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A 0.3-to-1.2GHz tunable 4th-order switched gm-C bandpass filter with #x003E;55dB ultimate rejection and out-of-band IIP3 of #x002B;29dBm

机译：一个0.3到1.2GHz可调4 th -Order交换机GM-C带通滤波器与＆＃x003e; 55dB终极拒绝和带外IIP3＆＃x002b; 29dbm

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The trend towards reconfigurable receivers requires on-chip flexible filters that can replace dedicated, bulky and non-tunable filters (e.g., SAW and BAW [1]). Although BAW filters are compatible with silicon processes, their center frequency is sensitive to thickness variation of the piezoelectric material and the achievable tuneability is limited [1]. Other techniques to make RF on-chip band-pass filters (BPFs) include Q-enhancement, g_m-C and N-path. Q-enhancement approach has several disadvantages such as large area due to inductors which do not obey process scaling, limited tuneability and poor dynamic range [2]. Main drawbacks of g_m-C filters are the tradeoff between power consumption, quality factor, center frequency and dynamic range and the need for tuning circuitry [3]. Recently there has been renewed interest in the translational impedance conversion of N-path filters [4-6]. Due to the “transparency” of the passive mixer, baseband impedance is translated to frequencies around the clock frequency f_lo [7]. The interesting features of these filters are their direct tuneability with f_lo, higher quality factor compared to on-chip CMOS LC filters [2], high linearity and graceful scaling with process.

机译：可重新配置接收器的趋势需要片上柔性过滤器，可以替换专用，笨重和无调谐过滤器（例如，锯和BAW [1]）。尽管凸屈滤波器与硅工艺兼容，但它们的中心频率对压电材料的厚度变化敏感，并且可实现的可折合率是有限的[1]。其他制造RF片上带通滤波器（BPF）的技术包括Q-Enhancement，G _{M -c和n路径。 Q-Enhancement方法具有若干缺点，例如由于不服从过程缩放，有限的功能和动态范围差的电感器而导致的大面积[2]。 G _{M -C滤波器的主要缺点是功耗，质量因数，中心频率和动态范围之间的权衡以及调谐电路的需要[3]。最近，对N路滤波器的平移阻抗转换进行了重新兴趣[4-6]。由于＆＃x201c;透明度＆＃x201d;在无源混合器中，基带阻抗被转换为时钟频率f _{lo [7]的频率。这些过滤器的有趣功能是它们的直接功能，与F _{LO ，与片上CMOS LC滤波器相比的更高质量因子[2]，高线性和与过程的优雅缩放。}}}}

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《IEEE International Solid-State Circuits Conference 》|2012年||共3页
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Darvishi M.; Van der Zee R.; Klumperink E.; Nauta B.;
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1. Compact Tunable Bandpass Filter With a Fixed Out-of-Band Rejection Based on Hilbert Fractals [J] . Peng H.-L., Wu L.-S., Yin W.-Y., Components, Packaging and Manufacturing Technology, IEEE Transactions on . 2013 ,第3期

机译：基于希尔伯特分形的具有固定带外抑制功能的紧凑型可调谐带通滤波器
2. Quintuple-mode wideband bandpass filters with improved out-of-band rejection [J] . International Journal of Microwave and Wireless Technologies . 2020 ,第4期

机译：具有改善的带外抑制性能的五重模式宽带带通滤波器
3. 3D printed bandpass filters using compact high-Q hemispherical resonators with improved out-of-band rejection [J] . Jin Li, Cheng Guo, Lijian Mao, Electronics Letters . 2017 ,第6期

机译：使用紧凑的高Q半球形谐振器的3D打印带通滤波器，具有改善的带外抑制
4. A 0.3-to-1.2GHz tunable 4th-order switched gm-C bandpass filter with #x003E;55dB ultimate rejection and out-of-band IIP3 of #x002B;29dBm [C] . Darvishi M., Van der Zee R., Klumperink E., IEEE International Solid-State Circuits Conference . 2012

机译：一个0.3到1.2GHz可调4 th -Order交换机GM-C带通滤波器与＆＃x003e; 55dB终极拒绝和带外IIP3＆＃x002b; 29dbm
5. A 0.3-to-1.2GHz tunable 4th-order switched gm-C bandpass filter with #x003E;55dB ultimate rejection and out-of-band IIP3 of #x002B;29dBm [O] . Milad Darvishi, Ronan Van der Zee, Eric Klumperink, 2012

机译：0.3至1.2GHz可调4 ^{TH -Order交换G M -C带通滤波器> 55dB最终抑制和带外IIP3的+ 29dBm}

A 0.3-to-1.2GHz tunable 4th-order switched gm-C bandpass filter with #x003E;55dB ultimate rejection and out-of-band IIP3 of #x002B;29dBm

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