Dual-DLL-based CMOS all-digital temperature sensor for microprocessor thermal monitoring

Microprocessors increasingly need on-chip temperature sensors for thermal and power management. Since these sensors do not take part in the main computing activity but rather play the auxiliary, albeit important, role of temperature monitoring, their presence in terms of area, power, and design effo...

Full description

Saved in:
Bibliographic Details
Published in2009 IEEE International Solid-State Circuits Conference - Digest of Technical Papers pp. 68 - 69,69a
Main Authors Kyoungho Woo, Meninger, S., Xanthopoulos, T., Crain, E., Dongwan Ha, Donhee Ham
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.02.2009
Subjects
Calibration
Delay
Energy management
Inverters
Microprocessors
Monitoring
Temperature measurement
Temperature sensors
Thermal management
Online AccessGet full text

Cover

More Information
Summary:Microprocessors increasingly need on-chip temperature sensors for thermal and power management. Since these sensors do not take part in the main computing activity but rather play the auxiliary, albeit important, role of temperature monitoring, their presence in terms of area, power, and design effort should be minimal, thus, all-digital sensors are desired. Temperature sensing based on temperature-dependent delays of inverters could be suited for microprocessor applications, as it lends itself to digital implementation: by using a time-to-digital converter (TDC), an inverter delay can be compared to an absolute delay reference and converted to a digital temperature output. We report on an all-digital CMOS temperature sensor for microprocessor application, which also exploits temperature-dependent inverter delays within the TDC-based framework. It, however, has two improvements over prior art. First, it removes the effect of process variation on inverter delays via calibration at one temperature point (instead of 2-point calibration), thus, reducing high volume production cost. Second, we use two fine-precision DLLs, one to synthesize a set of temperature-independent delay references in a closed loop, the other as a TDC to compare temperature-dependent inverter delays to the references. The use of DLLs simplifies sensor operation and yields a high measurement bandwidth (5 kS/s) at 7b resolution, which could enable fast temperature tracking.
ISBN:9781424434589
1424434580
ISSN:0193-6530
2376-8606
DOI:10.1109/ISSCC.2009.4977311