 SMBJ180 SMBJ180C PS ES 180 200 253.8 1.0 321 1.9 5.0 SMBJ180A SMBJ180CA PT ET 180 200 230.4 1.0 290 2.1 5.0 SMBJ190 SMBJ190C PU EU 190 211 267.9 1.0 339 1.8 5.0 SMBJ190A SMBJ190CA PV EV 190 211 243.2 1.0 306 2.0 5.0 SMBJ200 SMBJ200C PW EW 200 222 282.0 1.0 356 1.7 5.0 SMBJ200A SMBJ200CA PX EX 200 222 256.0 1.0 322 1.9 5.0 SMBJ210 SMBJ210C PY EY 210 233 296.1 1.0 375 1.6 5.0 SMBJ210A SMBJ210CA PZ EZ 210 233 268.8 1.0 339 1.8 5.0 SMBJ220 SMBJ220C QD FD 220 244 310.2 1.0 392 1.5 5.0 SMBJ220A SMBJ220CA QE FE 220 244 281.6 1.0 355 1.7 5.0 SMBJ250 SMBJ250C QF FF 250 278 342.5 1.0 447 1.3 5.0 SMBJ250A SMBJ250CA QG FG 250 278 309.0 1.0 403 1.5 5.0 SMBJ300 SMBJ300C QH FH 300 333 411.0 1.0 535 1.1 5.0 SMBJ300A SMBJ300CA QK FK 300 333 371.0 1.0 484 1.2 5.0 SMBJ350 SMBJ350C QL FL 350 389 479.5 1.0 624 1.0 5.0 SMBJ350A SMBJ350CA QM FM 350 389 432.0 1.0 565 1.1 5.0 SMBJ400 SMBJ400C QN FN 400 444 548.0 1.0 687 0.9 5.0 SMBJ400A SMBJ400CA QP FP 400 444 494.0 1.0 645 0.9 5.0 SMBJ440 SMBJ440C QQ FQ 440 489 602.8 1.0 786 0.8 5.0 SMBJ440A SMBJ440CA QR FR 440 489 543.0 1.0 710 0.8 5.0SMBJ6.0CARatings and Characteristic Curves T A =25癈 unless otherwise notedSMBJ6.0CA。

Mechanical DataFeature:Transient Voltage Suppressors* 600 Watt Peak Power Dissipation * Glass Passivated Die Construction* Excellent Clamping Capability Fast Response Time* Plastic Material Has UL Flammability Classification Rating 94V-O* Case: Transfer Molded Epoxy* Polarity: Indicator by Cathode Band* Terminals: Solderable per MIL-STD-202 Method 208* Weight: 0.1grams(approx)(Bi-directional Devices Has no Polarity Indicator)NOTE: 1. Non-Repetitive Current Pulse, per FIG3 and Derated 2. Mounted on 5.0mm Copper Pads to each Terminal3. 8.3ms Single Half Sine-Wave, or equivalent Square above TA=25 C per FIG2Wave, Duty Cycle=4 pulses per minutes Maximum.Maximum Ratings2SMB(DO-214AA)1/4UNI- POLAR BI-POLAR(1)UNI BI P6SMB6.8A P6SMB7.5A P6SMB8.2A P6SMB9.1A P6SMB10A P6SMB11A P6SMB12AP6SMB13A P6SMB15A P6SMB16A P6SMB18A P6SMB20A P6SMB22A P6SMB24A P6SMB27A P6SMB30A P6SMB33A P6SMB36A P6SMB39A P6SMB43A P6SMB47A P6SMB51A P6SMB56A P6SMB62A P6SMB68A P6SMB75A P6SMB82A P6SMB91A P6SMB100A P6SMB110A P6SMB120A P6SMB130A P6SMB150A P6SMB160A P6SMB170A P6SMB180A P6SMB200A P6SMB220A P6SMB250A P6SMB300A P6SMB350A P6SMB400A P6SMB440A P6SMB480A P6SMB510A P6SMB530A P6SMB540A P6SMB550A P6SMB6.8CA P6SMB7.5CA P6SMB8.2CA P6SMB9.1CA P6SMB10CA P6SMB11CA P6SMB12CA P6SMB13CA P6SMB15CA P6SMB16CA P6SMB18CA P6SMB20CA P6SMB22CA P6SMB24CA P6SMB27CA P6SMB30CA P6SMB33CA P6SMB36CA P6SMB39CA P6SMB43CA P6SMB47CA P6SMB51CA P6SMB56CA P6SMB62CA P6SMB68CA P6SMB75CA P6SMB82CA P6SMB91CA P6SMB100CA P6SMB110CA P6SMB120CA P6SMB130CA P6SMB150CA P6SMB160CA P6SMB170CA P6SMB180CA P6SMB200CA P6SMB220CA P6SMB250CA P6SMB300CA P6SMB350CA P6SMB400CA P6SMB440CA P6SMB480CA P6SMB510CA P6SMB530CA P6SMB540CA P6SMB550CA 6V8A 5.80 6.451010.558.110007V5A 6.407.131011.354.08008V2A 7.027.791012.150.42009V1A 7.788.651013.445.55010A 8.559.50114.542.11011A 9.4010.50115.639.1512A 10.2011.40116.736.5513A 11.1012.40118.233.5515A 12.8014.30121.228.8516A 13.6015.20122.527.1518A 15.3017.10125.524.2520A 17.1019.00127.722.0522A 18.8020.90130.619.9524A 20.5022.80133.218.4527A 23.1025.70137.516.3530A 25.6028.50141.414.7533A 28.2031.40145.713.3536A 30.8034.20149.912.2539A 33.3037.10153.911.3543A 36.8040.90159.310.3547A 40.2044.70164.89.4551A 43.6048.50170.18.7556A 47.8053.20177.07.9562A 53.0058.90185.07.2568A 58.1064.60192.0 6.6575A 64.1071.301103.0 5.9582A 70.1077.901113.0 5.4591A 77.8086.501125.0 4.95100A 85.5095.001137.0 4.55110A 94.00105.001152.0 4.05120A 102.00114.001165.0 3.75130A 111.00124.001179.0 3.45150A 128.00143.001207.0 2.95160A 136.00152.001219.0 2.85170A 145.00162.001234.0 2.65180A 154.00171.001246.0 2.55200A 171.00190.001274.0 2.25220A 185.00209.001328.0 1.95250A 214.00237.001344.0 1.85300A 256.00285.001414.0 1.55350A 300.00332.001482.0 1.35400A 342.00380.001548.0 1.15440A 376.00418.001602.0 1.05480A 408.00456.001658.00.95510A 434.00485.001698.00.95530A 540A 550A 6V8C 7V5C 8V2C 9V1C 10C11C12C13C 15C16C18C20C 22C24C 27C 30C 33C36C 39C 43C 47C51C56C62C 68C75C82C91C100C 110C 120C 130C 150C 160C 170C 180C 200C 220C 250C 300C 350C 400C 440C 480C 510C 530C 540C 550C 450.00459.00467.00503.50513.00522.507.147.888.619.5510.5011.6012.5013.7015.8016.8018.9021.0023.1025.2028.4031.5034.7037.8041.0045.2049.4053.6058.8065.1071.4078.8086.1095.50105.00116.00126.00137.00158.00168.00179.00189.00210.00231.00263.00315.00368.00420.00462.00504.00535.00556.50567.00577.50111725.0740.0760.00.80.80.8555For bidirectional type having Vrwm of 10 volts and less, the IR limit is double.for parts without A , the V BR is + + 10%.BREAK DO WN VOLTAGE V BR (V)(1)V BR (V)(2)MAX.@I TTEST CURRE NT I T (mA)MAXIMUM CLAMPING VOLTAGE @Ipp Vc(V)PEAK PULSE CURRENT Ipp (A)P6SMBPART NUMBER DEVICE MARKING CODEREVERSE STAND-OFF VOLTAGE V RWM (V)MIN.@I T REVERSE LEAKAGE @ V RWMI R (µA)(3)Electrical characteristicsNOTE: 1. Suffix C denotes Bi-direction device, Suffix A denotes the V is 5% BR2. V messured with I Current pulse=300us.BRT 3.Transient Voltage Suppressors2/4P P P M — P e a k P u l s e P o w e r (k W )FIG. 6 - Maximum Non-Repetitive PeakForward Surge CurrentNumber of C ycles at 60H Z11100t p — P ulse Duration (sec)T r a n s i e n t T h e r m a l I m p e d a n c e C /W )FIG. 5 - Typical T ransient ThermalImpedance0.0010.010.11101001000I P P M — P e a k P u l s e C u r r e n t , % I R S MRatings and Characteristic CurvesTransient Voltage Suppressors3/4Transient Voltage Suppressors SMB Outline Dimension4/4。

JC210SP型调频、调幅收音机设计报告设计者：信息学院09通信一班康丽莎陈佳一，任务要求根据给出的电路图和电路板自己动手焊接完成JC210SP型调频、调幅收音机的制作。

要求有良好的动手能力和扎实的理论基础。

并在制作中要求有较好焊接能力。

在设计与制作中更好的理解收音机的工作原理，用理论去完成实践，在实践中加深对理论知识的理解。

实习目的1. 熟练焊接的基本技巧2. 熟悉JC210SP收音机的工作原理3. 掌握收音机的调试方法,能安装、调试出成品收音机二，电路组成和工作原理分析JC210SP型调频、调幅收音机采用CD908的芯片，起采用气件SNT封装，接收频率范围为76-108MHZ，不仅能接受调频广播，还能接受校园广播和部分电视台的音频信号；调频波段采用直放式集成电路TDA2822的专用功放集成电路，具有声音大音质好的优点。

收音机的原理是把从天线接受到的高频信号，经检波还原成音频信号，送到扬声器变成音波。

是把接收到的电台高频信号，用一个变频级电路将它转化为频率固定的中频信号，然后在对这个中频信号进行多级放大，再检波，低放。

由于不同频率的无线电波用途较广、接受的电波较多，所以音频信号就会互相干扰，导致音响效果不好，所以当要选择所需的电台并把不要的信号“滤掉”，以免产生干扰，所以在我们收听广播时，使用选台按钮。

由于中频（465kHz）固定，且频率比高频已调信号低、中放的增益可以做的较大，工作较稳定，通频带特性也可做的理想、这样可以使检波器获得足够大的信号，从而使整机输出音质较好的音频信号,，所以中频调谐放大电路可以做到选择性好、增益高又不易自激。

这样灵敏度和选择性都可大幅度改善，而且可使整个波段接受灵敏度均匀!天线（磁性天线）接收无线电广播信号（多种信号）→波段选择→调谐（选取一种信号）→高频放大→混频（本振与信号）→差频信号（中频）→放大（中放）→检波音频→低频放大→功率放大→扬声器（耳机）放出音频信号（声音｝1.调频（FM）部分CD9088是一块专用单片调频收音机芯片，其外观电路简单，电路内置中频频率为70KHz的锁相环系统，选择性由有缘RC滤波器实现，静音电路可抑制非中频信号和太弱的中频信号。