A Programmable Filtering and Frequency Translation by Aliasing IF Receiver With Alias and Harmonic Rejection

Viswesh Kendae Ramkumar; Maikel Huiskamp; Harijot Singh Bindra; Eric Klumperink; Bram Nauta

doi:10.1109/JSSC.2024.3481879

A Programmable Filtering and Frequency Translation by Aliasing IF Receiver With Alias and Harmonic Rejection

Viswesh Kendae Ramkumar, Maikel Huiskamp, Harijot Singh Bindra^*, Eric Klumperink, Bram Nauta

^*Corresponding author for this work

Integrated Circuit Design

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

Abstract

A programmable intermediate frequency (IF) receiver is proposed, employing a sampler, time-varying capacitor, and switched-capacitor integrator. It realizes high-order finite impulse response (FIR) low-pass or bandpass filtering (BPF) and frequency translation with harmonic rejection (HR). The receiver's center frequency and bandwidth (BW) can be independently programmed across the Nyquist zone. The primary focus is on balancing filter stopband rejection with harmonic, image, and alias rejection in a prototype 28 nm CMOS chip design. This work is also the first to address and quantify the adjacent and alternate adjacent channel aliasing in filtering by aliasing filters. The center frequency and BW of the receiver can be programmed to 0-1 GHz and 8-25 MHz, respectively. The receiver achieves a wideband impedance matching S 11 < - 9 dB across the first Nyquist zone. It employs 8-bit filter coefficients to achieve consistent > 50 dB stopband attenuation at 1 × BW offset, HR, image rejection (IR), and 50 dB in-band (IB) alias suppression. The I and Q receivers use only a single fixed 1 GHz clock frequency to achieve all the functionality and consume 73.6 mW.

Original language	English
Journal	IEEE journal of solid-state circuits
DOIs	https://doi.org/10.1109/JSSC.2024.3481879
Publication status	E-pub ahead of print/First online - 29 Oct 2024

Keywords

2025 OA procedure
Bandpass filters
CMOS integrated circuits
Filtering by aliasing
Finite impulse response (FIR) filters
Harmonic rejection (HR)
Intermediate frequency (IF)
Radio transceivers
Sampled data circuits
Sub-sampling
Switched capacitor (SC) circuits
Time-varying capacitors and tunable circuits
Time-varying circuits
Active filters

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10.1109/JSSC.2024.3481879

Cite this

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title = "A Programmable Filtering and Frequency Translation by Aliasing IF Receiver With Alias and Harmonic Rejection",

abstract = "A programmable intermediate frequency (IF) receiver is proposed, employing a sampler, time-varying capacitor, and switched-capacitor integrator. It realizes high-order finite impulse response (FIR) low-pass or bandpass filtering (BPF) and frequency translation with harmonic rejection (HR). The receiver's center frequency and bandwidth (BW) can be independently programmed across the Nyquist zone. The primary focus is on balancing filter stopband rejection with harmonic, image, and alias rejection in a prototype 28 nm CMOS chip design. This work is also the first to address and quantify the adjacent and alternate adjacent channel aliasing in filtering by aliasing filters. The center frequency and BW of the receiver can be programmed to 0-1 GHz and 8-25 MHz, respectively. The receiver achieves a wideband impedance matching S 11 < - 9 dB across the first Nyquist zone. It employs 8-bit filter coefficients to achieve consistent > 50 dB stopband attenuation at 1 × BW offset, HR, image rejection (IR), and 50 dB in-band (IB) alias suppression. The I and Q receivers use only a single fixed 1 GHz clock frequency to achieve all the functionality and consume 73.6 mW.",

keywords = "2025 OA procedure, Bandpass filters, CMOS integrated circuits, Filtering by aliasing, Finite impulse response (FIR) filters, Harmonic rejection (HR), Intermediate frequency (IF), Radio transceivers, Sampled data circuits, Sub-sampling, Switched capacitor (SC) circuits, Time-varying capacitors and tunable circuits, Time-varying circuits, Active filters",

author = "Ramkumar, {Viswesh Kendae} and Maikel Huiskamp and Bindra, {Harijot Singh} and Eric Klumperink and Bram Nauta",

note = "Publisher Copyright: {\textcopyright} 1966-2012 IEEE.",

year = "2024",

month = oct,

day = "29",

doi = "10.1109/JSSC.2024.3481879",

language = "English",

journal = "IEEE journal of solid-state circuits",

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T1 - A Programmable Filtering and Frequency Translation by Aliasing IF Receiver With Alias and Harmonic Rejection

AU - Ramkumar, Viswesh Kendae

AU - Huiskamp, Maikel

AU - Bindra, Harijot Singh

AU - Klumperink, Eric

AU - Nauta, Bram

PY - 2024/10/29

Y1 - 2024/10/29

N2 - A programmable intermediate frequency (IF) receiver is proposed, employing a sampler, time-varying capacitor, and switched-capacitor integrator. It realizes high-order finite impulse response (FIR) low-pass or bandpass filtering (BPF) and frequency translation with harmonic rejection (HR). The receiver's center frequency and bandwidth (BW) can be independently programmed across the Nyquist zone. The primary focus is on balancing filter stopband rejection with harmonic, image, and alias rejection in a prototype 28 nm CMOS chip design. This work is also the first to address and quantify the adjacent and alternate adjacent channel aliasing in filtering by aliasing filters. The center frequency and BW of the receiver can be programmed to 0-1 GHz and 8-25 MHz, respectively. The receiver achieves a wideband impedance matching S 11 < - 9 dB across the first Nyquist zone. It employs 8-bit filter coefficients to achieve consistent > 50 dB stopband attenuation at 1 × BW offset, HR, image rejection (IR), and 50 dB in-band (IB) alias suppression. The I and Q receivers use only a single fixed 1 GHz clock frequency to achieve all the functionality and consume 73.6 mW.

AB - A programmable intermediate frequency (IF) receiver is proposed, employing a sampler, time-varying capacitor, and switched-capacitor integrator. It realizes high-order finite impulse response (FIR) low-pass or bandpass filtering (BPF) and frequency translation with harmonic rejection (HR). The receiver's center frequency and bandwidth (BW) can be independently programmed across the Nyquist zone. The primary focus is on balancing filter stopband rejection with harmonic, image, and alias rejection in a prototype 28 nm CMOS chip design. This work is also the first to address and quantify the adjacent and alternate adjacent channel aliasing in filtering by aliasing filters. The center frequency and BW of the receiver can be programmed to 0-1 GHz and 8-25 MHz, respectively. The receiver achieves a wideband impedance matching S 11 < - 9 dB across the first Nyquist zone. It employs 8-bit filter coefficients to achieve consistent > 50 dB stopband attenuation at 1 × BW offset, HR, image rejection (IR), and 50 dB in-band (IB) alias suppression. The I and Q receivers use only a single fixed 1 GHz clock frequency to achieve all the functionality and consume 73.6 mW.

KW - 2025 OA procedure

KW - Bandpass filters

KW - CMOS integrated circuits

KW - Filtering by aliasing

KW - Finite impulse response (FIR) filters

KW - Harmonic rejection (HR)

KW - Intermediate frequency (IF)

KW - Radio transceivers

KW - Sampled data circuits

KW - Sub-sampling

KW - Switched capacitor (SC) circuits

KW - Time-varying capacitors and tunable circuits

KW - Time-varying circuits

KW - Active filters

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U2 - 10.1109/JSSC.2024.3481879

DO - 10.1109/JSSC.2024.3481879

M3 - Article

AN - SCOPUS:85208277264

SN - 0018-9200

JO - IEEE journal of solid-state circuits

JF - IEEE journal of solid-state circuits

ER -

A Programmable Filtering and Frequency Translation by Aliasing IF Receiver With Alias and Harmonic Rejection

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