Online Microcontroller Boards @ Best Price | Campus Component

Explore & buy a wide range of Microcontroller and development boards online at the lowest price & best quality in India from Campus Component. This microcontroller board is the best solution to the child's development. This is a new mini pcb board, integrate all the modules and adapters to achieve a more convenient development. Meanwhile, this microcontroller board is a new product and made of high quality plastic material with the durability Visit today. https://www.campuscomponent.com/categories/developement_board_programmers/2208614000002321147

Lab #1 Introduction to Embedded Systems Solution

Lab #1 Introduction to Embedded Systems Solution

In this lab you will perform tasks designed to acquaint you with the Nuvoton Nu-LB-NUC140, a prototype/development board. You will also become familiar with using the Keil μVision Integrated Development Environment (IDE) to create your C programs.

The board is programmed and controlled by Keil μVision which is installed on the lab’s PCs. A version of Keil μVision is also available as a free…

View On WordPress

Learn how to create #IoT applications that use the officially supported FreeRTOS kernel on Armv8-M with preconfigured examples for @nuvoton, @NXP & @ST_World development boards. https://t.co/driGIjUhBE https://t.co/bAWsNrIpHt (via Twitter http://twitter.com/awscloud/status/1141420135728726016)

Lab #1 Introduction to Embedded Systems Solution

Lab #1 Introduction to Embedded Systems Solution

In this lab you will perform tasks designed to acquaint you with the Nuvoton Nu-LB-NUC140, a prototype/development board. You will also become familiar with using the Keil μVision Integrated Development Environment (IDE) to create your C programs.

  The board is programmed and controlled by Keil μVision which is installed on the lab’s PCs. A version of Keil μVision is also available as a free…

View On WordPress

ARM Microcontrollers Market Analysis, Strategies, Segmentation and Forecast to 2018 - 2025

WiseGuyRerports.com Presents “Global (North America, Europe, Asia-Pacific, South America, Middle East and Africa) ARM Microcontrollers Market 2018, Forecast to 2023” New Document to its Studies Database

ARM is the name of a company that designs micro-processors architecture. It is also engaged in licensing them to the producers who fabricate genuine chips. In actuality ARM is a 32 bit genuine RISC architecture. It was initially developed in the year 1980 by Acorn Computers Ltd. This ARM base microprocessor does not have on-board flash memory. ARM is particularly designed for micro-controller devices, it is simple to be trained and make use of, however powerful enough for the most challenging embedded devices.

Scope of the Report: This report focuses on the ARM Microcontrollers in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

The worldwide market for ARM Microcontrollers is expected to grow at a CAGR of roughly 7.9% over the next five years, will reach 13000 million US$ in 2023, from 8250 million US$ in 2017, according to a new GIR (Global Info Research) study.

Market Segment by Manufacturers, this report covers Microchip NXP STMicroelectronics Texas Instruments Analog Devices Toshiba Cypress Semiconductor Renesas Infineon Technologies Maxim Integrated Silicon Labs Nuvoton Technology ZiLOG

Request For Sample Report @ https://www.wiseguyreports.com/sample-request/3294583-global-north-america-europe-asia-pacific-south-america                                  

Market Segment by Regions, regional analysis covers North America (United States, Canada and Mexico) Europe (Germany, France, UK, Russia and Italy) Asia-Pacific (China, Japan, Korea, India and Southeast Asia) South America (Brazil, Argentina, Colombia etc.) Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Market Segment by Type, covers Less than 80 Pins 80-120 Pins More than 120 Pins

Market Segment by Applications, can be divided into Industrial Automotive Communicate Medical Consumer Others

Complete Report Details @ https://www.wiseguyreports.com/reports/3294583-global-north-america-europe-asia-pacific-south-america                        

Table Of Contents:      

1 Market Overview 1.1 ARM Microcontrollers Introduction 1.2 Market Analysis by Type 1.2.1 Less than 80 Pins 1.2.2 80-120 Pins 1.2.3 More than 120 Pins 1.3 Market Analysis by Applications 1.3.1 Industrial 1.3.2 Automotive 1.3.3 Communicate 1.3.4 Medical 1.3.5 Consumer 1.3.6 Others 1.4 Market Analysis by Regions 1.5 Market Dynamics 1.5.1 Market Opportunities 1.5.2 Market Risk 1.5.3 Market Driving Force 2 Manufacturers Profiles 2.1 Microchip 2.1.1 Business Overview 2.1.1.1 Microchip Description 2.1.1.2 Microchip Headquarter, Main Business and Finance Overview 2.1.2 Microchip ARM Microcontrollers Product Introduction 2.1.2.1 ARM Microcontrollers Production Bases, Sales Regions and Major Competitors 2.1.2.2 ARM Microcontrollers Product Information 2.1.3 Microchip ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.1.3.1 Microchip ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.1.3.2 Global Microchip ARM Microcontrollers Market Share in 2017 2.2 NXP 2.2.1 Business Overview 2.2.1.1 NXP Description 2.2.1.2 NXP Headquarter, Main Business and Finance Overview 2.2.2 NXP ARM Microcontrollers Product Introduction 2.2.2.1 ARM Microcontrollers Production Bases, Sales Regions and Major Competitors 2.2.2.2 ARM Microcontrollers Product Information 2.2.3 NXP ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.2.3.1 NXP ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.2.3.2 Global NXP ARM Microcontrollers Market Share in 2017 2.3 STMicroelectronics 2.3.1 Business Overview 2.3.1.1 STMicroelectronics Description 2.3.1.2 STMicroelectronics Headquarter, Main Business and Finance Overview 2.3.2 STMicroelectronics ARM Microcontrollers Product Introduction 2.3.2.1 ARM Microcontrollers Production Bases, Sales Regions and Major Competitors 2.3.2.2 ARM Microcontrollers Product Information 2.3.3 STMicroelectronics ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.3.3.1 STMicroelectronics ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.3.3.2 Global STMicroelectronics ARM Microcontrollers Market Share in 2017 2.4 Texas Instruments 2.4.1 Business Overview 2.4.1.1 Texas Instruments Description 2.4.1.2 Texas Instruments Headquarter, Main Business and Finance Overview 2.4.2 Texas Instruments ARM Microcontrollers Product Introduction 2.4.2.1 ARM Microcontrollers Production Bases, Sales Regions and Major Competitors 2.4.2.2 ARM Microcontrollers Product Information 2.4.3 Texas Instruments ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.4.3.1 Texas Instruments ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.4.3.2 Global Texas Instruments ARM Microcontrollers Market Share in 2017 2.5 Analog Devices 2.5.1 Business Overview 2.5.1.1 Analog Devices Description 2.5.1.2 Analog Devices Headquarter, Main Business and Finance Overview 2.5.2 Analog Devices ARM Microcontrollers Product Introduction 2.5.2.1 ARM Microcontrollers Production Bases, Sales Regions and Major Competitors 2.5.2.2 ARM Microcontrollers Product Information 2.5.3 Analog Devices ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.5.3.1 Analog Devices ARM Microcontrollers Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.5.3.2 Global Analog Devices ARM Microcontrollers Market Share in 2017

Continued…….                                                      

CONTACT US:

NORAH TRENT

Partner Relations & Marketing Manager

www.wiseguyreports.com

Ph: +1-646-845-9349 (US)

Ph: +44 208 133 9349 (UK)

ARM is the name of a company that designs micro-processors architecture. It is also engaged in licensing them to the producers who fabricate genuine chips. In actuality ARM is a 32 bit genuine RISC architecture. It was initially developed in the year 1980 by Acorn Computers Ltd. This ARM base microprocessor does not have on-board flash memory. ARM is particularly designed for micro-controller devices, it is simple to be trained and make use of, however powerful enough for the most challenging embedded devices. Scope of the Report: This report focuses on the ARM Microcontrollers in Global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application. Market Segment by Manufacturers, this report covers Microchip NXP STMicroelectronics Texas Instruments Analog Devices Toshiba Cypress Semiconductor Renesas Infineon Technologies Maxim Integrated Silicon Labs Nuvoton Technology ZiLOG Market Segment by Regions, regional analysis covers North America (USA, Canada and Mexico) Europe (Germany, France, UK, Russia and Italy) Asia-Pacific (China, Japan, Korea, India and Southeast Asia) South America (Brazil, Argentina, Columbia etc.) Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa) Market Segment by Type, covers Less than 80 Pins 80-120 Pins More than 120 Pins Market Segment by Applications, can be divided into Industrial Automotive Communicate Medical Consumer Others There are 15 Chapters to deeply display the global ARM Microcontrollers market. Chapter 1, to describe ARM Microcontrollers Introduction, product scope, market overview, market opportunities, market risk, market driving force; Chapter 2, to analyze the top manufacturers of ARM Microcontrollers, with sales, revenue, and price of ARM Microcontrollers, in 2016 and 2017; Chapter 3, to display the competitive situation among the top manufacturers, with sales, revenue and market share in 2016 and 2017; Chapter 4, to show the global market by regions, with sales, revenue and market share of ARM Microcontrollers, for each region, from 2012 to 2017; Chapter 5, 6, 7, 8 and 9, to analyze the key regions, with sales, revenue and market share by key countries in these regions; Chapter 10 and 11, to show the market by type and application, with sales market share and growth rate by type, application, from 2012 to 2017; Chapter 12, ARM Microcontrollers market forecast, by regions, type and application, with sales and revenue, from 2017 to 2022; Chapter 13, 14 and 15, to describe ARM Microcontrollers sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source

¿Qué hacer después de instalar CentOS 7?

La distribución CentOS Linux se deriva de los fuentes de Red Hat Enterprise Linux (RHEL). Al igual que RHEL, es una distribución que se destaca por su estabilidad, robustez, y simplicidad. Características deseables para los administradores de sistemas. Su estabilidad y robustez dan un buen nivel de confianza, al mismo tiempo que su administración es muy simple y ampliamente documentada. Aunque, estas características no se ponderan al momento de instalar GNU/Linux en una computadora personal, sino que se opta por tener un sistema no tan estable, pero con las versiones más recientes posibles de cada aplicación o paquete. Estabilidad y actualizaciones son conceptos divergentes, ya que la estabilidad de una aplicación se logra con años de testeo y depuración.

Ahora empecemos a preparar nuestro nuevo sistema.

Básico:

Como root ejecutamos

yum update && yum autoremove && yum install yum-plugin-priorities

yum install epel-release

Descargan estos .rpm y los instalan:

http://li.nux.ro/download/nux/dextop/el7/x86_64/nux-dextop-release-0-1.el7.nux.noarch.rpm http://linuxdownload.adobe.com/adobe-release/adobe-release-x86_64-1.0-1.noarch.rpm

Ahora os ubicáis en /etc/yum.repos.d y editan todos los repos que aparecen en dicho directorio añadiendo al final de cada repositorio las siguientes prioridades de uso:

priority=1   para CentOS-Base.repo, epel.repo priority=10  para nux-dextop.repo, adobe-linux-x86_64.repo

Ejemplo:

nano CentOS-Base.repo

# CentOS-Base.repo # # The mirror system uses the connecting IP address of the client and the # update status of each mirror to pick mirrors that are updated to and # geographically close to the client.  You should use this for CentOS updates # unless you are manually picking other mirrors. # # If the mirrorlist= does not work for you, as a fall back you can try the # remarked out baseurl= line instead. # # [base] name=CentOS-$releasever - Base mirrorlist=http://mirrorlist.centos.org/?release=$releasever&arch=$basearch&repo=os&infra=$infra #baseurl=http://mirror.centos.org/centos/$releasever/os/$basearch/ gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-7 priority=1 #released updates [updates] name=CentOS-$releasever - Updates mirrorlist=http://mirrorlist.centos.org/?release=$releasever&arch=$basearch&repo=updates&infra=$infra #baseurl=http://mirror.centos.org/centos/$releasever/updates/$basearch/ gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-7 priority=1 #additional packages that may be useful [extras] name=CentOS-$releasever - Extras mirrorlist=http://mirrorlist.centos.org/?release=$releasever&arch=$basearch&repo=extras&infra=$infra #baseurl=http://mirror.centos.org/centos/$releasever/extras/$basearch/ gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-7 priority=1 #additional packages that extend functionality of existing packages [centosplus] name=CentOS-$releasever - Plus mirrorlist=http://mirrorlist.centos.org/?release=$releasever&arch=$basearch&repo=centosplus&infra=$infra #baseurl=http://mirror.centos.org/centos/$releasever/centosplus/$basearch/ gpgcheck=1 enabled=0 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-7

Una vez estén modificados los repos mencionados seguimos:

yum install java-1.7.0-openjdk icedtea-web thunderbird firefox libreoffice libreoffice-langpack-es filezilla p7zip unzip zip gimp kernel-devel dkms telnet mc wget htop ntfs-3g yum install gstreamer-plugins-good gstreamer-plugins-bad gstreamer-plugins-ugly yum groupinstall "Development Tools" "Development Libraries" yum install vlc lm_sensors unrar foomatic sensors-detect

Puede que el comando yum groupinstall "Development Tools" "Development Libraries" no funcione, hay que utilizar:

yum groupinstall "Development Tools"

Testeando el Hardware

sensors-detect

Este comando nos permitira configurar el hardware de nuestro equipo:

(Pongo mi configuración)

$ [root@kozlov yum.repos.d]# sensors-detect # sensors-detect revision 3.4.0-4 (2016-06-01) # System: Dell Inc. Inspiron 620s [00] # Board: Dell Inc. 0GDG8Y # Kernel: 3.10.0-123.el7.x86_64 x86_64 # Processor: Intel(R) Core(TM) i3-2100 CPU @ 3.10GHz (6/42/7)This program will help you determine which kernel modules you need to load to use lm_sensors most effectively. It is generally safe and recommended to accept the default answers to all questions, unless you know what you're doing.Some south bridges, CPUs or memory controllers contain embedded sensors. Do you want to scan for them? This is totally safe. (YES/no): YES Silicon Integrated Systems SIS5595...                       No VIA VT82C686 Integrated Sensors...                          No VIA VT8231 Integrated Sensors...                            No AMD K8 thermal sensors...                                   No AMD Family 10h thermal sensors...                           No AMD Family 11h thermal sensors...                           No AMD Family 12h and 14h thermal sensors...                   No AMD Family 15h thermal sensors...                           No AMD Family 16h thermal sensors...                           No AMD Family 15h power sensors...                             No AMD Family 16h power sensors...                             No Intel digital thermal sensor...                             Success!    (driver `coretemp') Intel AMB FB-DIMM thermal sensor...                         No Intel 5500/5520/X58 thermal sensor...                       No VIA C7 thermal sensor...                                    No VIA Nano thermal sensor...                                  NoSome Super I/O chips contain embedded sensors. We have to write to standard I/O ports to probe them. This is usually safe. Do you want to scan for Super I/O sensors? (YES/no): YES Probing for Super-I/O at 0x2e/0x2f Trying family `National Semiconductor/ITE'...               No Trying family `SMSC'...                                     Yes Found `SMSC SCH5514D-NS Super IO'                              (no hardware monitoring capabilities) Probing for Super-I/O at 0x4e/0x4f Trying family `National Semiconductor/ITE'...               No Trying family `SMSC'...                                     No Trying family `VIA/Winbond/Nuvoton/Fintek'...               No Trying family `ITE'...                                      NoSome systems (mainly servers) implement IPMI, a set of common interfaces through which system health data may be retrieved, amongst other things. We first try to get the information from SMBIOS. If we don't find it there, we have to read from arbitrary I/O ports to probe for such interfaces. This is normally safe. Do you want to scan for IPMI interfaces? (YES/no): YES Probing for `IPMI BMC KCS' at 0xca0...                      No Probing for `IPMI BMC SMIC' at 0xca8...                     NoSome hardware monitoring chips are accessible through the ISA I/O ports. We have to write to arbitrary I/O ports to probe them. This is usually safe though. Yes, you do have ISA I/O ports even if you do not have any ISA slots! Do you want to scan the ISA I/O ports? (YES/no): YES Probing for `National Semiconductor LM78' at 0x290...       No Probing for `National Semiconductor LM79' at 0x290...       No Probing for `Winbond W83781D' at 0x290...                   No Probing for `Winbond W83782D' at 0x290...                   NoLastly, we can probe the I2C/SMBus adapters for connected hardware monitoring devices. This is the most risky part, and while it works reasonably well on most systems, it has been reported to cause trouble on some systems. Do you want to probe the I2C/SMBus adapters now? (YES/no): YES Using driver `i2c-i801' for device 0000:00:1f.3: Intel Cougar Point (PCH) Module i2c-dev loaded successfully.Next adapter: Radeon i2c bit bus 0x90 (i2c-0) Do you want to scan it? (yes/NO/selectively): yesNext adapter: Radeon i2c bit bus 0x91 (i2c-1) Do you want to scan it? (yes/NO/selectively): yesNext adapter: Radeon i2c bit bus 0x92 (i2c-2) Do you want to scan it? (yes/NO/selectively): yesNext adapter: Radeon i2c bit bus 0x93 (i2c-3) Do you want to scan it? (yes/NO/selectively): yesNext adapter: Radeon i2c bit bus 0x94 (i2c-4) Do you want to scan it? (yes/NO/selectively): yesNext adapter: Radeon i2c bit bus 0x95 (i2c-5) Do you want to scan it? (yes/NO/selectively): yesNext adapter: Radeon i2c bit bus 0x96 (i2c-6) Do you want to scan it? (yes/NO/selectively): yesNext adapter: Radeon i2c bit bus 0x97 (i2c-7) Do you want to scan it? (yes/NO/selectively): yesNext adapter: SMBus I801 adapter at f000 (i2c-8) Do you want to scan it? (YES/no/selectively): yes Client found at address 0x50 Probing for `Analog Devices ADM1033'...                     No Probing for `Analog Devices ADM1034'...                     No Probing for `SPD EEPROM'...                                 Yes    (confidence 8, not a hardware monitoring chip) Probing for `EDID EEPROM'...                                No Client found at address 0x52 Probing for `Analog Devices ADM1033'...                     No Probing for `Analog Devices ADM1034'...                     No Probing for `SPD EEPROM'...                                 Yes    (confidence 8, not a hardware monitoring chip)Now follows a summary of the probes I have just done. Just press ENTER to continue: Driver `coretemp':  * Chip `Intel digital thermal sensor' (confidence: 9)Do you want to overwrite /etc/sysconfig/lm_sensors? (YES/no): no To load everything that is needed, add this to one of the system initialization scripts (e.g. /etc/rc.d/rc.local):#----cut here---- # Chip drivers modprobe coretemp /usr/bin/sensors -s #----cut here----You really should try these commands right now to make sure everything is working properly. Monitoring programs won't work until the needed modules are loaded.Unloading i2c-dev... OK

Con esto está preparado nuestro CentOS 7

Fuentes:

https://www.centos.org/

https://es.wikipedia.org/wiki/CentOS

Best Electronic Components Suppliers in Delhi - Campus Component

In the ever-evolving world of electronics, finding a reliable and trustworthy source for high-quality electronic components is essential. Campus Component, a leading electronic components distributor in India, stands out as a premier destination for a wide range of components catering to diverse industry needs. With a commitment to excellence, Campus Component has established itself as the go-to partner for engineers, hobbyists, and businesses seeking top-notch electronic components and exceptional customer service.

A Comprehensive Range of Electronic Components

Campus Component boasts an extensive inventory of electronic components, encompassing a vast spectrum of categories, including:

Microcontrollers and Development Boards: Discover a comprehensive selection of microcontrollers and development boards from renowned brands like Arduino, ESPRESSIF, and NUVOTON, empowering you to bring your electronic creations to life.

Sensors: Enhance your projects with a diverse range of sensors, including temperature sensors, proximity sensors, and accelerometers, enabling you to interact with the physical world with precision and accuracy.

Relays: Control and regulate electrical circuits with a broad assortment of relays, including power relays, PCB relays, and solid-state relays, ensuring reliable and efficient power management.

Wireless Modules: Expand the connectivity of your projects with a wide array of wireless modules, including Bluetooth modules, Wi-Fi modules, and LoRa modules, enabling seamless communication and data exchange.

Campus Component: Your Trusted Source for Electronic Components

In a landscape brimming with electronic components distributors, Campus Component distinguishes itself with its unwavering commitment to quality, customer-centric approach, and dedication to innovation. Whether you're seeking a single resistor or a comprehensive suite of components for your next project, Campus Component stands as a reliable partner, ensuring you have access to the high-quality electronic components you need to bring your ideas to life.

Embrace the Power of Electronics with Campus Component

Join Campus Component's growing community of engineers, hobbyists, and businesses and discover the power of high-quality electronic components. With an extensive inventory, unwavering commitment to quality, and customer-centric approach, Campus Component is your one-stop shop for all your electronic components needs.

Whether you're an electronics enthusiast, a hobbyist, or a professional  and Building the next big thing in electronics? Trust Campus Component. Get your electronics projects up and running with the best microcontrollers and development boards from Campus Component. Campus Component is your one-stop-shop for all things microcontroller and development board related. With a wide selection of top brands and a team of experts on hand to assist you, shopping for electronics components has never been easier! Shop online now and enjoy fast delivery, competitive pricing, and unbeatable quality! https://www.campuscomponent.com/categories/developement_board_programmers/2208614000002321147

NUC029F - Buy Nuvoton NT-NUC029F - DE-493-D online at Lowest Price in India at Campus Component. It is ARM® Cortex®-M0, MCU 32-Bit Embedded Evaluation Development Board from Nuvoton Technology.

Visit- https://www.campuscomponent.com/products/nuvoton-nt-nuc029f-de-493-d/2208614000008275440

The NuVoton microcontroller family features a range of products, with some of them being industry firsts, such as: The 8051 microcontroller, nuvoton nuc029lan, m487 jidae. The world’s smallest ARM Cortex-M3 based MCU which integrates two high-performance ARM Cortex-M3 cores and 64KB Flash, running at up to 120MHz; Ultra-low power real time clock/calendar that consumes only 16uA in standby mode and 12uA when active; The world’s smallest ECC Flash microcontroller with a 10F 100mA ECC Flash memory featuring Advanced Electrically Erasable Programmable Read Only Memory (EEPROM) technology. This chip enables production cost reduction by eliminating anti-fuse processes for devices requiring non-volatile memory.

The NuVoton microcontroller family features a range of products, with some of them being industry firsts, such as: The 8051 microcontroller, nuvoton nuc029lan, m487 jidae. The world’s smallest ARM Cortex-M3 based MCU which integrates two high-performance ARM Cortex-M3 cores and 64KB Flash, running at up to 120MHz; Ultra-low power real time clock/calendar that consumes only 16uA in standby mode and 12uA when active; The world’s smallest ECC Flash microcontroller with a 10F 100mA ECC Flash memory featuring Advanced Electrically Erasable Programmable Read Only Memory (EEPROM) technology. This chip enables production cost reduction by eliminating anti-fuse processes for devices requiring non-volatile memory.

Find out how we're making it easier for embedded developers to built #IoT applications using the FreeRTOS kernel on Armv8-M. In this demonstration we'll show you how to get started using a @nuvoton development board. https://t.co/vs4DO0mmcF https://t.co/iu7tMnwnmm (via Twitter http://twitter.com/awscloud/status/1136737533331673088)

Summary ARM is the name of a company that designs micro-processors architecture. It is also engaged in licensing them to the producers who fabricate genuine chips. In actuality ARM is a 32 bit genuine RISC architecture. It was initially developed in the year 1980 by Acorn Computers Ltd. This ARM base microprocessor does not have on-board flash memory. ARM is particularly designed for micro-controller devices, it is simple to be trained and make use of, however powerful enough for the most challenging embedded devices. Market Segment as follows: By Type Less than 80 Pins 80-120 Pins More than 120 Pins By Application Industrial Automotive Communicate Medical Consumer Others By Company Microchip NXP STMicroelectronics Texas Instruments Analog Devices Toshiba Cypress Semiconductor Renesas Infineon Technologies Maxim Integrated Silicon Labs Nuvoton Technology ZiLOG The main contents of the report including: Section 1: Product definition, type and application, global and China market overview; Section 2: Global and China Market competition by company; Section 3: Global and China sales revenue, volume and price by type; Section 4: Global and China sales revenue, volume and price by application; Section 5: China export and import; Section 6: Company information, business overview, sales data and product specifications; Section 7: Industry chain and raw materials; Section 8: SWOT and Porter's Five Forces; Section 9: Conclusion.