该虚拟实验室采用面向对象的虚拟器件建模方法和高效的系统仿真算法,具有良好的交互性、通用性、开放性。
The virtual lab system adopts object-oriented virtual apparatus modeling method and effective algorithm. The system is open, interactive and widely applicable.
传统的用户界面正从有着按钮和菜单的粗糙矩形窗口向成熟的虚拟现实世界的“精美的小器件”演化。
Traditional user interfaces are evolving from crude rectangular Windows with buttons and menus to full-fledged real-world virtual "gadgets."
论文针对可编程器件的仿真问题,对基于虚拟机的编译器技术进行了较深入的研究,提出了具体的设计方案。
The paper studies the compiler technology based on virtual machines for the programmable device simulation problem, puts forward a concrete plan of design.
介绍了一种基于虚拟仪器的电子器件低频噪声测试分析系统。
A noise testing and analyzing system of electronic device, based on the idea of virtual instrumentation, is introduced.
虚拟观测量与高精度器件量测量搭配可实现对姿态的校正。
Combined with the high accuracy measurement, the virtual measurement can realize the measurement update.
提出现代电子实验技术的特点,即基于计算机技术,以可编程器件为核心、电子技术向电力技术渗透、网上实验和虚拟实验室相辅助。
The article put forward the characteristic of the modern electronic experimental technology, which is based on the technology of computer and assisted virtual laboratory with online experiments.
要实现虚拟实验教学,虚拟实验器件的设计与研究是必不可少的。
To achieve a virtual experiment teaching, the design and research of virtual instruments is essential.
本文将虚拟仪器技术与光频转换器件TSL230 B相结合,设计新型浑浊度数字化测试仪。
This paper introduces the design of a new digital testing device for turbidity. It based on the vi technology and TSL230B which can convert light into frequency.
虚拟实验教学软件从真实实验中抽象出各种元器件,组建虚拟场景,实现电子设计自动化(EDA)。
Virtual experimental teaching software simulates physical experiment by abstracting kinds of instrument, building virtual scenes and realizing EDA.
进一步用一种全新的器件微流量泵的工艺设计和虚拟加工过程验证了系统的可扩充性。
Furthermore, the process of design and virtual fabrication of a new MEMS device, micropump, verified the system "s expansibility."
采用虚拟制造技术,分析比较了多种结构,对器件结构进行了优化。
Using virtual wafer fabrication technique, different structures of high voltage LDMOS's are analyzed and compared, and optimized structures are obtained.
所述的光电器件可以是CCD光电器件或CMOS影像传感器,它们被虚拟分块形成不同方向或位置。
The photoelectric device can be a CCD photoelectric device or a CMOS image sensor, which are virtually divided into different directions or positions.
所述的光电器件可以是CCD光电器件或CMOS影像传感器,它们被虚拟分块形成不同方向或位置。
The photoelectric device can be a CCD photoelectric device or a CMOS image sensor, which are virtually divided into different directions or positions.
应用推荐