Consumer Electronics is one of the fastest rising and embryonic industry in the world. It includes essential devices that are used for day to day activities such as desktop, Laptop, gaming PC, tablets, digital cameras, refrigerators, television, washing machines and smart lightings etc. Lot of devices like VCR, DVD, video cassette recorders and many such are vanished from the market. Various entertainment devices like smart TVs, smart home accessories, consumer devices like health bands are new entrants to the market. Survey shows that average number of electronic devices active in developed countries are 6 times more than population.
✎ Embedded Device Software & Hardware Solutions
✎ Device Driver Solutions(Windows/Linux)
✎ Firmware Development
✎ PC Firmware service(BIOS/UEFI)
✎ Application Development(Windows/IOS/Android)
✎ Boot Loader & Firmware
✎ Advanced Web Applications
✎ Software Prototyping
✎ RTOS Solutions
✎ Protocol Stacks and Algorithms
✎ Open Source Development
✎ Mobile Application Development
✎ Enterprise Services
✎ Internet of Things Based device
✎ Cloud secure connectivity stack
✎ MCU Device Firmware development
✎ Wifi, ZigBee, BLE and NBIOT based designs
✎ Sensor based and wearables products
✎ Existing designs can be optimized to cut the cost
✎ ARM
✎ Intel x86
✎ Atmel, PIC
✎ Freescale
✎ Power PC
✎ Embedded Linux
✎ uC Linux
✎ VxWorks
✎ Nucleus
✎ QNX
✎ Linux
✎ Windows
✎ Android
✎ IOS
✎ windows
✎ android
✎ IOS
Industry is highly challenging because of the requirement for Intense and fast technology. There is always a need for innovative ideas for the companies to match their competition in the industry. Technology growth, failing to meet the customer demand and satisfaction has hindered the growth of consumer electronics industry. In order to adopt technologies we need faster the step of industry growth in a shorter time.
Organizations are looking for Merchandise who can help them to accelerate time to market and deliver customer-centric high quality product. From Product Idea Generation to Sustenance of Product, we become partner to achieve business goals of Organizations by leveraging next-gen technology expertise and product engineering practices.
Our Productive Team provide engineering services for various productions such as Embedded device, Wearables , Healthcare , IOT, Automation and Surveillance. We aim to deliver innovative solutions to our customers. We offer flexible engagement models that enable us to understand the requirements better, deliver the solutions and add value in growth of organizations’.
The development of new electronic product is pretty overwhelming task for those with limited resources such as makers, start-ups, entrepreneurs, makers and small companies. The process can be simplified by breaking it down in to the following steps. The steps summarized below will get you to the point of having a fully functional prototype. There are many other steps to getting a product to the point of being
✎ A schematic is nothing but blue print similar for house
✎ To design the schematic first thing is to research on selecting the best topology and affordable components
✎ It will also include running simulations and bread boarding (rarely used in modern electronics)
✎ For complex design software tool is using.
✎ Designer creates the PCB layout using software tool.
✎ Once the PCB layout is complete the design software will tell the designer whether PCB matches the schematic or not.
✎ It will also check trace spacing, wire widths etc to ensure the layout meets all the rules for the particular PCB fabrication process being used.
✎ It will be necessary to obtain the required specification from PCB Manufacturer for their process before beginning the PCB layout.
✎ Once the PCB design is completes then we can send the data off to a PCB center for prototyping.
✎Once the first prototype is back it needs to be evaluated and if problems are found, they need to debugged
✎ It is a rare chance that there are no problems but at least a couple of issues are found
✎ Debugging a new circuit is a tedious task and difficult to estimate how long it will take to fix it.
✎ These are almost always programmed in a computer language called “C”.
✎ If the program needs to be fast or super efficient, then some of it may be done in assembly language
✎ Sometimes the person who has designed the circuit only will do the programming
✎ Generally software specialist is assigned to programming
✎ This is handled by different engineer than who did steps 1 through 4
✎ In the beginning 3D modeling expert is required
✎ 3D printing is used for low volume prototyping but injection modeling is used at high volume manufacturing
✎ Common mistakes by 3D designers is to create a model that can be 3D printed but not injection modeling.
Product success depends on the safety as it is one of the serious concern for consumers. In order to increase the success in the market place retailers, resellers and manufacturers need to gain buyer confidence with harmless products. To identify non compliance issues we can engage with UL Engineers in design reviews early in the product development cycle. This helps to address the issues, reduce the cost and time to market prior to certification testing Valuable insights are provided by UL Engineers that impact on regulatory changes and help you transition through safety testing services.
To win Customer trust we validate the safety at all times.
Many products rely on electronic components to provide electronics test methods, vital functions are becoming more important to ensure reliability and safety of equipment. Variety of qualification plans, product durability, safety & certification, and environmental testing programs are integral test methods by Electronics. Elements team of experts help implement and design test methods for virtually any electronic equipment and consumer electronics product. Our team helps you complete documentation and testing required for exporting electronic equipment to international markets.
Some of the services that we offer include:
✎ Altitude Testing and Simulation
✎ Shock Testing)
✎ Thermal Testingt
✎ Salt Spray Testing)
✎ Pressure Testing)
✎ Humidity Testing
✎ HALT/HASS Testing
✎ Flammability Testing
✎ Vibration Testing
✎ Accelerated Weathering Testing
✎ Ingress Protection
✎ Product Durability Testing
✎ Thermal Testing
✎ Dynamics Testing
Accurate diagnostics and life saving treatments are heavily based on electronic equipments that will help modern medicine to prescribe. Our experts ensure that electronic medical equipment is reliable and safe for Patients and caregivers.
In order to ensure safety elements medical device testing experts perform a range of electronic test methods and function equipment ranging from health products to trauma devices. Some of our test offerings are -
✎ Battery testing of Medical devices
✎ EMC testing of Medical devices
✎ Safety testing of Medical devices
✎ Regulatory testing of medical devices
✎ Wireless/Radio Medical Device Testing
Product testing is one of the last steps made before a product is released. Testing phase can be monotonous, expensive and time consuming. Development team members may understand it as providing little advantage to the creation of the product, but if a product is released without satisfactory testing, product superiority may hurt. So product testing should be one of the first items measured when developing a product. To meet customer satisfaction, constant striving and strict conformance to ISO 9001:2008—that product testing should be considered early on in the development process.
Conducting the testing process during the early phases of product development fits with many of the new development methods being taught today, such as the agile development process for creating new software products. It also helps create a high-quality product, leading to strong and long lasting relationships with customers.
Quality engineering plays a vital role in delivering model, endless experiences through connected consumer electronics, ultimately affecting the revenue, market share and growth of a company. We look at some of the top priorities for consumer electronics testing in today’s digital world.
✎ Cloud testing
✎ AI/Machine learning based testing
✎ Unified Test automation framework for smart products and connected mobile apps
The prototype-testing phase consists of incorporating these components into the design and choosing components based on proven results. The design is then stress-tested for environmental, electrical, and performance factors in the kinds of applications where the product will be deployed.
The production testing phase ensures that each piece of hardware will perform satisfactorily no matter how many new features are added; over the life cycle of the product; that each piece of software or firmware will complete its task as required and that any new feature will act as designed and not interfere with any existing element. In most cases, additional features are added through firmware updates or software.
Thus, each production test will need to be executed hundreds or thousands of times without taking any deviation over several years. Applying this concept manually is expensive, time consuming and mundane. Because testers perform the same steps numerous times as it is repetition task and execute the tests on many different platforms or varying hardware, becomes monotonous sets in. Thus, testers will execute manual tests in a slightly different manner every time, the result is conflicting outcomes. Automated testing provides cost effective, timely, and consistent results
With automated testing, the test cases are maintained in a database and run by a computer. The test suite can usually be started overnight and run without supervision. Results can be viewed the next morning. There is almost no overhead associated with running the test suite. This allows testing to be run more often without consuming precious team resources.
Developers are informed of any defects as soon as the tests conclude, allowing them to correct problems quickly. Cycle of code development followed by testing done on a constant basis improves morale among team members and allows the entire development team to be more productive. As long as the main script is not altered, the test can be performed in many iterations without any change to how the basic test is conducted. This eliminates mundane repetitive tasks that are prone to human error. As long as the main script is not altered, the test can be performed in many iterations without any change to how the basic test is conducted. This eliminates mundane repetitive tasks that are prone to human error.
For the continuous improvement Automated testing concepts fits well, an idea ingrained in our corporate culture. It ensures that each time we test, we are reconfirming that all the previous features still work with the new elements, allows us to expand the coverage of tests, and, and that new features work properly. The test suite is constantly expanding during the PDLC, but automated test easily accommodates these expansions in a consistent and repeatable manner.
The two main factors that lead to increased testing are discovering a defect in the field or adding new features. The test cases are written before any code is developed when a new feature is added. All the requirements associated with the new feature are examined and develop tests to verify that the new feature complies with those requirements. With this method, the feature can be implemented and developer can test this implementation against the requirements by running the test case.
If the bug is discovered in the field, a test case is created to exhibit this defect and this test case is sent to the developer. The developer uses these test cases to confirm the undesirable operation, makes the necessary changes to correct the defect and reruns the test case to confirm the correction has eliminated the defect. Defects can be corrected quickly, the morale of the development team can be improved and features can be developed with less effort by automating as much of the production testing as possible. This addition of features with fewer defects at a lower overall cost and allows a faster time-to-market of the product. This frees up precious development resources to create that “next big thing” that can catapult the company beyond its competition.