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The MCP25625 integrates both the CAN controller and the CAN transceiver. Therefore, it is a complete CAN solution that can be easily added to a microcontroller with an SPI interface.CatalogProduct OverviewCAN Controller FeaturesCAN Transceiver FeaturesMCP25625 CAD ModelsMCP25625 Block DiagramMCP25625 FeaturesMCP25625 Product AttributesMCP25625 ApplicationsAlternate PartsMCP25625-E/ML vs MCP25625T-E/SSComponent DatasheetUsing WarningsMCP25625 ManufacturerProduct OverviewMCP25625 click also has a RS232 port, which is a standard connector for CAN communications. Additionally, the two CAN wires (CANL and CANH) can also be connected directly through two pins on the right edge of the board.The click communicates with the target MCU through the SPI interface — although there are additional options that take the load off the target board MCU. To that end, all 16 mikroBUS™ pins are connected. There’s a clock output, a Request To Send, an Interrupt, standby, reset and more. MCP25625 click can work with both 3.3V or 5V logic levels.The MCP25625 interfaces directly with microcontrollers operating at 2.7 to 5.5V, there are no external level shifters required. In addition, the controller connects directly to the physical CAN bus, supporting all requirements for CAN high-speed transceivers. It meets the automotive requirements for high-speed (up to 1Mb/s), low quiescent current, electromagnetic compatibility (EMC) and electrostatic discharge (ESD). The CAN controller has an internal Sleep mode that is used to minimize the current consumption of the device. The SPI interface remains active for reading even when the controller is in Sleep mode, allowing access to all registers. Sleep mode is selected via the REQOP bits in the CANCTRL register. The OPMOD bits in the CANSTAT register indicate the operation mode.CAN Controller Features• VDD: 2.7 to 5.5V• Implements CAN 2.0B (ISO11898-1)• Three Transmit Buffers with Prioritization and Abort Features• Two Receive Buffers• Six Filters and Two Masks with Optional Filtering on the First Two Data Bytes• Supports SPI Modes 0,0 and 1,1• Specific SPI Commands to Reduce SPI Overhead• Buffer Full and Request-to-Send Pins are Configurable as General Purpose I/Os• One Interrupt Output PinCAN Transceiver Features• VDDA: 4.5V to 5.5V• Implements ISO-11898-2 and ISO-11898-5 Standard Physical Layer Requirements• CAN Bus Pins are Disconnected when Device is Unpowered:- An unpowered node or brown-out event will not load the CAN bus• Detection of Ground Fault:- Permanent Dominant detection on TXD- Permanent Dominant detection on bus• Power-on Reset and Voltage Brown-Out Protection on VDDA Pin• Protection Against Damage Due to Short-Circuit Conditions (Positive or Negative Battery Voltage)• Protection Against High-Voltage Transients in Automotive Environments• Automatic Thermal Shutdown Protection• Suitable for 12V and 24V Systems• Meets or Exceeds Stringent Automotive Design Requirements, Including “Hardware Requirements for LIN, CAN and FlexRay Interfaces in Automotive Applications”.• High Noise Immunity Due to Differential Bus Implementation• High-ESD Protection on CANH and CANL, Meets IEC61000-4-2 up to ±8 kVMCP25625 CAD ModelsMCP25625-E/ML CAD Models MCP25625-E/SS CAD Models MCP25625 Block DiagramMCP25625 Block Diagram MCP25625 Features• Stand-Alone CAN 2.0B Controller with Integrated CAN Transceiver and Serial Peripheral Interface (SPI)• Up to 1 Mb/s Operation• Very Low Standby Current (10 µA, typical)• Up to 10 MHz SPI Clock Speed• Interfaces Directly with Microcontrollers with 2.7V to 5.5V I/Os• Available in SSOP-28L and 6x6 QFN-28L• Temperature Ranges: Extended (E): -40°C to +125°CMCP25625 Product AttributesMCP25625-E/ML SpecificationsValuesCase/PackageQFNContact PlatingTinMountSurface MountNumber of Pins28Weight70.788759 mgAmbient Temperature Range High125 °CData Rate1 MbpsInterfaceCANMax Junction Temperature (Tj)150 °CMax Operating Temperature125 °CMax Supply Current70 mAMax Supply Voltage5.5 VMin Operating Temperature-40 °CMin Supply Voltage2.7 VNominal Supply Current5 mANumber of Drivers1Number of Receive Buffers2Number of Receivers1Number of Transceivers1Number of Transmit Buffers3Operating Supply Current70 mAPackagingCut TapePropagation Delay125 nsReceiver Hysteresis200 mVHeight950 µmLength6 mmWidth6 mmLead FreeLead FreeREACH SVHCNo SVHCRoHSCompliantCase/PackageQFNContact PlatingTinMountSurface MountNumber of Pins28Weight70.788759 mgAmbient Temperature Range High125 °CMax Supply Current70 mAMax Supply Voltage5.5 VMin Operating Temperature-40 °CMin Supply Voltage2.7 VNominal Supply Current5 mANumber of Drivers1Number of Receive Buffers2Number of Receivers1Number of Transceivers1Number of Transmit Buffers3Operating Supply Current70 mAPackagingCut TapePropagation Delay125 nsReceiver Hysteresis200 mVHeight950 µmLength6 mmWidth6 mmLead FreeLead FreeREACH SVHCNo SVHCRoHSCompliant MCP25625-E/SS SpecificationsValuesCase/PackageSSOPMountSurface MountNumber of Pins28Weight2.26799 gAmbient Temperature Range High125 °CData Rate1 MbpsInterfaceSPIMax Junction Temperature (Tj)150 °CMax Operating Temperature125 °CMax Supply Current70 mAMax Supply Voltage5.5 VMin Operating Temperature-40 °CMin Supply Voltage2.7 VNominal Supply Current10 mANumber of Drivers1Number of Receive Buffers1Number of Receivers1Number of Transceivers3Number of Transmit Buffers1Operating Supply Current70 mAPackagingCut TapePropagation Delay125 nsReceiver Hysteresis200 mVSchedule B8542390000Height1.85 mmLength10.5 mmWidth5.6 mmLead FreeLead FreeREACH SVHCNo SVHCRoHSCompliantMCP25625 ApplicationsAutomotive, Communications & NetworkingAlternate PartsMCP25625T-E/ML, MCP25625-E/SSVAO, MCP25625T-E/SS,MCP25625T-E/MLVAO, MCP25625T-E/SSVAO, MCP25625-E/SSMCP25625-E/ML vs MCP25625T-E/SSSpecificationsMCP25625-E/MLMCP25625T-E/SSRohs CodeYesYesPart Life Cycle CodeActiveActiveIhs ManufacturerMICROCHIP TECHNOLOGY INCMICROCHIP TECHNOLOGY INCPackage DescriptionQFN-28SSOP-28Reach Compliance CodecompliantcompliantECCN CodeEAR99EAR99HTS Code8542.39.00.018542.39.00.01Factory Lead Time13 Weeks13 WeeksJESD-30 CodeS-PQCC-N28R-PDSO-G28JESD-609 Codee3e3Length6 mm10.2 mmMoisture Sensitivity Level12Number of Functions11Number of Terminals2828Operating Temperature-Max125 °C125 °COperating Temperature-Min-40 °C-40 °CPackage Body MaterialPLASTIC/EPOXYPLASTIC/EPOXYPackage CodeHVQCCNSSOPPackage ShapeSQUARERECTANGULARPackage StyleCHIP CARRIER, HEAT SINK/SLUG, VERY THIN PROFILESMALL OUTLINE, SHRINK PITCHPeak Reflow Temperature (Cel)260260Screening LevelTS 16949TS 16949Seated Height-Max1 mm2 mmSupply Voltage-Nom5 V5 VSurface MountYESYESTelecom IC TypeINTERFACE CIRCUITINTERFACE CIRCUITTemperature GradeAUTOMOTIVEAUTOMOTIVETerminal FinishMatte Tin (Sn) - annealedMatte Tin (Sn) - annealedTerminal FormNO LEADGULL WINGTerminal Pitch0.65 mm0.65 mmTerminal PositionQUADDUALTime@Peak Reflow Temperature-Max (s)4040Width6 mm5.3 mmBase Number Matches22Component DatasheetMCP25625 PDFUsing WarningsPlease check their parameters and pin configuration before replacing them in your circuit.MCP25625 ManufacturerMicrochip Technology Inc. is a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions, providing low-risk product development, lower total system cost and faster time to market for thousands of diverse customer applications worldwide. Headquartered in Chandler, Arizona, Microchip offers outstanding technical support along with dependable delivery and quality.
kynix On 2022-01-25
Product OverviewThe AMC7135 is a low dropout current regulator rated for 350mA constant sink current. The low quiescent current and low dropout voltage are achieved by advanced Bi-CMOS process. This blog will introduce AMC7135 systematically from its features, pinout to its specifications, applications, also including AMC7135 datasheet and so much more. CatalogProduct OverviewAMC7135 FeaturesAMC7135 PinoutAMC7135 Pin ConfigurationAMC7135 ApplicationsAMC7135 AlternativesAMC7135 Circuit DiagramAMC7135 Block DiagramAMC7135 PackageWhere to use AMC7135 Current Regulator ICAMC7135 SpecificationAMC7135 ManufacturerAMC7135 DatasheetUsing WarningsAMC7135 FAQ AMC7135 Features350mA constant sink current, Output short / open circuit protection .Low dropout voltage .Low quiescent currentSupply voltage range 2.7V ~ 6V2KV HBM ESD protectionOperating junction temperature is 125°CIn-built Current Limiting and thermal protectionAdvanced Bi-CMOS process.SOT-89 and TO-252 package AMC7135 PinoutThe following figure is the diagram of AMC7135 pinout. AMC7135 Pinout AMC7135 Pin ConfigurationPin NumberPin NamePin Description1Output Voltage (OUT)Output Voltage of the Regulator2GroundGround Pin of the Regulator3Input Voltage (VDD)The input voltage which has to be regulated is given to this pin AMC7135 ApplicationsPower LED driverCap LampRefrigerator Lighting AMC7135 AlternativesLM1117, LM338, LM317T, XC6206P332MR AMC7135 Circuit DiagramUsing the AMC7135 Current Regulator IC is pretty much straight forward, it is a fixed current regulator IC so connecting the power to its input and attaching a load to the output does the job pretty easily. The ground pin needs to be connected to the ground and two decoupling capacitors need to be connected both to the input and the output to make the output current stable. The basic circuit diagram for this IC is shown below. AMC7135 Circuit Diagram The output capacitor CO may be removed under certain conditions. Please refer to the following figure. If LED and AMC7135 are located in the same PCB, and the length of the routing path L1<10cm & L2<3cm, the output capacitor CO can be neglected. If LED and AMC7135 are located in separate PCBs, or the length of the routing path L1>10cm or L2>3cm, the output capacitor CO should be added. Typically, capacitance of 0.1uF ~ 1uF is recommended and 1uF is needed when L2 is much longer than 3cm. For more information you can check out the datasheet of the device linked in the bottom of the page. AMC7135 Block DiagramThe following figure shows the block diagram of AMC7135. AMC7135 Block Diagram AMC7135 PackageThe following diagram shows the AMC7135 package. AMC7135 Package Where to use AMC7135 Current Regulator ICThe AMC7135 Current Regulator IC, meaning it has two Op-Amps inside it and each Op-Amp can be used independently. The AMC7135 is a low dropout current regulator It is known for its small form factor since it is available as a DCY Package (SMD Component). There are two variants of this IC and you can choose SOT-89 and TO-252 the TO-252 is mildly superior than that of the TO-252.So if you are looking for a SMD component voltage regulator then this IC might be the right choice for you. AMC7135 SpecificationInput Voltage, VDD -0.3V to 7VOutput Voltage, VOUT -0.3V to 7V Maximum Junction Temperature, TJ150 CStorage Temperature Range -40 C to 150 CLead Temperature (Soldering, 10 seconds) 260 C AMC7135 ManufacturerAdd Microtech Corp. develops high performance analog and mixed signal products. The Company's products include video amplifiers, power supplies, operational amplifiers, voltage references, high speed data transmission, switches, wireless circuits, broadband power amplifiers, and fiber optic analog circuits. AMC7135 DatasheetYou can download AMC7135 datasheet from the link given below:AMC7135 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. AMC7135 FAQWhat is a low-dropout regulator?A low-dropout regulator (LDO regulator) is a DC linear voltage regulator that can regulate the output voltage even when the supply voltage is very close to the output voltage. What are the types of regulator?Basically, there are two types of Voltage regulators: Linear voltage regulator and Switching voltage regulator. Why current regulators are used in drives?A current regulator provides in this case the voltage commands to the inverter. This type of control is commonly referred as vector control. An advantage of using current regulators is that they allow an effective protection of machine and power converter against overloads or even short circuits.
Kynix On 2025-04-30
Product OverviewThe LT®3045 is a high performance low dropout linear regulator featuring LTC’s ultralow noise and ultrahigh PSRR architecture for powering noise sensitive applications. Designed as a precision current reference followed by a high performance voltage buffer, the LT3045 can be easily paralleled to further reduce noise, increase output current and spread heat on the PCB. This blog will introduce LT3045 systematically from its features, pinout to its specifications, applications, also including LT3045 datasheet and so much more. CatalogProduct OverviewLT3045 FeaturesLT3045 ApplicationsLT3045 PinoutLT3045 AdvantagesLT3045 Typical ApplicationsLT3045 Block DiagramLT3045 Packaging DimensionLT3751 SpecificationLT3045 ManufacturerLT3045 DatasheetUsing WarningsLT3045 FAQ LT3045 FeaturesUltralow RMS Noise: 0.8µVRMS (10Hz to 100kHz)Ultralow Spot Noise: 2nV/√Hz at 10kHzUltrahigh PSRR: 76dB at 1MHzOutput Current: 500mAWide Input Voltage Range: 1.8V to 20VSingle Capacitor Improves Noise and PSRR100µA SET Pin Current: ±1% Initial AccuracySingle Resistor Programs Output VoltageHigh Bandwidth: 1MHzProgrammable Current LimitLow Dropout Voltage: 260mVOutput Voltage Range: 0V to 15VProgrammable Power GoodFast Start-Up CapabilityPrecision Enable/UVLOParallelable for Lower Noise and Higher CurrentInternal Current Limit with FoldbackMinimum Output Capacitor: 10µF CeramicReverse-Battery and Reverse-Current Protection12-Lead MSOP and 10-Lead 3mm × 3mm DFN PackagesAEC-Q100 Qualified for Automotive Applications LT3045 ApplicationsRF Power Supplies: PLLs, VCOs, Mixers, LNAs, PAsVery Low Noise InstrumentationHigh Speed/High Precision Data ConvertersMedical Applications: Imaging, DiagnosticsPrecision Power SuppliesPost-Regulator for Switching Supplies LT3045 PinoutThe following figure is the diagram of LT3045 pinout. LT3045 Pinout1 LT3045 Pinout2 LT3045 AdvantagesThe device supplies 500mA at a typical 260mV dropout voltage. Operating quiescent current is nominally 2.2mA and drops to <<1µA in shutdown. The LT3045’s wide output voltage range (0V to 15V) while maintaining unitygain operation provides virtually constant output noise, PSRR, bandwidth and load regulation, independent of the programmed output voltage. Additionally, the regulator features programmable current limit, fast start-up capability and programmable power good to indicate output voltage regulation. The LT3045 is stable with a minimum 10µF ceramic output capacitor. Built-in protection includes reverse-battery protection, reverse-current protection, internal current limit with foldback and thermal limit with hysteresis. The LT3045 is available in thermally enhanced 12-Lead MSOP and 10-Lead 3mm × 3mm DFN packages. LT3045 Typical ApplicationsThe following figures shows the typical applications of LT3045, which shows the compact solution dimensions. LT3045 Typical Applications Power Supply Ripple Rejection LT3045 Block DiagramThe following figure shows the block diagram of LT3045. LT3045 Block Diagram LT3045 Packaging DimensionThe following figure shows packaging dimension of LT3045. LT3045 Packaging Dimension LT3751 SpecificationManufacturer:Analog Devices IncDropout Voltage1-Max:0.45 VLength:3 mmOperating Temperature TJ-Max:125 °COutput Current1-Max:0.5 AOutput Voltage1-Max:15 VSeated Height-Max:0.8 mmTerminal Pitch:0.45 mmWidth:3 mmTerminal Position:DUAL LT3045 ManufacturerLinear Technology and Analog Devices have joined together. Analog Devices is a world leader in the design, manufacture, and marketing of a broad portfolio of high performance analog, mixed-signal, and digital signal processing (DSP) integrated circuits (ICs) used in virtually all types of electronic equipment. LT3045 DatasheetYou can download this datasheet for LT3045–Datasheet from the link given below:LT3045 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. LT3045 FAQWhat can the lt3045 LDO regulator be used for?The LT3045 was designed for noise sensitive power supply applications found in instrumentation, test, and medical designs. What kind of linear regulator does LTC use?The LT3045 is a high performance low dropout linear regulator featuring LTC’s ultralow noise and ultrahigh PSRR architecture for powering noise sensitive applications. What is the voltage range of the lt3045?The LT3045’s wide output voltage range (0V to 15V) while maintaining unity- gain operation provides virtually constant output noise, PSRR, bandwidth and load regulation, independent of the programmed output voltage. How does a low dropout regulator work?Low-dropout regulators are distinguished by their ability to maintain regulation with small differences between supply voltage and load voltage. For example, as a lithium-ion battery drops from 4.2 V (fully charged) to 2.7 V (almost discharged), an LDO can maintain a constant 2.5 V at the load. What does low dropout voltage mean?LDO, which stands for Low Dropout, can operate at a low potential difference between input and output. Although there are no strict numerical definitions regarding the potential difference between the input and output of an LDO, generally the lowest voltage at which the regulator can operate stably is less than 1V.
kynix On 2022-04-07
Product OverviewThe SiT5356 is a ±100 ppb precision MEMS Super-TCXO that is fully compliant to Telcordia GR-1244-CORE Stratum 3 oscillator specifications. Engineered for best dynamic performance, the SiT5356 is ideal for high reliability telecom, wireless and networking, industrial, precision GNSS and audio/video applications. This blog will introduce SIT5356 systematically from its features, pinout to its specifications, applications, also including SIT5356 datasheet and so much more. CatalogProduct OverviewSIT5356 FeaturesSIT5356 PinoutSIT5356 ApplicationsSIT5356 Block DiagramTest Circuit Diagrams for LVCMOSSIT5356 SpecificationSIT5356 AdvantagesSIT5356 ManufacturerSIT5356 DatasheetUsing WarningsSIT5356 FAQ SIT5356 Features◼ Any frequency from 1 MHz to 60 MHz in 1 Hz steps◼ Factory programmable options for short lead time◼ Best dynamic stability under airflow, thermal shock▪ ±100 ppb stability across temperature▪ ±1 ppb/°C typical frequency slope (ΔF/ΔT)▪ 1.5e-11 ADEV at 10 second averaging time ◼ -40°C to +105°C operating temperature◼ No activity dips or micro jumps◼ Resistant to shock, vibration and board bending◼ On-chip regulators eliminate the need for external LDOs◼ Digital frequency pulling (DCTCXO) via I2C▪ Digital control of output frequency and pull range▪ Up to ±3200 ppm pull range▪ Frequency pull resolution down to 5 ppt ◼ 2.5 V, 2.8 V, 3.0 V and 3.3 V supply voltage◼ LVCMOS or clipped sinewave output◼ RoHS and REACH compliant◼ Pb-free, Halogen-free, Antimony-free SIT5356 PinoutThe following figure is the diagram of SIT5356 pinout. SIT5356 Pinout SIT5356 Pin Description SIT5356 Applications◼ 4G/5G radio, Small cell◼ IEEE1588 boundary and grandmaster clocks◼ Carrier-grade routers and switches◼ Synchronous Ethernet◼ Optical transport – SONET/SDH, OTN, Stratum 3◼ DOCSIS 3.x remote PHY◼ GPS disciplined oscillators◼ Precision GNSS systems◼ Test and measurement SIT5356 Block DiagramThe following figure shows the block diagram of SIT5356. SIT5356 Block Diagram Test Circuit Diagrams for LVCMOSThe following figures shows the test circuit diagrams of SIT5356, which shows the compact solution dimensions. LVCMOS Test Circuit (OE Function) LVCMOS Test Circuit (VC Function) LVCMOS Test Circuit (NC Function) SIT5356 SpecificationOscillator TypeTCXO-SEFrequency1 to 60 MHzFrequency Stability (ppm)±0.1, ±0.2, ±0.25Phase Jitter (rms)0.31 psOutput TypeLVCMOS, Clipped sinewaveOperating Temperature Range (°C)-20 to +70, -40 to +85, -40 to +105Pull Range (ppm)±6.25, ±10, ±12.5, ±25, ±50, ±80, ±100, ±125, ±150, ±200, ±400, ±600, ±800, ±1600, ±3200Voltage Supply (V)2.5, 2.8, 3, 3.3Package Type (mm²)5.0 x 3.2 10-pinFeaturesPrecision TCXO SIT5356 AdvantagesLeveraging SiTime’s unique DualMEMS temperature sensing and TurboCompensation technologies, the SiT5356 delivers the best dynamic performance for timing stability in the presence of environmental stressors such as air flow, temperature perturbation, vibration, shock, and electromagnetic interference. This device also integrates multiple on-chip regulators to filter power supply noise, eliminating the need for a dedicated external LDO. SIT5356 ManufacturerSitime Corporation develops silicon-based timing solutions. The Company manufacturers oscillators, clock generators, and embedded resonators used for ethernet switches, computing devices, graphics cards, disk drives, mobile phones, and subscriber identity module cards. Sitime serves customers worldwide. SIT5356 DatasheetYou can download this datasheet for SIT5356–Datasheet from the link given below:SIT5356 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. SIT5356 FAQWhat makes SiTime sit5356 the best timing platform?Leveraging SiTime’s unique DualMEMS temperature sensing and TurboCompensation technologies, the SiT5356 delivers the best dynamic performance for timing stability in the presence of environmental stressors such as air flow, temperature perturbation, vibration, shock, and electromagnetic interference. Can a sit5356 clock be factory-programmed?SiT5356 can be factory-programmed to any combination of frequency, stability, voltage, and pull range. This programmability enables designers to optimize the clock configuration while eliminating the long lead time and customization costs associated with quartz TCXOs where each frequency is custom built. What is TCXO used for?A TCXO is a temperature-compensated crystal oscillator that is used whenever particularly high stability within a variant temperature environment is required, i.e. when the frequency deviation of the oscillator must be minimal over its entire operating temperature range. What is OCXO and TCXO?Both TCXOs (Temperature Compensated Crystal Oscillators) and OCXOs (Oven Controlled Crystal Oscillators) are crystal oscillators whose oscillation frequency does not vary as much at high temperatures or when the temperature fluctuates. Why use a crystal instead of an oscillator?An oscillator is an amplifier circuit, with feedback so that it oscillates, and a "frequency determining element" that keeps it oscillating at the desired frequency. A crystal can be made for a precise frequency, and it will drift very little if the temperature or stray capacitance changes.
kynix On 2022-01-22
DIODE GEN PURP 75V 150MA SOD323F, Diode Standard 75 V 150mA Surface Mount SOD-323FCatalogDescriptionCAD ModelPolarity and PinoutDimensions of the 1N4148WS DiodeProduct AttributesCharactiristics of the 1N4148WS DiodeReplacement and Equivalent1N4148WS vs 1N4148WS-71N4148WS DatasheetFAQ DescriptionGeneral Purpose DiodesFast Switching Device (TRR< 4.0ns)Very Small and Thin SMD PackageMoisture Level Sensitivity 1Pb-free Version and RoHS CompliantMatte Tin (Sn) Lead FinishGreen Mold Compound CAD Model CAD Model Polarity and PinoutThe 1N4148WS diode has a cathode (-) and anode (+). In the schematic symbol, the tip of the triangle with the line on top of it is the cathode. The cathode is marked on the body of a diode by a band as shown below. The current can flow from only the anode to the cathode and never from the cathode to the anode - the 1N4148WS diode is like a one way electric valve. Dimensions of the 1N4148WS Diode Dimensions of the 1N4148WS diode Product Attributes TYPEDESCRIPTIONCategoryDiscrete Semiconductor Products Diodes - Rectifiers - SingleMfronsemiSeries-PackageTape & Reel (TR) Cut Tape (CT) Digi-ReelPart StatusActiveDiode TypeStandardVoltage - DC Reverse (Vr) (Max)75 VCurrent - Average Rectified (Io)150mAVoltage - Forward (Vf) (Max) @ If1 V @ 10 mASpeedSmall Signal =< 200mA (Io), Any SpeedReverse Recovery Time (trr)4 nsCurrent - Reverse Leakage @ Vr5 A @ 75 VCapacitance @ Vr, F4pF @ 0V, 1MHzMounting TypeSurface MountPackage / CaseSC-90, SOD-323FSupplier Device PackageSOD-323FOperating Temperature - Junction150C (Max)Base Product Number1N4148Charactiristics of the 1N4148WS Diode Maximum Recurrent Peak Reverse Voltage - 100 VMaximum Average Forward Output Current - 0.15 AMaximum Forward Voltage Drop per element at 1.0A DC - 1 VMaximum reverse recovery time - 4 nsTypical Junction Capacitance 4 pFPackage - SOD-323Weight 0.01 gramsOperating and Storage Temperature Range -55...+125 °C Replacement and EquivalentYou can replace the 1N4148 with the 1N4448WS, 1N4448W, 1N4448, 1N4148WS, 1N4148W 1N4148WS vs 1N4148WS-7Part Number1N4148WS1N4148WS-7Pbfree CodeYes Rohs CodeYesNoPart Life Cycle CodeActiveObsoletePackage DescriptionR-PDSO-G2ULTRA SMALL, PLASTIC PACKAGE-2Pin Count22Reach Compliance Codecompliantnot_compliantECCN CodeEAR99EAR99HTS Code8541.10.00.708541.10.00.70ConfigurationSINGLESINGLEDiode Element MaterialSILICONSILICONDiode TypeRECTIFIER DIODERECTIFIER DIODEJESD-30 CodeR-PDSO-G2R-PDSO-G2JESD-609 Codee3e0Moisture Sensitivity Level11Number of Elements11Number of Terminals22Operating Temperature-Max150 C150 COperating Temperature-Min-55 C Output Current-Max0.15 A0.15 APackage Body MaterialPLASTIC/EPOXYPLASTIC/EPOXYPackage ShapeRECTANGULARRECTANGULARPackage StyleSMALL OUTLINESMALL OUTLINEPeak Reflow Temperature (Cel)NOT SPECIFIED235Power Dissipation-Max0.2 W0.2 WQualification StatusNot QualifiedNot QualifiedRep Pk Reverse Voltage-Max75 V75 VReverse Recovery Time-Max0.004 s0.004 sSurface MountYESYESTerminal FinishTin (Sn)Tin/Lead (Sn85Pb15)Terminal FormGULL WINGGULL WINGTerminal PositionDUALDUALTime@Peak Reflow Temperature-Max (s)NOT SPECIFIED10Base Number Matches52Forward Voltage-Max (VF) 0.715 VNon-rep Pk Forward Current-Max 2 AReference Standard AEC-Q101 1N4148WS Datasheet1N4148WS Datasheet FAQWhat are Schottky diodes used for?Schottky diodes are used for their low turn-on voltage, fast recovery time and low-loss energy at higher frequencies. These characteristics make Schottky diodes capable of rectifying a current by facilitating a quick transition from conducting to blocking state. Are all 1N4148 diodes the same?As the most common mass-produced switching diode, the 1N4148 replaced the older 1N914. They differed mainly in their leakage current specification, however, today most manufacturers list common specifications. For example, Vishay lists the same leakage current for both parts: 25 nA at -20 V, 25°C. What is 1N4148WS-7-F diode?The 1N4148WS-7-F is a surface mount silicon epitaxial planar fast Switching Diode for general purpose switching, high speed switching applications. It is ideally suited for automatic insertion. 75V DC Reverse voltage. -65 to 150°C Junction and storage temperature range. What can you replace with the 1N4148? 1N4448WS, 1N4448W, 1N4448, 1N4148WS, 1N4148W
kynix On 2022-02-21
Product Overview2N5089 is an NPN Silicon-based Amplifier Transistor that is widely used in audio equipment for amplification and other purposes. It has a Collector-Emitter Voltage of 25 Vdc with a Collector-Base voltage of 30 Vdc. The 2N5089 could provide 50mAdc of collector current continuously. Catalog2N5089 Transistor Features2N5089 Alternatives 2N5089 Applications 2N5089 PinoutPin Description of 2N5089 Transistor2N5089 Attributes2N5089 Example Circuit2N5089 2D Diagram2N5089 Transistor- Overview2N5089 2D ModelManufacturer2N5089 DatasheetUsing WarningsFAQ 2N5089 Transistor FeaturesType: NPNCollector to Emitter Voltage (VCEO)= 25 VdcCollector to Base Voltage (VCBO) = 30 VdcEmitter to Base Voltage (VEBO)= 3.0 VdcCollector Current (IC)= 50 mAdcMin hFE = 400 (when, IC = 100 Adc, VCE = 5.0 VdcMax hFE = 1200 (when, IC = 100 Adc, VCE = 5.0 Vdc)Current-gain-bandwidth Product = 50 Mhz (IC = 500 Adc, VCE = 5.0 Vdc, f = 20 MHz)Small−Signal Current Gain = 450(min), 1800(max)For more information about the technical details and noise characteristics, check the 2N5089 attributes or 2N5089 datasheet. The link to the datasheet is provided at the bottom of the article. 2N5089 Alternatives 2N5088, BC550, MPS650, SS9014, MPS6602, BC547, BC548, BC549 2N5089 Applications Amplifier systemHi-Fi Audio systemPush-pull topologiesTone controlSwitching applications 2N5089 Pinout 2N5089 Pinout Pin Description of 2N5089 TransistorPin NumberPin NameDescription1EmitterEmitter pin of the transistor2BaseBase pin of the transistor3CollectorCollector pin of the transistor 2N5089 AttributesTYPEDESCRIPTIONMfrCentral Semiconductor CorpPackageBulkPart StatusActiveTransistor TypeNPNCurrent - Collector (Ic) (Max)50 mAVoltage - Collector Emitter Breakdown (Max)25 VVce Saturation (Max) @ Ib, Ic500mV @ 1mA, 10mACurrent - Collector Cutoff (Max)50nA (ICBO)DC Current Gain (hFE) (Min) @ Ic, Vce400 @ 100µA, 5VPower - Max625 mWFrequency - Transition50MHzOperating Temperature -65°C ~ 150°C (TJ)Mounting TypeThrough HolePackage / CaseTO-226-3, TO-92-3 (TO-226AA)Supplier Device PackageTO-92-32N5089 Example CircuitIn this section, we will see two example circuits of 2N5089 i.e. as a switch and as an amplifier. 2N5089 as a SwitchFollowing is a proteus simulation of 2N5089 to control an LED. The two different circuits represent the working of the circuit when the base voltage is the same as the emitter and when the base voltage is greater than the emitter voltage. 2N5089 as a Switch In the first circuit, the collector is provided with a Vcc of 12 volts. The base is connected to a logic toggle. The led is placed at the emitter terminal following 220 ohms of a resistor to limit the excess forward current to avoid led damage. When the logic is turned on, the forward current flows, and the led glows. On the contrary, when the logic is turned off, when voltage is not given to the base terminal, the base potential is the same as the emitter potential, so the led loses its luminosity, as shown by the second circuit. 2N5089 as an Amplifier 2N5089 as an Amplifier Above is the circuitry of 2N5089 as an amplifier. For the amplification of the signal, a common emitter configuration is used. This configuration has a high gain. The base terminal is applied with an input signal, and the collector is provided with some volts to turn on the active mode and operate the transistor as an amplifier. An audio signal is an AC signal. Coupling capacitors are used to avoid the distortion of the signals, which affects the audio quality by displaying high input impedance to low-frequency components. A capacitor is also placed in series with the output to block the unnecessary DC components at the load/output. RC resistor controls the flow of collector current to control the gain of the amplifier. It is responsible for the frequency response of the circuitry as well. As a result, a small weak radio signal after passing through an NPN amplifier transistor is received as an inverted, amplified radio signal with a high voltage and power gain with fine quality and finds its applications in low noise, audio amplification systems. 2N5089 2D Diagram 2N5089 2D Diagram 2N5089 Transistor- OverviewThe 2N5089 is an NPN silicon transistor. It offers great hFE and is suitable for use in Audio amplification or specific audio-related products. The below graph is useful to know the characteristic of the transistor where the DC current gain is plotted against the Collector current. This transistor is also useful for switching related applications. The below graph is providing the “ON” voltages of the transistor against the collector current. 2N5089 2D Model The dimensions of 2N5089 in Straight Lead Package and Bent Lead Package are given below to help you with selecting the right PCB footprint for 2N5089. ManufacturerON Semiconductor offers an extensive portfolio of power and data management semiconductors and standard semiconductor components that address the design needs of today's sophisticated electronic products, appliances and automobiles. 2N5089 Datasheet2N5089 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. FAQWhat is 2N5089 Transistor Mounting?Through Hole What is 2N5089 Max Operating Temperature?150°C What is 2N5089 Transistor Polarity?NPN What is 2N5089 No. of Pins?3Pins
kynix On 2022-03-26
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