一个0.032mm2的3.1mW合成像素时钟发生器,具有30psrms集成抖动和10- 630mhz DCO调谐范围

Wooseok Kim, Jaejin Park, Jihyun F. Kim, Taeik Kim, Hojin Park, D. Jeong
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引用次数: 29

摘要

像素时钟发生器广泛应用于数字电视的模拟前端和其他视频应用中。低集成抖动要求良好的显示质量。然而,来自水平同步信号(HSYNC)的极低输入频率使得难以实现良好的抖动性能,因为由于环路带宽有限,无法充分去除来自VCO的噪声。本文采用双环结构来降低基于环形振荡器的压控振荡器的相位噪声。先前的工作[1]提出了一种双环混合锁相环,该锁相环由用于DCO的模拟环路和数字主环路组成。与混合架构[1]不同,我们提出的锁相环由纯数字元件组成,并在28nm CMOS中合成,包括TDC和DCO,使用基于单元的设计方法和自动布局合成。
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A 0.032mm2 3.1mW synthesized pixel clock generator with 30psrms integrated jitter and 10-to-630MHz DCO tuning range
A pixel clock generator is widely utilized in the analog front-ends of digital TVs and also in other video applications. A low integrated jitter is required for good display quality. However, an extremely low input frequency coming from the horizontal synchronization signal (HSYNC) makes it difficult to achieve good jitter performance, because noise from the VCO cannot be sufficiently removed due to the limited loop bandwidth. In this work, a dual-loop architecture is adopted to reduce the phase noise from the VCO based on a ring oscillator. Prior work [1] proposed a dual-loop hybrid PLL composed of an analog loop for the DCO and the digital main loop. Unlike the hybrid architecture [1], our proposed PLL is composed of purely digital components and is synthesized in 28nm CMOS, including the TDC and the DCO, using a cell-based design methodology and automated layout synthesis.
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