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TIP120 OverviewTIP122 OverviewTIP120 & TIP122: pinoutsTIP120 vs TIP122: applicationTIP120 vs TIP122:featuresTIP120 vs TIP122:internal schematic diagramsTIP120 vs TIP122:alternativesTIP120 vs TIP122: equivalentTIP120 & TIP122:packageHow to Safely Long Run TIP122 in a CircuitTIP120 & TIP122:datasheetTIP120 & TIP122:manafacturerFAQTIP120 Overview The TIP120 is an NPN Darlington Power Transistor. It can switch loads up to 60V with a peak current of 8A and a continuous current of 5A. This makes it suitable for medium and high-power electronics like controlling motors, solenoids, or high-power LEDs. TIP122 Overview TIP122 is an NPN Darlington transistor. Darlington transistor means there are two transistors in one package connected to increase gain at the output. TIP122 transistor has a lot of good features like 5A collector current, max emitter-base voltage is 5V, max collector dissipation is 65 watts, and minimum & maximum current gain is equal to 1000. This transistor is designed to use as a switch and for amplification purposes. TIP120 & TIP122: pinouts TIP120 and TIP122 share the same pinout picture, which is shown below.Pin NumberPin NameDescription1BaseControls the biasing of the transistor, Used to turn ON or OFF the transistor2CollectorCurrent flows in through collector, normally connected to load3EmitterCurrent Drains out through emitter, normally connected to ground TIP120 vs TIP122: applications TIP120 applicationCan be used to switch high current (up to 5A) loadsCan be used as medium Power switchesUsed where high amplification is neededSpeed control of MotorsInverter and other rectifier circuits TIP122 applicationAudio AmplifierAudio Amplifier StagesAudio PreamplifiersSwitching Loads Under 5A TIP120 vs TIP122:features TIP120 featuresNPN Medium-power Darlington TransistorHigh DC Current Gain (hFE), typically 1000Continuous Collector current (IC) is 5ACollector-Emitter voltage (VCE) is 60VCollector-Base voltage (VCB) is 60VEmitter Base Voltage (VBE) is 5VBase Current(IB) is 120mAThe peak load current is 8AAvailable in To-220 Package TIP122 featuresDarlington Medium-power NPN TransistorHigh DC Current Gain (hFE), typically 1000Continuous Collector current (IC) is 5ACollector-Emitter voltage (VCE) is 100 VCollector-Base voltage (VCB) is 100VEmitter Base Voltage (VBE) is 5VBase Current(IB) is 120mAAvailable in To-220 Package TIP120 vs TIP122:internal schematic diagrams TIP120 vs TIP122:alternatives TIP120 alternativesBC549, BC636, 2N2222A, BC547, 2N2219, 2N4401, 2N3904, BD139 TIP122 alternativesBC549, BC636, BC639, BC547, 2N2369, 2N3055, 2N3904, 2N3906, 2SC5200 TIP120 vs TIP122: equivalent TIP120 equivalentTIP127 (PNP), 2N5306, 2N6532, 2SD1415, 2SD2495, BDT63, BDW2, KSB601, KSD560, MJF6388 TIP122 equivalentTIP127 (PNP), 2N6045, 2N6532, 2SD1415, 2SD2495, BDT63, BDW2, KSB601, KSD560, MJF6388 TIP120 & TIP122:package How to Safely Long Run TIP122 in a Circuit To get better performance with this Darlington transistor we suggest always staying below its maximum ratings. Do not operate it in circuits using more than 100V. Do not provide a load of more than 5A. Always use a suitable base resistor to provide the required current at its base. Use a suitable heatsink to save it from overheating and store or use it in temperatures below -65 centigrade and above +150 centigrade. TIP120 & TIP122:datasheetTIP120 &TIP122 datasheet TIP120 & TIP122:manafacturer STMicroelectronics is a global independent semiconductor company and is a leader in developing and delivering semiconductor solutions across the spectrum of microelectronics applications. An unrivaled combination of silicon and system expertise, manufacturing strength, Intellectual Property (IP) portfolio, and strategic partners positions the Company at the forefront of System-on-Chip (SoC) technology, and its products play a crucial role in enabling today's convergence trends. FAQIs TIP120 NPN or PNP?-The TIP120 is an NPN Darlington Power Transistor. It can switch loads up to 60V with a peak current of 8A and a continuous current of 5A. How does a TIP120 transistor work?-TIP120 comes with a Darlington pair in which two transistors are connected in such a way, the current amplified by the one transistor is being amplified further by the other transistor. This configuration features a much higher current gain as compared to if each transistor is taken separately. What’s the complement of TIP122?-The complement of the TIP122 transistor is TIP127. What’s the TIP122 same family transistors?-NPN Family transistors are TIP120, TIP121, TIP122, and PNP Family are TIP125, TIP126, TIP127 (PNP). What is the Base-Emitter Voltage of TIP120 transistor?-5V.
kynix On 2023-08-26
TLC555CP DescriptionTLC555CP CAD ModelsTLC555CP Pinout and ConfigurationsTLC555CP ApplicationsTLC555CP ParametersTLC555CP FeaturesTLC555CP ManufacturerTLC555CP Block DiagramTLC555CP AlternativesTLC555CP vs LMC555CNTLC555CP DatasheetFAQ TLC555CP Description The 555 timer is a highly stable controller capable of producing accurate time delays or oscillation. The 555 can be used in countless applications and has three recognized operating modes. In monostable mode the 555 functions as a one-shot or pulse stretcher. Applications include timers, missing pulse detection, and bounce-free switches. In astable mode, the 555 can operate as an oscillator. Applications include LED and lamp flashers, pulse generation, logic clocks, tone generation, security alarms, and Pulse Width Modulation (PWM). In bistable mode, the 555 can operate as a flip-flop or changeover. Applications include bounce-free latched switches.The TLC555 is a monolithic timing circuit fabricated using the TI LinCMOSE 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. TLC555CP CAD ModelsSymbolFootprint3D Models TLC555CP Pinout and Configurations PINNumberNameDescription1GNDGround2THRESStart of timing input. TRIG < 1/2 CONT sets output high and discharge open.3OUTHigh current timer output signal.4RESETActive low reset input forces output and discharge low5CONTControls comparator thresholds. Outputs 2/3 VDD and allows bypass capacitor connection.6THRESEnd of timing input. THRES > CONT sets output low and discharges low.7DISCHOpen collector output to discharge timing capacitor.8VDDPower-supply voltage. TLC555CP Applications • Precision timing• Pulse generation• Sequential timing• Time delay generation• Pulse width modulation• Pulse position modulation• Linear ramp generator TLC555CP Parameters Product AttributeAttribute ValueManufacturer:Texas InstrumentsProduct Category:Timers & Support ProductsSeries:TLC555Type:StandardNumber of Internal Timers:1 TimerSupply Voltage - Max:15 VSupply Voltage - Min:2 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 125 CMounting Style:Through HolePackage / Case:PDIP-8Packaging:TubeBrand:Texas InstrumentsHeight:4.57 mmHigh Level Output Current:100 mALength:9.81 mmLow Level Output Current:- 10 mAOperating Supply Current:250 uAPd - Power Dissipation:1000 mWProduct Type:Timers & Support ProductsSubcategory:Clock & Timer ICsWidth:6.35 mm TLC555CP Features Very Low Power Consumption− 1 mW Typ at VDD = 5 VCapable of Operation in Astable ModeCMOS Output Capable of Swinging Rail to RailHigh Output-Current Capability− Sink 100 mA Typ− Source 10 mA TypOutput Fully Compatible With CMOS, TTL, and MOSLow Supply Current Reduces Spikes During Output TransitionsSingle-Supply Operation From 2V to 15VFunctionally Interchangeable With the NE555; Has Same PinoutESD Protection Exceeds 2000 V Per MIL-STD-883C, Method 3015.2Available in Q-Temp Automotive- High-Reliability Automotive Applications- Configuration Control/Print Support- Qualification to Automotive Standards TLC555CP Manufacturer Texas Instruments Inc. (TI) is an American technology company that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. Its headquarters are in Dallas, Texas, United States. TI is one of the top ten semiconductor companies worldwide, based on sales volume. Texas Instruments'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 (DLP) technology and education technology products including calculators, microcontrollers, and multi-core processors. TLC555CP Block Diagram TLC555CP Alternatives TLC555CP vs LMC555CN LMC555CNTLC555CPRohs CodeNoYesPart Life Cycle CodeTransferredActivePackage DescriptionDIP-8DIP, DIP8,.3Reach Compliance Codenot_compliantcompliantECCN CodeEAR99EAR99HTS Code8542.39.00.018542.39.00.01Analog IC - Other TypePULSE; RECTANGULARPULSE; RECTANGULARJESD-30 CodeR-PDIP-T8R-PDIP-T8JESD-609 Codee0e4Length9.817 mm9.81 mmMoisture Sensitivity Level1 Number of Functions11Number of Terminals88Operating Temperature-Max85 °C70 °COperating Temperature-Min-40 °C Output Frequency-Max3 MHz1.2 MHzPackage Body MaterialPLASTIC/EPOXYPLASTIC/EPOXYPackage CodeDIPDIPPackage Equivalence CodeDIP8,.3DIP8,.3Package ShapeRECTANGULARRECTANGULARPackage StyleIN-LINEIN-LINEPeak Reflow Temperature (Cel)260NOT SPECIFIEDPower Supplies5 V5 VQualification StatusNot QualifiedNot QualifiedSeated Height-Max5.08 mm5.08 mmSupply Voltage-Max (Vsup)12 V15 VSupply Voltage-Min (Vsup)1.5 V2 VSupply Voltage-Nom (Vsup)5 V5 VSurface MountNONOTechnologyCMOSCMOSTemperature GradeINDUSTRIALCOMMERCIALTerminal FinishTin/Lead (Sn/Pb)Nickel/Palladium/Gold (Ni/Pd/Au)Terminal FormTHROUGH-HOLETHROUGH-HOLETerminal Pitch2.54 mm2.54 mmTerminal PositionDUALDUALTime@Peak Reflow Temperature-Max (s)40NOT SPECIFIEDWidth7.62 mm7.62 mmBase Number Matches21Pb-free Code YesPart Package Code DIPPin Count 8Supply Current-Max (Isup) 0.4 mA TLC555CP DatasheetDatasheet RFQ What is TLC555?The TLC555 is a monolithic timing circuit fabricated using the TI LinCMOSE process.What’s TLC555CP minimum operating temperature?-40℃What’s TLC555CP minimum supply voltage?2vWhat’s TLC555CP High Level Output Current?100 mAWhat’s TLC555CP Operating Supply Current?250 uA
kynix On 2023-07-28
PC817 DescriptionPC817 FeaturesPC817 ApplicationsPC817 PinoutPC817 EquivalentsPC817 AlternativesPC817 ParametersPC817 CircuitPC817 ManufacturerWhere to use PC817How to use PC817How to Safely Long Run PC817 in CircuitPC817 PackagePC817 DescriptionPC817 consists of an LED emitting a diode and a phototransistor. They are optically coupled to each other. The electrical signal is transmitted optically between the input and output sides with no physical connection between the two sides. The IR circuit can be designed by hand, but we have a fully pre-engineered and small built-in IC circuit known as the PC817 optocoupler. The PC817 optocoupler is small and comes in several packages. PC817 FeaturesInput Diode Forward Voltage: 1.25VCollector-Emitter Voltage: 80V (max)Collector Current: 50mA (max)Cut-off frequency: 80 kHzRise Time: 18usFall Time: 18usAvailable as 4-pin DIP through the hole and also as an SMT package. PC817 ApplicationsElectrical Isolation circuitsMicrocontroller I/O switching circuitsSignal isolationNoise coupling circuitsIsolation digital from analog circuitsAc/DC Power control PC817 PinoutPin NumberPin NameDescription1AnodeAnode pin of the IR LED. Connected to the logic input2CathodeCathode pin of the IR LED. Connected to ground3EmitterEmitter pin of the transistor. Connected to Ground4CollectorCollector pin of the Transistor. Provides logical output PC817 Equivalents The replacement and equivalent of PC817 optocoupler are PC816, PC123, TLP621, TLP321, TLP421, PC17K1, H11A817, SFH615A, PS2501-1, PS2561-1, PS2571-1, LTV-816, LTV-817(-V), LTV123, LTV-610 K1010, K817P, SFH615A PC817 Alternatives MOC3021 (Zero Cross TRIAC) , MOC3041 (Non-Zero Cross TRIAC), FOD3180 (High-Speed MOSFET), MCT2E, 4N25 PC817 Parameters Manufacturer:Sharp MicroelectronicsProduct Category:Transistor Output OptocouplersMounting Style:Through HoleNumber of Channels:1 ChannelIsolation Voltage:5000 VrmsOutput Type:PhototransistorCurrent Transfer Ratio - Min:50%Current Transfer Ratio - Max:600%If - Forward Current:50 mAVf - Forward Voltage:1.4 VMaximum Collector Emitter Voltage:80 VMaximum Collector Current:20 mAMaximum Collector Emitter Saturation Voltage:200 mVRise Time:18 usFall Time:18 usVr - Reverse Voltage:6 VPd - Power Dissipation:200 mWMinimum Operating Temperature:- 30 CMaximum Operating Temperature:+ 100 CPackaging:SleeveBrand:Sharp MicroelectronicsCurrent Transfer Ratio:50%Product Type:Transistor Output OptocouplersPC817 Circuit Circuit Diagram The circuit design is given below. The circuit is totally simple but the resistance will give it protection at the input in HIGH voltages. The Optocoupler is just a small-sized circuit of the infrared receiver and sender but the case of making it externally by using an IR sender and receiver causes many problems.1. First manually made circuit comes in a larger size, then in the case of IR receiving devices the circuit IR sender of auto coupler or receiver could be affected by other IR signals.2. closed communication protects it from many things especially temperature too.3. The manually made Optocoupler has a low voltage operating voltage level as compared to this PC817. Test Circuit for Response TimeTest Circuit for Frequency ResponsePC817 Manufacturer Sharp Microelectronics of the Americas (SMA) drives innovative LCD, optoelectronics, memory, imager, and RF components to market. The world's leading manufacturers of consumer and business technologies look to SMA for the products, expertise, and worldwide support they need to make their visions a reality. SMA, in Camas, Washington, is the microelectronics sales and marketing division of Sharp Electronics Corporation, a wholly-owned subsidiary of Sharp Corporation. Where to use PC817 The PC817 optocoupler has a transistor that is controlled based on light (photon). So this IC basically has an IR (infrared) LED and a phototransistor in it. When the IR LED is powered, the light from it falls on the transistor and it conducts. The layout and pinout of the IR LED and phototransistor is shown below.This IC is used to provide electrical isolation between two circuits, one part of the circuit is connected to the IR LED and the other part is connected to the phototransistor. The digital signal given to the IR LED will be reflected on the transistor, but there will be no hard electrical connection between the two. This comes in handy when trying to isolate a noisy signal from your digital electronics. So if you are looking for an IC to provide optical isolation in your circuit design, this IC might be the right choice for you.How to use PC817 Using the PC817 IC is fairly easy, we just need to connect the anode pin of the IR LED (pin 1) to the logic input, which needs to be isolated, and connect the cathode (pin 2) of the IR to the ground. Then pull up the collector pin of the transistor with a resistor (here I used 1K) and connect the collector pin to the output of your desired logic circuit. The emitter (pin 4) is grounded.Now when the logic input is low, the IR LED does not conduct and therefore the transistor is also in the off state. Therefore the logic output stays high, this high voltage can be set arbitrarily up to 30V (collector-emitter voltage), here I used +5V. Your 1K pull-up resistor acts as a load resistor. But when the logic input is made high, that high voltage should be at least 1.25V (diode forward voltage), the IR LED will conduct and thus the phototransistor will also turn on. This shorts the collector and emitter and thus the logic output voltage becomes zero.In this way, the logical input is reflected in the logical output while still providing isolation between the two. The full work can also be understood from the above GIF file. Another important parameter to consider when using an optocoupler is the rise time (tr) and fall time (tf). The output will not go high once the input logic is made low and vice versa.The waveform below shows the time it takes for the output to transition from one state to another. For PC817 the rise time (TPDHL) and fall time (TPDLH) are 18 µs. How to Safely Long Run PC817 in Circuit To safely long-run PC817 optocoupler in your circuit is recommended to always stay below the absolute maximum ratings. Do not drive load more than 50mA, The internal IR LED can be derived the same as you drive any other normal LED with a current limiting resistor therefore always use a current limiting resistor at the pin1 of the optocoupler which is the IR LED anode or positive pin. Do not operate the device at temperatures below -30 centigrade and above 100 centigrade and always store it in temperatures above -55 centigrade and below 125 centigrade. PC817 PackageThrough-Hole [ex.PC817X] SMT Gullwing Lead-Form [ex.PC817XI] Wide Through-Hole Lead-Form [ex.PC817XF] Wide SMT Gullwing Lead-Form [ex.PC817XFP]
kynix On 2023-06-29
catalogDescriptionCY7C63413C-PVXC CAD modelCY7C63413C-PVXC block diagramFeaturesApplicationsManufacturerAdvantagesSpecificationsWhere to use CY7C63413C-PVXCDatasheetFAQDescriptionThe Infineon CY7C63413C-PVXC is an 8-bit one-time programmable microcontroller for a variety of non-USB embedded systems. the CY7C63413C-PVXC features an 8kb EPROM, power-on reset logic, a watchdog timer, a vector interrupt controller and a 12-bit free-running timer. If you are interested in this device, please read on. CY7C63413C-PVXC CAD modelFigure: footprintCY7C63413C-PVXC block diagramFigure: block diagram Features■ Low-cost solution for low-speed applications with high I/O requirements such as keyboards, keyboards with integrated pointing device, gamepads, and many others■ USB Specification compliance❐ Conforms to USB Specification, Versions 1.1 and 2.0❐ Conforms to USB HID Specification, Version 1.1❐ Supports one device address and three data endpoints❐ Integrated USB transceiver■ 8-bit RISC microcontroller❐ Harvard architecture❐ 6-MHz external ceramic resonator❐ 12-MHz internal CPU clock■ Internal memory❐ 256 bytes of RAM❐ 8 Kbytes of EPROM■ Interface can auto-configure to operate as PS2 or USB■ I/O port❐ The CY7C63413C/513C have 24 general purpose I/O (GPIO) pins (Port 0 to 2) capable of sinking 7 mA per pin (typical)❐ The CY7C63613C has 12 GPIO pins (Port 0 to 2) capable of sinking 7 mA per pin (typical)❐ The CY7C63413C/513C have eight GPIO pins (Port 3) capable of sinking 12 mA per pin (typical) which can drive LEDs❐ The CY7C63613C has four GPIO pins (Port 3) capable of sinking 12 mA per pin (typical) which can drive LEDs❐ Higher current drive is available by connecting multiple GPIO pins together to drive a common output❐ Each GPIO port can be configured as inputs with internal pull-ups or open drain outputs or traditional CMOS outputs❐ The CY7C63513C has an additional eight I/O pins on a DAC port which has programmable current sink outputs❐ Maskable interrupts on all I/O pins■ 12-bit free-running timer with one microsecond clock ticks■ Watch Dog Timer (WDT)■ Internal Power-On Reset (POR)■ Improved output drivers to reduce EMI■ Operating voltage from 4.0 V to 5.5 V DC■ Operating temperature from 0 to 70 °C■ CY7C63413C available in 40-pin PDIP, 48-pin SSOP, 48-pin SSOP - Tape reel, all in Pb-free versions for production■ CY7C63513C available in 48-pin SSOP Pb-free packages for production■ CY7C63613C available in 24-pin SOIC Pb-free packages for production■ Industry-standard programmer suppor Applications■Motion Control■Process control■Data processing■Communication and networking ManufacturerInfineon is a leading global semiconductor company with a reputation for high reliability, quality and innovation, and a market share in analogue and mixed-signal, RF, power and embedded control devices. infineon has customers around the world, with subsidiaries in the US, Singapore, Japan and other countries. AdvantagesThe CY7C63413C-PVXC features 32 GPIO pins to support USB and other applications. The I/O pins are grouped into four ports (Port 0 to 3) where each port can be configured as inputs with internal pull-ups, open drain outputs, or traditional CMOS outputs. SpecificationsProduct attributesProperty valueManufacturer:InfineonProduct Category:USB interface integrated circuitRoHS: DetailsSeries:CY7C63413CProducts:USB ControllersType:Peripheral ControllerInstallation style:SMD/SMTPackage / Enclosure:SSOP-48Velocity:Low Speed (LS)Supply Voltage - Min:4 VSupply Voltage - Max:5.5 VMinimum operating temperature:0 CMaximum operating temperature:+ 70 CEncapsulation:TubeTrademark:Infineon TechnologiesCore:M8CInterface Type:PS2, USBHumidity sensitivity:YesOperating supply voltage:4 V to 5.5 VProduct Type:USB Interface ICFactory packing quantity:600Subcategories:Interface ICsUnit weight:600.300 mgWhere to use CY7C63413C-PVXCOne of the features of the CY7C63413C-PVXC is its wide operating temperature range, which is stable over a temperature range of 0°C to 70°C. It should be ensured that the maximum and minimum temperature of the application being used is within this range. The CY7C63413C-PVXC is suitable for those applications where the supply voltage is between 4V and 5.5V. The device can be used in a 48-pin, lead-free, compact size SSOP. DatasheetDatasheetFAQWhat are the interface types of the CY7C63413C-PVXC?PS2, USB What is the speed of the CY7C63413C-PVXC?Low Speed (LS) What type of interface does the CY7C63413C-PVXC have?USB Controllers
Karty On 2023-06-09
catalog Description ATMEGA128-16AU CAD model ATMEGA128-16AU block diagram Features Applications Manufacturer Advantages Specifications Where to use ATMEGA128-16AU Datasheet FAQ Description The Allegro MicroSystems A3984SLPTR-T is an easy-to-operate motor driver with a built-in translator to operate bipolar stepper motors in full-step, half-step, quarter-step and sixteen-step modes. A3984SLPTR-T features internal circuit protection such as thermal shutdown, thermal shutdown, undervoltage lockout and cross-current protection for those complex use where the microprocessor is not available or overburdened. ATMEGA128-16AU CAD model Figure: footprint ATMEGA128-16AU block diagram Figure: block diagram Features ▪ Low RDS(ON) outputs ▪ Automatic current decay mode detection/selection ▪ Mixed and Slow current decay modes ▪ Synchronous rectification for low power dissipation ▪ Internal UVLO and thermal shutdown circuitry ▪ Crossover-current protection Applications ▪ Medical equipment ▪ New energy sector ▪ Automation equipment ▪ Low-speed vehicles Manufacturer Allegro MicroSystems is an experienced semiconductor company with products sold throughout North America, South America, Europe, Japan and the Asia Pacific region. Allegro MicroSystems has a wide range of businesses, producing both Hall effect sensor ics and power ics for motor drives, motor control and switch regulation. Allegro MicroSystems provides high quality services for office automation, industrial, automotive and portable electronics. Advantages The chopping control in the A3984 automatically selects the current decay mode (Slow or Mixed). This current decay control scheme results in reduced audible motor noise, increased step accuracy, and reduced power dissipation. In addition, the A3984SLPTR-T provides a synchronous rectification control circuit internally to improve power consumption during PWM operation. Specifications TYPEDESCRIPTIONCategoryIntegrated Circuits (ICs), Motor Drivers, Controllers, Power Management (PMIC)MfrAllegro MicroSystemsSeries-PackageTape & Reel (TR)Cut Tape (CT)Digi-Reel®Product StatusActiveMotor Type - StepperBipolarMotor Type - AC, DC-FunctionDriver - Fully Integrated, Control and Power StageOutput ConfigurationHalf Bridge (4)InterfaceLogicTechnologyDMOSStep Resolution1, 1/2, 1/4, 1/16ApplicationsGeneral PurposeCurrent - Output2AVoltage - Supply3V ~ 5.5VVoltage - Load8V ~ 35VOperating Temperature -20°C ~ 150°C (TJ)Mounting TypeSurface MountPackage / Case24-TSSOP (0.173", 4.40mm Width) Exposed PadSupplier Device Package24-TSSOP-EPBase Product NumberA3984 Where to use ATMEGA128-16AU ATMEGA128-16AU has a wide range of extended temperatures, from -20 ° C to 150 ° C, and should ensure that the maximum and minimum temperatures of the application are within this range. The ATMEGA128-16AU is suitable for applications where the supply voltage is in the range of 3V to 5.5V. It is used in the 24-pin, lead-free, compact size TSSOP. Datasheet Datasheet FAQ What are the functions of the A3984SLPTR-T? Driver - Fully Integrated, Control and Power Stage What is the function of the A3984SLPTR-T breaking current? It has the ability to operate in Slow or Mixed decay modes. What is the load voltage of the A3984SLPTR-T? 8V ~ 35V
Karty On 2023-06-08
catalogDescriptionATMEGA128-16AU CAD modelATMEGA128-16AU block diagramFeaturesApplicationsManufacturerAdvantagesSpecificationsWhere to use ATMEGA128-16AUDatasheetFAQDescriptionMicrochip ATMEGA128-16AU is manufactured by Atmel's high density non-volatile memory technology. By combining 8-bit RISC CPU with in-system self-programming flash memory on a chip, ATMEGA128-16AU is a powerful microcontroller. It provides a highly flexible and cost effective solution for many embedded control applications. ATMEGA128-16AU CAD modelFeatures: symbol Features: footprint Features: 3D model ATMEGA128-16AU block diagramFeatures: Block diagram FeaturesHigh-performance, Low-power Atmel®AVR®8-bit MicrocontrollerAdvanced RISC Architecture– 133 Powerful Instructions – Most Single Clock Cycle Execution– 32 x 8 General Purpose Working Registers + Peripheral Control Registers– Fully Static Operation– Up to 16MIPS Throughput at 16MHz– On-chip 2-cycle MultiplierHigh Endurance Non-volatile Memory segments– 128Kbytes of In-System Self-programmable Flash program memory– 4Kbytes EEPROM– 4Kbytes Internal SRAM– Write/Erase cycles: 10,000 Flash/100,000 EEPROM– Data retention: 20 years at 85°C/100 years at 25°C(1)– Optional Boot Code Section with Independent Lock Bits In-System Programming by On-chip Boot Program True Read-While-Write Operation– Up to 64Kbytes Optional External Memory Space– Programming Lock for Software Security– SPI Interface for In-System ProgrammingQTouch® library support– Capacitive touch buttons, sliders and wheels– QTouch and QMatrix acquisition– Up to 64 sense channelsJTAG (IEEE std. 1149.1 Compliant) Interface– Boundary-scan Capabilities According to the JTAG Standard– Extensive On-chip Debug Support– Programming of Flash, EEPROM, Fuses and Lock Bits through the JTAG InterfacePeripheral Features– Two 8-bit Timer/Counters with Separate Prescalers and Compare Modes– Two Expanded 16-bit Timer/Counters with Separate Prescaler, Compare Mode and Capture Mode– Real Time Counter with Separate Oscillator– Two 8-bit PWM Channels– 6 PWM Channels with Programmable Resolution from 2 to 16 Bits– Output Compare Modulator– 8-channel, 10-bit ADC8 Single-ended Channels7 Differential Channels2 Differential Channels with Programmable Gain at 1x, 10x, or 200x– Byte-oriented Two-wire Serial Interface– Dual Programmable Serial USARTs– Master/Slave SPI Serial Interface– Programmable Watchdog Timer with On-chip Oscillator– On-chip Analog ComparatorSpecial Microcontroller Features– Power-on Reset and Programmable Brown-out Detection– Internal Calibrated RC Oscillator– External and Internal Interrupt Sources– Six Sleep Modes: Idle, ADC Noise Reduction, Power-save, Power-down, Standby, and Extended Standby– Software Selectable Clock Frequency– ATmega103 Compatibility Mode Selected by a Fuse– Global Pull-up DisableI/O and Packages– 53 Programmable I/O Lines– 64-lead TQFP and 64-pad QFN/MLFOperating Voltages– 2.7 - 5.5V ATmega128L– 4.5 - 5.5V ATmega128Speed Grades– 0 - 8MHz ATmega128L– 0 - 16MHz ATmega128 ApplicationsHouseholds and businessesBuilding automationManufacturing industryRobotAutomobile ManufacturerMicrochip is a leading global supplier of single chip computers and analog semiconductors, providing low-risk product development, low total system cost, and faster product time to market for consumer products. Microchip has a large market share in the market of embedded control semiconductor products, and its two major products, PIC8-bit microcontroller and serial EEPROM, are very popular with users. AdvantagesThe microcontroller ATMEGA128-16AU is based on the Atmel® AVR® kernel, which combines a rich instruction set with 32 general purpose working registers that are directly connected to the arithmetic logic unit. ATMEGA128-16AU has the ability to read while writing, with four flexible timers/counters and an 8-channel 10-bit ADC. SpecificationsTYPEDESCRIPTIONCategoryIntegrated Circuits (ICs), Embedded, MicrocontrollersMfrMicrochip TechnologySeriesAVR® ATmegaPackageTrayProduct StatusActiveDigi-Key ProgrammableVerifiedCore ProcessorAVRCore Size8-BitSpeed16MHzConnectivityEBI/EMI, I²C, SPI, UART/USARTPeripheralsBrown-out Detect/Reset, POR, PWM, WDTNumber of I/O53Program Memory Size128KB (64K x 16)Program Memory TypeFLASHEEPROM Size4K x 8RAM Size4K x 8Voltage - Supply (Vcc/Vdd)4.5V ~ 5.5VData ConvertersA/D 8x10bOscillator TypeInternalOperating Temperature-40°C ~ 85°C (TA)Mounting TypeSurface MountPackage / Case64-TQFPSupplier Device Package64-TQFP (14x14)Base Product NumberATMEGA128 Where to use ATMEGA128-16AUATMEGA128-16AU has specified operating temperatures from -40℃ to 85℃. It is suitable for those applications where the supply voltage is between 4.5V and 5.5V. It should be ensured that the temperature and supply voltage of the application are within the specified range. ATMEGA128-16AU is suitable for 64-pin, lead-free, compact TQFP packages. DatasheetDatasheetFAQWhat are the peripherals of ATMEGA128-16AU?Brown-out Detect/Reset, POR, PWM, WDT What programs and system development tools support ATMEGA128-16AU?Compilers, macro assemblers, program debugger/simulators, in-circuit emulators, and evaluation kits What is the program memory size of ATMEGA128-16AU?128KB (64K x 16)
Karty On 2023-06-06
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