BCL453232-R39M中文资料
HCPL-M453中文资料
Small Outline, 5 Lead, High Speed Optocouplers Technical DataHCPL-M452HCPL-M453Features• Surface Mountable• Very Small, Low Profile JEDEC Registered Package Outline• Compatible with Infrared Vapor Phase Reflow and Wave Soldering Processes • Very High Common Mode Transient Immunity:15000 V/µs at V CM = 1500 V Guaranteed (HCPL-M453)• High Speed: 1 Mb/s • TTL Compatible• Guaranteed AC and DC Performance overTemperature: 0°C to 70°C • Open Collector Output • Recognized Under the Component Program of U.L. (File No. E55361) for Dielectric Withstand Proof Test Voltage of 3750 Vac, 1Minute• Lead Free OptionCAUTION: The small device geometries inherent to the design of this bipolar component increase the component's susceptibility to damage from electrostatic discharge (ESD). It is advised that normal static precautions be taken in handling and assembly of this component to prevent damage and/or degradation which may be induced by ESD.The SO-5 JEDEC registered (MO-155) package outline does not require “through holes” in a PCB. This package occupies approximately one-fourth the footprint area of the standard dual-in-line package. The lead profile is designed to be compatible with standard surface mount processes.These diode-transistoroptocouplers use an insulating layer between the light emitting diode and an integrated photon detector to provide electrical insulation between input and output. Separate connections for the photodiode bias and output transistor collector increase the speed up to a hundred timesSO-5 Package Standard DIP SO-8 Package HCPL-M452HCPL-4502HCPL-0452HCPL-M453HCPL-4503HCPL-0453(Note: These devices equivalent to 6N135/6N136 devices but without the base lead.)DescriptionThese small outline high CMR,high speed, diode-transistor opto-couplers are single channel devices in a five lead miniature footprint. They are electrically equivalent to the following Agilent optocouplers:tions. A standard 16 mA TTL sink current through the input LED will provide enough output current for 1 TTL load and a 5.6 k Ω pull-up resistor. CTR of the HCPL-M452 is 19%minimum at I F = 16 mA.over that of a conventional photo-transistor coupler by reducing the base-collector capacitance.The HCPL-M452 is designed for high speed TTL/TTL applica-The HCPL-M453 is an HCPL-M452 with increased common mode transient immunity of 15,000 V/µs minimum at V CM =1500 V guaranteed.Applications• Line Receivers -High common mode transient immunity (>1000V/µs) and low input-output capacitance (0.6 pF).• High Speed Logic Ground Isolation - TTL/TTL, TTL/LTTL, TTL/CMOS, TTL/LSTTL.• Replace Slow Phototran-sistor Optocouplers • Replace PulseTransformers - Save board space and weight• Analog Signal Ground Isolation -Integrated photon detector provides improved linearity over phototransistor type.Land Pattern RecommendationDIMENSIONS IN MILLIMETERS AND (INCHES)Outline Drawing (JEDEC MO-155)SchematicGNDV CCV OANODECATHODEDIMENSIONS IN MILLIMETERS (INCHES)* MAXIMUM MOLD FLASH ON EACH SIDE IS 0.15 mm (0.006)NOTE: FLOATING LEAD PROTRUSION IS 0.15 mm (6 mils) MAX.MAX.= 0.102 (0.004)Absolute Maximum Ratings(No Derating Required up to 85°C)Storage Temperature .................................................-55°C to +125°C Operating Temperature .............................................-55°C to +100°C Average Input Current - I F .....................................................25 mA [1]Peak Input Current - I F ...........................................................50 mA [2](50% duty cycle, 1 ms pulse width)Peak Transient Input Current - I F ..............................................1.0 A(≤1 µs pulse width, 300 pps)Reverse Input Voltage - V R (Pin3-1)...............................................5 V Input Power Dissipation ........................................................45 mW [3]Average Output Current - I O (Pin 5)...........................................8 mA Peak Output Current .................................................................16 mA Output Voltage - V O (Pin 5-4)........................................-0.5 V to 20 V Supply Voltage - V CC (Pin 6-4).......................................-0.5 V to 30 V Output Power Dissipation....................................................100 mW [4]Infrared and Vapor Phase Reflow Temperature..................see belowSolder Reflow Thermal ProfileRecommended Pb-Free IR ProfileTIME (SECONDS)T E M P E R A T U R E (°C )ROOM°C of ACTUAL NOTES:THE TIME FROM 25 °C to PEAK TEMPERATURE = 8 MINUTES MAX.T smax = 200 °C, T smin = 150 °CInsulation Related SpecificationsParameter Symbol Value Units ConditionsMin External Air Gap L(IO1)≥ 5mm Measured from input terminals (Clearance)to output terminalsMin. External Tracking Path L(IO2)≥ 5mm Measured from input terminals (Creepage)to output terminalsMin. Internal Plastic Gap0.08mm Through insulation distance (Clearance)conductor to conductor Tracking Resistance CTI175V DIN IEC 112/VDE 0303 Part 1 Isolation Group (per DIN VDE 0109)IIIa Material Group DIN VDE 0109Electrical SpecificationsOver recommended temperature (T A = 0°C to 70°C) unless otherwise specified. (See note 11.)*All typicals at T A = 25°C.Switching SpecificationsOver recommended temperature (T A = 0°C to 70°C) V CC = 5 V, I F = 16 mA unless otherwise specified.All typicals at T A = 25°C.Notes:1. Derate linearly above 85°C free-air temperature at a rate of 0.5 mA/°C.2. Derate linearly above 85°C free-air temperature at a rate of 1.0 mA/°C.3. Derate linearly above 85°C free-air temperature at a rate of 1.1 mW/°C.4. Derate linearly above 85°C free-air temperature at a rate of 2.3 mW/°C.5. CURRENT TRANSFER RATIO in percent is defined as the ratio of output collector current, I O, to the forward LED inputcurrent, I F, times 100.6. Device considered a two terminal device: pins 1 and 3 shorted together, and pins 4, 5 and 6 shorted together.7. In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage ≥4500 V RMS for 1 second(leakage detection current limit, I I-O≤ 5 µA).8. Common transient immunity in a Logic High level is the maximum tolerable (positive) dV CM/dt on the rising edge of thecommon mode pulse, V CM, to assure that the output will remain in a Logic High state (i.e., V O > 2.0 V). Common mode transient immunity in a Logic Low level is the maximum tolerable (negative) dV CM/dt on the falling edge of the common mode pulse signal, V CM to assure that the output will remain in a Logic Low state (i.e., V O < 0.8 V).9. The 1.9 kΩ load represents 1 TTL unit load of 1.6 mA and the 5.6 kΩ pull-up resistor.10. The frequency at which the ac output voltage is 3 dB below its mid-frequency value.11. Use of a 0.1 µF bypass capacitor connected between pins 4 and 6 is recommended.Figure 7. Logic High Output Current vs. Temperature.Figure 8. Small-Signal CurrentTransfer Ratio vs. Quiescent Input Current.Figure 4. Current Transfer Ratio vs.Temperature.Figure 5. Propagation Delay vs.Temperature.Figure 6. Propagation Delay Time vs. Load Resistance.Figure 1. dc and Pulsed Transfer Characteristics.Figure 2. Current Transfer Ratio vs.Input Current.Figure 3. Input Current vs. Forward Voltage.105V O – OUTPUT VOLTAGE – VI O – O U T P U T C U R R E N T – m A1.51.00.50.1N O R M A L I Z E D C U R R E N T T R A N S F E R R A T I OI F – INPUT CURRENT – mA V F – FORWARD VOLTAGE – VOLTSI F – F O R W A R D C U R R E N T – m A1.11.00.90.80.70.6N O R M A L I Z E D C U R R E N T T R A N S F E R R A T I OT A – TEMPERATURE – °C200015001000500T A – TEMPERATURE – °C t P – P R O P A G A T I O N D E L A Y – n s3.02.01.00.60.40.20.8R L – LOAD RESISTANCE – k Ωt P – P R O P A G A T I O N D E L A Y – µsT A – TEMPERATURE – °C101010100101010I O H – L O G I C H I G H O U T P U T C U R R E N T – n A∆I F ∆I O – S M A L L S I G N A L C U R R E N T T R A N S F E R R A T I O0.100.200.30I F – QUIESCENT INPUT CURRENT – mAFigure 11. Test Circuit for Transient Immunity and Typical Waveforms.Figure 10. Switching Test Circuit.Figure 9. Frequency Response.f – FREQUENCY – MHzN O R M A L I Z E D R E S P O N S E –d BAC INPUTOOI F = 15 pFt V I FOV V 0 VSWITCH AT B: I = 1.6 mA FV CMCCt r , t f = 16 ns/semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. Obsoletes 5989-0792ENDecember 28, 20045989-2117EN。
赛米控丹佛斯电子 Board_2S_SKYPER_32_R_Gold 数据表
1®Adaptor boardAdaptor boardOrder Nr. L5062801Board 2S SKYPER 32 R GoldFeatures•Two output channels •Gold nickel finish •Failure managementTypical Applications*•Adaptor board for SKYPER 32 IGBT drivers in bridge circuits for industrial applications •PCB with gold plating •DC bus up to 1000VRemarks•With external high voltage diode•Please Note: the insulation test is not performed as a series test atSEMIKRON and must be performed by the user•According to VDE 0110-20•Output charge can be expanded to 6,3µQ with boost capacitors•Insulation coordination in compliance with EN50178 PD2•Operating temperature is real ambient temperature around the driver core •Degree of protection: IP00Absolute Maximum Ratings SymbolConditionsValuesUnitV s Supply voltage primary 16V Iout PEAK Output peak current 15A Iout AVmax Output average current 50mA f max Max. switching frequency50kHz V CECollector emitter voltage sense across the IGBT1700V V isol IO Insulation test voltage input - output (AC, rms, 2s)4000V V isolPD Partial discharge extinction voltage, rms, Q PD ≤ 10pC1200V V isol12Insulation test voltage output 1 - output 2 (AC, rms, 2s)1500V R Gon minMinimum rating for external R Gon 1.5ΩR Goff min Minimum rating for external R Goff 1.5ΩT op Operating temperature -40...85°C T stgStorage temperature-40 (85)°CCharacteristics SymbolConditionsmin.typ.max.UnitV sSupply voltage primary side 14.41515.6V V i Input signal voltage on / off 15 / 0V V IT+Input threshold voltage (HIGH)12.3V V IT-Input threshold voltage (LOW) 4.6V V G(on)Turn on output voltage 15V V G(off)Turn off output voltage-7V t d(on)IO Input-output turn-on propagation time 1.1µs t d(off)IOInput-output turn-off propagation time1.1µsThis is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, chapter IX.*IMPORTANT INFORMATION AND WARNINGSThe specifications of SEMIKRON products may not be considered as guarantee or assurance of product characteristics ("Beschaffenheitsgarantie"). The specifications of SEMIKRON products describe only the usual characteristics of products to be expected in typical applications, which may still vary depending on the specific application. Therefore, products must be tested for the respective application in advance. Application adjustments may be necessary. The user of SEMIKRON products is responsible for the safety of their applications embedding SEMIKRON products and must take adequate safety measures to prevent the applications from causing a physical injury, fire or other problem if any of SEMIKRON products become faulty. The user is responsible to make sure that the application design is compliant with all applicable laws, regulations, norms and standards. Except as otherwise explicitly approved by SEMIKRON in a written document signed by authorized representatives of SEMIKRON, SEMIKRON products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury. No representation or warranty is given and no liability is assumed with respect to the accuracy, completeness and/or use of any information herein, including without limitation, warranties of non-infringement of intellectual property rights of any third party. SEMIKRON does not assume any liability arising out of the applications or use of any product; neither does it convey any license under its patent rights, copyrights, trade secrets or other intellectual property rights, nor the rights of others. SEMIKRON makes no representation or warranty of non-infringement or alleged non-infringement of intellectual property rights of any third party which may arise from applications. Due to technical requirements our products may contain dangerous substances. For information on the types in question please contact the nearest SEMIKRON sales office. This document supersedes and replaces all information previously supplied and may be superseded by updates. SEMIKRON reserves the right to make changes.2。
4532系列电容器数据表说明书
Gas Discharge Tube (GDT) Data SheetFeatures■ High insulation resistance. ■ Low capacitance (≤0.5pF). ■ 2000A 8/20μs maximum surge current capacity in accordance with IEC61000-4-5. ■ 4KV 10/700μs maximum surge rating in accordance with ITU-TK.21 ■ Surface mounted gas arrester ■ Micro-Gap Design ■ Size 4532(1812)■ Storage and operating temperature: -40 ~ +85℃℃ ■ Meets MSL level 1, per J-STD-020 ■ Safety certification: UL: E244458Applications■ Repeaters, Modems.■ Telephone Interface, Line cards. ■ Data communication equipment. ■ Line test equipmentPart Number Code and Marking090: Device Marking CodeDimensions0.5±0.1mmRecommended Pad SizeElectrical CharacteristicsPart NumberDC Spark-over Voltage Maximum Impulse Spark-over Voltage Impulse Life Test Minimum Insulation Resistance Maximum CapacitanceNominal Impulse Discharge Current Impulse Withstanding Voltage CapacityDevice Marking Code100V/s 1KV/μs 8/20μs 100A Test Voltage (G Ω)(1MHz 1V)8/20μs (V)(V)(Times)DC(V)(pF) (A) 4532-075-LF 55~95 600 300 25 1 0.5 2000 10/700μs 4kV ±5 Times075 4532-091-LF63~117700 3005010.5 2000 090 4532-121-LF 84~156 700 300 50 1 0.5 2000 120 4532-151-LF105~195700 3005010.5 2000 150 4532-201-LF 140~260 750 300 100 1 0.5 2000 200 4532-231-LF161~299750 30010010.5 2000 230 4532-301-LF 210~390 900 300 100 1 0.5 2000 300 4532-351-LF245~45590030010010.5 2000 350 4532-401-LF 280~520 1000 300 100 1 0.5 2000 400 4532-421-LF294~546100030010010.5 2000 420 4532-471-LF 329~611 1000 300 100 1 0.5 2000 470 4532-501-LF350~650110030010010.5 2000 500 4532-601-LF 420~780 1200 300 100 10.52000600Electrical RatingsItems RequirementDC Spark-overVoltageThe voltage is measured with voltage ramp dv/dt=100V/s.To meet the specifiedvalue Maximum Impulse Spark-over Voltage The maximum impulse spark-over voltage is measured with voltage ramp dv/dt=1000V/μs.Insulation Resistance The resistance of gas tube shall be measured between two electrodes. CapacitanceThe capacitance of gas tube shall be measured between two electrodes. Test frequency: 1MHzImpulseDischarge CurrentMaximum 8/20μs surge current that can be applied between twoelectrodes, 5 positive and 5 negative surges, with 3 minutes interval time, without causing the DC spark-over voltage to change more than 25% from its initial value.Impulse Withstanding VoltageThe maximum 10/700μs surge that can be applied to the Gas Tube, 5 positive and 5 negative surges, with 1 minute interval time, without causing the DC spark-over voltage to change more than 25% from its initial value.Recommended Soldering ConditionsRecommended ConditionsProfile Feature Pb-Free Assembly Average ramp-up rate (T L to T P) 3℃/second max.Preheat-Temperature Min (T S min) -Temperature Max (T S max) -Time (min to max) (ts)15020060-180 secondsT S max to T L-Ramp-up ℃Time maintained above:-Temperature (T-Time (t L) 60-150 secondsPeak Temperature (T) 260Time within 5 of actual Peak Temperature (t) 20-40seconds Ramp-down Rate ℃Time 25 to Peak Temperature 8 minutes max.PackagingReel。
微斯米微波式芯片公司2014年产品说明书
1FeaturesInputs/Outputs •Accepts differential or single-ended input •LVPECL, LVDS, CML, HCSL, LVCMOS •On-chip input termination resistors and biasing for AC coupled inputs•Six precision LVPECL outputs •Operating frequency up to 750 MHzPower •Options for 2.5 V or 3.3 V power supply •Core current consumption of 110 mA•On-chip Low Drop Out (LDO) Regulator for superior power supply rejectionPerformance •Ultra low additive jitter of 36 fs RMSApplications•General purpose clock distribution •Low jitter clock trees •Logic translation•Clock and data signal restoration•Wired communications: OTN, SONET/SDH, GE,10 GE, FC and 10G FC•PCI Express generation 1/2/3 clock distribution •Wireless communications•High performance microprocessor clock distributionApril 2014Figure 1 - Functional Block DiagramZL40205Precision 1:6 LVPECL Fanout Bufferwith On-Chip Input TerminationData SheetOrdering InformationZL40205LDG1 32 Pin QFN TraysZL40205LDF132 Pin QFNTape and ReelMatte TinPackage Size: 5 x 5 mm-40o C to +85o CTable of ContentsFeatures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Inputs/Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Change Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41.0 Package Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52.0 Pin Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .63.0 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .73.1 Clock Inputs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .73.2 Clock Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .123.3 Device Additive Jitter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .153.4 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163.4.1 Sensitivity to power supply noise. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163.4.2 Power supply filtering. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163.4.3 PCB layout considerations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .164.0 AC and DC Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .175.0 Performance Characterization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .206.0 Typical Behavior . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .217.0 Package Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .238.0 Mechanical Drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24List of FiguresFigure 1 - Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Figure 2 - Pin Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Figure 3 - Simplified Diagram of Input Stage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Figure 4 - Clock Input - LVPECL - DC Coupled. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Figure 5 - Clock Input - LVPECL - AC Coupled. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Figure 6 - Clock Input - LVDS - DC Coupled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Figure 7 - Clock Input - LVDS - AC Coupled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Figure 8 - Clock Input - CML- AC Coupled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Figure 9 - Clock Input - HCSL- AC Coupled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Figure 10 - Clock Input - AC-coupled Single-Ended . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Figure 11 - Clock Input - DC-coupled 3.3V CMOS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Figure 12 - Simplified Output Driver. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Figure 13 - LVPECL Basic Output Termination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Figure 14 - LVPECL Parallel Output Termination. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Figure 15 - LVPECL Parallel Thevenin-Equivalent Output Termination. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Figure 16 - LVPECL AC Output Termination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Figure 17 - LVPECL AC Output Termination for CML Inputs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Figure 18 - Additive Jitter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Figure 19 - Decoupling Connections for Power Pins. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Figure 20 - Differential and Single-Ended Output Voltages Parameter Definitions . . . . . . . . . . . . . . . . . . . . . . . . 18 Figure 21 - Input To Output Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Change SummaryPage Item Change1Applications Added PCI Express clock distribution.6Pin Description Added exposed pad to Pin Description.8Figure 4 and Figure 5Removed 22 ohm series resistors from Figure 4 and 5. These resistor are not required; however there is no impact to performance if the resistors are included.16Power supply filtering 18Figure 20Clarification of V ID and V OD .Below are the changes from the February 2013 issue to the April 2014 issue:Page Item Change8Figure 4Changed text to indicate the circuit is not recommended for VDD_driver=2.5V.Below are the changes from the November 2012 issue to the February 2013 issue:Corrected typo of 0.3 Ohm to 0.15 Ohm.1.0 Package DescriptionThe device is packaged in a 32 pin QFNFigure 2 - Pin Connections2.0 Pin DescriptionPin # Name Description3, 6clk_p, clk_n,Differential Input (Analog Input). Differential (or single ended) input signals.For all input configurations see “Clock Inputs” on page 728, 27, 26, 25, 24, 23, 18, 17, 16, 15, 14, 13out0_p, out0_nout1_p, out1_nout2_p, out2_nout3_p, out3_nout4_p, out4_nout5_p, out5_nDifferential Output (Analog Output). Differential outputs.9, 19,22, 32vdd Positive Supply Voltage. 2.5 V DC or 3.3 V DC nominal.1, 8vdd_core Positive Supply Voltage. 2.5 V DC or 3.3 V DC nominal.2, 7,20, 21gnd Ground. 0 V.4vt On-Chip Input Termination Node (Analog). Center tap between internal 50 Ohmtermination resistors.The use of this pin is detailed in section 3.1, “Clock Inputs“, for various input signal types.5ctrl Digital Control for On-Chip Input Termination (Input). Selects differential input mode;0: DC coupled LVPECL or LVDS modes1: AC coupled differential modesThis pin are internally pulled down to GND. The use of this pin is detailed in section 3.1,“Clock Inputs“, for various input signal types.10, 11,12, 29,30, 31NC No Connection. Leave unconnected.Exposed Pad Device GND.3.0 Functional DescriptionThe ZL40205 is an LVPECL clock fan out buffer with six output clock drivers capable of operating at frequencies up to 750MHz.The ZL40205 provides an internal input termination network for DC and AC coupled inputs; optional input biasing for AC coupled inputs is also provided. The ZL40205 can accept DC or AC coupled LVPECL and LVDS input signals, AC coupled CML or HCSL input signals, and single ended signals. A pin compatible device with external termination is also available.The ZL40205 is designed to fan out low-jitter reference clocks for wired or optical communications applications while adding minimal jitter to the clock signal. An internal linear power supply regulator and bulk capacitors minimize additive jitter due to power supply noise. The device operates from 2.5V+/-5% or 3.3V+/-5% supply. Its operation is guaranteed over the industrial temperature range -40°C to +85°C.The device block diagram is shown in Figure 1; its operation is described in the following sections.3.1 Clock InputsThe device has a differential input equipped with two on-chip 50 Ohm termination resistors arranged in series with a center tap. The input can accept many differential and single-ended signals with AC or DC coupling as appropriate. A control pin is available to enable internal biasing for AC coupled inputs. A block diagram of the input stage is in Figure 3.Receiverclk_n 50clk_pVt 50BiasctrlFigure 3 - Simplified Diagram of Input StageThis following figures give the components values and configuration for the various circuits compatible with the input stage and the use of the Vt and ctrl pins in each case.In the following diagrams where the ctrl pin is logically one and the Vt pin is not connected, the Vt pin can be instead connected to VDD with a capacitor. A capacitor can also help in Figure 4 between Vt and VDD. This capacitor will minimize the noise at the point between the two internal termination resistors and improve the overall performance of the device.Figure 4 - Clock Input - LVPECL - DC CoupledFigure 5 - Clock Input - LVPECL - AC CoupledFigure 6 - Clock Input - LVDS - DC CoupledFigure 7 - Clock Input - LVDS - AC CoupledFigure 8 - Clock Input - CML- AC CoupledFigure 9 - Clock Input - HCSL- AC CoupledFigure 10 - Clock Input - AC-coupled Single-EndedFigure 11 - Clock Input - DC-coupled 3.3V CMOS3.2 Clock OutputsLVPECL has a very low output impedance and a differential signal swing between 1V and 1.6 V. A simplified diagram for the output stage is shown in Figure 12.The LVPECL to LVDS output termination is not shown since there is a different device with the same inputs and LVDS outputs.out_pout_nFigure 12 - Simplified Output DriverThe methods to terminate the ZL40205 LVPECL drivers are shown in the following figures.Figure 15 - LVPECL Parallel Thevenin-Equivalent Output TerminationFigure 16 - LVPECL AC Output TerminationFigure 17 - LVPECL AC Output Termination for CML Inputs3.3 Device Additive JitterThe ZL40205 clock fanout buffer is not intended to filter clock jitter. The jitter performance of this type of device is characterized by its additive jitter. Additive jitter is the jitter the device would add to a hypothetical jitter-free clock as it passes through the device. The additive jitter of the ZL40205 is random and as such it is not correlated to the jitter of the input clock signal.The square of the resultant random RMS jitter at the output of the ZL40205 is equal to the sum of the squares of the various random RMS jitter sources including: input clock jitter; additive jitter of the buffer; and additive random jitter due to power supply noise. There may be additional deterministic jitter sources, but they are not shown in Figure 18.Figure 18 - Additive Jitter3.4 Power SupplyThis device operates employing either a 2.5V supply or 3.3V supply.3.4.1 Sensitivity to power supply noisePower supply noise from sources such as switching power supplies and high-power digital components such as FPGAs can induce additive jitter on clock buffer outputs. The ZL40205 is equipped with a low drop out (LDO) regulator and on-chip bulk capacitors to minimize additive jitter due to power supply noise. The on-chip regulation, recommended power supply filtering, and good PCB layout all work together to minimize the additive jitter from power supply noise.3.4.2 Power supply filteringJitter levels may increase when noise is present on the power pins. For optimal jitter performance, the device should be isolated from the power planes connected to its power supply pins as shown in Figure 19. •10 µF capacitors should be size 0603 or size 0805 X5R or X7R ceramic, 6.3 V minimum rating •0.1 µF capacitors should be size 0402 X5R ceramic, 6.3 V minimum rating •Capacitors should be placed next to the connected device power pins •A 0.15 Ohm resistor is recommended3.4.3 PCB layout considerationsThe power nets in Figure 19 can be implemented either as a plane island or routed power topology without changing the overall jitter performance of the device.ZL402051891922320.1 µF 0.1 µFvdd_core10 µF 0.1 µF0.15 Ωvdd0.1 µF 10 µFFigure 19 - Decoupling Connections for Power PinsAbsolute Maximum Ratings*Parameter Sym.Min.Max.Units 1Supply voltage V DD_R-0.5 4.6V 2Voltage on any digital pin V PIN-0.5VDD V 4LVPECL output current I out30mA 5Soldering temperature T260 °C 6Storage temperature T ST-55125 °C 7Junction temperature T j125 °C 8Voltage on input pin V input VDD V 9Input capacitance each pin C p500fF 4.0 AC and DC Electrical Characteristics* Exceeding these values may cause permanent damage. Functional operation under these conditions is not implied.* Voltages are with respect to ground (GND) unless otherwise statedRecommended Operating Conditions*Characteristics Sym.Min.Typ.Max.Units1Supply voltage 2.5 V mode V DD25 2.375 2.5 2.625V2Supply voltage 3.3 V mode V DD33 3.135 3.3 3.465V3Operating temperature T A-402585°C* Voltages are with respect to ground (GND) unless otherwise statedDC Electrical Characteristics - Current ConsumptionCharacteristics Sym.Min.Typ.Max.Units Notes 1Supply current LVPECL drivers -unloadedI dd_unload110mA Unloaded2Supply current LVPECL drivers - loaded (all outputs are active)I dd_load209mA Including powerto R L = 50DC Electrical Characteristics - Inputs and Outputs - for 3.3 V SupplyCharacteristics Sym.Min.Typ.Max.Units Notes1CMOS control logic high-level inputvoltageV CIH0.7*V DD V2CMOS control logic low-level inputvoltageV CIL0.3*V DD V3CMOS control logic Input leakagecurrentI IL1µA V I = V DD or 0 V4Differential input common modevoltageV CM 1.1 2.0V5Differential input voltage difference V ID0.251V6Differential input resistance V IR80100120ohm* This parameter was measured from 125 MHz to 750 MHz.* This parameter was measured from 125 MHz to 750 MHz.Figure 20 - Differential and Single-Ended Output Voltages Parameter Definitions7LVPECL output high voltage V OH V DD -1.40V 8LVPECL output low voltage V OL V DD - 1.62V 9LVPECL output differential voltage*V OD0.50.9VDC Electrical Characteristics - Inputs and Outputs - for 2.5 V SupplyCharacteristicsSym.Min.Typ.Max.Units Notes1Differential input common mode voltageV CM 1.1 1.6V 2Differential input voltage difference V ID 0.251V 3Differential input resistance V IR 80100120ohm 4LVPECL output high voltage V OH V DD -1.40V 5LVPECL output low voltage V OL V DD - 1.62V 6LVPECL output differential voltage*V OD0.40.9VDC Electrical Characteristics - Inputs and Outputs - for 3.3 V SupplyCharacteristicsSym.Min.Typ.Max.Units NotesAC Electrical Characteristics* - Inputs and Outputs (see Figure 21) - for 2.5/3.3 V supply.Characteristics Sym.Min.Typ.Max.Units Notes 1Maximum Operating Frequency1/t p750MHz2Input to output clock propagation delay t pd012ns3Output to output skew t out2out50100ps4Part to part output skew t part2part80300ps5Output clock Duty Cycle degradation t PWH/ t PWL-202Percent6LVPECL Output clock slew rate r SL0.75 1.2V/ns* Supply voltage and operating temperature are as per Recommended Operating ConditionsInputt Pt PWL t pdt PWHOutputFigure 21 - Input To Output TimingAdditive Jitter at 2.5 V*Output Frequency (MHz)Jitter MeasurementFilterTypical RMS (fs)Notes112512 kHz - 20 MHz 1392212.512 kHz - 20 MHz 1093311.0412 kHz - 20 MHz 85442512 kHz - 20 MHz 57550012 kHz - 20 MHz 506622.0812 kHz - 20 MHz 40775012 kHz - 20 MHz36Additive Jitter at 3.3 V*Output Frequency (MHz)Jitter MeasurementFilterTypical RMS (fs)Notes112512 kHz - 20 MHz 1152212.512 kHz - 20 MHz 853311.0412 kHz - 20 MHz 72442512 kHz - 20 MHz 55550012 kHz - 20 MHz 486622.0812 kHz - 20 MHz 41775012 kHz - 20 MHz395.0 Performance Characterization*The values in this table were taken with an approximate slew rate of 0.8 V/ns.*The values in this table were taken with an approximate slew rate of 0.8 V/ns.Additive Jitter from a Power Supply Tone*Carrier frequencyParameterTypicalUnitsNotes125MHz 25 mV at 100 kHz 115fs RMS 750MHz25 mV at 100 kHz59fs RMS* The values in this table are the additive periodic jitter caused by an interfering tone typically caused by a switching power supply. For this test, measurements were taken over the full temperature and voltage range for V DD = 2.5 V. The magnitude of the interfering tone is measured at the DUT.6.0 Typical BehaviorTypical Phase Noise at 622.08 MHzTypical Waveformat 155.52 MHzV OD versus FrequencyPropagation Delay versus TemperatureNote:This is for a single device. For more details see thePower Supply Tone Frequency (at 25 mV) versus PSRR at 125 MHz Power Supply Tone Frequency (at 25 mV) versus Additive Jitter at 125 MHzPower Supply Tone Magnitude (at 100 kHz) versus PSRR at 125 MHz Power Supply Tone Magnitude (at 100 kHz) versus Additive Jitter at 125 MHz7.0 Package CharacteristicsThermal DataParameter Symbol Test Condition Value UnitJunction to Ambient Thermal Resistance ΘJA Still Air1 m/s2 m/s 37.433.131.5o C/WJunction to Case Thermal Resistance ΘJC24.4o C/W Junction to Board Thermal Resistance ΘJB19.5o C/W Maximum Junction Temperature*T jmax125o C Maximum Ambient Temperature T A85o C© 2014 Microsemi Corporation. All rights reserved. Microsemi and the Microsemi logo are trademarks of Microsemi Corporation. All other trademarks and service marks are the property of their respective owners.Microsemi Corporation (NASDAQ: MSCC) offers a comprehensive portfolio of semiconductor and system solutions for communications, defense and security, aerospace and industrial markets. Products include high-performance and radiation-hardened analog mixed-signal integrated circuits, FPGAs, SoCs and ASICs; power management products; timing and synchronization devices and precise time solutions, setting the world’s standard for time; voice processing devices; RF solutions; discrete components; security technologies and scalable anti-tamper products; Power-over-Ethernet ICs and midspans; as well as custom design capabilities and services. Microsemi is headquartered in Aliso Viejo, Calif. and has approximately 3,400 employees globally. Learn more at .Microsemi Corporate Headquarters One One Enterprise, Aliso Viejo CA 92656 USA Within the USA: +1 (800) 713-4113Outside the USA: +1 (949) 380-6100Sales: +1 (949) 380-6136Fax: +1 (949) 215-4996E-mail: ***************************Information relating to products and services furnished herein by Microsemi Corporation or its subsidiaries (collectively “Microsemi”) is believed to be reliable. However, Microsemi assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any such information, product or service or for any infringement of patents or other intellectual property rights owned by third parties which may result from such application or use. Neither the supply of such information or purchase of product or service conveys any license, either express or implied, under patents or other intellectual property rights owned by Microsemi or licensed from third parties by Microsemi, whatsoever. Purchasers of products are also hereby notified that the use of product in certain ways or in combination with Microsemi, or non-Microsemi furnished goods or services may infringe patents or other intellectual property rights owned by Microsemi.This publication is issued to provide information only and (unless agreed by Microsemi in writing) may not be used, applied or reproduced for any purpose nor form part of any order or contract nor to be regarded as a representation relating to the products or services concerned. The products, their specifications, services and other information appearing in this publication are subject to change by Microsemi without notice. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user’s responsibility to fully determine the performance and suitability of any equipment using such information and to ensure that any publication or data used is up to date and has not been superseded. Manufacturing does not necessarily include testing of all functions or parameters. These products are not suitable for use in any medical and other products whose failure to perform may result in significant injury or death to the user. All products and materials are sold and services provided subject to Microsemi’s conditions of sale which are available on request.For more information about all Microsemi productsvisit our website at TECHNICAL DOCUMENTATION – NOT FOR RESALE。
CH453手册
CH453 中文手册
3
5.3. 键盘扫描
CH453 的键盘扫描功能支持 8×8 矩阵的 64 键键盘。在键盘扫描期间,DIG7~DIG0 引脚用于列 扫描输出,SEG7~SEG0 引脚都带有内部下拉电阻,用于行扫描输入。
CH453 定期在显示驱动扫描过程中插入键盘扫描。在键盘扫描期间,DIG7~DIG0 引脚按照 DIG0 至 DIG7 的顺序依次输出高电平,其余引脚输出低电平;SEG7~SEG0 引脚的输出被禁止,当没有键被 按下时,SEG7~SEG0 都被下拉为低电平;当有键被按下时,例如连接 DIG3 与 SEG4 的键被按下,则 当 DIG3 输出高电平时 SEG4 检测到高电平;为了防止因为按键抖动或者外界干扰而产生误码,CH453 实行两次扫描,只有当两次键盘扫描的结果相同时,按键才会被确认有效。如果 CH453 检测到有效的 按键,则记录下该按键代码,并通过 INT#引脚产生低电平有效的键盘中断,此时单片机可以通过串 行接口读取按键代码;在没有检测到新的有效按键之前,CH453 不再产生任何键盘中断。CH453 不支 持组合键,也就是说,同一时刻,不能有两个或者更多的键被按下;如果多个键同时按下,那么按键 代码较小的按键优先。
CH453 所提供的按键代码为 7 位,位 2~位 0 是列扫描码,位 5~位 3 是行扫描码,位 6 是状态 码(键按下为 1,键释放为 0)。例如,连接 DIG3 与 SEG4 的键被按下,则按键代码是 1100011B 或者 63H,键被释放后,按键代码通常是 0100011B 或者 23H(也可能是其它值,但是肯定小于 40H),其中, 对应 DIG3 的列扫描码为 011B,对应 SEG4 的行扫描码为 100B。单片机可以在任何时候读取按键代码, 但一般在 CH453 检测到有效按键而产生键盘中断时读取按键代码,此时按键代码的位 6 总是 1,另外, 如果需要了解按键何时释放,单片机可以通过查询方式定期读取按键代码,直到按键代码的位 6 为 0。
4532集成电路IC
8-BIT PRIORITY ENCODER
s CONVERTS FROM 1 TO 8 TO INPUTS BINARY
s PROVIDES CASCADING FEATURE TO HANDLE ANY NUMBER OF INPUTS
s GROUP SELECT INDICATES ONE OR MORE PRIORITY INPUTS
±10-5 ±0.1
±1
±1 µA
CI Input Capacitance
Any Input
5 7.5
pF
The Noise Margin for both "1" and "0" level is: 1V min. with VDD=5V, 2V min. with VDD=10V, 2.5V min. with VDD=15V
H
L
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L
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L
H
X
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L
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X : Don’t Care
2/11
LOGIC DIAGRAM
HCF4532B
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
Value
Unit
VDD Supply Voltage
X : Don’t Care
BCW66H 45V NPN 小信号转换器 SOT23 数据手册说明书
45V NPN SMALL SIGNAL TRANSISTOR IN SOT23Features∙ BV CEO > 45V ∙ I C = 800mA High Continuous Collector Current ∙ Low Saturation Voltage V CE(sat) < 300mV @ 100mA ∙ Complementary PNP Type: BCW68H∙ Totally Lead-Free & Fully RoHS compliant (Notes 1 & 2) ∙ Halogen and Antimony Free. “Green” Device (Note 3) ∙ Qualified to AEC-Q101 Standards for High Reliability ∙ PPAP capable (Note 4)Mechanical Data∙ Case: SOT23 ∙ Case Material: molded plastic, “Green” molding compound ∙ UL Flammability Classification Rating 94V-0 ∙ Moisture Sensitivity: Level 1 per J-STD-020∙ Terminals: Finish – Matte Tin Plated Leads, Solderable per MIL-STD-202, Method 208 ∙Weight 0.008 grams (approximate)Ordering Information (Notes 4 & 5)Part Number Compliance Marking Reel size (inches) Tape width (mm) Quantity per reel BCW66HTA AEC-Q101 EH 7 8 3,000 BCW66HQTA Automotive EH 7 8 3,000Notes: 1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant.2. See /quality/lead_free.html for more information about Diodes Incorporated’s definitions of Halogen- 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. Automotive products are AEC-Q101 qualified and are PPAP capable. Automotive, AEC-Q101 and standard products are electrically and thermally the same, except where specified. For more information, please refer to /quality/product_compliance_definitions/.5. For packaging details, go to our website at /products/packages.html.Marking InformationEH = Product Type Marking CodeEHTop View Pin-OutCEBTop ViewDevice SymbolSOT23Maximum Ratings (@T A = +25°C, unless otherwise specified.)Characteristic Symbol Value UnitCollector-Base Voltage V CBO 75 V Collector-Emitter Voltage V CEO 45 V Emitter-Base Voltage V EBO 7 V Continuous Collector Current I C 800 mA Peak Pulse Current I CM 1000 mA Base Current I B 100 mAThermal Characteristics (@T A = +25°C, unless otherwise specified.)Characteristic Symbol Value UnitPower Dissipation (Note 6) P D310mW (Note 7) 350Thermal Resistance, Junction to Ambient (Note 6)R θJA403 ︒C/W (Note 7) 357Thermal Resistance, Junction to Leads (Note 8) R θJL 350 ︒C/W Operating and Storage Temperature Range T J,T STG-55 to +150 ︒C Notes:6. For a device mounted on minimum recommended pad layout 1oz weight copper that is on a single-sided FR4 PCB; device is measured under still airconditions whilst operating in a steady-state.7. Same as Note 6, except the device is mounted on 15mm X 15mm 1oz copper.8. Thermal resistance from junction to solder-point (at the end of the leads).Transient Thermal ImpedancePulse Width (s)Pulse Power DissipationPulse Width (s)MElectrical Characteristics (@T A = +25°C, unless otherwise specified.)Characteristic Symbol Min Typ Max Unit Test ConditionOFF CHARACTERISTICSCollector-Base Breakdown Voltage BV CES 75 — — V I C = 10µA Collector-Emitter Breakdown Voltage (base open) (Note 9)BV CEO45 — — V I CEO = 10mAEmitter-Base Breakdown Voltage BV EBO 7 — — V I EBO = 10µACollector-Emitter Cut-Off Current I CES— — <1 — 20 20 nAµA V CES = 45V V CES = 45V, T A = +150°CEmitter-Base Cut-Off Current I EBO — <1 20 nA V EBO = 5.6V ON CHARACTERISTICS (Note 9)Static Forward Current Transfer Ratio h FE80 180 250 100 — — 350 — ——630 — — I C = 100µA, V CE = 10V I C = 10mA, V CE = 1V I C = 100mA, V CE = 1V I C = 500mA, V CE = 2VCollector-Emitter Saturation Voltage V CE(sat)— — — — 0.30.7 mV I C = 100mA, I B = 10mA I C = 500mA, I B = 50mABase-Emitter Saturation Voltage V BE(sat) — — 2 V I C = 500mA, I B = 50mA SMALL SIGNAL CHARACTERISTICS (Note 9)Transition Frequency f T100 — — MHz I C = 20mA, V CE = 10V,f = 100MHzOutput Capacitance C obo — 8 12 pF V CB = 10V, f = 1MHz Input Capacitance C ibo — — 80 pF V CB = -0.5V, f = 1MHzNoise Figure N — 2 10 dBI C = 0.2mA. V CE = 5V,R G = 1K Ω Turn-On Time t on— — 100 ns I C = 150mA. I B1 = -I B2 = 15mAR L = 150ΩTurn-Off Time t off — — 400 ns Notes: 9. Measured under pulsed conditions. Pulse width ≤ 300µs. Duty cycle ≤ 2%Package Outline DimensionsPlease see AP02002 at /datasheets/ap02002.pdf for latest version.Suggested Pad LayoutPlease see AP02001 at /datasheets/ap02001.pdf for the latest version.SOT23Dim Min Max Typ A 0.37 0.51 0.40 B 1.20 1.40 1.30 C 2.30 2.50 2.40 D 0.89 1.03 0.915F 0.45 0.60 0.535G 1.78 2.05 1.83 H 2.80 3.00 2.90 J 0.013 0.10 0.05 K 0.903 1.10 1.00 K1 - - 0.400L 0.45 0.61 0.55 M 0.085 0.18 0.110° 8°- All Dimensions in mmDimensions Value (in mm)Z2.9 X 0.8 Y 0.9C2.0 E1.35 X EYCZIMPORTANT NOTICEDIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION).Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes Incorporated website, harmless against all damages.Diodes Incorporated does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales channel. Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized application.Products described herein may be covered by one or more United States, international or foreign patents pending. Product names and markings noted herein may also be covered by one or more United States, international or foreign trademarks.This document is written in English but may be translated into multiple languages for reference. Only the English version of this document is the final and determinative format released by Diodes Incorporated.LIFE SUPPORTDiodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the Chief Executive Officer of Diodes Incorporated. As used herein:A. Life support devices or systems are devices or systems which:1. are intended to implant into the body, or2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in thelabeling can be reasonably expected to result in significant injury to the user.B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause thefailure of the life support device or to affect its safety or effectiveness.Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems.Copyright © 2013, Diodes Incorporated。
微尔赛米集团2013年产品说明书
1Features•Four independent clock channels•Frequency and Phase Sync over Packet Networks •Frequency accuracy performance for WCDMA-FDD, GSM, LTE-FDD and femtocell applications •Frequency performance for ITU-T G.823 and G.824 synchronization interface, as well as G.8261 PNT PEC and CES interfaces•Phase Synchronization performance forWCDMA-TDD, Mobile WiMAX, TD-SCDMA and CDMA2000 applications•Client holdover and reference switching between multiple Servers•Physical Layer Equipment Clocks Synchronization •ITU-T G.8262 for SyncE EEC option 1 & 2•ITU-T G.813 for SONET/SDH SEC option 1 & 2•Telcordia GR-1244 & GR-253 Stratum 3 & SMC •Support for G.781 SETS•Any input clock rate from 1Hz to 750MHz •Automatic hitless reference switching and digital holdover on reference fail•Flexible two-stage architecture translates between arbitrary data, line coding and FEC rates •Digital PLLs programmable bandwidth from 0.1mHz up to 1kHz•Programmable synthesizers•Any output clock rate from 1 Hz to 750 MHz •Output jitter below 0.61 ps rms•Operates from a single crystal resonator or clock oscillator•Field configurable via SPI/I 2C interfaceApril 2013Figure 1 - Functional Block DiagramZL30362IEEE 1588 & Synchronous Ethernet PacketClock Network SynchronizerShort Form Data SheetOrdering InformationZL30362GDG2144 Pin LBGATraysPb Free Tin/Silver/Copper-40o C to +85o CPackage size: 13 x 13 mmDetailed FeaturesGeneral•Four independent clock channels•Operates from a single crystal resonator or clock oscillator•Configurable its SPI/I2C interfaceTime Synchronization Algorithm•External algorithm controls software digital PLL to adjust frequency & phase alignment•Frequency, Phase and Time Synchronization over IP, MPLS and Ethernet Packet Networks•Frequency accuracy performance for WCDMA-FDD, GSM, LTE-FDD and femtocell applications, with target performance less than ± 15 ppb.•Frequency performance for ITU-T G.823 and G.824 synchronization interface, as well as G.8261 PNT EEC, PNT PEC and CES interface specifications.•Phase Synchronization performance for WCDMA-TDD, Mobile WiMAX, TD-SCDMA and CDMA2000 applications with target performance less than ± 1 s phase alignment.•Time Synchronization for UTC-traceability and GPS replacement.•Client reference switching between multiple Servers•Client holdover when Server packet connectivity is lostElectrical Clock Inputs•Nine input references configurable as single ended or differential and two single ended input references •Synchronize to any clock rate from 1 Hz to 750 MHz on differential inputs•Synchronize to any clock rate from 1 Hz to 177.75 MHz on singled-ended inputs•Any input reference can be fed with sync (frame pulse) or clock.•Synchronize to sync pulse and sync pulse/clock pair.•Flexible input reference monitoring automatically disqualifies references based on frequency and phase irregularities•LOS•Single cycle monitor•Precise frequency monitor•Coarse frequency monitor•Guard soak timer•Per input clock delay compensationElectrical Clock Engine•Digital PLLs filter jitter from 0.1 mHz up to 1 kHz•Flexible two-stage architecture translates between arbitrary data rates, line coding rates and FEC rates •Internal state machine automatically controls mode of operation (free-run, locked, holdover)•Automatic hitless reference switching and digital holdover on reference fail•Physical-to-physical reference switching•Physical-to-packet reference switching•Packet-to-physical reference switching•Packet-to-packet reference switching•Support for wide variety of Equipment Clock specifications•SyncE•ITU-T G.8262 option 1 EEC (Europe/China)•ITU-T G.8262 option 2 (USA)•SONET/SDH•ITU-T G.813 option 1 SEC (Europe/China)•ITU-T G.813 option 2 (USA)•ANSI T1.105/Telcordia GR-253 Stratum 3 for SONET•Telcordia GR-253 SMC•PDH•ITU-T G.812 Type I SSU•ITU-T G.812 Type III, ANSI T1.101/Telcordia GR-1244 Stratum 3E, including phase build out•ANSI T1.101/Telcordia GR-1244 Stratum 3•ANSI T1.101/Telcordia GR-1244 Stratum 4E/4•Selectable phase slope limiting•Holdover better than 1 ppb (when using < 0.1 Hz filter)•Supports ITU-T G.823, G.824 and G.8261 for 2048kbit/s and 1544kbit/s interfaces•Supports G.781 SETSElectrical Clock Generation•Four programmable synthesizers•Eight LVPECL outputs•Two LVPECL outputs per synthesizer•Generate any clock rate from 1 Hz to 750 MHz•Maximum jitter below 0.61 ps RMS•Meets OC-192, STM-64, 1 GbE & 10 GbE interface jitter requirements•Eight LVCMOS outputs•Two LVCMOS outputs per synthesizer•Generate any clock rate from 1 Hz to 177.75 MHz•Maximum jitter below 1 ps rms•Programmable output advancement/delay to accommodate trace delays or compensate for system routing paths•Outputs may be disabled to save powerAPI Software•Interfaces to 1588-capable PHY and switches with integrated timestamping•Abstraction layer for independence from OS and CPU, from embedded SoC to home-grown•Fits into centralized, highly integrated pizza box architectures as well as distributed architectures with multiple line cards and timing cardsApplications•ITU-T G.8262 System Timing Cards which support 1GbE and 10GbE interfaces•Telcordia GR-253 Carrier Grade SONET/SDH Stratum 3 System Timing Cards•System Timing Cards which supports ITU-T G.781 SETS (SDH Equipment Timing Source)•Integrated basestation reference clock for air interface for GSM, WCDMA, LTE and WiMAX macro, micro or femtocells•Mobile Backhaul NID, edge router or access aggregation node•EPON/GE-PON & GPON OLT•EPON/GE-PON & GPON ONU/OLT•DSLAM and RT-DSLAM•10Gigabit line cards•Synchronous Ethernet, 10GBASE-R and 10GBASE-W•SONET/SDH, Fibre Channel, XAUIInformation relating to products and services furnished herein by Microsemi Corporation or its subsidiaries (collectively “Microsemi”) is believed to be reliable. However, Microsemi assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any suchinformation, product or service or for any infringement of patents or other intellectual property rights owned by third parties which may result from such application or use. Neither the supply of such information or purchase of product or service conveys any license, either express or implied, under patents or other intellectual property rights owned by Microsemi or licensed from third parties by Microsemi, whatsoever. Purchasers of products are also hereby notified that the use of product in certain ways or in combination with Microsemi, or non-Microsemi furnished goods or services may infringe patents or other intellectual property rights owned by Microsemi.This publication is issued to provide information only and (unless agreed by Microsemi in writing) may not be used, applied or reproduced for any purpose nor form part of any order or contract nor to be regarded as a representation relating to the products or services concerned. The products, their specifications, services and other information appearing in this publication are subject to change by Microsemi without notice. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user’s responsibility to fully determine the performance and suitability of any equipment using such information and to ensure that any publication or data used is up to date and has not been superseded.Manufacturing does not necessarily include testing of all functions or parameters. These products are not suitable for use in any medical and other products whose failure to perform may result in significant injury or death to the user. All products and materials are sold and services provided subject to Microsemi’s conditions of sale which are available on request.Purchase of Microsemi’s I 2C components conveys a license under the Philips I 2C Patent rights to use these components in an I 2C System, provided that the system conforms to the I 2C Standard Specification as defined by Philips.Microsemi, ZL, and combinations thereof, VoiceEdge, VoicePort, SLAC, ISLIC, ISLAC and VoicePath are trademarks of Microsemi Corporation.TECHNICAL DOCUMENTATION - NOT FOR RESALEFor more information about all Microsemi productsvisit our Web Site at/timing-and-synchronization。
BC237
Symbol
Test conditions
V(BR)CBO V(BR)CEO V(BR)EBO
ICBO hFE(1)
hFE(2)
hFE(3) VCE(sat) VBE(sat)
VBE
fT
IC=100μA, IE=0
BC237 BC238/239
IC=2mA, IB=0
BC237 BC238/239
IE=100μA, IC=0
0.185
0.135
0.169
0.185
0.050 TYP.
0.096
0.104
0.555
0.571
0.063
0.000
0.015
【 南京南山半导体有限公司 — 长电三极管选型资料】
【 南京南山半导体有限公司 — 长电三极管选型资料】
【 南京南山半导体有限公司 — 长电三极管选型资料】
Seal the box with the tape
QA Label
Outer Box: 350 mm× 340mm× 250mm
Label on the Outer Box
【 南京南山半导体有限公司 — 长电三极管选型资料】
Inner Box: 240 mm×165mm×95mm
【 南京南山半导体有限公司 — 长电三极管选型资料】
Item Body width Body height Body thickness Lead wire diameter Pitch of component Feed hole pitch Hole center to component center Lead to lead distance Component alignment, F-R Type width Hole down tape width Hole position Hole down tape position Height of component from tape center Lead wire clinch height Lead wire(tape portion) Feed hole diameter Taped Lead Thickness Carrier Tape Thickness Position of hole Component alignment
BCX51 52 53 PNP中间功率导电器SOT89数据手册说明书
Features• BV CEO > -45V, -60V & -80V• I C = -1A Continuous Collector Current • I CM = -2A Peak Pulse Current• Low Saturation Voltage V CE(sat) <************• Gain Groups 10 and 16• Complementary NPN Types: BCX54, 55, and 56• Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2) • Halogen- and Antimony-Free. "Green" Device (Note 3)•For automotive applications requiring specific change control (i.e. parts qualified to AEC-Q100/101/200, PPAPcapable, and manufactured in IATF 16949 certified facilities),please contact us or your local Diodes representative.https:///quality/product-definitions/Mechanical Data• Case: SOT89• Case Material: Molded Plastic, “Green” Molding Compound; UL Flammability Rating 94V-0• Moisture Sensitivity: Level 1 per J-STD-020•Terminals: Matte Tin Finish Leads; Solderable per MIL-STD-202 Method 208•Weight: 0.052 grams (Approximate)Applications • Medium Power Switching or Amplification Applications • AF Driver and Output StagesOrdering Information (Note 4)Product Compliance Marking Reel Size (inches)Tape Width (mm)Quantity per ReelBCX51TA Standard AA 7 12 1,000 BCX51-13R Standard AA 13 12 4,000 BCX5110TA Standard AC 7 12 1,000 BCX5116TA Standard AD 7 12 1,000 BCX5116TC Standard AD 13 12 4,000 BCX52TA Standard AE 7 12 1,000 BCX5210TA Standard AG 7 12 1,000 BCX5216TA Standard AM 7 12 1,000 BCX53TA Standard AH 7 12 1,000 BCX5310TA Standard AK 7 12 1,000 BCX5316TA Standard AL 7 12 1,000 BCX5316TC Standard AL 13 12 4,000 BCX5316-13R Standard AL 13 12 4,000 BCX5110TC Standard AC 13 12 4,000 BCX51TC Standard AA 13 12 4,000 BCX5210TC Standard AG 13 12 4,000 BCX5216TC Standard AM 13 12 4,000 BCX52TC Standard AE 13 12 4,000 BCX5310TC Standard AK 13 12 4,000 BCX53TCStandardAH13124,000Notes: 1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS), 2011/65/EU (RoHS 2) & 2015/863/EU (RoHS 3) compliant.2. See https:///quality/lead-free/ for more information about Diodes Incorporated’s definitions of Halogen- 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 https:///design/support/packaging/diodes-packaging/.Top View Device SymbolTop View Pin-Out SOT89E C BMarking InformationAbsolute Maximum Ratings (@ T A = +25°C, unless otherwise specified.)CharacteristicSymbol BCX51 BCX52 BCX53 Unit Collector-Base Voltage V CBO -45 -60 -100 V Collector-Emitter Voltage V CEO -45-60 -80V Emitter-Base Voltage V EBO -5 V Continuous Collector CurrentI C -1 A Peak Pulse Collector Current (Single pulse) I CM -2 Continuous Base CurrentI B -100 mAPeak Pulse Base Current (Single pulse) I BM-200Thermal Characteristics (@ T A = +25°C, unless otherwise specified.)CharacteristicSymbol Value Unit Power Dissipation(Note 5) P D1 W(Note 6) 1.5 (Note 7) 2.0 Thermal Resistance, Junction to Ambient Air (Note 5) R θJA 125 °C/W (Note 6) 83 (Note 7)60 Thermal Resistance, Junction to Lead (Note 8) R θJL 13 °C/W Thermal Resistance, Junction to Case (Note 9)R θJC 27 °C/W Operating and Storage Temperature Range T J, T STG-55 to +150°CESD Ratings (Note 10)CharacteristicSymbol Value Unit JEDEC ClassElectrostatic Discharge - Human Body Model ESD HBM 4,000 V 3A Electrostatic Discharge - Machine ModelESD MM400VCNotes: 5. For a device mounted with the exposed collector pad on 15mm x 15mm 1oz copper that is on a single-sided 1.6mm FR4 PCB; device is measured under still air conditions whilst operating in a steady-state.6. Same as Note 5, except the device is mounted on 25mm x 25mm 1oz copper.7. Same as Note 5, except the device is mounted on 50mm x 50mm 1oz copper.8. Thermal resistance from junction to solder-point (on the exposed collector pad).9. Thermal resistance from junction to the top of the case.10. Refer to JEDEC specification JESD22-A114 and JESD22-A115.xx = Product Type Marking Code, as follows:BCX51 = AA BCX52 = AEBCX53 = AH BCX5110 = AC BCX5210 = AG BCX5310 = AK BCX5116 = AD BCX5216 = AMBCX5316 = ALThermal Characteristics and Derating Information2550751001251500.00.20.40.60.81.0Derating CurveTemperature (°C) M a x P o w e r D i s s i p a t i o n (W )Transient Therm al Im pedanceT h e r m a l R e s i s t a n c e (°C /W )Pulse Width (s)Pulse Power DissipationPulse Width (s)M a x P o w e r D i s s i p a t i o n (W )Copper Area (sqmm)M a x i m u m P o w e r (W )Copper Area (sqmm)T h e r m a l R e s i s t a n c e (°C /W )Note:11. Measured under pulsed conditions. Pulse width ≤ 300µs. Duty cycle ≤ 2%.Typical Electrical Characteristics (@ T A = +25°C, unless otherwise specified.)-I , COLLECTOR CURRENT (A)C h ,D C C U R RE N T G A I NF E Fig. 2 Typical DC Current Gain vs. Collector CurrentDC Current Gain vs. Collector Current -V , COLLECTOR-EMITTER VOLTAGE (V)CE I , C O L L E C T O R C U R R E N T (A )CFig. 1 Typical Collector Current vs. Collector-Emitter VoltageCollector Current vs. Collector-Emitter Voltage -h FE V I CI C V V CETypical Electrical Characteristics (continued.)0.20.40.60.81.0-V , B A S E -E M I T T E R T U R N -O N V O L T A G E (V )B E (O N)-I , COLLECTOR CURRENT (A)C -V , C O L L E C T O R -E M I T T E R S A T U R A T I O N V O L T A G E (V )C E (S A T )Fig. 4 Typical Collector-Emitter Saturation Voltagevs. Collector Current 0.20.40.60.81.01.2-V , B A S E -E M I T T E R S A T U R A T I O N V O L T A G E (V B E (S AT )-I , COLLECTOR CURRENT (mA)C f , G A I N -B A ND W I D T H P R O D U C T (M H z )T Fig. 6 Typical Gain-Bandwidth Product vs. Collector Current V , REVERSE VOLTAGE (V)R C A P A C I T A N C E (p F )Fig. 7 Typical Capacitance Characteristics -V B E (s a t ), B A S E -E M I T T E R S A T U R A T I O N V O L T A G E )-V B E (o n ), B A S E -E M I T T E R T U R N -O N V O L T A G E (V )-V C E (s a t ) , C O L L E C T O R -E M I T T E RC v V RVCE(sat) V I Cf T V I CPackage Outline DimensionsPlease see /package-outlines.html for the latest version.SOT89SOT89Dim Min Max TypA 1.40 1.60 1.50B 0.50 0.62 0.56B1 0.42 0.540.48c 0.35 0.43 0.38D 4.40 4.60 4.50D1 1.62 1.83 1.733D2 1.61 1.81 1.71E 2.40 2.60 2.50E2 2.05 2.35 2.20e - - 1.50H 3.95 4.25 4.10H1 2.63 2.93 2.78L 0.90 1.20 1.05L1 0.327 0.527 0.427z 0.20 0.40 0.30All Dimensions in mmSuggested Pad LayoutPlease see /package-outlines.html for the latest version.SOT89Dimensions Value(in mm)C 1.500G 0.244X 0.580X1 0.760X2 1.933Y 1.730Y1 3.030Y2 1.500Y3 0.770Y4 4.530TOP VIEW。
BM3453
版本: A:A版本 B:B版本
S16:代表SOP16封装 T16:代表TSSOP16封装
过流2与短路
放电过流1与充电过流
BM3453系列产品
过放阈值
图2
过充阈值
2. 产品目录
原厂技术支持:136 3262 6608 张先生(报价、样品、技术问题请电话咨询) 过充电 过充电 过放电 过放电 放电过 放电过
表2
说明书
WI-D06-J-0303 Rev.A/0
4/17
BYD Microelectronics Co., Ltd.
BM3453 系列
绝对最大额定值 项目
符号
适用端子
绝对最大额定值
单位
电源电压
VCC
-
GND-0.3 ~ GND+30
V
各节电池电压
VCELL
Vcell3、Vcell2、 Vcell1
s
过充电 解除阈值 VREL1
V1=V2=3.5V V3=4.4V→3.5V
VREL1 -0.05
VREL1
VREL1 +0.05
V
解除延时 TREL1
V1=V2=3.5V V3=4.4V→3.5V
20
30
40
ms
2
温度系数 1 KU1
Ta= -40℃ to 85℃
-0.6
0
0.6 mV/℃
保护阈值 过放电
BM3453TNDA-T16A 4.250V 4.130V 2.800V 3.000V 0.100V 0.200V 0.400V
BM3453TJDA-T16A 4.250V 4.130V 2.500V 2.700V 0.100V 0.200V 0.400V 表1
三极管参数查询表(精)
三极管参数查询表三极管参数查询表名称封装极性功耐压电流功率频率配对管D633 28 NPN 音频功放 100V 7A 40W 达林顿 9013 21NPN 低频放大 50V 0.5A 0.625W 90129014 21 NPN 低噪放大50V 0.1A 0.4W 150HMZ 9015 9015 21 PNP 低噪放大 50V 0.1A 0.4W 150MHZ 90149018 21 NPN 高频放大30V 0.05A 0.4W 1000MHZ 8050 21NPN 高频放大 40V 1.5A 1W 100MHZ 85508550 21 PNP 高频放大 40V 1.5A 1W 100MHZ 8050 2N2222 21 NPN 通用60V 0.8A 0.5W 25/200NS 2N2369 4A NPN 开关 40V 0.5A 0.3W 800MHZ 2N2907 4A NPN 通用 60V 0.6A 0.4W 26/70NS 2N3055 12 NPN 功率放大 100V 15A 115W MJ2955 2N3440 6 NPN 视放开 450V 1A 1W15MHZ 2N6609 2N3773 12 NPN 音频功放 160V 16A 50W 2N3904 21E NPN 通用 60V 0.2A2N2906 21C PNP 通用 40V 0.2A2N2222A 21铁 NPN 高频放大 75V 0.6A 0.625W 300MHZ2N6718 21铁 NPN 音频功放 100V 2A 2W2N5401 21 PNP 视频放大 160V 0.6A 0.625W 100MHZ2N5551 2N5551 21 NPN 视频放大 160V 0.6A 0.625W 100MHZ 2N5401 2N5685 12 NPN 音频功放 60V 50A 300W2N6277 12 NPN 功放开 180V 50A 250W9012 21 PNP 低频放大 50V 0.5A 0.625W 9013 2N6678 12 NPN 音频功放 650V 15A 175W 15MHZ 9012 贴片 PNP 低频放大 50V 0.5A 0.625W 9013 3DA87A 6 NPN 视频放大 100V 0.1A 1W3DG6B 6 NPN 通用 20V 0.02A 0.1W 150MHZ 3DG6C 6 NPN 通用 25V 0.02A 0.1W 250MHZ 3DG6D 6 NPN 通用 30V 0.02A 0.1W 150MHZ MPSA42 21E NPN 电话视频 300V 0.5A 0.625W MPSA92 MPSA92 21E PNP 电话视频 300V 0.5A 0.625W MPSA42 MPS2222A 21 NPN 高频放大 75V 0.6A 0.625W 300MHZ 9013 贴片 NPN 低频放大 50V 0.5A 0.625W 9012 3DK2B 7 NPN 开关30V 0.03A 0.2W 3DD15D 12 NPN 电源开关 300V 5A 50W 3DD102C 12 NPN 电源开关 300V 5A 50W 3522V 5V稳压管 A634 28E PNP 音频功放 40V 2A 10WA708 6 PNP 音频开关 80V 0.7A 0.8W A715C 29 PNP 音频功放 35V 2.5A 10W 160MHZ A733 21 PNP 通用 50V 0.1A 180MHZ A741 4 PNP 开关 20V 0.1A 70/120NS A781 39B PNP 开关 20V 0.2A 80/160NS A928 ECB PNP 通用 20V 1A 0.25W A933 21 PNP 通用 50V 0.1A 140MHZ A940 28 PNP 音频功放 150V 1.5A 25W 4MHZ C2073 A966 21 PNP 音频激励 30V 1.5A 0.9W 100MHZ C2236 A95021 PNP 通用 30V 0.8A 0.6W A968 28 PNP 音频功放 160V 1.5A 25W 100MHZC2238 A1009 BCE PNP 功放开关 350V 2A 15W A1220P 29 PNP 音频功放 120V 1.5A 20W 150MHZ A1013 21 PNP 视频放大 160V 1A 0.9W C2383 A1015 21 PNP 通用 60V 0.1A 0.4W 8MHZ C1815 2N6050 12 PNP 音频功放 60V 12A 150W2N6051 12 PNP 音频功放 80V 12A 150W A1175 PNP 通用 60V 0.10A 0.25W 180MHZ A1213 贴片 PNP 超高频 50V 0.15A 80MHZ A719 ECB PNP 通用 30V 0.50A 0.625W 200MHZ B12 G-PNP 音频 30V 0.05A 0.05W B1114 ECB PNP 通用贴 20V 2A 180MHZ B205 锗管 PNP 音频功放 80V 20A 80W B1215 BCE PNP 功放开关 120V 3A 20W 130MHZ C294 6 NPN 栾生对管 25V 0.05A 200MHZC1044 6 NPN 视放 45V 0.3A 2.2GHZ C1216 6 NPN 高速开关 40V 0.2A T,20nS C1344 ECB NPN 通用低噪 30V 0.10 230MHZ C1733 6 NPN 栾生对管 30V 0.05A 2GHZ C1317 21ECB NPN 通用 30V 0.5A 0.625W 200MHZ C546 21ECB NPN 高放 30V 0.03A 0.15W 600MHZ C680 11 NPN 音频功放 200V 2A 30W 20MHZC665 12 NPN 音频功放 125V 5A 50W 15MHZ C4581 BCE NPN 电源开关 600V10A 65W 20MHZ. C4584 BCE NPN 电源开关 1200V 6A 65W 20MHZ C4897 BCE NPN 行管 1500V 20A 150W C4928 BCE NPN 行管 1500V 15A 150W C5411 BCE NPN 彩显行管1 1500V 14A 60W HQ1F3P 贴片 NPN 功放开关 20V 2A 2WTIP132 28 NPN 音频功放 100V 8A 70W TIP137 A1020 21 PNP 音频开 50V 2A 0.9W A1123 21 PNP 低噪放大 150V 0.05A 0.75W A1162 21D PNP 通用贴 50V 0.15A 0.15W A1216 BCE PNP 功放开关 180V 17A 200W 20MHZ C2922 A1265 BCE PNP 功放开关 140V 10A 100W 30MHZ C3182 A1295 BCE PNP 功放开关230V 17A 200W 30MHZ C3264 A1301 BCE PNP 功放开关 160V 12A 120W 30MHZ C3280 C3280 BCE NPN 功放开关 160V 12A 120W 30MHZ A1301 A1302 BCE PNP 功放开关 200V 15A 120W 30MHZ C3281 C3281 BCE NPN 功放开关 200V 15A 120W 30MHZ A1302 A1358 BCE PNP 120V 1A 10W 120MHZ A1444 BCE PNP 高速电源 100V 15A 30W 80MHZ A1494 BCE PNP 功放开关 200V 17A 200W 20MHZC3858 A1516 BCE PNP 功放开关 180V 12A 130W 25MHZ A1668 BCE PNP 电源开关 200V 2A 25W 20MHZ A1785 BCE PNP 驱动 120V 1A 1W 140MHZ A1941 BCE PNP 音频功放 140V 10A 100W C5198 C5198 BCE NPN 音频功放 140V 10A 100W A1941 A1943 BCE PNP 功放开关 230V 15AA 150W C5200 C5200 BCE NPN 功放开关 230V 15A 150W A1943 A1988 BCE PNP 功放开关 B449 锗 12 PNP 功放开关 50V 3.5A 22.5W B647 21 PNP 通用 120V 1A 0.9W 140MHZ D667 D667 21 NPN 通用 120V 1A 0.9W 140MHZ B649 B1375 BCE PNP 音频功放 60V 3A 2W9MHZ D40C BCE NPN 对讲机用 40V 0.5A 40W 75MH B688 BCE PNP 音频功放120V 8A 80W D718 B734 39B PNP 通用 60V 1A 1W D774 B649 29 PNP 视放180V 1.5A 20W D669 D669 29 NPN 视频放大 180V 1.5A 20W 140MHZ B649B669 28 PNP 达林顿功 70V 4A 40W B675 28 PNP 达林顿功 60V 7A 40W B673 28 PNP 达林顿功 100V 7A 40W B631K 29 PNP 音频功放 120V 1A 8W 130MHZD600K D600K 29 NPN 音频功放 120V 1A 8W 130MHZ B631K C3783 BCE NPN 高压高速 900V 5A 100W B1400 28B PNP 达林顿功 120V 6A 25W D1590 B744 29 PNP 音频功放 70V 3A 10W B1020 28 PNP 功放开关 100V 7A 40W B1240 39B PNP 功放开 40V 2A 1W 100MHZ B1185 28B PNP 功放开 60V 3A 25W 70MHZD1762 B1079 30 PNP 达林顿功 100V 20A 100W D1559 B772 29 PNP 音频功放40V 3A 10W D882 B774 21 PNP 通用 30V 0.1A 0.25W B817 30 PNP 音频功放160V 12A 100W D1047 B834 28 PNP 功放开关 60V 3A 30W B1316 54B PNP 达林顿功 100V 2A 10W B1317 BCE PNP 音频功放 180V 15A 150W D1975 B1494 BCE PNP 达林顿功 120V 20A 120W D2256 B1429 BCE PNP 功放开关 180V 15A 150W C380 21 NPN 高频放大 35V 0.03A 250MHZ C458 21 NPN 通用 30V 0.1A 230MHZ C536 21 NPN 通用 40V 0.1A 180MHZ 2N6609 12 PNP 音频功放 160V 15A 150W >2MHZ 2N3773 C3795 BCE NPN 高压高速 900V 5A 40W C2458 21ECB NPN 通用低噪 50V 0.15A 0.2W C3030 BCE NPN 开关管 900V 7A 80W. 达林顿C3807 BCE NPN 低噪放大 30V 2A 1.2W 260MHZ C3858 BCE NPN 功放开关 200V 17A 200W 20MHZ A1494 D985 29 NPN 达林顿功 150V ±1.5A 10W C2036 29 NPN 高放低噪 80V 1A 1-4W C2068 28E NPN 视频放大 300V 0.05A 1.5W80MHZ C2073 28 NPN 功率放大 150V 1.5A 25W 4MHZ A940 C3039 28 NPN 电源开关 500V 7A 50W C3058 12 NPN 开关管 600V 30A 200W C3148 28 NPN 电源开关 900V 3A 40W C3150 28 NPN 电源开关 900V 3A 50W C3153 30 NPN 电源开关 900V 6A 100W C3182 30 NPN 功放开关 140V 10A 100W A1265 C3198 21 NPN 高频放大 60V 0.15A 0.4W 130MHZ 3DK4B 7 NPN 开关 40V 0.8A 0.8W3DK7C 7 NPN 开关 25V 0.05A 0.3W 3D15D 12 NPN 电源开关 300V 5A 50WC2078 28 NPN 音频功放 80V 3A 10W 150MHZ C2120 21 NPN 通用 30V 0.8A 0.6W C2228 21 NPN 视频放大 160V 0.05A 0.75W C2230 21 NPN 视频放大200V 0.1A 0.8W C2233 28 NPN 音频功放 200V 4A 40W C2236 21 NPN 通用30V 1.5A 0.9W A966 C1733 小铁 NPN 孪生对管 30V 2GHZ C1317 21EBC NPN 通用 30V 0.5A 0.625W 200MHZ C2238 28 NPN 音频功放 160V 1.5A 25W100MHZ A968 C752 21 NPN 通用 30V 0.1A 300MHZ C815 21 NPN 通用 60V0.2A 0.25W C828 21 NPN 通用 45V 0.05A 0.25W C900 21 NPN 低噪放大 30V 0.03A 100MHZ C945 21 NPN 通用 50V 0.1A 0.5W 250MHZ C1008 21 NPN 通用80V 0.7A 0.8W 50MHZ C1162 21 NPN 音频功放 35V 1.5A 10W C1213 39B NPN 监视器专 30V 0.5A 0.4W C1222 21 NPN 低噪放大 60V 0.1A 100MHZ C149440A NPN 发射 36V 6A PQ=40W 175MHZ C1507 28 NPN 视放 300V 0.2A 15WC1674 21 NPN HF/ZF 30V 0.02A 600MHZ C1815 21 NPN 通用 60V 0.15A 0.4W 8MHZ A1015 C1855 21F NPN HF/ZF 20V 0.02A 550MHZ C1875 12 NPN 彩行1500V 3.5A 50W C1906 21 NPN 高频放大 30V 0.05A 1000MHZ C1942 12 NPN 彩行 1500V 3A 50W C1959 21 NPN 通用 30V 0.4A 0.5W 300MHZ C1970 28 NPN 手机发射 40V 0.6A PQ=1.3W 175MHZ C1971 28A NPN 手机发射 35V 2A PQ-7.0W 175MHZ C1972 28A NPN 手机发射 35V 3.5A PQ=15W 175MHZ C2320 21 NPN 通用 50V 0.2A 0.3W 200MHZ C2012 21 NPN 高放 30V 0.03A 200MHZC2027 12 NPN 行管 1500V 5A 50W D814 BCE NPN 低噪放大 150V 0.05A150MHZ C5142 BCE NPN 彩行 1500V 20A 200W D998 BCE NPN 音频功放 120V 10A 80W <1/3US D2253 BCE NPN 彩显行管 1700V 6A 50W D110 12 NPN 音频功放 130V 10A 100W 1MHZ C2335 28 NPN 视频功 500V 7A 40W C2373 28 NPN 功放 200V 7.5A 40W C2383 21 NPN 视频开关 160V 1A 0.9W A1013 C3300 30 NPN 音频功放 100V 15A 100W C3310 28C NPN 电源开关 500V 5A 40W C3320 28C NPN 电源开头 500V 15A 80W C3355 21F NPN 高频放大 20V 0.1A 6500MHZ C3358 40B NPN 高频放大 20V 0.1A 7000MHZ C3457 BCE NPN 电源开关 1100V 3A 50W C3460 BCE NPN 电源开关 1100V 6A 100W C3466 BCE NPN 电源开关1200V 8A 120W C3505 28B NPN 电源开关 900V 6A 80W C3527 BCE NPN 电源开关 500V 15A 100W C3528 BCE NPN 电源开关 500V 20A 150W C3866 BCE NPN 高压高速 900V 3A 40W C2443 大铁 NPN 功放开关 600V 50A 400W C2481 29 NPN 音频功放 150V 1.5A 20W C2482 21 NPN 视频放大 300V 0.1A 0.9W C2500 21 NPN 通用 30V 2A 0.9W 150MHZ C2594 29 NPN 音频功放 40V 5A 10W C2611 29 NPN 视频放大 300V 0.1A 1.25W C2625 30 NPN 音频功放 450V 10A 80WC2682 29 NPN NF/Vid 180V 0.1A 8W C2688 29 NPN 视放管 300V 0.2A 10W80MHZ C2690 29 NPN 音频功放 120V 1.2A 20W 150MHZ A1220P C2751 BCE NPN 电源开关 500V 15A 120W C2837 30 NPN 音频功放 150V 10A 100W C3873 BCE NPN 高压高速 500V 12A 75W 30MHZ C3886 BCE NPN 开关行 1400V 8A 50W8MHZ C3893 28B NPN 行管 1400V 8A 50W 8MHZ C3907 28B NPN 功放开关 180V 12A 130W 30MHZ C3595 29 NPN 射频 30V 0.5A 1.2W C4059 BCE NPN 高速开关600V 15V 130W 0.5/2.2US C4106 BCE NPN 电源开关 500V 7A 50W 20MHZ?C4111 BCE NPN 开关行 1500V 10A 150W C3679 BCE NPN 电源开关 900V 5A 100W 6MHZ C2898 28 NPN 音频功放 500V 8A 50W C2922 43 NPN 音频功放180V 17A 200W 50MHZ A1216 C3026 12 NPN 开关管 1700V 5A 50W D986 29 NPN 达林顿功 150-80V ±1.5A 10W C3262 BCE NPN 功放 800V 10A 100WC3264 BCE NPN PA功放 230V 17A 200WB=170 A1295 C3280 30 NPN 音频功放160V 12A 120WB=100 C3281 30 NPN 音频功放 200V 15A 150W 30MHZ C3680 BCE NPN 电源开关 900V 7A 120W 6MHZ C3688 BCE NPN 彩行 1500V 10A 150W C3720 12 NPN 彩行 1200V 10A 200W C3953 29 NPN 视放 120V 0.2A 1.3W400MHZ C3987 28 NPN 达林顿 50V 3A 20W C3995 BCE NPN 行管 1500V 12A 180W D1025 28 NPN 达林顿功 200V 8A 50W C3997 BCE NPN 行管 1500V 15A 250W C3998 BCE NPN 行管 1500V 25A 250W C4024 BCE NPN 功放开关 100V10A 35W 24MHZ C4038 BCE NPN 门电路 50V 0.1A 0.3W 180MHZ D1037 BCE NPN 音频功放 150V 30A 180W D1047 30 NPN 音频功放 160V 12A 100W B817 C4119 BCE NPN 微波炉 1500V 15A 250W C4231 50C NPN 音频功放 800V 2A 30WC4237 BCE NPN 高压高速 1000V 8A 120W 30MHZ C4242 BCE NPN 高压高速450V 7A 40W C4297 BCE NPN 电源开关 500V 12A 75W 10MHZ C4429 BCE NPN 电源开关 1100V 8A 60W C4517 BCE NPN 音频功放 550V 3A 30W 6MHZ C4532 BCE NPN 大屏行管 1700V 10A 200W C4582 BCE NPN 电源开关 600V 15A 75W 20MHZ ON4673 BCE NPN ON4873 BCE NPN C5244 BCE NPN 彩行 1700V 15A 200W C5249 BCE NPN 功放开关 600V 3A 35W 6MHZ C5250 BCE NPN 开关 1000V 7A 100W C5251 BCE NPN 彩行 1500V 12A 50W D1071 28 NPN 达林顿功 300V 6A 40W C4706 BCE NPN 电源开关 900V 14A 130W 6MHZ C4382 BCE NPN 功放开关200V 2A 25W 20MHZ A1668 C4742 46 NPN 彩行 1500V 6A 50W C4745 46 NPN 彩行 1500V 6A 50W C4747 46 NPN 彩行 1500V 10A 50W C4769 BCE NPN 微机行管 1500V 7A 60W C4913 BCE NPN 大屏视放 2000V 0.02A 35W C4924 BCE NPN 音频功放 800V 10A 70W C4927 BCE NPN 行管 1500V 8A 50W C4927 BCE NPN SONY29行 1500V 8A 50W C4941 BCE NPN 行管 1500V 6A 65W 500/380NS C4953 BCE NPN 功放开关 500V 2A 25W t=300nS C5020 BCE NPN 彩行 1000V 7A 100W C5068 BCE NPN 彩行 1500V 10A 50W C5086 BCE NPN 彩行 1500V 10A 50W C5088 BCE NPN 彩行 1500V 10A 50W C5129 BCE NPN 彩显行管 1500V 8A 50W D1163A 28 NPN 行偏转用 350V 7A 40W 60MHZ D1175 12 NPN 行偏转用1500V 5A 100W C5132 BCE NPN 彩行 1500V 16A 50W C5144 BCE NPN 大屏彩行1700V 20A 200W C5148 BCE NPN 大屏彩行 1500V 8A 50W C5149 BCE NPN 高速高频 1500V 8A 50W C5198 BCE NPN 功放开关 140V 10A 100W C5200 BCE NPN 功放开关 230V 15A 150W A1943 D1273 28 NPN 音频功放 80V 3A 40W 50MHZC5207 BCE NPN 彩行 1500V 10A 50W C5243 BCE NPN 彩行 1700V 15A 200WC5252 BCE NPN 彩行 1500V 15A 100W C5294 BCE NPN 彩行 1500V 20A t=200MS C5296 BCE NPN 开关管 1500V 8A 80W C5297 BCE NPN 开关管 1500V 16A 60W C5331 BCE NPN 大屏彩显 1500V 15A 180W D325 BCE NPN 功放开关50V 3A 25W D385 11 NPN 达林顿功 100V 7A 30W D400 21 NPN 通用 25V 1A 0.75W D1302 21 NPN 音频 25V 0.5A 0.5W 200MHZ D1397 BCE NPN 开关 1500V 3.5A 50W 3MHZ D1398 BCE NPN 开关 1500V 5A 50W 3MHZ D1403 BCE NPN 彩行1500V 6A 120W D401 28 NPN 音频功放 200V 2A 20W D415 29 NPN 音频功放120V 0.8A 5W D438 21 NPN 通用 500V 1A 0.75W 100MHZ D560 BCE NPN 达林顿功 150V 5A 30W D637 39E NPN 通用 60V 0.1A 150MHZ D667 21 NPN 视频放大 120V 1A 0.9W 140MHZ B647 D1403 BCE NPN 彩行 1500V 6A 120W D1415 BCE NPN 功放电源 100V 7A 40W 达林顿 D718 30 NPN 音频功放 120V 8A 80W B668 D774 39B NPN 通用 100V 1A 1W B734 D789 21 NPN 音频输出 100V 1A 0.90 D820 12 NPN 彩行 1500V 5A 50W D870 12 NPN 彩行 1500V 5A 50W D880 28 NPN 音频功放 60V 3A 10W D882 29 NPN 音频功放 40V 3A 30W B772 D884 28 NPN 音频功放 330V 7A 40W D898 12 NPN 彩行 1500V 3A 50W D951 12 NPN 彩行 1500V 3A 65W D965 21 NPN 音频 40V 5A 0.75W D966 21 NPN 音频 40V 5A 1W D633拆 28 NPN 音频功放 100V 7A 40W达林顿 D1431 28B NPN 彩行1500V 5A 80W D1433 28B NPN 彩行 1500V 7A 80W D1980 61B NPN 达林顿100V 2A 10W D1981 EBC NPN 达林顿 100V 2A 1W D1993 45B NPN 音频低噪55V 0.1A 0.4W D1416 BCE NPN 功放电源 80V 7A 40W 达林顿 D1427 BCE NPN 彩行 1500V 5A 80W 带阻尼 BU2525AF 30 NPN 开关功放 1500V 12A 150W350NS D1428 28B NPN 彩行 1500V 6A 80W 带阻尼 BU2525AX 30 NPN 开关功放1500V 12A 150W 350NS D1439 BCE NPN 彩行 1500V 3A 80W D1541 28B NPN 彩行 1500V 3A 80W D1545 28B NPN 彩行 1500V 5A 50W D1547 BCE NPN 彩行1500V 7A 80W BU2527AF 30 NPN 开关功放 1500V 15A 150W D1554 BCE NPN 彩行 1500V 3.5A 80W D1555 BCE NPN 彩行 1500V 5A 80W D1556 BCE NPN 彩行1500V 6A 80W D1559 BCE NPN 达林顿功 100V 20A 100W B1079 D1590 28 NPN 达林顿功 150V 8A 25W D1623 28B NPN 彩行 1500V 4A 70W D1640 29 NPN 达林顿功 120V 2A 1.2W D1651 SP NPN 彩行 1500V 5A 60W 3MHZ D1710 BCE NPN 彩行 1500V 5A 50W D1718 28C NPN 音频功放 180V 15A 150W 20MHZ D1762 BCE NPN 音频功放 60V 3A 25W 90MHZ B1185 D1843 BCE NPN 低噪 50V 1A 1W D1849 50A NPN 彩行 1500V 7A 120W D1850 50A NPN 彩行 1500V 7A 120WD1859 50A NPN 音频 80V 0.7A 1W 120MHZ D1863 50A NPN 音频 120V 1A 1W 100MHZ D1724 29 NPN 开关 120V 3A 180MHZ D1877 30 NPN 彩行 1500V 4A50W 带阻尼 D1879 30 NPN 彩行 1500V 6A 60W 带阻尼 D1887 20 NPN 彩行1500V 10 70W D1930 21 NPN 达林顿 100V 2A 1.2W 达林顿 D1975 53A NPN 音频功放 180V 15A 150W B1317 BU2532AW 30 NPN 开关功放 1500V 15A 150WD1978 21 NPN 达林顿 120V 1.5A 0.9W D1994A EBC NPN 音频驱动 60V 1A 1W BD237 29 NPN 音频功 100V 2A 25W BD238 BD238 29 PNP 音频功 100V 2A 25W BD237 BU2520AF 30 NPN 开关功放 1500V 10A 150W 1/500NS BU2520DF 30NPN 开关功放 1500V 10A 150W 1/500NS BU2520DX 30 NPN 开关功放 1500V10A 50W 600NS BUH515 BCE NPN 行管 1500V 10A 80W BUH515D BCE NPN 行管1500V 10A 80W BUS13A 12 NPN 开关功放 1000V 15A 175W D1997 45B NPN 激励管 40V 3A 1.5W 100MHZ D2008 EBC NPN 音频功放 80V 1A 1.2W D2012 BCE NPN 音频功放 60V 3A 2W 3MHZ D2136 EBC NPN 功放 80V 1A 1.2W D2155 53A NPN 音频功放 180V 15A 150W D2256 46 NPN 达林顿功 120V 25A 125W B1494 D2334 28B NPN 彩行 1500V 5A 80W D2335 BCE NPN 彩行 1500V 7A 100W 带阻尼 D2349 BCE NPN 大屏彩显1500V ±10A 50W D1959 BCE NPN 彩行 1400V10A 50W D2374 BCE NPN 功放开关 60V 3A 25W 30MHZ D2375 BCE NPN 高放大倍 80V 3A 25W 50MHZ D2388 EBC NPN 达林顿 90V 3A 1.2W D2445 BCE NPN 彩行 1500V 12.5A 120W D2498 BCE NPN 彩行 1500V 6A 50W D2588 BCE NPN 点火器用 DK55 BCE NPN 开关 400V 4A 60W BC307 21a PNP 通用 50V 0.2A 0.3W BC327 CBE PNP 低噪音 50V 0.8A 0.625W BC337 BC337 21a NPN 音频激励50V 0.8A 0.625W BC327 BC338 21a NPN 通用激 50V 0.8A 0.6W BC546 21a NPN 通用 80V 0.2A 0.5W BC547 CBE NPN 通用 50V 0.2A 0.5W 300MHZ BD135 29 NPN 音频功 45V 1.5A 12.5W BD136 29 PNP 音频功 45V 1.5A 12.5WBD137 BD137 29 NPN 音频功 60V 1.5A 12.5W BD136 BD138 29 PNP 音频功60V 1.5A 12.5W BD139 BD139 29 PNP 音频功 80V 1.5A 12.5W BD138 BUS14A 12 NPN 开关功放 1000V 30A 250W BUT11A 28 NPN 开关功放 1000V 5A 100W BD243 28 NPN 音频功 45V 6A 65W BD244 BD244 28 PNP 音频功 45V 6A 65W BD243 BD681 29 NPN 达林顿功 100V 4A 40W BD682 BD682 29 PNP 达林顿功100V 4A 40W BD681 BF458 29 NPN 视放 250V 0.1A 10W BU208A 12 NPN 彩行1500V 5A 12.5W BU208D 12 NPN 彩行 1500V 5A 12.5W BU323 28 NPN 达林顿功 450V 10A 125W BU406 28 NPN 行管 400V 7A 60W BU508A 28 NPN 行管1500V 7.5A 75W BU508A 28 NPN 行管 1500V 7.5A 75W BU508D 28 NPN 行管1500V 7.5A 75W BU806 28 NPN 功放 400V 8A 60W BU932R 12 NPN 功放 500V 15A 150W BUT12A 28 NPN 开关功放 450V 10A 125W BU941 12 NPN 功放开关500V 15A 175W 达林顿 BU1508DX 28 NPN 开关功放 1500V 8A 35W BU2506DX 30 NPN 开关功放 1500V 7A 50W 600NS BU2508AF 30 NPN 开关功放 1500V 8A 125W 600NS BU2508AX 30 NPN 开关功放 1500V 8A 125W 600NS BU2508DF 30 NPN 开关功放 1500V 8A 125W 600NS BU2508DX 30 NPN 开关功放 1500V 8A50W 600NS BUV26 28 NPN 音频功放 90V 14A 65W 250NS BU2522AF 30 NPN 开关功放 1500V 11A 150W 350NS MJ15024 12 NPN 音频功放 400V 16A 250W4MHZ MJ15025 MJ15025 12 PNP 音频功放 400V 16A 250W 4MHZ MJ15024MJE271 29 PNP 达林顿 100V 2A 15W 6MHZ BUV28A 28 NPN 音频功放 225V 10A 65W 250NS BUV48A 30 NPN 音频功放 450V 15A 150W BUW13A 30 NPN 功放开关1000V 15A 150W BUX48 12 NPN 功放开关 850V 15A 125W BUX84 30 NPN 功放开关 800V 2A 40W BUX98A 12 NPN 功放开关 400V 30A 210W 5MHZ DK55 28 NPN 功放开关 400V 4A 65W DTA114 PNP 10K-10K 160V 0.6A 0.625W DTC143 NPN 录像机用 4.7k HPA100 BCE NPN 大屏彩显 1500V 10A 150W HPA150 BCE NPN 大屏彩显 1500V 15A 150W HSE830 BCE PNP 音频功放 80V 115W 1MHZ HSE800 HSE838 BCE NPN 音频功放 80V 115W 1MHZ HSE830 MN650 BCE NPN 行管 1500V 6A 80W MJ802 12 NPN 音频功放 90V 30A 200W MJ4502 MJ2955 12 PNP 音频功放 60V 15A 115W MJ3055 MJ3055 12 NPN 音频功放 60V 15A 115WMJ2955 MJ4502 12 PNP 音频功放 90V 30A 200W MJ802 MJ10012 12 NPN 达林顿 400V 10A 175W MJ10015 12 NPN 电源开关 400V 50A 200W MJ10016 12 NPN 电源开关 500V 50A 200W MJ10025 12 电源开关 850V 20A 250W MJ11032 12 NPN 电源开关 120V 50A 300W MJ11033 MJ11033 12 PNP 电源开关 120V 50A 300W MJ11032 MJ13333 12 NPN 电源开关 400V 20A 175W MJ11015 12 PNP 铁达林顿 500V 10A MJ14003 12 PNP 铁 MJE340 29 NPN 视放 300V 0.5A 20W MJE350 MJE350 29 PNP 视放 300V 0.5A 20W MJE340 MJE2955T BCE PNP 音频功放 60V 10A 75W 2MHZ MJE3055T MJE3055T BCE NPN 音频功放 70V 10A 75W 2MHZ MJE2955T MJE5822 BCE PNP 音频功放 500V 8A 80W MJE9730 BCE NPN MJE13003 29 NPN 功放开关 400V 1.5A 14W MJE13005 28 NPN 功放开关 400V 4A 60W MJE13007 28 NPN 功放开关 1500V 2.5A 60W KSE800 28 NPN 达林顿140V 4A 20W TIP31C BCE NPN 功放开关 100V 3A 40W 3MHZ TIP32 TIP32C BCE PNP 功放开关 100V 3A 40W 3MHZ TIP31 TIP35C 30 NPN 音频功放 100V 25A 125W 3MHZ TIP36 TIP36C 30 PNP 音频功放 100V 25A 125W 3MHZ TIP35TIP41C 30 NPN 音频功放 100V 6A 65W 3MHZ TIP42 TIP42C 30 PNP 音频功放100V 6A 65W 3MHZ TIP41 TIP102 28 NPN 音频功放 100V 8A 2W TIP105 28 PNP 音频功放 60V 15A 80W 达林顿 TIP122 28 NPN 音频功放 100V 5A 65W TIP127 TIP127 28 PNP 音频功放 100V 5A 65W TIP122 TIP137 28 PNP 音频功放 100V 8A 70W TIP132 TIP142 30 NPN 音频功放 100V 10A 125W TIP147TIP142大 30 NPN 音频功放 100V 10A 125W TIP147 TIP147 30 PNP 音频功放100V 10A 125W TIP142 TIP147大 30 PNP 音频功放 100V 10A 125W TIP142 TIP152 BCE 电梯用达 400V 3A 65W TL431 21 电压基准源 BT33 电压结晶体管UGN3144 SGO 霍尔开关 60MIAL1 电磁/微 1000V 60A 300W T30G40 BCE NPN 大功率开 400V 30A 300W 5609 21 NPN 音频低频 50V 0.8A 0.625W 5610 5610 21 PNP 音频低频 50V 0.8A 0.625W 5610 9626 21 NPN 通用。
SP4533中文资料SP4533规格书SP4533PDF
SWT 端可以驱动 LED 灯用于手电筒照明,最大驱动电流 为 50mA , 可以给 LED 串联电阻来减小指示手电灯的电 流,SWT 同时也是按键开关脚,如果长按 S1 键 2S,手电 筒打开,再次长按 S1 键 2S 手电筒输出关闭。
元件选择
1、输出电容 C1 选择质量较好的低 ESR 的贴片电容,否 则会影响输出纹波; 2、电感 L1 的饱和电流需大于 3A,否则因电感饱和可能 会导致芯片工作不正常;
典型应用电路
SP4533 1A 同步移动电源方案
特点
放电输出:5V/1A 充电电流: 1A 1A 输出放电效率高达 92% BAT 放电终止电压:2.85V 外部引脚可选 4.2V/4.35V 充电电压 智能温度控制与过温保护 集成输出过压保护、短路保护、重载保护 集成过充与过放保护 支持涓流模式以及零电压充电 支持手电筒输出 封装形式:ESOP8
VSD
VOUT ILEDx FLED1_C FLED2_WN RON_CHRG RON_NMOS RON_PMOS FOSC
VDD-VBAT 锁定阈值
升压输出电压 LEDx 驱动电流 LED1 充电闪烁频率 LED2 低电报警频率 充电 PMOS 导通电阻 放电 NMOS 导通电阻 放电 PMOS 导通电阻 升压电路工作频率
应用
移动电源 深圳市国兴顺电子有限公司 郑海鑫 13926511192 Q Q 514789807
Ver1.1
TPOWER Semiconductor
1
管脚
SP4533 1A 同步移动电源方案
管脚描述
管脚号
1 2 3 4 5 6 7 8 Exposed PAD
管脚名 称
3MProtectiveCoverall4530的详细介绍及特性说明书
Gases and Vapors
No Heat and Flame
Secondary protection must be worn over primary FR garments (Index 2 or 3), must not be worn next to skin. Cuffs are not flame resistant.
*** W ARNING: Cuffs are not flame resistant and must be worn under gloves. Garments must be worn over primary FR garment (ISO 14116 Index 2 or 3) and not be worn next to skin when FR is required.
Nuclear
Radioactive particulates (EN 1073-2:2002) Class 1****. Does not offer protection against radiation
* In the whole suit test, liquid spray is applied to the subject for 1 minute. During this time the subject moves gently and is rotated through 360°. A total of 1.88 liters is sprayed from four nozzles. The clothing is allowed to drain for 2 minutes and then the absorbent coverall is inspected for stains which are compared to a calibration stain. Requirement: Passes when the stained area inside is smaller than 3 times the calibration stain area.
MAX4533CWP中文资料
Ordering Information
PART MAX4533CAP TEMP. RANGE 0°C to +70°C PIN-PACKAGE 20 SSOP
MAX4533CWP 0°C to +70°C 20 Wide SO Ordering Information continued at end of data sheet.
Typical Operating Circuit
INPUTS V1 V2 OUTPUTS V1 - V2
Pin Configuration/ Functional Diagram
TOP VIEW
IN1 1 NO1 2 20 IN4 19 NO4 18 COM4 17 NC4 16 V+
OSC IN
________________________________________________________________ Maxim Integrated Products
1
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at .
SSOP/SO/DIP/CERDIP
Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd. † Patent Pending
SWITCHES ARE SHOWN WITH LOGIC "0" INPUT N.C. = NOT INTERNALLY CONNECTED
AO3453 SOT-23-3L PMOS Vds-30V规格书AO推荐
Symbol
Parameter
Conditions
Min Typ Max Units
STATIC PARAMETERS
BVDSS Drain-Source Breakdown Voltage
ID=-250µA, VGS=0V
-30
V
IDSS
Zero Gate Voltage Drain Current
2
1.8 1.6 1.4 1.2
1 0.8
0
VGS=-10V ID=-2.6A
VGS=-2.5V ID=-1A
17
VGS=-4.55V ID=-2A 2
10
25 50 75 100 125 150 175
Temperature (°C) 0 Figure 4: On-Resistance vs. Junction18Temperature
-1.5 A
DYNAMIC PARAMETERS
Ciss
Input Capacitance
Coss
Output Capacitance
Crss
Reverse Transfer Capacitance
Rg
Gate resistance
VGS=0V, VDS=-15V, f=1MHz VGS=0V, VDS=0V, f=1MHz
General Description
• Low RDS(ON) • RoHS and Halogen-Free Compliant
Applications
• Load switch • PWM
AO3453
30V P-Channel MOSFET
Product Summary
三极管代换表
Power Bipolar Transistors Cross reference list”PHILIPS TYPE” REFERS TO CLOSEST PHILIPS ALTERNATIVE OR DIRECT EQUIVALENT IF AVAILABLE. Always consider the application and compare data specifications before recommending suitable Philips typeTYPE MANUFACTURER PHILIPS TYPE2SC4589HITACHI BU4525AF2SC4692HITACHI BU4530AL2SC4742HITACHI BU2508DW2SC4743HITACHI BU4508AX2SC4744HITACHI BU4508DF2SC4745HITACHI BU4515AF2SC4746HITACHI BU4523AF2SC4746A HITACHI BU4523AF2SC4747HITACHI BU4540AL2SC4789HITACHI BU4550AL2SC4796HITACHI BU2727AF2SC4797HITACHI BU2727AF2SC4877HITACHI BU4523DF2SC4879HITACHI BU2727AF2SC4880HITACHI BU4730AL2SC4897HITACHI BU4550AL2SC4927HITACHI BU4522DF2SC4928HITACHI BU4550AL2SC4962HITACHI BU2727DF2SC4963HITACHI BU2727DF2SC5058HITACHI BU4730AL2SC5067HITACHI BU4522AF2SC5068HITACHI BU4523AF2SC5105HITACHI BU4530AL2SC5132A HITACHI BU4508DF2SC5133HITACHI BU4515DX2SC5207HITACHI BU4522AF2SC5207A HITACHI BU4522AF2SC5219HITACHI BU2727DF2SC5250HITACHI BU4508DF2SC5251HITACHI BU4522AF2SC5252HITACHI BU4525AF2SC5286HITACHI BU2727AF2SC5306HITACHI BU4540AL2SC5326HITACHI BU4508AF2SC5427HITACHI BU4522AF2SC5447HITACHI BU4507AF2SC5448HITACHI BU4515AFPower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPE2SD2293HITACHI BU4505DX2SD2294HITACHI BU4505AX2SD2295HITACHI BU2508DW2SD2296HITACHI BU4508AX2SD2297HITACHI BU2508DW2SD2298HITACHI BU4508AX2SD2299HITACHI BU4505DF2SD2300HITACHI BU4508DF2SD2301HITACHI BU4508AF2SD2311HITACHI BU4508AF2SD2381HITACHI BU4505AF2SC5440MATSUSHITA BU4525AX2SC5456MATSUSHITA BU4530AL2SC5478MATSUSHITA BU2727AX2SC5513MATSUSHITA BU4522AX2SC5514MATSUSHITA BU4523AX2SC5515MATSUSHITA BU4530AL2SC5516MATSUSHITA BU4540AL2SD1391MATSUSHITA BU4508AX2SD1439MATSUSHITA BU4506DX2SD1440MATSUSHITA BU4505DX2SD1441MATSUSHITA BU4507DX2SD1479MATSUSHITA BU5052SD1541MATSUSHITA BU4506DF2SD1575MATSUSHITA BU4504AF2SD1576MATSUSHITA BU4505AF2SD1577MATSUSHITA BU4508AF2SD1632MATSUSHITA BU4507DF2SD1663MATSUSHITA BU4508AF2SD1727MATSUSHITA BU505DF2SD1728MATSUSHITA BU4505DX2SD1729MATSUSHITA BU4507DX2SD1730MATSUSHITA BU4507DX2SD1731MATSUSHITA BU2520DW2SD1732MATSUSHITA BU4523DW2SD1734MATSUSHITA BU505F2SD1735MATSUSHITA BU505F2SD1736MATSUSHITA BU4505AF2SD1737MATSUSHITA BU4507AF2SD1738MATSUSHITA BU4508AF2SD1739MATSUSHITA BU4522AFPower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPE2SD1844MATSUSHITA BU505DF2SD1845MATSUSHITA BU4505DF2SD1846MATSUSHITA BU4507DF2SD1847MATSUSHITA BU4508DF2SD1848MATSUSHITA BU4522DF2SD1849MATSUSHITA BU4523DF2SD1850MATSUSHITA BU4523AF2SD2001MATSUSHITA BU505F2SD2057MATSUSHITA BU4523DF2SD2310MATSUSHITA BU505F2SD2329MATSUSHITA BU4507AF2SD2330MATSUSHITA BU4523AF2SD2354MATSUSHITA BU4523AW2SD2367MATSUSHITA BU4504DX2SD2368MATSUSHITA BU4506AX2SD2369MATSUSHITA BU4506DX2SD2370MATSUSHITA BU4507AX2SD2371MATSUSHITA BU4508DX2SD2372MATSUSHITA BU4507AX2SD2373MATSUSHITA BU4508AX2SD2510MATSUSHITA BU4506DX2SD2511MATSUSHITA BU4506AX2SD2512MATSUSHITA BU4508DX2SD2513MATSUSHITA BU4508AX2SD2514MATSUSHITA BU4523DX2SD2515MATSUSHITA BU4523AX2SD2521MATSUSHITA BU2708DX2SD2523MATSUSHITA BU2720DXBU508MOTOROLA BU508AWBU508A MOTOROLA BU508AWBU508AD MOTOROLA BU508DWBUH100MOTOROLA“BUJ105A, BUJ106A”BUH150MOTOROLA BUJ106ABUH50MOTOROLA BUJ303ABUL146MOTOROLA BUJ105ABUL146F MOTOROLA BUJ105AXBUL147MOTOROLA BUJ105ABUL147F MOTOROLA BUJ105AXBUL44MOTOROLA BUJ101ABUL44F MOTOROLA BUJ101AXBUL45MOTOROLA BUJ103APower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPEBUL45F MOTOROLA BUJ103AXMJD13003MOTOROLA BUJ101MJE13003MOTOROLA BUJ101MJE13005MOTOROLA“PHE13005, BUJ103A”MJE13007MOTOROLA BUJ105AMJE13009MOTOROLA BUJ106AMJE16004MOTOROLA“BUJ202A, BUJ204A”MJE16106MOTOROLA BUJ105AMJE18002MOTOROLA“BUJ202A, BUJ301A”MJE18004MOTOROLA“BUJ202A, BUJ303A”MJE18006MOTOROLA“BUJ204A, BUJ303A”MJE18008MOTOROLA“BUJ205A, BUJ304A”MJE18009MOTOROLA“BUJ205A, BUJ304A”MJE18204MOTOROLA BUJ403AMJE18206MOTOROLA BUJ403AMJF13007MOTOROLA BUJ105AXMJF13009MOTOROLA BUJ106AXMJF16212MOTOROLA BU4525AFMJF18002MOTOROLA“BUJ202AX, BUJ301AX”MJF18004MOTOROLA“BUJ202AX, BUJ303AX”MJF18006MOTOROLA“BUJ202AX, BUJ303AX”MJF18008MOTOROLA“BUJ205AX, BUJ304AX”MJF18009MOTOROLA“BUJ205AX, BUJ304AX”MJF18204MOTOROLA BUJ403AXMJF18206MOTOROLA BUJ403AXMJH16212MOTOROLA BU4525AWMJW16212MOTOROLA BU4525AWBUT11A PHILIPS“BUT11AI, BUJ202A, BUJ303A”BUT11AF PHILIPS“BUT11XI, BUJ202AX, BUJ303AX”BUT11AX PHILIPS“BUT11XI, BUJ202AX, BUJ303AX”BUT12A PHILIPS“BUJ204A, BUJ304A”BUT12AF PHILIPS“BUJ204AX, BUJ304AX”BUT12AX PHILIPS“BUJ204AX, BUJ304AX”BUT18A PHILIPS“BUJ204A, BUJ303A, BUJ304A”BUT18AF PHILIPS“BUJ204AX, BUJ303AX, BUJ304AX”BUT18AX PHILIPS“BUJ204AX, BUJ303AX, BUJ304AX”BUT211PHILIPS“BUJ103A, BUJ204A”BUT211X PHILIPS“BUJ103AX, BUJ204AX”BUW14PHILIPS“BUJ202, BUJ301”BUW84PHILIPS“BUJ101, BUJ202”BUW85PHILIPS“BUJ202, BUJ301”Power Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPEBUX84PHILIPS“BUJ101A, BUJ202A”BUX84F PHILIPS“BUJ101AX, BUJ202AX”BUX85PHILIPS“BUJ202A, BUJ301A”BUX85F PHILIPS“BUJ202AX, BUJ301AX”BUX86P PHILIPS“BUJ101, BUJ202”BUX87P PHILIPS“BUJ202, BUJ301”BU508ADF SAMSUNG BU508DWBU508AF SAMSUNG BU508AXBU508DF SAMSUNG BU508DXBU508F SAMSUNG BU508AXKSC2333SAMSUNG BUJ101AKSC2335SAMSUNG BUJ105AKSC2335F SAMSUNG BUJ105AXKSC2518SAMSUNG BUJ103AKSC2752SAMSUNG BUJ101KSC5020SAMSUNG BUJ301AKSC5021SAMSUNG BUJ303AKSC5021F SAMSUNG BUJ303AXKSC5027SAMSUNG BU1706AKSC5027F SAMSUNG BU1706AXKSC5029SAMSUNG BU1706AKSC5030SAMSUNG BU1706AKSC5030F SAMSUNG BU1706AXKSC5039SAMSUNG BUJ103AKSC5039F SAMSUNG BUJ103AXKSC5321SAMSUNG BUJ303AKSC5321F SAMSUNG BUJ303AXKSC5338SAMSUNG“BUJ202A, BUJ204A”KSC5338F SAMSUNG“BUJ202AX, BUJ204AX”KSD5060SAMSUNG BU505DKSD5061SAMSUNG BU4505DXKSD5062SAMSUNG BU4507DXKSD5064SAMSUNG BU505KSD5065SAMSUNG BU4505AXKSD5066SAMSUNG BU4507AXKSD5070SAMSUNG BU4504DXKSD5071SAMSUNG BU4505DXKSD5072SAMSUNG BU4507DXKSD5074SAMSUNG BU4504AXKSD5075SAMSUNG BU4505AXKSD5076SAMSUNG BU4507AXPower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPEKSD5078SAMSUNG BU4522AXKSD5080SAMSUNG BU4522DXKSD5086SAMSUNG BU4508DXKSD5088SAMSUNG BU4522AXKSD5089SAMSUNG BU2520AWKSD5090SAMSUNG BU2520DWKSE13004SAMSUNG BUJ103AKSE13005SAMSUNG“PHE13005, BUJ103A”KSE13005F SAMSUNG BUJ103AXKSE13006SAMSUNG BUJ105AKSE13007SAMSUNG BUJ105AKSE13007F SAMSUNG BUJ105AXKSE13008SAMSUNG BUJ106AKSE13009SAMSUNG BUJ106AKSE13009F SAMSUNG BUJ106AX2SC4023SANKEN BU2520AW2SC5002SANKEN BU4522AF2SC5003SANKEN BU4522DF2SC3681SANYO BU4507DX2SC3682SANYO BU2508DW2SC3683SANYO BU2520DW2SC3685SANYO BU4507AX2SC3686SANYO BU4508AX2SC3687SANYO BU2520AW2SC3688SANYO BU4530AW2SC3894SANYO BU4507AX2SC3895SANYO BU4508AX2SC3896SANYO BU4522AX2SC3897SANYO BU4530AL2SC3995SANYO BU4530AL2SC3996SANYO BU4530AL2SC3997SANYO BU4540AL2SC3998SANYO BU4540AL2SC4122SANYO BU4507DX2SC4123SANYO BU4508DX2SC4124SANYO BU4522DX2SC4291SANYO BU4507DX2SC4292SANYO BU2508DW2SC4293SANYO BU4507DX2SC4294SANYO BU4508DX2SC4435SANYO BU4508AXPower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPE2SC4436SANYO BU4515AX2SC4437SANYO BU4508AX2SC4438SANYO BU4515AX2SC4769SANYO BU4508DX2SC4770SANYO BU4508AX2SC4890SANYO BU4540AL2SC4891SANYO BU4540AL2SC4923SANYO BU4522AX2SC4924SANYO BU4522AX2SC5041SANYO BU2708DX2SC5042SANYO BU2708AX2SC5043SANYO BU2727DX2SC5044SANYO BU2727AX2SC5045SANYO BU4730AL2SC5046SANYO BU4730AL2SC5296SANYO BU4508DX2SC5297SANYO BU4522AX2SC5298SANYO BU4522AX2SC5299SANYO BU4522AX2SC5302SANYO BU4530AL2SD1396SANYO BU505D2SD1397SANYO BU4505DX2SD1398SANYO BU4507DX2SD1399SANYO BU2508DW2SD1400SANYO BU5052SD1401SANYO BU4505AX2SD1402SANYO BU4507AX2SD1403SANYO BU4508AX2SD1649SANYO BU4504DX2SD1650SANYO BU4505DX2SD1651SANYO BU4507DX2SD1652SANYO BU4508DX2SD1653SANYO BU4504AX2SD1654SANYO BU4505AX2SD1655SANYO BU4507AX2SD1656SANYO BU4508AX2SD1677SANYO BU4508AX2SD1709SANYO BU2508DW2SD1710SANYO BU4508AX2SD1711SANYO BU4508DX2SD1876SANYO BU4504DXPower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPE2SD1877SANYO BU4505DX2SD1878SANYO BU4507DX2SD1879SANYO BU4508DX2SD1880SANYO BU4522DX2SD1881SANYO BU4525DX2SD1882SANYO BU4504AX2SD1883SANYO BU4505AX2SD1884SANYO BU4507AX2SD1885SANYO BU4508AX2SD1886SANYO BU4522AX2SD1887SANYO BU4525AX2SD2251SANYO BU4508AX2SD2252SANYO BU4508AXBU508SANYO BU508AWBU508A SANYO BU508AWBU508D SANYO BU508DW2SC3162SHINDENGEN BUJ103A2SC3163SHINDENGEN BUJ105A2SC4051SHINDENGEN BUJ202A2SC4052SHINDENGEN BUJ202AX2SC4053SHINDENGEN BUJ204A2SC4054SHINDENGEN BUJ204AX2SC4055SHINDENGEN BUJ205A2SC4056SHINDENGEN BUJ205AX2SC4230SHINDENGEN BU1706A2SC4231SHINDENGEN BU1706AX2SC4233SHINDENGEN BU1706A2SC4234SHINDENGEN BU1706AX2SC4310SHINDENGEN BU1706A2SC4311SHINDENGEN BU1706AXT2V80HFX SHINDENGEN BU1706AT3V40F3SHINDENGEN BUJ103AT3V45FX SHINDENGEN BUJ202AT3V80HFX SHINDENGEN BU1706AT5V45FX SHINDENGEN BUJ204AT6V40F3SHINDENGEN BUJ105AT6V80HDT SHINDENGEN BU1706AT8V45FX SHINDENGEN BUJ205ATP2V80HFX SHINDENGEN BU1706AXTP3V45FX SHINDENGEN BUJ202AXTP3V80HFX SHINDENGEN BU1706AXPower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPETP5V45FX SHINDENGEN BUJ204AXTP6V80HDT SHINDENGEN BU1706AXTP8V45FX SHINDENGEN BUJ205AX2SD1577FI ST (SGS-THOMSON)BU4508AXBU208A ST (SGS-THOMSON)BU4508AXBU208D ST (SGS-THOMSON)BU4508AXBU505ST (SGS-THOMSON)BU505BU505ST (SGS-THOMSON)BU1706ABU508ST (SGS-THOMSON)BU508AWBU508A ST (SGS-THOMSON)BU508AWBU508AD ST (SGS-THOMSON)BU508DWBU508AFI ST (SGS-THOMSON)BU508AXBU508AXI ST (SGS-THOMSON)BU4508AZBU508D ST (SGS-THOMSON)BU508DWBU508DFI ST (SGS-THOMSON)BU508DXBU508DXI ST (SGS-THOMSON)BU4508DZBU508FI ST (SGS-THOMSON)BU508AXBUF405ST (SGS-THOMSON)BUJ204ABUH1015ST (SGS-THOMSON)BU4540AWBUH1015HI ST (SGS-THOMSON)BU4540ALBUH1215ST (SGS-THOMSON)BU4540AWBUH315ST (SGS-THOMSON)BU4506AXBUH315D ST (SGS-THOMSON)BU4506DXBUH315DXI ST (SGS-THOMSON)BU4506DZBUH315XI ST (SGS-THOMSON)BU4506AZBUH415DXI ST (SGS-THOMSON)BU4507DZBUH417ST (SGS-THOMSON)BU2708AXBUH515ST (SGS-THOMSON)BU4508AXBUH515D ST (SGS-THOMSON)BU4508DXBUH515DX1ST (SGS-THOMSON)BU4508DZBUH515FP ST (SGS-THOMSON)BU4508DZBUH515XI ST (SGS-THOMSON)BU4508AZBUH517ST (SGS-THOMSON)BU2720AXBUH517D ST (SGS-THOMSON)BU2720DXBUH615ST (SGS-THOMSON)BU4522AXBUH615D ST (SGS-THOMSON)BU4522DXBUH715ST (SGS-THOMSON)BU4523AXBUL128ST (SGS-THOMSON)BUJ103ABUL128FP ST (SGS-THOMSON)BUJ103AXBUL138ST (SGS-THOMSON)“BUJ103A, BUJ202A”BUL138FP ST (SGS-THOMSON)“BUJ103AX, BUJ202AX”Power Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPEBUL216ST (SGS-THOMSON)BU1706ABUL26ST (SGS-THOMSON)BUJ103ABUL310ST (SGS-THOMSON)BUJ303ABUL310PI ST (SGS-THOMSON)BUJ303AXBUL381ST (SGS-THOMSON)“BUJ103A, BUJ202A”BUL382ST (SGS-THOMSON)“BUJ103A, BUJ202A”BUL410ST (SGS-THOMSON)“BUJ204A, BUJ304A”BUL416ST (SGS-THOMSON)BU1706ABUL48ST (SGS-THOMSON)“BUJ105A, BUJ204A”BUL510ST (SGS-THOMSON)BUJ304ABUL57ST (SGS-THOMSON)BUJ105ABUL57PI ST (SGS-THOMSON)BUJ105AXBUL59ST (SGS-THOMSON)BUJ204ABUL67ST (SGS-THOMSON)BUJ106ABUL810ST (SGS-THOMSON)BUJ305ABUL87ST (SGS-THOMSON)BUJ106ABULK26ST (SGS-THOMSON)BUJ103BULK381ST (SGS-THOMSON)“BUJ103, BUJ202”BULK382ST (SGS-THOMSON)“BUJ103, BUJ202”BULT118ST (SGS-THOMSON)BUJ101S2000AFI ST (SGS-THOMSON)BU4508AXS2000AXI ST (SGS-THOMSON)BU4508AZSGSF323ST (SGS-THOMSON)“BUJ202A, BUJ303A”SGSF343ST (SGS-THOMSON)“BUJ204A, BUJ304A”ST13003ST (SGS-THOMSON)BUJ101ST13005ST (SGS-THOMSON)“PHE13005, BUJ103A”ST13007ST (SGS-THOMSON)BUJ105AST1802HI ST (SGS-THOMSON)BU4507AXST1803DHI ST (SGS-THOMSON)BU4507DXST2001HI ST (SGS-THOMSON)BU4515AXTHD200FI ST (SGS-THOMSON)BU4525AXTHD215HI ST (SGS-THOMSON)BU4522AXTHD218DHI ST (SGS-THOMSON)BU4507DXTHD277HI ST (SGS-THOMSON)BU4507AXTHD300ST (SGS-THOMSON)BU4540AWBU508TELEFUNKEN BU508AWBU508A TELEFUNKEN BU508AWBU508AD TELEFUNKEN BU508DWBU508D TELEFUNKEN BU508DWBU508DR TELEFUNKEN BU508DWBU705TELEFUNKEN BU505Power Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPEBU908TELEFUNKEN BU4506AX2SC3884A TOSHIBA BU4508AX2SC3885A TOSHIBA BU4515AX2SC3886A TOSHIBA BU4522AX2SC3887A TOSHIBA BU4508AX2SC3888A TOSHIBA BU4515AX2SC3889A TOSHIBA BU2520AW2SC3892A TOSHIBA BU4508DX2SC3893A TOSHIBA BU4522DX2SC4288A TOSHIBA BU4540AL2SC4289A TOSHIBA BU4540AL2SC4290A TOSHIBA BU4550AL2SC4531TOSHIBA BU4523DX2SC4532TOSHIBA BU4730AL2SC4542TOSHIBA BU4525AX2SC4560TOSHIBA BU4525AW2SC4757TOSHIBA BU4515AX2SC4758TOSHIBA BU4522AX2SC4759TOSHIBA BU4525AX2SC4761TOSHIBA BU2722AX2SC4762TOSHIBA BU4508DX2SC4763TOSHIBA BU4522DX2SC4764TOSHIBA BU4507DX2SC4765TOSHIBA BU2708DX2SC4766TOSHIBA BU2720DX2SC4806TOSHIBA BU2708AX2SC4830TOSHIBA BU4508AX2SC4916TOSHIBA BU4508DX2SC5048TOSHIBA BU4523AX2SC5129TOSHIBA BU4515AX2SC5142TOSHIBA BU4550AL2SC5143TOSHIBA BU2727DX2SC5148TOSHIBA BU4508AX2SC5149TOSHIBA BU4508DX2SC5150TOSHIBA BU2727AX2SC5331TOSHIBA BU4530AL2SC5332TOSHIBA BU2727AW2SC5339TOSHIBA BU4508DX2SC5386TOSHIBA BU4515AX2SC5387TOSHIBA BU4522AX2SC5404TOSHIBA BU4522AXPower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPE2SC5421TOSHIBA BU4530AL2SC5422TOSHIBA BU4730AL2SC5445TOSHIBA BU4540AL2SD1425TOSHIBA BU505D2SD1426TOSHIBA BU4506DX2SD1427TOSHIBA BU4507DX2SD1428TOSHIBA BU2508DW2SD1429TOSHIBA BU5052SD1430TOSHIBA BU4506AX2SD1431TOSHIBA BU4507AX2SD1432TOSHIBA BU4508AX2SD1433TOSHIBA BU2520AW2SD1543TOSHIBA BU4504AX2SD1544TOSHIBA BU4506AX2SD1545TOSHIBA BU4507AX2SD1546TOSHIBA BU4508AX2SD1547TOSHIBA BU4522AX2SD1553TOSHIBA BU4504DX2SD1554TOSHIBA BU4506DX2SD1555TOSHIBA BU4507DX2SD1556TOSHIBA BU4508DX2SD2089TOSHIBA BU4504DX2SD2095TOSHIBA BU4507DX2SD2125TOSHIBA BU4508DX2SD2253TOSHIBA BU2720DX2SD2348TOSHIBA BU4522DX2SD2349TOSHIBA BU4523DX2SD2428TOSHIBA BU2725DW2SD2454TOSHIBA BU2720DX2SD2498TOSHIBA BU4508AX2SD2499TOSHIBA BU4508DX2SD2500TOSHIBA BU4523AX2SD2539TOSHIBA BU4522DX2SD2550TOSHIBA BU2708DX2SD2551TOSHIBA BU2720DX2SD2552TOSHIBA BU2720DX2SD2553TOSHIBA BU2725DX2SD818TOSHIBA BU5052SD819TOSHIBA BU4506AX2SD820TOSHIBA BU4507AX2SD821TOSHIBA BU4508AXPower Bipolar Transistors Cross reference listTYPE MANUFACTURER PHILIPS TYPE2SD822TOSHIBA BU2520AW2SD868TOSHIBA BU505D2SD869TOSHIBA BU4506DX2SD870TOSHIBA BU4507DX2SD871TOSHIBA BU2508DWS2000TOSHIBA BU4508AXS2000A TOSHIBA BU4508AXS2000AF TOSHIBA BU4508AXS2000F TOSHIBA BU4508AXS2055TOSHIBA BU2508DWS2055A TOSHIBA BU2508DWS2055AF TOSHIBA BU4508DXS2055F TOSHIBA BU4508DXS2818TOSHIBA BU2508DWS2818A TOSHIBA BU2508DWBUD600VISHAY/ SILICONIX BUJ101BUD620VISHAY/ SILICONIX BUJ103BUD630VISHAY/ SILICONIX“BUJ103, BUJ105”BUD636A VISHAY/ SILICONIX“BUJ202, BUJ303”BUD86VISHAY/ SILICONIX“BUJ101, BUJ202”BUD87VISHAY/ SILICONIX“BUJ202, BUJ301”BUF620VISHAY/ SILICONIX BUJ103ABUF630VISHAY/ SILICONIX“BUJ103A, BUJ105A”BUF636A VISHAY/ SILICONIX“BUJ202A, BUJ303A”BUF640A VISHAY/ SILICONIX“BUJ204A, BUJ303A”BUF642VISHAY/ SILICONIX BUJ204ABUF644VISHAY/ SILICONIX BUJ105ABUF646A VISHAY/ SILICONIX“BUJ204A, BUJ304A”BUF650VISHAY/ SILICONIX“BUJ105A, BUJ106A”BUF654VISHAY/ SILICONIX BUJ106ABUF742VISHAY/ SILICONIX BUJ303ABUF744VISHAY/ SILICONIX BUJ105ATD13002VISHAY/ SILICONIX BUJ101TD13003VISHAY/ SILICONIX BUJ101TD13004VISHAY/ SILICONIX BUJ103TD13005VISHAY/ SILICONIX BUJ103TE13004VISHAY/ SILICONIX“PHE13005, BUJ103A”TE13005VISHAY/ SILICONIX“PHE13005, BUJ103A”TE13008VISHAY/ SILICONIX BUJ106ATE13009VISHAY/ SILICONIX BUJ106A。
赛米控丹佛斯电子 SEMiX453GAL12E4s 数据表
SEMiX ®3sTrench IGBT ModulesSEMiX453GAL12E4sFeatures•Homogeneous Si•Trench = Trenchgate technology •V CE(sat) with positive temperature coefficient•High short circuit capability •UL recognized, file no. E63532Typical Applications*•AC inverter drives •UPS•Electronic WeldingRemarks•Case temperature limited to T C =125°C max.•Product reliability results are valid for T j =150°C•Dynamic values apply to thefollowing combination of resistors: R Gon,main = 1,0 Ω R Goff,main = 1,0 Ω R G,X = 2,2 Ω R E,X = 0,5 ΩAbsolute Maximum Ratings SymbolConditions Values UnitIGBT V CES T j =25°C 1200V I C T j =175°CT c =25°C 683A T c =80°C526A I Cnom 450A I CRMI CRM = 3xI Cnom 1350A V GES -20...20V t psc V CC =800V V GE ≤ 20V V CES ≤ 1200VT j =150°C10µs T j-40...175°C Inverse diode I F T j =175°CT c =25°C 544A T c =80°C 407A I Fnom450A I FRM I FRM = 3xI Fnom1350A I FSM t p =10ms, sin 180°, T j =25°C2430A T j-40 (175)°C Freewheeling diode I F T j =175°CT c =25°C 544A T c =80°C407A I Fnom 450A I FRM I FRM = 3xI Fnom1350A I FSM t p =10ms, sin 180°, T j =25°C2430A T j -40 (175)°C Module I t(RMS)T terminal =80°C600A T stg -40...125°C V isolAC sinus 50Hz, t =1min4000VCharacteristics SymbolConditions min.typ.max.UnitIGBT V CE(sat)I C =450A V GE =15V chiplevel T j =25°C 1.8 2.05V T j =150°C 2.2 2.4V V CE0chiplevel T j =25°C 0.80.9V T j =150°C 0.70.8V r CE V GE =15V chiplevel T j =25°C 2.2 2.6m ΩT j =150°C3.3 3.6m ΩV GE(th)V GE =V CE , I C =18mA55.86.5V I CES V GE =0V V CE =1200V T j =25°C 5mA T j =150°C mA C ies V CE =25V V GE =0Vf =1MHz 27.9nF C oes f =1MHz 1.74nF C res f =1MHz1.53nF Q G V GE =- 8 V...+ 15 V 2550nC R GintT j =25°C1.67Ωt d(on)V CC =600V I C=450A V GE =±15V R G on =1.9ΩR G off =1.9Ωdi/dt on =4000A/µs di/dt off =5000A/µs T j =150°C 336ns t r T j =150°C 80ns E on T j =150°C 45mJ t d(off)T j =150°C 615ns t f T j =150°C 130ns E offT j =150°C66.5mJR th(j-c)per IGBT0.065K/W Inverse diodeV F = V EC I F =450AV GE =0V chiplevelT j =25°C 2.1 2.46V T j =150°C 2.12.4V V F0chiplevel T j =25°C 1.1 1.3 1.5V T j =150°C 0.70.9 1.1V r F chiplevelT j =25°C 1.4 1.9 2.1m ΩT j =150°C 2.22.6 2.8m ΩI RRM I F =450A di/dt off =5000A/µs V GE =-15VV CC =600VT j =150°C 350A Q rr T j=150°C70µC E rr T j =150°C 28mJ R th(j-c)per diode0.11K/W Freewheeling diode V F = V EC I F =450AV GE =0V chiplevelT j =25°C 2.1 2.46V T j =150°C 2.12.4V V F0chiplevel T j =25°C 1.1 1.3 1.5V T j =150°C 0.70.9 1.1V r F chiplevelT j =25°C 1.4 1.9 2.1m ΩT j =150°C2.22.6 2.8m ΩI RRM I F =450A di/dt off =5000A/µs V GE =-15VV CC =600VT j =150°C 350A Q rr T j=150°C70µC E rr T j =150°C 28mJ R th(j-c)per diode0.11K/W Module L CE 20nH R CC'+EE'res., terminal-chip T C =25°C 0.7m ΩT C =125°C1m ΩR th(c-s)per module 0.04K/WM s to heat sink (M5)35Nm M t to terminals (M6)2.55Nm Nm w300g Temperature Sensor R 100T c =100°C (R 25=5 k Ω)493 ± 5%ΩB 100/125R (T)=R 100exp[B 100/125(1/T-1/T 100)]; T[K];3550 ±2%KCharacteristics SymbolConditionsmin.typ.max.UnitSEMiX ® 3sTrench IGBT ModulesSEMiX453GAL12E4sFeatures•Homogeneous Si•Trench = Trenchgate technology •V CE(sat) with positive temperature coefficient•High short circuit capability •UL recognized, file no. E63532Typical Applications*•AC inverter drives •UPS•Electronic WeldingRemarks•Case temperature limited to T C =125°C max.•Product reliability results are valid for T j =150°C•Dynamic values apply to thefollowing combination of resistors: R Gon,main = 1,0 Ω R Goff,main = 1,0 Ω R G,X = 2,2 Ω R E,X = 0,5 ΩFig. 1: Typ. output characteristic, inclusive R CC'+ EE'Fig. 2: Rated current vs. temperature I C = f (T C )Fig. 3: Typ. turn-on /-off energy = f (I C )Fig. 4: Typ. turn-on /-off energy = f (R G )Fig. 5: Typ. transfer characteristic Fig. 6: Typ. gate charge characteristicFig. 7: Typ. switching times vs. I C Fig. 8: Typ. switching times vs. gate resistor R GFig. 9: Typ. transient thermal impedance Fig. 10: Typ. CAL diode forward charact., incl. R CC'+ EE'Fig. 11: Typ. CAL diode peak reverse recovery current Fig. 12: Typ. CAL diode recovery chargeThis is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, Chapter IX* The specifications of our components may not be considered as an assurance of component characteristics. Components have to be tested for the respective application. Adjustments may be necessary. The use of SEMIKRON products in life support appliances and systems is subject to prior specification and written approval by SEMIKRON. We therefore strongly recommend prior consultation of our staff.。