TY - JOUR
T1 - Ka-band calibration-free high image-rejection up/down mixers with 117% fractional IF bandwidth for SATCOM applications
AU - Wu, Ming Hang
AU - Tsai, Jeng Han
AU - Huang, Tian Wei
N1 - Publisher Copyright:
© 2020 Institute of Electrical and Electronics Engineers Inc.. All rights reserved.
PY - 2020
Y1 - 2020
N2 - This paper presents two Ka-band calibration-free up/down mixers, each with high image rejection ratio (IRR) for a wide band of IF frequencies covering the satellite modem frequency range (0.95-2.15 GHz). To achieve broadband IRR > 30 dBc, a 3-stage castle-wall polyphase filter (PPF) is used at the IF port to minimize the amplitude and phase errors (AM < ±0.2 dB, PM < ±1◦). For local oscillator (LO) quadrature generation, a four-way quadrature divider composed of two broadside 90◦ couplers and one Marchand balun is used. The single-sideband (SSB) up mixer shows a 4.2-dB conversion gain (CG) with LO power of 4 dBm and an output 1-dB gain compression (OP1dB) of −4.3 dBm. The image-rejection (IR) down mixer achieves a −11.6-dB CG under LO power of 5.5 dBm and an input 1-dB gain compression (IP1dB) of 0 dBm. With a 1.2-V supply voltage, the SSB up mixer and IR down mixer consume 15.6 mW and 12 mW, respectively. The SSB up mixer and IR down mixer demonstrate broad IRR bandwidths at the IF frequencies (IRR > 30 dBc) from 0.6 to 4 GHz (148% fractional IF bandwidth) and from 0.65 to 2.5 GHz (117%), respectively, with no calibration. In addition, the RF bandwidths (IRR > 30 dBc) of the SSB up mixer is 27.7-33.3 GHz (18.36% fractional RF bandwidth), and the IR down mixer is 17.1-20.6 GHz (18.5%). The IRR performances are robust against process, voltage, and temperature (PVT) variations and Monte Carlo simulations for satellite communication (SATCOM) applications.
AB - This paper presents two Ka-band calibration-free up/down mixers, each with high image rejection ratio (IRR) for a wide band of IF frequencies covering the satellite modem frequency range (0.95-2.15 GHz). To achieve broadband IRR > 30 dBc, a 3-stage castle-wall polyphase filter (PPF) is used at the IF port to minimize the amplitude and phase errors (AM < ±0.2 dB, PM < ±1◦). For local oscillator (LO) quadrature generation, a four-way quadrature divider composed of two broadside 90◦ couplers and one Marchand balun is used. The single-sideband (SSB) up mixer shows a 4.2-dB conversion gain (CG) with LO power of 4 dBm and an output 1-dB gain compression (OP1dB) of −4.3 dBm. The image-rejection (IR) down mixer achieves a −11.6-dB CG under LO power of 5.5 dBm and an input 1-dB gain compression (IP1dB) of 0 dBm. With a 1.2-V supply voltage, the SSB up mixer and IR down mixer consume 15.6 mW and 12 mW, respectively. The SSB up mixer and IR down mixer demonstrate broad IRR bandwidths at the IF frequencies (IRR > 30 dBc) from 0.6 to 4 GHz (148% fractional IF bandwidth) and from 0.65 to 2.5 GHz (117%), respectively, with no calibration. In addition, the RF bandwidths (IRR > 30 dBc) of the SSB up mixer is 27.7-33.3 GHz (18.36% fractional RF bandwidth), and the IR down mixer is 17.1-20.6 GHz (18.5%). The IRR performances are robust against process, voltage, and temperature (PVT) variations and Monte Carlo simulations for satellite communication (SATCOM) applications.
KW - CMOS
KW - Image-rejection mixer
KW - Polyphase filter (PPF)
KW - Single-sideband mixer
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U2 - 10.1109/ACCESS.2020.3028238
DO - 10.1109/ACCESS.2020.3028238
M3 - Article
AN - SCOPUS:85102735892
SN - 2169-3536
VL - 8
SP - 182133
EP - 182145
JO - IEEE Access
JF - IEEE Access
ER -