• DocumentCode
    571491
  • Title

    Zero-Watt Networked Standby: Development and Evaluation of a Home A/V Network System

  • Author

    Tanizawa, Yoshimichi ; Ishihara, Takeshi ; Oyama, Yuichiro ; Murakami, Takaomi ; Kogawa, Tsuyoshi ; Kamagata, Eiji ; Ise, Kotaro

  • Author_Institution
    Corp. R&D Center, Toshiba Corp., Kawasaki, Japan
  • fYear
    2012
  • fDate
    16-20 July 2012
  • Firstpage
    113
  • Lastpage
    122
  • Abstract
    Energy conservation is an important global issue. Home is the third largest energy consumer, and 10% of the home energy is standby power of home appliances. The proliferation of home networks increases the standby power. The conventional technologies for low networked standby power such as WoL require continuous AC power, as much as 0.5 watts, to monitor wake-up signals. The large portion of the consumed power is due to the power loss in an AC-DC converter. Moreover, the technologies are applicable only to the specific network types such as Ethernet and IEEE802.11. We propose a solution to reduce the networked standby power down to zero virtually, regardless of the network type. For monitoring wake-up signals, the solution utilizes the precharged power in an ultra capacitor without using AC power supply almost all the time. In order to realize this idea, the solution also utilizes unique and simple protocol dedicated only to the networked standby /wake-up functionality. This protocolenables the monitoring circuit to consume very small power enough for the capacitor to supply. The networked standby/wake-up functionality is easily combined with any conventional network application protocol by protocol address mapping. As one realization example of our solution, we implemented an experimental system which is integrated with an ultra low power wireless signal receiver and extended UPnP protocol. The system evaluation showed that our solution achieves the zero-watt networked standby while keeping network functionalities. Moreover, the analysis of the results shows that the practical networked standby power is one seventeenth of the conventional technologies in usual usage. This corresponds to 1.11 kg-CO2 emission reduction per year per product.
  • Keywords
    AC-AC power convertors; domestic appliances; energy conservation; energy consumption; home networks; low-power electronics; power aware computing; protocols; radio receivers; uninterruptible power supplies; wireless LAN; AC power supply; AC-DC converter; Ethernet; IEEE802.11; WoL; conventional network application protocol; emission reduction; energy conservation; energy consumer; extended UPnP protocol; global issue; home A/V network system; home appliances; home energy; home networks; low networked standby power; monitoring circuit; network functionality; network types; networked standby functionality; networked wake-up functionality; power loss; precharged power; protocol address mapping; system evaluation; ultra capacitor; ultra low power wireless signal receiver; wake-up signal monitoring; zero-watt networked standby; Capacitors; Home automation; Integrated circuits; Monitoring; Phase change materials; Protocols; Servers; UPnP; home A/V network; low power consumption; networked standby;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Applications and the Internet (SAINT), 2012 IEEE/IPSJ 12th International Symposium on
  • Conference_Location
    Izmir
  • Print_ISBN
    978-1-4673-2001-6
  • Electronic_ISBN
    978-0-7695-4737-4
  • Type

    conf

  • DOI
    10.1109/SAINT.2012.24
  • Filename
    6305269