A High-Efficiency Frequency Multiplier with Triangular-Resistance Phase Interpolation

Yuyang Ding; Chen Wang; Xukun Wang; Chunli Huang; Bo Zhou

doi:10.3390/electronics14081549

A High-Efficiency Frequency Multiplier with Triangular-Resistance Phase Interpolation

Yuyang Ding, Chen Wang, Xukun Wang, Chunli Huang, Bo Zhou^*

^*Corresponding author for this work

School of Integrated Circuits and Electronics, Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

A high-efficiency frequency multiplier is presented in 65-nm CMOS with a core area of 0.06 mm². A low-cost five-segment triangular-resistance phase interpolation scheme is proposed. By performing resistive interpolation on four-path orthogonal triangular signals, 10-fold frequency multiplication is achieved within the input frequency range of 12–20 MHz. The prototype only includes a quadrature square-wave generator, four orthogonal square-triangular converters and the proposed four-path 5-segment triangular-resistance phase interpolators, with a frequency deviation less than 7%. The presented design achieves an output power of −9.8 dBm, with an input power of −2.0 dBm and power consumption of 0.45 mW from a 1.2-V supply, which obtains a frequency multiplication efficiency up to 9.6%. The proposed mechanism could be extended to accomplish a configurable multiplication factor.

Original language	English
Article number	1549
Journal	Electronics (Switzerland)
Volume	14
Issue number	8
DOIs	http://doi.org/10.3390/electronics14081549
Publication status	Published - Apr 2025
Externally published	Yes

Keywords

configurability
frequency multiplier
high efficiency
triangular-resistance phase interpolation

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10.3390/electronics14081549

Cite this

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title = "A High-Efficiency Frequency Multiplier with Triangular-Resistance Phase Interpolation",

abstract = "A high-efficiency frequency multiplier is presented in 65-nm CMOS with a core area of 0.06 mm2. A low-cost five-segment triangular-resistance phase interpolation scheme is proposed. By performing resistive interpolation on four-path orthogonal triangular signals, 10-fold frequency multiplication is achieved within the input frequency range of 12–20 MHz. The prototype only includes a quadrature square-wave generator, four orthogonal square-triangular converters and the proposed four-path 5-segment triangular-resistance phase interpolators, with a frequency deviation less than 7\%. The presented design achieves an output power of −9.8 dBm, with an input power of −2.0 dBm and power consumption of 0.45 mW from a 1.2-V supply, which obtains a frequency multiplication efficiency up to 9.6\%. The proposed mechanism could be extended to accomplish a configurable multiplication factor.",

keywords = "configurability, frequency multiplier, high efficiency, triangular-resistance phase interpolation",

author = "Yuyang Ding and Chen Wang and Xukun Wang and Chunli Huang and Bo Zhou",

note = "Publisher Copyright: {\textcopyright} 2025 by the authors.",

year = "2025",

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doi = "10.3390/electronics14081549",

language = "English",

volume = "14",

journal = "Electronics (Switzerland)",

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T1 - A High-Efficiency Frequency Multiplier with Triangular-Resistance Phase Interpolation

AU - Ding, Yuyang

AU - Wang, Chen

AU - Wang, Xukun

AU - Huang, Chunli

AU - Zhou, Bo

PY - 2025/4

Y1 - 2025/4

N2 - A high-efficiency frequency multiplier is presented in 65-nm CMOS with a core area of 0.06 mm2. A low-cost five-segment triangular-resistance phase interpolation scheme is proposed. By performing resistive interpolation on four-path orthogonal triangular signals, 10-fold frequency multiplication is achieved within the input frequency range of 12–20 MHz. The prototype only includes a quadrature square-wave generator, four orthogonal square-triangular converters and the proposed four-path 5-segment triangular-resistance phase interpolators, with a frequency deviation less than 7%. The presented design achieves an output power of −9.8 dBm, with an input power of −2.0 dBm and power consumption of 0.45 mW from a 1.2-V supply, which obtains a frequency multiplication efficiency up to 9.6%. The proposed mechanism could be extended to accomplish a configurable multiplication factor.

AB - A high-efficiency frequency multiplier is presented in 65-nm CMOS with a core area of 0.06 mm2. A low-cost five-segment triangular-resistance phase interpolation scheme is proposed. By performing resistive interpolation on four-path orthogonal triangular signals, 10-fold frequency multiplication is achieved within the input frequency range of 12–20 MHz. The prototype only includes a quadrature square-wave generator, four orthogonal square-triangular converters and the proposed four-path 5-segment triangular-resistance phase interpolators, with a frequency deviation less than 7%. The presented design achieves an output power of −9.8 dBm, with an input power of −2.0 dBm and power consumption of 0.45 mW from a 1.2-V supply, which obtains a frequency multiplication efficiency up to 9.6%. The proposed mechanism could be extended to accomplish a configurable multiplication factor.

KW - configurability

KW - frequency multiplier

KW - high efficiency

KW - triangular-resistance phase interpolation

UR - http://www.scopus.com/pages/publications/105003542091

U2 - 10.3390/electronics14081549

DO - 10.3390/electronics14081549

M3 - Article

AN - SCOPUS:105003542091

SN - 2079-9292

VL - 14

JO - Electronics (Switzerland)

JF - Electronics (Switzerland)

IS - 8

M1 - 1549

ER -

A High-Efficiency Frequency Multiplier with Triangular-Resistance Phase Interpolation

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Keywords

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