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Product OverviewThe INA3221 is a three-channel, high-side current and bus voltage monitor with an I 2C - and SMBUScompatible interface. The INA3221 monitors both shunt voltage drops and bus supply voltages, in addition to having programmable conversion times and averaging modes for these signals. The INA3221 offers both critical and warning alerts to detect multiple programmable out-of-range conditions for each channel. The INA3221 senses current on buses that can vary from 0 V to 26 V. The device is powered from a single 2.7-V to 5.5-V supply, and draws 350 μA (typ) of supply current. The INA3221 is specified over the operating temperature range of –40°C to +125°C. The I2C- and SMBUS-compatible interface features four programmable addresses. This blog will introduce INA3221 systematically from its features, pinout to its specifications, applications, also including INA3221 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionINA3221 FeaturesINA3221 PinoutINA3221 ApplicationsINA3221 Circuit DiagramINA3221 Functional Block DiagramINA3221 PackageINA3221 SpecificationINA3221 ManufacturerINA3221 DatasheetUsing WarningsINA3221 FAQ Related Video Introduction Video: INA3221 Tutorial INA3221 Video Description: I bought this module and found no information about it. After a bit of research and testing I thought I'd share what I learned with you all. INA3221 FeaturesSenses Bus Voltages From 0 V to 26 VReports Shunt and Bus VoltageHigh Accuracy:– Offset Voltage: ±80 µV (max)– Gain Error: 0.25% (max)Configurable Averaging OptionsFour Programmable AddressesProgrammable Alert and Warning OutputsPower-Supply Operation: 2.7 V to 5.5 V INA3221 PinoutThe following figure is the diagram of INA3221 pinout. INA3221 Pinout INA3221 ApplicationsComputersPower ManagementTelecom EquipmentBattery ChargersPower SuppliesTest Equipment INA3221 Circuit DiagramThe following are the circuit diagrams of INA3221. Power-Valid Output Structure INA3221 With Input Filtering INA3221 as an Overcurrent Sensor INA3221 Functional Block DiagramThe following figure shows the block diagram of INA3221. INA3221 Functional Block DiagramINA3221 PackageThe following diagram shows the INA3221 package. INA3221 Package INA3221 SpecificationCommon mode voltage (Max) (V) 26Common mode voltage (Min) (V) 0Input offset (+/-) (Max) (uV) 80Input offset drift (+/-) (Typ) (uV/C) 0.1Gain (V/V) 1Gain error (%) 0.25Gain error drift (+/-) (Max) (ppm/°C) 50CMRR (Min) (dB) 110Bandwidth (kHz) 3.5Supply voltage (Max) (V)5.5Supply voltage (Min) (V) 2.7Iq (Max) (mA) 0.35Digital interface I2C, SMBusFeatures Alert Function, Bi-directional, Low-side CapableResolution (Bits) 13Operating temperature range (C) -40 to 125 INA3221 ManufacturerTexas Instruments Incorporated (TI) is a global semiconductor design and manufacturing company that develops analog ICs and embedded processors. By employing the world's brightest minds, TI creates innovations that shape the future of technology. TI is helping more than 100,000 customers transform the future, today. INA3221 DatasheetYou can download INA3221 datasheet from the link given below:INA3221 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. INA3221 FAQWhat does the INA3221 monitor? Shunt voltage drops and bus supply voltages. What does the INA3221 offer to detect multiple programmable out-of-range conditions for each channel? Critical and warning alerts. What is the operating temperature range of the INA3221? –40°C to +125°C. How many programmable addresses does the INA3221 have?Four. What is a voltage monitor?Voltage monitoring relays can detect not only under-voltages and over-voltages, but also voltage-related issues such as phase imbalances, phase loss, and phase sequence. Voltage monitoring relays are designed for either single-phase or three-phase systems.
Kynix On 2022-01-20
Product Overview The IP5306 is a multi-function power management SOC with an integrated boost converter, lithium battery charge management, and battery power indication, providing a complete power solution for mobile power supplies. The high integration and rich features of the IP5306 make it possible to use only a few external components in the application and to effectively reduce the overall solution size and BOM cost. This blog will introduce IP5306 systematically from its features, pinout to its specifications, applications, also including IP5306 datasheet and so much more. Catalog Product Overview Related Video Introduction IP5306 Features IP5306 Pinout IP5306 Applications IP5306 Simplified Application Schematic IP5306 Package IP5306 Specification IP5306 Manufacturer IP5306 Datasheet Using Warnings IP5306 FAQ Related Video Introduction Video: DIY Powerbank with IP5306 IP5306 Video Description: Learn how to use Injonic IP5306 IC to make a proper power bank circuit capable of providing 5V 2A IP5306 Features Charging and discharging the synchronous switch2.4A Synchronous boost converter, 2.1A Charging synchronous switch Maximum boost efficiency up 96%Maximum charge efficiency up 97%Built-in power path management, support charge while dischargeSupport large load current line up featuresChargingAdaptive charging current is adjusted to match all adaptersCharging voltage accuracy: ± 0.5%stand by 4.20 / 4.30 / 4.35 / 4.40V batteryPower displaystand by 4,3,2,1 Stars led Power displayFeature-richPower buttonBuilt-in lighting driveAutomatically detects the phone insertion and removalLow power consumptionIntelligent load identification, automatic standbyStandby power for 100 μABOM Minimalism power MOS Built-in, single-inductor charge-dischargeMultiple protection, high reliabilityOutput over-current , over-voltage, short circuit protectionInput over voltage, over-charge, over-discharge, over-discharge protection streamThe whole over-temperature protectionESD 4KV Instant pressure 12V IP5306 Pinout The following figure is the diagram of IP5306 pinout. IP5306 Pinout IP5306 Applications Mobile power / charging treasureMobile phones, tablet computers and other portable devices IP5306 Simplified Application Schematic The following are the simplified application schematics of IP5306. Simplified Application Schematic ( 4 LED Indicates that the battery) 3LED Power display typical application schematic 2LED Power display typical application schematic 1LED Power display typical application schematic IP5306 Package The following diagram shows the IP5306 package. IP5306 Package IP5306 Specification ParameterSymbolValueUnitPort input voltage rangeV IN -0.3 to 5.5VOperating temperature rangeT A0 ~ 70℃Junction Temperature RangeT J - 40 to 150℃Storage Temperature Range Tstg - 60 to 150 ℃Thermal resistance (junction to ambient) θ JA50℃ / WHuman Body Model ( HBM )ESD 4KV IP5306 Manufacturer Injoinic Technology Corp. is an IC design company focusing on r&d and sales of high performance and high quality digital-analog hybrid integrated circuit chips. Its excellent design team from the world famous large IC design company, has more than 10 years of advanced digital and analog hybrid chip design, production and testing technology experience. The company has unique technologies in power management, battery management, wireless signal processing and high performance audio signal processing. IP5306 Datasheet You can download IP5306 datasheet from the link given below: IP5306 Datasheet Using Warnings Note: Please check their parameters and pin configuration before replacing them in your circuit. IP5306 FAQ What is SoC on a battery? 2 State of charge (SOC) The state of charge is defined as the ratio of the available capacity Q(t) and the maximum possible charge that can be stored in a battery, i.e., the nominal capacity Qn. (6.1) A fully charged battery has SOC 1 or 100% while a fully discharged battery has an SOC of 0 or 0%. How is battery SoC calculated? After a correction with the charging and discharging efficiency, a more accurate estimation can be achieved. The SOC can be then estimated by subtracting the DOD quantity from the SOH one. When the battery is open circuited with zero current, the SOC is directly obtained from the relationship between the OCV and SOC. What is pmic used for? A power management integrated circuit (PMIC) is used to manage power on an electronic devices or in modules on devices that may have a range of voltages. The PMIC manages battery power charging and sleep modes, DC-to-DC conversion, scaling of voltages down or up, among others.
Kynix On 2022-01-17
Product OverviewThe CD4049UB and CD4050B devices are inverting and noninverting hex buffers, and feature logic-level conversion using only one supply voltage (VCC). The input-signal high level (VIH) can exceed the VCC supply voltage when these devices are used for logiclevel conversions. These devices are intended for use as CMOS to DTL or TTL converters and can drive directly two DTL or TTL loads. (VCC = 5 V, VOL ≤ 0.4 V, and IOL ≥ 3.3 mA.) This blog will introduce CD4049UBE systematically from its features, pinout to its specifications, applications, also including CD4049UBE datasheet and so much more. CatalogProduct OverviewCD4049UBE FeaturesCD4049UBE PinoutCD4049UBE ApplicationsCD4049UBE CAD ModelsCD4049UBE Schematic DiagramCD4049UBE Circuit DiagramCD4049UBE Functional Block DiagramCD4049UBE PackageCD4049UBE SpecificationCD4049UBE ManufacturerCD4049UBE DatasheetUsing WarningsCD4049UBE FAQ CD4049UBE FeaturesCD4049UB InvertingCD4050B NoninvertingHigh Sink Current for Driving 2 TTL LoadsHigh-to-Low Level Logic Conversion100% Tested for Quiescent Current at 20 VMaximum Input Current of 1 µA at 18 V Over FullPackage Temperature Range; 100 nA at 18 V and25°C5-V, 10-V, and 15-V Parametric Ratings CD4049UBE PinoutThe following figure is the diagram of CD4049UBE pinout. CD4049UBE Pinout CD4049UBE ApplicationsCMOS to DTL or TTL Hex ConvertersCMOS Current Sink or Source DriversCMOS High-to-Low Logic Level Converters CD4049UBE CAD ModelsThe following are CD4049UBE Symbol, Footprint, and 3D Model. CD4049UBE Symbol CD4049UBE Footprint CD4049UBE 3D Model CD4049UBE Schematic DiagramThe following are the schematic diagrams of CD4049UBE. CD4049UBE Schematic Diagram CD4049UBE Circuit DiagramThe following are the circuit diagrams of CD4049UBE. Quiescent Device Current Test Circuit Input Voltage Test Circuit Logic Level Conversion Application Dynamic Power Dissipation Test Circuits CD4049UBE Functional Block DiagramThe following figure shows the block diagram of CD4049UBE. CD4049UBE Functional Block Diagram CD4049UBE PackageThe following diagram shows the CD4049UBE package. CD4049UBE Package CD4049UBE SpecificationProduct AttributeAttribute ValueManufacturer:Texas InstrumentsProduct Category:Buffers & Line DriversNumber of Input Lines:6 InputNumber of Output Lines:6 OutputPolarity:InvertingHigh Level Output Current:- 5.2 mALow Level Output Current:25 mAQuiescent Current:40 nASupply Voltage - Max:20 VSupply Voltage - Min:- 0.5 VOperating Supply Current:30 uAMinimum Operating Temperature:- 55 CMaximum Operating Temperature:+ 125 CMounting Style:Through HolePackage / Case:PDIP-16Packaging:TubeBrand:Texas InstrumentsFunction:Buffer/ConverterHeight:4.57 mmInput Signal Type:Single-EndedLength:19.3 mmLogic Family:CD4000Logic Type:CMOSNumber of Channels:5Operating Supply Voltage:3 V to 18 VOperating Temperature Range:- 55 C to + 125 COutput Type:CMOS CD4049UBE ManufacturerTexas Instruments Incorporated designs and manufactures analog technologies, digital signal processing (DSP) and microcontroller (MCU) semiconductors. TI is a leader in semiconductor solutions for analog and digital embedded and applications processing. A global semiconductor company, TI innovates through design, sales and manufacturing operations in more than 30 countries. CD4049UBE DatasheetYou can download CD4049UBE datasheet from the link given below:CD4049UBE Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. CD4049UBE FAQWhat is a inverting buffer?The inverting buffer is a single-input device which produces the state opposite the input. If the input is high, the output is low and vice versa. This device is commonly referred to as just an inverter. What is CMOS buffer?CMOS buffer is formed by cascading two CMOS inverters back to back. Operation of one CMOS inverter is to invert the input signal to the opposite logic level. Thus a cascaded combination of two such circuits will bring back the input signal to the original level. What is a hex buffer driver?These hex buffers and drivers feature high-voltage open-collector outputs to interface with high-level circuits or for driving high-current loads. They are also characterized for use as buffers for driving TTL inputs. These circuits are compatible with most TTL families.
Kynix On 2022-01-14
Product OverviewThe LME49720 is part of the ultra-low distortion, low noise, high slew rate operational amplifier series optimized and fully specified for high performance, high fidelity applications. Combining advanced leading-edge process technology with state-of-the-art circuit design, the LME49720 audio operational amplifiers deliver superior audio signal amplification for outstanding audio performance. The LME49720 combines extremely low voltage noise density (2.7nV/√Hz) with vanishingly low THD+N (0.00003%) to easily satisfy the most demanding audio applications. To ensure that the most challenging loads are driven without compromise, the LME49720 has a high slew rate of ±20V/μs and an output current capability of ±26mA. Further, dynamic range is maximized by an output stage that drives 2kΩ loads to within 1V of either power supply voltage and to within 1.4V when driving 600Ω loads. The LME49720's outstanding CMRR (120dB), PSRR (120dB), and VOS (0.1mV) give the amplifier excellent operational amplifier DC performance. This blog will introduce LME49720 systematically from its features, pinout to its specifications, applications, also including LME49720 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionLME49720 FeaturesLME49720 PinoutLME49720 ApplicationsLME49720 CAD ModelsLME49720 Circuit DiagramLME49720 PackageLME49720 SpecificationLME49720 ManufacturerLME49720 DatasheetUsing WarningsLME49720 FAQ Related Video Introduction Video: IWISTAO HIFI Preamplifier Tone Adjustment Bass Tremble Middle OPA2604 LME49720 Class A Power Stereo LME49720 FeaturesEasily drives 600 Ω loadsOptimized for superior audio signal fidelity Output short circuit protectionPSRR and CMRR exceed 120 dB (typ)SOIC, PDIP, and TO-99 metal can packages LME49720 PinoutThe following figure is the diagram of LME49720 pinout. LME49720 Pinout LME49720 Applications■ Ultra high quality audio amplification■ High fidelity preamplifiers■ High fidelity multimedia■ State of the art phono pre amps■ High performance professional audio■ High fidelity equalization and crossover networks■ High performance line drivers■ High performance line receivers■ High fidelity active filters LME49720 CAD ModelsThe following are LME4972 Footprint and 3D Model. LME49720 Footprint LME49720 3D Model LME49720 Circuit DiagramThe following are the circuit diagrams of LME49720. Passively Equalized RIAA Phono Preamplifier THD+N and IMD Distortion Test Circuit LME49720 PackageThe following diagram shows the LME49720 package. LME49720 Package LME49720 SpecificationManufacturer:Texas InstrumentsAmplifier Type:OPERATIONAL AMPLIFIERAverage Bias Current-Max (IIB):0.072 µAInput Offset Voltage-Max:700 µVNeg Supply Voltage Limit-Max: -18 VNeg Supply Voltage-Nom (Vsup): -5 VOperating Temperature-Max:85 °COperating Temperature-Min: -40 °CSupply Current-Max:12 mASupply Voltage Limit-Max:18 VSupply Voltage-Nom (Vsup):5 VSubcategory:Operational Amplifier LME49720 ManufacturerTexas Instruments Incorporated (TI) is a global semiconductor design and manufacturing company that develops analog ICs and embedded processors. By employing the world's brightest minds, TI creates innovations that shape the future of technology. TI is helping more than 100,000 customers transform the future, today. LME49720 DatasheetYou can download LME49720 datasheet from the link given below:LME49720 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. LME49720 FAQWhat is audio operational amplifier?An operational amplifier is basically a differential amplifier with a very high amplification (ideally infinite). It has a non-inverting and an inverting input, an output and of course pins for the power supply. Where are operational amplifiers used?Operational amplifiers are linear devices that have all the properties required for nearly ideal DC amplification and are therefore used extensively in signal conditioning, filtering or to perform mathematical operations such as add, subtract, integration and differentiation. 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.
Kynix On 2022-01-13
Product OverviewThe MIC5219 is an efficient linear voltage regulator with high peak output current capability, very-low dropout voltage, and better than 1% output voltage accuracy. Dropout is typically 10mV at light loads and less than 500mV at full load. The MIC5219 is designed to provide a peak output current for start-up conditions where higher in-rush current is demanded. It features a 500mA peak output rating. Continuous output current is limited only by package and layout. This blog will introduce MIC5219 systematically from its features, pinout to its specifications, applications, also including MIC5219 datasheet and so much more. CatalogProduct OverviewMIC5219 FeaturesMIC5219 PinoutMIC5219 Pin ConfigurationMIC5219 ApplicationsMIC5219 EquivalentsMIC5219 Circuit DiagramMIC5219 Block DiagramMIC5219 PackageMIC5219 SpecificationMIC5219 ManufacturerMIC5219 DatasheetUsing WarningsMIC5219 FAQ MIC5219 Features500 mA Output Current Capability- SOT23-5 Package - 500 mA Peak- 2 mm x 2 mm x 0.9 mm VDFN Package - 500 mA Continuous- 2 mm x 2 mm x 0.6 mm Thin DFN Package - 500 mA Continuous- MSOP-8 Package - 500 mA ContinuousLow 500 mV Maximum Dropout Voltage at FullLoadExtremely Tight Load and Line Regulation Tiny SOT-23-5 and Power MSOP-8 PackageUltra-Low Noise OutputLow Temperature CoefficientCurrent and Thermal LimitingReversed-Battery ProtectionCMOS/TTL-Compatible Enable/Shutdown ControlNear-Zero Shutdown Current MIC5219 PinoutThe following figure is the diagram of MIC5219 pinout. MIC5219 Pinout MIC5219 Pin ConfigurationPin No.Pin Name(Fixed Ver.)Pin Name(Adj. Ver.)Description1ININSupply Input2GNDGNDGround3ENENEnable/Shutdown (Input): CMOS compatible input. Logic-high = enable, logic-low or open = shutdown4BYPADJReference Bypass: Connect external 470 pF capacitor to GND to reduce output noise. May be left open.Adjust (Input): Adjustable regulator feedback input. Connect to resistor voltage divider5OUTOUTRegulator Output MIC5219 ApplicationsLaptop, Notebook, and Palmtop ComputersCellular Telephones and Battery-PoweredEquipmentConsumer and Personal ElectronicsPC Card VCC and VPP Regulation and SwitchingSMPS Post-Regulator/DC-to-DC ModulesHigh-Efficiency Linear Power Supplies MIC5219 EquivalentsSPX3819, MAX3890, LP2989 MIC5219 Circuit DiagramThe following are the typical application circuits of MIC5219. 5V Ultra-Low Noise Regulator 3.3V Ultra-Low Noise Regulator Ultra-Low Noise Regulator (Fixed) Ultra-Low Noise Regulator (Adjustable) MIC5219 Block DiagramThe following figure shows the block diagram of MIC5219. MIC5219 Block Diagram MIC5219 PackageThe following diagram shows the MIC5219 package. MIC5219 Package MIC5219 SpecificationProduct AttributeAttribute ValueManufacturer:MicrochipProduct Category:LDO Voltage RegulatorsMounting Style:SMD/SMTPackage / Case:SOT-23-5Output Voltage:3.3 VOutput Current:500 mANumber of Outputs:1 OutputPolarity:PositiveQuiescent Current:100 nAOutput Type:FixedMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 125 CDropout Voltage:350 mVSeries:MIC5219Packaging:ReelPackaging:Cut TapePackaging:MouseReelBrand:Microchip Technology / MicrelDropout Voltage - Max:600 mVInput Voltage, Max:12 VInput Voltage, Min:2.5 VLine Regulation:0.009 %/VLoad Regulation:0.0005 MIC5219 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. MIC5219 DatasheetYou can download MIC5219 datasheet from the link given below:MIC5219 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. MIC5219 FAQWhat is the use of LDO regulator?LDO regulators are used to derive lower output voltages from a main supply or battery. The output voltage is ideally stable with line and load variations, immune to changes in ambient temperature, and stable over time. What is LDO and how it works?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 three 3 basic types of voltage regulators?There are three types of Switching voltage regulators: Step up, Step down, and Inverter voltage regulators. What is voltage regulator example?A voltage regulator is a component that converts a voltage to a lower (or higher) level. A typical example is if you want to use a 9V battery, but you need 5V in the circuit. Then you can use a voltage regulator that takes those 9V as an input and creates a stable 5V output to use in your circuit. What is a linear voltage regulator?Linear voltage regulators—also called LDOs or low-dropout linear regulators—use a transistor controlled by a negative-feedback circuit to produce a specified output voltage that remains stable despite variations in load current and input voltage.
Kynix On 2022-01-12
Product OverviewThis dual-bit noninverting bus transceiver uses two separate configurable power-supply rails. The A port is designed to track VCCA. VCCA accepts any supply voltage from 1.65 V to 5.5 V. The B port is designed to track VCCB. VCCB accepts any supply voltage from 1.65 V to 5.5 V. This allows for universal low-voltage bidirectional translation between any of the 1.8-V, 2.5-V, 3.3-V, and 5-V voltage nodes. This blog will introduce SN74LVC2T45YZPR systematically from its features, pinout to its specifications, applications, also including SN74LVC2T45YZPR datasheet and so much more. CatalogProduct OverviewSN74LVC2T45YZPR FeaturesSN74LVC2T45YZPR PinoutSN74LVC2T45YZPR ApplicationsSN74LVC2T45YZPR Block DiagramSN74LVC2T45YZPR Circuit DiagramSN74LVC2T45YZPR CAD ModelsSN74LVC2T45YZPR PackageSN74LVC2T45YZPR SpecificationSN74LVC2T45YZPR ManufacturerSN74LVC2T45YZPR DatasheetUsing WarningsSN74LVC2T45YZPR FAQ SN74LVC2T45YZPR FeaturesFully Configurable Dual-Rail Design Allows Each Port to Operate Over the Full 1.65-V to 5.5-V Power-Supply RangeVCC Isolation Feature – If Either VCC Input Is at GND, Both Ports Are in the High-Impedance StateDIR Input Circuit Referenced to VCCA Low Power Consumption, 4-µA Max ICCAvailable in the Texas Instruments NanoFree™ Package±24-mA Output Drive at 3.3 VIoff Supports Partial-Power-Down Mode OperationMax Data Rates- 420 Mbps (3.3-V to 5-V Translation)- 210 Mbps (Translate to 3.3 V)- 140 Mbps (Translate to 2.5 V)- 75 Mbps (Translate to 1.8 V)Latch-Up Performance Exceeds 100 mA Per JESD 78, Class IIESD Protection Exceeds JESD 22- 4000-V Human-Body Model (A114-A)- 200-V Machine Model (A115-A)- 1000-V Charged-Device Model (C101) SN74LVC2T45YZPR PinoutThe following figure is the diagram of SN74LVC2T45YZPR pinout. SN74LVC2T45YZPR Pinout SN74LVC2T45YZPR ApplicationsPersonal ElectronicIndustrialEnterpriseTelecom SN74LVC2T45YZPR Block DiagramThe following figure shows the block diagram of SN74LVC2T45YZPR. SN74LVC2T45YZPR Block Diagram SN74LVC2T45YZPR Circuit DiagramThe following shows an example of the SN74LVC2T45 being used in a unidirectional logic level-shifting application. Unidirectional Logic Level-Shifting Application The following shows the SN74LVC2T45 being used in a bidirectional logic level-shifting application. Because the SN74LVC2T45 does not have an output-enable (OE) pin, the system designer should take precautions to avoid bus contention between SYSTEM-1 and SYSTEM-2 when changing directions. Bidirectional Logic Level-Shifting Application SN74LVC2T45YZPR CAD ModelsThe followings are SN74LVC2T45YZPR Symbol, Footprint, and 3D Model. SN74LVC2T45YZPR Symbol SN74LVC2T45YZPR Footprint SN74LVC2T45YZPR 3D Model SN74LVC2T45YZPR PackageThe following diagram shows the SN74LVC2T45YZPR package. SN74LVC2T45YZPR Package SN74LVC2T45YZPR SpecificationProduct AttributeAttribute ValueManufacturer:Texas InstrumentsProduct Category:Translation - Voltage LevelsPropagation Delay Time:17.7 nsSupply Voltage - Max:5.5 VSupply Voltage - Min:1.65 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CMounting Style:SMD/SMTPackage / Case:DSBGA-8Series:SN74LVC2T45Packaging:ReelPackaging:Cut TapePackaging:MouseReelBrand:Texas InstrumentsFeatures:Partial power down (Ioff), Over-voltage tolerant inputs, Vcc isolationHigh Level Output Current:- 32 mAInput Type:CMOS, TTLLogic Family:LVCLogic Type:TRUELow Level Output Current:32 mAOperating Temperature Range:- 40 C to + 85 COutput Type:3-State SN74LVC2T45YZPR ManufacturerTexas Instruments Incorporated designs and manufactures analog technologies, digital signal processing (DSP) and microcontroller (MCU) semiconductors. TI is a leader in semiconductor solutions for analog and digital embedded and applications processing. A global semiconductor company, TI innovates through design, sales and manufacturing operations in more than 30 countries. SN74LVC2T45YZPR DatasheetYou can download SN74LVC2T45YZPR datasheet from the link given below:SN74LVC2T45YZPR Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. SN74LVC2T45YZPR FAQWhat is bus transceiver?Bus transceivers are tri-state bi-directional devices which allow the flow of data between two points making them compatible with bus-oriented systems or the bi-directional (input or output) control of interface circuitry. Bus transceivers can be inverting, the TTL 74LS242 or non-inverting, the TTL 74LS243 devices. What is a dual supply bus transceiver?This dual-bit noninverting bus transceiver uses two separate configurable power-supply rails. The device transmits data from the A bus to the B bus when the B-port outputs are activated, and from the B bus to the A bus when the A-port outputs are activated. What's a transceiver used for?The transceiver is an important part of a fiber optics network and is used to convert electrical signals to optical (light) signals and optical signals to electrical signals. It can be plugged into or embedded into another device within a data network that can send and receive a signal.
Kynix On 2022-01-11
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