Process dependence of 0.11μm RF CMOS on high-resistivity substrate for System on Chip (SOC) Application

机译：0.11μm射频CMO在芯片（SOC）应用系统高电阻率衬底上的0.11μmrf cmos的处理依赖性

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High-resistivity substrate with beyond 1000ohm-cm realizes high performance in terms of inductor, antenna, MIM capacitor and substrate noise for high-frequency applications. However, this wafer has serious problems for mixed-signal, RF and digital circuits. Those are reduction of high resistivity during sinter process such as 400°C, larger leakage current between nwells, extreme lower snap-back voltage in latch-up behavior and higher RF noise. The RF noise is proportional to square root of Si substrate resistivity in our experience. In this paper, it is shown that these problems can be resolved by the optimum wafer fabrication process and the additional ion implantation.

机译：高电阻率衬底具有超过1000OHM-CM，实现高频率，天线，MIM电容器和用于高频应用的基板噪声的高性能。然而，这种晶片对混合信号，RF和数字电路具有严重问题。这些在烧结过程中降低了高电阻率，例如400°C，NWELLS之间的漏电流较大，锁存行为中的极端较低的快速电压和更高的RF噪声。 RF噪声在我们经验中与Si衬底电阻率的平方根成比例。在本文中，示出了通过最佳晶片制造工艺和附加离子植入可以解决这些问题。

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来源
《IEEE Radio Frequency Integrated Circuits Symposium》|2008年||共4页
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作者
T. Ohguro; K. Kojima; N. Momo; H. S. Momose; Y. Toyoshima;
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中图分类 TN45-53;
关键词
High-resistivity substrate; Oxygen predicted wafer; Snap-back voltage; High Q inductor; High-gain antenna; mm-Wave application; RF noise;

机译：高电阻率底物;氧气预测晶片;快速电压;高Q电感;高增益天线;MM波应用;RF噪声;

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专利

1. RF CMOS on high-resistivity substrates for system-on-chip applications [J] . Benaissa K., Jau-Yuann Yang, Crenshaw D., IEEE Transactions on Electron Devices . 2003,第3期

机译：高电阻率基板上的RF CMOS，用于片上系统应用
2. A 0.6V 117nW high performance energy efficient system-on-chip (SoC) CMOS temperature sensor in 0.18 mu m CMOS for aerospace applications [J] . Prasad Deepak, Nath Vijay, Vishwanthan Vedam, Microsystem technologies . 2019,第6期

机译：为期0.6V 117NW高性能节能系统（SOC）CMOS温度传感器，适用于航空航天应用的0.18 mu M CMOS
3. Effective Crosstalk Isolation With Post-CMOS Selectively Grown Porous Silicon Technique for Radio Frequency System-on-Chip (SOC) Applications [J] . Li C., Liao H., Wang C., IEEE Electron Device Letters . 2008,第9期

机译：采用CMOS后选择性生长多孔硅技术的有效串扰隔离，用于射频片上系统（SOC）应用
4. Process dependence of 0.11μm RF CMOS on high-resistivity substrate for System on Chip (SOC) Application [C] . T. Ohguro, K. Kojima, N. Momo, IEEE Radio Frequency Integrated Circuits Symposium . 2008

机译：0.11μm射频CMO在芯片（SOC）应用系统高电阻率衬底上的0.11μmrf cmos的处理依赖性
5. Three-dimensional silicon-on-insulator BiCMOS technologies with excellent cross-talk isolation for RF system-on-a-chip (SOC) applications. [D] . Mahender, Kumar. 2001

机译：具有出色串扰隔离功能的三维绝缘体上硅BiCMOS技术，适用于RF片上系统（SOC）应用。
6. Co-Design Method and Wafer-Level Packaging Technique of Thin-Film Flexible Antenna and Silicon CMOS Rectifier Chips for Wireless-Powered Neural Interface Systems [O] . Kenji Okabe, Horagodage Prabhath Jeewan, Shota Yamagiwa, 2015

机译：用于无线供电的神经接口系统的薄膜柔性天线和硅CMOS整流器芯片的协同设计方法和晶圆级封装技术
7. HiBRID-SoC: A Multi-Core System-on-Chip Architecture for Multimedia Signal Processing Applications [O] . Hans-joachim Stolberg, Mladen Berekovic, Lars Friebe, 2008

机译：HiBRID-soC：用于多媒体信号处理应用的多核片上系统架构

Process dependence of 0.11μm RF CMOS on high-resistivity substrate for System on Chip (SOC) Application

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