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Integrated Circuits (ICs)

M41ST87WSS6F Real time clock: Datasheet, Features, Application[FAQ]

catalogDescriptionM41ST87WSS6F CAD modelM41ST87WSS6F block diagramFeaturesApplicationsManufacturerAdvantagesSpecificationsWhere to use M41ST87WSS6FDatasheetFAQ DescriptionThe STMicroelectronics M41ST87WSS6F is a low-power real-time clock with a built-in 32.768KHz oscillator and 8 bytes of SRAM for clock/calendar functions.The M41ST87WSS6F has numerous features, including a non-volatile, timed clock/calendar, watchdog timer and programmable square wave The M41ST87WSS6F is ideal for many applications, so if you are interested in this real time clock, read on. M41ST87WSS6F CAD modelFeatures: SymbolFeatures: Footprint M41ST87WSS6F block diagramFeatures: Block Diagram  Features5.0, 3.3, or 3.0 V operation400 kHz I2 C busNVRAM supervisor to non-volatize external LPSRAM2.5 to 5.5 V oscillator operating voltageAutomatic switchover and deselect circuitryChoice of power-fail deselect voltages− M41ST87Y: (not recommended for new design, contact ST sales office for availability)THS = 1: VPFD≈ 4.63 V;VCC = 4.75 to 5.5 VTHS = 0: VPFD≈ 4.37 V;VCC = 4.5 to 5.5 V− M41ST87W:THS = 1: VPFD ≈ 2.9 V;VCC = 3.0 to 3.6 VTHS = 0: VPFD ≈ 2.63 V;VCC = 2.7 to 3.6 VTwo independent power-fail comparators (1.25 V reference)Counters for tenths/hundredths of seconds, seconds, minutes, hours, day, date, month, year, and century128 bytes of clearable, general purpose NVRAMProgrammable alarm and interrupt function (valid even during battery backup mode)Programmable watchdog timerUnique electronic serial number (8-byte)32 kHz frequency output available upon power-onMicroprocessor power-on reset outputBattery low flagUltra-low battery supply current of 500 nA (typ) ApplicationsAerospaceMilitary DefenceNetwork CommunicationsIndustrial ControlInternet of Things ManufacturerSTMicroelectronics is a world-renowned semiconductor manufacturer and the world's number one manufacturer of dedicated analogue and power conversion chips, with a high market share in discrete devices, mobile phone camera modules and automotive ICs. The company's manufacturing processes include advanced CMOS logic, mixed-signal, analogue and power manufacturing processes. AdvantagesThe M41ST87WSS6F has two completely independent tamper detections, allowing multiple locations within the system to be detected. There is also an option to allow data stored in internal or extrnal memory to be erased while protecting sensitive information in the event of tampering. SpecificationsTYPEDESCRIPTIONCategoryIntegrated Circuits (ICs), Clock/Timing, Real Time ClocksMfrSTMicroelectronicsSeries-PackageTape & Reel (TR)Cut Tape (CT)Digi-ReelProduct StatusActiveDigi-Key ProgrammableNot VerifiedTypeClock/CalendarFeaturesAlarm, Leap Year, NVSRAM, Square Wave Output, Supervisor, Watchdog TimerMemory Size128BTime FormatHH:MM:SS:hh (24 hr)Date FormatYY-MM-DD-ddInterfaceI2C, 2-Wire SerialVoltage - Supply2.7V ~ 3.6VVoltage - Supply, Battery2.5V ~ 3.6VCurrent - Timekeeping (Max)0.5mA @ 2.7V ~ 3.6VOperating Temperature-40℃ ~ 85℃Mounting TypeSurface MountPackage / Case20-SSOP (0.209", 5.30mm Width)Supplier Device Package20-SSOPBase Product NumberM41ST87  Where to use M41ST87WSS6FWith extended operating temperatures from -40°C to 85°C, the M41ST87WSS6F is suitable for those applications with supply voltages from 2.7V to 3.6V. The M41ST87WSS6F is used in a 20-pin, lead-free, compact size SSOP for many applications, including but not limited to IoT, network communications, etc. DatasheetDatasheetFAQWhat features does the M41ST87WSS6F have?Alarm, Leap Year, NVSRAM, Square Wave Output, Supervisor, Watchdog Timer What provides the capacity required to maintain SRAM and clock operation in the event of a power failure?The energy can be supplied by a small lithium button-cell supply when a power failure occurs. What is the purpose of the power sense circuit built into the M41ST87WSS6F?It can detects power failures and automatically switches to the battery supply when a power failure occurs.  
Karty On 2023-06-05   179
Integrated Circuits (ICs)

A Brief Introduction Of LM46002PWPR Dc Switching Regulator

CatalogLM46002PWPR OverviewLM46002PWPR Related VideoLM46002PWPR CAD ModelLM46002PWPR Block DiagramLM46002PWPR Pin ConfigurationLM46002PWPR Package OutlineLM46002PWPR FeaturesLM46002PWPR ApplicationsLM46002PWPR SpecificationsLM46002PWPR DatasheetLM46002PWPR ManufacturerLM46002PWPR FAQsLM46002PWPR OverviewThe LM46002PWPR regulator is a simple synchronous step-down DC-DC converter that operates between 3.5 and 60 volts. It can deliver up to 2-A DC load current while maintaining exceptional efficiency and thermal performance in a tiny solution size. An extended family is available in pin-to-pin-compatible packages with 0.5-A and 1-A load options.LM46002PWPR Related VideoDIY  DC-DC converter video introduction: The explanation made everything clear and straightforward. You don't need to try hard to understand buck converters because this video does a great job.LM46002PWPR CAD ModelFigure1: LM46002PWPR 3d model Figure2: LM46002PWPR PCB Symbol Figure3: LM46002PWPR Footprint LM46002PWPR Block DiagramFigure4: LM46002PWPR Functional Block Diagram LM46002PWPR Pin ConfigurationFigure5: LM46002PWPR Pin Configuration LM46002PWPR Package OutlineFigure6: LM46002PWPR Package Outline LM46002PWPR Features• 27-µA Quiescent current in regulation• High efficiency at light load (DCM and PFM)• Meets EN55022/CISPR 22 EMI standards• Integrated synchronous rectification• Adjustable frequency range: 200 kHz to 2.2 MHz(500 kHz default)• Frequency synchronization to an external clock• Internal compensation• Stable with almost any combination of ceramic,polymer, tantalum, and aluminum capacitors• Power-good flag• Soft start into the pre-biased load• Internal soft start: 4.1 ms• Extendable soft-start time by an external capacitor• Output voltage tracking capability• Precision enables to program system UVLO• Output short-circuit protection with hiccup mode• Overtemperature thermal shutdown protection• Create a custom design using the LM46002 with the WEBENCH® Power DesignerLM46002PWPR Applications• Industrial power supplies• Telecommunications systems• Sub-AM band automotive• Commercial vehicle power supplies• General-purpose-wide VIN regulation• High-efficiency point-of-load regulation LM46002PWPR SpecificationsTYPEDESCRIPTIONCategoryIntegrated Circuits (ICs)Power Management(PMIC)Voltage Regulators-DC DC Switching RegulatorsMfrTexas InstrumentsSeriesSIMPLE SWITCHERPackageTape & Reel (TR)Cut Tape (CT)Digi-ReelProduct StatusActiveFunctionStep-DownOutput ConfigurationPositiveTopologyBuckOutput TypeAdjustableNumber of Outputs1Voltage - Input (Min)3.5VVoltage - Input (Max)60VVoltage - Output (Min/Fixed)1VVoltage - Output (Max)28VCurrent - Output2AFrequency - Switching200kHz ~ 2.2MHzSynchronous RectifierYesOperating Temperature-40℃ ~ 125℃(TJ)Mounting TypeSurface MountPackage / Case16-PowerTSSOP (0.173", 4.40mm Width)Supplier Device Package16-HTSSOPBase Product NumberLM46002LM46002PWPR DatasheetYou can download the datasheet from the link given below:LM46002PWPRLM46002PWPR ManufacturerTexas Instruments has worked tirelessly for years to improve the world by lowering the cost of electronics by using semiconductors. They helped pave the way for the world's transition from vacuum tubes to transistors and eventually to integrated circuits (ICs), and they have been developing IC technology and improving IC production reliability for decades.Texas Instruments creates, produces, tests, and sells analog and embedded semiconductors for use in industrial, automotive, consumer electronics, business systems, and communications equipment. They can be purchased from the Kynix distributor.LM46002PWPR FAQs What is the difference between LM46002PWPR and AP3012KTR-G1?The 16-lead HTSSOP / PWP package (6.6 mm 5.1 mm 1.2 mm) with 0.65-mm lead pitch is available for the LM46002PWPR dc switching regulator. The AP3012KTR-G1 comes in a standard SOT-23-5 package. Both dc switching regulators (DCM and PFM) have high efficiency at light loads.What are the pros of the LM46002PWPR Dc switching regulator?The frequency range of the LM46002PWPR Dc switching regulator is adjustable from 200 kHz to 2.2 MHz. And the LM46002PWPR is stable with almost any combination of ceramic, polymer, tantalum, and aluminum capacitors when used in commercial vehicle power supplies.What is the best Dc switching regulator?Be based on your most pressing requirements. The LM46002PWPR has a high efficiency of up to 90%, whereas the AP3012KTR-G1 dc switching regulator has an efficiency of 81%. The LM46002PWPR dc switching regulator also has a supply voltage range of 3.5 V to 60 V (1.5MHz), whereas the AP3012KTR-G1 has an adjustable output voltage range of up to 29V.
kynix On 2023-05-27   608
Integrated Circuits (ICs)

DS18B20 Temperature Sensor: Circuit, Equivalents,and Pinout

DS18B20 DescriptionDS18B20 CAD ModelsDS18B20 Pinout and ConfigurationsDS18B20 ApplicationsDS18B20 FeaturesDS18B20 Circuit SchematicDS18B20 ManufacturerDS18B20 EquivalentsDS18B20 AlternativesHow to use DS18B20?Where to use DS18B20?DS18B20 PackageDS18B20 FAQDS18B20 Description The DS18B20 digital thermometer provides 9-bit to 12-bit Celsius temperature measurements and has an alarm function with nonvolatile user-programmable upper and lower trigger points. The DS18B20 communicates over a 1-Wire bus that by definition requires only one data line (and ground) for communication with a central microprocessor. In addition, the DS18B20 can derive power directly from the data line (“parasite power”), eliminating the need for an external power supply.Each DS18B20 has a unique 64-bit serial code, which allows multiple DS18B20s to function on the same 1-Wire bus. Thus, it is simple to use one microprocessor to control many DS18B20s distributed over a large area. Applications that can benefit from this feature include HVAC environmental controls, temperature monitoring systems inside buildings, equipment, or machinery, and process monitoring and control systems. DS18B20 CAD ModelsSymbolFootprint3D ModelsDS18B20 Pinout and Configurations No:Pin NameDescription1GroundConnect to the ground of the circuit2VccThe powers of the Sensor can be 3.3V or 5V3DataThis pin gives output the temperature value which can be read using the 1-wire methodDS18B20 ApplicationsConsumer ProductsIndustrial SystemsThermally Sensitive SystemsThermometersThermostatic ControlsDS18B20 Features 1. Unique 1-Wire® Interface Requires Only One Port Pin for Communication2.  Reduce Component Count with Integrated Temperature Sensor and EEPROMMeasures Temperatures from -55°C to +125°C (-67°F to +257°F)±0.5°C Accuracy from -10°C to +85°CProgrammable Resolution from 9 Bits to 12 BitsNo External Components Required3. Parasitic Power Mode Requires Only 2 Pins for Operation (DQ and GND)4. Simplifies Distributed Temperature-Sensing Applications with Multidrop Capability  Each Device Has a Unique 64-Bit Serial Code Stored in On-Board ROM5. Flexible User-Definable Nonvolatile (NV) Alarm Settings with Alarm Search Command  Identifies  Devices with  Temperatures Outside Programmed Limits6. Available in 8-Pin SO (150 mils), 8-Pin µSOP, and 3-Pin TO-92 Packages DS18B20 Circuit Schematic DS18B20 Manufacturer Maxim Integrated provides ease of design and speeds time to market, through analog integration. The company's analog ICs offer extra features and functionality carefully designed to streamline circuits and simplify the design. Look to Maxim for solutions for consumer electronics, personal computers and peripherals, mobile devices, wireless and fiber communications, test equipment, instrumentation, video displays, and automotive applications. Maxim’s analog and mixed-signal solutions include data converters, interface circuits, power, RF wireless circuits, clocks and oscillators, microcontrollers (MCUs), operational amplifiers (op-amps), and sensors. DS18B20 EquivalentsDS18S20 DS18B20 AlternativesThermocouple, TMP100, LM75, DHT11, SHT15, LM35DZ, TPA81, D6THow to use DS18B20? The sensor works with the method of 1-Wire communication. It requires only the data pin connected to the microcontroller with a pull-up resistor and the other two pins are used for power as shown below.When the bus is not in use, the pull-up resistor keeps the line in a high condition. The sensor's temperature reading will be saved in a 2-byte register inside the sensor. This data can be read using the 1-wire approach, which involves delivering a series of data. To read the values, two types of commands must be sent: one is a ROM command, and the other is a function command. If you plan to connect it to an Arduino board, you won't have to worry about any of these issues. You can utilize the built-in functions to access the data and construct the conveniently available library. Where to use DS18B20? Maxim integrated's DS18B20 is a 1-wire programmable Temperature sensor. It's commonly used to detect the temperature in harsh settings like chemical solutions, mines, and soil, among other things. The sensor's construction is tough, and it may also be ordered with a waterproof variant, making installation simple. It has a good accuracy of 5°C and can measure a wide range of temperatures from -55°C to +125°C. Each sensor has its own address and only uses one MCU pin to transport data, making it an excellent choice for sensing temperature at various locations without sacrificing too many of your microcontroller's digital pins. DS18B20 Package                                              TO-92DS18B20 FAQ1. How does the DS18B20 work?It works on the principle of direct conversion of temperature into a digital value. 2. What is the working principle of DS18B20?The DS18B20 Digital Thermometer provides 9 to 12-bit (configurable) temperature readings which indicate the temperature of the device. It communicates over a 1-Wire bus that by definition requires only one data line (and ground) for communication with a central microprocessor. In addition it can derive power directly from the data line (“parasite power”), eliminating the need for an external power supply.The core functionality of the DS18B20 is its direct-to-digital temperature sensor. The resolution of the temperature sensor is user-configurable to 9, 10, 11, or 12 bits, corresponding to increments of 0.5°C, 0.25°C, 0.125°C, and 0.0625°C, respectively. The default resolution at power-up is 12-bit. 3.How connect DS18B20 to Arduino?First plug the sensor on the breadboard the connect its pins to the Arduino using the jumpers in the following order: pin 1 to GND; pin 2 to any digital pin (pin 2 in our case); pin 3 to +5V or +3.3V, at the end put the pull-up resistor. 4. Is DS18B20 a thermistor?A thermistor is a thermal resistor - a resistor that changes its resistance with temperature. ... Thermistors have some benefits over other kinds of temperature sensors such as analog output chips (LM35/TMP36 ) or digital temperature sensor chips (DS18B20) or thermocouples. 5. What’s DS18B20 power supply range?  3.0V to 5.5V          
kynix On 2023-05-25   674
Integrated Circuits (ICs)

BQ24620RVAT phosphate battery charger: Datasheet, Features, Application[FAQ]

catalog Description BQ24620RVAT CAD model BQ24620RVAT block diagram Features Applications Manufacturer Advantages Specifications Where to use BQ24620RVAT Datasheet FAQ Description The Texas Instruments BQ24620RVAT is a stand-alone, integrated phosphate battery charger that uses a switch-mode synchronous buck PWM controller with a constant switching frequency. The BQ24620RVAT features high-precision charge current and voltage regulation, charge pre-processing, and charge status monitoring. The device integrates a fault detector to ensure the safety of the battery during the charging process. If you are interested in the BQ24620RVAT, please read on.   BQ24620RVAT CAD model Symbol Footprint   BQ24620RVAT block diagram Block Diagram Features 300-kHz NMOS-NMOS Synchronous BuckConverterStand-Alone Charger Designed Specifically forLithium Phosphate5-V to 28-V VCC Operating Range, Support s 1 to7 Battery CellsHigh-Accuracy Voltage and Current Regulation - ±0.5%Charge Voltage Accuracy - ±3%Charge Current Accuracy Integration -Internal Loop Compensation -Intem alSoft Start Safety -Input Overvoltage Protection -Battery Thermistor Sense Suspend Charge at Hot/Cold Charge Suspend and Automatically I·CHARGE/8 atWARM/COOL - Battery Detection - Built-In Safety Timer - Charge Overcurrent Protection - Battery Short Protection - Battery Overvoltage Protection - Thermal Shutdown Status Outputs - Adapter Present - Charger Operation Status Charge Enable Pin6-V Gate Drive for Synchronous Buck Converter30-ns Driver DeadTime and 99.95%MaximumEffective Duty Cycle16-Pin 3.5-mmx 3.5-mm QFN PackageEnergyStar Low lg - <15-pA Off-State Battery Discharge Current - <1.5-mA Off-State Input Quiescent Current   Applications PowerTools and Portable EquipmentPersonal Digital AssistantsHandheld TerminalsIndustrial and Medical EquipmentNet books, Mobile Internet Devices, andUltramobile PCs   Manufacturer Texas Instruments is a leading global semiconductor company in Texas, USA, with a reputation for developing, manufacturing and marketing semiconductors and computer technology. Texas Instruments has a dominant position in markets such as digital signal processors, analog circuit components, and energy management. TI is committed to making the world a better place by making electronics more affordable and practical through semiconductor technology.   Advantages The BQ24620RVAT has two status pins, STAT and PG, to indicate charging status and input voltage (AC adapter) status, which can be used to drive LEDs and host processor communication. In addition, the BQ24620RVAT can integrate battery overvoltage protection, battery short circuit detection, thermal shutdown and other fault detectors to ensure the safety of the battery.   Specifications TYPEDESCRIPTIONCategoryIntegrated Circuits (ICs), Power Management (PMIC),Battery ChargersPower Management (PMIC)Texas InstrumentsBattery Chargers-MfrTape & Reel (TR)Texas InstrumentsCut Tape (CT)SeriesDigi-Reel-ActivePackageLithium Iron PhosphateTape & Reel (TR)1 ~ 7Cut Tape (CT)Constant - ProgrammableDigi-Reel®-Product StatusOver Current, Over Temperature, Over Voltage, Short CircuitActive10ABattery Chemistry26V (Max)Lithium Iron Phosphate28VNumber of Cells-1 ~ 7-40℃ ~ 85℃ (TA)Current - ChargingSurface MountConstant - Programmable16-VFQFN Exposed PadProgrammable Features16-VQFN (3.5x3.5)- BQ24620     Where to use BQ24620RVAT The BQ24620RVAT is flexible enough to be used in industrial and medical devices, handheld terminals, personal digital assistants, and other applications. It maintains stable performance over the operating range of -40°C to 85°C, and its maximum battery pack voltage is 26 V. The BQ24620RVAT is used in a lead-free, compact size, 16-pin VQFN.   Datasheet Datasheet FAQ How many stages of battery charging are there for the BQ24620RVAT? 3, which are: precharge, constant current(fast-charge current regulation) , and constant voltage(fast-charge voltage regulation)   What are the fault protection of the BQ24620RVAT? Over Current, Over Temperature, Over Voltage, Short Circuit   What is the battery chemistry of the  BQ24620RVAT? Lithium Iron Phosphate    
Karty On 2023-05-24   122
Integrated Circuits (ICs)

LPC2378FBD144 microcontroller: Datasheet, Features, Application[FAQ]

catalog Description LPC2378FBD144 CAD model LPC2378FBD144 block diagram Features Applications Manufacturer Advantages Specifications Where to use LPC2378FBD144 Datasheet FAQ Description The NXP LPC2378FBD144 is a microcontroller with real-time emulation, ideal for multi-purpose serial communication applications. The LPC2378FBD144 integrates a 10/100 Ethernet media access controller (MAC), USB full-speed device, four UARTs, two CAN channels, and more, and also combines a microcontroller with 512KB of embedded high-speed flash memory, suitable for industrial control and medical systems. Here are the details of the device, if interested, read on.   LPC2378FBD144 CAD model Footprint 3D model LPC2378FBD144 block diagram Block Diagram Features ARM7TDMI-S processor, running at up to 72 MHz.Up to 512 kB on-chip flash program memory with In-System Programming (ISP) and In-Application Programming (IAP) capabilities. Flash program memory is on the ARM local bus for high performance CPU access.32 kB of SRAM on the ARM local bus for high performance CPU access.16 kB SRAM for Ethernet interface. Can also be used as general purpose SRAM.8 kB SRAM for general purpose DMA use; also accessible by the USB.Dual Advanced High-performance Bus (AHB) system that provides for simultaneous Ethernet DMA, USB DMA, and program execution from on-chip flash with no contention between those functions. A bus bridge allows the Ethernet DMA to access the other AHB subsystem.EMC provides support for static devices such as flash and SRAM as well as off-chip memory mapped peripherals.Advanced Vectored Interrupt Controller (VIC), supporting up to 32 vectored interrupts.General Purpose DMA controller (GPDMA) on AHB that can be used with the SSP serial interfaces, the I2S port, and the Secure Digital/MultiMediaCard (SD/MMC) card port, as well as for memory-to-memory transfers.Serial Interfaces: u - Ethernet MAC with associated DMA controller. These functions reside on an independent AHB. u - USB 2.0 full-speed device with on-chip PHY and associated DMA controller (LPC2378 only). u - Four UARTs with fractional baud rate generation, one with modem control I/O, one with IrDA support, all with FIFO. u- CAN controller with two channels (LPC2378 only). u- SPI controller. u- Two SSP controllers with FIFO and multi-protocol capabilities. One is an alternate for the SPI port, sharing its interrupt and pins. These controllers can be used with the GPDMA controller. u - Three I2C-bus interfaces (one with open-drain and two with standard port pins). u -I2S (Inter-IC Sound) interface for digital audio input or output. It can be used with the GPDMA. Other peripherals: u - SD/MMC memory card interface. u - 104 General purpose I/O pins with configurable pull-up/down resistors. u - 10-bit ADC with input multiplexing among 8 pins. u - 10-bit DAC. u - Four general purpose timers/counters with 8 capture inputs and 10 compare outputs. Each timer block has an external count input. u - One PWM/timer block with support for three-phase motor control. The PWM has two external count inputs. u  - Real-Time Clock (RTC) with separate power pin, clock source can be the RTC oscillator or the APB clock. u   - 2 kB SRAM powered from the RTC power pin, allowing data to be stored when the rest of the chip is powered off. u   - WatchDog Timer (WDT). The WDT can be clocked from the internal RC oscillator, the RTC oscillator, or the APB clock.    Applications Industrial controlMedical systemsProtocol converterCommunications   Manufacturer Founded in 2006, NXP is the world leader in the field of NFC, with the largest market share in the fields of in-vehicle entertainment systems, in-vehicle networks and security identification. NXP also has a pivotal position in the RF, analog, interface, security and digital processing markets, and its products and solutions can be widely used in automotive, intelligent identification, unlimited infrastructure and computing.   Advantages The LPC2378FBD144 includes an ARM7TDMI-S CPU with emulation capabilities for tight coupling and high-speed access to most on-chip memory. The LPC2378FBD144 features a 128-bit wide memory interface and a unique accelerator architecture that allows the device to execute 32-bit code at maximum clock frequencies.   Specifications TYPEDESCRIPTIONCategoryIntegrated Circuits (ICs),Embedded,MicrocontrollersMfrNXP USA Inc.SeriesLPC2300PackageTrayProduct StatusActiveDigi-Key ProgrammableNot VerifiedCore ProcessorARM7Core Size16/32-BitSpeed72MHzConnectivityCANbus, EBI/EMI, Ethernet, I2C, Microwire, Memory Card, SPI, SSI, SSP, UART/USART, USBPeripheralsBrown-out Detect/Reset, DMA, I2S, POR, PWM, WDTNumber of I/O104Program Memory Size512KB (512K x 8)Program Memory TypeFLASHEEPROM Size-RAM Size58K x 8Voltage - Supply (Vcc/Vdd)3V ~ 3.6VData ConvertersA/D 8x10b SAR; D/A 1x10bOscillator TypeExternal, InternalOperating Temperature-40℃ ~ 85℃ (TA)Mounting TypeSurface MountPackage / Case144-LQFPSupplier Device Package144-LQFP (20x20)Base Product NumberLPC2378   Where to use LPC2378FBD144 The LPC2378FBD144 is flexible and suitable for industrial control and medical systems. LPC2378FBD144 operates stably in the temperature range of -40℃ to 85℃. Its reference power supply voltage is from 3V to 3.6V. The temperature and voltage of the application should be ensured within this range.   Datasheet Datasheet FAQ What is the architecture of the ARM? The ARM architecture is based on Reduced Instruction Set Computer (RISC) principles, and the instruction set and related decode mechanism are much simpler than the architecture of microprogrammed complex instruction set computers.   What are the peripherals of the  LPC2378FBD144 ? Brown-out Detect/Reset, DMA, I²S, POR, PWM, WDT   What are the connectivity of the  LPC2378FBD144 ? CANbus, EBI/EMI, Ethernet, I²C, Microwire, Memory Card, SPI, SSI, SSP, UART/USART, USB  
Karty On 2023-05-22   114
Integrated Circuits (ICs)

ENA1J-B28-L00128L Encoder: CAD Model, Features, Applications, Datahseet[video&faqs]

CatalogWhy Is The ENA1J-B28-L00128L Encoder Important?ENA1J-B28-L00128L Related Video IntroductionENA1J-B28-L00128L CAD ModelWhat Technical Specifications Should We Be Aware Of?ENA1J-B28-L00128L SpecificationsENA1J-B28-L00128L FeaturesENA1J-B28-L00128L ApplicationsWhat Is The Comparison Between ENA1J-B28-L00128L And AEAT-6600-T16?ENA1J-B28-L00128L DatasheetENA1J-B28-L00128L FAQs Why Is The ENA1J-B28-L00128L Encoder Important? The ENA1J-B28-L00128L encoder is significant because it is a precise sensing device that measures rotary or linear movement and converts that motion into an electrical signal, providing accurate position and speed information. It is used in a wide range of industrial and commercial applications, such as automated metal-forming machinery, audio-visual equipment, consumer electronics, radios, musical instruments, and communications equipment. The ENA1J-B28-L00128L encoder's high resolution, accuracy, and reliability make it essential for precision and high-performance equipment. ENA1J-B28-L00128L Related Video Introduction Video Introduction: Do you want to know more about rotary encoders and how to use them with an Arduino? The video below will explain it all!  ENA1J-B28-L00128L CAD Model Figure1: ENA1J-B28-L00128L Symbol  Figure2: ENA1J-B28-L00128L Footprint  ENA1J-B28-L00128L 3D model  What Technical Specifications Should We Be Aware Of? Resolution: The number of cycles per revolution or cycles per inch of an encoder is referred to as its resolution. With a resolution of up to 256 PPR, the ENA1J-B28-L00128L is ideal for use as a digital panel control or as a position-sensing device in applications requiring long life, reliability, high resolution, and precise linearity. Accuracy: Precision is the difference between repeated measurements and accuracy is the difference between the target position and the actual reported position. Understanding the ENA1J-B28-L00128L encoder's accuracy can aid in the selection of the appropriate encoder for a specific application, ensuring optimal performance and minimizing errors. Speed: The basic formula is Speed (m/min) = Distance per 1 pulse x Number of output pulses / Time is taken. The ENA1J-B28-L00128L has a ball-bearing option for high operating speeds of up to 3000 rpm.  ENA1J-B28-L00128L Specifications Product AttributeAttribute ValueManufacturer:BournsProduct Category:EncodersSeries:ENMounting Style:Panel MountProduct:Optical EncodersType:IncrementalResolution:128 PPRTechnology:RotaryNumber of Detents:No DetentNumber of Channels:2 ChannelTermination Style:PC PinOutput Type:QuadratureShaft Diameter:1/4 inShaft Type:Round / PlainWith Switch:Without SwitchOperating Supply Voltage:5 VDCPackaging:TrayBrand:BournsBushing Material:MetalBushing Size:3/8 in x 3/8 inBushing Thread:3/8-32 UNEFMaximum Operating Temperature:+ 75 ℃Minimum Operating Temperature:- 40 ℃Product Type:EncodersShaft Length:7/8 inSize / Dimension:21 mm x 16 mm  Subcategory:EncodersTradename:Pro AudioUnit Weight:0.455034 oz How Does The ENA1J-B28-L00128L Encoder Work? The ENA1J-B28-L00128L encoder converts rotary input into electrical signals that can be used by microprocessors without requiring A/D conversion. The encoder and decoder employ combinational logic circuits. The encoder generates binary code, whereas the decoder receives binary code, which is one of the primary distinctions between these two terminologies.Furthermore, how does the ENA1J-B28-L00128L encoder indicate movement direction? The ENA1J-B28-L00128L converts motion into an electrical signal that can be read by the control device of a motion control system, such as a counter or PLC. The encoder sends out a feedback signal, which can be used to compute position, count, speed, or direction. Furthermore, encoders are devices that convert data or signals using a specific code.  ENA1J-B28-L00128L Features • Two-channel quadrature output• Bushing or servo mount• Square wave signal• Small size• Resolution to 256 PPR• CMOS and TTL compatible• Long life• Ball bearing option for high operating speed up to 3000 rpm• RoHS compliant* ENA1J-B28-L00128L Application • Automated metal forming machinery• Audio-visual equipment• Consumer electric appliances• Radios• Musical instrumentation• Communications equipment What Is The Comparison Between ENA1J-B28-L00128L And AEAT-6600-T16? The distinction between ENA1J-B28-L00128L and AEAT-6600-T16 is as follows. The ENA1J-B28-L00128L is ideal for use as a digital panel control with a resolution of up to 256 PPR, whereas the AEAT-6600-T16 has an absolute angle measurement with a resolution of 0.005° = 65,536 positions per revolution and incremental output resolutions ranging from 8 to 1024 CPR. You can select the appropriate encoder for your musical instruments and communications equipment. ENA1J-B28-L00128L Datasheet You also can download the ENA1J-B28-L00128L datasheet from the link given below: ENA1J-B28-L00128L ENA1J-B28-L00128L FAQs What is the ENA1J-B28-L00128L encoder IC? The ENA1J-B28-L00128L encoder is ideal for use as a digital panel control or as a position-sensing device in applications requiring long life, reliability, high resolution, and precise linearity. It also generates a 2-bit quadrature signal, which is appropriate for digital systems that require both magnitude and direction of adjustment. What is the function of the ENA1J-B28-L00128L encoder IC? The encoder IC ENA1J-B28-L00128L converts rotary input into electrical signals that microprocessors can use without A/D conversion. It is a combinational circuit that reverses the Decoder operation. What is the purpose of the ENA1J-B28-L00128L encoder in real life? The ENA1J-B28-L00128L encoder is used in automated metal-forming machineries like extruders, presses, punches, and welders.
kynix On 2023-05-22   678

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