Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters

Tze Hin Cheung; Agnimesh Ghosh; Andrei Spelman; Dhanashree Boopathy; Vishnu Unnikrishnan; Lauri Anttila; Mikko Valkama; Marko Kosunen; Kari Stadius; Jussi Ryynanen

doi:10.1109/NewCAS58973.2024.10666306

Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters

Tze Hin Cheung^*, Agnimesh Ghosh^*, Andrei Spelman^*, Dhanashree Boopathy^*, Vishnu Unnikrishnan^*, Lauri Anttila, Mikko Valkama, Marko Kosunen^*, Kari Stadius^*, Jussi Ryynanen^*

^*Corresponding author for this work

Tampere University

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

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Abstract

Radio transmitters for 5G and beyond communication employ high signal bandwidths and carrier frequencies, setting stringent requirements on the design of transceiver circuits in terms of timing and complexity. Phase modulators act as information encoders as well as delay lines for accurate timing compensation circuits. In this paper we present a configurable variable time-step 2.5-15 GHz 7-bit phase modulator with non-linearity pre-distortion and calibration capabilities. The proposed design exhibits highly linear operation and uses mixed-mode design approach with analog phase modulator and digital binary-to-unary unit for calibration and predistortion. The proposed design is implemented in 22-nm CMOS and occupies 0.68 mm² die area. Simulations across process-voltage-temperature variations indicate consistent dynamic non-linearity (DNL) performance. The design reaches a worst-case DNL performance of 0.43 LSB (least-significant-bit) at 15 GHz operating frequency.

Original language	English
Title of host publication	2024 22nd IEEE Interregional NEWCAS Conference, NEWCAS 2024
Publisher	IEEE
Pages	288-292
Number of pages	5
ISBN (Electronic)	979-8-3503-6175-9
DOIs	https://doi.org/10.1109/NewCAS58973.2024.10666306
Publication status	Published - 2024
MoE publication type	A4 Conference publication
Event	IEEE International New Circuits and Systems Conference - Sherbrooke, Canada Duration: 16 Jun 2024 → 19 Jun 2024 Conference number: 22

Publication series

Name	IEEE International New Circuits and Systems Conference
ISSN (Electronic)	2474-9672

Conference

Conference	IEEE International New Circuits and Systems Conference
Abbreviated title	NEWCAS
Country/Territory	Canada
City	Sherbrooke
Period	16/06/2024 → 19/06/2024

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10.1109/NewCAS58973.2024.10666306

For_open_access_Wide_Range_Configurable_2_5_15_GHz_7_bit_Phase_Modulator_with_Non_Linearity_Pre_Distortion_for_Outphasing_TransmittersAccepted author manuscript, 1.47 MB

Cite this

Cheung, T. H., Ghosh, A., Spelman, A., Boopathy, D., Unnikrishnan, V., Anttila, L., Valkama, M., Kosunen, M., Stadius, K., & Ryynanen, J. (2024). Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters. In 2024 22nd IEEE Interregional NEWCAS Conference, NEWCAS 2024 (pp. 288-292). (IEEE International New Circuits and Systems Conference). IEEE. https://doi.org/10.1109/NewCAS58973.2024.10666306

@inproceedings{3fc962c718e4498492bfa756fa20326b,

title = "Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters",

abstract = "Radio transmitters for 5G and beyond communication employ high signal bandwidths and carrier frequencies, setting stringent requirements on the design of transceiver circuits in terms of timing and complexity. Phase modulators act as information encoders as well as delay lines for accurate timing compensation circuits. In this paper we present a configurable variable time-step 2.5-15 GHz 7-bit phase modulator with non-linearity pre-distortion and calibration capabilities. The proposed design exhibits highly linear operation and uses mixed-mode design approach with analog phase modulator and digital binary-to-unary unit for calibration and predistortion. The proposed design is implemented in 22-nm CMOS and occupies 0.68 mm2 die area. Simulations across process-voltage-temperature variations indicate consistent dynamic non-linearity (DNL) performance. The design reaches a worst-case DNL performance of 0.43 LSB (least-significant-bit) at 15 GHz operating frequency.",

author = "Cheung, {Tze Hin} and Agnimesh Ghosh and Andrei Spelman and Dhanashree Boopathy and Vishnu Unnikrishnan and Lauri Anttila and Mikko Valkama and Marko Kosunen and Kari Stadius and Jussi Ryynanen",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE. | openaire: EC/H2020/860921/EU//SMArT; IEEE International New Circuits and Systems Conference, NEWCAS ; Conference date: 16-06-2024 Through 19-06-2024",

year = "2024",

doi = "10.1109/NewCAS58973.2024.10666306",

language = "English",

series = "IEEE International New Circuits and Systems Conference",

publisher = "IEEE",

pages = "288--292",

booktitle = "2024 22nd IEEE Interregional NEWCAS Conference, NEWCAS 2024",

address = "United States",

}

Cheung, TH , Ghosh, A, Spelman, A, Boopathy, D, Unnikrishnan, V, Anttila, L, Valkama, M, Kosunen, M , Stadius, K & Ryynanen, J 2024, Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters. in 2024 22nd IEEE Interregional NEWCAS Conference, NEWCAS 2024. IEEE International New Circuits and Systems Conference, IEEE, pp. 288-292, IEEE International New Circuits and Systems Conference, Sherbrooke, Canada, 16/06/2024. https://doi.org/10.1109/NewCAS58973.2024.10666306

Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters. / Cheung, Tze Hin ; Ghosh, Agnimesh; Spelman, Andrei et al.
2024 22nd IEEE Interregional NEWCAS Conference, NEWCAS 2024. IEEE, 2024. p. 288-292 (IEEE International New Circuits and Systems Conference).

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

TY - GEN

T1 - Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters

AU - Cheung, Tze Hin

AU - Ghosh, Agnimesh

AU - Spelman, Andrei

AU - Boopathy, Dhanashree

AU - Unnikrishnan, Vishnu

AU - Anttila, Lauri

AU - Valkama, Mikko

AU - Kosunen, Marko

AU - Stadius, Kari

AU - Ryynanen, Jussi

N1 - Conference code: 22

PY - 2024

Y1 - 2024

N2 - Radio transmitters for 5G and beyond communication employ high signal bandwidths and carrier frequencies, setting stringent requirements on the design of transceiver circuits in terms of timing and complexity. Phase modulators act as information encoders as well as delay lines for accurate timing compensation circuits. In this paper we present a configurable variable time-step 2.5-15 GHz 7-bit phase modulator with non-linearity pre-distortion and calibration capabilities. The proposed design exhibits highly linear operation and uses mixed-mode design approach with analog phase modulator and digital binary-to-unary unit for calibration and predistortion. The proposed design is implemented in 22-nm CMOS and occupies 0.68 mm2 die area. Simulations across process-voltage-temperature variations indicate consistent dynamic non-linearity (DNL) performance. The design reaches a worst-case DNL performance of 0.43 LSB (least-significant-bit) at 15 GHz operating frequency.

AB - Radio transmitters for 5G and beyond communication employ high signal bandwidths and carrier frequencies, setting stringent requirements on the design of transceiver circuits in terms of timing and complexity. Phase modulators act as information encoders as well as delay lines for accurate timing compensation circuits. In this paper we present a configurable variable time-step 2.5-15 GHz 7-bit phase modulator with non-linearity pre-distortion and calibration capabilities. The proposed design exhibits highly linear operation and uses mixed-mode design approach with analog phase modulator and digital binary-to-unary unit for calibration and predistortion. The proposed design is implemented in 22-nm CMOS and occupies 0.68 mm2 die area. Simulations across process-voltage-temperature variations indicate consistent dynamic non-linearity (DNL) performance. The design reaches a worst-case DNL performance of 0.43 LSB (least-significant-bit) at 15 GHz operating frequency.

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T3 - IEEE International New Circuits and Systems Conference

SP - 288

EP - 292

BT - 2024 22nd IEEE Interregional NEWCAS Conference, NEWCAS 2024

PB - IEEE

T2 - IEEE International New Circuits and Systems Conference

Y2 - 16 June 2024 through 19 June 2024

ER -

Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters

Abstract

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SMArT: Switch-Mode Analog Signal Processing for Integrated 5G Transceivers

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Variable Time-Step 2.5-15 GHz Phase Modulator with Pre-Distortion for Outphasing Transmitters

Abstract

Publication series

Conference

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SMArT: Switch-Mode Analog Signal Processing for Integrated 5G Transceivers

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Aalto Electronics-ICT

Cite this