A Supply Voltage Control Method for Performance Guaranteed Ultra-Low-Power Microcontroller

A Supply Voltage Control Method for Performance Guaranteed Ultra-Low-Power Microcontroller

This article presents the control circuit of a power converter that regulates the computing speed of a digital circuit. The proposed circuit implements a digital delay regulation of a digital delay line (DDL) matched with the ring oscillator (RO) that clocks the digital subsystem. The converter regu...

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Veröffentlicht in:IEEE journal of solid-state circuits 2021-02, Vol.56 (2), p.601-611
Hauptverfasser: Labbe, Benoit, Fan, Philex, Achuthan, Thanusree, Prabhat, Pranay, Knight, Graham Peter, Myers, James
Format: Artikel
Sprache:eng
Schlagworte:
Central Processing Unit
Central processing units
Clocks
CMOS
CMOS design
Control methods
CPUs
Delay lines
Delays
Digital electronics
dynamic voltage and frequency scaling (DVFS)
Electric potential
Engineering
Engineering, Electrical & Electronic
Frequency control
Frequency modulation
microcontroller
Microcontrollers
micropower systems
Power converters
Prototypes
Science & Technology
SMPS
Subsystems
Technology
Time-frequency analysis
Voltage
Voltage control
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Beschreibung
Zusammenfassung:This article presents the control circuit of a power converter that regulates the computing speed of a digital circuit. The proposed circuit implements a digital delay regulation of a digital delay line (DDL) matched with the ring oscillator (RO) that clocks the digital subsystem. The converter regulates the supply voltage of the digital subsystem so that the propagation delay through the DDL matches a time reference. Consequently, the frequency of the RO tracks the DDL delay and the frequency keeps a controlled value over process, voltage, and temperature (PVT). A 65-nm CMOS prototype validates the proposed method. The prototype includes an Arm Cortex-M33 CPU and memories optimized for sub-threshold operation. With the proposed method, the computing performance of the CPU is guaranteed for running real-time application while minimizing the supply voltage margins.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2020.3023001