Add to ORKGThis letter presents a 15-21 GHz I/ Q upconverter, based on two Gilbert-cell mixers with an on-chip wideband linearization loop that extends the linear region and allows power efficient operation at backoff power levels. A quadrature LO signal is generated using an integrated two-stage polyphase filter. Measurements show a conversion gain of -5.5 dB, an output 1-dB compression point of 0 dBm, and an image suppression of 40 dB over the 6-GHz output bandwidth. An error vector magnitude of 3.5% is obtained for a 10-Gb/s 64-QAM signal with a bandwidth of 2 GHz. The circuit is integrated in a 55-nm BiCMOS process and occupies 1.07 mm(2) . The dc power consumption is 61 mW
This work presents a technique to reduce the phase errors of quadrature signals. The proposed concep...
[[abstract]]A 60-GHz double-balanced mixer for direct up-conversion using standard 90-nm CMOS techno...
[[abstract]]A 60-GHz double-balanced mixer for direct up-conversion using standard 90-nm CMOS techno...
An 8 - 10 GHz linearised single-sideband Gilbert upconversion mixer is demonstrated in silicon BiCMO...
A novel 31-61 GHz up-conversion transconductance mixer is proposed, designed and manufactured in a 0...
The linearity of active mixers is usually determined by the input transistors, and many works have b...
[[abstract]]A 50-67-GHz double-balanced mixer for direct up-conversion using standard 90-nm CMOS tec...
This work presents a CMOS X-band I/Q upconverter for a FMCW radar system. The use of passive current...
The design and characterization of an up-converting double balanced Gilbert cell mixer in a 0.5 µm I...
An 8-10 GHz X-band upconversion quadrature mixer stage implemented in 250 nm SiGe BiCMOS is presente...
An ultra broadband upconverter MMIC has been designed, realized and measured using a 0.25 µm PHEMT p...
A fundamental up-converter with high linearity is presented, realized as full Gilbert cell (GC) mixe...
[[abstract]]A low-power and high conversion gain (CG) 60 GHz up-conversion mixer using standard 90 n...
Abstract—An 8-10 GHz X-band upconversion quadrature mixer stage implemented in 250 nm SiGe BiCMOS is...
The design and performance of a miniaturized broadband up-converter MMIC is presented. The circuit i...
This work presents a technique to reduce the phase errors of quadrature signals. The proposed concep...
[[abstract]]A 60-GHz double-balanced mixer for direct up-conversion using standard 90-nm CMOS techno...
[[abstract]]A 60-GHz double-balanced mixer for direct up-conversion using standard 90-nm CMOS techno...
An 8 - 10 GHz linearised single-sideband Gilbert upconversion mixer is demonstrated in silicon BiCMO...
A novel 31-61 GHz up-conversion transconductance mixer is proposed, designed and manufactured in a 0...
The linearity of active mixers is usually determined by the input transistors, and many works have b...
[[abstract]]A 50-67-GHz double-balanced mixer for direct up-conversion using standard 90-nm CMOS tec...
This work presents a CMOS X-band I/Q upconverter for a FMCW radar system. The use of passive current...
The design and characterization of an up-converting double balanced Gilbert cell mixer in a 0.5 µm I...
An 8-10 GHz X-band upconversion quadrature mixer stage implemented in 250 nm SiGe BiCMOS is presente...
An ultra broadband upconverter MMIC has been designed, realized and measured using a 0.25 µm PHEMT p...
A fundamental up-converter with high linearity is presented, realized as full Gilbert cell (GC) mixe...
[[abstract]]A low-power and high conversion gain (CG) 60 GHz up-conversion mixer using standard 90 n...
Abstract—An 8-10 GHz X-band upconversion quadrature mixer stage implemented in 250 nm SiGe BiCMOS is...
The design and performance of a miniaturized broadband up-converter MMIC is presented. The circuit i...
This work presents a technique to reduce the phase errors of quadrature signals. The proposed concep...
[[abstract]]A 60-GHz double-balanced mixer for direct up-conversion using standard 90-nm CMOS techno...
[[abstract]]A 60-GHz double-balanced mixer for direct up-conversion using standard 90-nm CMOS techno...