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Integrated Circuits (ICs)

TPS82130 Step-Down Converter Module: Datasheet, Pinout, Circuit [FAQ]

Product OverviewThe TPS82130 is a 17-V input 3-A step-down converter MicroSiP power module optimized for small solution size and high efficiency. The module integrates a synchronous step-down converter and an inductor to simplify design, reduce external components, and save PCB area. The low profile and compact solution is suitable for automated assembly by standard surface mount equipment. To maximize efficiency, the converter operates in PWM mode with a nominal switching frequency of 2 MHz and automatically enters power save mode operation at light load currents. In power save mode, the device operates with 20-µA (typical) quiescent current. Using the DCS-Control topology, the device achieves excellent load transient performance and accurate output voltage regulation. This blog will introduce TPS82130 systematically from its features, pinout to its specifications, applications, also including TPS82130 datasheet and so much more. CatalogProduct OverviewTPS82130 FeaturesTPS82130 PinoutTPS82130 ApplicationsTPS82130 Circuit DiagramTPS82130 Block DiagramTPS82130 PackageTPS82130 SpecificationTPS82130 ManufacturerTPS82130 DatasheetUsing WarningsTPS82130 FAQ TPS82130 Features3-mm × 2.8-mm × 1.5-mm MicroSiP™ package3-V to 17-V input range3-A continuous output currentDCS-Control™ topologyPower save mode for light-load efficiency20-µA operating quiescent current0.9-V to 6-V adjustable output voltage100% duty cycle for lowest dropoutPower-good outputProgrammable soft start-up with trackingThermal shutdown protection–40°C to 125°C operating temperature range TPS82130 PinoutThe following figure is the diagram of TPS82130 pinout. TPS82130 Pinout TPS82130 ApplicationsIndustrial applicationsTelecom and networking applicationsSolid state drives TPS82130 Circuit DiagramThe following is the application circuit diagram of TPS82130. Simplified Schematic 1.8-V Output Application TPS82130 Block DiagramThe output voltage of the TPS82130 is adjusted by component selection. The following section discusses the design of the external components to complete the power supply design for several input and output voltage options by using typical applications as a reference. TPS82130 Block Diagram TPS82130 PackageThe following diagram shows the TPS82130 package. TPS82130 Package NOTES:All linear dimensions are in millimeters. Any dimensions in parenthesis are for reference only. Dimensioning and tolerancing per ASME Y14.5M.This drawing is subject to change without notice.Pick and place nozzle 1.3 mm or smaller recommended.The package thermal pad must be soldered to the printed circuit board for thermal and mechanical performance. TPS82130 SpecificationManufacturer:Texas InstrumentsInput Voltage-Max:17 VInput Voltage-Min:3 VInput Voltage-Nom:12 VOperating Temperature-Max:125 °COperating Temperature-Min: -40 °COutput Current-Max:4.9 ALength:3 mmSeated Height-Max:1.53 mm TPS82130 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. TPS82130 DatasheetYou can download TPS82130 datasheet from the link given below:TPS82130 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. TPS82130 FAQWhat is step down module?A buck converter (step-down converter) is a DC-to-DC power converter which steps down voltage (while drawing less average current) from its input (supply) to its output (load). What does a step down converter do?A step down converter—also known as a buck converter—converts high voltage to low voltage, usually transforming AC current to DC current. A voltage regulator maintains a constant output voltage for a circuit, regardless of any changes in connected devices or electrical load. How does boost converter work?The key principle that drives the boost converter is the tendency of an inductor to resist changes in current by either increasing or decreasing the energy stored in the inductor magnetic field. In a boost converter, the output voltage is always higher than the input voltage. 
Kynix On 2022-01-06   332
Integrated Circuits (ICs)

TDA7498 Audio Amplifier: CAD Models, Datasheet PDF, Pinout [Video&FAQ]

CatalogTDA7498ETR DescriptionTDA7498ETR Related Video InstructionTDA7498ETR CAD ModelsTDA7498ETR PinoutTDA7498ETR Block DiagramTDA7498ETR FeaturesTDA7498ETR Test CircuitTDA7498ETR DatasheetTDA7498ETR SpecificationsTDA7498ETR ManufacturerUsing WarningTDA7498ETR FAQTDA7498ETR DescriptionThe TDA7498E is a dual BTL class-D audio amplifier with a single power supply designed for home systems and active speaker applications. It comes in a 36-pin PowerSSO package with exposed pad up (EPU) to facilitate mounting a separate heatsink. TDA7498ETR Related Video InstructionVideo: CLASS D amplifier TDA7498TDA7498 Video Description: REVIEW & TEST SOUND TDA 7498 Amplifier CLASS D TDA7498ETR CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model TDA7498ETR Pinout Figure: Pinout TDA7498ETR Block Diagram Figure: Block Diagram TDA7498ETR Features160-W + 160-W output power at THD = 10% with RL = 4 Ω and VCC= 36 V1 x 220 W output power mono parallel BTL at THD = 10% with RL = 3 Ω andVCC = 36 VWide-range single-supply operation (14 - 36 V)High efficiency (η = 85%)Parallel BTL function using the MODE pinFour selectable, fixed gain settings of nominally 23.8 dB, 29.8 dB, 33.3 dB and35.8 dBDifferential inputs minimize common-mode noiseStandby and mute featuresSmart protectionThermal overload protectionSmall offset less than 20 mV TDA7498ETR Test CircuitFigure: Test Circuit Stereo Application and Mono BTL Mode TDA7498ETR DatasheetYou can download the datasheet from the link given below.TDA7498E-Datasheet TDA7498ETR SpecificationsProduct Category:Audio AmplifiersSeries:TDA7498EProduct:Audio AmplifiersClass:Class-DOutput Power:220 W, 160 WMounting Style:SMD/SMTType:1-Channel Mono or 2-Channel StereoPackage / Case:PowerSSO-36THD plus Noise:0.1Supply Voltage - Max:36 VSupply Voltage - Min:14 VMinimum Operating Temperature:0 ℃Maximum Operating Temperature:+ 70 ℃Packaging:ReelPackaging:Cut TapePackaging:MouseReelManufacturer:STMicroelectronicsBrand:STMicroelectronicsMoisture Sensitive:YesNumber of Channels:2 ChannelOperating Supply Current:60 mAOperating Supply Voltage:14 V to 36 VProduct Type:Audio AmplifiersFactory Pack Quantity:1000Subcategory:Audio ICsUnit Weight:0.016932 oz TDA7498ETR 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. TDA7498ETR FAQWhat does an audio amplifier do?The goal of audio amplifiers is to reproduce input audio signals at sound-producing output elements, with desired volume and power levels—faithfully, efficiently, and at low distortion. When should I use an audio amplifier?You only need an amplifier when your source's maximum electrical output through the headphone jack—whether it's a smartphone, laptop, or something else—is lower than what your headphones require to reach the output level you want. Does amplifier improve sound quality?An amplifier boosts the sound to overcome road noise, improving your music's clarity and intelligibility. It'll increase your system's headroom — the ability to play sudden blasts of music with power and ease, without distortion. Do amplifiers make speakers louder?The speakers and the audio source itself have a much bigger impact on sound quality than the amplifier does. An amplifier can increase the maximum volume of your sound device and can boost the audio signal to make it louder. How do I choose an amplifier for my speakers?A general rule for choosing an amplifier is to select an amp that provides 1.5-2 times the continuous power rating of your speaker. This will ensure the speaker has enough power while leaving yourself 3 dB of headroom. 
Kynix On 2022-01-06   553
Integrated Circuits (ICs)

NCV8450ASTT3G Self-Protected High Side Driver: CAD Models, Datasheet, Features [Video&FAQ]

CatalogProduct OverviewNCV8450ASTT3G Related Video IntroductionNCV8450ASTT3G CAD ModelsNCV8450ASTT3G Marking DiagramNCV8450ASTT3G Block DiagramNCV8450ASTT3G FeaturesNCV8450ASTT3G ApplicationsNCV8450ASTT3G DatasheetNCV8450ASTT3G SpecificationsNCV8450ASTT3G ManufacturerUsing WarningNCV8450ASTT3G FAQProduct OverviewThe NCV8450/A is a fully protected High−Side Smart Discrete device with a typical RDS(on) of 1.0 and an internal current limit of 0.8 A typical. The device can switch a wide variety of resistive, inductive, and capacitive loads. NCV8450ASTT3G Related Video IntroductionNCV8450ASTT3G Video Description: In this video I look at Switch Mode Power supplies - in particular the Buck Converter. And to get a bit more focused, I look at the high side switch and how the driver for this component should look like. I analyse both N channel and P channel high side switches. NCV8450ASTT3G CAD ModelsFigure: NCV8450ASTT3G PCB Symbol   Figure: NCV8450ASTT3G Footprint   Figure: NCV8450ASTT3G 3D Models NCV8450ASTT3G Marking DiagramFigure: NCV8450ASTT3G Marking Diagram XXXXX = V8450 or 8450AA = Assembly LocationY = YearW = Work WeekMicrodot = Pb−Free Package(Note: Microdot may be in either location) NCV8450ASTT3G Block DiagramFigure: NCV8450ASTT3G Block Diagram NCV8450ASTT3G FeaturesShort Circuit ProtectionThermal Shutdown with Automatic RestartOvervoltage ProtectionIntegrated Clamp for Inductive SwitchingLoss of Ground ProtectionESD ProtectionSlew Rate Control for Low EMIVery Low Standby CurrentNCV Prefix for Automotive and Other Applications RequiringUniqueSite and Control Change Requirements; AEC−Q100 Qualified and PPAP CapableThese Devices are Pb−Free, Halogen Free/BFR Free and areRoHSCompliant NCV8450ASTT3G ApplicationsAutomotiveIndustrial NCV8450ASTT3G DatasheetYou can download the datasheet from the link given below:NCV8450ASTT3G Datasheet NCV8450ASTT3G SpecificationsProduct AttributeAttribute ValueManufacturer:onsemiProduct Category:Power Switch ICs - Power DistributionType:High SideNumber of Outputs:1 OutputOutput Current:150 mACurrent Limit:800 mAOn Resistance - Max:3 OhmsOn Time - Max:125 usOff Time - Max:175 usOperating Supply Voltage:4.5 V to 45 VOperating Temperature:-40°C ~ 150°C (TJ)Mounting Style:SMD/SMTPackage / Case:SOT-223Series:NCV8450AQualification:AEC-Q100Brand:onsemiProduct Type:Power Switch ICs - Power DistributionSubcategory:Switch ICsUnit Weight:0.003951 oz NCV8450ASTT3G 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. NCV8450ASTT3G FAQWhat are high side drivers?A high side driver is one in which the switching element is between Vcc and the load. A low side driver is one in which the switching element is between the load and common. A self-contained load such as a DC motor, solenoid/relay, light or LED string, can usually be drive. What is a high side mosfet driver?Microchip MIC5019 High-Side N-Channel MOSFET Driver is an ultra-small device with an integrated charge pump that is designed to switch an N-Channel enhancement type MOSFET control signal in high-side or low-side applications. What does high side and low side driver means?A low-side driver is placed between the load and ground, whereas a high-side driver, is placed between the load and the supply voltage. The low-side driver is often used for powertrain-related loads such as motors, solenoids, and heaters. 
Kynix On 2022-01-06   386
Integrated Circuits (ICs)

L6472HTR Fully Integrated Microstepping Motor Driver: Block Diagram, Datasheet, Features [Video&FAQ]

CatalogProduct OverviewL6472HTR Related Video IntroductionL6472HTR Pin ConfigurationL6472HTR Block DiagramL6472HTR FeaturesL6472HTR ApplicationsL6472HTR DatasheetL6472HTR SpecificationsL6472HTR ManufacturerUsing WarningL6472HTR FAQ Product OverviewThe L6472 device, realized in analog mixed signal technology, is an advanced fully integrated solution suitable for driving two-phase bipolar stepper motors with microstepping. It integrates a dual low RDS(on) DMOS full bridge with all of the power switches equipped with an accurate onchip current sensing circuitry suitable for non dissipative current control and overcurrent protection. Thanks to a new current control, a 1/16 microstepping is achieved through an adaptive decay mode which outperforms traditional implementations. The digital control core can generate user defined motion profiles with acceleration, deceleration, speed or target position, easily programmed through a dedicated register set.  All application commands and data registers, including those used to set analog values (i.e.: current control value, current protection trip point, deadtime, etc.) are sent through a standard 5-Mbit/s SPI. A very rich set of protections (thermal, low bus voltage, overcurrent) makes the L6472 device “bullet proof”, as required by the most demanding motor control applications. L6472HTR Related Video IntroductionL6472HTR Video Description: This video describes full stepping, half-stepping and microstepping in stepper motor drivers. We will also show what the current waveform looks like for each type. L6472HTR Pin ConfigurationFigure: L6472HTR Pin Configuration L6472HTR Block DiagramFigure: L6472HTR Block Diagram L6472HTR FeaturesOperating voltage: 8 - 45 V0 A output peak current (3.0 A r.m.s.)Low RDS(on)power MOSFETsProgrammable speed profileProgrammable power MOSFET slew rateUp to 1/16 microsteppingPredictive current control with adaptive decayNon dissipative current sensingSPI interfaceLow quiescent and standby currentsProgrammable non dissipative overcurrentprotection on all power MOSFETsTwo levels of overtemperature protection L6472HTR ApplicationsBipolar stepper motorFigure: Bipolar Stepper Motor Control Application Using the L6472 L6472HTR DatasheetYou can download the datasheet from the link given below:L6472HTR Datasheet L6472HTR SpecificationsTypeDescriptionCategoryIntegrated Circuits (ICs)PMIC - Motor Drivers, ControllersMfrSTMicroelectronicsSeriesSTSPIN L64Part StatusActiveMotor Type - StepperBipolarFunctionDriver - Fully Integrated, Control and Power StageOutput ConfigurationHalf Bridge (4)InterfaceSPITechnologyDMOSStep Resolution1 ~ 1/16ApplicationsGeneral PurposeCurrent - Output3AVoltage - Supply3.3V, 5VVoltage - Load8V ~ 45VOperating Temperature-40°C ~ 150°C (TJ)Mounting TypeSurface MountPackage / Case28-TSSOP (0.173", 4.40mm Width) Exposed PadSupplier Device Package28-HTSSOPBase Product NumberL6472 L6472HTR 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. L6472HTR FAQWhat is a microstepping driver?Microstepping is driving a stepper motor at less the one full step per movement. Under usual operating conditions, a stepper motor operates by turning one full step with every pulse of current. A microstepping drive does not send a full pulse of current to the stepper motor to make it move. What is the motor driver?Motor drivers acts as an interface between the motors and the control circuits. So the function of motor drivers is to take a low-current control signal and then turn it into a higher-current signal that can drive a motor. What is the difference between a motor driver and a motor controller?Motor Driver VS Motor ControllerThe main difference between a motor controller and a motor driver is, the motor controller is responsible for the controlling speed, torque, the direction of the motor whereas a motor driver is responsible to provide enough electrical power to the motor as per requirement. 
Kynix On 2022-01-06   168
Integrated Circuits (ICs)

VIPER26HD PMIC - AC DC Converters: Block Diagram, Datasheet, Features [Video&FAQ]

Catalog Product Overview VIPER26HD Related Video Introduction VIPER26HD Pin Configuration VIPER26HD Block Diagram VIPER26HD Test Circuits VIPER26HD Features VIPER26HD Applications VIPER26HD Datasheet VIPER26HD Specifications VIPER26HD Manufacturer Using Warning VIPER26HD FAQ   Product Overview The VIPER26 device is a smart high voltage converter that integrates an 800 V avalanche-rugged power MOSFET with PWM current mode control. The power MOSFET with 800 V breakdown voltage allows an extended input voltage range to be applied, as well as the size of the DRAIN snubber circuit to be reduced.    This IC meets the most stringent energy-saving standards with very low consumption and burst mode operation under light load.   The design of flyback, buck and buck boost converters is supported. The integrated HV startup, sense-FET, error amplifier and oscillator with jitter allow complete application designs with a minimum number of components.   VIPER26HD Related Video Introduction VIPER26HD Video Description: In the modern era, almost every household electronics works on Direct Current(DC) but we get Alternating Current(AC) from power generation plants via transmission lines becuase AC can be transmistted more efficiently than DC in lower cost. So every appliance which works on DC has and AC to DC converter circuit. In this video, we will discuss traditional Transformer based design which use simple diodes and capacitor to convert the Alternating current into Direct Current and an optional voltage regulator to regulate the output DC voltage. The project will be an AC-DC converter using Transformer with an input voltage of 230V and output of 12V.   VIPER26HD Pin Configuration Figure: VIPER26HD Pin Configuration Pin Description   VIPER26HD Block Diagram Figure: VIPER26HD Block Diagram   VIPER26HD Test Circuits Figure: Buck converter (VOUT>VDDCSon)       Figure: Flyback converter (isolated)       Figure: Flyback converter (primary regulation)       Figure: Flyback converter (non isolated, VOUT ≥ VDDCSon)     Figure: Flyback converter (non isolated, VOUT < VDDCSon)   VIPER26HD Features 800 V avalanche rugged power MOSFET allowing wide range VACinput rangeto be coveredEmbedded HV startup and sense-FETCurrent mode PWM controllerMinimized system input power consumption: – Less than 30 mW @ 230 VAC in no-load condition – Less than 400 mW @ 230 VAC with 250 mW load Limiting current with adjustable set pointJittered switching frequency to reduce the EMI filter cost: – 60 kHz ±4 kHz (L type) – 115 kHz ±8 kHz (H type) Embedded error amplifierHysteretic thermal shutdownBuilt-in soft-start for improved system reliabilityProtections with automatic restart: overload/short-circuit (OLP),feedback loopdisconnection   VIPER26HD Applications Auxiliary power supply for appliancesPower meteringLED driversSMPS for set-top boxes, DVD players and recorders   VIPER26HD Datasheet You can download the datasheet from the link given below: VIPER26HD Datasheet   VIPER26HD Specifications Product AttributeAttribute ValueManufacturer:STMicroelectronicsProduct Category:AC/DC ConvertersMounting Style:SMD/SMTPackage / Case:SOIC-Narrow-16Output Voltage:800 VOutput Power:18 WInput / Supply Voltage - Min:11.5 VInput / Supply Voltage - Max:23.5 VSwitching Frequency:115 kHzDuty Cycle - Max:80%Operating Supply Current:3.5 mAOperating Temperature:-40°C ~ 150°C (TJ)Series:VIPER26Packaging:TubeBrand:STMicroelectronicsMoisture Sensitive:YesNumber of Outputs:1 OutputProduct Type:AC/DC ConvertersSubcategory:PMIC - Power Management ICsTradename:VIPerPlusType:Fixed FrequencyUnit Weight:0.019312 oz   VIPER26HD Manufacturer STMicroelectronics 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 Warning Note: Please check their parameters and pin configuration before replacing them in your circuit.   VIPER26HD FAQ What is PMIC - AC DC Converter? Products in this family are component-level control devices used to construct equipment that converts AC utility power to a DC form, typically at a much reduced voltage.   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.   What are AC-DC Converters? AC-DC converters take the AC power from wall outlets and convert it to unregulated DC. These power supplies include transformers that change the voltage of the AC that comes through wall outlets, rectifiers to save it from AC to DC and a filter that removes noise from the peaks and troths of the AC power waves.  
Kynix On 2022-01-05   329
Integrated Circuits (ICs)

TLC555QDRQ1 Programmable Timers and Oscillators: CAD Models, Datasheet, Features [Video&FAQ]

CatalogProduct OverviewTLC555QDRQ1 Related Video IntroductionTLC555QDRQ1 CAD ModelsTLC555QDRQ1 Pin ConfigurationTLC555QDRQ1 Block DiagramTLC555QDRQ1 FeaturesTLC555QDRQ1 ApplicationsTLC555QDRQ1 DatasheetTLC555QDRQ1 SpecificationsTLC555QDRQ1 ManufacturerUsing WarningTLC555QDRQ1 FAQ Product OverviewThe TLC555-Q1 is a monolithic timing circuit fabricated using the TI LinCMOS TM process. The timer is fully compatible with CMOS,  TTL, and MOS logic and operates at frequencies up to 2 MHz. Because of its high input impedance, this device uses smaller timing capacitors than those used by the NE555. As a result, more accurate time delays and oscillations are possible. Power consumption is low across the full range of power-supply voltage. Like the NE555, the TLC555-Q1 has a trigger level equal to approximately one-third of the supply voltage and a threshold level equal to approximately two-thirds of the supply voltage. These levels can be altered by use of the control voltage terminal (CONT). When the trigger input (TRIG) flling below the trigger level sets the fip-fop, and the output goes high. Having TRIG above the trigger level and the threshold input (THRES) above the threshold level resets the flip-flop, and the output is low. The reset input (RESET) can override all other inputs, and a possible use is to initiate a new timing cycle. RESET going low resets the flip-flop, and the output is low. Whenever the output is low, a low-impedance path exists between the discharge terminal (DISCH) and GND. Tie all unused inputs to an appropriate logic level to prevent false triggering. TLC555QDRQ1 Related Video IntroductionTLC555QDRQ1 Video Description: The 555 timer is probably the most common and popular IC to be used in hobby circuits. There are A LOT of projects out there using the 555 in various ways and it’s easy to find schematics to make a project that has already been proven. But rather than just taking plug and playing circuits with the 555 timer, Karen wants to give you the chance to understand the why of what’s happening when you use the 555 timer. In this episode, Karen breaks down what is happening inside the 555 that makes it function. Learn how the inputs interact with the supply voltage to trigger and reset the output high and low. Find out which pins can be used to adjust the threshold at which that change happens. TLC555QDRQ1 CAD ModelsFigure: TLC555QDRQ1 PCB Symbol   Figure: TLC555QDRQ1 Footprint   Figure: TLC555QDRQ1 3D Models TLC555QDRQ1 Pin ConfigurationFigure: TLC555QDRQ1 Pin Configuration TLC555QDRQ1 Block DiagramFigure: TLC555QDRQ1 Block Diagram TLC555QDRQ1 FeaturesQualifed for Automotive ApplicationsVery Low Power Consumption- 1 mW (Typical) at VDD= 5 VCapable of Operation in Astable ModeCMOSOutput Capable of Swinging Rail to RailHigh-Output-Current Capability- Sink 100 mA (Typical)- Source 10 mA (Typical)Output Fully Compatible With CMOS, TTL, andMOSLow Supply Current Reduces Spikes DuringOutput TransitionsSingle- Supply Operation From2V to 15 VFunctionally Interchangeable With the NE555;Has Same Pinout TLC555QDRQ1 ApplicationsPrecision TimingPulse GenerationSequential TimingTime Delay GenerationPulse Width ModulationPulse Position ModulationLinear Ramp GeneratorsAutomotive Lamp/LED LightingTelematics TLC555QDRQ1 DatasheetYou can download the datasheet from the link given below:TLC555QDRQ1 Datasheet TLC555QDRQ1 SpecificationsProduct AttributeAttribute ValueManufacturer:Texas InstrumentsProduct Category:Timers & Support ProductsSeries:TLC555-Q1Type:StandardNumber of Internal Timers:1 TimerSupply Voltage - Max:15 VSupply Voltage - Min:2 VOperating Temperature:-40°C ~ 125°CMounting Style:SMD/SMTPackage / Case:SOIC-8Qualification:AEC-Q100Brand:Texas InstrumentsHeight:1.58 mmHigh Level Output Current:100 mALength:4.9 mmLow Level Output Current:- 10 mAOperating Supply Current:170 uAPd - Power Dissipation:725 mWProduct Type:Timers & Support ProductsSubcategory:Clock & Timer ICsWidth:3.91 mmUnit Weight:0.002561 oz TLC555QDRQ1 ManufacturerTexas Instruments Incorporated (TI) is an American technology company headquartered in Dallas, Texas, that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. It is one of the top 10 semiconductor companies worldwide based on sales volume.The company's focus is on developing analog chips and embedded processors, which account for more than 80% of its revenue.TI also produces TI digital light processing technology and education technology products including calculators, microcontrollers and multi-core processors. The company holds 45,000 patents worldwide as of 2016. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. TLC555QDRQ1 FAQWhat is a Programmable Timer?The Programmable Timer is used for measurement, display and control in applications that have variables. Programmable timers are usually electronic and use digital displays, precise digital set-ability, high accuracy, and fast reset times. How many types of timers are there?Timers can be categorized into two main types. A timer that counts upwards from zero for measuring elapsed time is often called a stopwatch, while a device which counts down from a specified time interval is more usually called a timer. A simple example of this type is an hourglass. What is programmable oscillator?Products in the programmable oscillator family are devices used as frequency or time reference sources, but which produce an output that is pre-configured or user configurable over a relatively wide range of frequency. 
Kynix On 2022-01-05   374

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