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Integrated Circuits (ICs)

RN4871 Bluetooth Low Energy Module: CAD Models, Datasheet, Arduino [Video&FAQ]

CatalogRN4871 DescriptionRN4871 Related Video InstructionRN4871 CAD ModelsRN4871 Pin ConfigurationRN4871 Block DiagramRN4871 FeaturesRN4871 ApplicationsRN4871 DatasheetRN4871 SpecificationsRN4871 ManufacturerUsing WarningRN4871 FAQ RN4871 DescriptionThe RN4870/RN4871 BLE module integrates Bluetooth 5.0 baseband controller, on-board Bluetooth stack, digital and analog I/Os and RF power amplifier into one solution. RN4871 Related Video InstructionVideo:Bluetooth Low Energy Modules, Solutions and Applications - Bluetooth LE, BLERN4871 Video Description:Bluetooth Low Energy, also known as Bluetooth LE or BLE is a wireless computer network technology aimed at novel applications in the healthcare, fitness, security, and home entertainment industries. Compared to classic Bluetooth technology, BLE requires much lower power consumption and offers a lower cost while maintaining the same communication range. RN4871 CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model RN4871 Pin Configuration Figure: Pin Configuration RN4871 Block Diagram Figure: Block Diagram RN4871 FeaturesQualified for Bluetooth SIG v5.0 Core SpecificationCertified to FCC, ISED, CE, KCC, NCC and SRRCOn-Board Bluetooth Low Energy (BLE) StackASCII Command Interface API Over UARTScripting Engine for Hostless OperationCompact Form Factor–The RN4870/71 family comes in four different sizes, from 6 mm x 8 mm to 12 mm x 22 mm:- RN4870: 12 mm x 22 mm- RN4871: 9 mm x 11.5 mm- RN4870U: 12 mm x 15 mm- RN4871U: 6 mm x 8 mmBeacon Private Service for Beacon ServicesUART Transparent Service for Serial Data ApplicationsRemote Configuration Over-the-Air RN4871 ApplicationsHealth/Medical DevicesSports Activity/Fitness MetersBeacon ApplicationsInternet of Things (IoT) Sensor TagRemote ControlWearable Smart Devices and AccessoriesSmart Energy/Smart HomeIndustrial Control RN4871 DatasheetYou can download the datasheet from the link given below.RN4871-Datasheet RN4871 SpecificationsProduct AttributeAttribute ValueManufacturer:MicrochipProduct Category:Bluetooth Modules - 802.15.1Series:RN4871Protocol:Bluetooth 5.0Class:Bluetooth Low Energy (BLE)Interface Type:UARTOutput Power:0 dBmData Rate:10 kb/sReceiver Sensitivity:- 90 dBmFrequency:2.44 GHzOperating Supply Voltage:1.9 V to 3.6 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CPackaging:TrayAntenna:ChipBrand:Microchip TechnologyFrequency Range:2.402 GHz to 2.48 GHzLength:11.5 mmMounting Style:SMD/SMTProduct Type:Bluetooth ModulesSensitivity:- 90 dBmShielding:ShieldedFactory Pack Quantity:171Subcategory:Wireless & RF ModulesSupply Current Receiving:10 mASupply Current Transmitting:10 mAType:USB AdapterWidth:9 mmUnit Weight:0.130443 oz RN4871 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. RN4871 FAQWhat is Bluetooth Low Energy module? Bluetooth Low Energy (Bluetooth LE, colloquially BLE, formerly marketed as Bluetooth Smart) is a wireless personal area network technology designed and marketed by the Bluetooth Special Interest Group (Bluetooth SIG) aimed at novel applications in the healthcare, fitness, beacons, security, and home entertainment. What is the difference between Bluetooth and Bluetooth Low Energy? The difference lies in how they distribute data for energy savings. Bluetooth can handle a lot of data but quickly consumes battery life and costs a lot more. Bluetooth Low Energy is used for applications that do not need to exchange large amounts of data and can run on battery power for years at a cheaper cost. Is Bluetooth 5.0 low-energy? The Bluetooth 5 spec allows low-energy transmissions to sacrifice data rate for more range. A lot more range: up to four times the range of Bluetooth 4.2 LE, for a maximum of around 800 feet. Does my phone support Bluetooth Low Energy? Make sure you are in the Hardware section of the sidebar. Find and select Bluetooth. Check the Bluetooth Low Energy Supported line.  How does Bluetooth Low Energy work? BLE positioning works through BLE beacons mounted on walls to determine the location of BLE compatible devices, such as mobile phones for BLE tracking tags. Due to the low power consumption of BLE beacons they are able to work for years using a single battery. 
kynix On 2022-04-08   1358
Discrete Semiconductor Products

IRF1404 MOSFET: Datasheet, Equivalents, Pinout [Video&FAQ]

Product OverviewSeventh Generation HEXFET® Power MOSFETs from International Rectifier utilize advanced processing techniques to achieve extremely low on-resistance per silicon area. This benefit, combined with the fast switching speed and ruggedized device design that HEXFET power MOSFETs are well known for, provides the designer with an extremely efficient and reliable device for use in a wide variety of applications. The TO-220 package is universally preferred for all commercial-industrial applications at power dissipation levels to approximately 50 watts. The low thermal resistance and low package cost of the TO-220 contribute to its wide acceptance throughout the industry. This blog will introduce IRF1404 systematically from its features, pinout to its specifications, applications, also including IRF1404 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionIRF1404 FeaturesIRF1404 PinoutIRF1404 EquivalentsIRF1404 Circuit DiagramIRF1404 PackageIRF1404 SpecificationIRF1404 ManufacturerIRF1404 DatasheetUsing WarningsIRF1404 FAQ Related Video Introduction Video: IRF1404 mosfet Inverter Circuit IRF1404 Video Description: In today's video, you will learn how to make IRF1404 mosfete Inverter  Circuit Diagram using Proteus software. IRF1404 FeaturesPlanar cell structure for wide SOA Optimized for broadest availability from distribution partnersProduct qualification according to JEDEC standardIndustry standard surface-mount power packageHigh-current ratingIncreased ruggednessMulti-vendor compatibilityIndustry standard qualification levelStandard pinout allows for drop in replacementHigh current carrying capability IRF1404 PinoutThe following figure is the diagram of IRF1404 pinout. VDSS = 40VRDS(on) = 0.004ΩID = 202A IRF1404 Pinout IRF1404 EquivalentsIRF2804IRFB3004IRFB3077IRFB3077IRFB3206IRFB3004IRFB3006IRFB3006GIRFB3004GIRFB3077 IRF1404 Circuit DiagramThe following are the circuit diagrams of IRF1404. Switching Time Test Circuit Unclamped Inductive Test Circuit  Gate Charge Test Circuit Peak Diode Recovery dv/dt Test Circuit IRF1404 PackageThe following diagram shows the IRF1404 package. IRF1404 Package IRF1404 SpecificationProduct AttributeAttribute ValueManufacturer:InfineonProduct Category:MOSFETTechnology:SiMounting Style:Through HolePackage / Case:TO-220-3Transistor Polarity:N-ChannelNumber of Channels:1 ChannelVds - Drain-Source Breakdown Voltage:40 VId - Continuous Drain Current:162 ARds On - Drain-Source Resistance:4 mOhmsVgs - Gate-Source Voltage:- 20 V, + 20 VQg - Gate Charge:160 nCMinimum Operating Temperature:- 55 CMaximum Operating Temperature:+ 175 CPd - Power Dissipation:333 WChannel Mode:EnhancementBrand:Infineon / IRConfiguration:SingleFall Time:33 nsHeight:15.65 mmLength:10 mmProduct Type:MOSFETRise Time:190 nsTransistor Type:1 N-Channel IRF1404 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. IRF1404 DatasheetYou can download IRF1404 datasheet from the link given below:IRF1404 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. IRF1404 FAQWhat is the difference between power Mosfet and MOSFET?Power MOSFET is a type of MOSFET which is specially meant to handle high levels of power. These exhibit high switching speed and can work much better in comparison with other normal MOSFETs in the case of low voltage levels. However its operating principle is similar to that of any other general MOSFET. What does MOSFET power mean?Power MOSFET is a type of metal oxide semiconductor field-effect transistor used to switch large amounts of current. Power MOSFETs are the most commonly used power devices due to their low gate drive power, fast switching speed and superior paralleling capability. Engineering Glossary. What are the applications of power Mosfet?Power MOSFETs are commonly used in automotive electronics, particularly as switching devices in electronic control units, and as power converters in modern electric vehicles. The insulated-gate bipolar transistor (IGBT), a hybrid MOS-bipolar transistor, is also used for a wide variety of applications. What is the disadvantage of MOSFET?Has a short life. Required repeated calibration for accurate dose measurement. They have very susceptible to overload voltage, hence due to installation special handling is to be required. What are advantages of power Mosfet?The power MOSFET is the most common power semiconductor device in the world, due to its low gate drive power, fast switching speed, easy advanced paralleling capability, wide bandwidth, ruggedness, easy drive, simple biasing, ease of application, and ease of repair.
Kynix On 2022-01-12   1357
Integrated Circuits (ICs)

STM32F103RET6 32-bit MCU: Datasheet PDF, CAD Models, Pinout [Video&FAQ]

CatalogSTM32F103RET6 DescriptionSTM32F103RET6 Related Video InstructionSTM32F103RET6 CAD ModelsSTM32F103RET6 PriceSTM32F103RET6 PinoutSTM32F103RET6 Block DiagramSTM32F103RET6 FeaturesSTM32F103RET6 ApplicationsSTM32F103RET6 DatasheetSTM32F103RET6 Reference ManualSTM32F103RET6 SpecificationsSTM32F103RET6 ManufacturerUsing WarningSTM32F103RET6 FAQSTM32F103RET6 DescriptionThe STM32F103xC , STM32F103xD and STM32F103xE performance line family incorporates the high-performance Arm Cortex-M3 32-bit RISC core operating at a 72 MHz frequency,high-speed embedded memories (Flash memory up to 512 Kbytes and SRAM  up to 64 Kbytes), and an extensive range of enhanced I/Os and peripherals connected to two APB buses. All devices offer three 12-bit ADCs , four general-purpose 16-bit timers plus two PWM timers, as well as standard and advanced communication interfaces: up to two I2Cs, three SPIs, two I2S s, one SDIO, five USARTs, an USB and a CAN. The STM32F103xC/D/E high-density performance line family operates in the –40 to +105 °C temperature range, from a 2.0 to 3.6 V power supply. A comprehensive set of power-saving mode allows the design of low-power applications. These features make the STM32F103xC/D/E high-density performance line microcontroller family suitable for a wide range of applications such as motor drives, application control, medical and handheld equipment, PC and gaming peripherals, GPS platforms, industrial applications, PLCs, inverters, printers, scanners, alarm systems video intercom, and HVAC. STM32F103RET6 Related Video InstructionVideo: Product overview - STM32 32-bit MCUs family (ePresentation)STM32F103RET6 Video Description:With the STM32 MCUs, STMicroelectronics was the first to successfully introduce on the market a general purpose MCU. Based on this strong presence, the STM32 portfolio has dramatically expanded embedding all ARM Cortex-M core available. STM32F103RET6 CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model  STM32F103RET6 PriceThe current data is for reference only, please refer to the actual data.SuppliersFromIn stockDelivery(Day)MOQCurrency1+10+100+1K+10K+Digi-KeyUSA0Immediate1USD $11.3810.2828.5137.9717.971Verical USA0Immediate0USD $-4.5634.5634.2114.211JLCShopChina0Immediate1USD $91.61671.5459.99856.48456.484ICBaseChina0-1USD $4.6574.6574.6574.6574.657AMEYA360 HongKong0-3USD $3.8122.0972.0971.9061.906elementChina0Immediate1USD $9.0038.1456.7555.4345.434AvnetUSA0Immediate0USD $7.0586.5645.5054.0164.016Future USA0443550USD $7.6027.1336.1826.1826.182NewarkUSA4461340USD $9.578.657.166.246.24 STM32F103RET6 Pinout Figure: STM32F103xC/D/E Performance Line LQFP144 Pinout  Figure: STM32F103xC/D/E Performance Line LQFP100 Pinout  Figure: STM32F103xC/D/E Performance Line LQFP64 Pinout STM32F103RET6 Block Diagram Figure: Block Diagram STM32F103RET6 FeaturesCore: Arm® 32-bit Cortex®-M3 CPU      – 72 MHz maximum frequency, 1.25 DMIPS/MHz (Dhrystone 2.1) performance at 0 wait state memory access      – Single-cycle multiplication and hardware divisionMemories      – 256 to 512 Kbytes of Flash memory        – up to 64 Kbytes of SRAM      – Flexible static memory controller with 4 Chip Select. Supports Compact Flash, SRAM, PSRAM, NOR and NAND memories      – LCD parallel interface, 8080/6800 modesClock, reset and supply management      – 2.0 to 3.6 V application supply and I/Os      – POR, PDR, and programmable voltage detector (PVD)      – 4-to-16 MHz crystal oscillator      – Internal 8 MHz factory-trimmed RC      – Internal 40 kHz RC with calibration      – 32 kHz oscillator for RTC with calibrationLow power      – Sleep, Stop and Standby modes      – VBAT supply for RTC and backup registers3 × 12-bit, 1 µs A/D converters (up to 21 channels)      – Conversion range: 0 to 3.6 V      – Triple-sample and hold capability      – Temperature sensor2 × 12-bit D/A convertersDMA: 12-channel DMA controller      – Supported peripherals: timers, ADCs, DAC, SDIO, I2Ss, SPIs, I2Cs and USARTsDebug mode      – Serial wire debug (SWD) & JTAG interfaces      – Cortex®-M3 Embedded Trace Macrocell™Up to 112 fast I/O ports      – 51/80/112 I/Os, all mappable on 16 external interrupt vectors and almost all 5 V-tolerantUp to 11 timers      – Up to four 16-bit timers, each with up to 4 IC/OC/PWM or pulse counter and quadrature (incremental) encoder input      – 2 × 16-bit motor control PWM timers with deadtime generation and emergency stop      – 2 × watchdog timers (Independent and Window)      – SysTick timer: a 24-bit downcounter      – 2 × 16-bit basic timers to drive the DACUp to 13 communication interfaces      – Up to 2 × I2C interfaces (SMBus/PMBus)      – Up to 5 USARTs (ISO 7816 interface, LIN, IrDA capability, modem control)      – Up to 3 SPIs (18 Mbit/s), 2 with I2S interface multiplexed      – CAN interface (2.0B Active)      – USB 2.0 full speed interface      – SDIO interfaceCRC calculation unit, 96-bit unique IDECOPACK® packages STM32F103RET6 ApplicationsFigure: Typical Application with An 8 MHz Crystal Figure: Typical Application with A 32.768 kHz Crystal STM32F103RET6 DatasheetYou can download the datasheet from the link given below.STM32F103RET6-Datasheet STM32F103RET6 Reference ManualYou can download the reference manual from the link given below.STM32F103RET6-Reference-Manual STM32F103RET6 SpecificationsProduct Category:ARM Microcontrollers - MCUSeries:STM32F103REMounting Style:SMD/SMTPackage / Case:LQFP-64Core:ARM Cortex M3Program Memory Size:512 kBData Bus Width:32 bitADC Resolution:12 bitMaximum Clock Frequency:72 MHzNumber of I/Os:51 I/OData RAM Size:64 kBOperating Supply Voltage:2 V to 3.6 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CPackaging:TrayManufacturer:STMicroelectronicsBrand:STMicroelectronicsData RAM Type:SRAMHeight:1.4 mmInterface Type:CAN, I2C, SPI, USART, USBLength:10 mmMoisture Sensitive:YesNumber of ADC Channels:16 ChannelNumber of Timers/Counters:8 TimerProcessor Series:ARM Cortex MProduct Type:ARM Microcontrollers - MCUProgram Memory Type:FlashFactory Pack Quantity:960Subcategory:Microcontrollers - MCUSupply Voltage - Max:3.6 VSupply Voltage - Min:2 VTradename:STM32Width:10 mmUnit Weight:0.134041 oz STM32F103RET6 ManufacturerSTMicroelectronics is a French-Italian multinational electronics and semiconductors manufacturer headquartered in Plan-les-Ouates near Geneva, Switzerland. The company resulted from the merger of two government-owned semiconductor companies in 1987: "Thomson Semiconducteurs" of France and "SGS Microelettronica" of Italy. It is commonly called "ST", and it is Europe's largest semiconductor chip maker based on revenue. While STMicroelectronics corporate headquarters and the headquarters for EMEA region are based in the Canton of Geneva, the holding company, STMicroelectronics N.V. is incorporated in the Netherlands. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. STM32F103RET6 FAQWhat is 32-bit MCU?The name '32-bit microcontroller' implies that the microcontroller is capable of handling arithmetic operation for a 32-bit value. Compared to an 8-bit microcontroller, the 32-bit microcontroller takes fewer instruction cycles to execute a function due to its wider data bus. What is the difference between 16-bit and 32-bit microcontroller?32-bit microcontrollers have a 32-bit address bus which provides access to up to 4 gigabytes (Gbytes) of memory. Traditional 16-bit microcontrollers have had 16 bits of addressing that can only access 64 kilobytes (Kbytes). What is ARM MCU?The Arm® Cortex®-M group of processor cores is a series of cores optimized for power efficiency and deterministic operation. It is widely used in microcontrollers (MCUs) and can also be found embedded into multi-core microprocessors (MPUs). 
Kynix On 2021-12-21   1356
Integrated Circuits (ICs)

BNO055 Intelligent 9-axis Sensor Module: Pinout, Features, and Equivalents

BNO055 DescriptionBNO055 Related Video IntroductionPin DescriptionsBNO055 DimensionsBNO055 FeaturesDifferent Communication Configurations of BNO055 ModuleI2C Configuration Schematic for BNO055 ModuleUART Configuration Schematic for BNO055 ModuleHID Configuration Schematic for BNO055 ModuleBNO055 EquivalentsBNO055 ApplicationsBNO055 FAQ BNO055 DescriptionThe BNO055 is a System in Container (SiP), integrating a 32-bit cortex M0+ microprocessor running Bosch Sensortec sensor fusion software, a triaxial geomagnetic sensor, a triaxial 16-bit gyroscope with a range of 2000 degrees per second, and a triaxial 14-bit accelerometer in a single package. The relevant chip sets are combined into a single 28-pin LGA chassis that measures 3.8 mm by 5.2 mm by 1.1 mm. The BNO055 has digital bidirectional I2C and UART interfaces for best system integration. The BNO055 can be made into a plug-and-play sensor hub solution for devices running Windows 8.0 or 8.1 by programming the I2C interface to operate with the HID-I2C protocol.The Adafruit industries prebuilt module also has this chip. It is now simpler to communicate with various microcontrollers and FPGA thanks to this module's generic I2C interface. If you use the module, all the required passive hardware components are already incorporated into the board. However, if you place this chip directly on the PCB, specific design elements must be included for proper operation. BNO055 Related Video IntroductionVideo Description: We demonstrate how to connect the BNO055 to an Arduino in this video tutorial, as well as how to obtain the device's raw sensor information. We demonstrate how to obtain the magnetometer, gyro, and accelerator data. By the end of this video, you should be able to measure the sensor's nine axes. Pin Descriptions Pin NumberPin NameDescription1Vin3.3-5.0V power supply input23Vo3.3V output from the on-board linear voltage regulator, you can grab up to about 50mA as necessary3GNDThe common/GND pin for power and logic4SDAI2C data pin, connect to your microcontroller’s I2C data line. This pin can be used with 3V or 5V logic, and there's a 10K pullup on this pin.5SCLI2C clock pin, connect to your microcontroller's I2C clock line. This pin can be used with 3V or 5V logic, and there's a 10K pullup on this pin6RSTHardware reset pin.  Set this pin low then high to cause a reset on the sensor. This pin is 5V safe. BNO055 DimensionsBNO055 Dimensions BNO055 Features3 sensors in one device (an triaxial 16bit gyroscope, a triaxial 14 bit accelerometer, and a full performance geomagnetic sensor)Intelligent Power Management: normal, low power, and suspend mode availableOutputs fused sensor dataSmall package (LGA package 28 pins)Common voltage supplies (VDD voltage range: 2.4V to 3.6V )Digital interface (HID-I2C (Windows 8 compatible), I²C, UART)Consumer electronics suite (MSL1, RoHS compliant, halogen-free Operating temperature: -40°C ... +85°C)  Different Communication Configurations of BNO055 ModuleI2C ConfigurationUART ConfigurationHID Configuration  I2C Configuration Schematic for BNO055 ModuleSDA (= SDx pin, serial data input and output) and SCL (= SCx pin, serial clock) signal lines are used on the I2C bus. Both lines have pull-up resistors externally connecting them to VDDIO so that they are pulled high when the bus is open. UART Configuration Schematic for BNO055 ModuleThe UART interface on the BNO055 is supported with the following settings: 115200 bps, 8N1 (8 data bits, no parity bit, one stop bit). The maximum read and write length supported is 128 Bytes. Below is a description of the register read and write packet structure. HID Configuration Schematic for BNO055 ModuleThe BNO055 can be configured to operate with the HID-I2C protocol over the I2C interface, making it a plug-and-play sensor hub option for devices running Windows 8.0 or 8.1. BNO055 EquivalentsBMX055MPU9250 BNO055 ApplicationsNavigationRoboticsFitness and well-beingAugmented realityContext awareness BNO055 FAQHow does the BNO055 work?The BNO055 uses three triple-axis sensors to measure tangential acceleration, rotational acceleration, and the strength of the local magnetic field all at the same time (via a magnetometer). How do I set up BNO055?First, connect Vin of the BNO055 to the power supply of 5V on the Arduino. Second, connect GND of the BNO055 to GND on the Arduino. Third, connect the SDA pin of the BNO055 to the SDA pin of the Arduino, which is A4. Fourth, connect the SCL pin of the BNO055 to the SCL pin of the Arduino, which is A5. What is a BNO055?The following sensor data can be output by the BNO055: Objective Orientation (Euler Vector, 100Hz) Three-axis orientation data based on a sphere's circumference. Objective Orientation (Quaterion, 100Hz) For more precise data manipulation, use a four point quaternion output.
kynix On 2022-07-28   1347
Integrated Circuits (ICs)

STM32F303VCT6 Microcontrollers: Pinout, Circuit, Specification [FAQ]

Product OverviewThe STM32F303xB/STM32F303xC family is based on the high-performance Arm® Cortex®-M4 32-bit RISC core with FPU operating at a frequency of up to 72 MHz, and embedding afloating point unit (FPU), a memory protection unit (MPU) and an embedded trace macrocell(ETM). The family incorporates high-speed embedded memories (up to 256 Kbytes of Flashmemory, up to 40 Kbytes of SRAM) and an extensive range of enhanced I/Os and peripherals connected to two APB buses. This blog will introduce STM32F303VCT6 systematically from its features, pinout to its specifications, applications, also including STM32F303VCT6 datasheet and so much more. CatalogProduct OverviewSTM32F303VCT6 FeaturesSTM32F303VCT6 PinoutSTM32F303VCT6 CAD ModelsSTM32F303VCT6 Circuit DiagramSTM32F303VCT6 Block DiagramSTM32F303VCT6 PackageSTM32F303VCT6 SpecificationSTM32F303VCT6 ManufacturerSTM32F303VCT6 DatasheetUsing WarningsSTM32F303VCT6 FAQ STM32F303VCT6 FeaturesCore: Arm® Cortex®-M4 32-bit CPU with FPU(72 MHz max), single-cycle multiplication andHW division, 90 DMIPS (from CCM), DSP instruction and MPU (memory protection unit)Operating conditions:– VDD, VDDA voltage range: 2.0 V to 3.6 VMemories– 128 to 256 Kbytes of Flash memory– Up to 40 Kbytes of SRAM, with HW parity check implemented on the first 16 Kbytes.– Routine booster: 8 Kbytes of SRAM on instruction and data bus, with HW parity check (CCM)CRC calculation unitReset and supply management– Power-on/power-down reset (POR/PDR)– Programmable voltage detector (PVD)– Low-power modes: Sleep, Stop and Standby– VBAT supply for RTC and backup registersClock management– 4 to 32 MHz crystal oscillator– 32 kHz oscillator for RTC with calibration– Internal 8 MHz RC with x 16 PLL option– Internal 40 kHz oscillatorUp to 87 fast I/Os– All mappable on external interrupt vectors– Several 5 V-tolerantInterconnect matrix12-channel DMA controllerFour ADCs 0.20 µS (up to 39 channels) withselectable resolution of 12/10/8/6 bits, 0 to3.6 V conversion range, single ended/differential input, separate analog supply from 2 to 3.6 VTwo 12-bit DAC channels with analog supplyfrom 2.4 to 3.6 VSeven fast rail-to-rail analog comparators withanalog supply from 2 to 3.6 VFour operational amplifiers that can be used inPGA mode, all terminals accessible withanalog supply from 2.4 to 3.6 VUp to 24 capacitive sensing channels supportingtouchkey, linear and rotary touch sensorsUp to 13 timers– One 32-bit timer and two 16-bit timers with up to 4 IC/OC/PWM or pulse counter and quadrature (incremental) encoder input– Two 16-bit 6-channel advanced-control timers, with up to 6 PWM channels, deadtime generation and emergency stop– One 16-bit timer with 2 IC/OCs, 1 OCN/PWM, deadtime generation and emergency stop– Two 16-bit timers with IC/OC/OCN/PWM, deadtime generation and emergency stop– Two watchdog timers (independent, window)– SysTick timer: 24-bit downcounter– Two 16-bit basic timers to drive the DACCalendar RTC with Alarm, periodic wakeupfrom Stop/StandbyCommunication interfaces– CAN interface (2.0B Active)– Two I2C Fast mode plus (1 Mbit/s) with 20 mA current sink, SMBus/PMBus, wakeup from STOP– Up to five USART/UARTs (ISO 7816 interface, LIN, IrDA, modem control)– Up to three SPIs, two with multiplexed half/full duplex I2S interface, 4 to 16 programmable bit frames– USB 2.0 full speed interface– Infrared transmitterSerial wire debug, Cortex®-M4 with FPU ETM,JTAG96-bit unique ID STM32F303VCT6 PinoutThe following figure is the diagram of STM32F303VCT6 pinout. STM32F303VCT6 Pinout STM32F303VCT6 CAD ModelsThe following are STM32F303VCT6 Symbol, Footprint, and 3D Model. STM32F303VCT6 Symbol STM32F303VCT6 Footprint STM32F303VCT6 3D Model STM32F303VCT6 Circuit DiagramThe following are the circuit diagrams of STM32F303VCT6. Typical application with an 8 MHz crystal Typical application with a 32.768 kHz crystal STM32F303VCT6 Block DiagramThe following figure shows the block diagram of STM32F303VCT6 STM32F303VCT6 Block Diagram STM32F303VCT6 PackageThe following diagram shows the STM32F303VCT6 package. STM32F303VCT6 Package STM32F303VCT6 SpecificationProduct AttributeAttribute ValueManufacturer:STMicroelectronicsProduct Category:ARM Microcontrollers - MCUSeries:STM32F3Mounting Style:SMD/SMTPackage/Case:LQFP-100Core:ARM Cortex M4Program Memory Size:256 kBData Bus Width:32 bitADC Resolution:4 x 6 bit/8 bit/10 bit/12 bitMaximum Clock Frequency:72 MHzNumber of I/Os:87 I/OData RAM Size:40 kBSupply Voltage - Min:2 VSupply Voltage - Max:3.6 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CPackaging:Tray STM32F303VCT6 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. STM32F303VCT6 DatasheetYou can download STM32F303VCT6 datasheet from the link given below:STM32F303VCT6 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. STM32F303VCT6 FAQWhat are ARM Microcontrollers?The Arm® Cortex®-M group of processor cores is a series of cores optimized for power efficiency and deterministic operation. It is widely used in microcontrollers (MCUs) and can also be found embedded into multi-core microprocessors (MPUs). What are microcontrollers used for?Microcontroller is a compressed micro computer manufactured to control the functions of embedded systems in office machines, robots, home appliances, motor vehicles, and a number of other gadgets. A microcontroller is comprises components like - memory, peripherals and most importantly a processor. What is microcontroller with example?A microcontroller is a compact integrated circuit designed to govern a specific operation in an embedded system. A typical microcontroller includes a processor, memory and input/output (I/O) peripherals on a single chip.  
kynix On 2022-08-09   1346
Integrated Circuits (ICs)

TL074CN Op-Amp: Datasheet, Pinout, Equivalent [FAQ&Video]

Product OverviewThe TL074CN is a quad low-noise JFET-input general purpose Operational Amplifier designed to offer a wider selection than any previously developed operational amplifier family. Each of these JFET-input operational amplifiers incorporates well-matched, high-voltage JFET and bipolar transistors in a monolithic integrated circuit. The low harmonic distortion and low noise make it ideally suited for high-fidelity and audio pre-amplifier applications and offset adjustment and external compensation options are available. Video: Preamp With Active Filter Circuit Design DIY Project Using IC - TL074P op amp CatalogProduct OverviewTL074CN PinoutTL074 Pin ConfigurationFeatures for the TL074TL074 EquivalentTL074CN ApplicationsTL074CN CAD ModelsTL074 circuit diagramTL074CN SpecificationTL074CN DatasheetUsing WarningsTL074CN FAQ TL074CN PinoutFollowing is TL074CN Pinouts. TL074CN Pinout TL074 Pin ConfigurationPin NumberPin NameDescription1,7,10,16Op-Amp Output PinsThese are the output pins of the four Op-Amps2,6,11,15Input Inverting PinsThese are the input inverting pins of the four Op-Amps3,5,12,14Input Non-Inverting PinsThese are the input non-inverting pins of the four Op-Amps4Vcc (+)Positive Supply Rail of the Op-Amp13Vcc (-)Negative Supply Rail of the Op-Amp Features for the TL074High slew rate: 20 V/µs (TL07xH, typ)Low offset voltage: 1 mV (TL07xH, typ)Low offset voltage drift: 2 µV/°CLow power consumption: 940 µA/ch (TL07xH, typ)Wide common-mode and differential voltage rangesCommon-mode input voltage range includes VCC+Low input bias and offset currentsLow noise: Vn = 18 nV/√Hz (typ) at f = 1 kHzOutput short-circuit protectionLow total harmonic distortion: 0.003% (typ)Wide supply voltage: ±25 V to ±20 V, 4.5 V to 40 V TL074 EquivalentLM324 TL074CN ApplicationsMotor Integrated Systems: UPSDrives and Control Solutions: AC Inverter and VF DrivesRenewables: Solar InvertersPro Audio MixersDLP Front Projection SystemOscilloscopes TL074CN CAD ModelsFollowings are TL074CN Symbol, Footprint, and 3D Model. TL074CN Symbol TL074CN Footprint TL074CN 3D Model TL074 circuit diagramA circuit schematic can better help us to understand circuits and components used, and it's a reference to make the actual circuit work. Below is a fully labeled TL074 schematic diagram for reference. TL074 circuit diagram TL074CN SpecificationProduct AttributeAttribute ValueProduct CategoryOperational Amplifiers - Op AmpsMounting Style:Through HolePackage / Case:PDIP-14Output Current per Channel:10 mAVos - Input Offset Voltage:10 mVMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CIb - Input Bias Current:200 pAOperating Supply Current:1.4 mACMRR - Common Mode Rejection Ratio:100 dBSeries:TL074Packaging:TubeAmplifier Type:Low Noise AmplifierHeight:1.57 mmInput Type:Rail-to-RailLength:19.3 mmProduct:Operational AmplifiersSupply Type:Single, DualTechnology:BiFETWidth:6.35 mmBrand:Texas InstrumentsDual Supply Voltage:+/- 5 V, +/- 9 V, +/- 12 V, +/- 15 VIn - Input Noise Current Density:0.01 pA/sqrt HzMaximum Dual Supply Voltage:+/- 18 VMinimum Dual Supply Voltage:+/- 3.5 VOperating Supply Voltage:7 V to 36 V, +/- 3.5 V to +/- 18 VProduct Type:Op Amps - Operational AmplifiersSubcategory:Amplifier ICsVcm - Common Mode Voltage:Negative Rail + 4 V to Positive Rail - 4 VVoltage Gain dB:106.02 dBUnit Weight:0.035274 oz TL074CN DatasheetFor more information, please click on the datasheet below.  TL074CN DatasheetUsing WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. TL074CN FAQ① Is there a disadvantage to use a TL084 instead of a TL074?The TL074 has lower noise figure, so is better for AC signals. The TL084 has lower offset, so is better for DC signals.② Can I replace LM324 by TL074CN?It depends on the circuit. The LM324 is single supply and can withstand input voltage higher than the supply.So in some circuits the TL074 / TL084 might work Ok in others it might not, because the TL074 are nor single supply.
kynix On 2022-04-14   1340

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