抖动
信号(编程语言)
计算机科学
脉搏(音乐)
功率(物理)
控制(管理)
功率控制
控制信号
电子工程
物理
电信
工程类
传输(电信)
探测器
人工智能
程序设计语言
量子力学
标识
DOI:10.1088/1742-6596/3079/1/012022
摘要
Abstract Pulsed power technology plays a crucial role in the frontier fields. Its systems are evolving towards modularization and distribution, and high-precision synchronous triggering is required for the cooperation of multiple modules. Traditional centralized triggering systems can hardly meet the requirement of nanosecond-level global synchronization in complex scenarios. Moreover, the existing low-jitter triggering technologies also have many limitations, which have restricted the development of pulsed power systems towards higher energy levels. This article analyzes the mechanism of jitter generation in a distributed synchronous triggering system and constructs a mathematical model. The experiment conducted a significance test, with a normal distribution of 0.5 and an average distribution of 0.1457. So we verify the model through experimental analysis.
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