Energy-Harvesting Stacked Wireless Sensor Node Featuring a Near-Threshold Voltage IA-32 Microcontroller in 14-nm Tri-Gate CMOS for Always-ON Always-Sensing Applications.
Somnath PaulVinayak HonkoteRyan Gary KimTurbo MajumderPaolo A. AseronVaughn GrossnickleRobert SankmanDebendra MallikTao WangSriram R. VangalJames W. TschanzVivek DePublished in: IEEE J. Solid State Circuits (2017)
Keyphrases
- wireless sensor
- energy efficiency
- power consumption
- cmos technology
- low voltage
- nm technology
- low power
- sensor networks
- single chip
- leakage current
- energy consumption
- image sensor
- low cost
- sensor nodes
- power dissipation
- metal oxide semiconductor
- design considerations
- wireless sensor networks
- data center
- silicon on insulator
- control system
- mobile nodes
- parallel processing
- electrical properties
- power system
- real time
- base station
- gate dielectrics
- routing protocol
- high speed
- power supply
- wireless communication
- end to end
- digital libraries