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Integrated Circuits (ICs)

DG4053EEN-T1-GE4 Analog Multiplexers: Datasheet, CAD Models, Features

CatalogDescriptionCAD ModelsFunctional Block Diagram and Pin ConfigurationFeaturesApplicationsDatasheetProduct AttributesManufacturerUsing WarningDescriptionThe DG4051E, DG4052E, and DG4053E are high precision CMOS analog multiplexers. The DG4051E is an 8-channel multiplexer, the DG4052E is a dual 4-channel multiplexer, and the DG4053E is a triple 2-channel multiplexer or triple SPDT. The DG4051E, DG4052E, and DG4053E feature low leakage, parasitic capacitance, and low charge injection of 0.3 pC over the full voltage range. These devices are ideal for high precision signal switching and multiplexing. Designed to operate from a 3 V to 16 V single supply or from a ± 3 V to ± 8 V dual supplies, the DG4051E, DG4052E, and DG4053E are fully specified at 3 V, 5 V, 12 V and ± 5 V. All control logic inputs have guaranteed 2 V logic high limit when operating from 5 V or ± 5 V supplies and 1.4 V when operating from a 3 V supply. All switches conduct equally well in both directions, offering rail to rail analog signal switching and can be used both as multiplexers as well as de-multiplexers. The DG4051E, DG4052E, and DG4053E operating temperature is specified from -40 ℃ to +125 ℃ and are available in 16 pin TSSOP and the ultra compact 1.8 mm x 2.6 mm miniQFN16 packages. CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model Functional Block Diagram and Pin Configuration Features3 V to 16 V single supply or ± 3 to ± 8 V dual supply operationLow parasitic capacitance:           CD(ON): 8.5 pF / typ. (DG4053E)           CS(OFF): 2.0 pF / typ. (DG4053E)Less than 0.3 pC charge injection over the full signal swing rangeLow leakage: < 50 pA, typ.Fast switching tON: 35 ns, typ.3 V logic compatible for controlBi-directional rail to rail signal switching ApplicationsAutomatic test equipmentProcess control and automationData acquisition systemsMeters and instrumentsMedical and healthcare systemsCommunication systemsAudio and video signal routingRelay replacementBattery powered systems DatasheetYou can download the datasheet from the link given below:DG4053EEN-T1-GE4-Datasheet Product AttributesManufacturer:VishayProduct Category:Multiplexer Switch ICsProduct:MultiplexersMounting Style:SMD/SMTPackage / Case:mini QFN-16Number of Channels:6 ChannelConfiguration:3 x 2:1Supply Voltage - Min:3 VSupply Voltage - Max:16 VMinimum Dual Supply Voltage:+/- 3 VMaximum Dual Supply Voltage:+/- 8 VOn Resistance - Max:221 OhmsOn Time - Max:117 nsOff Time - Max:110 nsMinimum Operating Temperature:- 40 ℃Maximum Operating Temperature:+ 125 ℃Packaging:Cut TapePackaging:MouseReelPackaging:ReelBandwidth:930 MHzSupply Type:Single Supply, Dual SupplyBrand:Vishay / SiliconixOff Isolation - Typ:- 49 dBSupply Current - Max:10 uADual Supply Voltage:+/- 3 V to +/- 8 VOperating Supply Voltage:3 V to 16 VPd - Power Dissipation:525 mWProduct Type:Multiplexer Switch ICsFactory Pack Quantity:3000Subcategory:Switch ICsSwitch Voltage - Max:12 VUnit Weight:0.002751 oz ManufacturerVishay Intertechnology, Inc. is an American manufacturer of discrete semiconductors and passive electronic components founded by Polish-born businessman Felix Zandman. Vishay has manufacturing plants in Israel, Asia, Europe, and the Americas where it produces rectifiers, diodes, MOSFETs, optoelectronics, selected integrated circuits, resistors, capacitors, and inductors. Vishay Intertechnology revenues for 2018 were $3.035 billion. As of December 31, 2018, Vishay Intertechnology had approximately 24,100 full-time employees. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. 
kynix On 2022-03-18   1329
Integrated Circuits (ICs)

Circular connector RM12BRB-6PH for the technology industries: CAD model, datasheet, features, applications [FAQs&Video]

CatalogRM12BRB-6PH OverviewRM12BRB-6PH Related Video IntroductionRM12BRB-6PH CAD ModelsRM12BRB-6PH Connectors with Bayonet SleeveRM12BRB-6PH FeaturesRM12BRB-6PH ApplicationsRM12BRB-6PH DatasheetRM12BRB-6PH SpecificationsRM12BRB-6PH ManufacturerRM12BRB-6PH PrecautionsRM12BRB-6PH FAQs RM12BRB-6PH Overview A circular connector is made up of two parts: a cylindrical, multi-pin male plug and a female receptacle with corresponding sockets that, when mated, are designed to power or transmit electrical signals. The RM12BRB-6PH belongs to the category of the circular connector, it used generally applied to some applications such as modern technology and etc. You could try back ordering them from a larger distributor like Kynix. Its manufacturers are expanding production capacity If you have been having issues with parts going out of stock. RM12BRB-6PH Related Video Introduction Video Description: It describes the related RM12BRB-6PH fundamental circular connector introduction.  RM12BRB-6PH CAD Models The RM12BRB-6PH CAD Models are as follows.     RM12BRB-6PH Connectors With Bayonet Sleeve Circular connectors RM12BRB-6PH with a bayonet sleeve locking mechanism and a 12-shell size. The shell of RM12BRB-6PH circular connectors is nickel-plated brass and zinc alloy, with a synthetic resin insulator. Size 12 shell NoteSee the Kynix electronic component distributors, for example, stock Manufacturer Part #: RM12BRB-6PH.  RM12BRB-6PH Features The RM12BRB-6PH provides a wide selection of plug and receptacle types to satisfy various kinds of application requirements. The RM series features are as follows.• The RM series available position counts: 2, 3, 4, 5, 6, 7, 8, 10, 12, 15, and 20.• Available lock mechanisms: threaded coupling type, bayonet sleeve type, and quick detachable type. RM12BRB-6PH ApplicationsThe RM12BRB-6PH applications are as follows.• Consumer(Smart appliances)• Automotive(Automotive car)• Industrial machinery(Industrial automation)• Telecommunications/Networking• Modern technology(Aerospace) RM12BRB-6PH DatasheetYou can download the datasheet from the link given below:RM12BRB-6PH RM12BRB-6PH Specification AttributeValueNumber of Contacts6Mounting TypePanel MountPlug/SocketSocketTermination MethodSolderContact GenderMaleCurrent Rating5.0AVoltage Rating350 V acShell Size12Mating TypeBayonetBody OrientationStraightSeriesRMContact PlatingSilverHousing MaterialBrassMinimum Operating Temperature-25°CMaximum Operating Temperature+85°CContact MaterialCopperRM12BRB-6PH ManufacturerHirose Electronic responds to all connector needs with advanced and cutting-edge development. It has successfully developed a high contact reliability connector with an operating temperature range of -40 to 140°C that meets the most stringent requirements. As one of the distributors, this enables us to supply high-value-added products to the world's markets. RM12BRB-6PH Circular Connector Hirose PrecautionsThe RM12BRB-6PH precautions are as follows.1. Be sure the power is off before mating/unmating a connector.2. Be sure to use a connector with female contacts for the power side of the circuit.3. Be sure to engage the lock mechanism on the connectors.4. Regarding plugs and jacks: the forces from cable clamping, cable rotation, and other forces may vary with the cable construction. Please make sure that your cable is suitable for use with these connectors before usage and production.5. This product series uses silver-plated contacts. Silver reacts easily to exposure to sulfur gas so the below conditions may cause tarnishing.• Dusty environments• Area with a high concentration area of gases such as sulfur dioxide gas, hydrogen sulfide gas, nitrogen dioxide gasand so on.For example; In close proximity to factory exhaust, automotive emissions, etc.• Close to heaters, or in other areas marked by extreme temperature differences or high humidity.• Close to rubber products including rubber adhesives.The Electrical connection is not affected by tarnishing on a silver surface due to the wiping effect of the contact pins.StoragePacking state; Packed in original packing or equivalent containerTemperature -10 to +60°C; Humidity 85% Max(It is recommended that the product be stored in an area of the normal level of temperature and humidity, and free of anytemperature fluctuation)RM12BRB-6PH FAQs1.How can choose to buy the best circular connectors CM50DY-24H for the technology industries?Here at Kynix Electronic component distributor, we are always on the lookout for the best products at the best prices to assist with modern technologies like circular connectors. We offer waterproof, high voltage/current connectors rated IP68 all the way down to 6mm low voltage connectors. Mating styles include screw and twist-lock, as well as bayonet and push-pull. There would be great prices and the fastest shipping be of your services. Just fill out the form so you could get a free sample from Kynix. These are some of the promising solutions.2.Where are circular connectors CM50DY-24H used?Circular connectors are common in military, aerospace, and harsh industrial applications. CM50DY-24H is the common example standard. You can browse the blog to learn more details about the circular connectors CM50DY-24H.3.What should we know about the shells, inserts, contacts and backshells?Circular connector RM12BRB-6PH is made up of two circular parts: a multi-pin male plug and a multi-socket female receptacle. A circular shell made of plastic or metal encases an insulating insert, which in turn orients electrical contacts or pins in the male plug. The female receptacle houses the corresponding sockets with which the pins mate or connect. Shell diameters range from nano miniature circular shells a few millimeters across to those 50 mm or larger.
kynix On 2023-02-18   1319
Integrated Circuits (ICs)

TOP247YN Off Line Converter: Datasheet PDF, CAD Models, Applications [Video&FAQ]

CatalogTOP247YN DescriptionTOP247YN Related Video InstructionTOP247YN CAD ModelsTOP247YN Pin ConfigurationTOP247YN Block DiagramTOP247YN FeaturesTOP247YN Application ExamplesTOP247YN DatasheetTOP247YN SpecificationsTOP247YN ManufacturerUsing WarningTOP247YN FAQTOP247YN DescriptionTOPSwitch-GX uses the same proven topology as TOPSwitch, cost effectively integrating the high voltage power MOSFET , PWM control, fault protection and other control circuitry onto a single CMOS chip. Many new functions are integrated to reduce system cost and improve design flexibility, performance and energy efficiency. Depending on package type, either 1 or 3 additional pins over the TOPSwitch standard DRAIN, SOURCE and CONTROL terminals allow the following functions: line sensing (OV/UV, line feed-forward/DCMAX reduction), accurate externally set current limit, remote ON/OFF, synchronization to an external lower frequency, and frequency selection (132 kHz/66 kHz). All package types provide the following transparent features: Soft-start, 132 kHz switching frequency (automatically reduced at light load), frequency jittering for lower EMI , wider DCMAX, hysteretic thermal shutdown, and larger creepage packages. In addition, all critical parameters (i.e. current limit, frequency, PWM gain) have tighter temperature and absolute tolerances to simplify design and optimize system cost. TOP247YN Related Video InstructionVideo:TOP247YN TOP247YN CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model TOP247YN Pin Configuration Figure: Pin Configuration TOP247YN Block Diagram Figure: Block Diagram TOP247YN FeaturesExtended power range for higher power applicationsNo heatsink required up to 34 W using P/G packagesFeatures eliminate or reduce cost of external componentsFully integrated soft-start for minimum stress/overshootExternally programmable accurate current limitWider duty cycle for more power, smaller input capacitorSeparate line sense and current limit pins on Y/R/F packagesLine under-voltage (UV) detection: no turn off glitchesLine overvoltage (OV) shutdown extends line surge limitLine feed-forward with maximum duty cycle (DCMAX) reduction rejects line ripple and limits DCMAX at high lineFrequency jittering reduces EMI and EMI filtering costsRegulates to zero load without dummy loading132 kHz frequency reduces transformer/power supply sizeHalf frequency option in Y/R/F packages for video applicationsHysteretic thermal shutdown for automatic fault recoveryLarge thermal hysteresis prevents PC board overheating TOP247YN Application ExamplesFigure: Application Examples 01  Figure: Application Examples 02  Figure: Application Examples 03  Figure: Application Examples 04  Figure: Application Examples 05 TOP247YN DatasheetYou can download the datasheet from the link given below.TOP247-Datasheet TOP247YN SpecificationsManufacturer:Power IntegrationsProduct Category:AC/DC ConvertersMounting Style:Through HolePackage / Case:TO-220Output Voltage:12 VInput / Supply Voltage - Min:85 VACInput / Supply Voltage - Max:265 VACSwitching Frequency:132 kHzDuty Cycle - Max:0.83Operating Supply Current:2.2 mAMinimum Operating Temperature:- 40 ℃Maximum Operating Temperature:+ 150 ℃Series:TOP247Packaging:TubeManufacturer:Power IntegrationsBrand:Power IntegrationsProduct Type:AC/DC ConvertersFactory Pack Quantity:50Subcategory:PMIC - Power Management ICsTradename:TopSwitchType:Off Line ConverterUnit Weight:0.081130 oz TOP247YN ManufacturerPower Integrations, Inc., is a Silicon Valley-based supplier of high-performance electronic components used in high-voltage power-conversion systems. Our integrated circuits and diodes enable compact, energy-efficient AC-DC power supplies for a vast range of electronic products including mobile devices, TVs, PCs, appliances, smart utility meters and LED lights. Our SCALE™ IGBT drivers enhance the efficiency, reliability and cost of high-power applications such as industrial motor drives, solar and wind energy systems, electric vehicles and high-voltage DC transmission. Since its introduction in 1998, Power Integrations' EcoSmart® energy-efficiency technology has prevented billions of dollars' worth of energy waste and millions of tons of carbon emissions. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. TOP247YN FAQWhat is an offline converter?In off-line converters the ac voltage is rectified to dc directly off the ac power line and filtered with no isolation transformer and then processed with a dc-dc converter that provides isolation at the switching frequency. Are AC-DC converters efficient?In the DC/DC converters that are installed in electronic equipment and other products, it is not unusual for high efficiencies of around 95% or so to be achieved, and so it certainly can be said that efficiency levels are fairly high. What is the use of converter?Converters are electrical devices that convert the voltage from alternating current (AC) to direct current (DC). Inverters are electrical devices that convert the voltage from direct current (DC) to alternating current (AC). 
Kynix On 2021-12-29   1317
Integrated Circuits (ICs)

74HC10 Triple 3-Input NAND Gate Datasheet PDF Download

Catalog General DescriptionFeatures and BenefitsOrdering InformationFunctional DiagramPinning InformationFunctional DescriptionLimiting ValuesRecommended Operating ConditionsStatic CharacteristicsDynamic Characteristics74HC10 Datasheet74HC10 FAQ General DescriptionThe 74HC10; 74HCT10 is a triple 3-input NAND gate. Inputs include clamp diodes that enable the use of current limiting resistors to interface inputs to voltages in excess of VCC. Features and BenefitsComplies with JEDEC standard JESD7AInputlevels:For 74HC10: CMOS levelFor 74HCT10: TTL levelComplies with JEDEC standard no.7AESD protection:HBM JESD22-A114F exceeds 2000VMM JESD22-A115-A exceeds 200VMultiple package optionsSpecified from -40 °C to +85 °C and from -40 °C to +125°C Ordering InformationType numberPackageTemperature rangeNameDescriptionVersion74HC10D-40 °C to +125 °CSO14plastic small outline package; 14 leads; body width 3.9 mmSOT108-174HCT10D74HC10PW-40 °C to +125 °CTSSOP14plastic thin shrink small outline package; 14 leads; body width 4.4 mmSOT402-174HCT10PW Functional DiagramLogic Symbol  IEC Logic Symbol  Logic Diagram for One Gate Pinning InformationPin Configuration SOT108-1 (SO14)  Pin Configuration SOT402-1 (TSSOP14) Pin DescriptionSymbolPinDescription1A, 2A, 3A1, 3, 9data input1B, 2B, 3B2, 4, 10data inputGND7ground (0 V)1C, 2C, 3C13, 5, 11data input1Y, 2Y, 3Y12, 6, 8data outputVCC14supply voltage Functional DescriptionH = HIGH voltage level; L = LOW voltage level; X = don’t careInputOutputnAnBnCnYLXXHXLXHXXLHHHHL Limiting ValuesIn accordance with the Absolute Maximum Rating System (IEC 60134). Voltages are referenced to GND (ground = 0 V). SymbolParameterConditionsMinMaxUnitVCCsupply voltage -0.5+7VIIKinput clamping currentVI < -0.5 V or VI > VCC + 0.5 V [1]-±20mAIOKoutput clamping currentVO < -0.5 V or VO > VCC + 0.5 V [1]-±20mAIOoutput current-0.5 V < VO < VCC + 0.5 V-±25mAICCsupply current -50mAIGNDground current -50-mATstgstorage temperature -65+150°CPtottotal power dissipation[2]-500mW[1]The input and output voltage ratings may be exceeded if the input and output current ratings are observed.[2]For SOT108-1 (SO14) package: Ptot derates linearly with 10.1 mW/K above 100 °C. For SOT402-1 (TSSOP14) package: Ptot derates linearly with 7.3 mW/K above 81 °C. Recommended Operating ConditionsVoltages are referenced to GND (ground = 0 V).SymbolParameterConditions74HC1074HCT10UnitMinTypMaxMinTypMaxVCCsupply voltage 2.05.06.04.55.05.5VVIinput voltage 0-VCC0-VCCVVOoutput voltage 0-VCC0-VCCVTambambient temperature -40-+125-40-+125°CΔt/ΔVinput transition rise and fall rateVCC = 2.0 V--625---ns/VVCC = 4.5 V-1.67139-1.67139ns/VVCC = 6.0 V--83---ns/V Static CharacteristicsAt recommended operating conditions; voltages are referenced to GND (ground = 0 V).SymbolParameterConditions25 °C-40 °C to +85 °C-40 °C to +125 °CUnitMinTypMaxMinMaxMinMaxVIHHIGH-level input voltageVCC = 2.0 V1.51.2-1.5-1.5-VVCC = 4.5 V3.152.4-3.15-3.15-VVCC = 6.0 V4.23.2-4.2-4.2-VVILLOW-level input voltageVCC = 2.0 V-0.80.5-0.5-0.5VVCC = 4.5 V-2.11.35-1.35-1.35VVCC = 6.0 V-2.81.8-1.8-1.8VVOHHIGH-level output voltageVI = VIH or VIL        IO = -20 μA; VCC = 2.0 V1.92.0-1.9-1.9-VIO = -20 μA; VCC = 4.5 V4.44.5-4.4-4.4-VIO = -20 μA; VCC = 6.0 V5.96.0-5.9-5.9-VIO = -4.0 mA; VCC = 4.5 V3.984.32-3.84-3.7-VIO = -5.2 mA; VCC = 6.0 V5.485.81-5.34-5.2-VVOLLOW-level output voltageVI = VIH or VIL        IO = 20 μA; VCC = 2.0 V-00.1-0.1-0.1VIO = 20 μA; VCC = 4.5 V-00.1-0.1-0.1VIO = 20 μA; VCC = 6.0 V-00.1-0.1-0.1VIO = 4.0 mA; VCC = 4.5 V-0.150.26-0.33-0.4VIO = 5.2 mA; VCC = 6.0 V-0.160.26-0.33-0.4VIIinput leakage currentVI = VCC or GND; VCC = 6.0 V--±0.1-±1-±1μAICCsupply currentVI = VCC or GND; IO = 0 A; VCC = 6.0 V--2.0-20-40μACIinput capacitance -3.5-----pF Dynamic CharacteristicsGND = 0 V; CL = 50 pF; for test circuit, see Figure.SymbolParameterConditions25 °C-40 °C to+85 °C-40 °C to+125 °CUnitMinTypMaxMaxMaxtpdpropagation delaynA, nB to nY; see Figure [1]      VCC = 2.0 V-3095120145nsVCC = 4.5 V-11192429nsVCC = 5.0 V; CL = 15 pF-9---nsVCC = 6.0 V-9162025nstttransition timesee Figure [2]      VCC = 2.0 V-197595110nsVCC = 4.5 V-7151922nsVCC = 6.0 V-6131619nsCPDpower dissipation capacitanceper package; VI = GND to VCC [3]-12---pF[1]tpd is the same as tPHL and tPLH.[2]tt is the same as tTHL and tTLH.[3]CPD is used to determine the dynamic power dissipation (PD in μW): PD = CPD x VCC 2 x fi x N + Σ(CL x VCC2 x fo) where: fi = input frequency in MHz;  fo = output frequency in MHz;CL = output load capacitance in pF; VCC = supply voltage in V;N = number of inputs switching; Σ(CL x VCC 2 x fo) = sum of outputs. 74HC10 DatasheetYou can download the datasheet of 74HC10 from the link given below:74HC10 Datasheet 74HC10 FAQCan NAND gate have 3 inputs?As with the AND function seen previously, the NAND function can also have any number of individual inputs and commercial available NAND Gate IC's are available in standard 2, 3, or 4 input types. If additional inputs are required, then the standard NAND gates can be cascaded together to provide more inputs for example. What is 3 input NAND gate?The 3-input NAND GateUnlike the 2-input NAND gate, the 3-input NAND gate has three inputs. The Boolean expression of the logic NAND gate is defined as the binary operation dot(.). The NAND gate can be cascaded together to form any number of individual inputs. There are 23=8 possible combinations of inputs. What is function of a NAND gate?In digital electronics, a NAND gate (NOT-AND) is a logic gate which produces an output which is false only if all its inputs are true; thus its output is complement to that of an AND gate. What is NAND truth table?The NAND gate is a combination of an AND gate and NOT gate. They are connected in cascade form. It is also called Negated And gate. The NAND gate provides the false or low output only when their outputs is high or true. What is a NAND?NAND Flash is a type of non-volatile storage technology that does not require power to retain data. An everyday example would be a mobile phone, with the NAND Flash (or the memory chip as it's sometimes called) being where data files such as photos, videos and music are stored on a microSD card. 
kynix On 2022-04-19   1314
Integrated Circuits (ICs)

LF353N Dual Operational Amplifier Datasheet PDF Download

Catalog DescriptionFeaturesInternal Block DiagramSchematic DiagramAbsolute Maximum RatingsElectrical CharacteristicsMechanical DimensionsMechanical DimensionsOrdering InformationLF353N DatasheetLF353N FAQ DescriptionThe LF353 is a JFET input operational amplifier with an internally compensated input offset voltage. The JFET input device provides wide bandwidth, low input bias currents and offset currents. FeaturesInternally trimmed offset voltage:10mVLow input bias current:50pAWide gain bandwidth:4MHzHigh slew rate:13V/msHigh Input impedance:1012W Internal Block Diagram Schematic Diagram Absolute Maximum RatingsParameterSymbolValueUnitPower Supply VoltageVCC±18VDifferential Input VoltageVI(DIFF)30VInput Voltage RangeVI±15VOutput Short Circuit Duration-Continuous-Power DissipationPD500mWOperating Temperature RangeTOPR0 ~ +70°CStorage Temperature RangeTSTG-65 ~ +150°C Electrical Characteristics(VCC =+15V, VEE= -15V, TA=25 °C, unless otherwise specified)ParameterSymbolConditionsMin.Typ.Max.UnitInput Offset VoltageVIORS=10KW-5.010mV- 0 °C≤TA≤+70 °C---Input Offset Voltage DriftΔVIO/ΔTRS=10KW0 °C≤TA≤+70 °C-10-mV/ °CInput Offset CurrentIIO -25100pA 0 °C≤TA≤+70 °C--4nAInput Bias CurrentIBIAS -50200pA 0 °C≤TA≤+70 °C--8nAInput ResistanceRI--1012-WLarge Signal Voltage GainGVVO(P-P) = ±10V25100-V/mV-RL = 2KW0 °C≤TA≤+70 °C15--Output Voltage SwingVO(P_P)RL = 10KW±12±13.5-VInput Voltage RangeVI(R)-±11±15/-12-VCommon Mode Rejection RatioCMRRRS ≤ 10KW70100-dBPower Supply Rejection RatioPSRRRS ≤ 10KW70100-dBPower Supply CurrentICC--3.66.5mASlew RateSRGV = 1-13-V/mSGain-Bandwidth ProductGBW--4-MHzChannel SeperationCSf = 1Hz ~ 20KHz (Input referenced)-120-dBEquivalent Input Noise VoltageVNIRS = 100Wf = 1KHz-16-nV/HzEquivalent Input Noise CurrentINIf = 1KHz-0.01-pA/Hz Mechanical Dimensions Ordering InformationProduct NumberPackageOperating TemperatureLF353N8-DIP0 ~ + 70°CLF353M8-SOP LF353N DatasheetYou can download the datasheet of LF353N from the link given below:LF353N DatasheetLF353N FAQWhat is dual operational amplifier?Dual Supply opamp has two supply rails with reference to GND to an opamp i.e +VCC and -VCC rails. Your applied voltage can swing between these two voltage levels. Hence, the output signal can swing only between these voltage(+VCC and -VCC) limits and they cannot exceed above these levels. What is an operational amplifier used for?An operational amplifier is an integrated circuit that can amplify weak electric signals. An operational amplifier has two input pins and one output pin. Its basic role is to amplify and output the voltage difference between the two input pins. What is dual power supply?Dual power supplies are circuits that generate two different output voltages from a single input source. There are numerous types and configurations possible. The most common configuration provides two different positive DC voltage outputs or two equal magnitude and opposite polarity DC voltage outputs. Is operational amplifier analog or digital?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. How does a dual output power supply work?A dual output power supply is a power source that provides two separate Direct Current (DC) or Alternating Current (AC) voltage outputs. Both are usually electrically isolated from the power supply input by a transformer. The outputs may be electrically isolated from each other as well, depending upon the design. 
kynix On 2022-04-08   1313
Integrated Circuits (ICs)

2N3055 Complementary Silicon Power Transistors Datasheet PDF Download

CatalogDescriptionFeaturesInternal Schematic DiagramAbsolute Maximum RatingsThermal DataElectrical CharacteristicsTO-3 Mechanical Data2N3055 Datasheet2N3055 FAQDescriptionThe 2N3055 is a silicon Epitaxial-Base Planar NPN transistor mounted in Jedec TO-3 metal case. It is intended for power switching circuits, series and shunt regulators, output stages and high fidelity amplifiers. The complementary PNP type is MJ2955. Features■ STMicroelectronics preferred salestypes■ Complementary NPN-PNP devices Internal Schematic DiagramAbsolute Maximum RatingsSymbolParameterValueUnitVCBOCollector-Base Voltage (IE = 0)100VVCERCollector-Emitter Voltage (RBE ≤100Ω)70VVCEOCollector-Emitter Voltage (IB = 0)60VVEBOEmitter-Base Voltage (IC = 0)7VICCollector Current15AIBBase Current7APtotTotal Dissipation at Tc ≤ 25 oC115WTstgStorage Temperature-65 to 200o CTjMax. Operating Junction Temperature200o C Thermal DataRthj-caseThermal  Resistance  Junction-case Max1.5oC/W Electrical Characteristics Tcase = 25℃ unless otherwise specifiedSymbolParameterTest ConditionsMin.Typ.Max.UnitICEX Collector Cut-offVCE = 100 V  1mACurrent (VBE = -1.5V)VCE = 100 V Tj = 150 oC  5mAICEOCollector Cut-off Current (IB = 0)VCE = 30 V  0.7mAIEBOEmitter Cut-off Current (IC = 0)VEB = 7 V  5mAVCEO(sus)*Collector-Emitter Sustaining Voltage(IB = 0)IC = 200 mA60  VVCER( sus)*Collector-Emitter SustainingVoltage (RBE = 100 W)IC = 200 mA70  VVCE(sat)* Collector-EmitterIC = 4 A IB = 400 mA  1VSaturation VoltageIC = 10 A IB = 3.3 A  3VVBE*Base-Emitter VoltageIC  = 4 A VCE = 4 A  1.8VhFE* DC Current Gain IC  = 4 A VCE = 4 A20 70 IC = 10 A VCE = 4 A5   fTTransition frequencyIC = 0.5 A VCE = 10 V3  MHzIs/b*Second Breakdown Collector CurrentVCE = 40 V2.87  A∗ Pulsed: Pulse duration = 300 µs, duty cycle 1.5 %For PNP types voltage and current values are negative TO-3 Mechanical DataDIM. mminchMIN.TYP.MAX.MIN.TYP.MAX.A11.00 13.100.433 0.516B0.97 1.150.038 0.045C1.50 1.650.059 0.065D8.32 8.920.327 0.351E19.00 20.000.748 0.787G10.70 11.100.421 0.437N16.50 17.200.649 0.677P25.00 26.000.984 1.023R4.00 4.090.157 0.161U38.50 39.301.515 1.547V30.00 30.301.187 1.193 2N3055 DatasheetYou can download the datasheet of 2N3055 from the link given below:2N3055 Datasheet 2N3055 FAQWhat is 2N3055 transistor?The 2N3055 is a silicon NPN power transistor intended for general purpose applications. It was introduced in the early 1960s by RCA using a hometaxial power transistor process, transitioned to an epitaxial base in the mid-1970s. Its numbering follows the JEDEC standard. It is a transistor type of enduring popularity. What are power transistors used for?The power transistor is a transistor that used in high power amplifier and power supplies. Power transistors are suited for application where a lot of power is being used current and voltage. It is a junction transistor, is designed to handle high current and power and also used in audio and switching circuits. How many types of power transistors are there?Transistors are broadly divided into three types: bipolar transistors (bipolar junction transistors: BJTs), field-effect transistors (FETs), and insulated-gate bipolar transistors (IGBTs). What is the difference between transistor and power transistor?A transistor is a three-terminal semiconducting device. A power transistor is larger than a normal transistor and is capable of carrying more current without melting or burning the transistor. Are all power transistors the same?Although they are slightly different, for all circuit equivalences of this nature these transistor parameters are the same. Choosing a replacement transistor with approximately the same current gain is necessary. Normally it is not a problem to choose a replacement transistor with a higher gain. 
kynix On 2022-02-18   1312

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