Haier India Unveils TV Commercial for its latest easy connect LED TV range

Haier, the worldwide leader in Home Appliances & Consumer Electronics and World’s no 1 brand in Major Appliances for the 9 Consecutive Years*, today announced the launch of its latest TVC supported the recently launched all-new range of Easy Connect LED televisions (B92OOWB series) in India. The new TVC primarily focuses on the user benefits of getting an LED TV that comes power full of Smart Share feature, which provides the Android mobile users a sensible way of screening their smartphone content on the massive screen without Wi-Fi network.

The two new LED TV models LE43B9200WB (108cm–Full HD) and LE32B9200WB (80cm-HD) will offer consumers a real smart viewing experience. With an available pre-loaded app like Smart View or Screen Mirroring on their Android mobile phones, users can connect with the built-in Smart Share (Miracast) feature on their new Haier TV and use mobile data to start out streaming their favorite content without fear about fixing a Wi-Fi connection reception .

The TVC, conceptualized and created together with Famous Innovations which was premiered on 19th October’ 2018 across leading TV channels including prominent GEC, Movies, News and Sports channels. For a wider reach, the TVC are going to be aired on key regional channels in languages like Bengali, Kannada, Malayalam, Punjabi, Tamil, and Telugu.

Storyboard: The new TVC may be a reflection of how the brand mirrors the user’s values and convictions. The TVC showcases the endearing relationship between a daughter and father emphasizing on how today’s generation is more technology savvy and influential in making purchase decisions for the family. The story follows a typical Indian family browsing the method of shopping for the right television for his or her household. Highlighting the features of the new Haier Easy Connect LED TV range, the commercial shines the spotlight on its Smart Share (Miracast) feature that provides the Android mobile users a sensible thanks to stream their favorite content like movies, music, videos and photos from the comfort of their couch.

When it involves campaigns, Haier displays originality and innovation in their overall conceptualization and execution. Following the core brand philosophy of ‘Inspired Living’, Haier derives inspiration from taking note of the buyer must create solutions that complement their evolving lifestyles.

Commenting on the commercial, Mr. Eric Braganza, President, Haier India said, “At Haier, we constantly understand the requirements and evolving lifestyle of our consumers. The new Haier Easy Connect LED TV series is an innovative solution designed for patrons who don’t want any technology hassles with internet connectivity when it involves entertainment. The TVC is made to shape a robust er connect with the users and also build a strong brand recall at an equivalent time. Further, with the festivities round the corner, we would like to be a neighborhood of our consumers’ celebrations and double their festivities with our exciting offers and a replacement line up.”

Source: https://timestech.in/haier-india-unveils-tv-commercial-for-its-latest-easy-connect-led-tv-range/

Maxim Battery Fuel-Gauge ICs Deliver Lowest Operating Current to maximise Run-Time for Mobile and Portable Devices

Designers of lithium-ion (Li-ion) battery-powered mobile and portable devices like wearables, electric bicycles, power tools and internet of things (IoT) products can improve the end-user experience by extending run-time and delivering the foremost accurate battery state-of-charge (SOC) data within the industry with the MAX17262 single-cell and MAX17263 single-/multi-cell fuel-gauge ICs from Maxim Integrated Products, Inc. (NASDAQ: MXIM). The MAX17262 features just 5.2μA quiescent current, rock bottom level in its class, along side integrated current sensing. The MAX17263 features just 8.2μA quiescent current and drives 3-to-12 LEDs to point battery or system status, useful in rugged applications that don't feature a display.

Designers of electronic products powered by small Li-ion batteries struggle to increase device run-times to satisfy user expectations. Factors like cycling, aging and temperature can degrade Li-ion battery performance over time. Inaccurate SOC data from an unreliable fuel indicator forces the designer to extend the battery size or compromise the run-time by prematurely shutting the system down, albeit there's usable energy available. Such inaccuracies can contribute to a poor user experience thanks to abrupt shutdown or a rise in device charging frequency. Designers also strive to urge their products to plug quickly thanks to competitive demands. Maxim’s two new fuel-gauge ICs help designers meet end-user performance expectations and time-to-market challenges.

The MAX17262 and MAX17263 combine traditional coulomb counting with the novel ModelGauge™ m5 EZ algorithm for high-accuracy battery SOC without requiring battery characterization. With their low quiescent current, both fuel-gauge ICs minimize current consumption during long periods of device standby time, extending battery life within the process. Both even have a dynamic power feature that permits the very best possible system performance without draining the battery. within the MAX17262, an integrated RSENSE current resistor eliminates the necessity to use a bigger discrete part, simplifying and reducing the board design. within the MAX17263, the integrated, pushbutton LED controller further minimizes battery drain and alleviates the microcontroller from having to manage this function.

Key Advantages

High Accuracy: The ICs provide accurate time-to-empty, time-to-full, SOC (1 percent) and mAhr data across a good range of load conditions and temperatures, using the proven ModelGauge m5 algorithm
Fast Time to Market: The ModelGauge m5 EZ algorithm eliminates the time-consuming battery-characterization and calibration process
Extended Run-Time: Quiescent current of just 5.2μA for the MAX17262 and 15/8.2μA for MAX17263 extends run-time
Integration: Internal current-sense resistor (voltage and coulomb counting hybrid) in MAX17262 reduces overall footprint and BOM cost, eases board layout. It measures up to three .1A and is suitable for batteries of 100mAhr to 6Ahr capacity. For applications using higher currents or battery capacity outside this range, the MAX17263, or the MAX17260 released recently, are often used with an external current sense resistor of any size
Small size: At 1.5mm × 1.5mm IC size, the MAX17262 implementation is 30 percent smaller in size compared to employing a discrete sense resistor with an alternate fuel gauge; at 3mm × 3mm, MAX17263 is that the smallest in its class for lithium-ion-powered devices
LED Support: The single-/multi-cell MAX17263 also drives LEDs to point battery status on a pushbutton press or system status on system microcontroller commands

Commentary

“In a push to form their products more user friendly, consumer IoT device manufacturers search for solutions that are highly integrated to scale back design size,” said Raghu Raj Singh, lead semiconductor equipment analyst for Technavio. “Anything that extends the operating time of the device by minimizing battery drain are going to be viewed as a boon for these developers. Maxim’s fuel-gauge ICs are ideally suited to deal with both needs.”
“With these industry-leading ICs, Maxim solves many of the conflicting and difficult battery-management challenges faced by designers of portable products,” said Bakul Damle, director of business management, Mobile Solutions at Maxim Integrated. “Maxim fuel-gauge ICs empower design innovation that results in longer run-times for mobile and portable devices through industry-leading features and functionality.”

Availability and Pricing

The MAX17262 is out there at Maxim’s website for $95 (1000 pieces, FOB USA); the MAX17263 is additionally on the location for $1.49 (1,000 pieces). Both parts also are available via select authorized distributors.
The MAX17262XEVKIT evaluation kit is out there for $60; the MAX17263GEVKIT is out there for $60
Support includes the MAX1726x ModelGauge m5 EZ User Guide and Software Implementation Guide, also as Linux drivers

Source: https://timestech.in/maxim-battery-fuel-gauge-ics-deliver-lowest-operating-current-to-maximize-run-time-for-mobile-and-portable-devices/

Imec ‘Beyond CMOS’ programme demoes spin waves in majority devices

Imec has demonstrated the generation and detection of spin waves in sub-micron-sized magnetic waveguides with wavelengths smaller than 350nm traveling over 10 micrometer during a 500nm wide waveguide, and has proposed models for threshold operation in nanoscale spin-wave structures.

Majority gates are devices where the state of the output is decided by the bulk of the inputs: if for instance quite 50 percent of the inputs are true, the output has got to return true.

The output of the spin-wave majority gate is then supported the interference of multiple spin waves that propagate during a so-called spin-wave bus, or waveguide. When miniaturized right down to the nanoscale, spin-wave majority gates could enable arithmetic circuits that are far more compact and energy-efficient than CMOS-based circuits.

Imec, together with the University of Kaiserslautern and Paris-Sud University, studied spin-wave propagation during a 10nm thick magnetic waveguide.

Importantly, they found that spin waves, excited by an RF-driven antenna, can travel quite 10 micrometers during a 500nm wide waveguide.

In a second experiment, they developed an all-electrical detection method for characterizing propagating spin waves during a magnetic bus. Spin waves with wavelengths as miniscule as 340nm might be detected—more than twice smaller than previously achieved industry results—paving the way towards scaled spin-wave conduits.

Through micromagnetic simulations, the operation of a nanoscaled fork-like spin-wave majority structure was successfully demonstrated. At these small dimensions, magneto-electric cells are used rather than antennas to excite and detect the spin waves. The proposed detection scheme allowed imec to capture the bulk phase results of the spin-wave interference during a very short time-frame , which was but three nanoseconds.

Source: https://timestech.in/imec-beyond-cmos-programme-demoes-spin-waves-majority-devices/

Mouser Electronics, Grant Imahara and native Motors brings Self-Driving Technology in 3D-Printed Vehicle with Drone Technology

Mouser Electronics Inc., the authorized global distributor with the most recent semiconductors and electronic components, along side Local Motors and celebrity engineer Grant Imahara on November 01, 2016, showcased the ultimate build of a transformative 3D-printed vehicle with drone-launching technology. The Mouser version of the Local Motors Strati is that the latest project from Mouser’s highly popular Empowering Innovation Together™ program.

The video shows the ultimate vehicle build, complete with “Fly Mode” drone interoperability. Fly Mode features a drone mounted on the rear of the vehicle that, when launched, gives the driving force and passenger an unprecedented birds-eye view of the environment . Both can watch the drone’s footage on dashboard-mounted viewing screens, providing a 360-degree perspective of the environment . Joining Imahara for the primary official test drive is that the winner of the Essence of Autonomy design contest, Finn Yonkers, whose design was the inspiration for this unique Empowering Innovation Together project. The project’s overall aim is to explore the fascinating options available once self-driving vehicles become the norm.

“I am thrilled to ascertain the Mouser Strati come to life,” said Local Motors Co-founder and CEO John B. Rogers, Jr. “This partnership is an example of the unprecedented speed at which innovative vehicles can come to life through the combined power of cutting-edge suppliers, advanced manufacturing and co-creation.”

Features of this innovative build combine electronic components from Mouser’s valued manufacturer partners and platinum sponsors of the series, Maxim and Murata.

“At Mouser, we attempt not only to supply engineers with the technology they have to innovate, but also to succeed in , inspire and have interaction engineers of all backgrounds,” said Glenn Smith, President and CEO of Mouser Electronics. “We create that environment and push toward that goal with the Empowering Innovation Together program and our new Innovation Lab.

Source: https://timestech.in/mouser-electronics-grant-imahara-local-motors-brings-self-driving-technology-3d-printed-vehicle-drone-technology/

Mouser Now Stocking Silicon Labs’ Si3406x POE+ Powered Device Family for High-Wattage IoT Applications

August 13, 2018 – Mouser Electronics, Inc., the authorized global distributor with the most recent semiconductors and electronic components, is now stocking the Si3406x Power Over Ethernet Plus (POE+) Powered Device (PD) family from Silicon Labs. Integrating all necessary high-voltage discrete components on one PD chip, the Si3406x family devices reduce time to plug and system cost for a spread of high-efficiency, high-power POE+ PD applications. The ICs deliver 30 watts of power to support feature-rich Internet of Things (IoT) products like voice IP ( VoIP) devices, motor-positioned IP and security cameras, and other industrial devices.

As the demand for high-wattage IoT applications increases, developers must believe powered devices that support the POE+ standard. The Silicon Labs Si3406x POE+ PD family ICs, available from Mouser Electronics, convert the high voltage supplied over Ethernet copper cabling into a regulated, low-voltage DC supply. The ICs offer a broad array of feature options, including reduced EMI, flexible power conversion options, a strong sleep mode augmented with mode control, wake pin, and LED driver, and full IEEE 802.3at compliance.

The Si3406x POE+ PD family includes the flagship Si3406 IC also because the Si34061 variant, which adds support for external FETs and to enhance power conversion efficiency, and therefore the Si34062 variant, which incorporates support for sleep modes with wake function, also as LED drive capability.

The 20-pin Si3406 IC and 24-pin Si34061 and Si34062 are housed during a compact, 5 mm × 5 mm QFN package, and support an operating temperature range of minus 40 to 85 degrees Celsius.

Three evaluation boards, available from Mouser Electronics, support the new devices. The tiny, 32 mm × 32 mm, 7W Class 2 Si3406FBC2-KIT and therefore the compact, 15W Class 3 Si3406FBC3-KIT showcase non-isolated flyback designs, while the 30W, 90-percent efficient Si34061ISOC4-KIT highlights a high-power, isolated flyback using the Si34061. All three evaluation boards are include detailed design guides and EMI test reports.

Source: https://timestech.in/mouser-now-stocking-silicon-labs-si3406x-poe-powered-device-family-for-high-wattage-iot-applications/

Littelfuse Announces 1700V, 1 Ohm SiC MOSFET

Beijing, China, October 22, 2018 — Littelfuse, Inc., today introduced its first 1700V SiC MOSFET, the LSIC1MO170E1000, expanding its portfolio of SiC MOSFET devices. a crucial addition to the Littelfuse SiC MOSFET product offering, the LSIC1MO170E1000 may be a powerful addition to the company’s 1200V SiC MOSFETs and Schottky diodes already released. End-users will enjoy more compact, energy-efficient systems and also from a possible lower total cost of ownership.

High-efficiency benefits powered by SiC MOSFET technologies offer multiple advantages to several demanding applications including electric and hybrid vehicles, datacenters, and auxiliary power supplies. in comparison to similarly-rated Si IGBTs, the LSIC1MO170E1000 SiC MOSFET enables variety of system level optimization opportunities, including increased efficiency, increased power density, decreased cooling requirements, and potentially lower system level costs.

Additionally, the Littelfuse SiC MOSFETs deliver on par or better performance altogether aspects in comparison head-to-head with other industry-leading SiC MOSFET devices on the market. Typical applications for the SiC MOSFET LSIC1MO170E1000 include:

Solar inverters
Switch-mode and uninterruptible power supplies
Motor drives
High-voltage DC/DC converters
heating

“This product can improve existing applications, and therefore the Littelfuse application support network can help new design-in projects,” said Michael Ketterer, Global Product Marketing Manager, Power Semiconductors, Semiconductor Business Unit at Littelfuse. “SiC MOSFETs offer a rewarding alternative to traditional Si-based power transistor devices. The MOSFET device structure enables lower per-cycle switching losses and improved light load efficiency in comparison to similarly-rated IGBTs. Inherent material properties allow the SiC MOSFET to outclass its Si MOSFET counterparts in terms of blocking voltage, specific on resistance, and junction capacitances.”

The new 1700V, 1 Ohm SiC MOSFETs, available during a TO-247-3L package, offer these key benefits:

Optimized for high-frequency, high-efficiency applications
Extremely low gate charge and output capacitance
Low gate resistance for high-frequency switching

Availability
LSIC1MO170E1000 SiC MOSFETs are available in TO-247-3L packages in tubes in quantities of 450. Sample requests could also be placed through authorized Littelfuse distributors worldwide. For an inventory of Littelfuse distributors, please visit Littelfuse.com.

Source: https://timestech.in/littelfuse-announces-1700v-1-ohm-sic-mosfet/

World record: Infineon chip solves Rubik’s Cube in 637 milliseconds

The Rubik’s Cube was solved in only 637 thousandths of a second: At the “electronica” trade fair, the machine “Sub1 Reloaded” achieved the feat with the assistance of microchips from Infineon. The microcontroller AURIX™, one among the world’s most powerful minicomputers, also contributed to the record-breaking effort: it's one among the essential elements that enable autonomous driving. For the Rubik’s Cube, it achieved the simplest time within the approximately 30 years that have passed since the Hungarian Ernő Rubik invented the cube. It takes a person's a minimum of 4.9 seconds to unravel the puzzle. that's the simplest time recorded for a so-called “speedcuber” listed within the Guinness World Records.

The six faces of the cube each have nine squares of a color which will be turned in opposing directions. the thing is to rotate the faces until they need returned to the first position – without driving yourself crazy within the process. quite 43 quintillion combinations of the coloured squares are possible. an equivalent number of cubes could cover our planet in 275 layers of cubes. the world would then be covered with an approximately 20-meter-high layer of Rubik’s Cubes.

It takes tremendous computing power to unravel such a highly complex puzzle with a machine. within the case of “Sub1 Reloaded”, the facility for control was supplied by a microcontroller from Infineon’s AURIX™ family, almost like the one utilized in driver assistance systems. Minimal reaction times play a good greater role in autonomous driving. A high data-processing rate is important to make sure real-time capabilities with clock frequencies of 200 MHz. As a results of this ability, a vehicle can safely and reliably apply the brakes when it approaches a barrier.

The electronic version of senses, brain, and muscles

“Sub1 Reloaded” contains variety of other microchips. Like most devices we use a day , they link the important and digital worlds. The attempt started with the press of a button. The shutters of the sensor cameras were removed. The machine then detected the position of the weather . These had been previously scrambled, in accordance with the special requirements of the planet Cube Association. The computing chip, or the “brain” of the machine, found out the fastest solution and transmitted the required commands to the facility semiconductors. These “muscles” then activated six motors, one for every side of the cube, at record speed then brought them to a halt – all within the fraction of a second.

Every Rubik’s cube are often unscrambled with just 20 movements. a spread of algorithms are often wont to solve the puzzle, the foremost well-known of which is that the Fridrich Method. But Infineon’s constructor Albert Beer didn't design his prodigy with the fewest moves in mind. Rather, he was bent achieving the simplest time – he even allowed the “Sub1 Reloaded” a couple of extra moves to succeed in this goal.

Source: TimesTech.in

MicroVision and STMicroelectronics to Co-Market MEMS Mirror-based beam Scanning Solutions

MicroVision, Inc., a pacesetter in innovative ultra-miniature projection display and sensing technology and STMicroelectronics, a worldwide semiconductor leader serving customers across the spectrum of electronic applications, today announced that they decide to work together to develop, sell, and market beam Scanning (LBS) technology.

The companies anticipate cooperating closely on market development efforts which will include joint sales and marketing activities for LBS solutions. additionally to the pico projection and heads-up display (HUD) markets that both companies are currently addressing with their LBS solutions, ST and MicroVision anticipate targeting emerging markets and applications including, virtual and augmented reality (VR, AR), 3D sensing and Advanced Driver Assistance Systems (ADAS).

In addition, MicroVision and ST anticipate exploring options to collaborate on future technology development including a joint LBS product roadmap. This cooperation would combine the method design and manufacturing expertise of ST with the LBS systems and solutions expertise of MicroVision.

“Working with MicroVision, our goal is to create on our matched skills, shared vision, and commitment to grow LBS-enabled markets to open up many opportunities for both companies,” said Benedetto Vigna, Executive vice chairman of the Analog and MEMS Group of ST. “This relationship will position ST to pursue all of the expansion opportunities for LBS and therefore the complementary power, sensing, and control components.”

“Teaming up with ST, a world leader in its field, is vital for MicroVision both for ST’s expertise in semiconductor technology and its global customer reach,” said Alexander Tokman, president and CEO of MicroVision. “Combining ST’s expertise within the development and manufacture of key components for LBS scanning engines with MicroVision’s proprietary system, engine, and applications knowledge, and property are often highly advantageous for marketing LBS solutions to a good array of companies for varied applications.”

he companies have an existing working relationship on production of MicroVision components. ST manufactures MicroVision’s current-generation MEMS die supported MicroVision’s design. ST also manufactures one among the ASICs sold by MicroVision.

Source

Opulent North Americas Custom Lighting Solutions Now Available at Digi-Key

A variety of Opulent North America’s LED modules, heatsinks and starboards are now available through Digi-Key Electronics, a worldwide electronic components distributor, as a results of a worldwide contract between the 2 companies.

Opulent North America enables engineers to accelerate their designs by providing a spread of starboards and LED modules in multiple color temperatures and configurations. They also differentiate themselves with their capability to supply custom solutions upon request.

“We are excited to start this agreement with Digi-Key to supply products worldwide,” said Russell Shaver, President of Opulent North America. “Digi-Key features a reputation for excellent customer service and specialise in rapidly introducing new products and technologies. This partnership will help both companies meet the worldwide demand for LED lighting modules that simplify designs and speed up time-to-market.”

Opulent’s products provide a whole lighting solution including the sunshine source, heatsink, power source, and more, and are ideal for lamp replacements also as high bay, low bay, outdoor, street, stadium, and auditorium lighting applications.

“We are excited to partner with Opulent North America and help our customers with their lighting design needs by offering full custom lighting solutions,” said David Stein, VP of worldwide Semiconductor at Digi-Key. “Engineers round the world will find value within the ability to use the starboards and modules as either project starters or volume solutions.

source: TimesTech

Amphenol Industrial ePower-Lite Connectors for EV/HV Automotive Designs Now at Mouser

Mouser Electronics is currently loading ePower-Lite plastic force connectors from Amphenol Industrial. Intended for the half and half and electric vehicle advertises, these connectors include a lightweight plastic shell and minimized plan to spare both weight and space in vehicle design.

Amphenol Industrial ePower-Lite plastic force connectors, accessible from Mouser Electronics, include a medium-amperage association framework appraised to up to 70 An of consistent current. The ePower-Lite connectors have a working voltage of 800 VDC and are accessible in 2-post, 3-shaft, and 4-post frameworks with high-voltage interlock circle (HVIL) and electromagnetic impedance (EMI) protecting for security and execution.

Amphenol's ePower-Lite connector arrangement is worked to meet the requesting needs of medium-voltage and medium-amperage applications. It fuses 3.6mm terminals with Amphenol's licensed RADSOK®technology to accomplish higher current evaluations, lower inclusion powers and lower temperature rise and contact opposition. Furthermore, with low inclusion power, the connectors require no mechanical help gadgets for mating and unmating.

The touch-verification ePower-Lite connectors are RoHS agreeable and can be mated at least multiple times for charging, embellishment power, or any applications that require a fixed medium-power connector. The connectors have a UL 94V-0 combustibility rating, an IP67 rating when mated, and a working temperature scope of - 40 to 125 degrees Celsius, making them reasonable for car, power converter, substantial hardware, two-and three-stage engines, and other force applications.

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