Difference between revisions of "Low power electronics"

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<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Description</h2>
<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Description</h2>
Increasing the CPU speed, memory bandwidth etc. could increase the consumption of  energy use by the mobile device. Power consumption may thus be the limiting factor for the functionality. Power consumption drives the important mobile device characteristics of stand-by time and operational time. It also has impact on the radius of action through the reach of the transmission and the operating/standby time before the battery needs to be recharged.
Increasing the CPU speed, memory bandwidth etc. could increase the consumption of  energy use by the mobile device. Power consumption may thus be the limiting factor for the functionality. Power consumption drives the important mobile device characteristics of stand-by time and operational time. It also has impact on the radius of action through the reach of the transmission and the operating/standby time before the battery needs to be recharged.
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<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Enablers</h2>
<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Enablers</h2>
* Low voltage semi-conductors
* low voltage semi-conductors
* asynchronous circuits
* asynchronous circuits
* Dynamic power management (frequency scaling, voltage scaling)
* dynamic power management (frequency scaling, voltage scaling)
* Higher integration
* higher integration
* Efficient antenna's
* efficient antenna's
* Low power RF protocols
* low power RF protocols
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<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Inhibitors </h2>
<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Inhibitors </h2>
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* increasing complexity of the user interface (screens, colors, ...)
* increasing complexity of the user interface (screens, colors, ...)
* increasing flexibility requires more software solutions which use more energy
* increasing flexibility requires more software solutions which use more energy
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<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Paradigms</h2>
<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Paradigms</h2>
The availability of low power electronics has an impact on the level at which the mobile device is experienced as seamless integrated part of your behavior. Every time you need to charge the mobile device reminds you that in fact the mobile device is a piece of electronics which needs special attention.  
The availability of low power electronics has an impact on the level at which the mobile device is experienced as seamless integrated part of your behavior. Every time you need to charge the mobile device reminds you that in fact the mobile device is a piece of electronics which needs special attention.  
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<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Timing</h2>
<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Timing</h2>
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* 1998 asynchronous implementation of MIPS R3000, dubbed MiniMIPS
* 1998 asynchronous implementation of MIPS R3000, dubbed MiniMIPS
* 2000 low voltage processors (e.g. Low Voltage Mobile Intel® Celeron™ Processor (500 MHz))
* 2000 low voltage processors (e.g. Low Voltage Mobile Intel® Celeron™ Processor (500 MHz))
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<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Web Resources</h2>
<h2 style="background-color: #F5F9FA; border-left:1px solid #AAAAAA;border-right:1px solid #AAAAAA; padding-left: 10px;">Web Resources</h2>

Latest revision as of 07:11, 3 May 2008

Description

Increasing the CPU speed, memory bandwidth etc. could increase the consumption of energy use by the mobile device. Power consumption may thus be the limiting factor for the functionality. Power consumption drives the important mobile device characteristics of stand-by time and operational time. It also has impact on the radius of action through the reach of the transmission and the operating/standby time before the battery needs to be recharged.

Enablers

  • low voltage semi-conductors
  • asynchronous circuits
  • dynamic power management (frequency scaling, voltage scaling)
  • higher integration
  • efficient antenna's
  • low power RF protocols



Inhibitors

  • increasing pollution of the radio spectrum
  • increasing clock frequencies for the processor in the mobile device
  • increasing bandwidth required
  • Increasing integration of functionality on a chip
  • increasing complexity of the user interface (screens, colors, ...)
  • increasing flexibility requires more software solutions which use more energy



Paradigms

The availability of low power electronics has an impact on the level at which the mobile device is experienced as seamless integrated part of your behavior. Every time you need to charge the mobile device reminds you that in fact the mobile device is a piece of electronics which needs special attention.

Timing

  • 1997 foundation of E.INK (http://www.eink.com/company/index.html)
  • 1998 asynchronous implementation of MIPS R3000, dubbed MiniMIPS
  • 2000 low voltage processors (e.g. Low Voltage Mobile Intel® Celeron™ Processor (500 MHz))



Web Resources


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