A 5.25-GHz CMOS folded-cascode even-harmonic mixer for low-voltage applications

Huang, Ming‐Feng; Kuo, C.J.; Lee, Shuenn-Yuh

doi:10.1109/tmtt.2005.862665

Cited by 44 publications

References 23 publications

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A linearized and low noise CMOS mixer with B‐type amplifier‐based sub‐harmonic balun

Zhao

Wang

2016

Circuit Theory & Apps

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SUMMARYA low noise and high linearity down-conversion CMOS mixer for 2.4-GHz wireless receiver is presented in this paper. Using a sub-harmonic balun with a simple but effective B-type amplifier, the local oscillator frequency required for this mixer has been reduced by half, and the input local oscillator signal could be singleended rather than differential, which simultaneously simplifies the design of local oscillator. A distortion and noise cancelation transconductor in association with current bleeding technique is employed to improve the noise and linearity of the entire mixer under a reduced bias current without compromising the voltage gain. Fabricated in a 0.18-μm RF CMOS technology of Global Foundries, the mixer demonstrates a voltage gain of 15.8 dB and input-referred third-order intercept point of 6.6 dBm with a noise figure of 2.6 dB. It consumes 7.65 mA from a 1.0-V supply and occupies a compact area of 0.75 × 0.71 mm 2 including all test pads.

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A linearized and low noise CMOS mixer with B‐type amplifier‐based sub‐harmonic balun

Zhao

Wang

2016

Circuit Theory & Apps

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A high‐isolation linear folded mixer for ISM band in UMC 180NM CMOS technology

Bhatt

Mukherjee

Redouté

2016

Micro & Optical Tech Letters

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This paper presents an integrated radio frequency (RF) downconversion folded mixer that operates in the 2.4 GHz industrial, scientific, and medical (ISM) band by using UMC 180 nm RF CMOS. It is implemented by using a double-balanced transconductance switch (GmSw) configuration. The proposed mixer converts the incoming signal to a small signal RF current followed by a PMOS current mirror structure. The circuit can operate with a power supply of less than 1.8 V. A superior isolation is achieved by incorporating a novel folded structure with a CMOS local oscillator (LO) stage. The proposed folded mixer achieves 7 dB of conversion gain and 8.5 dBm of the third order input intermodulation product. The highest measured isolation between the LO-IF, RF-IF, and LO-RF ports is 50, 45, and 65 dB, respectively.ABSTRACT: A novel common mode suppression network (CMSN) for balanced structures is presented. The structure is a symmetrical transmission line loaded with k g /4 stubs, where k g is the guided wave length at the frequencies to be suppressed. The CMSN is a circuit that can be independently designed to improve the common mode (CM) behavior of the attached circuits without degrading their differential mode (DM) performance. As an example, a balanced bandpass filter (BBPF) with an undesired 0dB CM peak is improved in more than 30 dB, whilst the DM bandpass is barely affected.

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Improved Conversion Gain with High SFDR and Highly Linear RF Mixer Using Inductive Gate Biasing Technique for Low Power WAS and Radio LAN Applications

Avvaru

Satyanarayana

2023

Lecture Notes in Electrical Engineering

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A 5.25-GHz CMOS folded-cascode even-harmonic mixer for low-voltage applications

Cited by 44 publications

References 23 publications

A linearized and low noise CMOS mixer with B‐type amplifier‐based sub‐harmonic balun

A linearized and low noise CMOS mixer with B‐type amplifier‐based sub‐harmonic balun

A high‐isolation linear folded mixer for ISM band in UMC 180NM CMOS technology

Improved Conversion Gain with High SFDR and Highly Linear RF Mixer Using Inductive Gate Biasing Technique for Low Power WAS and Radio LAN Applications

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