Pennsylvania, MALVERN — February 17, 2016 — A few days ago, Vishay Intertechnology, Inc. (NYSE stock code: VSH) announced that in order to meet the high current, high efficiency and high power density of next-generation notebook computers, ultra-portable notebooks and desktop PCs Performance requirements, launched 5 new VRPower® integrated DrMOS power stage solutions-SiC530, SiC531, SiC532, SiC631 and SiC632, which can be used in multi-phase POL regulators. These five Vishay Siliconix devices combine power MOSFETs, advanced MOSFET gate driver ICs and bootstrap Schottky in thermally enhanced 4.5mm x 3.5mm PowerPAK® MLP4535-22L and 5mm x 5mm PowerPAK MLP55-31L packages Diodes take up 45% less space than solutions using discrete devices. The high power density of the device makes it very suitable for computing platforms using Intel® Skylake platform. The device is also suitable for industrial PCs and high-current multiphase modules used in networking and industrial applications. Today's mobile computing and desktop computing platforms require more current than previous generation products, while requiring smaller area and size than ever before. The integrated devices in the 4.5mm x 3.5mm PowerPAK MLP55-31L package launched today can output up to 30A continuous current, and the 5mm x 5mm PowerPAK MLP55-31L packaged devices can output 40A continuous current. In addition to being able to output large currents and saving space, these power stages also reduce package parasitic parameters, enabling the switching frequency to reach up to 2MHz, thereby reducing the size of the output filter and further reducing the size and height of the overall solution. To improve performance, the high-side and low-side MOSFETs of the device use Vishay's best current Gen IV TrenchFET® technology to reduce switching and conduction losses. The power stage driver IC is compatible with many PWM controllers and supports 5V tri-state PWM logic levels. SiC530, SiC531, SiC532, SiC631, and SiC632 are suitable for synchronous buck converters, DC / DC voltage regulator modules, multiphase VRDs for CPUs and GPUs, and memories. To improve light load efficiency in these applications, the device's driver IC is equipped with a diode modulation mode circuit and a zero current detection circuit. Adaptive dead time control helps to further improve efficiency at all load points. To support the light load requirements of PS4 mode of IMVP8, when the system is running in standby mode, the power stage will reduce the current to 5μA, and can wake up from this state within 5μs. The device is RoHS-compliant, halogen-free, and has protection functions such as undervoltage lockout (UVLO). Device specification table: Samples are now available for the power stage, and mass production has been achieved, with a lead time of ten weeks. VISHAY Introduction Vishay Intertechnology, Inc. is a Fortune 1000 company listed on the New York Stock Exchange (VSH) and is a global discrete semiconductor (diode, MOSFET and infrared optoelectronic device) and passive electronic components (resistors, inductors, capacitors) One of the largest manufacturers. These components can be used in almost all types of electronic equipment and equipment in the industrial, computing, automotive, consumer, communications, defense, aerospace, power, and medical markets. With product innovation, successful acquisition strategy, and "one-stop" service, Vishay has become a global industry leader. Polycrystalline silicon solar panels are a common type of Solar Panel whose main function is to convert sunlight into electricity. The following are the main functions of polycrystalline silicon solar panels: polycrystalline silicon solar panels, poly crystalline solar panel, polycrystalline pv solar panel, polycrystalline pv module, polycrystalline solar module Ningbo Autrends International Trade Co., Ltd. , https://www.china-energystorage.com
Photoelectric conversion: Polycrystalline silicon solar panels are made of polycrystalline silicon material, and their surface is covered with multiple silicon crystals, which can absorb photons in sunlight. When the photons are absorbed, they release electrons from the silicon crystal, creating an electric current. This process, called photoelectric conversion, converts the energy of sunlight into electricity.
Power generation: The current and voltage generated by polycrystalline silicon solar panels through photoelectric conversion can be used for power generation. Multiple solar panels are combined into a solar module, and a solar array can be formed when used on a large scale. These battery modules and arrays can absorb large amounts of sunlight and convert it into electricity to supply the grid or be used to power equipment.
Renewable energy: Solar panels use sunlight to generate electricity and are therefore renewable energy. Sunlight is free, widely distributed, and not exhausted, so the use of solar panels helps reduce dependence on traditional energy sources, lowers carbon emissions, and is environmentally friendly.
Noiseless: Solar panels have no mechanical moving parts, so there is no noise during the power generation process. This makes them ideal for use in residential areas, schools, and other places where a quiet environment is required.