Highly efficient wet-processed solar cells with molecules within the same orientation

Solar cells are an economical , alternate source of energy. A subtype of those , organic solar cells make use of organic polymers inside the cell. Using these polymers makes the cells light-weight and increases their flexibility. Organic solar cells are produced by two different chemical methods: dry processing and wet processing, with the latter being a faster method. There are several parameters wont to assess the efficiency of solar cells with absorption of sunshine and transportation of charge being widely used.

A prevailing problem with the structure of organic cells is that molecules within the active organic layer liable for light absorption and charge transport tend to face both towards the sides of cells, also as towards the sunshine absorbing substrate. Maximizing the amount of molecules facing the substrate, however, is that the key to maximising absorption and conductivity of the cell. Scientists have modified the dry processing method to realize such an orientation, but it's not been possible with the wet method. The research team led by Tetsuya Taima at Kanazawa University, is that the first to successfully do so.

The premise of their method is that the introduction of a copper iodide (CuI) layer between the active molecules and therefore the substrate. In their study, the researchers used a movie of active molecules called DRCN5T and coated them onto either CuI/PEDOT: PSS (30 nm)/indium tin oxide (ITO) mixed substrates, or substrates without the CuI layer. The ratio of substrate facing to edge facing DRCN5T molecules was then compared between both. Subsequent high-resolution imaging revealed that the CuI containing cells had active molecules with a ten times higher substrate facing orientation, along side enhanced light absorption. The researchers attributed this altered orientation of the molecules to strong chemical interactions between the DRCN5T and CuI atoms. To further confirm this, DRCN5T molecules with bulky side chains that don't interact with CuI were used, and a better substrate facing ratio wasn't seen.

This is the primary study that effectively demonstrates a way of manufacturing such efficient organic solar cells using the wet processing method. Besides saving time, the wet method also leads to larger film areas. “This technique is predicted to greatly contribute to the event of organic thin film solar cells fabricated by wet processing within the future,” conclude the authors. Their approach paves the way for producing high-performance solar cells faster.

Source: https://timestech.in/highly-efficient-wet-processed-solar-cells-with-molecules-in-the-same-orientation/

Nanoramic Laboratories to Exhibit at IDTechEx Energy Storage Innovations

Boston-based Nanoramic Laboratories, a pacesetter in advanced materials and energy storage technology, will participate in IDTechEx Energy Storage Innovations in Santa Clara , CA on November 14-15, 2018. The Nanoramic team will exhibit at Booth 036, and present an interview on November 15.

John Cooley, President and COO, and Nicolo Brambilla, CTO, are going to be available at the booth to point out Nanoramic’s products and answer questions on the technology. the corporate are going to be showcasing Advanced Material technology, including high performance thermal interface materials with high thermal conductivity, and a composite electrode for ultracapacitors specifically designed for low ESR and to work at high temperatures. Additionally, Nanoramic will show samples of their ultracapacitor technology. The Chip Ultracapacitor is that the first reflowable, slim profile, and low ESR device that matches energy storage requirements for power loss protection in SSDs. Nanoramic’s FastCAP extreme environment ultracapacitors are the sole hermetically sealed ultracapacitors capable of heat (>125°C) and coldness (< -55°C) operation.

On November 15 at 9:20am in Grand Ballroom B, John Cooley will present “Advanced Electrodes for top Performance Ultracapacitors and Batteries.” He will discuss enabling materials for energy storage devices including binderless electrodes and applications. Energy storage electrodes are often limited in their electrochemical stability and electrical performance by polymer binders utilized in the active material and to stick the active material to the present collector. Capacitance and ESR suffer because there's some of the active material that's not actually active. Meanwhile lifetime at temperature and voltage can suffer because the binder material interacts with the interior electrochemical system of the energy memory device . Nanoramic has developed an alternate solution – a binderless electrode platform technology that effectively replaces polymer binders and primers with various forms and methods exploiting mechanical and electrical properties of Carbon Nanotubes. Results are demonstrated for both EDLC electrodes and Li-ion Cathodes.

Source: https://timestech.in/nanoramic-laboratories-to-exhibit-at-idtechex-energy-storage-innovations/

Standalone USB Type-C Power Delivery Controller from STMicroelectronics

STMicroelectronics’ STUSB4500 standalone USB Type-C and Power-Delivery controller extends the convenience and environmental benefits that accompany powering and charging from a uniform USB-C outlet to a good sort of consumer, industrial, and medical products.

Optimized for sink-only applications powered through a USB-C cable, the STUSB4500 may be a certified standalone USB PD controller which will be easily customized by the end-user to suit the appliance .

Based on default power profiles (PDO) loaded in an indoor non-volatile memory, the IC implements proprietary algorithms to barter an influence Delivery contract with a source with none internal support (Auto-run mode), making it the perfect device for automatic high-power-profile charging especially from a dead-battery power state. An application processor can then optionally and dynamically change STUSB4500 power profiles to force another negotiation.

The STUSB4500 supports multiple options to manage multiple input power paths and irrelevant power sources. With this device on-board, numerous sorts of portable equipment from 15W to 100W can replace a product-specific charger with a typical USB Type-C connection. These include toys, power tools, vacuum cleaners, office equipment, lighting products, smart speakers, medical devices, and lots of others.

Equipment normally AC-powered through a captive mains cable, like small kitchen appliances, also can cost-effectively become DC-powered to simplify product design, reduce size and weight, and permit the choice of cordless battery-powered operation.

Saving individual dedicated chargers and power supplies by migrating to USB Power Delivery controlled by the STUSB4500 enhances convenience and portability, and mitigates the environmental burden imposed by waste electrical equipment discarded with each product-upgrade cycle. More flexible charging options including fast-charging or charging multi-cell batteries above 5V also are possible.

The STUSB4500 is in production now, within the 4mm x 4mm QFN24 package, priced from $0.75 for orders of 1000 pieces. Engineering samples in a good smaller chip-scale package (CSP) are going to be available from mid-July for the asking .

Source: https://timestech.in/standalone-usb-type-c-power-delivery-controller-from-stmicroelectronics/

AVX High-Temp Max-Cap Wet Tantalum Supercapacitors now Rated for max Operating Temperatures of 175°C

AVX Corporation, a number one manufacturer and supplier of advanced electronic components and interconnect, sensor, control, and antenna solutions, has increased the utmost operating temperature for its TWD High-Temp Max-Cap (HTMC) Series axial leaded, hermetically sealed wet tantalum capacitors from 125°C to 175°C. supported a well-established wet tantalum design, the newly improved TWD HTMC Series capacitors provide the very best DC capacitance and therefore the highest operating temperature of any T4-case capacitor available on the market. Currently available in two ratings, 50mF/6.3V and 25mF/10V, the series achieves high capacitance values previously only offered by supercapacitors and delivers exceptional electrical and mechanical stability for extended lifetimes of up to 10,000 hours at +105°C and rated voltage and, for the 25mF/10V rating, up to 2,000 hours at +175°C and derated voltage.

Ideal applications for TWD HTMC Series capacitors now reach high-temperature oil and gas market applications, including down-hole drilling equipment, that need proven high-reliability performance at temperatures in more than 125°C. The series is additionally compatible to be used in DC hold-up and low frequency pulse circuitry in avionics, defense, specialized industrial, and other high-reliability applications that need high capacitance at higher temperatures and for extended lifetimes than electric double-layer capacitor (EDLC) supercapacitor technologies can currently deliver.

“Made using high-quality tantalum powders and established designs, our field-proven HTMC Series hermetically sealed wet tantalum capacitors deliver exceptional electrical and mechanical performance and long-lifetime durability during a range of high-temperature, high-reliability applications that now extends to the oil and gas industry,” said Mitch Weaver, member of the technical staff, AVX.

TWD HTMC Series capacitors are now rated for operating temperatures extending from -55°C to 175°C and are available in two ratings: 50mF/6.3V and 25mF/10V, with a ±10% and ±20% capacitance tolerance, during a single case size: DSCC size T4/AVX size “E”, with or without an insulating sleeve, and with either Sn/Pb (60/40) plated or pure matte tin terminations. The cases measure 26.97mm (+0.79mm or -0.41mm) long , 10.31mm in diameter with an insulating sleeve or 9.52mm (±0.41mm) in diameter without, and have 57.15mm (±6.35mm) terminals. The capacitors also are RoHS compliant, lead-free compatible, and suitable to be used with automatic mounting and soldering processes. Lead-time for the series is 12 weeks.

Source: https://timestech.in/avx-high-temp-max-cap-wet-tantalum-supercapacitors-now-rated-for-maximum-operating-temperatures-of-175c/

Mouser Offers Intel RealSense D400 Series Depth-Sensing Cameras with Unparalleled Functionality and Size

Mouser Electronics the New introduction (NPI) leader empowering innovation, is now stocking the Intel RealSense D400 product family. Built specifically to assist embedded systems sense, understand, interact and learn from real-world environments, the Intel RealSense D400 product family offers designers a comprehensive platform of ready-to-use cameras, depth modules and vision processors that deliver embedded depth-sensing technology, real-time operation , and high-speed 3D imaging that's versatile and robust for a spread of indoor and outdoor applications.

The Intel RealSense D400 product family, available from Mouser Electronics, includes two depth-sensing cameras: the D415 and D435. Both incorporate the newest Intel RealSense Vision Processor D4 to handle the complex depth algorithm, and use stereo image sensors to capture and calculate disparity between images. The D415 camera features a rolling shutter stereo camera pair, standard infrared (IR) projector and a full HD RGB camera that's ideal for stationary and slow-moving applications. The D435 camera, against this , features a worldwide shutter stereo camera pair, wide IR projector and a full HD RGB camera, which is more suitable for applications like computer game (VR) or robotics. Both cameras deliver low light performance with but 1 lux minimum sensitivity and use a USB 3.0 reference to power over USB. Both cameras offer a depth stream output resolution of up to 1280 × 720 px with a frame rate of 30 fps.

For higher volume embedded applications, Intel offers the Vision Processor D4 and Depth Module D400 Series, also available from Mouser Electronics. The compact Vision Processor D4 computes high-resolution 3D depth maps in real time without requiring a fanatical GPU or host processor when paired with RealSense Depth Modules. The D400 Depth Module Series can capture indoor or outdoor environments with long-range capabilities, high-depth resolution and IR stereo, and are offered with multiple options, including standard or wide field of view, rolling or global shutter technology and passive or active IR depth sensing.

The Intel RealSense Depth Camera D400 product family is supported by a cross-platform (Windows, Linux, macOS) and open-source software development kit (SDK), which features libraries, wrappers, computer vision sample code and tools to assist designers start coding projects and debugging camera settings. Additionally, designers can quickly download the Intel RealSense viewer to be used with either the D435 or D415 Depth Camera to quickly evaluate the D400 product family.

Source: https://timestech.in/mouser-offers-intel-realsense-d400-series-depth-sensing-cameras-with-unparalleled-functionality-and-size/

Maxim’s 5kVRMS Reinforced Digital Isolator: 2x More Throughput at 4x Lower Power

To better protect industrial systems from the risks of high-voltage signals, equipment designers can now address the new robust and reliable MAX22445 5kVRMS four-channel reinforced digital isolator from Maxim Integrated Products, Inc. Delivering up to 2x greater throughput at 4x lower power consumption versus competing solutions, the MAX22445 provides reliable communication across the isolation barrier to make sure safe operation of compact industrial, medical and other equipment.

In high-voltage equipment, digital isolators provide signal isolation and level-shifting for correct operation of the many circuits, while also protecting users from dangers like electric shock. Yet, not all of those isolators are alike as many consume an outsized amount of power, generate significant heat and introduce large propagation delays, limiting system reliability and throughput.

Overcoming the shortcomings of other digital isolators, the MAX22445 delivers reinforced, dual insulation barrier isolation for fast digital signals. The IC, which mitigates the risks of high-voltage power, transfers signals of up to 200Mbps with significantly less power than competitive solutions. it's available during a 16-pin wide-body SOIC package with 8mm of creepage and clearance.

Key Advantages

Low Power: 41mA per channel current consumption and 0.74mW power consumption at 1Mbps with VDD at 1.8V. The IC has 4x lower power consumption compared to competing solutions while also reducing heat generation and enabling reliable and compact designs.

High Speed: Maximum propagation delay of 10.5ns and maximum rate of 200Mbps enable fast and accurate data acquisition and high-speed interfaces with wide timing margins. The IC delivers up to 2x greater throughput versus other available solutions.

Robust and Reliable: Dual barriers of isolation provide 5kVRMS and 10kV surge for reliable performance over an extended product lifetime and meet the security standards required for operator protection.

Source: https://timestech.in/maxims-5kvrms-reinforced-digital-isolator-2x-more-throughput-at-4x-lower-power/

Eurotech Technologies Launches BestNet Wall Mount Racks

Eurotech Technologies, the leading technology solutions company, today announced the launch of next generation BestNet wall mount racks. The racks are specially optimized for little networking, domestic application, audio video, telecom and lab applications, ensuring complete convenience & flexibility. BestNet wall mount racks are available in sizes from 4U to 15U with 400mm, 500mm and 600mm deep configurations.

BestNet wall mount racks are fabricated out of CRCA steel which are CNC programmed and punched, bended, welded and powder coated with highest quality standards. Configuration for normal racks include: welded frame integrated with side panels and vented top-cover with fan mounting provision, rear side of the rack comes with provision to mount the rack on the wall and front glass door with lock & key ensures visibility and security of equipment’s.

“BestNet wall mount racks are designed for both form and functionality and very versatile for a good range of applications,”said, Mr. Anuj Jain, director , Eurotech Technologies. The smaller rackspace footprint and comprehensive flexibility, provides our customers a lower cost of ownership at an equivalent time, increased operational efficiency, enhanced convenience and usefulness , he added.

The BestNet wall mount rack conforms to DIN 41494 or equivalent ISO standards and adjustable 19″ equipment mounting verticals provide better flexibility to maximise the usable mounting space. the highest and bottom panel comes with ventilation and cable entry facility, while the highest panel features a provision to mount the cooling fans.

BestNet wall mount rack system has been designed for swift assembly and rapid integration at site. The rack system ensures physical security and prevents invalid access to critical IT equipment, making it a perfect choice for organizations of each size.

Source: https://timestech.in/security-policy-automation-apac-ahead-of-usa-and-emea/