The Kynix Components

CatalogULN2803A DescriptionULN2803A Related Video InstructionULN2803A CAD ModelsULN2803A PriceULN2803A Pin ConfigurationULN2803A FeaturesULN2803A Schematic DiagramsULN2803A DatasheetULN2803A SpecificationsULN2803A ManufacturerUsing WarningULN2803A FAQULN2803A DescriptionThe ULN2801A, ULN2802A, ULN2803A and ULN2804A each contain eight Darlington transistors with common emitters and integral suppression diodes for inductive loads. Each Darlington features a peak load current rating of 600 mA (500 mA continuous) and can withstand at least 50 V in the OFF state. Outputs may be paralleled for higher current capability. Four versions are available to simplify interfacing to standard logic families: the ULN2801A is designed for general purpose applications with a current limit resistor; the ULN2802A has a 10.5 kW input resistor and Zener for 14-25 V PMOS; the ULN2803A has a 2.7 kW input resistor for 5 V TTL and CMOS; the ULN2804A has a 10.5 kW input resistor for 6-15 V CMOS. All types are supplied in an 18-lead plastic DIP with a copper lead form and feature the convenient input-opposite-output pinout to simplify board layout. ULN2803A Related Video InstructionVideo: ULN2803A darlington transistor array driver ICULN2803A Video Description: Give the output logic of your microcontroller projects more current and voltage to drive larger loads with this simple to use chip. ULN2803A CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model ULN2803A PriceSuppliersFromIn stockDelivery(Day)MOQCurrency1+10+100+1K+10K+Arrow USA2323Immediate1USD $1.2841.1011.0071.0071.007Digi-KeyUSA21129Immediate1USD $1.61.4261.1120.7980.798VericalUSA0Immediate0USD $-0.4340.4340.4340.434AMEYA360HongKong20-1USD $0.4220.4220.4220.4220.422JLCShop-0Immediate1USD $0.6380.4740.4130.3930.393TME-330Immediate1USD $0.850.5160.4430.3840.384 ULN2803A Pin Configuration Figure: Pin Configuration ULN2803A FeaturesEight Darlington transistors with common emittersOutput current to 500 mAOutput voltage to 50 VIntegral suppression diodesVersions for all popular logic familiesOutput can be paralleledInputs pinned opposite outputs to simplify board layout ULN2803A Schematic Diagrams Figure: Schematic Diagrams ULN2803A DatasheetYou can download the datasheet from the link given below:ULN2803A-Datasheet ULN2803A SpecificationsManufacturer:STMicroelectronicsProduct Category:Darlington TransistorsConfiguration:OctalTransistor Polarity:NPNCollector- Emitter Voltage VCEO Max:50 VMaximum DC Collector Current:0.5 AMounting Style:Through HolePackage / Case:PDIP-18Minimum Operating Temperature:- 20 ℃Maximum Operating Temperature:+ 85 ℃Series:ULN2803APackaging:TubeBrand:STMicroelectronicsContinuous Collector Current:500 mAHeight:3.68 mmLength:23.24 mmProduct Type:Darlington TransistorsFactory Pack Quantity:1000Subcategory:TransistorsWidth:7.1 mmUnit Weight:0.045856 oz ULN2803A ManufacturerSTMicroelectronics is a French-Italian multinational electronics and semiconductors manufacturer headquartered in Plan-les-Ouates near Geneva, Switzerland. The company resulted from the merger of two government-owned semiconductor companies in 1987: "Thomson Semiconducteurs" of France and "SGS Microelettronica" of Italy. It is commonly called "ST", and it is Europe's largest semiconductor chip maker based on revenue. While STMicroelectronics corporate headquarters and the headquarters for EMEA region are based in the Canton of Geneva, the holding company, STMicroelectronics N.V. is incorporated in the Netherlands. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. ULN2803A FAQWhat are Darlington transistors used for?Darlington transistors are mainly used in switching and amplification applications for delivering a very high DC current gain. Some of the key applications are high and low side switches, sensor amplifiers and audio amplifiers. Is a Darlington transistor a Mosfet?MOSFETS can handle more current safely at lower temps and with fewer areas of weakness. I understand that MOSFETs are essentially a pair of darlington transistors with resistors and diodes built into a package. What is another name for a Darlington transistor?A Darlington Transistor configuration, also known as a “Darlington pair” or “super-alpha circuit”, consist of two NPN or PNP transistors connected together so that the emitter current of the first transistor TR1 becomes the base current of the second transistor TR2. 

Product OverviewThe IR MOSFET family of power MOSFETs utilizes proven silicon processes offering designers a wide portfolio of devices to support various applications such as DC motors, inverters, SMPS, lighting, load switches as well as battery powered applications.The devices are available in a variety of surface mount and through-hole packages with industry standard footprints for ease of design. This blog will introduce IRFP064N systematically from its features, pinout to its specifications, applications, also including IRFP064N datasheet and so much more. CatalogProduct OverviewIRFP064N FeaturesIRFP064N PinoutIRFP064N EquivalentsIRFP064N CAD ModelsIRFP064N Circuit DiagramIRFP064N PackageIRFP064N SpecificationIRFP064N ManufacturerIRFP064N DatasheetUsing WarningsIRFP064N FAQ IRFP064N FeaturesAdvanced Process TechnologyUltra Low On-ResistanceDynamic dv/dt Rating175°C Operating TemperatureFast SwitchingFully Avalanche Rated IRFP064N PinoutThe following figure is the diagram of IRFP064N pinout.VDSS = 55VRDS(on) = 0.008ΩID = 110A† IRFP064N Pinout IRFP064N EquivalentsYou can replace the IRFP064N with the IRFP1405, IRFP2907, IRFP2907Z, IRFP3077, IRFP3206, IRFP3306, IRFP4110, IRFP4310Z, IRFP4368, IRFP4468, IRFP4568. IRFP064N CAD ModelsThe followings are IRFP064N Symbol, Footprint, and 3D Model. IRFP064N Symbol IRFP064N Footprint IRFP064N 3D Model IRFP064N Circuit DiagramThe following is the circuit diagram of IRFP064N. Switching Time Test Circuit IRFP064N PackageThe following diagram shows the IRFP064N package. IRFP064N Package IRFP064N SpecificationProduct AttributeAttribute ValueManufacturer:InfineonProduct Category:MOSFETTechnology:SiMounting Style:Through HolePackage / Case:TO-247-3Transistor Polarity:N-ChannelNumber of Channels:1 ChannelVds - Drain-Source Breakdown Voltage:55 VId - Continuous Drain Current:110 ARds On - Drain-Source Resistance:8 mOhmsVgs - Gate-Source Voltage:- 20 V, + 20 VMinimum Operating Temperature:- 55 CMaximum Operating Temperature:+ 175 CPd - Power Dissipation:200 WChannel Mode:EnhancementBrand:Infineon / IRConfiguration:SingleFall Time:70 nsHeight:20.7 mmLength:15.87 mmProduct Type:MOSFETRise Time:100 nsSubcategory:MOSFETsTransistor Type:1 N-ChannelTypical Turn-Off Delay Time:43 nsTypical Turn-On Delay Time:14 nsWidth:5.31 mmUnit Weight:0.211644 oz IRFP064N 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. IRFP064N DatasheetYou can download IRFP064N datasheet from the link given below:IRFP064N Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. IRFP064N FAQWhat is MOSFET and how it works?MOSFET (metal-oxide semiconductor field-effect transistor, pronounced MAWS-feht ) is a special type of field-effect transistor ( FET ) that works by electronically varying the width of a channel along which charge carriers ( electron s or hole s) flow. The wider the channel, the better the device conducts. What is a MOSFET used for?MOSFET, in short, is a metal oxide semiconductor field-effect transistor used to switch or amplify voltages in circuits. What is the difference between Transistor and Mosfet?The only difference is in function. A MOSFET is a type of transistor commonly used in switching/amplifier type applications, as they are usually designed for higher power use (so called “high power” transistors are mostly MOSFET and Darlington type). Which is the another name of MOSFET?The metal–oxide–semiconductor field-effect transistor (MOSFET, MOS-FET, or MOS FET), also known as the metal–oxide–silicon transistor (MOS transistor, or MOS), is a type of insulated-gate field-effect transistor that is fabricated by the controlled oxidation of a semiconductor, typically silicon. Who invented the MOSFET?Martin (John) M. Atalla. John Atalla is one of the inventors of the metal-oxide-semiconductor field-effect transistor (MOSFET), the most widely employed type of integrated circuit. Born in Port Said, Egypt, Atalla came to the United States for graduate studies at Purdue University. 

Product OverviewThe  NEO-M8P  module  provides  centimeter-level  GNSS  positioning  for  the  mass  market  with  integrated real time kinematics (RTK) for fast time-to-market. This small, light, and energy-efficient RTK module is a complete and versatile solution thanks to its base and rover variants and moving baseline technology for attitude-sensing and follow-me applications. This blog will introduce NEO-M8P systematically from its features, pinout to its specifications, applications, also including NEO-M8P datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionNEO-M8P HighlightsNEO-M8P FeaturesNEO-M8P PinoutNEO-M8P ApplicationsNEO-M8P Symbol and FootprintsNEO-M8P Block DiagramNEO-M8P PackageNEO-M8P SpecificationNEO-M8P ManufacturerNEO-M8P DatasheetUsing WarningsNEO-M8P FAQ Related Video Introduction Video: Neo-M8P RTK setup and demo (courtesy u-blox) NEO-M8P Video Description: This video will introduce the Neo-M8P RTK setup and demo. NEO-M8P HighlightsCentimeter-level GNSS positioning for the mass marketIntegrated Real Time Kinematics (RTK) for fast time-to-marketSmallest, lightest, and energy-efficient RTK moduleComplete and versatile solution due to base and rover variantsWorld-leading GNSS positioning technology NEO-M8P FeaturesReceiver type:72-channel u-blox M8 engineGPS L1 C/A,GLONASS L1OF,BeiDou B1INav. update rate:RTK up to 8 HzCarrier phase data up to 10 HzPosition accuracy:Standalone 2.5 m CEPRTK 0.025 m + 1 ppm CEPConvergence time:RTK 2 minAcquisition Cold starts 26 sAided starts 2 sReacquisition 1 sSensitivity:Tracking & Nav –160 dBm 4Cold starts –148 dBmHot starts –156 dBmReacquisition –158 dBm NEO-M8P PinoutThe following figure is the diagram of NEO-M8P pinout. NEO-M8P Pinout NEO-M8P ApplicationsThe NEO-M8P modules combine the high performance u-blox M8 positioning engine with u-blox’s real time kinematic (RTK) technology. NEO-M8P provides centimeter-level GNSS performance designed to meet the needs of unmanned vehicles and other machine control applications requiring accurate guidance. NEO-M8P Symbol and FootprintsThe followings are NEO-M8P Symbol and Footprint. NEO-M8P Symbol NEO-M8P Footprint NEO-M8P Block DiagramThe following figure shows the block diagram of NEO-M8P. NEO-M8P Block Diagram NEO-M8P PackageThe following diagram shows the NEO-M8P package. NEO-M8P Package NEO-M8P SpecificationProduct AttributeAttribute ValueManufacturer:u-bloxProduct Category:GPS ModulesSeries:NEO-M8PTime To First Fix - Cold Start:26 sAcquisition Sensitivity:- 148 dBmHorizontal Position Accuracy:2.5 mOperating Supply Voltage:2.7 V to 3.6 VOperating Supply Current:25 mAInterface Type:SPI, UART, USBMaximum Operating Temperature:+ 85 CPackaging:ReelPackaging:Cut TapePackaging:MouseReelBrand:u-bloxMinimum Operating Temperature:- 40 CMoisture Sensitive:YesMounting Style:SMD/SMTProduct Type:GPS ModulesFactory Pack Quantity:250Subcategory:Wireless & RF Modules NEO-M8P ManufacturerU-blox is a global provider of leading positioning and wireless communication technologies for the automotive, industrial, and consumer markets. u-blox solutions let people, vehicles, and machines determine their precise position and communicate wirelessly over cellular and short range networks. NEO-M8P DatasheetYou can download NEO-M8P datasheet from the link given below:NEO-M8P Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. NEO-M8P FAQWhat is GNSS module?A GNSS module is a device that provides geolocation data by receiving signals from multiple satellites of a GNSS constellation. GNSS modules are used to provide continuous location data which can be used for navigation, to track assets and for a host of other applications. What are GNSS devices?GNSS stands for Global Navigation Satellite System and is used to describe any satellite navigation system with global coverage. Satellite navigation systems relay highly accurate geolocation information to GNSS devices and receivers to determine your current location. Is GNSS better than GPS?GNSS and GPS work together, but the main difference between GPS and GNSS is that GNSS-compatible equipment can use navigational satellites from other networks beyond the GPS system, and more satellites means increased receiver accuracy and reliability. How accurate is GNSS?Errors in satellite orbit position can lead to around 2.5 meters' loss of accuracy. In open sky conditions, standard accuracy GNSS receivers are accurate to within about two meters. High precision GNSS systems dramatically improve precision using GNSS correction data to cancel out GNSS errors. What are the three major components of GNSS system?GNSS satellite systems consist of three major components or “segments”: space segment, control segment and user segment.

CatalogProduct OverviewAPC-16-350 Related Video IntroductionAPC-16-350 Block DiagramAPC-16-350 Mechanical SpecificationAPC-16-350 FeaturesAPC-16-350 CharacteristicsAPC-16-350 DatasheetAPC-16-350 SpecificationsAPC-16-350 ManufacturerUsing WarningAPC-16-350 FAQ Product OverviewThe Mean Well APC is an economical constant current LED driver for indoor LED lighting applications. This AC LED driver operates off 90-264VAC and delivers a safe DC current to your high power LEDs. The APC is offered in 8 to 35 Watt models that can be selected in the first drop down above. The second selection is for output current; the APC offers constant current outputs ranging from 250-1050mA. The APC Mean Well driver is semi potted in an IP42 rated case with UL rated 16-18AWG wire connections. APC-16-350 Related Video IntroductionAPC-16-350 Video Description: Watch this tutorial to learn which factors to consider when choosing your LED power supply. These factors include the voltage of the lights, dimming and non-dimming capabilities, and the proper size to use. APC-16-350 Block DiagramFigure: APC-16-350 Block Diagram APC-16-350 Mechanical SpecificationFigure: APC-16-350 Mechanical Specification APC-16-350 FeaturesConstant current mode designUniversal AC input / Full rangeProtections:Short circuit / Over voltageFully isolated plastic caseSmall and compact sizeCooling by free air convectionClass II power unit, no FGClass 2 power unitPass LPSIP42 designSuitable for LED related fixture or appliance(such as LED Decoration or Advertisement devices)100% full load burn-in testLow cost/ High reliability2 years warranty APC-16-350 CharacteristicsCharacteristicsAPC SeriesCURRENT ACCURACY±8.0%HOLD UP TIME20ms/230VAC at full loadLEAKAGE CURRENT0.25mA / 240VACWORKING TEMP.-30 ~ 70°C (Refer to "Derating Curve")WORKING HUMIDITY20 ~ 90% RH non-condensingSTORAGE TEMP., HUMIDITY-40 ~ +80°C, 10 ~ 95% RHTEMP. COEFFICIENT±0.2%/°C (0~45°C)VIBRATION10~500Hz, 2G 10min./1cycle, period for 60min. each along X,Y,Z axesISOLATION RESISTANCEI/P-O/P:>100M Ohms / 500VDC / 25°C / 70% RH APC-16-350 DatasheetYou can download the datasheet from the link given below:APC-16-350 Datasheet APC-16-350 SpecificationsProduct AttributeAttribute ValueManufacturer:MEAN WELLProduct Category:LED Power SuppliesOperation Mode:Constant Current (CC)Output Current-Channel 1:350 mAOutput Voltage-Channel 1:12 VDC to 48 VDCOutput Power:16.8 WInput Voltage:90 VAC to 264 VAC, 127 VDC to 370 VDCDimming:Without DimmingOperating Temperature:-30°C ~ 70°CEfficiency:84%Features:OVP, SCPVoltage - Isolation:3.75 kVNumber of Outputs:1 OutputMounting Style:Desktop MountLength:77 mmWidth:40 mmHeight:29 mmIndustry:IndustrialSeries:APC-16Brand:MEAN WELLOpen Frame/Enclosed:EnclosedPackaging:BulkProduct Type:LED Power SuppliesSubcategory:AC-DC Power SupplyUnit Weight:3.527396 oz APC-16-350 ManufacturerMEAN WELL is one of the leading standard switching power supply manufacturers in the world having more than 8,000 standard off-the-shelf models for a complete range of power supply solutions. Specializing in design, manufacturing and marketing of AC-DC switching power supplies, DC-DC converters, DC-AC inverters, and adapters/battery chargers for global markets. MEAN WELL upholds the idea of “your reliable power partner” and is devoted to offering the best power supply product and service. MEAN WELL is now able to provide fast, localized services around the world with its global distribution network fostered by continuous effort and hard work. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. APC-16-350 FAQWhat is a LED driver power supply?LED drivers, or LED power supplies, provide LED light bulbs with the electricity required for peak performance, much like a fluorescent lamp's magnetic ballast or a low-voltage bulb transformer. Why do LED power supplies fail?It is very rare that a good quality LED driver fails because of a manufacturing fault. In most cases the failure is caused by a problem with the installation, or there are some environmental factors at play. You should also make sure that there are not too many lights on the output of the LED driver. How do I choose a LED power supply?Make sure the total wattage of your LED strip lighting is at least 20 percent less than the power supply's rated wattage. For example, if you have an LED strip light that requires 80 watts of power to run, you'll need a power supply that's rated for at least 96 watts. 

CatalogProduct OverviewP2N2222A Related Video IntroductionP2N2222A CAD ModelsP2N2222A Marking DiagramP2N2222A Switching Time Equivalent Test CircuitsP2N2222A FeaturesP2N2222A DatasheetP2N2222A SpecificationsP2N2222A ManufacturerUsing WarningP2N2222A FAQ Product OverviewThe NPN Bipolar Transistor is designed for use in linear and switching applications. The device is housed in the TO-92 package, which is designed for medium power applications. P2N2222A Related Video IntroductionP2N2222A Video Description: In this video I am going to explain to you how a BJT functions. What does it contains?Three terminals and an electron/hole charge carrier What can it do?Act as a switch and amplify current P2N2222A CAD ModelsFigure: P2N2222A PCB Symbol  Figure: P2N2222A Footprint P2N2222A Marking DiagramFigure: P2N2222A Marking DiagramP2N2 = Device Code222A = Specific DeviceA = Assembly LocationY = YearWW = Work WeekMicrodot = Pb−Free Package(Note: Microdot may be in either location) P2N2222A Switching Time Equivalent Test CircuitsFigure: P2N2222A Turn−On Time  Figure: P2N2222A Turn−Off Time P2N2222A FeaturesSmall Compact Surface Mountable Package with J-Bend LeadsRectangular Package for Automated HandlingHighly Stable Oxide Passivated JunctionLow Forward Voltage Drop (0.71 to 1.05 Volts Max @ 3.0 A, TJ = 150 C) Mechanical Characteristics:Case: Epoxy, MoldedWeight: 217 mg (approximately)Finish: All External Surfaces Corrosion Resistant and TerminalLeads are Readily SolderableLead and Mounting Surface Temperature for Soldering Purposes: 260 C Max. for 10 SecondsShipped in 16 mm Tape and Reel, 2500 units per reelPolarity: Notch in Plastic Body Indicates Cathode LeadThese are Pb-Free Devices P2N2222A DatasheetYou can download the datasheet from the link given below:P2N2222A Datasheet P2N2222A SpecificationsTypeDescriptionCategoryDiscrete Semiconductor ProductsTransistors - Bipolar (BJT) - SingleMfronsemiPackageBulkPart StatusObsoleteTransistor TypeNPNCurrent - Collector (Ic) (Max)600 mAVoltage - Collector Emitter Breakdown (Max)40 VVce Saturation (Max) @ Ib, Ic1V @ 50mA, 500mACurrent - Collector Cutoff (Max)10nADC Current Gain (hFE) (Min) @ Ic, Vce100 @ 150mA, 10VPower - Max625 mWFrequency - Transition300MHzOperating Temperature-55°C ~ 150°C (TJ)Mounting TypeThrough HolePackage / CaseTO-226-3, TO-92-3 Long BodySupplier Device PackageTO-92 (TO-226)Base Product NumberP2N222 P2N2222A ManufacturerOnsemi is driving energy efficient innovations, empowering customers to reduce global energy use. The company offers a comprehensive portfolio of energy efficient power and signal management, logic, discrete and custom solutions to help design engineers solve their unique design challenges in automotive, communications, computing, consumer, industrial, LED lighting, medical, military/aerospace and power supply applications. onsemi operates a responsive, reliable, world-class supply chain and quality program, and a network of manufacturing facilities, sales offices and design centers in key markets throughout North America, Europe, and the Asia Pacific regions. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. P2N2222A FAQWhat are amplifier transistors?A transistor acts as an amplifier by raising the strength of a weak signal. The DC bias voltage applied to the emitter base junction, makes it remain in forward biased condition. Thus a small input voltage results in a large output voltage, which shows that the transistor works as an amplifier. What are transistor amplifiers used for?Amplifiers are derived from the transistors because they are capable of operating under three regions active, cut-off and saturation. For the purpose of amplification, the focus will be on the active region. The main purpose of these amplifiers is to enhance the strength of the applied input signal without alteration. What are the types of transistor amplifier?Three of the most fundamental transistor amplifiers are: common emitter, common collector and common base. In each of the three configurations one of the three nodes is permanently tied to a common voltage (usually ground), and the other two nodes are either an input or output of the amplifier. 

CatalogProduct OverviewLM301AN Related Video IntroductionLM301AN CAD ModelsLM301AN Pin Connections LM301AN Schematic DiagramLM301AN Basic DiagramLM301AN Typical ApplicationsLM301AN FeaturesLM301AN DatasheetLM301AN SpecificationsLM301AN ManufacturerUsing WarningLM301AN FAQ Product OverviewThe LM101A is a general purpose operational amplifier which offers many features: supply voltages from ±5V to ±22V, low current drain, overload protection on the input and output, no latch-up when the common-mode range is exceeded, free from oscillations and compensation with a single 30pF capacitor. It has advantages over internally compensated amplifiers in that the compensation can be tailored to the particular application: slew rate of 10V/µs and bandwidth of 3.5MHz can be easily achieved. LM301AN Related Video IntroductionLM301AN Video Description: This electronics video tutorial provides a basic introduction into operational amplifiers. It includes examples such as inverting and non-inverting op amps. It explains how to calculate the closed loop voltage gain of such amplifiers as well as the output signal voltage. LM301AN CAD ModelsFigure: LM301AN PCB Symbol   Figure: LM301AN Footprint   Figure: LM301AN 3D Models LM301AN Pin ConnectionsFigure: LM301AN Pin Connections1 - Balance, compensation2 - Inverting input3 - Non-inverting input4 - VCC-5 - Balance6 - Output7 - VCC+8 - Compensation 2 LM301AN Schematic Diagram Figure: LM301AN Schematic Diagram  LM301AN Basic DiagramFigure: LM301AN Balancing Circuit   Figure: LM301AN Alternate Balancing Circuit   Figure: LM301AN Single Pole Compensation   Figure: LM301AN Feedforward Compensation   Figure: LM301AN Protecting Against Gross Fault Conditions   Figure: LM301AN Compensating For Stray Input Capacitances Or Large Feedback Resistor  Figure: LM301AN Isolating Large Capacitive Load LM301AN Typical Applications Figure: LM301AN Simulated Inductor   Figure: LM301AN Fast Amplifier With High Input Impedance   Figure: LM301AN Sine Wave Oscillator   Figure: LM301AN Fast AC/DC Converter   Figure: LM301AN Instrumentation Amplifier   Figure: LM301AN Variable Capacitance Multiplier   Figure: LM301AN Low Frequency Square Wave Generator   Figure: LM301AN Fast Half Wave Rectifier LM301AN Features■ Input offset voltage 2mV■ Input bias current 70nA■ Input offset current 2nA■ Slew rate as inversing 10V/µs amplifier LM301AN DatasheetYou can download the datasheet from the link given below:LM301AN Datasheet LM301AN SpecificationsTypeDescriptionCategoryIntegrated Circuits (ICs)Linear - Amplifiers - Instrumentation, OP Amps, Buffer AmpsMfrSTMicroelectronicsPackageTubePart StatusObsoleteAmplifier TypeGeneral PurposeNumber of Circuits1Slew Rate0.5V/µsGain Bandwidth Product1 MHzCurrent - Input Bias70 nAVoltage - Input Offset2 mVCurrent - Supply1.8mACurrent - Output / Channel30 mAVoltage - Span (Min)10 VVoltage - Span (Max)44 VOperating Temperature0°C ~ 70°CMounting TypeThrough HolePackage / Case8-DIP (0.300", 7.62mm)Supplier Device Package8-DIPBase Product NumberLM301 LM301AN ManufacturerSTMicroelectronics is a French-Italian multinational electronics and semiconductors manufacturer headquartered in Plan-les-Ouates near Geneva, Switzerland. The company resulted from the merger of two government-owned semiconductor companies in 1987: "Thomson Semiconducteurs" of France and "SGS Microelettronica" of Italy. It is commonly called "ST", and it is Europe's largest semiconductor chip maker based on revenue. While STMicroelectronics corporate headquarters and the headquarters for EMEA region are based in the Canton of Geneva, the holding company, STMicroelectronics N.V. is incorporated in the Netherlands. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. LM301AN FAQWhat is LM301AN Single Operational Amplifier?The LM301A is a general purpose operational amplifiers which are externally phase compensated, permit a choice of operation for optimum high frequency performance at a selected gain: unity gain compensation can be obtained with a single capacitor. What is single op amp?A single-supply op amp is specifically designed to have a common-mode range which extends all the way to the negative supply (ground). Also, its output stage is usu- ally designed to swing close to ground. What is the difference between amplifier and operational amplifier?Amplifiers can be either electronic or mechanical in common definition whereas operational amplifiers are electronic amplifiers. Amplifiers, in general, have a limited capability of amplifying DC signals but all op-amps are capable of amplifying DC signals. What is the working principle of op amp?An operational amplifier (op amp) is an analog circuit block that takes a differential voltage input and produces a single-ended voltage output. Op amps usually have three terminals: two high-impedance inputs and a low-impedance output port. What will happen if op amp is given a single power supply?Limited output- or input-voltage swing is one of the worst deficiencies a single-supply op amp can have because the limited voltage swing limits the circuit's dynamic range. Also, limited-voltage swing frequently results in distortion of large signals.