Frequency Limitations of First-Order $g_{m} - RC$ All-Pass Delay Circuits

Garakoui; S.K.; Klumperink; E.A.M.; Nauta; B.; vanVliet; F.E.

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Frequency Limitations of First-Order $g_{m} - RC$ All-Pass Delay Circuits

机译：一阶$ g_ {m}-RC $全通延迟电路的频率限制

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All-pass filter circuits can implement a time delay but, in practice, show delay and gain variations versus frequency, limiting their useful frequency range. This brief derives analytical equations to estimate this frequency range, given a certain maximum allowable budget for variation in delay and gain. We analyze and compare two well-known $g_{m} - RC$ first-order all-pass circuits, which can be compactly realized in CMOS technology and relate their delay variation to the main pole frequency. Modeling parasitic poles and putting a constraint on gain variation, equations for the maximum achievable pole frequency and delay variation versus frequency are derived. These equations are compared with simulation and used to design and compare delay cells satisfying given design goals.

机译：全通滤波器电路可以实现时间延迟，但实际上，它会显示延迟和增益随频率的变化，从而限制了它们的有用频率范围。给出了一定的延迟和增益变化的最大允许预算后，本简介得出了可估算该频率范围的分析方程式。我们分析并比较了两个著名的 $ g_ {m}-RC $ 一阶全通电路，它们可以可以在CMOS技术中紧凑地实现，并将其延迟变化与主极频率相关联。通过对寄生极点建模并限制增益变化，可以得出最大可达到极点频率和延迟随频率变化的方程式。这些方程与仿真进行比较，并用于设计和比较满足给定设计目标的延迟单元。

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来源
《Circuits and Systems II: Express Briefs, IEEE Transactions on》 |2013年第9期|572-576|共5页
作者
Garakoui; S.K.; Klumperink; E.A.M.; Nauta; B.; vanVliet; F.E.;
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Integrated Circuit Design group, University of Twente, Enschede, The Netherlands|c|;

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正文语种 eng
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关键词
All-pass filter; bandwidth; delay; filter optimization; frequency range; phase shift; phase shifter; true time delay;

机译：全通滤波器;带宽;延迟;滤波器优化;频率范围;相移;移相器;真时延;

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Frequency Limitations of First-Order $g_{m} - RC$ All-Pass Delay Circuits

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