The Kynix Components

Product OverviewThe STM32F042x microcontrollers incorporate the high-performance ARM Cortex -M0 32-bit RISC core operating at a 48 MHz frequency, high-speed embedded memories (up to 32 Kbytes of Flash memory and 6 Kbytes of SRAM), and an extensive range of enhanced peripherals and I/Os. All devices offer standard communication interfaces (one I²C, two SPIs/one I²S, one HDMI CEC and two USARTs), one USB Full speed device (crystal-less), one CAN, one 12-bit ADC, four general-purpose 16-bit timers, a 32-bit timer and an advanced-control PWM timer.The STM32F042x microcontrollers operate in the -40 to +85 °C and -40 to +105 °C temperature ranges from a 2.0 to 3.6 V power supply. A comprehensive set of power-saving modes allows the design of low-power applications. This blog will introduce STM32F042F6P6 systematically from its features, pinout to its specifications, applications, also including STM32F042F6P6 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionSTM32F042F6P6 FeaturesSTM32F042F6P6 PinoutSTM32F042F6P6 ApplicationsSTM32F042F6P6 CAD ModelsSTM32F042F6P6 Block DiagramSTM32F042F6P6 Circuit DiagramSTM32F042F6P6 PackageSTM32F042F6P6 SpecificationSTM32F042F6P6 ManufacturerSTM32F042F6P6 Datasheet and User ManualUsing WarningsSTM32F042F6P6 FAQ Related Video Introduction Video: How to Program and Develop with ARM Microcontrollers - A Tutorial Introduction STM32F042F6P6 Video Description: Welcome to ARM Microcontroller embedded programming (Bare Metal Programming).  I give an introduction to microcontrollers in general in this video. STM32F042F6P6 FeaturesCore: Arm® 32bit Cortex®-M0 CPU, frequency up to 48MHzCRC calculation unit2V to 3.6V digital and I/O, VDDA = from VDD to 3.6V analogue supply (reset and power management)Power-on/Power down reset (POR/PDR), programmable voltage detector (PVD)4 to 32MHz crystal and internal 40KHz RC oscillator, 32KHz oscillator for RTC with calibrationAll mappable on external interrupt vectors (up to 24 fast I/Os with 5V tolerant capability)5ch DMA controller, one 12bit, 1.0µs ADC (up to 10 channels)Calendar RTC with alarm and periodic wakeup from stop/standbyTemperature range from -40°C to 85°CHDMI CEC wakeup on header reception, Serial Wire Debug (SWD) STM32F042F6P6 PinoutThe following figure is the diagram of STM32F042F6P6 pinout. STM32F042F6P6 Pinout STM32F042F6P6 ApplicationsSTM32F042x4/x6 microcontrollers are suitable for a wide range of applications such as application control and user interfaces, hand-held equipment, A/V receivers and digital TV, PC peripherals, gaming and GPS platforms, industrial applications, PLCs, inverters, printers, scanners, alarm systems, video intercoms and HVACs. STM32F042F6P6 CAD ModelsThe followings are STM32F042F6P6 Symbol, Footprint, and 3D Model. STM32F042F6P6 Symbol STM32F042F6P6 Footprint STM32F042F6P6 3D Model STM32F042F6P6 Block DiagramThe following figure shows the block diagram of STM32F042F6P6. STM32F042F6P6 Block Diagram STM32F042F6P6 Circuit DiagramThe following is the circuit diagram of typical connection diagram using the ADC. STM32F042F6P6 Circuit Diagram STM32F042F6P6 PackageThe following diagram shows the STM32F042F6P6 package. STM32F042F6P6 Package STM32F042F6P6 SpecificationAttributeValueFamily NameSTM32FPackage TypeTSSOPMounting TypeSurface MountPin Count20Device CoreARM Cortex M0Data Bus Width32bitProgram Memory Size32 kBMaximum Frequency48MHzRAM Size6 kBUSB Channels1Number of PWM Units1 x 16 bitNumber of SPI Channels1Typical Operating Supply Voltage2 → 3.6 VHeight1.05mmNumber of LIN Channels0Width4.5mmNumber of USART Channels2Timers1 x 32 bit, 5 x 16 bitDimensions6.6 x 4.5 x 1.05mmTimer Resolution16 bit, 32bitADCs10 x 12 bitLength6.6mmNumber of ADC Units1Number of PCI Channels0Number of I2C Channels2Number of Timers6Number of Ethernet Channels0Number of UART Channels0Number of CAN Channels1Instruction Set ArchitectureRISCMinimum Operating Temperature-40 °CMaximum Number of Ethernet Channels0Maximum Operating Temperature+85 °CProgram Memory TypeFlashPulse Width Modulation1 (6 x 16 bit) STM32F042F6P6 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. STM32F042F6P6 Datasheet and User ManualYou can download STM32F042F6P6 datasheet and user manual from the link given below:STM32F042F6P6 DatasheetSTM32F042F6P6 User Manual Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. STM32F042F6P6 FAQWhat is ARM STM?The Arm CoreSight System Trace Macrocell (STM) is a trace source that enables real-time instrumentation of software with no impact on system behavior or performance.  What is a microcontroller used for?In the office, microcontrollers are used in computer keyboards, monitors, printers, copiers, fax machines, and telephone systems to name a few. In your home, microcontrollers are used in microwave ovens, washers and dryers, security systems, lawn sprinkler station controllers, and music/video entertainment components. What are examples of microcontroller?The examples of 8-bit microcontrollers are Intel 8031/8051, PIC1x, and Motorola MC68HC11 families. The 16-bit microcontroller performs greater precision and performance as compared to the 8-bit. Where are microcontrollers used in everyday life?Devices used in the kitchen and around the house such as refrigerators, TVs, radios, washing machines, dishwashers and even humidifiers frequently use microcontrollers. Any electronic consumer product that has a key entry for operation has a microcontroller inside. All electronic watches have microcontrollers. What is difference between microprocessor and microcontroller?Microprocessor consists of only a Central Processing Unit, whereas Micro Controller contains a CPU, Memory, I/O all integrated into one chip. The microprocessor uses an external bus to interface to RAM, ROM, and other peripherals, on the other hand, Microcontroller uses an internal controlling bus. 

CatalogProduct OverviewAOZ1282CI CAD ModelsAOZ1282CI Pin ConfigurationAOZ1282CI Block DiagramAOZ1282CI FeaturesAOZ1282CI ApplicationsAOZ1282CI DatasheetAOZ1282CI SpecificationsAOZ1282CI ManufacturerUsing WarningAOZ1282CI FAQ Product OverviewThe AOZ1282CI is a high efficiency, simple to use, 1.2A buck regulator flexible enough to be optimized for a variety of applications. The AOZ1282CI works from a 4.5V to 36V input voltage range, and provides up to 1.2A of continuous output current. The output voltage is adjustable down to 0.8V. The fixed switching frequency of 450kHz PWM operation reduces inductor size. AOZ1282CI CAD ModelsFigure: AOZ1282CI PCB Symbol  Figure: AOZ1282CI Footprint  Figure: AOZ1282CI 3D Models AOZ1282CI Pin ConfigurationFigure: AOZ1282CI Pin Configuration AOZ1282CI Block DiagramFigure: AOZ1282CI Block Diagram AOZ1282CI Features5V to 36V operating input voltage range420mΩ internal NMOSUp to 95% efficiencyInternal compensation2A continuous output currentFixed 450kHz PWM operationInternal soft startOutput voltage adjustable down to 0.8VCycle-by-cycle current limitShort-circuit protectionThermal shutdownSmall size SOT23-6L AOZ1282CI ApplicationsPoint of load DC/DC conversionSet top boxes and cable modemsDVD drives and HDDsLCD Monitors & TVsTelecom/Networking/Datacom equipment AOZ1282CI DatasheetYou can download the datasheet from the link given below:AOZ1282CI Datasheet AOZ1282CI SpecificationsTypeDescriptionCategoryIntegrated Circuits (ICs)PMIC - Voltage Regulators - DC DC Switching RegulatorsPart StatusActiveFunctionStep-DownOutput ConfigurationPositiveTopologyBuckOutput TypeAdjustableNumber of Outputs1Voltage - Input (Min)4.5VVoltage - Input (Max)36VVoltage - Output (Min/Fixed)0.8VVoltage - Output (Max)36VCurrent - Output1.2AFrequency - Switching450kHzSynchronous RectifierNoOperating Temperature-40°C ~ 85°C (TA)Mounting TypeSurface MountPackage / CaseSOT-23-6Supplier Device PackageSOT-23-6 AOZ1282CI ManufacturerAlpha and Omega Semiconductor, Inc., or AOS, is a designer, developer and global supplier of a broad range of power semiconductors, including a wide portfolio of Power MOSFET and Power IC products. AOS seeks to differentiate itself by integrating its expertise in device physics, process technology, design and advanced packaging to optimize product performance and cost, and its product portfolio is designed to meet the ever increasing power efficiency requirements in high volume applications, including portable computers, flat panel TVs, battery packs, portable media players and power supplies. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. AOZ1282CI FAQWhat is an AOZ1282CI?Typical Application for the AOZ1282CI is a high efficiency, simple to use, 1.2A buck regulator flexible enough to be optimized for a variety of applications. The AOZ1282CI works from a 4.5 to 36V input voltage range, and provides up to 1.2A of continuous output current. What is buck switching regulator?The Buck switching regulator is a type of switch mode power supply circuit that is designed to efficiently reduce DC voltage from a higher voltage to a lower one, that is it subtracts or “Bucks” the supply voltage, thereby reducing the voltage available at the output terminals without changing the polarity. What is the difference between buck converter and buck regulator?A step down converter—also known as a buck converter—converts high voltage to low voltage, usually transforming AC current to DC current. A voltage regulator maintains a constant output voltage for a circuit, regardless of any changes in connected devices or electrical load. 

Product OverviewRM®-based Cortex®-M7 32bit MCU + FPU. It supports up to 25 communication interfaces such as Up to 4× I2C interfaces (SMBus/PMBus), Up to 4 USARTs/4 UARTs (27Mbit/s, ISO7816 interface, LIN, IrDA, modem control), Up to 6 SPIs (up to 50Mbit/s), 3 with muxed simplex I2S for audio class accuracy via internal audio PLL or external clock, 2 x SAIs (serial audio interface), 2 × CANs (2.0B active) and SDMMC interface, SPDIFRX interface, HDMI-CEC. It also supports Advanced connectivity like USB 2.0 full-speed device/host/OTG controller with on-chip PHY. Suitable for use in motor drive and application control, medical equipment, industrial applications such as PLC, inverters, circuit breakers, printers and scanners, alarm systems, video intercom and HVAC, home audio appliances, mobile applications, Internet of Things, wearable devices: smartwatches. This blog will introduce STM32F746NGH6 systematically from its features, pinout to its specifications, applications, also including STM32F746NGH6 datasheet and so much more. CatalogProduct OverviewSTM32F746NGH6 FeaturesSTM32F746NGH6 ApplicationsSTM32F746NGH6 PinoutSTM32F746NGH6 CAD ModelsSTM32F746NGH6 Block DiagramSTM32F746NGH6 Circuit DiagramSTM32F746NGH6 PackageSTM32F746NGH6 SpecificationSTM32F746NGH6 ManufacturerSTM32F746NGH6 Datasheet and User ManualUsing WarningsSTM32F746NGH6 FAQ STM32F746NGH6 FeaturesFlexible external memory controller with up to 32bit data bus462 DMIPS/2.14 DMIPS/MHz (Dhrystone 2.1) and DSP instructionsDual mode quad-SPIClock, reset and supply management (internal 16MHz factory-trimmed RC)Sleep, stop and standby modes, 3x12bit, 2.4 MSPS ADC, 2x12bit DACUp to 18 timers, general-purpose DMA, up to 168 I/O ports with interrupt capabilitySWD & JTAG interfaces, Cortex®-M7 Trace Macrocell™ debug modeTrue random number generator, CRC calculation unit and 96bit unique ID8 to 14bit parallel camera interface up to 54Mbyte/sRTC: subsecond accuracy, hardware calendar STM32F746NGH6 ApplicationsThese features make the STM32F746xx microcontrollers suitable for a wide range of applications:Motor drive and application control,Medical equipment,Industrial applications: PLC, inverters, circuit breakers,Printers, and scanners,Alarm systems, video intercom, and HVAC,Home audio appliances,Mobile applications, Internet of Things,Wearable devices: smartwatches. STM32F746NGH6 PinoutThe following figure is the diagram of STM32F746NGH6 pinout. STM32F746NGH6 Pinout STM32F746NGH6 CAD ModelsThe followings are STM32F746NGH6 Symbol, Footprint, and 3D Model. STM32F746NGH6 Symbol STM32F746NGH6 Footprint STM32F746NGH6 3D Model STM32F746NGH6 Block DiagramThe following figure shows the block diagram of STM32F746NGH6. STM32F746NGH6 Block Diagram STM32F746NGH6 Circuit DiagramThe following is the typical connection diagram using the ADC. STM32F746NGH6 Circuit Diagram STM32F746NGH6 PackageThe following diagram shows the STM32F746NGH6 package. STM32F746NGH6 Package STM32F746NGH6 SpecificationAttributeValueFamily NameSTM32FPackage TypeTFBGAMounting TypeSurface MountPin Count216Device CoreARM Cortex M7Data Bus Width32bitProgram Memory Size1.024 MBMaximum Frequency216MHzRAM Size340 kBUSB Channels2Number of PWM Units2 x 16 bitTypical Operating Supply Voltage1.7 → 3.6 VPulse Width Modulation2 (6 x 16 bit)Instruction Set ArchitectureRISCNumber of ADC Units3Number of Timers15ADCs24 x 12 bitLength13.15mmMaximum Operating Temperature+85 °CTimer Resolution16 bit, 32bitDimensions13.15 x 13.15 x 0.76mmMinimum Operating Temperature-40 °CTimers13 x 16 bit, 2 x 32 bitData Rate480MbpsMaximum Number of Ethernet Channels1Program Memory TypeFlash, OTPHeight0.76mmWidth13.15mm STM32F746NGH6 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. STM32F746NGH6 DatasheetYou can download STM32F746NGH6 datasheet from the link given below:STM32F746NGH6 DatasheetSTM32F746NGH6 User Manual Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. STM32F746NGH6 FAQWhat is ARM STM?The Arm CoreSight System Trace Macrocell (STM) is a trace source that enables real-time instrumentation of software with no impact on system behavior or performance. The Arm CoreSight System Trace Macrocell (STM) extends low-cost real-time visibility of software and hardware execution to all software developers. What is a microcontroller used for?In the office, microcontrollers are used in computer keyboards, monitors, printers, copiers, fax machines, and telephone systems to name a few. In your home, microcontrollers are used in microwave ovens, washers and dryers, security systems, lawn sprinkler station controllers, and music/video entertainment components. What are examples of microcontroller?The examples of 8-bit microcontrollers are Intel 8031/8051, PIC1x, and Motorola MC68HC11 families. The 16-bit microcontroller performs greater precision and performance as compared to the 8-bit. Where are microcontrollers used in everyday life?Devices used in the kitchen and around the house such as refrigerators, TVs, radios, washing machines, dishwashers and even humidifiers frequently use microcontrollers. Any electronic consumer product that has a key entry for operation has a microcontroller inside. All electronic watches have microcontrollers. What is difference between microprocessor and microcontroller?Microprocessor consists of only a Central Processing Unit, whereas Micro Controller contains a CPU, Memory, I/O all integrated into one chip. The microprocessor uses an external bus to interface to RAM, ROM, and other peripherals, on the other hand, Microcontroller uses an internal controlling bus.

Product Overview The LPC2368FBD100,551 is an ARM7 Microcontroller for embedded applications featuring a high level of integration and low power consumption at frequencies of 72MHz. Features include up to 256kB of flash memory, up to 58kB of RAM, Ethernet MAC, USB device/host/OTG, DMA controller, SD/MMC, 4 UARTs, 2 CAN channels, 3 SSP/SPI, 3 I²C, I²S, 8-channel 10-bit ADC, 10-bit DAC, 2 PWM, 4 general purpose timers, low power real-time clock with separate battery supply and up to 70 general purpose I/O pins.   This blog will introduce LPC2368FBD100,551 systematically from its features, pinout to its specifications, applications, also including LPC2368FBD100,551 datasheet and so much more.   Catalog Product Overview Related Video Introduction LPC2368FBD100,551 Features LPC2368FBD100,551 Applications LPC2368FBD100,551 Pinout LPC2368FBD100,551 CAD Models LPC2368FBD100,551 Block Diagram LPC2368FBD100,551 Circuit Diagram LPC2368FBD100,551 Package LPC2368FBD100,551 Specification LPC2368FBD100,551 Manufacturer LPC2368FBD100,551 Datasheet Using Warnings LPC2368FBD100,551 FAQ   Related Video Introduction   Video: How to Program and Develop with ARM Microcontrollers - A Tutorial Introduction   LPC2368FBD100,551 Video Description: Welcome to ARM Microcontroller embedded programming (Bare Metal Programming).  I give an introduction to microcontrollers in general in this video.   LPC2368FBD100,551 Features Dual advanced high-performance bus (AHB) systemAdvanced vectored interrupt controller (VIC)General purpose DMA controller (GPDMA) on AHBEthernet MAC with associated DMA controllerFour UARTs with fractional baud rate generationUSB 2.0 full-speed device with on-chip PHYCAN controller with two channelsTwo SSP controllers, with FIFO and multi-protocol capabilitiesI2S (Inter-IC Sound) interface for digital audio input or outputSD/MMC memory card interface70 General purpose I/O pins with configurable pull-up/down resistors10-bit ADC with input multiplexing among 6 pins and 10-bit DACOne PWM/timer block with support for three-phase motor controlStandard ARM test/debug interface for compatibility with existing toolsEmulation trace module supports real-time traceFour reduced power modes of idle, sleep, power-down and deep power-downFour external interrupt inputs configurable as edge/level sensitiveProcessor wake-up from Power-down mode via any interruptTwo independent power domains allow fine tuning of power consumptionEach peripheral has its own clock divider for further power saving   LPC2368FBD100,551 Applications Industrial controlMedical systemsProtocol converterCommunications   LPC2368FBD100,551 Pinout The following figure is the diagram of LPC2368FBD100,551 pinout.   LPC2368FBD100,551 Pinout   LPC2368FBD100,551 CAD Models The followings are LPC2368FBD100,551 Symbol, Footprint, and 3D Model.   LPC2368FBD100,551 Symbol   LPC2368FBD100,551 Footprint   LPC2368FBD100,551 3D Model   LPC2368FBD100,551 Block Diagram The following figure shows the block diagram of LPC2368FBD100,551.   LPC2368FBD100,551 Block Diagram   LPC2368FBD100,551 Circuit Diagram The following is RTC oscillator modes and models: oscillation mode of operation and external crystal model used for CX1/CX2 evaluation.   LPC2368FBD100,551 Circuit Diagram   LPC2368FBD100,551 Package The following diagram shows the LPC2368FBD100,551 package.   LPC2368FBD100,551 Package   LPC2368FBD100,551 Specification AttributeValueFamily NameLPC23Package TypeLQFPMounting TypeSurface MountPin Count100Device CoreARM7TDMI-SData Bus Width16 bit, 32bitProgram Memory Size512 kBMaximum Frequency72MHzRAM Size58 kBUSB Channels1 x DeviceNumber of PWM Units1Number of SPI Channels3Typical Operating Supply Voltage3 → 3.6 VNumber of Ethernet Channels1Number of UART Channels4Number of I2C Channels3Height1.45mmNumber of LIN Channels0Number of USART Channels0Timers4 x 32 bitDimensions14.1 x 14.1 x 1.45mmNumber of Timers4Timer Resolution32bitProgram Memory TypeFlashMinimum Operating Temperature-40 °CMaximum Number of Ethernet Channels1Length14.1mmPulse Width Modulation1 (2 Channel) (Motor Control)Maximum Operating Temperature+85 °CADCs6 x 10 bitNumber of ADC Units1Number of CAN Channels2Instruction Set ArchitectureRISCWidth14.1mmNumber of PCI Channels0   LPC2368FBD100,551 Manufacturer NXP Semiconductors is a leading supplier of embedded controllers offering a broad portfolio of MCUs with Arm-based processors and microcontrollers for a variety of industries including automotive, wireless connectivity and more. They continue to drive innovation offering a strong Power Management portfolio for industrial and automotive applications, including multiple power supplies and battery management solutions. NXP products power and connect across the globe building solutions, helping enhance the proficiency of people, organizations and the world has a whole.   LPC2368FBD100,551 Datasheet You can download LPC2368FBD100,551 datasheet from the link given below: LPC2368FBD100,551 Datasheet   Using Warnings Note: Please check their parameters and pin configuration before replacing them in your circuit.   LPC2368FBD100,551 FAQ Is the lpc2368fbd100 an ARM7 microcontroller? The LPC2368FBD100 is a Arm7 microcontroller for embedded applications featuring a high level of integration and low power consumption at frequencies of 72 MHz.   What kind of memory does NXP lpc2364 / 66 / 68 have? NXP LPC2364, LPC2366, LPC2368 Data Sheet 1. General description The LPC2364/66/68 microcontrollers are base d on a 16-bit/32-bit ARM7TDMI-S CPU with real-time emulation that combines the microcontroller with up to 512 kB of embedded high-speed flash memory.   What 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 the applications of ARM microcontroller? 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 are the advantages of ARM? ARM performs single operation at a time. This makes it work faster. It has lower latency that is quicker response time. ARM processors are designed so that they can be used in cases of multiprocessing systems where more than one processors are used to process information.

CatalogGeneral DescriptionAK5578EN CAD ModelsAK5578EN Pin ConfigurationAK5578EN Block DiagramAK5578EN FeaturesAK5578EN Functional DescriptionsAK5578EN DatasheetAK5578EN SpecificationsAK5578EN ManufacturerUsing WarningAK5578EN FAQGeneral DescriptionThe AK557x series is a 32-bit, 768 kHz sampling, differential input A/D converter for digital audio systems. It achieves 121 dB dynamic range and 112 dB S/(N+D) while maintaining low power consumption performance. The AK5578 integrates a 8-channel A/D converter, suitable for mixers and multi-channel recorders. Four types of digital filters are integrated and selectable according to the sound quality preference. The AK5578 can be easily connected to a DSP by supporting TDM audio formats. Additionally, it supports DSD output up to 11.2MHz. The channel summation improves the dynamic range to 124 dB in 8-to-4 mode, to 127 dB in 8-to-2 mode and to 130 dB in 8-to-1 mode. AK5578EN CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model AK5578EN Pin Configuration Figure: Pin Configuration AK5578EN Block Diagram Figure: Block Diagram AK5578EN FeaturesSampling Rate: 8 kHz-768 kHzInput: Full Differential InputsS/(N+D): 112 dBDR: 121 dB (8-to-4 mode: 124 dB, 8-to-2 mode: 127 dB, 8-to-1 mode: 130 dB)S/N: 121 dB (8-to-4 mode: 124 dB, 8-to-2 mode: 127 dB, 8-to-1 mode: 130 dB)Internal Filter: Four types of LPF, Digital HPFPower Supply: 4.75-5.25 V (Analog), 1.7-1.98 V or 3.0-3.6 V (Digital)Output Format:         -PCM mode: 24/32-bit MSB justified, I²S or TDM         -DSD mode: DSD Native 64, 128, 256         -Maximized Slot Efficiency in TDM Mode by Optimal Data Placed ModeCascade TDM I/F:         -TDM512: fs= 48 kHz         -TDM256: fs= 96 kHz or 48 kHz         -TDM128: fs= 192 kHz, 96 kHz or 48 kHzOperation Mode: Master Mode & Slave ModeDetection Function: Input Overflow FlagSerial Interface: 3-wire Serial and I2C μP I/F (Pin setting is also available)Power Consumption: 536 mW (@AVDD= 5.0 V, TVDD= 3.3 V, fs= 48 kHz)Package: 64-pin QFN AK5578EN Functional Descriptions■ Digital Core Power SupplyThe digital core of the AK5578 is operates off of a 1.8 V power supply. Normally, this voltage is generated by the internal LDO from TVDD (3.3 V) for digital interface. The internal LDO will be powered up by setting the LDOE pin = “H”. Set the LDOE pin to “L” and supply a 1.8 V power to the VDD18 pin externally when a 1.8 V is used as TVDD. ■ Output ModeThe AK5578 is able to output either PCM or DSD data. The DP pin or DP bit select the output mode. Set the PW2 pin = PW1 pin = PW0 pin = “L” or RSTN bit = “0” or PW8-1 bits = “0H” to reset all channels when changing the PCM/DSD mode. The AK5578 outputs data from the SDTO1-4 pins by BICK and LRCK in PCM mode. DSD data are output from the DSDOL1-4 pins and DSDOR1-4 pins by DCLK in DSD mode. ■ Master Mode and Slave ModeThe AK5578 requires a master clock (MCLK), an audio serial data clock (BICK) and an output channel clock (LRCK) in PCM mode. In this case, the LRCK frequency will be the sampling frequency. Both master and slave modes are available in PCM mode. In master mode, the AK5578 internally generates BICK and LRCK clocks from MCLK inputs and outputs them from the BICK pin and the LRCK pin. In slave mode, AK5578 operates in the input MCLK, BICK and LRCK. MCLK must be synchronized with BICK and LRCK but the phase is not important. The AK5578 is in master mode when the MSN pin = “H” and in slave mode when the MSN pin = “L”. The AK5578 requires a master clock (MCLK) in DSD mode. Slave mode is not available in DSD mode, only master mode is supported. AK5578EN DatasheetYou can download the datasheet from the link given below:AK5578EN-Datasheet AK5578EN SpecificationsPhysicalCase/PackageQFNMountSurface MountTechnicalMax Operating Temperature105 ℃Min Operating Temperature-40 ℃Resolution4 BSampling Rate768 kspsSupply TypeAnalog, DigitalComplianceRoHSCompliant AK5578EN ManufacturerAKM Semiconductor, Inc. (AKMS) is a semiconductor manufacturer headquartered in San Jose, California. It is subsidiary of Asahi Kasei Microdevices (AKM) based in Tokyo, Japan.AKM Semiconductor, Inc. was founded under AKM, which is one of the core operating groups under the umbrella company, Asahi Kasei Corporation electronics business group (Tokyo Stock Exchange (3407.T). AKMS comprises the devices and electronic materials sector of the AKM group. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. AK5578EN FAQWhat is differential input ADC?A differential ADC measures the voltage difference between two inputs.  Sensors that implement such concepts typically provide their output value as the voltage difference between two signals, also known as a differential signal. How does a differential ADC work?In differential ADCs, both input signals are physically run in parallel with each other. Thus the same amount of noise gets coupled into both the signals. Also, when both signals are running in parallel and run the same distance (same trace/wire length), they are in the same phase when they reach the ADC. What is the input of ADC?The input signal is usually an analog voltage, and the output is a binary number. The ADC precision is the number of distinguishable ADC inputs (e.g., 4096 alternatives, 12 bits). The ADC range is the maximum and minimum ADC input (e.g., 0 to +3.3V). 

Product OverviewThe STM32F042x microcontrollers incorporate the high-performance ARM Cortex -M0 32-bit RISC core operating at a 48 MHz frequency, high-speed embedded memories (up to 32 Kbytes of Flash memory and 6 Kbytes of SRAM), and an extensive range of enhanced peripherals and I/Os. All devices offer standard communication interfaces (one I²C, two SPIs/one I²S, one HDMI CEC and two USARTs), one USB Full speed device (crystal-less), one CAN, one 12-bit ADC, four general-purpose 16-bit timers, a 32-bit timer and an advanced-control PWM timer. This blog will introduce STM32F042K6T6 systematically from its features, pinout to its specifications, applications, also including STM32F042K6T6 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionSTM32F042K6T6 FeaturesSTM32F042K6T6 ApplicationsSTM32F042K6T6 PinoutSTM32F042K6T6 CAD ModelsSTM32F042K6T6 Circuit SchematicSTM32F042K6T6 Block DiagramSTM32F042K6T6 SpecificationSTM32F042K6T6 ManufacturerSTM32F042K6T6 DatasheetUsing WarningsSTM32F042K6T6 FAQ Related Video Introduction Video: Easy & Powerful Arduino Alternative? STM32 Beginner's Guide STM32F042K6T6 Video Description: In this video we will have a look at the Blue Pill development board that is based around an STM32 32-bit ARM uC. Along the way I will show you how to easily program it with the Arduino IDE and what advantages/disadvantages it offers in comparison to the traditional Arduino. STM32F042K6T6 FeaturesCore: Arm® 32bit Cortex®-M0 CPU, frequency up to 48MHzCRC calculation unit2V to 3.6V digital and I/O, VDDA = from VDD to 3.6V analogue supply (reset and power management)Power-on/Power down reset (POR/PDR), programmable voltage detector (PVD)4 to 32MHz crystal and internal 40KHz RC oscillator, 32KHz oscillator for RTC with calibrationAll mappable on external interrupt vectors (up to 24 fast I/Os with 5V tolerant capability)5ch DMA controller, one 12bit, 1.0µs ADC (up to 10 channels)Calendar RTC with alarm and periodic wakeup from stop/standbyTemperature range from -40°C to 85°CHDMI CEC wakeup on header reception, Serial Wire Debug (SWD) STM32F042K6T6 ApplicationsThese features make the STM32F042x4/x6 microcontrollers suitable for a wide range of applications such as application control and user interfaces, hand-held equipment, A/V receivers and digital TV, PC peripherals, gaming and GPS platforms, industrial applications, PLCs, inverters, printers, scanners, alarm systems, video intercoms and HVACs. STM32F042K6T6 PinoutThe following figure is the diagram of STM32F042K6T6 pinout. STM32F042K6T6 Pinout STM32F042K6T6 CAD ModelsThe followings are STM32F042K6T6 Symbol, Footprint, and 3D Model. STM32F042K6T6 Symbol STM32F042K6T6 Footprint STM32F042K6T6 3D Model STM32F042K6T6 Circuit SchematicThe following is the typical application with a 32.768 kHz crystal. STM32F042K6T6 Circuit Schematic STM32F042K6T6 Block DiagramThe following figure shows the block diagram of STM32F042K6T6. STM32F042K6T6 Block Diagram STM32F042K6T6 SpecificationAttributeValueFamily NameSTM32Package TypeLQFPMounting TypeSurface MountPin Count32Device CoreARM Cortex M0Data Bus Width32bitProgram Memory Size32 kBMaximum Frequency48MHzRAM Size6 kBUSB Channels1Typical Operating Supply Voltage2 → 3.6 VMaximum Operating Temperature+85 °CDimensions7.2 x 7.2 x 1.45mmMinimum Operating Temperature-40 °CNumber of Timers4Length7.2mmTimer Resolution16 bit, 32bitTimers1 x 32 bit, 4 x 16 bitWidth7.2mmNumber of ADC Units1Instruction Set ArchitectureRISCMaximum Number of Ethernet Channels0Data Rate18MbpsProgram Memory TypeFlashADCs13 x 12 bitHeight1.45mm STM32F042K6T6 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. STM32F042K6T6 DatasheetYou can download STM32F042K6T6 datasheet from the link given below:STM32F042K6T6 DatasheetSTM32 Nucleo-32 boards  Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. STM32F042K6T6 FAQWhat kind of memory does the stm32f042x4 / X6 microcontroller?The STM32F042x4/x6 microcontrollers incorporate the high-performance ARM ® Cortex ® -M0 32-bit RISC core operating at up to 48 MHz frequency, high-speed embedded memories (up to 32 Kbytes of Flash memory and 6 Kbytes of SRAM), and an extensive range of enhanced peripherals and I/Os. What is ARM STM?The Arm CoreSight System Trace Macrocell (STM) is a trace source that enables real-time instrumentation of software with no impact on system behavior or performance. The Arm CoreSight System Trace Macrocell (STM) extends low-cost real-time visibility of software and hardware execution to all software developers. What is a microcontroller used for?In the office, microcontrollers are used in computer keyboards, monitors, printers, copiers, fax machines, and telephone systems to name a few. In your home, microcontrollers are used in microwave ovens, washers and dryers, security systems, lawn sprinkler station controllers, and music/video entertainment components. What are examples of microcontroller?The examples of 8-bit microcontrollers are Intel 8031/8051, PIC1x, and Motorola MC68HC11 families. The 16-bit microcontroller performs greater precision and performance as compared to the 8-bit. Where are microcontrollers used in everyday life?Devices used in the kitchen and around the house such as refrigerators, TVs, radios, washing machines, dishwashers and even humidifiers frequently use microcontrollers. Any electronic consumer product that has a key entry for operation has a microcontroller inside. All electronic watches have microcontrollers.