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Product OverviewThe ADA4807-1 (single), ADA4807-2 (dual), and ADA4807-4 (quad) are low noise, rail-to-rail input and output, voltage feedback amplifiers. These amplifiers combine low power, low noise, high speed, and dc precision to provide an attractive solution for a wide range of applications from high resolution data acquisition instrumentation to high performance batterypowered and high component density systems where power consumption is of key importance. This blog will introduce ADA4807 systematically from its features, pinout to its specifications, applications, also including ADA4807 datasheet and so much more. CatalogProduct OverviewADA4807 FeaturesADA4807 PinoutADA4807 ApplicationsADA4807 Simplified SchematicADA4807 Circuit DiagramADA4807 PackageADA4807 SpecificationADA4807 ManufacturerADA4807 DatasheetUsing WarningsADA4807 FAQ ADA4807 FeaturesLow input noise1 nV/√Hz at f = 100 kHz with 29 Hz 1/f corner7 pA/√Hz at f = 100 kHz with 2 kHz 1/f cornerHigh speed performance with dc precision180 MHz, −3 dB bandwidth (G = +1, VOUT = 20 mV p-p)225 V/μs slew rate for 5 V step (rise)47 ns settling time to 0.1% for 4 V step±125 μV and 3.7 μV/°C maximum input offset voltage and drift100 nA and 250 pA/°C maximum input offset current and driftLow distortion (HD2/HD3), VS = ±5 V, VOUT = 2 V p-p−141 dBc/−144 dBc at 1 kHz−112 dBc/−115 dBc at 100 kHz−95 dBc/−79 dBc at 1 MHzLow power operation0 mA quiescent supply current per amplifier at ±5 VDynamic power scalingFully specified at +3 V, +5 V, and ±5 V suppliesRail-to-rail inputs and outputs ADA4807 PinoutThe following figures are the diagrams of ADA4807pinout. 6-Lead SC70 and 6-Lead SOT-23 Pin Configuration 8-Lead MSOP Pin Configuration ADA4807 ApplicationsHigh resolution analog-to-digital converter (ADC) driversPortable and battery-powered instruments and systemsHigh component density data acquisition systemsAudio signal conditioningActive filters ADA4807 Simplified SchematicThe architecture of ADA4807 is shown in the picture below. ADA4807 Simplified Schematic ADA4807 Circuit DiagramThe following are the application circuit diagrams of ADA4807. Low Noise FET Operational Amplifier Schematic Dual Power Mode ADC Driver ADA4807 PackageThe following diagram shows the ADA4807 package. ADA4807 Package ADA4807 SpecificationProduct AttributeAttribute ValueManufacturer:Analog Devices Inc.Product Category:Operational Amplifiers - Op AmpsMounting Style:SMD/SMTPackage / Case:MSOP-8Number of Channels:2 ChannelSupply Voltage - Max:11 VGBP - Gain Bandwidth Product:200 MHzSR - Slew Rate:225 V/usVos - Input Offset Voltage:140 uVSupply Voltage - Min:2.7 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 125 CIb - Input Bias Current:1 uAOperating Supply Current:1 mAShutdown:No ShutdownCMRR - Common Mode Rejection Ratio:96 dBen - Input Voltage Noise Density:3.1 nV/sqrt HzPackaging:Tube3 dB Bandwidth:180 MHzAmplifier Type:Low Power AmplifierIn - Input Noise Current Density:700 fA/sqrt HzInput Type:Rail-to-RailIos - Input Offset Current:150 nA ADA4807 ManufacturerAnalog Devices (NASDAQ: ADI) is a world leader in the design, manufacture, and marketing of a broad portfolio of high performance analog, mixed-signal, and digital signal processing (DSP) integrated circuits (ICs) used in virtually all types of electronic equipment. ADA4807 DatasheetYou can download ADA4807 datasheet from the link given below:ADA4807 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. ADA4807 FAQWhat amplifiers combine low noise? ADA4807-1. What types of systems are the ADA4807-1? High performance batterypowered and high component density. What is rail-to-rail input amplifier?A rail-to-rail input (RRI) amplifier is defined by its input common-mode voltage range, which includes both the positive and negative supply rails. The input common-mode voltage (VCM) is the most important factor when deciding whether or not an RRI amplifier is required for a given circuit. How does rail to rail op amp work?“Rail-to-rail” implies that the signal swings all the way to supply voltage levels on both the positive and negative rails. If an op amp can drive RRO, it means you have a good dynamic range in which to work on the signal. A related term, head room, is a measure of how close the signal comes to the rails. How do operational amplifiers work?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.
Kynix On 2025-04-30
Product OverviewThis Infineon ESD (electrostatic discharge) protection device has a bi-directional and symmetric I/V characteristic and excellent clamping performance. This blog will introduce ESD108 systematically from its features, pinout to its specifications, applications, also including ESD108 datasheet and so much more. CatalogProduct OverviewESD108 FeaturesESD108 PinoutESD108 Potential ApplicationsESD108 Electrical CharacteristicsESD108 Thermal CharacteristicsESD108 Typical Characteristic DiagramsESD108 PackageESD108 SpecificationESD108 ManufacturerESD108 DatasheetUsing WarningsESD108 FAQ ESD108 FeaturesESD / transient protection according to:- IEC61000-4-2 (ESD): ±25 kV (air) / ±25 kV (contact)- IEC61000-4-4 (EFT): ±2.5 kV / ±50 A (5/50 ns)- IEC61000-4-5 (Surge): ±2.5 A (8/20 μs)Bi-directional maximum working voltage: VWM = ±5.5 VLine capacitance: CL = 0.28 pF at f = 1 MHzClamping voltage: Vcl = 20 V at ITLP = 16 A with Rdyn = 0.78 ΩVery low leakage current: IL =0.1 nASmall form factor SMD size 0201, low profile (0.58 x 0.28 x 0.15 mm³) ESD108 PinoutThe following figure is the diagram of ESD108 pinout. ESD108 Pinout ESD108 Potential ApplicationsUSB 3.x Gen. 1, USB 2.0HDMI, DisplayPort ESD108 Electrical CharacteristicsThe following is the diagram of ESD108 electrical characteristics. ESD108 Electrical CharacteristicsNote: TA = 25°C, unless otherwise specified. Device is electrically symmetrical. ESD108 Thermal CharacteristicsThe following is the diagram of ESD108 thermal characteristics. Maximal working current: IWM = f(TS, TA), device mounted on PCB with Rth = 200 K/W ESD108 Typical Characteristic DiagramsThe following are the diagrams of ESD108 typical characteristic. Leakage current: IL= f(Vt) Line capacitance: CL= f(Vt), f = 1 MHz, 1 GHz Clamping voltage (ESD): Vcl = f(tp), 8 kV positive pulse based on IEC61000-4-2 ESD108 PackageThe following diagram shows the ESD108 package. ESD108 Package ESD108 SpecificationProduct AttributeAttribute ValueManufacturer:InfineonProduct Category:ESD Suppressors / TVS DiodesPolarity:BidirectionalWorking Voltage:5.5 VNumber of Channels:1 ChannelTermination Style:SMD/SMTPackage/Case:WLL-2-1Clamping Voltage:18.5 VPppm - Peak Pulse Power Dissipation:1.8 kWVesd - Voltage ESD Contact:25 kVVesd - Voltage ESD Air Gap:25 kVCd - Diode Capacitance:0.38 pFIpp - Peak Pulse Current:2.5 AMinimum Operating Temperature:- 55 CMaximum Operating Temperature:+ 125 CSeries:ESD108 ESD108 ManufacturerInfineon Technologies is a leading global designer, manufacturer and supplier of a broad range of semiconductors used in various microelectronic applications. Infineon's product portfolio consists of logic products, including digital, mixed-signal, and analog integrated circuits, as well as discrete semiconductor products. ESD108 DatasheetYou can download ESD108 datasheet from the link given below:ESD108 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. ESD108 FAQWhat do TVS diodes do?TVS Diodes are used to protect semiconductor components from high-voltage transients. Their p-n junctions have a larger cross-sectional area than those of a normal diode, allowing them to conduct large currents to ground without sustaining damage. Where should a TVS diode be placed?Place TVS diode near the edge of the PCB. To enable the excessive surge current to be channeled to chassis ground before damaging the transceiver, the placement of the TVS diode is also important. It is a good practice to place TVS diodes as close to the edge of the board as possible. What is difference between ESD diode and TVS diode?Technically there is no difference between ESD and TVS diodes. They serve the same purpose by shunting large current due to overvoltage to protect integrated circuit. However, TVS diodes are typically a much bigger devices compared to ESD and withstand much higher transient current compared to ESD.
Kynix On 2025-04-30
Product OverviewThe STM32F407 belongs to the family of microcontrollers and has a core of ARM cortex-M4 which is based on the RISC(Reduced-instruction-set Computing) structure. This module comprises of large operating speed embedded memory units such as flash memory having a storage capacity of one megabyte, static random access memory of one ninety kilobytes, with that has four-kilo bytes Static ram as back up memory unit. There are numerous inputs and outputs pinouts and many external devices can be attached with this module through the APB bus, with the use of 3 AHB bus and thirty two-bit multi AHB bus matrix. It also comes with 3 twelve but analog to digital converters, 2 digital to analog converter, less power consuming RTC module also installed on this device. There is 12 GP sixteen bits timer comprises with the 2 pulse width modulation timers which can be used the speed regulation of the motor, also has 2 GP thirty-two bit timers. This blog will introduce STM32F407 systematically from its features, pinout to its specifications, applications, also including STM32F407 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionSTM32F407 FeaturesSTM32F407 PinoutSTM32F407 ApplicationsSTM32F407 Circuit DiagramSTM32F407 Block DiagramSTM32F407 SpecificationSTM32F407 ManufacturerSTM32F407 Datasheet&Reference ManualUsing WarningsSTM32F407 FAQ Related Video Introduction Video: STM32F4Discovery Tutorial 1 - Introduction STM32F407 Video Description: In this tutorial you will get an introduction about this tutorial series of STM32F4Discovery board. You will understand what exactly a microcontroller is. You will understand about the ARM architecture. You will understand what is meant by ARM cortex. You will then directly get an introduction on the STM32F4discovery board. Finally we will run a demo code on the discovery board. STM32F407 FeaturesThese are some important features of STM32F407.It comprises of thirty two-bit central processing unit having a core of Cortex M4 .It has a flash memory of one megabytes.It contains one ninety-two kilobytes static ram with the sixty-four-kilo byte core coupled memory.There are some additional memories units exits in it which are compact flash, NAND, NOR, SRAM .There is a voltage range of operating volts is 1.8 to 3.6 volts.Crystal oscillator having frequency four to twenty-six megahertz is used in it.It uses a thirty two-kilo hertz oscillator to calibrate the RTC module.It has an inner thirty-two-kilo hertz calibrated RC module.It can be operated in three modes, stand, sleep, and standby.There are two digital to analog converter of twelve bits it has.It comprises of seventeen timers out of them 12 are sixteen-bit and 2 thirty-two bits timer having a frequency range of one sixty megahertz, every timer comprises of four PWM.There are one forty input and output pinouts this module has.There are fifteen types of communication protocol can be interfaced with this module.Communication protocol comprises of three I2C interfacings.Four USART , two UART three SPI, and two CAN interfacing can be done through this module. STM32F407 PinoutThe following figure is the diagram of STM32F407 pinout. STM32F407 Pinout STM32F407 ApplicationsThese are some important applications of STM32F407 which are described here with the details.It used in different types of control applications such as motor control.It also used in medical instruments.Different types of industrial submissions such as in PLC controller used this moduleIt printing and scanning machines this device is used.Heat ventilation AC system, security systems, also used this device.In different types of devices used in homes comprises of this module. STM32F407 Circuit DiagramThe following are the circuit diagrams of STM32F407. Typical application with an 8 MHz crystal Typical application with a 32.768 kHz crystal Simplified diagram of the reset circuit STM32F407 Block DiagramThe following figure shows the functional block diagram of STM32F407. STM32F407 Functional Block Diagram STM32F407 SpecificationProduct AttributeAttribute ValueManufacturer:STMicroelectronicsProduct Category:Development Boards & Kits - ARMProduct:Discovery KitsCore:ARM Cortex M4Tool Is For Evaluation Of:STM32F407VGT6Packaging:BulkBrand:STMicroelectronicsData Bus Width:32 bitInterface Type:USBOperating Supply Voltage:5 V STM32F407 ManufacturerSTMicroelectronics is a global independent semiconductor company and 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, STMicroelectronics is at the forefront of System-on-Chip(SoC) technology and its products play a key role in enabling today's convergence trends. STM32F407 Datasheet&Reference ManualYou can download STM32F407 datasheet and reference manual from the link given below:STM32F407 DatasheetSTM32F407 Reference Manual Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. STM32F407 FAQWhat is microcontroller and types?A microcontroller (μC or uC) is a solitary chip microcomputer fabricated from VLSI fabrication. A micro controller is also known as embedded controller. Today various types of microcontrollers are available in market with different word lengths such as 4bit, 8bit, 64bit and 128bit microcontrollers. What is difference between ARM processor and microcontroller?ARM is based on CPU architecture so we generally call it has microprocessor when placed on a chip if ARM is combined with memories (RAM and ROM) on a single chip we can call it has micro-controller it has limited memory but when coming to microprocessor RAM and ROM are connected externally speed will be more. In which applications ARM microcontroller is used?This board is used in different types of techniques used in space and aerospace. Different types of medical devices such as MRI machines, computed tomography scanners, ultrasound machines. It used in different types of accelerators, nuclear reactors, and X-ray machines. What is the core of the STM32F407? ARM cortex-M4. How many AHB bus is used on the STM32F407? 3 AHB bus and thirty two-bit multi AHB bus matrix.
Kynix On 2025-04-30
Product OverviewTTP223 is a single channel touch detector IC that could be used as a 1 touch key driver. It is a useful interface when replaced with a traditional button key. It has a low power consumption with a wide range of operating voltage. It has an auto calibration feature for life and it has a re-calibration period of about 4.0 seconds. The sensitivity can be adjusted using an external capacitor of 0 to 50 pF. This blog will introduce TTP223 systematically from its features, pinout to its specifications, applications, also including TTP223 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionTTP223 FeaturesTTP223 PinoutTTP223 ApplicationsTTP223 EquivalentsTTP223 Circuit DiagramTTP223 Block DiagramTTP223 PackageTTP223 SpecificationTTP223 ManufacturerTTP223 DatasheetUsing WarningsTTP223 FAQ Related Video Introduction Video: TTP223 Capacitive Touch Switches TTP223 Video Description: These premade modules have some great advantages over diy solutions and even physical switches, such as pre-debouncing, mode switching and logic low and high toggling. TTP223 FeaturesOperating voltage 2.0V~5.5VOperating current @VDD=3V, no load, SLRFTB=1At low power mode typical 1.5uA, maximum 3.0uAAt fast mode typical 3.5uA, maximum 7.0uA@VDD=3V, no load, SLRFTB=0At low power mode typical 2.0uA, maximum 4.0uAAt fast mode typical 6.5uA, maximum 13.0uAThe response time max about 60mS at fast mode, 220mS at low power mode @VDD=3VSensitivity can adjust by the capacitance(0~50pF) outsideHave two kinds of sampling length by pad option(SLRFTB pin)Stable touching detection of human body for replacing traditional direct switch keyProvides Fast mode and Low Power mode selection by pad option(LPMB pin)Provides direct mode、toggle mode by pad option(TOG pin)Open drain mode by bonding option, OPDO pin is open drain output,Q pin is CMOS output All output modes can be selected active high or active low by pad option(AHLB pin)Have the maximum on time 100sec by pad option(MOTB pin)Have external power on reset pin(RST pin)After power-on have about 0.5sec stable-time, during the time do not touch the key pad,and the function is disabledAuto calibration for lifeAnd the re-calibration period is about 4.0sec, when key has not be touched TTP223 PinoutThe following figure is the diagram of TTP223 pinout. TTP223 Pinout TTP223 ApplicationsWide consumer productsWater proofed electric productsButton key replacement TTP223 EquivalentsCAP1203TTP226TTP229 Note: Please check their parameters and pin configuration before replacing them in your circuit. More technical information can be found in the TTP223 Datasheet linked at the bottom of this page. TTP223 Circuit DiagramThe following is the circuit diagram of TTP223. TTP223 Circuit Diagram PS:1. On PCB, the length of lines from touch pad to IC pin shorter is better. And the lines do not parallel and cross with other lines.The power supply must be stable. If the supply voltage drift or shift quickly, maybe causingsensitivity anomalies or false detections.The material of panel covering on the PCB can not include the metal or the electric element.The paints on the surfaces are the same.The capacitance Cs can be used to adjust the sensitivity. The value of Cs use smaller, thenthe sensitivity will be better. The sensitivity adjustment must according to the practical application on PCB. The range of Cs value is 0~50pF. TTP223 Block DiagramThe following figure shows the block diagram of TTP223. TTP223 Block Diagram TTP223 PackageThe following diagram shows the TTP223 package. TTP223 Package TTP223 SpecificationParameterSymbolTest ConditionMin.Typ.Max.UnitOperating VoltageVDD 2.035.5VSystem oscillatorFFASTVDD=3V-512K- HzFLOW 16K Sensor oscillatorFSENVDD=3V no load-1M-HzOperating CurrentIOPVDD=3Vat low power mode and output no loadSLRFTB=1-1.53.0 uASLRFTB=0-2.04.0VDD=3Vat fast modeand output no loadSLRFTB=1-3.57.0SLRFTB=0 6.513.0Input PortsVILInput Low Voltage0-0.2VDDInput PortsVIHInput High Voltage0.8-1.0VDDOutput Port Sink CurrentIOLVDD=3V, VOL=0.6V-8-mAOutput Port Source CurrentIOHVDD=3V, VOH=2.4V--4-mAOutput Response TimeTRVDD=3V, At fast mode 60 mSVDD=3V, At low power mode 220Input Pin Pull-high ResistorRPHVDD=3V,(LPMB, MOTB, SLRFTB) 35K ohmInput Pin Pull-low ResistorRPLVDD=3V,(TOG, AHLB) 28K ohmVDD=3V, (RST) 200K TTP223 ManufacturerTontek Design Technology Ltd. is located in New Taipei City, Taiwan and is part of the Semiconductor and Other Electronic Component Manufacturing Industry. Tontek Design Technology Ltd. has 72 total employees across all of its locations and generates $16.36 million in sales (USD). TTP223 DatasheetYou can download TTP223 datasheet from the link given below:TTP223 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. TTP223 FAQWhat is TTP223 a useful interface when replaced with? Button key. What is the re-calibration period of TTP223? 4.0 seconds. What is the sensitivity of TTP223? 0 to 50 pF. How does a TTP223 work?The TTP223 is a touch pad detector IC replicating a single tactile button. This touch detection IC is designed for replacing traditional direct button key with diverse pad size. 3. Stable touching detection of human body for replacing traditional direct switch key. How do I increase the sensitivity of my TTP223?The TTP223 offers some methods for adjusting the sensitivity outside. 1-1 by the electrode size Under other conditions are fixed. Using a larger electrode size can increase sensitivity. Otherwise it can decrease sensitivity.
Kynix On 2025-04-30
Product OverviewThe MP3398A is a step-up controller with 4 current channels, which is designed to drive WLED arrays for large-size LCD-panel backlighting applications. It is flexible to expand the number of LED channels by two or more ICs in parallel sharing a single inductive power source. This blog will introduce MP3398A systematically from its features, pinout to its specifications, applications, also including MP3398A datasheet and so much more. CatalogProduct OverviewMP3398A FeaturesMP3398A PinoutMP3398A ApplicationsMP3398A Circuit DiagramMP3398A Block DiagramMP3398A PackageMP3398A SpecificationMP3398A ManufacturerMP3398A DatasheetUsing WarningsMP3398A FAQ MP3398A Features4-String, Max 350mA/String WLED Driver5V to 28V Input Voltage Range 5% Current Matching Accuracy BetweenStringsProgrammable Switching FrequencyPWM and Analog Dimming ModeCascading Capability with a Single PowerSourceLED Open and Short LED ProtectionProgrammable Over-Voltage ProtectionRecoverable Thermal Shutdown ProtectionOver Current ProtectionInductor/Diode short ProtectionUnder-Voltage LockoutSOIC16, TSSOP16-EP and SOIC20Packages MP3398A PinoutThe following figure is the diagram of MP3398A pinout. MP3398A Pinout MP3398A ApplicationsDesktop LCD Flat Panel DisplaysFlat Panel Video Displays2D/3D LCD TVs and Monitors MP3398A Circuit DiagramThe following are the typical application circuit diagrams of MP3398A. MP3398A Circuit Diagram 4 string, 12 LED in series, 120mA/string application MP3398A Block DiagramThe following figure shows the block diagram of MP3398A. MP3398A Block Diagram MP3398A PackageThe following diagram shows the MP3398A package. MP3398A Package MP3398A SpecificationProduct AttributeAttribute ValueManufacturer:Monolithic Power Systems (MPS)Product Category:LED Lighting DriversNumber of Channels:4 ChannelOutput Current:350 mAInput Voltage:5 V to 28 VOperating Frequency:540 kHzSupply Current - Max:1.35 mAMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 125 CMounting Style:SMD/SMTNumber of Outputs:4 OutputSeries:MP3398APackaging:ReelPackaging:Cut TapePackaging:MouseReelFeatures:PWM Dimming, Open LED Protection MP3398A ManufacturerMonolithic Power Systems (MPS) provides small, highly energy-efficient, easy-to-use power solutions for systems found in industrial applications, telecom infrastructures, cloud computing, automotive, and consumer applications. MPS' mission is to reduce total energy consumption in its customers' systems with green, practical, compact solutions. MP3398A DatasheetYou can download MP3398A datasheet from the link given below:MP3398A Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. MP3398A FAQHow many current channels does the MP3398A have?4. How many ICs is the MP3398A flexible to expand the number of LED channels?Two or more ICs. What mode does the MP3398A use with fixed switching frequency? Peak-current mode. What is the frequency programmable by? External setting resistor. What is a driver for an LED light?An LED driver is an electrical device that regulates power to an LED or a string of LEDs. It is a crucial piece to an LED circuit and to operate without one will result in system failure.
Kynix On 2025-04-29
DescriptionThe PIC24FJ64GA004 family offers a new migration option for those high-performance applications which may be outgrowing their 8-bit platforms, but don’t require the numerical processing power of a digital signal processor. CAD Models Figure: Symbol Figure: PCB Footprints Figure: 3D Model Pin Diagram Figure: Pin Diagram Block Diagram Figure: Block Diagram FeaturesSpecial Microcontroller FeaturesOperating Voltage Range of 2.0V to 3.6V5.5V Tolerant Input (digital pins only)High-Current Sink/Source (18 mA/18 mA) on All I/O PinsFlash Program Memory:- 10,000 erase/write- 20-year data retention minimumPower Management modes:- Sleep, Idle, Doze and Alternate Clock modes- Operating current: 650 mA/MIPS, typical at 2.0V- Sleep current: 150 nA, typical at 2.0VFail-Safe Clock Monitor (FSCM) Operation:- Detects clock failure and switches to on-chip,low-power RC oscillatorOn-Chip, 2.5V Regulator with Tracking modePower-on Reset (POR), Power-up Timer (PWRT)and Oscillator Start-up Timer (OST)Flexible Watchdog Timer (WDT) with On-Chip,Low-Power RC Oscillator for Reliable OperationIn-Circuit Serial Programming™ (ICSP™) andIn-Circuit Debug (ICD) via 2 PinsJTAG Boundary Scan Support Analog Features10-Bit, up to 13-Channel Analog-to-Digital Converter:- 500 ksps conversion rate- Conversion available during Sleep and IdleDual Analog Comparators with ProgrammableInput/Output Configuration Peripheral FeaturesPeripheral Pin Select (PPS):- Allows independent I/O mapping of many peripherals- Up to 26 available pins (44-pin devices)- Continuous hardware integrity checking and safetyinterlocks prevent unintentional configuration changes8-Bit Parallel Master/Slave Port (PMP/PSP):- Up to 16-bit multiplexed addressing, with up to11 dedicated address pins on 44-pin devices- Programmable polarity on control linesHardware Real-Time Clock/Calendar (RTCC):- Provides clock, calendar and alarm functionsProgrammable Cyclic Redundancy Check (CRC)Two 3-Wire/4-Wire SPI modules (support 4 Framemodes) with 8-Level FIFO BufferTwo I2C™ modules Support Multi-Master/Slavemode and 7-Bit/10-Bit AddressingTwo UART modules:- Supports RS-485, RS-232, and LIN/J2602- On-chip hardware encoder/decoder for IrDA®- Auto-wake-up on Start bit- Auto-Baud Detect- 4-level deep FIFO bufferFive 16-Bit Timers/Counters with Programmable PrescalerFive 16-Bit Capture InputsFive 16-Bit Compare/PWM OutputsConfigurable Open-Drain Outputs on Digital I/O PinsUp to 3 External Interrupt Sources DatasheetYou can download the datasheet the link given below.PIC24FJ64GA004-I-P/T-Datasheet SpecificationsProduct AttributeAttribute ValueManufacturer:MicrochipProduct Category:16-bit Microcontrollers - MCUSeries:PIC24FJxxGA00xMounting Style:SMD/SMTPackage / Case:TQFP-44Core:PIC24FProgram Memory Size:64 kBData Bus Width:16 bitADC Resolution:10 bitMaximum Clock Frequency:32 MHzNumber of I/Os:35 I/OData RAM Size:8 kBSupply Voltage - Min:2 VSupply Voltage - Max:3.6 VMinimum Operating Temperature:- 40 ℃Maximum Operating Temperature:+ 85 ℃Qualification:AEC-Q100Packaging:TrayBrand:Microchip Technology / AtmelData RAM Type:RAMHeight:1 mmInterface Type:I2C, IrDA, SPI, UARTLength:10 mmMoisture Sensitive:YesNumber of ADC Channels:13 ChannelNumber of Timers/Counters:5 TimerProcessor Series:PIC24FProduct:MCUProduct Type:16-bit Microcontrollers - MCUProgram Memory Type:FlashFactory Pack Quantity:160Subcategory:Microcontrollers - MCUTradename:PICWidth:10 mmUnit Weight:0.077179 oz ManufacturerMicrochip Technology Inc. is a publicly-listed American corporation that manufactures microcontroller, mixed-signal, analog and Flash-IP integrated circuits. Its products include microcontrollers (PIC, dsPIC, AVR and SAM), Serial EEPROM devices, Serial SRAM devices, embedded security devices, radio frequency (RF) devices, thermal, power and battery management analog devices, as well as linear, interface and wireless products. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. FAQWhat is a flash microcontroller and how does it work?With a flash microcontroller, all that is required is an electrical connection to one of the microcontroller's communications ports, such as RS-232, CAN, LIN or USB. New code can be downloaded without any physical access to the microcontroller being required, which means that manufacturers can design easily upgradable products. What are the advantages of 16-bit microcontrollers?A 16-bit microcontroller is one that can handle data with 16 bits, allowing it to manage a bigger quantity of data and calculations at once. It also consumes less power and has a faster clock speed than an 8-bit microcontroller. It is now the most widely used microcontroller. How many pins are in a 16-bit microcontroller?The available 119 I/O pins (of which 25 can generate interrupts) can implement a standard external bus interface for high-speed parallel connections to external memory or peripherals like TFTs.
Allen On 2025-04-29
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