A temperature-to-digital converter for a MEMS-based programmable oscillator with better than ±0.5ppm frequency stability

A temperature-to-digital converter for a MEMS-based programmable oscillator with better than ±0.5ppm frequency stability

MEMS-based programmable oscillators have emerged as a promising alternative to crystal-based frequency references, with previously reported work demonstrating sub-ps integrated jitter [1]. Here we show frequency stability better than ±0.5ppm from -40 to 85°C, along with Allan Deviation (i.e., long t...

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Hauptverfasser: Perrott, M., Salvia, J., Lee, F., Partridge, A., Mukherjee, S., Arft, C., Jin-Tae Kim, Arumugam, N., Gupta, P., Tabatabaei, S., Pamarti, S., Haechang Lee, Assaderaghi, F.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Micromechanical devices
Noise
Oscillators
Resonant frequency
Temperature measurement
Thermal stability
Thermistors
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Zusammenfassung:MEMS-based programmable oscillators have emerged as a promising alternative to crystal-based frequency references, with previously reported work demonstrating sub-ps integrated jitter [1]. Here we show frequency stability better than ±0.5ppm from -40 to 85°C, along with Allan Deviation (i.e., long term jitter) better than 0.005 ppm for 0.1, 1, and 10 second strides. Since the MEMS resonator has a well-defined temperature dependence, the key to this performance is a stable and low-noise temperature-to-digital converter (TDC) that utilizes a thermistor on the same die as the MEMS resonator.
ISSN:0193-6530
2376-8606
DOI:10.1109/ISSCC.2012.6176977