An Ultra-Low Power 1.7-2.7 GHz Fractional-N Sub-Sampling Digital Frequency Synthesizer and Modulator for IoT Applications in 40 nm CMOS

Liu, Y.; Van Den Heuvel, Johan; Kuramochi, T.; Büsze, Benjamin; Mateman, Paul; Chillara, V. K.; Wang, Bindi; Staszewski, R.B.; Philips, Kathleen

An Ultra-Low Power 1.7-2.7 GHz Fractional-N Sub-Sampling Digital Frequency Synthesizer and Modulator for IoT Applications in 40 nm CMOS

Journal article (2017)

Authors

Y. Liu Holst Centre

Johan Van Den Heuvel Holst Centre

T. Kuramochi Rohm Semiconductor

Benjamin Büsze Holst Centre

Paul Mateman Holst Centre

V. K. Chillara Analog Devices

Bindi Wang Eindhoven University of Technology

R.B. Staszewski Electronics - , University College Dublin

Kathleen Philips Holst Centre

Research Group

Electronics () (TU Delft)

Internet of Things LMS Time-to-digital converter All-digital PLL Fractional-N PLL Digital-to-time converter Low-power transceiver Sub-sampling PLL

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Published Date

2017

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Microelectronics

Research Group

Electronics

Abstract

This paper introduces an ultra-low power 1.7-2.7-GHz fractional-N sub-sampling digital PLL (SS-DPLL) for Internet-of-Things (IoT) applications targeting compliance with Bluetooth Low Energy (BLE) and IEEE802.15.4 standards. A snapshot time-to-digital converter (TDC) acts as a digital sub-sampler featuring an increased out-of-range gain and without any assistance from the traditional counting of DCO edges, thus further reducing power consumption. With a proposed DCO-divider phase rotation in the feedback path, the impact of the digital-to-time converter's (DTC's) non-linearity on the PLL is reduced and improves fractional spurs by at least 8 dB across BLE channels. Moreover, a “variable-preconditioned LMS” calibration algorithm is introduced to dynamically correct the DTC gain error with fractional frequency control word (FCW) down to 1/16384. Fabricated in 40 nm CMOS, the SS-DPLL achieves phase noise performance of -109 dBc/Hz at 1 MHz offset, while consuming a record-low power of 1.19 mW.

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