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Integrated Circuits (ICs)

TB6600 Stepper Motor Driver Module: Pinout, Features, and Equivalents[FAQ&Video]

TB6600 DescriptionVideo Related to the TB6600TB6600 PinoutTB6600 DimensionTB6600 FeaturesTB6600 EquivalentsConnecting TB6600 with a MCU/MPUTB6600 ApplicationsTB6600 FAQ TB6600 DescriptionTB6600 Stepper motor driver is a cheap and effective device which provides microstepping ability to a stepper motor. It is suitable for driving 2 phase and 4 phase hybrid stepper motors. The motor driver compatible with any microcontroller providing a 5V signal. Video Related to the TB6600Video Description: In this video I show you how to connect the TB6600 stepper motor controller to an Arduino and a 4-wire stepper motor. With this setup you will be able to control your stepper motor with the AccelStepper library. TB6600 PinoutTB6600 Pinout TB6600 DimensionTB6600 Dimension TB6600 FeaturesOperating voltage: 9-40V DCOutput Current: 0.7-4.0APulse input frequency up to 20kHz5V levels input signal200-6400 pulse per revolutionLogic signal current: 8-15mAOutput current selectable in 8-steps via DIP switchesSuitable for 2 and 4 phase motorsOver current and over heat protectionInputs are optically isolated TB6600 EquivalentsMKS-LV8729-OCTB67S109DRV8825A4988TMC2208 Connecting TB6600 with a MCU/MPUIt is simple to connect the TB6600 motor driver module to a stepper motor and a microcontroller. All you would require is a 9-40V power supply unit and a few jumper wires.The high voltage and the signal are the two parts of the motor driver, as seen in the illustration. The stepper motor and power supply are wired for the high voltage portion, while the module is connected to the MCU or MPU for the signal portion. The MCU/5V MPU's supply is attached to the shorted and connected PUL(+5V), DIR(+5V), and (ENA+5V) pins. The ENA- pin must be left floating while the DIR- and PUL- pins must be linked to the MCU/digital MPU's pins. Once you have identified the stepper's associated coil wires, you can attach it to Ports A and B. Finally, connect the motor driver's GND and VCC pins to a power supply unit. TB6600 ApplicationsUsed for positioning stepper motorsUsed in CNC machinesUsed in 3D printersUsed in antennas TB6600 FAQWhat is TB6600?A professional stepper motor driver that is simple to use and capable of controlling a two-phase stepping motor is the TB6600 Arduino. It can emit a 5V digital pulse signal, therefore it works with Arduino and other microcontrollers that can. The 9–42VDC power supply of the TB6600 Arduino stepper motor driver allows for a wide range of power input. What does NEMA 23 mean?Stepper motor NEMA 23 has a faceplate measuring 2.3 by 2.3 inches (58.4 by 58.5 mm) with a 1.8 degree step angle (200 steps per revolution). With 2.8 A at 3.2 V for each phase, a holding torque of 19 kg-cm is possible. Hard drives, printers, CNC machines, and linear actuators all commonly employ NEMA 23 stepper motors. what can TB6600 be used for?An easy-to-use professional stepper motor driver that can manage a two-phase stepping motor is the TB6600 Arduino. It can output a 5V digital pulse signal, making it compatible with Arduino and other microcontrollers. 
kynix On 2022-08-22   2536
Integrated Circuits (ICs)

MC908QY4CPE: CAD Models, Datasheet, Features [Video]

CatalogMC908QY4CPE Product OverviewMC908QY4CPE Related Video IntroductionMC908QY4CPE CAD ModelsMC908QY4CPE Pin ConfigurationMC908QY4CPE Block DiagramMC908QY4CPE FeaturesMC908QY4CPE ApplicationsMC908QY4CPE DatasheetMC908QY4CPE Package OutlineMC908QY4CPE ManufacturerUsing Warning MC908QY4CPE Product OverviewThe 8-bit M68HC08 Family of low-cost, high-performance microcontrollers includes the MC908QY4CPE (MCUs). The upgraded M68HC08 central processing unit (CPU08) is used by all MCUs in the family, and a range of modules, memory sizes and kinds, and package options are available. MC908QY4CPE Related Video IntroductionVideo Description: This video describes what a microcontroller is, what it is made of, and how it functions. This video serves as an introduction to microcontrollers by quickly addressing each of the key components, beginning with hardware and finishing with software. MC908QY4CPE CAD ModelsThe following figures are MC908QY4CPE Symbol, Footprint and 3D Model.  Figure: PCB Symbol  Figure: Footprint   Figure: 3D Models MC908QY4CPE Pin ConfigurationThe following figure is MC908QY4CPE Pin Configuration.  Figure: Pin Configuration Pin NameDescriptionVDDPower supplyVSSPower supply groundPTA0PTA0 — General purpose I/O portTCH0 — Timer Channel 0 I/OAD0 — A/D channel 0 inputKBI0 — Keyboard interrupt input 0PTA1PTA1 — General purpose I/O portTCH1 — Timer Channel 1 I/OAD1 — A/D channel 1 inputKBI1 — Keyboard interrupt input 1PTA2PTA2 — General purpose input-only portIRQ — External interrupt with programmable pullup and Schmitt trigger inputKBI2 — Keyboard interrupt input 2TCLK — Timer clock inputPTA3PTA3 — General purpose I/O portRST — Reset input, active low with internal pullup and Schmitt triggerKBI3 — Keyboard interrupt input 3PTA4PTA4 — General purpose I/O portOSC2 —XTAL oscillator output (XTAL option only)RC or internal oscillator output (OSC2EN = 1 in PTAPUE register)AD2 — A/D channel 2 inputKBI4 — Keyboard interrupt input 4PTA5PTA5 — General purpose I/O portOSC1 — XTAL, RC, or external oscillator inputAD3 — A/D channel 3 inputKBI5 — Keyboard interrupt input 5PTB0(1)PTB0 — General-purpose I/O portAD4 — A/D channel 4 inputPTB1(1)PTB1 — General-purpose I/O portAD5 — A/D channel 5 inputPTB2-PTB7(1)6 General-purpose I/O portMC908QY4CPE Block DiagramThe following figure is MC908QY4CPE Block Diagram.  Figure: Block Diagram MC908QY4CPE FeaturesHigh-performance M68HC08 CPU coreFully upward-compatible object code with M68HC05 Family5-V and 3-V operating voltages (VDD)8-MHz internal bus operation at 5 V, 4-MHz at 3 VTrimmable internal oscillator– Software selectable 1 MHz, 2 MHz, or 3.2 MHz internal bus operation– 8-bit trim capability– ±25% untrimmed– Trimmable to approximately 0.4%(1)Software selectable crystal oscillator range, 32–100 kHz, 1–8 MHz and 8–32 MHzSoftware configurable input clock from either internal or external sourceAuto wakeup from STOP capability using dedicated internal 32-kHz RC or bus clock sourceOn-chip in-application programmable FLASH memory– Internal program/erase voltage generation– Monitor ROM containing user callable program/erase routines– FLASH securityOn-chip random-access memory (RAM)2-channel, 16-bit timer interface (TIM) module6-channel, 10-bit analog-to-digital converter (ADC) with internal bandgap reference channel(ADC10)Up to 13 bidirectional input/output (I/O) lines and one input only:– Six shared with KBI– Six shared with ADC– Two shared with TIM– One input only shared with IRQ– High current sink/source capability on all port pins– Selectable pullups on all ports, selectable on an individual bit basis– Three-state ability on all port pins6-bit keyboard interrupt with wakeup feature (KBI)– Programmable for rising/falling or high/low level detectLow-voltage inhibit (LVI) module features:– Software selectable trip pointSystem protection features:– Computer operating properly (COP) watchdog– Low-voltage detection with reset– Illegal opcode detection with reset– Illegal address detection with resetExternal asynchronous interrupt pin with internal pullup (IRQ) shared with general-purpose input pinMaster asynchronous reset pin with internal pullup (RST) shared with general-purpose input/output (I/O) pinMemory mapped I/O registersPower saving stop and wait modes MC908QY4CPE ApplicationsAutomobile engine control systemsImplantable medical devicesRemote controlsOffice machinesAppliances MC908QY4CPE DatasheetYou can download the datasheet from the link given below: MC908QY4CPE Datasheet MC908QY4CPE Package OutlineThe following figure is MC908QY4CPE Package Outline.  Figure: Package Outline MC908QY4CPE ManufacturerNXP Semiconductors develops solutions that make life simpler, better, and safer while enabling secure connectivity and infrastructure for a smarter future. NXP is promoting innovation in the secure connected car, end-to-end security & privacy, and smart connected solutions markets as the global leader in secure connectivity solutions for embedded applications. The organization, which has 45,000 employees across more than 35 nations, is built on more than 60 years of combined knowledge and expertise. NXP Semiconductor has purchased Freescale Semiconductor. Parts from Freescale Semiconductor are now included in the NXP family. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. 
kynix On 2022-10-28   2439
Integrated Circuits (ICs)

FQP27P06 Mosfet: Datasheet, Equivalents, Circuit [FAQ]

Product OverviewThe FQP27P06 is a through hole, -60V P channel QFET MOSFET in TO-220 package. This device feature planar stripe and DMOS technology which has been tailored to minimize the onstate resistance and provide superior switching performance and high avalanche energy strength. It is suitable for switched mode power supply, audio amplifier, DC motor control and variable switching power applications. This blog will introduce FQP27P06 systematically from its features, pinout to its specifications, applications, also including FQP27P06 datasheet and so much more. CatalogProduct OverviewFQP27P06 FeaturesFQP27P06 PinoutFQP27P06 ApplicationsFQP27P06 EquivalentsFQP27P06 CAD ModelsFQP27P06 Circuit DiagramFQP27P06 SpecificationFQP27P06 ManufacturerFQP27P06 DatasheetUsing WarningsFQP27P06 FAQ FQP27P06 Features-27A, -60V, RDS(on) = 0.07Ω @VGS = -10 VLow gate charge ( typical 33 nC)Low Crss ( typical 120 pF)Fast switching100% avalanche testedImproved dv/dt capability175°C maximum junction temperature rating FQP27P06 PinoutThe following figure is the diagram of FQP27P06 pinout. FQP27P06 Pinout FQP27P06 ApplicationsOther Audio & Video FQP27P06 EquivalentsFQP10N20, FQP1 ON20C, FQP1 0N50CF, FQP10N60, FQP1 0N60C FQP27P06 CAD ModelsFollowings are FQP27P06 Symbol, Footprint, and 3D Model. FQP27P06 Symbol FQP27P06 Footprint FQP27P06 3D Model FQP27P06 Circuit DiagramFollowing are the testing circuit diagrams of FQP27P06. Gate Charge Test Circuit & Waveform Resistive Switching Test Circuit & Waveforms Unclamped Inductive Switching Test Circuit & Waveforms Peak Diode Recovery dv/dt Test Circuit & Waveforms FQP27P06 SpecificationAttributeValueChannel TypePMaximum Continuous Drain Current27 AMaximum Drain Source Voltage60 VPackage TypeTO-220ABMounting TypeThrough HolePin Count3Maximum Drain Source Resistance70 mΩChannel ModeEnhancementMaximum Gate Threshold Voltage4VMinimum Gate Threshold Voltage2VMaximum Power Dissipation120 WTransistor ConfigurationSingleMaximum Gate Source Voltage-25 V, +25 VNumber of Elements per Chip1Height9.4mmTypical Gate Charge @ Vgs33 nC @ 10 VWidth4.7mmLength10.1mmMaximum Operating Temperature+175 °CTransistor MaterialSiMinimum Operating Temperature-55 °CSeriesQFET FQP27P06 ManufacturerON Semiconductor is a Fortune 500 company driving energy efficient innovations, empowering customers to reduce global energy use. The company is a leading supplier of semiconductor-based solutions, offering a comprehensive portfolio of energy efficient power and signal management, logic, standard and custom devices. The company’s products help engineers solve their unique design challenges in automotive, communications, computing, consumer, industrial, medical and military/aerospace applications. FQP27P06 DatasheetYou can download this datasheet for FQP27P06–Datasheet from the link given below:FQP27P06 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. FQP27P06 FAQHow is a p channel MOSFET connected to ground?P channel MOSFET. N channel – For an N channel MOSFET, the source is connected to ground. If we want to let current flow, we can easily raise the voltage on the gate allowing current to flow. If no current is to flow, the gate pin should be grounded. Why does the MOSFET need to be high current?Gate-Source Capacitance – There is also a capacitance on the Gate-Source pins which prevents the MOSFET from switching states quickly. In order to quickly change voltage on internal capacitance, the MOSFET driver needs to be high current. It needs to actively charge (source) and discharge (sink) the capacitor too (for N channel). When to use n channel vs n channel MOSFET?When there is a large Gate-Source potential difference, the Drain-Source resistance is very low and may be thought of as a closed switch — current may flow through the Drain-Source pins. N channel – For an N channel MOSFET, the source is connected to ground. What package does the FQP27P06 come with?TO-220 What features does the FQP27P06 feature?Planar stripe and DMOS technology
kynix On 2022-03-23   2426
Integrated Circuits (ICs)

LSK389 JFET: Datasheet, Application Note, Pinout [FAQ]

Product OverviewThe LSK389 is the industry’s lowest noise Dual NChannel JFET, 100% tested, guaranteed to meet 1/f and broadband noise specifications, while eliminating burst (RTN or popcorn) noise entirely. The LSK389 Series, Monolithic Dual N-Channel JFETs were specifically designed to provide users a better performing, less time consuming and cheaper solution for obtaining tighter IDSS matching, and better thermal tracking, than matching individual JFETs. This blog will introduce LSK389 systematically from its features, pinout to its specifications, applications, also including LSK389 datasheet and so much more. CatalogProduct OverviewLSK389 FeaturesLSK389 PinoutLSK389 BenefitsLSK389 ApplicationsLSK389 Typical CharacteristicsLSK389 Package DimensionsLSK389A SpecificationLSK389 vs LSK489LSK389 ManufacturerLSK389 Application Note and DatasheetUsing WarningsLSK389 FAQ LSK389 FeaturesUltra Low Noise: en = 1.3nV/√Hz(typ), f = 1.0kHz and NBW = 1.0HzUltra Low Noise: 1.5nV/√Hz (typ),f = 10Hz and NBW = 1.0HzTight Matching:IVGS1-2I = 15mV maxHigh Breakdown Voltage:BVGSS = 40V maxHigh Gain: Gfs = 20mS (typ)Low Capacitance: 25pF (typ)Improved Second SourceReplacement for 2SK389 LSK389 PinoutThe following figure is the diagram of LSK389 pinout. LSK389 Pinout1 LSK389 Pinout2 LSK389 BenefitsImproved System Noise PerformanceUnique Monolithic Dual DesignConstruction of Interleaving BothJFETs on the Same Piece of SiliconExcellent Matching and ThermalTrackingGreat for Maximizing BatteryOperated Applications by Providing aWide Output SwingA High Signal to Noise Ratio as aResult of the LSK389's Low andTightly Matched Gate Threshold Voltages LSK389 ApplicationsAudio Amplifiers and PreampsDiscrete Low-Noise OperationalAmplifiersBattery-Operated Audio PreampsAudio Mixer ConsolesAcoustic SensorsSonic ImagingInstrumentation AmplifiersMicrophonesSonobouysHydrophonesChemical and Radiation Detectors LSK389 Typical CharacteristicsThe following figures are typical characteristics LSK389A/B/C/D. LSK389A LSK389B LSK389C LSK389D LSK389 Package DimensionsThe following figure is LSK389 package dimensions. LSK389 Package Dimensions LSK389A SpecificationTYPEDESCRIPTIONCategoryTransistors - JFETsMfrLinear Integrated Systems, Inc.SeriesLSK389PackageBulkPart StatusActiveFET Type2 N-Channel (Dual)Voltage - Breakdown (V(BR)GSS)40 VInput Capacitance (Ciss) (Max) @ Vds25pF @ 10VPower - Max400 mWOperating Temperature-55C ~ 150C (TJ)Mounting TypeThrough HolePackage / CaseTO-71-6 Metal CanSupplier Device PackageTO-71 LSK389 vs LSK489The LSK389 is the lead part of Linear Systems’ family of low-noise JFETs. The LSK170 is the N-channel single version of the LSK389, and the LSJ74 is the P-channel counterpart to the LSK170. The N-channel dual LSK489 has slightly higher noise but lower input capacitance than the LSK389, and the LSJ689 is its P-channel dual counterpart. In addition to the LSK-series, all Linear Systems’ JFET standard products have substantially lower noise than those made by other manufacturers and are marketed under the Improved Standard Products trademark. LSK389 ManufacturerLinear Systems is a full-service, privately-held, 32-year-old designer and manufacturer of small-signal discrete semiconductors. The Fremont, CA-based company was founded by John H. Hall, co-founder of Intersil and founder of Micro Power Systems. Linear Systems specializes in the development and manufacture of precision, ultra-low noise small-signal discrete components. LSK389 Application Note and DatasheetYou can download PDF for LSK389–Application Note&Datasheet from the link given below:LSK389 Application NoteLSK389 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. LSK389 FAQWhat kind of JFET is linear systems LSK389?The LSK389 is the lead part of Linear Systems’ family of low-noise JFETs. The LSK170 is the N-channel single version of the LSK389, and the LSJ74 is the P-channel counterpart to the LSK170. What are the noise specifications for linear systems LSK389?New test capability screens to a billionth of a ​volt (​nV​/√Hz) of noise now ensures that all LSK389s devices produce no burst (RTN or popcorn) noise and ​meet or exceed 1/f and broadband noise specifications. What is N channel JFET?A schematic representation of an n channel JFET is shown in Figure 118. An n-type channel is formed between two p-type layers which are connected to the gate. Majority carrier electrons flow from the source and exit the drain, forming the drain current. What is the current direction of P-channel JFET?The current flows out of the drain terminal, yielding a negative current with respect to conventional current direction (drain to source was defined as the positive direction). The threshold voltage of a p-channel JFET is positive and the channel is depleted when vGS > VP. What is the working principle of JFET?JFET is a voltage-controlled device as it is controlled by use of a reverse bias voltage to the gate terminal. The channel gets drained and the electric current becomes switched off. A Junction Field Effect Transistor is usually said to be on when there is no voltage between the gate and the source pin. What is the LSK389?The LSK389 is the industry's lowest noise Dual N-. Channel JFET. What is the N-channel single version of the LSK389?LSK170
kynix On 2022-03-01   2406
Integrated Circuits (ICs)

TSOP4838 IR Receiver Modules: Circuit, Datasheet and CAD Models [Video & FAQ]

 Video about TSOP4838 CatalogDescriptionCAD ModelsBlock DiagramApplication CircuitFeaturesSuitable Data FormatDatasheetProduct AttributesManufacturerUsing Warning Frequently Asked QuestionsDescriptionThe TSOP22.., TSOP48.., TSOP24.. and TSOP44.. series are miniaturized IR receiver modules for infrared remote control systems. A PIN diode and a preamplifier are assembled on lead frame, the epoxy package contains an IR filter. The demodulated output signal can be directly connected to a microprocessor for decoding. The TSOP24.., TSOP44.. series devices are optimized to suppress almost all spurious pulses from Wi-Fi and CFL sources. They may suppress some data signals if continuously transmitted. The TSOP22.., TSOP48.. series devices are provided primarily for compatibility with old AGC2 designs. New designs should prefer the TSOP24.., TSOP44.. series containing the newer AGC4. These components have not been qualified according to automotive specifications. CAD Models Figure: TSOP4838 Part Symbol  Figure: TSOP4838 Footprint  Figure: TSOP4838 3D Model Block Diagram Figure: TSOP4838 Block Diagram Application Circuit Figure: TSOP4838 Application Circuit FeaturesImproved immunity against HF and RF noiseLow supply currentPhoto detector and preamplifier in one packageInternal filter for PCM frequencySupply voltage: 2.5 V to 5.5 VImproved immunity against optical noiseInsensitive to supply voltage ripple and rnoise Suitable Data FormatThis series is designed to suppress spurious output pulses due to noise or disturbance signals. The devices can distinguish data signals from noise due to differences in frequency, burst length, and envelope duty cycle. The data signal should be close to the device’s band-pass center frequency (e.g. 38 kHz) and fulfill the conditions in the table below. When a data signal is applied to the product in the presence of a disturbance, the sensitivity of the receiver is automatically reduced by the AGC to insure that no spurious pulses are present at the receiver’s output. Some examples which are suppressed are:DC light (e.g. from tungsten bulbs sunlight)Continuous signals at any frequencyStrongly or weakly modulated patterns from fluorescentlamps with electronic ballasts2.4 GHz and 5 GHz Wi-Fi DatasheetTSOP4838-Datasheet Product AttributesPhysicalCase/PackageQFNMountSurface MountNumber of Pins24 TechnicalAmbient Temperature Range High85 °CData Rate480 MbpsESD ProtectionYesInterfaceI2C, SMBus, USBMax Operating Temperature85 °CMax Supply Voltage3.6 VManufacturer Package Identifier24-S4QFN-4x4B-0.5PMin Operating Temperature-40 °CMin Supply Voltage3 VNumber of Channels2Number of Ports2Number of Transceivers1Operating Supply Current70 mAOperating Supply Voltage3.3 VPackagingCut TapeSchedule B8542310000USB StandardUSB 2.0 DimensionsHeight950 µmLength4.1 mmWidth4.1 mm ComplianceLead FreeLead FreeRadiation HardeningNoREACH SVHCNo SVHCRoHSCompliantManufacturerVishay 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. Frequently Asked QuestionsWhat is IR transmitter and receiver?IR Transmitter and IR Receiver are commonly used to control electronic devices wirelessly, mainly through a remote. TV remotes and AC remotes are the best example of IR transmitters. TV generally consists of TSOP1738 as the IR receiver, which senses modulated IR pulses and convert them into electrical signal. What is TSOP sensor?Description: The TSOP Sensor is a miniaturized receiver for infrared remote control systems. PIN diode and pre amplifier are assembled on lead frame and the epoxy package is designed as IR filter. The demodulated output signal can directly be decoded by a microprocessor. How do I connect TSOP with Arduino?Circuit Diagram.Connect the VCC pin of the TSOP sensor module to the 5-volt pin of the Arduino and GND of the TSOP sensor module to the GND pin of the Arduino. Attach the data pin of the TSOP sensor module to the digital 12 pin of the Arduino. Your receiver circuit is ready. Now upload the Arduino code given below.
kynix On 2022-04-12   2393
Integrated Circuits (ICs)

TPA3116D2DADR Audio Amplifier: Datasheet, Schematic, Pinout [Video&FAQ]

Product Overview The TPA31xxD2 series are stereo efficient, digital amplifier power stage for drivingspeakers up to 100 W / 2 Ω in mono. The high efficiency of the TPA3130D2 allows it to do 2 × 15 Wwithout external heat sink on a single layer PCB. The TPA3118D2 can even run 2 × 30 W / 8 Ω withoutheat sink on a dual layer PCB. If even higher power is needed the TPA3116D2 does 2 × 50 W / 4 Ωwith a small heat-sink attached to its top side PowerPAD. All three devices share the samefootprint enabling a single PCB to be used across different power levels.   This blog will introduce TPA3116D2DADR systematically from its features, pinout to its specifications, applications, also including TPA3116D2DADR datasheet and so much more.   Video: DIY Class D Audio Amplifier   Catalog Product Overview TPA3116D2DADR Features TPA3116D2DADR Pinout TPA3116D2DADR Applications TPA3116D2DADR Application Circuit TPA3116D2DADR CAD Models TPA3116D2DADR Schematic TPA3116D2DADR Specification TPA3116D2DADR Manufacturer TPA3116D2DADR Datasheet Using Warnings TPA3116D2DADR FAQ   TPA3116D2DADR Features Supports Multiple Output Configurations     2 × 50 W Into a 4-Ω BTL Load at 21 V (TPA3116D2)     2 × 30 W Into a 8-Ω BTL Load at 24 V (TPA3118D2)     2 × 15 WInto a 8-Ω BTL Load at 15 V (TPA3130D2) Wide Voltage Range: 4.5 V to 26 VEfficient Class-D Operation     >90% Power Efficiency Combined With Low Idle Loss Greatly Reduces Heat SinkSize     Advanced Modulation Schemes Multiple Switching Frequencies     AM Avoidance     Master and SlaveSynchronization     Up to 1.2-MHz Switching Frequency Feedback Power-Stage Architecture With High PSRR Reduces PSU RequirementsProgrammable Power LimitDifferential and Single-Ended InputsStereo and Mono Mode With Single-Filter Mono ConfigurationSingle Power Supply Reduces Component CountIntegrated Self-Protection Circuits Including Overvoltage, Undervoltage, Overtemperature, DC-Detect, and Short Circuit With Error ReportingThermally Enhanced Packages     DAD (32-Pin HTSSOP Pad Up)     DAP (32-Pin HTSSOP PadDown) –40°C to 85°C Ambient Temperature Range   TPA3116D2DADR Pinout The following figure is the diagram of TPA3116D2DADR pinout.   TPA3116D2DADR Pinout   TPA3116D2DADR Applications Mini-Micro Component, Speaker Bar, DocksAfter-Market AutomotiveCRT TVConsumer Audio Applications   TPA3116D2DADR Application Circuit The following is the circuit diagram of TPA3116D2DADR.   TPA3116D2DADR Circuit Diagram   TPA3116D2DADR CAD Models The followings are TPA3116D2DADR Symbol, Footprint, and 3D Model.   TPA3116D2DADR Symbol   TPA3116D2DADR Footprint   TPA3116D2DADR 3D Model   TPA3116D2DADR Schematic U1 TPA3116D2 in Master mode 400 kHz, BTL, gain if 20 dB, power limit not implemented. U2 in Slave, PBTL mode gain of 20dB. Inputs are connected for differential inputs.   TPA3116D2DADR Typical Application   TPA3116D2DADR Specification TYPEDESCRIPTIONCategoryLinear - Amplifiers - AudioMfrTexas InstrumentsPart StatusActiveTypeClass DOutput Type2-Channel (Stereo)Max Output Power x Channels @ Load50W x 2 @ 4OhmVoltage - Supply4.5V ~ 26VFeaturesDifferential Inputs, Mute, Short-Circuit and Thermal Protection, ShutdownMounting TypeSurface MountOperating Temperature-40°C ~ 85°C (TA)Supplier Device Package32-HTSSOPPackage / Case32-TSSOP (0.240", 6.10mm Width) Exposed PadBase Product NumberTPA3116   TPA3116D2DADR Manufacturer Texas 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.   TPA3116D2DADR Datasheet You can download this datasheet for TPA3116D2DADR Datasheet from the link given below: TPA3116D2DADR Datasheet   Using Warnings Note: Please check their parameters and pin configuration before replacing them in your circuit.   TPA3116D2DADR FAQ What does an audio amplifier do? An amplifier is the device that turns the low voltage signals from your source equipment into a signal with enough gain to be used to power a pair of speakers.   What does audio amplifier mean? An audio power amplifier (or power amp) is an electronic amplifier that amplifies low-power electronic audio signals such as the signal from radio receiver or electric guitar pickup to a level that is high enough for driving loudspeakers or headphones.   What is audio amplifier IC? Audio amplifier ICs (integrated circuits) are devices used within electronic circuits for audio applications. Audio amplifiers increase, control and amplify the strength or amplitude of the signals. They are used to increase the sound and quality of the audio signal.
Kynix On 2021-10-22   2390

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