Jonathan Santiago-Fernandez, Alejandro Diaz-Sanchez, Gregorio Zamora-Mejia, Jose Miguel Rocha-Perez
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引用次数: 0
摘要
这项工作提出了一个时间-数字转换器,使用两个嵌套的约翰逊计数器实现,适用于延时测量应用。该结构由两个4位嵌套计数器、两个数字逻辑控制网络、两个寄存器和一个解码器组成。解码器采用半动态逻辑,降低了解码器的功耗。该系统具有标准数字输出,由1.8 V电源供电,总功耗为32.4 mW。采用台积电180纳米CMOS技术制作了原型机。拟议的结构使用508µm x 225µm的面积。此外,该TDC的标准偏差为0.78 LSB,输入时间间隔固定,工作频率为1mhz。所提出的结构在连续转换条件下表现出良好的性能结果和可重复性,这些结果归功于系统的简单性和使用具有最小门延迟的计数器作为TDC的主要元件。
An 8-bit TDC implemented with two nested Johnson counters
This work presents a Time-to-Digital Converter implemented using two nested Johnson counters and suitable for time-lapse measurement applications. The proposed structure is composed of two 4-bit nested counters, two digital-logic control networks, two registers and a single decoder. Semi-dynamic logic was used for the decoder to reduce its power consumption. The system has a standard digital output and is powered by a 1.8 V supply with a total power consumption of 32.4 mW. A prototype was fabricated using a TSMC 180 nm CMOS technology. The proposed structure uses a 508 µm x 225 µm area. In addition, this TDC has a standard deviation of 0.78 LSB with a fixed input time interval operating at a frequency of 1 MHz. The proposed structure shows good performance results and repeatability for continuous conversion conditions, these results are attributed to the simplicity of the system and the use of counters with minimum gate delay as the main elements for the TDC.
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