半导体光电, 2017, 38 (2): 293, 网络出版: 2017-05-09  

基于片上系统的时钟复位设计

Clock and Reset Design Based on SOC Chip System
作者单位
重庆光电技术研究所,重庆 400060
摘要
从方法优化和电路设计入手,提出了基于片上系统(SOC)的复位方法和时钟复位电路。设计了片外按键复位电路、片内上电电路、晶振控制电路、片内RC低频时钟电路、槽脉冲产生电路、分频延时电路、时钟切换电路及异步复位同步释放电路等电路模块。以上电路模块构成了片上系统的时钟复位电路,形成了特定的电路时钟复位系统。该时钟复位系统将片外按键复位与片内上电复位结合起来,形成多重复位设计,相比单纯按键复位更智能,相比单纯上电复位则更可靠。另外,该时钟复位系统还采用了片内RC振荡时钟电路等一系列电路,借助片内RC时钟实现对芯片的延时复位,进而在保证复位期间寄存器得到正确初始化的同时,还使得芯片能够始终处在稳定的晶振时钟下正常工作。相比传统的时钟复位电路,该时钟复位系统既便捷,又保证了系统初始化和系统工作的可靠性。
Abstract
Starting from optimization of methodologies and circuit design, a reset method and a clockreset circuit based on systemonchip(SOC) was proposed. The design of modules including offchip button reset circuit, onchip poweron circuit, crystal oscillator control circuit, onchip RC low frequency clock circuit, channel pulse generation circuit, frequency division delay circuit, clock switching circuit and asynchronous reset synchronous release circuit were presented. A specific reset method was established and a clock reset circuit applicable to SOC was formed on the basis of the circuit modules above. The clock reset system combines offchip reset button and onchip poweron reset, forming a multiple reset design, which is more intelligent than using single reset button and of more reliability compared to using poweron reset only. In addition, an onchip RC clock oscillation circuit was used in the clock reset circuit to realize the chip delay reset, therefore not only the correct initialization of registers was guaranteed during the reset period, but also consistent normal working condition of the whole chip under the stable oscillating clock was ensured. Compared with the traditional clock reset circuit, the clock reset system is convenient and guarantees the reliability of system initialization and operation.

任思伟, 唐代飞, 祝晓笑, 刘昌举, 刘戈扬, 翟江皞. 基于片上系统的时钟复位设计[J]. 半导体光电, 2017, 38(2): 293. REN Siwei, TANG Daifei, ZHU Xiaoxiao, LIU Changju, LIU Geyang, ZHAI Jianghao. Clock and Reset Design Based on SOC Chip System[J]. Semiconductor Optoelectronics, 2017, 38(2): 293.

关于本站 Cookie 的使用提示

中国光学期刊网使用基于 cookie 的技术来更好地为您提供各项服务,点击此处了解我们的隐私策略。 如您需继续使用本网站,请您授权我们使用本地 cookie 来保存部分信息。
全站搜索
您最值得信赖的光电行业旗舰网络服务平台!