https://www.futureelectronics.com/p/semiconductors--microcontrollers--8-bit/atmega128l-8au-microchip-2038197

What is 8 bit microcontroller, lcd microcontrollers, low power microcontrollers

ATmega Series 128 KB Flash 4 KB SRAM 8 MHz 8-Bit Microcontroller - TQFP-64

Embedded Connectivity Solutions Market Size, Share, Demand, Future Growth, Challenges and Competitive Analysis

"Global Embedded Connectivity Solutions Market – Industry Trends and Forecast to 2028

Global Embedded Connectivity Solutions Market, By Technology (2G, 3G, 4G/LTE), Type (Hardware, Software, Others), Services (Over-The-Air Updates, Infotainment, Driver Assistance, Live Traffic Information, e-Call, Vehicle Self-Diagnosis, Intelligent Parking, Safety, Entertainment, Well-Being, Vehicle Management, Mobility Management), End-Users (OEM, Aftermarket), Country (U.S., Canada, Mexico, Brazil, Argentina, Rest of South America, Germany, Italy, U.K., France, Spain, Netherlands, Belgium, Switzerland, Turkey, Russia, Rest of Europe, Japan, China, India, South Korea, Australia, Singapore, Malaysia, Thailand, Indonesia, Philippines, Rest of Asia-Pacific, Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa) Industry Trends and Forecast to 2028

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**Segments**

- **By Component**: The embedded connectivity solutions market can be segmented based on components into hardware and software. Hardware components include microcontrollers, sensors, wireless modules, and other electronic components essential for establishing connectivity. On the other hand, software elements encompass firmware, protocols, and middleware that facilitate communication between different devices and systems.

- **By Connectivity Technology**: This market can also be segmented by connectivity technology, including Wi-Fi, Bluetooth, Zigbee, NFC, cellular networks (4G, 5G), Ethernet, and others. Each connectivity technology serves specific purposes and suits different applications within the embedded connectivity solutions landscape.

- **By Application**: Embedded connectivity solutions find applications across various industries such as automotive, healthcare, consumer electronics, industrial automation, smart cities, and others. These applications leverage connectivity solutions to enable communication, data transfer, and smart functionalities, enhancing overall operational efficiency and user experience.

**Market Players**

- **Texas Instruments Incorporated**: Texas Instruments offers a broad range of embedded connectivity solutions, including microcontrollers, wireless connectivity modules, and software to enable seamless integration in diverse applications.

- **NXP Semiconductors**: NXP Semiconductors is a key player in the embedded connectivity solutions market, providing secure connectivity solutions for automotive, industrial, and IoT applications.

- **STMicroelectronics**: STMicroelectronics offers a comprehensive portfolio of embedded connectivity solutions, including microcontrollers, sensors, and wireless connectivity solutions to address the evolving needs of the market.

- **Microchip Technology Inc.**: Microchip Technology specializes in providing embedded connectivity solutions such as Wi-Fi modules, Bluetooth modules, and microcontrollers for a wide range of applications.

- **Cypress Semiconductor Corporation**: Cypress Semiconductor is known for its reliable embedded connectivity solutions, offering a mix of hardware and software components tailored for IoT, automotive, and consumer electronics applications.

The embedded connectivity solutions market is witnessing significant growth driven by the increasing adoption of IoT devices, smart technologies, and connected systems across various industries. As demandThe embedded connectivity solutions market is experiencing substantial growth attributed to the proliferation of Internet of Things (IoT) devices and smart technologies across diverse industries. One of the key drivers of this market expansion is the rising demand for seamless connectivity solutions that enable devices to communicate and exchange data efficiently. Industries such as automotive, healthcare, consumer electronics, industrial automation, and smart cities are increasingly adopting embedded connectivity solutions to enhance operational efficiency, improve user experience, and enable innovative functionalities.

In terms of components, the market segmentation into hardware and software plays a crucial role in understanding the dynamics of embedded connectivity solutions. Hardware components, including microcontrollers, sensors, and wireless modules, form the backbone of connectivity infrastructure, enabling devices to establish networks and communicate with each other. On the other hand, software components such as firmware, protocols, and middleware are essential for enabling seamless communication and data transfer between diverse devices and systems. The synergistic interplay between hardware and software components is vital for the successful implementation of embedded connectivity solutions across different applications and industries.

Further segmentation based on connectivity technology provides insights into the diverse range of options available for establishing connections between devices. Wi-Fi, Bluetooth, Zigbee, NFC, cellular networks (4G, 5G), and Ethernet are some of the key connectivity technologies driving the embedded connectivity solutions market. Each technology has its unique features, advantages, and limitations, making them suitable for specific applications within the embedded connectivity landscape. For instance, Wi-Fi and Bluetooth are commonly used for short-range wireless communication in consumer electronics, while cellular networks like 5G are preferred for high-speed, long-distance connectivity in industrial and smart city applications.

Market players such as Texas Instruments Incorporated, NXP Semiconductors, STMicroelectronics, Microchip Technology Inc., and Cypress Semiconductor Corporation are leading the charge in offering innovative embedded connectivity solutions tailored to meet the evolving needs of industries embracing IoT and smart technologies. These companies provide a diverse portfolio of products, including microcontrollers, wireless modules, sensors, and software solutions**Global Embedded Connectivity Solutions Market Analysis**:

- **Technology**: The market for embedded connectivity solutions is witnessing rapid advancements in technology, with a focus on 2G, 3G, and 4G/LTE networks. These technologies are essential for establishing robust and reliable connections between devices, enabling seamless communication and data transfer across various industries.

- **Type**: The market segmentation based on type categorizes embedded connectivity solutions into hardware, software, and other components. Hardware components such as microcontrollers and wireless modules form the physical infrastructure of connectivity, whereas software elements like firmware and protocols play a crucial role in facilitating communication and data exchange between devices.

- **Services**: The services offered in the embedded connectivity solutions market include Over-The-Air updates, infotainment, driver assistance, live traffic information, e-Call, vehicle self-diagnosis, intelligent parking, safety, entertainment, well-being, vehicle management, and mobility management. These services enhance the overall functionality, performance, and user experience of connected devices and systems.

- **End-Users**: The end-users of embedded connectivity solutions include Original Equipment Manufacturers (OEM) and aftermarket providers. OEMs integrate embedded connectivity solutions into their products during the manufacturing process, while aftermarket providers offer connectivity solutions as add-on services or upgrades for existing devices and systems.

- **Country**: The market for embedded connectivity solutions is geographically segmented into regions such as the U.S., Canada, Mexico, Brazil, Argentina, Germany, Italy, U.K., France,

Key points covered in the report: -

The pivotal aspect considered in the global Embedded Connectivity Solutions Market report consists of the major competitors functioning in the global market.

The report includes profiles of companies with prominent positions in the global market.

The sales, corporate strategies and technical capabilities of key manufacturers are also mentioned in the report.

The driving factors for the growth of the global Embedded Connectivity Solutions Market are thoroughly explained along with in-depth descriptions of the industry end users.

The report also elucidates important application segments of the global market to readers/users.

This report performs a SWOT analysis of the market. In the final section, the report recalls the sentiments and perspectives of industry-prepared and trained experts.

The experts also evaluate the export/import policies that might propel the growth of the Global Embedded Connectivity Solutions Market.

The Global Embedded Connectivity Solutions Market report provides valuable information for policymakers, investors, stakeholders, service providers, producers, suppliers, and organizations operating in the industry and looking to purchase this research document.

What to Expect from the Report, a 7-Pointer Guide

The Embedded Connectivity Solutions Market report dives into the holistic Strategy and Innovation for this market ecosystem

The Embedded Connectivity Solutions Market report keenly isolates and upholds notable prominent market drivers and barriers

The Embedded Connectivity Solutions Market report sets clarity in identifying technological standardization as well as the regulatory

framework, besides significantly assessing various implementation models besides evaluation of numerous use cases

The Embedded Connectivity Solutions Market report is also a rich repository of crucial information across the industry, highlighting details on novel investments as well as stakeholders and relevant contributors and market participants.

A through market analytical survey and forecast references through the forecast tenure, encapsulating details on historical developments, concurrent events as well as future growth probability

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Global Embedded System Market – Industry Trends and Analysis 2030

The Embedded System Market is projected to grow from USD 86.5 billion in 2020 to USD 116.2 billion by 2025; it is expected to grow at a CAGR of 6.1% from 2020 to 2025. 

Key factors fueling the growth of this market include an increase in the number of research and development activities related to embedded systems, rise in demand for advanced driver-assistance systems (ADAS) and electromobility solutions for electric vehicles and hybrid vehicles, increase in demand for portable devices such as wearables, and rise in the use of multicore processors in military applications.

Intel (US), Renesas (Japan), STMicroelectronics (Switzerland), NXP Semiconductors (Netherlands), Texas Instruments (US), Microchip (US), Cypress Semiconductors (US), Qualcomm (US), Analog Devices (US), and Infineon Technologies (Germany) are the key players operating in the embedded system market.

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Based on functionality, the real-time embedded systems segment of the market is projected to grow at a high CAGR from 2020 to 2025

The real-time embedded systems segment of the embedded system market is projected to grow at a high CAGR from 2020 to 2025. Real-time embedded systems are dedicated to perform given functions within a specified time frame. Since there is an increasing focus on efficiency and power management in various applications, these embedded systems are increasingly being used in network systems, medical systems, process control systems, robot manufacturing systems, traffic control systems, multimedia systems, etc. Moreover, the rising demand for real-time data and its analysis, along with the requirement of advanced communication infrastructure for technologies such as 5G and artificial intelligence (AI), is expected to lead to demand for real-time embedded systems globally.

The medium-scale embedded systems segment accounted for the largest share of the embedded system market in 2019

In 2019, the medium-scale embedded systems segment accounted for the largest share of the embedded system market. Medium-scale embedded systems are used for packet processing in network switches and routers and data processing in ultrasonic sensors. These systems form a major part of network and communication applications owing to their excellent power handling capacities. The increasing requirement of fast processing of embedded systems and efficient power consumption are key factors leading to the growing demand for 16-bit and 32-bit microcontrollers. Based on the number of threads and memory requirements, embedded devices commonly use either 16-bit microcontroller or 32-bit microcontroller architectures or a combination of both.

Among industries, the communication segment accounted for the largest share of the embedded system market in 2019

The communication segment accounted for the largest share of the embedded system market in 2019. Embedded systems are used in routers, Ethernet devices, wireless infrastructures, and protocol converters for high-speed data transfer to support the expanding communication infrastructures. Embedded hardware such as FPGA and ASIC are being used in various network and telecom applications. Telecom providers often integrate hard IP for interfaces such as peripheral component interconnect (PCI) Express, 100G Ethernet, and DDR3/4 for high-speed data transfer using embedded hardware such as FPGA. Moreover, technologies such as eASIC, which are cost-effective and meet power targets, are increasingly used in radio access network (RAN) equipment.

APAC is projected to hold the largest share of the embedded system market in 2025

APAC is expected to hold the largest share of the embedded system market in 2025. The growing per capita income and ongoing large-scale industrialization and urbanization are factors driving the growth of the embedded system market in this region. In addition, the availability of low-cost electronic products in APAC is expected to contribute to an increased demand for microprocessors and microcontrollers in the region. The rising use of autonomous robots and embedded vision systems is also projected to lead to an increased demand for embedded system hardware such as microprocessors and controllers for use in industrial applications in APAC.

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Bluetooth Modules Market to Witness Remarkable Growth by 2030| Murata, Qualcomm, Intel, Broadcom, Panasonic, etc

The Bluetooth modules market refers to the global market for modules that enable wireless communication between devices using Bluetooth technology. Bluetooth modules are small, self-contained devices that incorporate a Bluetooth radio, microcontroller, and software stack, allowing devices to communicate wirelessly with other devices that also have Bluetooth capabilities.

The market for Bluetooth modules has been growing rapidly in recent years, driven by the increasing demand for wireless connectivity in a wide range of consumer and industrial applications. Some of the key factors driving the growth of the Bluetooth modules market include the increasing use of Bluetooth technology in smartphones, tablets, and other mobile devices, the growing popularity of Bluetooth-enabled IoT devices, and the increasing demand for wireless connectivity in industrial applications such as industrial automation and control.

The Bluetooth modules market is highly competitive, with a large number of vendors offering a wide range of products for various applications. Some of the key players in the market include Qualcomm, Cypress Semiconductor, Murata Manufacturing, Texas Instruments, STMicroelectronics, and Nordic Semiconductor.

The market for Bluetooth modules is expected to continue growing in the coming years, driven by the increasing adoption of wireless technologies in various industries and the growing demand for IoT devices. According to a report by MarketsandMarkets, the global market for Bluetooth modules is expected to grow from $2.7 billion in 2020 to $4.6 billion by 2025, at a CAGR of 11.1% during the forecast period.

Bluetooth transceiver

My experience these past few years has been focused on Wireless & RF, RF Modules & Solutions, Bluetooth, CY8C4127LQI-BL483T, Cypress and learning about Bluetooth transceiver and LPC551x/S1x, NXP, Microcontroller Family, MCU.

Top Trends Impacting the Global IoT Chip Market Through 2022 ($14.81 Billion Market)

“IoT Chip Market by Hardware (Processor, Sensor, Connectivity IC, Memory Device, and Logic Device), End-Use Application (Wearable Devices, Building Automation, Industrial, Automotive & Transportation, and Others), and Geography - Global Forecast to 2022"

The IoT chip market is expected to be valued at USD 14.81 Billion  by 2022, growing at a CAGR of 13.2% from 2016 to 2022.

The major IoT security market vendors include Cisco (US), IBM (US), Infineon (Germany), Intel (US), Symantec (US), Gemalto (Netherlands), Allot (Israel), Fortinet (US), Zingbox (US), Mocana (US), SecuriThings (Israel), CENTRI (Germany), Armis (US), ForgeRock (US), and NewSky (US). These players have adopted various growth strategies, including partnerships, agreements, and collaborations and new product launches, to further expand their presence in the global IoT security market.

New product launches, partnerships, and agreements have been the most adopted strategies by the major players from 2016 to 2018, which helped them innovate their offerings and increase their customer base.

Infineon is one of the leading players in the global IoT security market. The company has been instrumental in offering various products and solutions to automotive and industrial electronics companies. In the space of IoT security, Infineon offers a variety of IoT security products and services in its chip card and security segment by integrating security microcontrollers with security chips and security applications.

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Intel is another leading vendor in the IoT security market. The company is a leader in designing, manufacturing, and selling computing and communication components, such as microprocessors, chipsets, motherboards, and wireless and wired connectivity products. In the field of IoT security, Intel offers Intel Enhanced Privacy ID (Intel EPID), a cost-effective solution for end-to-end IoT security. The Intel EPID identity technology is being adopted by different organizations for improving interoperability in securing IoT solutions.

Intel follows both organic and inorganic growth strategies. It has focused on increasing its product portfolio with the help of strategies, such as partnerships and collaborations, and new product launches. For instance, in October 2018, Intel collaborated with Arm to simplify IoT’s most complex and challenging barriers, such as streamlining manufacturing and securing deployment workflows for IoT.

The companies that are profiled in the report are Intel Corporation (U.S.), Qualcomm Incorporated (U.S.), NXP Semiconductors N.V (Netherlands), Texas Instruments Incorporated (U.S.), STMicroelectronics N.V. (Switzerland), MediaTek Inc. (Taiwan), Microchip Technology Inc. (U.S.), Renesas Electronics Corporation (Japan), Huawei Technologies Co., Ltd. (China), NVIDIA Corporation (U.S.), Cypress Semiconductor Corporation (U.S.), Advanced Micro Devices, Inc. (U.S.), and Samsung Electronics Co., Ltd. (South Korea).

For more information visit: https://www.marketsandmarkets.com/Market-Reports/iot-chip-market-236473142.html

Contact: Mr. Shelly Singh MarketsandMarkets™ INC. 630 Dundee Road Suite 430 Northbrook, IL 60062 USA : 1-888-600-6441.

Programmable Power Management IC Market Latest Report with Forecast to 2027

Programmable Power Management IC Market – Introduction

Programmable power management IC is an integrated power management unit which is used for space constrained applications such as action camera, video doorbell, solid state drives, and other video processing applications. Programmable Power Management IC (PMIC) is ideal for powering single-core, dual-core, and quad-core system on chips.

Programmable Power Management IC Market – Competitive Landscape

Texas Instruments Incorporated

Founded in 1930, Texas Instruments Incorporated is headquartered in Dallas, Texas, US. The company designs, manufactures, and sells semiconductors to electronics designers and manufacturers worldwide. The Embedded Processing segment of the company offers connected microcontrollers, such as microcontrollers, stand-alone wireless connectivity solutions, and microcontrollers with integrated wireless capabilities. The company has around 30,000 employees in more than 30 countries across the globe.

STMicroelectronics

Founded in 1987, STMicroelectronics is headquartered in Geneva, Switzerland. The company is a global semiconductor company that manufacturer’s electronics and semiconductor products and semiconductor solutions. The company has approximately 100,000+ customer base and around 46,000 employees worldwide.

Integrated Device Technology, Inc.

Founded in 1980, Integrated Device Technology, Inc. is headquartered in San Jose, California, US. The company designs, develops, manufactures, and supplies a range of semiconductor solutions for the communications, computing, consumer, automotive, industrial applications. The Computing, Consumer and Industrial segment provides clock generation and distribution products; programmable timing devices; computing timing solutions; and wireless power products.

Some of the key players operating in the global programmable power management IC market with significant developments include Texas Instruments Incorporated, ROHM Semiconductor, Active-Semi International Inc., STMicroelectronics, Integrated Device Technology, Inc., NXP Semiconductor, Analog Devices, Inc., RS Components Ltd., Maxim Integrated, and Cypress Semiconductor Corporation among others.

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Programmable Power Management IC Market – Dynamics

Advantage Offered by Programmable Power Management IC over Traditional Power Management ICs is driving the Market

The programmable power management IC market has witnessed phenomenal growth since last few years and is anticipated to grow at a decent pace during the forecast period. The major factors driving the growth of the global market is the superior features offered by programmable power management ICs over traditional power management ICs. The programmable power management IC increases system reliability and reduces the overall size and power consumption in multiple target applications with a high level of integration, flexibility, and programmability.

Furthermore, the primary application of programmable power management ICs is battery power management majorly being used in the automotive sector. The programmable power management ICs offer less power consumption and are battery friendly. Thus, programmable power management ICs are an essential part of electronic control units in the automotive industry. Also, the increasing demand for battery operated devices and various technological development by the key players are anticipated to fuel the growth of the global market during the forecast period. Moreover, stringent government policies regarding less energy consumption are fueling the growth of global programmable power management IC market during the forecast period.

However, the integration and programming complexity of programmable power management ICs is expected to hamper the growth of the global market in the coming years. Though manufacturers are engaged in research and development activities to overcome this barrier in the growth of the global market.

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One of the things about my home automation journey is that I don’t always start out with a firm justification for tying something into my setup. There’s not really any additional gain at present from my living room lights being remotely controllable. When it came to tying the doorbell into my setup I had a clear purpose in mind: I often can’t hear it from my study.

The existing device was a Byron BY101. This consists of a 433MHz bell-push and a corresponding receiver that plugs into a normal mains socket for power. I tried moving the receiver to a more central location, but then had issues with it not reliably activating when the button was pushed. I could have attempted the inverse of Colin’s approach and tried to tie in a wired setup to the wireless receiver, but that would have been too simple.

I first attempted to watch for the doorbell via a basic 433MHz receiver. It seems to use a simple 16 bit identifier followed by 3 bits indicating which tone to use (only 4 are supported by mine; I don’t know if other models support more). The on/off timings are roughly 1040ms/540ms vs 450ms/950ms. I found I could reliably trigger the doorbell using these details, but I’ve not had a lot of luck with reliable 433MHz reception on microcontrollers; generally I use PulseView in conjunction with a basic Cypress FX2 logic analyser to capture from a 433MHz receiver and work out timings. Plus I needed a receiver that could be placed close enough to the bell-push to reliably pick it up.

Of course I already had a receiver that could decode the appropriate codes - the doorbell! Taking it apart revealed a PSU board and separate receiver/bell board. The receiver uses a PT4318-S with a potted chip I assume is the microcontroller. There was an HT24LC02 I2C EEPROM on the bottom of the receiver board; monitoring it with my BusPirate indicated that the 16 bit ID code was stored in address 0x20. Sadly it looked like the EEPROM was only used for data storage; only a handful of values were read on power on.

Additionally there were various test points on the board; probing while pressing the bell-push led to the discovery of a test pad that went to 1.8v when a signal was detected. Perfect. I employed an ESP82661 in the form of an ESP-07, sending out an MQTT message containing “ON” or “OFF” as appropriate when the state changed. I had a DS18B20 lying around so I added that for some temperature monitoring too; it reads a little higher due to being inside the case, but not significantly so.

All of this ended up placed in the bedroom, which conveniently had a socket almost directly above the bell-push. Tying it into Home Assistant was easy:

binary_sensor: - platform: mqtt name: Doorbell state_topic: "doorbell/master-bedroom/button"

I then needed something to alert me when the doorbell was pushed. Long term perhaps I’ll add some sounders around the house hooked in via MQTT, and there’s a Kodi notifier available, but that’s only helpful when the TV is on. I ended up employing my Alexa via Notify Me:

notify: - name: alexa platform: rest message_param_name: notification resource: https://api.notifymyecho.com/v1/NotifyMe data: accessCode: !secret notifyme_key

and then an automation in automations.yaml:

- id: alexa_doorbell alias: Notify Alexa when the doorbell is pushed trigger: - platform: state entity_id: binary_sensor.doorbell to: 'on' action: - service: notify.alexa data_template: message: "Doorbell rang at "

How well does this work? Better than expected! A couple of days after installing everything we were having lunch when Alexa chimed; the door had been closed and music playing, so we hadn’t heard the doorbell. Turned out to be an unexpected delivery which we’d otherwise have missed. It also allows us to see when someone has rang the doorbell when we were in - useful for seeing missed deliveries etc.

(Full disclosure: When initially probing out the mains doorbell for active signals I did so while it was plugged into the mains. My ‘scope is not fully isolated it seems and at one point I managed to trip the breaker on the mains circuit and blow the ringer part of the doorbell. Ooops. I ended up ordering an identical replacement (avoiding the need to replace the bell-push) and subsequently was able to re-use the ‘broken’ device as the ESP8266 receiver - the receiving part was still working, just not making a noise. The new receiver ended up in the living room, so the doorbell still sounds normally.)

I have a basic ESP8266 MQTT framework I’ve been using for a bunch of devices based off Tuan PM’s work. I’ll put it up at some point. ↩

via Planet Debian

NOR Flash Market: Industry Analysis and Detailed Profiles of top Industry Players

Introduction to NOR Flash Memory

Every digital computing system requires non-volatile memory to retain the primary or necessary programs and data, permanently, in order to avoid data loss on occasions of power failure or system shutdown. This has led to the invention of non-volatile memories. NOR flash is a type of nonvolatile semiconductor memory widely used in electronic devices. The NOR flash memory was first introduced by Intel in 1988.

In NOR flash memory, the individual memory cells are connected in parallel configuration, which enables fast random access to the content stored on the memory cells. NOR flash memory has been utilized for a long period of time for code storage and direct program execution in portable electronic devices such as mobile phones and personal digital assistants (PDAs). However, the advent of smartphones and usage of NAND flash has impacted the application of NOR flash memories.

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Market Dynamics: Global NOR Flash Market

The NOR Flash market is primarily driven by the increased deliveries of embedded NOR flash in applications such as automotive, wireless, medical, and industrial applications. Incorporation of advanced features in automobiles such as advance driver assistance systems (ADAS) , automatic cruse controller, and internet of things (IoT) compatibilities is featuring addition of on board processors and controllers (microcontrollers or CPUs). In conjunction with the same, NOR flash memories which are used in these controllers for code storage, and similar functions are also witnessing an increase in demand in the market. As a result of these factors, expansion of the automotive electronics market is anticipated to boost the NOR flash market during the forecast period.

However, increasing adoption of NAND flash and development of high-tech NAND flash such as 3D NAND flash are expected to restrain the NOR flash memories market in the near future.

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Market Segmentation: Global NOR Flash Market

The global NOR flash market has been segmented based on type, end-use industry, and region. Based on type, the NOR flash market can be classified into serial NOR flash, and parallel NOR flash. Based on end-use industry, the market can be segmented into IT and Telecommunication, automotive, defense and aerospace, consumer electronics, and others.

The consumer electronics segment of the NOR flash market can be further sub-segmented into smartphones, tablets, smart TVs, and laptops. In terms of region, the global NOR Flash market can be segregated into North America, Europe, Asia Pacific, Middle East & Africa, and South America.

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Preliminary Analysis

North America is anticipated to a significant share of the global NOR flash market due to the presence of leading NOR flash manufacturers, for instance Cypress Semiconductor Corporation and Micron Technology, Inc., in this region. The market in Asia Pacific is anticipated to expand at a rapid pace owing to the expansion of application industry verticals such as consumer electronics, automotive, and IT and telecommunication, in emerging economies such as India and China, in the region.

Prominent Market Players

Key players operating in the global NOR flash market include Cypress Semiconductor Corporation, Micron Technology, Inc., GigaDevice Semiconductor (Beijing) Inc., Macronix International Co., Ltd., Winbond, Toshiba Electronic Devices & Storage Corp. and Toshiba Memory Corp., Intel Corporation, SAMSUNG, Seagate Technology LLC, SK HYNIX INC., LAPIS Semiconductor Co., Ltd., Integrated Silicon Solution Inc., Eon Silicon Solution Inc.

Msd Capital LP Trimmed Pvh (PVH) Holding By $3.25 Million; Microchip Technology (MCHP) Sentiment Is 1

Msd Capital LP decreased Pvh Corp (PVH) stake by 7.58% reported in 2017Q2 SEC filing. Msd Capital LP sold 28,500 shares as Pvh Corp (PVH)’s stock rose 11.17%. The Msd Capital LP holds 347,355 shares with $39.77 million value, down from 375,855 last quarter. Pvh Corp now has $10.63B valuation. The stock increased 2.05% or $2.76 during the last trading session, reaching $137.31. About 1.35 million shares traded or 69.22% up from the average. PVH Corp. (NYSE:PVH) has risen 16.19% since December 3, 2016 and is uptrending. It has underperformed by 0.51% the S&P500.

Microchip Technology Incorporated develops, makes, and sells semiconductor products for various embedded control applications. The company has market cap of $20.35 billion. The firm offers general purpose and specialized 8-bit, 16-bit, and 32-bit microcontrollers; and microcontrollers for automotive networking, computing, lighting, power supplies, motor control, human machine interface, security, wired connectivity, and wireless connectivity. It has a 46.88 P/E ratio. It also provides development tools that enable system designers to program microcontroller products for specific applications; analog, interface, mixed signal, and timing products comprising power management, linear, mixed-signal, high-voltage, thermal management, radio frequency , drivers, safety, security, timing, USB, Ethernet, wireless, and other interface products; and memory products consisting of serial electrically erasable programmable read-only memory, serial flash memories, parallel flash memories, and serial static random access memories for the production of very small footprint devices.

Glaxis Capital Management Llc holds 17.76% of its portfolio in Microchip Technology Incorporated for 117,670 shares. Oakmont Corp owns 517,560 shares or 7.61% of their US portfolio. Moreover, Cypress Funds Llc has 6.04% invested in the company for 398,000 shares. The Wyoming-based Southport Management L.L.C. has invested 4.66% in the stock. Brookmont Capital Management, a Texas-based fund reported 158,168 shares.

The stock increased 0.01% or $0.01 during the last trading session, reaching $87. About 3.10M shares traded or 56.20% up from the average. Microchip Technology Incorporated (MCHP) has risen 68.30% since December 3, 2016 and is uptrending. It has outperformed by 51.60% the S&P500.

Analysts await Microchip Technology Incorporated (NASDAQ:MCHP) to report earnings on February, 6. They expect $1.27 EPS, up 27.00% or $0.27 from last year’s $1 per share. MCHP’s profit will be $297.06 million for 17.13 P/E if the $1.27 EPS becomes a reality. After $1.37 actual EPS reported by Microchip Technology Incorporated for the previous quarter, Wall Street now forecasts -7.30% negative EPS growth.

Ratings analysis reveals 60% of Microchip’s analysts are positive. Out of 5 Wall Street analysts rating Microchip, 3 give it “Buy”, 0 “Sell” rating, while 2 recommend “Hold”. The lowest target is $67.0 while the high is $75.0. The stock’s average target of $70.67 is -18.77% below today’s ($87) share price. MCHP was included in 5 notes of analysts from September 30, 2016. The rating was initiated by Mizuho with “Neutral” on Friday, September 30. The company was maintained on Tuesday, November 8 by Needham. The stock has “Neutral” rating by Goldman Sachs on Friday, November 4. The rating was upgraded by Bank of America on Tuesday, November 8 to “Buy”. As per Wednesday, November 30, the company rating was maintained by Stifel Nicolaus.

Investors sentiment decreased to 0.83 in 2017 Q2. Its down 0.12, from 0.95 in 2017Q1. It dropped, as 37 investors sold PVH shares while 172 reduced holdings. 53 funds opened positions while 120 raised stakes. 72.94 million shares or 0.31% less from 73.16 million shares in 2017Q1 were reported. Delaware-based Riverhead Capital Mngmt Ltd Llc has invested 0.23% in PVH Corp. (NYSE:PVH). Piedmont Inv Advsr Limited Liability Company invested in 5,876 shares. Archford Strategies Ltd invested in 0% or 125 shares. Northern, Illinois-based fund reported 852,100 shares. Commonwealth Equity has 0% invested in PVH Corp. (NYSE:PVH). Dupont Capital Corporation has 0.11% invested in PVH Corp. (NYSE:PVH). Clarivest Asset Mngmt Lc invested 0.41% in PVH Corp. (NYSE:PVH). Bb&T holds 0.01% in PVH Corp. (NYSE:PVH) or 3,824 shares. Moreover, Deutsche Bancorp Ag has 0.04% invested in PVH Corp. (NYSE:PVH). Bb&T Limited Liability Corp reported 2,741 shares or 0% of all its holdings. Iowa-based Dubuque Savings Bank And Trust has invested 0% in PVH Corp. (NYSE:PVH). Mitsubishi Ufj Trust & reported 180,903 shares or 0.04% of all its holdings. Preferred Ltd accumulated 268 shares. New Mexico Educational Retirement Board invested 0.04% of its portfolio in PVH Corp. (NYSE:PVH). First Trust LP reported 85,198 shares.

Since June 9, 2017, it had 0 buys, and 2 insider sales for $824,592 activity. $232,812 worth of stock was sold by SHIFFMAN STEVEN B on Wednesday, June 14. KOZEL DAVID F had sold 5,636 shares worth $591,780 on Friday, June 9.

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What is a Microcontroller?

A microcontroller is a self-contained system with peripherals, memory and a processor that can be used as an embedded system. Most programmable microcontrollers that are used today are embedded in other consumer products or machinery including phones, peripherals, automobiles and household appliances for computer systems. Due to that, another name for a microcontroller is "embedded controller." Some embedded systems are more sophisticated, while others have minimal requirements for memory and programming length and a low software complexity. Input and output devices include solenoids, LCD displays, relays, switches and sensors for data like humidity, temperature or light level, amongst others.

Types of Microcontrollers

There are several different kinds of programmable microcontrollers at Future Electronics. We stock many of the most common types categorized by several parameters including Bits, Flash size, RAM size, number of input/output lines, packaging type, supply voltage and speed. Our parametric filters will allow you to refine your search results according to the required specifications.

Programmable microcontrollers contain general purpose input/output pins. The number of these pins varies depending on the microcontroller. They can be configured to an input or an output state by software. When configured to an input state, these pins can be used to read external signals or sensors. When they are configured to the output state, they can drive external devices like LED displays and motors.

Microcontrollers from Future Electronics

Future Electronics has a wide range of programmable microcontrollers, including pic, low power, LCD, USB and wireless microcontrollers from several manufacturers. Once you decide if you need 8 bit, 16 bit general purpose, 16 bit digital signal controllers or 32 bit microcontrollers, you will be able to choose from their technical attributes and your search results will be narrowed to match your specific microcontroller application needs.  More: PIC microcontroller

We deal with several manufacturers such as Cypress, Microchip, NXP, Renesas Electronics, STMicroelectronics or Zilog. You can easily refine your programmable microcontroller product search results by clicking your preferred microcontroller brand from the list of manufacturers below.

Applications for Microcontrollers:

Programmable microcontrollers are designed to be used for embedded applications, unlike microprocessors that can be found in PCs. Microcontrollers are used in automatically controlled devices including power tools, toys, implantable medical devices, office machines, engine control systems, appliances, remote controls and other types of embedded systems.

Choosing the Right Microcontroller:

With the FutureElectronics.com parametric search, when looking for the right microcontrollers, you can filter the results by the number of Bits required. We carry the following size microcontrollers:

32 bit Microcontrollers in Production Ready Packaging or R&D Quantities:

If the quantity of 32 bit microcontrollers is less than a full reel, we also offer many of our 32 bit microcontroller products in tray, tube or individual quantities that will avoid unneeded surplus.

8 bit Microcontrollers

16 bit Digital Signal Controllers (DSC)

16 bit General Purpose Microcontrollers

32 bit Micorcontrollers

Once you choose the microcontroller size, you can narrow them down by various attributes: by RAM size, Flash size, number of input lines, speed and supply voltage to name a few. You will be able to find the right LCD, low power, USB, wireless or pic microcontrollers using these filters.

Cypress works with Arrow on IoT developm

Cypress works with Arrow on IoT developm

Cypress works with Arrow on IoT development platform – Cypress Semiconductor has collaborated with distributor Arrow Electronics on a development platform for IoT devices. Called the Quicksilver kit, it features Cypress’ WICED embedded wireless platform based on its CYW43907 802.11n Wi-Fi microcontroller (MCU). As well as the WICED Studio SDK the kit has Arduino-compatible headers for expansion…

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Cypress works with Arrow on IoT development platform

Cypress Semiconductor has collaborated with distributor Arrow Electronics on a development platform for IoT devices. Called the Quicksilver kit, it features Cypress’ WICED embedded wireless platform based on its CYW43907 802.11n Wi-Fi microcontroller (MCU). As well as the WICED Studio SDK the kit has Arduino-compatible headers for expansion capability. The kit includes temperature, humidity and ...

This story continues at Cypress works with Arrow on IoT development platform

Or just read more coverage at Electronics Weekly

Connected Things - Report: Using Extended Reality in Bluetooth Smart and Smart Ready Market For 2023 ($5.34 Billion Market)

“Bluetooth Smart and Smart Ready Market by Technology (Bluetooth Smart, Smart Ready, and Bluetooth 5.0), Application (Automotive, Consumer Electronics, Wearable Electronics, Healthcare, Building & Retail), and Geography - Global Forecast to 2023"

The Bluetooth Smart and  Smart Ready market, in terms of value, is expected to be worth USD 5.34 Billion  by 2023, growing at a CAGR of 2.23% between 2017 and 2023. Factors driving  the growth of this market include rising demand for Bluetooth Smart and Smart  Ready in consumer electronics such as smartphones and PC peripherals, growing IoT  applications, and cost-efficient devices that consume low power.

Qualcomm Inc. (US), Broadcom Corporation (Singapore), Cypress Semiconductor Corporation (US), Dialog Semiconductor PLC (UK), Marvell Technology Group, Ltd. (Bermuda), Mediatek, Inc. (Taiwan), Nordic Semiconductor ASA (Norway), Bluegiga Technologies (Finland), Texas Instruments Incorporated (US), Fanstel Corporation (US), Toshiba Corporation (Japan), Murata Manufacturing Co., Ltd. (Japan), Renesas Electronics Corporation (Japan), Microchip Technology Inc. (US), and CEVA, Inc. (US) are the major players operating in this market.

Qualcomm Incorporated (US) is a key market player in the digital communications technology, mainly code division multiple access (CDMA), and is also involved extensively in the development and commercialization of orthogonal frequency division multiple access (OFDMA).

Download PDF Here: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=42375512

The company also develops and commercializes key technologies that are currently being used in handsets and tablets-LAN, GPS, and short-range communication functionalities, including NFC and Bluetooth. The Qualcomm Technology Licensing segment provides rights to use portions of the firm’s intellectual property. The Qualcomm Strategic Initiatives segment invests in the technology, design, and introduction of products and services for voice and data communications. Major subsidiaries of the company are Qualcomm Atheros (US), Ubicom (US), Airgo Networks (US), and Wilocity (US), among others.

Bluegiga Technologies was acquired by Silicon Laboratories (US) in 2015. Silicon Laboratories (US) is a leading provider of microcontroller, wireless connectivity, and analog and sensor solutions for IoT. This acquisition has helped expand Silicon Labs’ wireless hardware and software solutions for IoT, thus addressing a broader range of market opportunities and customer needs. Bluegiga offers innovative and easy-to-use short-range wireless connectivity solutions to OEMs, device manufacturers, and system integrators.

The company uses Bluetooth and Wi-Fi in its technology portfolio. Bluegiga has sales and customer service offices in the US and China. The company has more than 50 distribution partners across the globe. The distributors enable Bluegiga to sell its products globally, in more than 70 countries. The company offers a wide range of wireless modules, ranging from ultralow-power Bluetooth Smart modules to long-range Bluetooth Classic and Wi-Fi products. The company has offices in Atlanta, GA; and Hong Kong, China

For more information visit: https://www.marketsandmarkets.com/Market-Reports/bluetooth-smart-ready-market-42375512.html

Contact: Mr. Shelly Singh MarketsandMarkets™ INC. 630 Dundee Road Suite 430 Northbrook, IL 60062 USA : 1-888-600-6441.

Cypress works with Arrow on IoT development platform

Cypress Semiconductor has collaborated with distributor Arrow Electronics on a development platform for IoT devices. Called the Quicksilver kit, it features Cypress’ WICED embedded wireless platform based on its CYW43907 802.11n Wi-Fi microcontroller (MCU). As well as the WICED Studio SDK the kit has Arduino-compatible headers for expansion capability. The kit includes temperature, humidity and ...

This story continues at Cypress works with Arrow on IoT development platform

Or just read more coverage at Electronics Weekly