Rail-to-Rail Timing Signals Generation Using InGaZnO TFTs For Flexible X-Ray Detector

Bahubalindruni Pydi Ganga; Tiwari Bhawna; Pereira Maria; Santa Ana; Martins Jorge; Rovisco Ana; Tavares Vitor; Martins Rodrigo; Fortunato Elvira; Barquinha Pedro

首页> 外文期刊>Electron Devices Society, IEE >Rail-to-Rail Timing Signals Generation Using InGaZnO TFTs For Flexible X-Ray Detector

【24h】

Rail-to-Rail Timing Signals Generation Using InGaZnO TFTs For Flexible X-Ray Detector

机译：利用InGaZno TFT用于柔性X射线检测器的轨到铁路定时信号

获取原文

获取原文并翻译 | 示例

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

This paper reports on-chip rail-to-rail timing signals generation thin-film circuits for the first time. These circuits, based on a-IGZO thin-film transistors (TFTs) with a simple staggered bottom gate structure, allow row and column selection of a sensor matrix embedded in a flexible radiation sensing system. They include on-chip clock generator (ring oscillator), column selector (shift register) and row-selector (a frequency divider and a shift register). They are realised with rail-to-rail logic gates with level-shifting ability that can perform inversion and NAND logic operations. These logic gates are capable of providing full output swing between supply rails, $V_{DD}$ and $V_{SS}$ , by introducing a single additional switch for each input in bootstrapping logic gates. These circuits were characterised under normal ambient atmosphere and show an improved performance compared to the conventional logic gates with diode connected load and pseudo CMOS counterparts. By using these high-performance logic gates, a complete rail-to-rail frequency divider is presented from measurements using D-Flip Flop. In order to realize a complete compact system, an on-chip ring oscillator (output clock frequency around 1 kHz) and a shift register are also presented from simulations, where these circuits show a power consumption of 1.5 mW and 0.82 mW at a supply voltage of 8 V, respectively. While the circuit concepts described here were designed for an X-ray sensing system, they can be readily expanded to other domains where flexible on-chip timing signal generation is required, such as, smart packaging, biomedical wearable devices and RFIDs.

机译：本文首次报告片上轨道 - 轨对轨正时信号发电薄膜电路。这些电路基于具有简单交错底栅极结构的IGZO薄膜晶体管（TFT），允许嵌入在柔性辐射传感系统中的传感器矩阵的行和列选择。它们包括片上时钟发生器（环形振荡器），列选择器（移位寄存器）和行选择器（分频器和移位寄存器）。它们与轨到铁路逻辑大门实现，具有级别移动能力，可以执行反转和NAND逻辑操作。这些逻辑门能够通过引入用于引导逻辑门中的每个输入的单个附加开关，在电源轨道，$ v_ {dd} $和$ v_ {ss} $之间提供完全输出摆动。与具有二极管连接负载和伪CMOS对应的常规逻辑栅极相比，这些电路的特征在于正常环境气氛并显示出改进的性能。通过使用这些高性能逻辑门，使用D-FLIP FLOP从测量中提出了一个完整的轨到轨分频器。为了实现完整的紧凑型系统，还从模拟中提出了一种片上环形振荡器（输出时钟频率约为1 kHz）和移位寄存器，其中这些电路显示电源电压为1.5 mW和0.82 mW的功耗分别为8 v。虽然这里描述的电路概念被设计用于X射线传感系统，但是它们可以容易地扩展到需要柔性片上定时信号产生的域，例如智能封装，生物医学可穿戴设备和RFID。

著录项

来源
《Electron Devices Society, IEE》 |2020年第2020期|157-162|共6页
作者
Bahubalindruni Pydi Ganga; Tiwari Bhawna; Pereira Maria; Santa Ana; Martins Jorge; Rovisco Ana; Tavares Vitor; Martins Rodrigo; Fortunato Elvira; Barquinha Pedro;
展开▼
作者单位

IISER Bhopal Dept Elect Engn & Comp Sci Bhopal 462066 India;

IIITD Elect & Commun Dept New Delhi 110020 India;

Univ Nova Lisboa FCT Dept Ciencia Mat CENIMAT I3N P-2829516 Caparica Portugal|CEMOP UNINOVA P-2829516 Caparica Portugal;

Univ Nova Lisboa FCT Dept Ciencia Mat CENIMAT I3N P-2829516 Caparica Portugal|CEMOP UNINOVA P-2829516 Caparica Portugal;

Univ Nova Lisboa FCT Dept Ciencia Mat CENIMAT I3N P-2829516 Caparica Portugal|CEMOP UNINOVA P-2829516 Caparica Portugal;

Univ Nova Lisboa FCT Dept Ciencia Mat CENIMAT I3N P-2829516 Caparica Portugal|CEMOP UNINOVA P-2829516 Caparica Portugal;

Univ Porto INESC TEC P-4200465 Porto Portugal|Univ Porto Fac Engn P-4200465 Porto Portugal;

Univ Nova Lisboa FCT Dept Ciencia Mat CENIMAT I3N P-2829516 Caparica Portugal|CEMOP UNINOVA P-2829516 Caparica Portugal;

Univ Nova Lisboa FCT Dept Ciencia Mat CENIMAT I3N P-2829516 Caparica Portugal|CEMOP UNINOVA P-2829516 Caparica Portugal;

Univ Nova Lisboa FCT Dept Ciencia Mat CENIMAT I3N P-2829516 Caparica Portugal|CEMOP UNINOVA P-2829516 Caparica Portugal;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
Rail-to-rail logic gates; IGZO TFT; timing signals; flexible radiation sensing system;

机译：轨到铁路逻辑门;IGZO TFT;定时信号;柔性辐射传感系统;

相似文献

外文文献
中文文献
专利

1. Flexible InGaZnO TFTs With${f}$$_{textsf{max}}$Above 300 MHz [J] . Niko Münzenrieder, Koichi Ishida, Tilo Meister, Electron Device Letters, IEEE . 2018,第9期

机译：具有 $ {f} $ $ _ {textsf {max}} $ 300 MHz以上
2. Influence of Mechanical Bending on Flexible InGaZnO-Based Ferroelectric Memory TFTs [J] . IEEE Transactions on Electron Devices . 2014,第4期

机译：机械弯曲对基于InGaZnO的柔性铁电存储TFT的影响
3. Flexible Top-gate Amorphous InGaZnO TFTs Array for AMOLED Applications [J] . Yung-Hui Yeh, Chun-Cheng Cheng, Chang-Yu Lin, SID International Symposium: Digest of Technology Papers . 2011,第1期

机译：用于AMOLED应用的柔性顶栅非晶InGaZnO TFT阵列
4. Low cost and flexible processor-based controller for timing signal generation in PDP [C] . Jae-Woon Lee, Myung-Jin Park, Young Hwan Kim Consumer Electronics, 2009. ISCE '09 . 2009

机译：低成本，基于处理器的灵活控制器，用于在PDP中生成定时信号
5. Bicycle Detection and Timing Design at Signalized Intersections with Advanced Detectors [D] . ?Williams, Logan T. 2020

机译：自行车检测和时设计在与高级探测器信号交叉口
6. Bias Stress and Temperature Impact on InGaZnO TFTs and Circuits [O] . Jorge Martins, Pydi Bahubalindruni, Ana Rovisco, 2017

机译：偏置应力和温度对InGaZnO TFT和电路的影响
7. Rail-to-Rail Timing Signals Generation Using InGaZnO TFTs For Flexible X-Ray Detector [O] . Pydi Ganga Bahubalindruni, Bhawna Tiwari, Maria Pereira, 2020

机译：利用InGaZno TFT用于柔性X射线检测器的轨到铁路定时信号
8. Development of Near Real Time Performance Measurements for CLosed-Loop Signal Systems (CLS) Using Historical Traffic Data from Existing Loop Detectors and Signal Timing Data. [R] . Kim, S., Hajbabaie, A., Williams, B. M., 2014

机译：利用现有环路检测器和信号定时数据的历史交通数据开发闭环信号系统（CLs）的近实时性能测量。

Rail-to-Rail Timing Signals Generation Using InGaZnO TFTs For Flexible X-Ray Detector

摘要

著录项

相似文献

相关主题

期刊订阅