Thursday, December 14, 2017

Electronic Product News: 20 Watt Chassis Mount DC/DC Converter for Railway / Transit / Industrial markets

ElectronicKitSchool. - This is one information update from electronic product news 2017 in this time with the article titled 20 Watt Chassis Mount DC/DC Converter for Railway / Transit / Industrial markets.

Image Courtesy of https://electronicsforu.com

TRACO POWER has announced the release of their TEQ 20WIR family of isolated, high performance DC/DC converter modules with ultra-wide 4:1 input ranges covering 9-160 VDC input requirements, an extended ambient operating temperature range from -40°C to +93°C and I/O isolation of 3000 VDC and come in a rugged metal case. These converters are designed for the Railway/Transit markets and are also suitable for a wide range of Industrial applications where no PCB mounting is possible and the module has to be mounted on a chassis.

These 20 watt DC/DC converters are design for railway, transit and industrial environments featuring a full load / convection-cooled operating temperature range of -40°C to +83°C (up to +93°C with derating). The TEQ 20WIR family consists of 12 standard models offering input ranges of 9.5~36 / 18~75 / 43~160 VDC and output voltages of 5/12/15/24 VDC. Features include: High efficiency operation up to 88%; EN55022 Class B EMI; I/O isolation of 3,000 VDC; under voltage lockout; protection against overvoltage/overtemperature and short circuit; and meet EN 61373 & MIL-STD-810F for mechanical shock & vibration and MIL-STD-810F for thermal shock. These converters measure a mere 4.06 x 2.25 x 1.03”. All models are safety approved to IEC/EN/UL 60950-1 (Industrial / ITE Applications), and are qualified to EN 50155 for Railway immunity and bear the CE Mark with a warranty of 3 Years.

And now you read more about 20 Watt Chassis Mount DC/DC Converter for Railway / Transit / Industrial markets from original source using link HERE

Saturday, December 2, 2017

Sensor Technology News: Electric Vehicle Battery Current Sensor Global Market to grow at a CAGR of 41.63% during the Forecast 2017-2021 by CRAIG FRANCIS

ElectronicKitSchool. - This is one information update from sensor technology news 2017 in this time with the article titled Electric Vehicle Battery Current Sensor Global Market to grow at a CAGR of 41.63% during the Forecast 2017-2021 that written by CRAIG FRANCIS.

Illustration Image Courtesy of www.sensorsmag.com

A new independent 82 page research with title ‘Global Electric Vehicle Battery Current Sensor Market 2017-2021’  guarantees you will remain better informed than your competition. The study covers geographic analysis that includes regions like Americas, APAC, EMEA and important players/vendors such as DENSO, Delphi Automotive, Continental, and TE Connectivity With n-number of tables and figures examining the Electric Vehicle Battery Current Sensor, the research gives you a visual, one-stop breakdown of the leading products, submarkets and market leader’s market revenue forecasts as well as analysis to 2022.

Battery current sensors are used to measure the flow of electricity in and out of EV batteries. They are used in EVs to calculate the battery status, i.e., the amount that the battery has charged or the remaining battery capacity or time left to charge the battery. The performance of EV battery depends upon the battery sensor. EV battery current sensor market is analyzed based on the number of EVs and HEVs present in the market and the number of battery current sensors used in EVs and HEVs. Automotive electronics, such as microprocessor-based automotive engine control modules, are being used in the automotive domain since the 1970s.

HTF recognizes the following companies as the key players in the global electric vehicle battery current sensor market:  DENSO, Delphi Automotive, Continental, and TE Connectivity.

And now you read more about Electric Vehicle Battery Current Sensor Global Market to grow at a CAGR of 41.63% during the Forecast 2017-2021 by CRAIG FRANCIS from original source using link HERE

Sunday, November 26, 2017

Electronic Design Software: Proteus Version 8.7 for Windows

ElectronicKitSchool. - One again Proteus 8 professional with it version added is Proteus 8.7 SP2 for Windows for you who want to create simulation electronic and microcontroller now and design PCB layout easily with it features.

Proteus 8.7 for Windows with new many advantages will give you many advanced simulation in electronic project and PCB layout design with ISIS and ARES that allow you to design electronic circuit and simulate it and then you also can create PCB layout design at once using this software.


In this article we will give you global overview about Proteus software, the features, system requirement and the last we will give you the link that allow you to take free download Proteus Version 8.7 for Windows system. 

Read also: Proteus Professional 8.5 Full with Crack Free Download for Windows

Overview

Proteus is one electronic simulation software that has developed by Labcenter Electronics. This software can make you easily generate schematic captures, simulate microprocessor and develop PCB. With Proteus has such a simple yet effective interface that it simplifies the task required to be performed. This one aspect has attracted many users to select this tool amongst many others offering the same services.

One of the main components of Proteus 8 is Circuit Simulation which is a product that uses SPICE 3f5 analogue simulator kernel with digital simulator which allows user to use any SPICE model from any manufacturer. The application comes with extensive debugging features which includes break points and single stepping. So, the application can be used in the educational institutions in order to teach the students about circuit designing.

As more information to you that Proteus 8 has a very simple and organized interface and has all the necessary tools and commands which are necessary for designing circuit boards and also for testing them. The application is strictly for the advanced users and only those who have extensive knowledge of circuit designing can use it efficiently.

Proteus 8.7 Features

  1. High Speed Design
  2. Placement Rooms
  3. Automatic Via Stitching
  4. Library Management
Download Software

And now you can click the icon link below to continue download Proteus 8.7 for Windows. There are two files that you show download.

 Proteus 8.7 for Windows

Monday, November 6, 2017

Fridge Alarm Speaks and Saves Power and Food by Bryan Cockfield

ElectronicKitSchool. - This is one information update from microcontroller project in this time with the article titled Fridge Alarm Speaks and Saves Power and Food that written by Bryan Cockfield.

Image Courtesy of http://hackaday.com

One of the most power-hungry devices in our homes, besides the air conditioner or heater, is our refrigerator and freezer. It’s especially so if the door doesn’t close all the way or the magnetic seal doesn’t seat properly. [Javier] took to solving a recurring problem with his personal fridge by attaching an alarm to the door to make sure that it doesn’t consume any more power than it absolutely needs.

At its core the device is straightforward. A micro switch powers a small microcontroller only when the door is open. If the door is open for too long, the microcontroller swings into action. The device then powers up a small wireless card (which looks like a variant of the very well-documented ESP module), that communicates with his microwave of all things, which in turn alerts him with an audible, spoken alarm that the refrigerator hasn’t closed all the way. It’s all powered with a battery that will eventually need to be recharged.

While there are certainly easier ways to implement an alarm, the use of the spoken alarm is a nice touch for this project, and the power savings that can be realized are not insignificant.

And now you read more about Fridge Alarm Speaks and Saves Power and Food by Bryan Cockfield from original source using link HERE

Friday, October 27, 2017

Sensor Technology News: Water-Resistant Pressure Sensor Enables High-Performance Wearables by Mathew Dirjish

ElectronicKitSchool. - This is one information update from sensor technology news 2017 in this time with the article titled Water-Resistant Pressure Sensor Enables High-Performance Wearables that written by Mathew Dirjish.

Image Courtesy of www.sensorsmag.com

A first choice for Samsung’s Gear Fit 2 Pro, STMicroelectronics LPS33HW miniature waterproof pressure sensor resists chemicals and salt water. Suitable for use by swimmers, the sensor also stands up to soaps and detergents. Samsung’s Gear Fit 2 Pro is said to be the next generation of sports band, packing features that include GPS, continuous heart rate monitoring, and larger on-board memory for when the user is not connected to a smartphone.

In addition to being highly accurate, the LPS33HW has the unique ability to recover quickly after the stresses of manufacturing. According to STMicro, most sensors can require up to seven days to regain maximum accuracy after coming off the production line, but devices containing the LPS33HW are ready for use in less than half that time. This translates into designers getting their products out the door a lot quicker.

It Ain’t Just For Wearables

In addition to wearables, other equipment including industrial sensors and utility meters can enlist the LPS33HW. The 10-bar pressure sensor can withstand being submerged up to 90 meters, and its RMS pressure noise figure of 0.008 mbar allows apps like an altimeter, depth gauge, or weather monitor to deliver consistent and stable results. The sensor accuracy drifts by less than ±1mbar per year. When soldered to a circuit board during product manufacture, the accuracy is affected by less than ±2mbar, and returns to normal after less than 72 hours – significantly quicker than similar water-resistant pressure sensors.

And now you read more about Water-Resistant Pressure Sensor Enables High-Performance Wearables by Mathew Dirjish from original source using link HERE

Sunday, October 15, 2017

Home Automation System Circuit Using a Simple Android App Via Bluetooth to Arduino

Electronic Kit School. - Smartphone in this time, not only used to playing the game, selfie, and chatting with social media only. But, now smartphone also can be used to control our home electric appliance like lamp, fan, and others. 

There are many electronic design circuit to build home electric appliance control using Android App in this time. One of the circuit design in this time is use the bluetooth to control home electric appliance or called with home automation system using Android App and Arduino.

The main component to build this system is Arduino Uno, Bluetooth module, relay module, and power supply unit. In this time, beside we will show you the circuit, here we also will show you component part and global description about this circuit.

Circuit 

Home Automation System Circuit using a Simple Android App (Source: Electronicsforu.com)

Component Parts
  1. Arduino Uno Module
  2. Relay Module
  3. Bluetooth Module
  4. Power Supply Module
Description

Circuit like in Figure 1 above show you about the Home Automation System Circuit Using a Simple Android App Via Bluetooth to Arduino. From Electronicsforu site describe that the home automation circuit is built around an Arduino Uno board, Bluetooth module HC-05 and a 3-channel relay board. The number of channels depends on the number of appliances you wish to control. Arduino Uno is powered with a 12V DC adaptor/power source. The relay module and Bluetooth module can be, in turn, powered using a board power supply of Arduino Uno.

Bluetooth module used in this project is HC-05 (Fig. 4), which supports master and slave mode serial communication (9600-115200 bps) SPP and UART interface. Using these features it can communicate with other Bluetooth-enabled devices like mobile phones, tablets and laptops. The module runs on 3.3V to 5V power supply.


A relay allows you to turn on or turn off a circuit using voltage and/or current much higher than what Arduino could handle. Relay provides complete isolation between the low-voltage circuit on Arduino side and the high-voltage side controlling the load. It gets activated using 5V from Arduino, which, in turn, controls electrical appliances like fans, lights and air-conditioners.

Arduino is an open source electronics prototyping platform based on flexible, easy-to-use hardware and software. It is intended for artists, designers, hobbyists and anyone interested in creating interactive objects or environments.

Tuesday, October 3, 2017

Microcontroller News: ARM Microcontrollers Market Analysis, Growth Opportunities And Latest Trends By Leading Regions, And Manufacturers From 2017 To 2022

ElectronicKitSchool. - This is one information update from microcontroller technology news 2017 in this time with the article titled Microcontroller News: ARM Microcontrollers Market Analysis, Growth Opportunities And Latest Trends By Leading Regions, And Manufacturers From 2017 To 2022.

Image Courtesy of www.edgefx.in

The “ARM Microcontrollers Market Report” gives a clear understanding of the current market situation which includes of antique and projected upcoming market size based on technological growth, value and volume, projecting cost-effective and leading fundamentals in the ARM Microcontrollers market.

ARM Microcontrollers Market Report Provides Comprehensive Analysis as Per Following:

• Market Segments and Sub-Segments
• Market Size & Shares
• ARM Microcontrollers Introduction, Product Scope,
• Market Overview of ARM Microcontrollers & Market Opportunities
• Market Risk, Trends and Dynamics & Market Driving Force;
• Top Manufacturers of ARM Microcontrollers, With Sales, Revenue, And Price Of ARM Microcontrollers
• Market by Type and Application & Region
• Supply and Demand
• Competitive Situation Among the Top Manufacturers, With Sales, Revenue and Market Share
• Technological Inventions in ARM Microcontrollers Industry
• ARM Microcontrollers Sales Channel, Distributors, Traders, Dealers.

And now you read more about Microcontroller News: ARM Microcontrollers Market Analysis, Growth Opportunities And Latest Trends By Leading Regions, And Manufacturers From 2017 To 2022 from original source using link HERE

Friday, September 22, 2017

Microcontroller News: Global Microcontroller Socket Market Forecast 2017 to 2021- Aries Electronics, Texas Instruments

ElectronicKitSchool. - This is one information update from microcontroller technology news 2017 in this time with the article titled Global Microcontroller Socket Market Forecast 2017 to 2021- Aries Electronics, Texas Instruments that written by Divyang Nayar.

Image Courtesy of Importantevents24

Global Microcontroller Socket Market 2017 intends to provide the elementary information focusing on elite market players, industry competitors to acquaint the users with company breakthroughs which will help them in making appropriate decisions. The indepth study of Microcontroller Socket market will further help the readers in identifying the growth opportunities and the risk factors on a global scale.

Global Microcontroller Socket Report covers distinct aspects of the market including the product category, product specifications, a range of applications and major geographical producing regions. The key regions covered in Microcontroller Socket report are the countries present in North America, Europe, APAC, South America, Middle East and Africa.

Global Microcontroller Socket Report covers every minute details of the industry and the prominent market players present in different countries analysing the latest development plans, market situations, which will help in making vital business decisions.

And now you read more about Global Microcontroller Socket Market Forecast 2017 to 2021- Aries Electronics, Texas Instruments by Divyang Nayar from original source using link HERE

Thursday, September 14, 2017

Sensor Technology News: DARPA’s New Sensor Can Work for Years With Almost No Power by Brad Jones

ElectronicKitSchool. - This is one information update from sensor technology news 2017 in this time with the article titled DARPA’s New Sensor Can Work for Years With Almost No Power that written by Brad Jones.

Image Courtesy of Futurism

Researchers at Northeastern University have developed a groundbreaking new sensor for DARPA. The device is capable of recognizing infrared wavelengths without the need for an external power source.

INFRARED ACTIVATION

A team of researchers at Northeastern University have developed a new sensor powered by the very infrared energy it’s designed to detect. The device, which was commissioned as part of DARPA’s Near Zero Power RF and Sensor Operation (N-ZERO) program, consumes zero standby power until it senses infrared (IR) wavelengths.

Energy from this source heats the sensing elements, prompting mechanical movements that close a circuit and beam out signals confirming that the IR wavelengths have been detected. A grid of nanoscale patches forms a logic circuit, with each patch being constructed with specific dimensions corresponding only to the wavelengths it’s designed to detect.

Consequently, the circuit can be altered to analyze various IR spectra. It’s possible for the sensor to simply detect IR wavelengths in its surroundings, or determine whether the energy that has activated it came from a fire, a person, or some other source.

WAKE ME WHEN I’M NEEDED

A sensor like this is advantageous because it can be placed absolutely anywhere, without the need for a power supply, or access to solar energy. Such versatility sounds like wetware of William Gibson’s Neuromancer, so it’s no surprise it’s fallen into DARPA’s cross-hairs.

And now you read more about DARPA’s New Sensor Can Work for Years With Almost No Power by Brad Jones from original source using link HERE

Monday, September 4, 2017

1A Constant Current LED Driver Shield Circuit for Arduino Nano

Electronic Kit School. - There are many electronic circuit that design to get 1A constant current in this time. All circuit mentioned aim to result best design and allow us to use this circuit 

There are electronic design circuit to build constant current LED driver for Arduino Nano. One of the 1A constant current LED driver shiled circuit for Arduino Nano is look like in Figure 1 below with the main component used are Arduino Nano that popular today.

In this time, beside we will show you the circuit, here we also will show you component part and global description about this circuit.

Circuit 

  1. Switch
  2. Resistors
  3. Arduino Nano
  4. CAT4101
  5. Capacitors
  6. Variable resistor
  7. LED
Description

Circuit like in Figure 1 above show you about the 1A constant current LED driver shiled circuit for Arduino Nano. From Electronics-lab site describe that 1A Constant current LED driver shield for Arduino Nano has been designed for verity of LED related applications. The shield provides accurate LED current sink to regulate LED current in a string of LEDs or single LED. The LED current is mirrored from the current flowing from the RSET Preset PR1. On board 1W LED is used for testing purpose. External high Wattage LED or multiple LED string can be connected by pulling two wires from the PCB and this shield fit directly on back side of Arduino Nano. Shield also has on board tactile switch connected to Digital D2 pin using pull down resistor if required for any application. On board preset helps to set the maximum constant current. PWM input pin connected to Digital pin D6 of Nano to control the LED intensity. Example code FADE-IN/FADEOUT helps to test the shield.

The board built using CAT4101 IC from ON Semiconductor. The CAT4101 is a constant−current sink driving a string of high−brightness LEDs up to 1 A with very low dropout of 0.5 V at full load. It requires no inductor, provides a low noise operation and minimizes the number of external components. The LED current is set by an external Trimmer preset PR1 connected to the RSET pin. The LED pin is compatible with high voltage up to 12 V, allowing the driving of long strings of LEDs. The device ensures an accurate and regulated current in the LEDs independent of supply and LED forward voltage variation. The PWM/EN input allows the device shutdown and the LED brightness adjustment by using an external pulse width modulation (PWM) signal coming from Arduino Nano D6 pin. The driver features a thermal shutdown protection that becomes active whenever the die temperature exceeds 150°C.

Wednesday, August 30, 2017

Microcontroller News: Temboo Machine-Generates IoT Code for the Texas Instruments SimpleLink MCU Platform

ElectronicKitSchool. - This is one information update from microcontroller technology news 2017 in this time with the article titled Temboo Machine-Generates IoT Code for the Texas Instruments SimpleLink MCU Platform that IT Business Net published in Wireupdate site.

Image Courtesy of http://processors.wiki.ti.com

Temboo's new code support for the Texas Instruments (TI) SimpleLink microcontroller (MCU) platform makes building industrial IoT applications faster and simpler with built-in support for TI RTOS and direct integration into TI's Code Composer Studio Cloud web-based integrated development environment (IDE).

Temboo customers are now able to machine-generate production-ready embedded hardware application code for TI's new SimpleLink MCU platform. Additionally, Temboo's machine-generated code can be imported directly into TI's cloud-based software development tools. No downloading software libraries, configuring your IDE, or running firmware updates?Temboo and TI have worked together to provide a seamless developer experience, meaning that embedded hardware can be programmed in minutes to connect to any API and also stream sensor readings to Temboo's data visualization service for devices.
"Connecting sensors, actuators, microcontrollers, and other embedded hardware components to cloud services involves a lot of challenges. Working with TI, we've been able to significantly reduce the complexity and friction involved in programming for the Internet of Things," says Trisala Chandaria, co-founder of Temboo.

"TI has been collaborating with Temboo to help developers quickly connect their SimpleLink Wi-Fi wireless MCUs to dozens of cloud services," said Daniel Ogilvie, microcontroller applications engineer, TI. "Temboo's code generation and import into CCS Cloud are powerful tools that will allow users to quickly develop IoT applications leveraging TI's SimpleLink MCU platform."
The new capabilities now available in Temboo's expanded support for TI MCUs include:

  1. Automated code generation for TI's SimpleLink Wi-Fi CC3220S and CC3220SF wireless MCUs with more devices to come.
  2. Integration with TI's SimpleLink software development kits (SDKs) and TI RTOS.
  3. Direct code importing from Temboo.com to TI's CCS Cloud IDE.
  4. Temboo sensor data visualization graphs for TI hardware.

And now you read more about Temboo Machine-Generates IoT Code for the Texas Instruments SimpleLink MCU Platform from original source using link HERE

Thursday, August 24, 2017

Sensor Technology News: InventionShare Client Circuit Seed Announces Breakthroughs With Analog to Digital ...

ElectronicKitSchool. - This is one information update from sensor technology news 2017 in this time with the article titled InventionShare Client Circuit Seed Announces Breakthroughs With Analog to Digital Circuit Conversions Enabling Analog Designers Greater Flexibility to Meet Specific Requirements for Future IoT, Sensor and Semiconductor Applications and published in Wireupdate site.

Image Courtesy of Wireupdate

Mr. Greg Waite, CEO of InventionShare, announced today at the company's Ottawa office that Circuit Seed™ has had significant breakthroughs for converting analog to digital circuits and can now offer designers greater flexibility to meet specific future requirements for semiconductor, sensor and IoT product applications.

Circuit Seed is a family of inventions that work together to process analog signals using 100% digital parts. These digital circuits and components are configured and modified to provide the same functionality as transistors, capacitors and inductors with better performance and without the analog limitations. They include digital designs which provide precision without precision parts, eliminating the requirement for current mirrors and matched pairs. Circuit Seed can also impact traditional analog or mixed integrated circuits which are complex to design and manufacture.

Mr. Waite said, "Circuit Seed is a significant breakthrough allowing analog designers to now go beyond Moore's Law, offering flexible designs, smaller sizes than ever before, lower power, better performance and precisions — in many cases by one or two orders of magnitude, and in some cases even more. We can now offer manufacturers unique opportunities to develop the thousands of applications that are or will be required for the future Internet of Things (IoT). Across so many electronic devices you can pack in functionality in a much smaller footprint. The software industry will eat this up with API access to functionally rich chip sets tied to SaaS and cloud subscription plans — what a boon for AI."

For Circuit Seed, the geometry is an important part of the design. Circuits are usually implemented as a mix of analog and digital circuits with components for both. Analog components are typically 20 percent of the overall circuit. However, the analog design takes up 80 percent of the design time and two to three times longer to debug. Both analog and digital circuits have design rules and performance characteristics that apply to each. All the same issues that apply to digital circuits apply to analog circuits.

Analog circuits often require matched pairs of devices with identical electrical properties — but there is always some process variation between the devices which causes errors. The mixed signal (analog and digital) integrated circuits cannot perform on smaller than 40nm process nodes, and they can't operate at low power without severe limitations. In contrast, Circuit Seed designs process analog signals using 100 percent digital components which means they are subject only to the limitations of digital design rules and not analog design rules.

Further, the principles of the Circuit Seed design and the configuration of the circuits overcome many of the deficiencies of analog circuits. Mixed signal circuits require a transistor, capacitor, or an inductor to travel off the integrated circuit to the analog component and then back to the digital process. Circuit Seed circuits, once converted from analog to digital, remain on the integrated circuit eliminating many of the analog circuit issues. This means that several products can be impacted using specific CiFET™ (complementary current injection field effect transistors) developed by Circuit Seed.

The CiFET is a novel CMOS building block with a unique charge-based characteristic, a modification of the traditional MOSFET. It can be built into multiple stages creating high gain voltage amplifiers called CiAmps; single-ended, differential single-stage, 2-stage, 3-stage, and 3-stage feed-forward can be constructed. The full-differential CiFET OpAmp is anticipated to be a baseline configuration. None of the CiAmp arrangements use traditional power hungry analog current mirrors or state-of-the-art bulky analog components for gain but, instead, have a low output impedance which drives resistive and capacitive loads, is small, low power, and scalable into nanotechnology IC process nodes.

A variety of applications can be developed using such Circuit Seed designs as: Single-ended Operational Amplifiers (OpAmps), Differential Low Noise Amplifiers (LNA), Proportional to Temperature Reference (PTAT), Phase-Locked-Loop (PLL), Ring Oscillator with Ultra-High Spectral Purity, Multi-GHz Ring Voltage Controlled Oscillator (VCO), Frequency Mixers, Combined Analog and Digital System-on-Chip (SoC), Memory and Processors, Voltage/Temperature Referencing, Analog-to-Digital Conversion (ADC), Digital-to-Analog Conversion (DAC), and Sensing and Modulation/Demodulation. 

And now you read more about InventionShare Client Circuit Seed Announces Breakthroughs With Analog to Digital Circuit Conversions Enabling Analog Designers Greater Flexibility to Meet Specific Requirements for Future IoT, Sensor and Semiconductor Applications from original source using link HERE

Wednesday, August 16, 2017

Electronic Simulation Software: Atmel Studio 7 Full Version

ElectronicKitSchool. - This is one of the best AVR and MCS51 software for compiler and downloader for you that called with Atmel Studio from Atmel corporation. With this software you can design C++ program and download it to your microcontroller AVR and MCS51 family.

Read also: Download OrCAD Version 16.5 for Windows

Image Courtesy of Masterkreatif


In this article we will give you global overview about Atmel Studio software, and then we will give you link to take free download Atmel Studio 7 Full Version according that we given to you freely.

Overview

According Masterkreatif site describe that Atmel Studio 7 is an Integrated Development Platform (IDP) for developing and debugging applications on AVR and ARM-based microcontrollers. Atmel Studio provides comprehensive facilities for software development, it has advanced source code editor, build automation tools, intelligent code completion, an integrated debugger, faster code refactoring and other development kits. The software supports all AVR and Atmel SMART ARM microcontrollers (MCUs) technologies. Atmel Studio 7 provides an easy-to-use environment with Visual Studio-like interface. Write, build, debug and compile your applications with a dedicated C/C++ compiler for specific platforms.

System Requirements For Atmel Studio 7 Full Version
  1. Windows 7 SP1/ 8/ 10 or Server 2008/ 2012 (32-bit or 64-bit)
  2. 1.6 GHz multi-core processor
  3. 1 GB RAM
  4. 6 GB disk space

Download Software

And now you can click the icon link below to continue download Atmel Studio 7 Full Version from external source.

Atmel Studio 7 Full Version (841 MB)

Thursday, August 10, 2017

Op Amps: The Most Versatile of All Linear ICs by Lou Frenzel 1

ElectronicKitSchool. - This is one information update from how to tips in this time with the article titled Op Amps: The Most Versatile of All Linear ICs by Lou Frenzel 1 that published in Electronic Design site.

Image Courtesy of Electronicdesign

Whenever you need an amplifier or have a related linear-circuit design problem, most of you will turn to an op amp as a solution. Op amps are a good choice because of their universal versatility to deal with a wide range of amplification needs. And most designers at least have a working knowledge of op amps.

But how much do you really know outside of the basics taught in EE degree programs?  If you said, “not much,” some additional training in op-amp technology may be a good course of action. Now you can get that necessary knowledge from several sources and products available from Texas Instruments.

Boning Up on Op-Amp Technology

Aside from standard textbook coverage as a base, perhaps the best way to educate yourself about practical design with op amps is to learn from an engineer with extensive op-amp experience. Such is the case with one of TI’s op-amp experts, Bruce Trump, and his ebook titled The Signal: A compendium of blog posts on op amp design topics.

Analog engineers typically “…acquire insights in small pieces—a bit here and a bite (not a byte) there. Slowly, puzzle pieces fit into place and hazy concepts come into focus.” That’s what amplifier expert Bruce Trump explains in his preface to The Signal, which is a compilation of 32 little op-amp lessons from his popular blog by the same name. Click here to get your free copy today.

But wait, that’s not all. While most op-amp vendors supply helpful datasheets and application notes, TI expands the learning landscape by providing resources such as its “Precision Labs.”

And now you read more about Op Amps: The Most Versatile of All Linear ICs by Lou Frenzel 1 from original source using link HERE

Thursday, August 3, 2017

How to: 7 Tips for Securing an Embedded System by Jacob Beningo

ElectronicKitSchool. - This is one information update from how to tips in this time with the article titled 7 Tips for Securing an Embedded System that written by Jacob Beningo and published in DesignNews site.

Image Courtesy of DesignNews

The Canadian University Dubai (CUD) is a destination of choice for those parents and students who value a Canadian student centered education grounded in the values of people, respect, integrity, diversity and excellence. CUD was created as a portal to Canadian education, so with that in mind, it was built on the model of the typical Canadian post-secondary educational  institution, where students are encouraged to be themselves, confident, distinctive, and creative analytical thinkers.  CUD offers exchange programs and pathways to a number of well-established programs in leading public universities across Canada.

Security, just like quality and many other embedded system attributes, must be considered at the start of the development cycle. Developers can’t build their system and then add security at the end. With more and more systems starting to connect to the Internet, there are more than a dozen best practices developers should follow to start securing their systems. Let’s explore several that any team can implement.

Start using ARM Trustzone

ARM Trustzone has been available on application processors for quite some time and it has been announced that ARM Trustzone will be available on new microcontrollers soon. While we may not be able to use Trustzone right now in a microcontroller environment, developers should be starting to explore its implications and how it can be used to write more secure software. If you have an ARM application processor, now is the time to start putting Trustzone to work.

Follow Language and Industry Best Practices

There are several programming language and industry best practices standards that embedded software developers should be using. Using MISRA-C/C++ can ensure that best practices are followed that use a subset of the chosen language. MISRA should be used regardless, but from a security standpoint and if developers are using C, then becoming familiar with and following the best practices in Cert-C is highly recommended. Cert-C is designed to provide recommended coding practices that prevent security vulnerabilities in software.

And now you read more about 7 Tips for Securing an Embedded System by Jacob Beningo that published in Gineersnow from original source using link HERE

Tuesday, August 1, 2017

University News: State-of-the-Art Engineering & Technology: Canadian University Dubai by GN Feature Story

ElectronicKitSchool. - This is one information update from university news 2017 in this time with the article titled State-of-the-Art Engineering & Technology: Canadian University Dubai that written by GN Feature Story and published in Gineersnow site.

The Canadian University Dubai (CUD) is a destination of choice for those parents and students who value a Canadian student centered education grounded in the values of people, respect, integrity, diversity and excellence. CUD was created as a portal to Canadian education, so with that in mind, it was built on the model of the typical Canadian post-secondary educational  institution, where students are encouraged to be themselves, confident, distinctive, and creative analytical thinkers.  CUD offers exchange programs and pathways to a number of well-established programs in leading public universities across Canada.

Image Courtesy of Gineersnow

The Faculty of Engineering, Applied Science and Technology offers well established bachelors programs in Engineering (currently in  Telecommunications, Networks, and Computer and Network Technology) and plans on introducing a BSc in Electric Engineering with concentrations in Electronics, Mechatronics and Telecommunications (first intake will be in September 2017). In addition, it is currently developing exchange BSc programs with the prestigious Queen’s University (Kingston, Ontario) in computing with specializations in General Computing, Biomedical Computing, and Software Design (first formal intake is planned for September 2018). The Faculty also offers two of the best Bachelor of Science programs in Architecture and Interior Design in the GCC, as benchmarked against Canadian and American standards.

As a parent, you’d choose Engineering, Architecture or Interior Design at Canadian University Dubai for its learning environment where the quality of the interaction student/professor is a top priority, coupled with excellence in instruction, mastery of state-of-the art technologies, and the opportunity for work placement (internships) and undergraduate research.

And now you read more about State-of-the-Art Engineering & Technology: Canadian University Dubai by GN Feature Story that published in Gineersnow from original source using link HERE

Sunday, July 30, 2017

Engineering Book: Arduino by Example by Adith Jagadish Boloor

ElectronicKitSchool. - This is one of Arduino engineering book categorize that titled with Arduino by Example that written by Adith Jagadish Boloor.

Image Courtesy of Amazon

This article will show you the reviewing of Arduino by Example like book description and review. The last in this article we also will give you link to take download e-book of Arduino by Example by Adith Jagadish Boloor freely.

Overview

From Free-Engineering-Book describe that this book is an ideal choice for hobbyists or professionals who want to create quick and easy projects with Arduino. As a prerequisite, readers must have a working Arduino system and some programming background, ideally in C/C++. Basic knowledge of Arduino is helpful but not required to follow along with this book.

Table of Contents

1. Getting Started with Arduino
2. Digital Ruler
3. Converting Finger Gestures to Text
4. Burglar Alarm – Part 1
5. Burglar Alarm – Part 2
6. Home Automation – Part 1
7. Home Automation – Part 2
8. Robot Dog – Part 1
9. Robot Dog – Part 2
10. Robot Dog – Part 3

Download E-book

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Arduino by Example by Adith Jagadish Boloor


Thursday, July 27, 2017

Sensor Technology News: First Sensor builds antenna for German communication satellite by evertiq

ElectronicKitSchool. - This is one information update from sensor technology news 2017 in this time with the article titled First Sensor builds antenna for German communication satellite that published in evertiq site.

Illustration (Source: Evertiq)

First Sensor Lewicki GmbH, a wholly owned subsidiary of First Sensor AG, is working on the development of a multi-feed array antenna for the satellite as part of the GeReLeo-MFA project supported by the German Federal Ministry for Economic Affairs and Energy (BMWi). In this collaborative project, the company is cooperating with the Institute for High-Frequency Technology at RWTH Aachen and with IMST GmbH in Kamp-Lintford. The German Aerospace Center (DLR), the project sponsor, commissioned the construction of "Heinrich Hertz" on June 28, 2017.

This will be the first German communication satellite to enter service since the end of the last mission 16 years ago. A total of over 40 German companies and organizations will be involved in developing, testing and implementing "Heinrich Hertz" with innovative technologies and experiments. After its launch, the satellite is expected to remain in operation for 15 years at an altitude of around 36,000 kilometers. "The hybrid circuits, components and electronic modules from Oberdischingen stand for absolute reliability, even under the extreme conditions of outer space. First Sensor's collaboration on the 'Heinrich Hertz' satellite mission backs up the good reputation that it has enjoyed in the aerospace industry for decades," says Dr. Dirk Rothweiler, CEO of First Sensor AG.

The antenna measuring just 90x90 mm will feature circuit board technology for the implementation of a planar multi-feed array in which active components are embedded. "In addition to our existing qualification as an assembly and test center, our involvement in the BMWi-supported GeReLeo-MFA project for the construction of the multi-feed array antenna on the Heinrich Hertz satellite also gives us access to a new field of application in high-frequency technology qualifying for space flight," says Maximilian Sailer, Managing Director of First Sensor Lewicki GmbH. The company has been a specialist in hybrid circuits and complex electronic modules for 50 years. The reliable solutions from Oberdischingen are used worldwide in power electronics and sensor systems for industrial applications, medical technology and the aerospace industry.

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Monday, July 3, 2017

Sensor Technology News: Researchers create temperature sensor that runs on almost no power by Mallory Locklear

ElectronicKitSchool. - This is one information update from sensor technology news 2017 in this time with the article titled Researchers create temperature sensor that runs on almost no power that written by Mallory Locklear and published in Engadget site.

Image Courtesy of Engadget

Researchers at UC San Diego have developed a temperature sensor that runs on tiny amounts of power -- just 113 picowatts, around 10 billion times less power than a watt. The sensor was described in a study recently published in Scientific Reports. "We're building systems that have such low power requirements that they could potentially run for years on just a tiny battery," Hui Wang, an author of the study, said in a statement.

The team created the device by reducing power in two areas. The first was the current source. To do that, they made use of a phenomenon that many researchers in their field are actually trying to get rid of. Transistors often have a gate with which they can stop the flow of electrons in a circuit, but transistors keep getting tinier and tinier. The smaller they get, the thinner the gate material becomes and electrons start to leak through it -- a problem called "gate leakage." Here, the leaked electrons are what's powering the sensor. "Many researchers are trying to get rid of leakage current, but we are exploiting it to build an ultra-low power current source," said Hui.

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