Provider
Faraday Technology
HQ:
Taiwan
Faraday Technology Corporation is a leading fabless ASIC and silicon IP provider. The company's broad silicon IP portfolio includes I/O, Cell Library, Memory Compiler, ARM-compliant CPUs, DDRI/II/III, MPEG4, H.264, USB 2.0/3.0, 10/100 Ethernet, Serial ATA, and PCI Express, etc. Headquartered in Taiwan, Faraday has service and support offices around the world, including the U.S., Japan, Europe, and China. Faraday is listed in Taipei Stock Exchange, ticker 3035.
Learn more about Battery Charger IP core
In this second part of Paving the way for the next generation audio codec for True Wireless Stereo (TWS) applications whitepaper, energy efficiency will be discussed and several means to achieve extra-long playtime will be exposed.
As more functionality has been added to the devices, the power requirements have increased. As the power requirement grows, the capacity of the battery has to be increased, increasing the space occupied and its weight. This makes the battery one of the bulkiest component in the handhelds.
There are many factors that must be considered when developing a custom System on a Chip (SoC) for Internet of Things (IoT) applications. Chief among these are the power management circuits on the die. Vidatronic offers this white paper to discuss these considerations and all of the various circuit blocks that can be found in this application. Vidatronic IP solutions are discussed and the benefits they bring to IoT SoC designers.
This paper describes a CSoC platform and configurable digital subsystem IP which can be deployed for development of IOT edge devices. The paper encompasses the different attributes of IOT edge device that can cater multiple industry segments, key features and benefits of CSoC platform, components of the digital subsystem IP that enables rapid prototyping of SoCs for IOT applications.
Other than generous helpings of coffee, what helps industry decrease time to market, drive down cost, and focus more of the design cycle on innovation? Hint: standardization. By defining protocols and operating characteristics, standards have impacted all aspects of technology: device package sizes, pin outs, data and communication interfaces, software drivers, connectors, ESD ratings, environmental compliance, test fixtures.
This white paper introduces a procedure for choosing the proper DCDC switching converter for a given application. It explains basic, performance, and optional metrics in detail. It also demonstrates other practical aspects that are sometimes overlooked by system designers. Multiple application examples are provided.