The Kynix Components

Product Overview1N4003 diode can be used for many general purpose applications for example these diodes are used to build a bridge rectifier which is a very essential part of a DC power supply that converts AC current to DC. Other than that this diode can also be used in clippers applications, reverse current blocking in variety of circuits to protect components from damage, logic gates etc. This blog will introduce 1N4003 systematically from its features, pinout to its specifications, applications, also including 1N4003 datasheet and so much more. CatalogProduct Overview1N4003 Features1N4003 Pinout1N4003 ApplicationsWhere We Can Use ItHow to Safely Long Run in a Circuit1N4003 CAD Models1N4003 Equivalents1N4003 Package1N4003 Specification1N4003 Manufacturer1N4003 DatasheetUsing Warnings1N4003 FAQ 1N4003 FeaturesLow forward voltage dropLow leakage currentHigh forward surge capabilitySolder dip 275 °C max. 10 s, per JESD 22-B106Package-Type: Available in DO-41 & SMD PackagesDiode Type: Silicon Rectifier General Purpose Usage DiodeMax Repetitive Reverse Voltage: 200 VoltsAverage Fwd Current: 1000mANon-repetitive Max Fwd Current: 30AMax Power Dissipation is: 3WMax Storage & Operating temperature Should Be: -55 to +175 Centigrade 1N4003 PinoutThe following figure is the diagram of 1N4003 pinout. 1N4003 Pinout 1N4003 ApplicationsPower Supply RectifiersBattery Chargers CircuitsAdapter CircuitsAC to  DC ConvertersComponents protectionVoltage Blocking Where We Can Use It1N4003 diode can be used for many general purpose applications for example these diodes are used to build a bridge rectifier which is a very essential part of a DC power supply that converts AC current to DC. Other than that this diode can also be used in clippers applications, reverse current blocking in a variety of circuits to protect components from damage, logic gates, etc. How to Safely Long Run in a CircuitTo increase the usage life of 1N4003 diode it is suggested to not drive load of more than 200V, do not drive more than 1A or 1000mA load, and always store or use the diode in temperature between -55 degrees centigrade to +175 degrees centigrade. 1N4003 CAD ModelsThe following are 1N4003 Symbol, Footprint, and 3D Model. 1N4003 Symbol 1N4003 Footprint 1N4003 3D Model 1N4003 EquivalentsYou can replace the 1N4003 with the SF14, RL207, RL206, RL205, RL204, RL203, HER208 and HER207. Please check their parameters and pin configuration before replacing them in your circuit. 1N4003 PackageThe following diagram shows the 1N4003 package. 1N4003 Package 1N4003 SpecificationProduct AttributeAttribute ValueManufacturer:onsemiProduct Category:RectifiersRoHS:NMounting Style:Through HolePackage / Case:DO-41-2Vr - Reverse Voltage:200 VIf - Forward Current:1 AType:Standard Recovery RectifiersConfiguration:SingleVf - Forward Voltage:1.1 VMax Surge Current:30 AIr - Reverse Current:10 uAMinimum Operating Temperature:- 65 CMaximum Operating Temperature:+ 175 CPackaging:BulkBrand:onsemiHeight:2.7 mmLength:5.2 mmFactory Pack Quantity:1000Termination Style:Through HoleWidth:2.7 mm 1N4003 ManufacturerON Semiconductor is a Fortune 500 company driving energy efficient innovations, empowering customers to reduce global energy use. The company is a leading supplier of semiconductor-based solutions, offering a comprehensive portfolio of energy efficient power and signal management, logic, standard and custom devices. The company’s products help engineers solve their unique design challenges in automotive, communications, computing, consumer, industrial, medical and military/aerospace applications. 1N4003 DatasheetYou can download 1N4003 datasheet from the link given below:1N4003 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. 1N4003 FAQWhat is a very essential part of a DC power supply that converts AC current to DC? Bridge rectifier. What type of circuits can diode be used to protect components from damage? Reverse current blocking. What is difference between diode and power diode?Both Normal diode and Power diodes are uncontrolled devices because their On/Off situation depends upon the external circuit used. Normal diodes are used in small-signal applications whereas power diodes are used for high voltage and current applications such as in inverters. What is a general purpose rectifier?General Purpose Rectifier lets electrical current flow in only one direction and is mainly used for power supply operation. Rectifier diodes can handle higher current flow than regular diodes and are generally used in order to change alternating current into direct current. How does a general purpose diode work?General purpose diodes are two-terminal electronic components that allow current to flow in only one direction, from an anode (+) to a cathode. Applying a forward voltage to the PN junction causes current to flow in only one direction as electrons from the N-region fill “holes” in the P-region.

CatalogProduct SummaryBS250 FeaturesBS250 BenefitsBS250 ApplicationsBS250 PinoutAbsolute Maximum RatingsBS250 SpecificationsTypical CharacteristicsDisclaimerBS250 DatasheetUsing Warnings Product SummaryPart NumberV(BR)DSS Min (V)rDS(on) Max (Ω)VGS(th) (V)ID (A)TP0610L−6010 @ VGS = −10 V−1 to −2.4−0.18TP0610T−6010 @ VGS = −10 V−1 to −2.4−0.12VP0610L−6010 @ VGS = −10 V−1 to −3.5−0.18VP0610T−6010 @ VGS = −10 V−1 to −3.5−0.12BS250−4514 @ VGS = −10 V−1 to −3.5−0.18 BS250 FeaturesHigh-Side SwitchingLow On-Resistance: 8 QLow Threshold: -1.9 VFast Switching Speed: 16 nsLow Input Capacitance: 15 pF BS250 BenefitsEase in Driving Switches Low Offset (Error) VoltageLow-Voltage OperationHigh-Speed SwitchingEasily Driven Without Buffer BS250 ApplicationsDrivers: Relays, Solenoids, Lamps,Hammers, Displays, Memories,Transistors, etc.Battery Operated SystemsPower Supply, Converter CircuitsMotor Control BS250 PinoutThe following figures are the diagrams of BS250 pinout. TO-226AA (TO-92) TO-92-18RM TO-236 (SOT-23) Absolute Maximum RatingsParameterSymbolTP0610LTP0610TVP0610LVP0610TBS250UnitDrain-Source VoltageVDS−60−60−60−60−45 VGate-Source VoltageVGSt30t30t30t30t25 Continuous Drain Current (TJ = 150°C)TA= 25°CID−0.18−0.12−0.18−0.12−0.18 A TA= 100°C −0.11−0.07−0.11−0.07  Pulsed Drain CurrentaIDM−0.8−0.4−0.8−0.4   Power DissipationTA= 25°CPD0.80.360.80.360.83 W TA= 100°C 0.320.140.320.14  Thermal Resistance, Junction-to-AmbientRthJA156350156350150°C/WOperating Junction and Storage Temperature RangeTJ, Tstg−55 to 150°C Notesa.Pulse width limited by maximum junction temperature.For applications information see AN804. BS250 Specifications  Parameter   Symbol   Test Conditions   TypaLimits TP0610L/TVP0610L/TBS250 Min Max Min Max Min Max UnitStatic Drain-Source Breakdown Voltage V(BR)DSSVGS = 0 V, ID = −10 µA−70−60 −60     VVGS = 0 V, ID = −100 µA     −45 Gate-Threshold VoltageVGS(th)VDS = VGS, ID = −1 mA−1.9−1−2.4−1−3.5−1−3.5 Gate-Body Leakage IGSSVDS = 0 V, VGS = t20 V  t10 t10   nAVDS = 0 V, VGS = t20 V, TJ = 125°C  t50    VDS = 0 V, VGS = t15 V      t20 Zero Gate Voltage Drain Current IDSSVDS = −48 V, VGS = 0 V  −1 −1   µAVDS = −48 V, VGS = 0 V, TJ = 125°C  −200 −200  VDS = −25 V, VGS = 0 V      −0.5 On-State Drain Currentb ID(on)VDS = −10 V, VGS = −4.5 V−180−50      mA VDS = −10 V, VGS = −10 VL Suffix−750  −600   T Suffix   −220     Drain-Source On-Resistanceb  rDS(on)VGS = −4.5 V, ID = −25 mA11 25      ΩVGS = −10 V, ID = −0.5 AL Suffix8 10 10  VGS = −10 V, ID = −0.5 A, TJ = 125°CL Suffix15 20 20  VGS = −10 V, ID = −0.2 AT Suffix6.5 10 10 14Forward Transconductanceb gfsVDS = −10 V, ID = −0.5 AL Suffix2080      mSVDS = −10 V, ID = −0.1 AT Suffix9060 70   Diode Forward VoltageVSDIS = −0.5 A, VGS = 0 V−1.1      VDynamicInput CapacitanceCiss VDS = −25 V, VGS = 0 Vf = 1 MHz15 60 60    pFOutput CapacitanceCoss10 25 25  Reverse Transfer CapacitanceCrss3 5 5  SwitchingcTurn-On TimetONVDD = −25 V, RL = 133 ΩID ÷ −0.18 A, VGEN = −10 V, Rg = 25 Ω8     10 nsTurn-Off TimetOFF8     10 Notesa.For DESIGN AID ONLY, not subject to production testing. VPDS06b.Pulse test: PW ≤300 µs duty cycle ≤2%.c.Switching time is essentially independent of operating temperature. Typical CharacteristicsThe following figures are the diagrams of typical characteristics. Output Characteristics Transfer Characteristics On-Resistance vs. Drain Current Capacitance Gate Charge On-Resistance vs. Junction Temperature  Source-Drain Diode Forward Voltage On-Resistance vs. Gate-Source Voltage Threshold Voltage Variance Over Temperature Single Pulse Power, Junction-to-Ambient Normalized Thermal Transient Impedance, Junction-to-Ambient DisclaimerAll product specifications and data are subject to change without notice. Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product. Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications. Product names and markings noted herein may be trademarks of their respective owners. BS250 DatasheetYou can download BS250 datasheet from the link given below:BS250 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit.

Product OverviewThe BNO055 is a System in Package (SiP), integrating a triaxial 14-bit accelerometer, a triaxial 16-bit gyroscope with a range of ±2000 degrees per second, a triaxial geomagnetic sensor and a 32-bit cortex M0+ microcontroller running Bosch Sensortec sensor fusion software, in a single package. The corresponding chip-sets are integrated into one single 28-pin LGA 3.8mm x 5.2mm x 1.1 mm housing. For optimum system integration the BNO055 is equipped with digital bidirectional I2C and UART interfaces. The I2C interface can be programmed to run with the HID-I2C protocol turning the BNO055 into a plug-and-play sensor hub  solution for devices running the Windows 8.0 or 8.1 operating system. This blog will introduce BNO055 systematically from its features, pinout to its specifications, applications, also including BNO055 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionBNO055 FeaturesBNO055 ComponentsSolution provided functionalityWhat makes the difference?BNO055 PinoutBNO055 ApplicationsBNO055 Connection DiagramsBNO055 PackageBNO055 SpecificationBNO055 ManufacturerBNO055 DatasheetUsing WarningsBNO055 FAQ Related Video Introduction Video: Setting up the BNO055 Absolute Orientation Sensor | Automatic Addison BNO055 Video Description: In this video, we'll set up the Adafruit BNO055 Absolute Orientation Sensor from scratch, step-by-step. The BNO055 is actually three sensors in one device. It includes an accelerometer to measure acceleration forces, a gyroscope that uses Earth's gravity to help determine orientation, and a magnetometer that measures magnetism. BNO055 FeaturesIncludes all sensors, sensor hub and optimized softwareLow power consumption, supports various power modes for switching sensors on and off and algorithm modules to speed code developmentAdvanced 9-axis sensor fusion algorithms Fast background calibration of all sensors and calibration monitor while in useEnhanced magnetic distortion detection and suppressionReal-time motion tracking due to built-in group delay compensationGyroscope drift cancellationSupports multiple operating mode, i.e. 6-axis based applications (inertial measurement Units) BNO055 Components3-axis accelerometer (14Bit)3-axis gyroscope (16Bit)3-axis geomagnetic sensor32 bit ARM Microcontroller2 x 3.8 mm² footprintBosch Sensortec Sensor Data Fusion with fast magnetic calibration (optimally integrated & tuned) Solution provided functionalityWindows 8.1 compatibleHigh accuracy quaternion: 2-3 deg (static)Low latency: 20 msLow calibration time: 2-3 sImmune to magnetic distortionsPower consumption advantages through integration What makes the difference?Hardware and software co-design enables high performance with low power consumptionQuaternion communication is 10x more efficient than raw dataIntegrated sensor fusion software reduces customer development costs and timeAll components in one package leads to simplified system integration and faster time to marketFootprint is significantly reduced compared to discrete and system on board solutions BNO055 PinoutThe following figure is the diagram of BNO055 pinout. BNO055 Pinout BNO055 ApplicationsNavigationRoboticsFitness and well-beingAugmented realityContext awarenessTablets and ultra-books BNO055 Connection DiagramsThe connection diagrams of BNO055 are shown in the picture below. I2C connection diagram UART connection diagram HID via IC connection diagram BNO055 PackageThe following diagram shows the BNO055 package. BNO055 Package BNO055 SpecificationProduct AttributeAttribute ValueManufacturer:BoschProduct Category:IMUs - Inertial Measurement UnitsSensor Type:9-axisSensing Axis:X, Y, ZSensitivity:1 LSB/mgAcceleration:2 g, 4 g, 8 g, 16 gOutput Type:DigitalInterface Type:HID-I2C, I2C, UARTResolution:16 bitOperating Supply Current:13.7 mASupply Voltage - Min:2.4 VSupply Voltage - Max:3.6 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CPackage / Case:LGA-28Packaging:Packaging:ReelBandwidth:1000 Hz BNO055 ManufacturerThe Bosch Group, a leading global supplier of technology and services, is designed to improve quality of life worldwide with products and services that are innovative and spark enthusiasm. BNO055 DatasheetYou can download BNO055 datasheet from the link given below:BNO055 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. BNO055 FAQWhat is in an IMU?Inertial measurement unit (IMU) The IMU is a sensor that measures triaxial acceleration and triaxial angular velocity. The IMU consists of an accelerometer, which can output linear acceleration signals on three axes in space, and a gyroscope, which can output angular velocity signals on three axes in space. What three components are in an IMU?An IMU is a specific type of sensor that measures angular rate, force and sometimes magnetic field. IMUs are composed of a 3-axis accelerometer and a 3-axis gyroscope, which would be considered a 6-axis IMU. They can also include an additional 3-axis magnetometer, which would be considered a 9-axis IMU. How does inertial measurement unit work?An inertial measurement unit works by detecting linear acceleration using one or more accelerometers and rotational rate using one or more gyroscopes. Typical configurations contain one accelerometer, gyro, and magnetometer per axis for each of the three principal axes: pitch, roll and yaw. What is the BNO055 equipped with for optimum system integration? Digital bidirectional I2C and UART interfaces. What can the I2C interface be programmed to run with?HID-I2C protocol. 

CatalogProduct OverviewADUM1201ARZ Related Video IntroductionADUM1201ARZ CAD ModelsADUM1201ARZ Pin ConfigurationADUM1201ARZ Block DiagramADUM1201ARZ FeaturesADUM1201ARZ ApplicationsADUM1201ARZ DatasheetADUM1201ARZ SpecificationsADUM1201ARZ ManufacturerUsing WarningADUM1201ARZ FAQ Product OverviewThe ADuM1200/ADuM12011 are dual-channel digital isolators based on the Analog Devices, Inc., iCoupler® technology. Combining high speed CMOS and monolithic transformer technologies, these isolation components provide outstanding performance characteristics superior to alternatives, such as optocouplers. By avoiding the use of LEDs and photodiodes, iCoupler devices remove the design difficulties commonly associated with optocouplers. The typical optocoupler concerns regarding uncertain current transfer ratios, nonlinear transfer functions, and temperature and lifetime effects are eliminated with the simple iCoupler digital interfaces and stable performance characteristics. The need for external drivers and other discrete components is eliminated with these iCoupler products. Furthermore, iCoupler devices consume one-tenth to one-sixth the power of optocouplers at comparable signal data rates. The ADuM1200/ADuM1201 isolators provide two independent isolation channels in a variety of channel configurations and data rates (see the Ordering Guide). Both devices operate with the supply voltage on either side ranging from 2.7 V to 5.5 V, providing compatibility with lower voltage systems as well as enabling a voltage translation functionality across the isolation barrier. In addition, the ADuM1200/ADuM1201 provide low pulse width distortion (<3 ns for CR grade) and tight channelto-channel matching (<3 ns for CR grade). Unlike other optocoupler alternatives, the ADuM1200/ADuM1201 isolators have a patented refresh feature that ensures dc correctness in the absence of input logic transitions and during powerup/power-down conditions. The ADuM1200W and ADuM1201W are automotive grade versions qualified for 125°C operation. See the Automotive Products section for more information. ADUM1201ARZ Related Video IntroductionVideo Description: This section of the TI Precision Labs - Isolation series offers an inside look at modern digital isolators. This video will address the following questions:  * What is a digital isolator? * How do capacitive digital isolators work? * How does edge based isolation work? * How does On Off Keying (OOK) isolation work? * What do I need to know when using a digital isolator? ADUM1201ARZ CAD ModelsFigure: ADUM1201ARZ PCB Symbol   Figure: ADUM1201ARZ Footprint   Figure: ADUM1201ARZ 3D Models ADUM1201ARZ Pin ConfigurationFigure: ADUM1201ARZ Pin Configuration ADUM1201ARZ Block DiagramFigure: ADUM1201ARZ Block Diagram ADUM1201ARZ FeaturesNarrow body, RoHS-compliant, SOIC 8-lead packageLow power operation5 V operation1.1 mA per channel maximum at 0 Mbps to 2 Mbps3.7 mA per channel maximum at 10 Mbps8.2 mA per channel maximum at 25 Mbps3 V operation0.8 mA per channel maximum at 0 Mbps to 2 Mbps2.2 mA per channel maximum at 10 Mbps4.8 mA per channel maximum at 25 MbpsBidirectional communication3 V/5 V level translationHigh temperature operation: 125°CHigh data rate: dc to 25 Mbps (NRZ)Precise timing characteristics3 ns maximum pulse width distortion3 ns maximum channel-to-channel matchingHigh common-mode transient immunity: >25 kV/μsSafety and regulatory approvalsUL recognition2500 V rms for 1 minute per UL 1577CSA Component Acceptance Notice 5AVDE Certificate of ConformityDIN V VDE V 0884-10 (VDE V 0884-10): 2006-12VIORM = 560 V peakQualified for automotive applications ADUM1201ARZ ApplicationsSize-critical multichannel isolationSPI interface/data converter isolationRS-232/RS-422/RS-485 transceiver isolationDigital field bus isolationHybrid electric vehicles, battery monitor, and motor drive ADUM1201ARZ DatasheetYou can download the datasheet from the link given below:ADUM1201ARZ Datasheet ADUM1201ARZ SpecificationsTypeDescriptionCategoryIsolatorsDigital IsolatorsMfrAnalog Devices Inc.SeriesiCoupler®PackageTubePart StatusActiveTechnologyMagnetic CouplingTypeGeneral PurposeIsolated PowerNoNumber of Channels2Channel TypeUnidirectionalVoltage - Isolation2500VrmsCommon Mode Transient Immunity (Min)25kV/µsData Rate1MbpsPropagation Delay tpLH / tpHL (Max)150ns, 150nsPulse Width Distortion (Max)40nsRise / Fall Time (Typ)10ns, 10nsVoltage - Supply2.7V ~ 5.5VOperating Temperature-40°C ~ 105°CMounting TypeSurface MountPackage / Case8-SOIC (0.154", 3.90mm Width)Supplier Device Package8-SOICBase Product NumberADUM1201 ADUM1201ARZ ManufacturerAnalog Devices, Inc. (ADI), also known simply as Analog, is an American multinational semiconductor company specializing in data conversion, signal processing and power management technology, headquartered in Wilmington, Massachusetts. In 2012, Analog Devices led the worldwide data converter market with a 48.5% share, according to analyst firm Databeans. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. ADUM1201ARZ FAQWhat is a digital isolator?Digital isolators are integrated devices used to isolate digital signals and transfer digital communication across an isolation barrier. How does a digital isolator work?Digital isolators use transformers or capacitors to magnetically or capacitively couple data across an isolation barrier, compared to optocouplers that use light from LEDs. Transformers pulse current through a coil to create a small, localized magnetic field that induces current in another coil. What are isolators used for?Isolator is a manually operated mechanical switch that isolates the faulty section of substation. It is used to separate faulty section for repair from a healthy section in order to avoid the occurrance of severe faults. It is also called disconnector or disconnecting switch. 

Product OverviewThe ADM3251E1 is a high speed, 2.5 kV fully isolated, singlechannel RS-232/V.28 transceiver device that operates from a single 5 V power supply. Due to the high ESD  protection on the RIN and TOUT pins, the device is ideally suited for operation in electrically harsh environments or where RS-232 cables are frequently being plugged and unplugged. The ADM3251E incorporates dual-channel digital isolators with isoPower™ integrated, isolated power. There is no requirement to use a separate isolated dc-to-dc converter. Chip-scale transformer iCoupler® technology from Analog Devices, Inc., is used both for the isolation of the logic signals as well as for the integrated dc-to-dc converter,  The result is a total isolation solution  . This blog will introduce ADM3251EARWZ systematically from its features, pinout to its specifications, applications, also including ADM3251EARWZ datasheet and so much more. CatalogProduct OverviewADM3251EARWZ FeaturesADM3251EARWZ PinoutADM3251EARWZ ApplicationsADM3251EARWZ CAD ModelsADM3251EARWZ Block DiagramADM3251EARWZ Circuit DiagramADM3251EARWZ PackageADM3251EARWZ SpecificationADM3251EARWZ ManufacturerADM3251EARWZ DatasheetUsing WarningsADM3251EARWZ FAQ ADM3251EARWZ Features5 kV fully isolated (power and data) RS-232 transceiverisoPower integrated, isolated dc-to-dc converter 460 kbps data rate1 Tx and 1 RxMeets EIA/TIA-232E specificationsESD protection on RIN and TOUT pins±8 kV: contact discharge±15 kV: air gap discharge1 μF charge pump capacitors High common-mode transient immunity: >25 kV/μs ADM3251EARWZ PinoutThe following figure is the diagram of ADM3251EARWZ pinout. ADM3251EARWZ Pinout ADM3251EARWZ ApplicationsHigh noise data communicationsIndustrial communicationsGeneral-purpose RS232 data linksIndustrial/telecommunications diagnostic portsMedical equipment ADM3251EARWZ CAD ModelsThe following are ADM3251EARWZ Symbol, Footprint, and 3D Model. ADM3251EARWZ Symbol ADM3251EARWZ Footprint ADM3251EARWZ 3D Model ADM3251EARWZ Block DiagramThe following figure shows the block diagram of ADM3251EARWZ. ADM3251EARWZ Block Diagram ADM3251EARWZ Circuit DiagramThe following is the circuit diagram ofADM3251EARWZ. Typical Operating Circuit with the DC-to-DC Converter Disabled(VCC = 3.0 V to 3.7 V) Isolated Power Supply Circuit ADM3251EARWZ PackageThe following diagram shows the ADM3251EARWZ package. ADM3251EARWZ Package ADM3251EARWZ SpecificationProduct AttributeAttribute ValueManufacturer:Analog Devices Inc.Product Category:Digital IsolatorsSeries:ADM3251EMounting Style:SMD/SMTPackage / Case:SOIC-20Number of Channels:1 ChannelPolarity:UnidirectionalData Rate:460 kb/sIsolation Voltage:2500 VrmsIsolation Type:Magnetic CouplingSupply Voltage - Max:5.5 VSupply Voltage - Min:4.5 VOperating Supply Current:110 mAPropagation Delay Time:190 nsMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CPackaging:TubeDevelopment Kit:EVAL-ADM3251EEB1ZMoisture Sensitive:YesOperating Supply Voltage:5 V ADM3251EARWZ ManufacturerAnalog Devices has built one of the longest standing, highest growth companies within the technology sector utilizing cultural pillars such as innovation, performance, and excellence. Acknowledged industry-wide as the world leader in data conversion and signal conditioning technology, Analog Devices serves over 100,000 customers, representing virtually all types of electronic equipment. Celebrating over 50 years as a leading global manufacturer of high-performance integrated circuits used in analog and digital signal processing applications, Analog Devices is headquartered in Norwood, Massachusetts, with design and manufacturing facilities throughout the world. Analog Devices' is included in the S&P 500 Index. ADM3251EARWZ DatasheetYou can download ADM3251EARWZ datasheet from the link given below:ADM3251EARWZ Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. ADM3251EARWZ FAQWhy is the ADM3251E1 ideally suited for operation in harsh environments? High ESD protection. What company uses the ADM3251E for the isolation of logic signals? Chip-scale transformer iCoupler® technology. What is the result of the integrated dc-to-dc converter? Total isolation solution. What are line drivers and receivers?A line driver is a communications transmitter/receiver used to extend the transmission distance between terminals and computers that are directly connected. It acts as an interface between logic circuits and a two-wire transmission line. What does a line driver do?A line driver is an electronic amplifier circuit designed for driving a load such as a transmission line. The amplifier's output impedance may be matched to the characteristic impedance of the transmission line.

CatalogProduct OverviewIRFB4227PBF Related Video IntroductionIRFB4227PBF CAD ModelsIRFB4227PBF FeaturesIRFB4227PBF Key ParametersIRFB4227PBF DatasheetIRFB4227PBF SpecificationsIRFB4227PBF ManufacturerUsing WarningIRFB4227PBF FAQ Product OverviewThis HEXFET® Power MOSFET is specifically designed for Sustain¡ Energy Recovery & Pass switch applications in Plasma Display Panels. This MOSFET utilizes the latest processing techniques to achieve low on-resistance per silicon area and low EPULSE rating. Additional features of this MOSFET are 175°C operating junction temperature and high repetitive peak current capability. These features combine to make this MOSFET a highly efficient, robust and reliable device for PDP driving applications. IRFB4227PBF Related Video IntroductionVideo Description: How to measure  “drain-source on resistance” in order to identify a fake MOSFET Transistor. Do this test for your MOSFET and compare it to the datasheet. IRFB4227PBF CAD ModelsFigure: IRFB4227PBF PCB Symbol   Figure: IRFB4227PBF Footprint   Figure: IRFB4227PBF 3D Models IRFB4227PBF FeaturesAdvanced Process TechnologyKey Parameters Optimized for PDP Sustain, Energy Recovery and Pass Switch ApplicationsLow EPULSE Rating to Reduce Power Dissipation in PDP Sustain, Energy Recovery and Pass Switch ApplicationsLow QG for Fast ResponseHigh Repetitive Peak Current Capability for Reliable OperationShort Fall & Rise Times for Fast Switching175°C Operating Junction Temperature for Improved RuggednessRepetitive Avalanche Capability for Robustness and ReliabilityClass-D Audio Amplifier 300W-500W (Half-bridge) IRFB4227PBF Key ParametersKey ParametersVDS max200VVDS (Avalanche) typ.240VRDS(ON) typ. @ 10V19.7m IRP max @ TC= 100°C130ATJ max175°C IRFB4227PBF DatasheetYou can download the datasheet from the link given below:IRFB4227PBF Datasheet IRFB4227PBF SpecificationsTypeDescriptionCategoryDiscrete Semiconductor ProductsTransistors - FETs, MOSFETs - SingleMfrInfineon TechnologiesSeriesHEXFET®PackageTubePart StatusActiveFET TypeN-ChannelTechnologyMOSFET (Metal Oxide)Drain to Source Voltage (Vdss)200 VCurrent - Continuous Drain (Id) @ 25°C65A (Tc)Drive Voltage (Max Rds On, Min Rds On)10VRds On (Max) @ Id, Vgs24mOhm @ 46A, 10VVgs(th) (Max) @ Id5V @ 250µAGate Charge (Qg) (Max) @ Vgs98 nC @ 10 VVgs (Max)±30VInput Capacitance (Ciss) (Max) @ Vds4600 pF @ 25 VFET Feature-Power Dissipation (Max)330W (Tc)Operating Temperature-40°C ~ 175°C (TJ)Mounting TypeThrough HoleSupplier Device PackageTO-220ABPackage / CaseTO-220-3Base Product NumberIRFB4227 IRFB4227PBF ManufacturerInfineon Technologies is a leading global designer, manufacturer and supplier of a broad range of semiconductors used in various microelectronic applications. Infineon's product portfolio consists of logic products, including digital, mixed-signal, and analog integrated circuits, as well as discrete semiconductor products. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. IRFB4227PBF FAQWhat is meant by power MOSFET?A type of metal oxide semiconductor field effect transistor (MOSFET) used to switch large amounts of current. Power MOSFETs use a vertical structure with source and drain terminals at opposite sides of the chip. The vertical orientation eliminates crowding at the gate and offers larger channel widths. What are power MOSFET used for?Power MOSFETs are widely used in transportation technology, which include a wide range of vehicles. In the automotive industry, power MOSFETs are widely used in automotive electronics. Power MOSFETs (including DMOS, LDMOS and VMOS) are commonly used for a wide range of other applications. How does power MOSFET work?Power MOSFETs (Metal-Oxide Semiconductor Field Effect Transistors) are three-terminal silicon devices that function by applying a signal to the gate that controls current conduction between source and drain. What are the important power MOSFET characteristics?Because power MOSFETs are primarily used as power switches, they are expected to have low conduction and switching losses. For power management applications, conduction losses, ruggedness and avalanche capability are important features. Why are MOSFETs used in low power applications?Where the Power MOSFETs are used, it is their low ON resistance that is particularly attractive. This reduces power dissipation which reduces cost and size less metalwork and cooling is required. Also the low ON resistance means that efficiency levels can be maintained at a higher level.