Titlebook: Ultra-Low-Power Short-Range Radios; Patrick P. Mercier,Anantha P. Chandrakasan Book 2015 Springer International Publishing Switzerland 201

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Introduction to Ultra Low Power Transceiver Design,ts an overview of state-of-the-art narrowband architectures and techniques that achieve ultra-low-power operation, and concludes with a section that benchmarks recent state-of-the-art designs in order to illustrate power-performance trade-offs.

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Ultra-Low Power Wake-Up Radios, an event. In these applications, the radios dominate the amount of energy consumed from the batteries. More specifically, the energy spent synchronizing the radios, or maintaining a connected state, dominates, as opposed to the energy spent communicating data.

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Human Body Communication Transceiver for Energy Efficient BAN,s. In the standard, a Human body communication or HBC is newly added and it is regarded as a new promising solution with its low energy consumption and high reliability. The research history of the HBC from the proof of the concept to the high-end standard compatible system with the network consideration will be introduced in this chapter.

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Book 2015ications are covered, ranging from body-area networks to transcutaneous implant communications and smart-appliance sensor networks. Various design techniques are explained to facilitate each of these applications.

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Commercially Viable Ultra-Low Power Wireless, techniques for proper energy management. The chapter concludes by looking at the upcoming IEEE 802.11ah standard and discuss how this is adapted in an advantageous manner for low power wireless applications.

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Synchronization Clocks for Ultra-Low Power Wireless Networks,vantages and disadvantages. It is important to understand both the expected system duty cycle and temperature variation as well as the required form factor, cost, and power consumption to know which clock source is most appropriate for the application. This chapter discusses these trade-offs along with several design examples.

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Near-Field Wireless Power Transfer,pplications through first-principals step-by-step reflected load analysis. These equations are then used as the basis for the design of a rapid wireless ultra-capacitor charging circuit that speeds up time-to-charge by 3.7×.