Title::More than Moore (MtM) and Chips for Smart Grid 

Speaker:Dr.Xueping Jiang     

Time:15:00 PM, July 1, 2013    

Venue:LED Meeting Room, No.5 Research Building, IOS, CAS   

 

  Abstract: In the first part of this talk, we give an overview of the business and technical factors defining the More than Moore (MtM) movement, and address how it will yield revolutionary electronic devices. Moore's law has transcended computing expectation. Its promise will eventually reach scalability limitation. Future technology encompasses breakthroughs capable of interaction with the outside world, which the MtM movement achieves. Instead of scaling down, integrating functionalities delivers cost-optimized and value-added system solutions. This trend holds significant potential for the industry. After briefly introducing smart grid in the second part of this talk, we focus on our research and development efforts on chip for smart grid. The topics cover new generation system-on-chip (SoC) with smart grid application, new generation monolithic Hall effect sensor integrated in smart metering systems, energy harvesting wireless network with temperature sensor, and online monitoring of transformer winding deformation using scanning frequency response analysis (SFRA) method. MtM makes the implementation of system solutions with these new chips feasible.