Digital Circuits to Compensate for Energy Harvester Supply Variation Hao-Yen Tang David Burnett.
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Digital Circuits to Compensate for Energy Harvester Supply Variation Hao-Yen Tang David Burnett
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Transcript of Digital Circuits to Compensate for Energy Harvester Supply Variation Hao-Yen Tang David Burnett.
Digital Circuits to Compensate for Energy Harvester Supply Variation
Hao-Yen TangDavid Burnett
Energy-harvesting system
• Battery• Solar cell• TEG(Thermoelectric)• RF coupling• Problem:
voltage ripple
Voltage ripple
EnergyHarvester
On-chip Storage capVLSI block
Energy harvester-powered integrated system
~1nF
Y. Ramadass and A. Chandrakasan, “A battery-less thermoelectric energy harvesting interface circuit with 35 mv startup voltage,” Solid-State Circuits, IEEE Journal of, vol. 46, no. 1, pp. 333–341, Jan.
precharged
Possible solution
• Work with minimum voltage• Supply regulation (with LDO)• Modified basic cells (Razor)• Dynamic clock period adjusting
Proposed solution
Using a Delay-Lock Loop(DLL) to lock the clock period to critical path delay
HW2 decoder circuit(4x cascaded)
Clock Generator (Voltage-Control Oscillator)
Clock Generator (Voltage-Control Oscillator)
• No crystal• Ring oscillator• Supply
Sensitivity
Clock Generator (Voltage-Control Oscillator)
Critical Path duplica
• Extra delay result from simultaneous incoming signal
• Need to be reset every cycle
• 1 clock cycle measure1 clock cycle reset
Clock Generator (Voltage-Control Oscillator)
PFD and loop filter
• Traditional PFD• Charge pump with
constant gm bias• Second order loop
filter for stability
Simulation result
Supply Voltage
VCO control signal
Extra power overhead: 40.2uW (12.7% of the reference VLSI block)
Comparison table
Technique This work Supply
regulation[2]
Modified Basic
Cell[3]
Dynamic VDD
adjusting[7]
Topology Dynamically adjust clock
period
Fix the supply voltage with LDO
Modify basic cells to detect errors
Dynamically adjust clock period by adjusting analog supply voltage
Hardware overhead
1 extra DLL1 critical path
duplica
1 LDO Peripheral circuits in each cell
(proportional to VLSI block size)
1 LDO
Main issue Response time Large percentage of power wasted in
LDO
Need to modify original VLSI block, hardware overhead
proportional to VLSI block size
Extra power line, power loss in LDO,
need crystal to provide a reference
clock
Acknowledgement
• Prof. Bora <3• EE241 classmates• Dear teammate
