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引用次数: 4
摘要
本文介绍了低1/f噪声、改善二阶互调失真和低本振(LO)信号辐射的射频下变频混频器设计的系统方法考虑。预期的应用是直接转换和超低中频(IF)接收机系统。该混频器采用标准3.3 V 0.35 /spl mu/m CMOS工艺,可实现至少+80 dBm的二阶输入截距点(IIP2)。该设计采用25%占空比方波LO控制信号和单到差分输出采样混频器架构,以增强直流失调抑制和提高混频器IIP2性能。本振信号波形优化,以尽量减少不希望的本振信号泄漏和本振自混频。采用时域和频域方法分析了该采样混频器的外部噪声和内部噪声。分析计算结果与实测结果进行了比较。此外,给出了直接转换接收机系统的结构优势、固有问题分析和二阶互调背景。
System approach for low 1/f noise, high IP2 dynamic range CMOS mixer design
This paper presents system approach considerations for an RF Downconversion mixer design with low 1/f noise, improved second-order intermodulation distortion and low local oscillator (LO) signal reradiation. The intended application is for direct-conversion and ultra low intermediate frequency (IF) receiver systems. The mixer, implemented in a standard 3.3 V 0.35 /spl mu/m CMOS process, achieves a second-order input intercept point (IIP2) of at least +80 dBm. The design utilizes a 25% duty cycle square wave LO control signal with single to differential output sampling mixer architecture to enhance DC offset rejection and improve mixer IIP2 performance. Local oscillator signal waveforms are optimized to minimize undesirable LO signal leakage and LO self-mixing. External and intrinsic noises in the proposed sampling mixer are analyzed using time and frequency domain methods. Analytically calculated and measured results are compared. In addition, direct-conversion receiver system architecture advantages, inherent problems analysis and second-order intermodulation background are given.
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