模拟x

使用仿真软件设计和分析您的多物理系统

技术系统,如机器和制造厂,往往非常复杂。它们包括多种组件和子系统,通常基于不同的技术领域,越来越多地配合传感器和控制。它们的动态互动对安全性,性能和舒适性产生了重大影响。

使用SimulationX,您可以拥有一个用于建模,模拟和分析技术系统的平台,包括机械师,液压,气动,电子设备和控制,以及热,磁性和其他物理行为。具有面向应用程序的模型元素的全面组件库可确保您的任务提供正确的工具。

模拟x的好处

  • 通过使用模型快速测试各种设计变化的影响,缩短开发时间
  • 使用虚拟原型节省成本而不是建立物理原型
  • 在构建系统之前,使用虚拟工厂开发和测试控制软件和硬件(SIL,MIL,HIL)
  • 当成本变化时,开展广泛的模拟实验,以识别潜在的设计问题
  • Create a digital twin of the system that can run in parallel to the real system to monitor system condition and identify faults

We had to be sure it would work before we built a prototype. The results of the simulations gave us the confidence we needed to proceed with the commissioning. It was fascinating to follow the correlation between the previously simulated behavior and the measurements!”

Dr. Mihai Vulcan
Strategic Projects / Hatebur Umformmaschinen AG, Switzerland

模拟xfor航天

SimulationX是一种复杂的平台,可有效地模拟,模拟和分析机械,液压,气动,电气和组合系统。从概念到详细开发到虚拟测试,可以快速有效地获得物理行为的可靠结果。集总元件仿真方法使您能够快速,经济和可靠地模拟和模拟大型和复杂的系统。

作为特派团项目的发展伙伴(飞机上的系统集成的建模和仿真工具),这是欧洲计划的一部分“Cleansky2”,我们正在努力实现在所有阶段整个阶段制定和建立模型的过程在复杂的发展环境的帮助下,飞机的发展。

用于航空航天应用的模拟X的好处

  • 采用小型,轻巧,强大的电池,电动机和发电机创建下一代飞机驱动系统
  • Design energy efficient environmental control systems
  • Develop, optimize, and control test benches for components and systems for aircraft and spacecraft
  • 用培训模拟器配备realistic and physically correct behavior
  • 模型与模拟复杂系统朝向氢气的航空
  • 开发可靠的卫星和航天器的可靠驱动和高度控制系统,以确保为极端条件的设计和运行
  • Assess safety and reliability with fault tree analyses (FTA) and failure mode and effect analyses (FMEA) based on system models
  • 与需求管理和系统架构集成到create a traceable model-based systems engineering (MBSE) framework这满足了虚拟测试支持的安全性和可靠性的强烈认证要求

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模拟xfor Automotive

What might the drivetrain of future vehicles look like? How high are power density, energy efficiency, flexibility, vehicle dynamics, and driving comfort? How do several physical systems interact with each other, and how can mechatronic correlations be described comprehensively? How can I quickly simulate thermal loads in electric and hybrid vehicles without having to perform a tedious and time-consuming series of measurements? What is the optimum capacity and performance of my battery in terms of costs, installation space, range, and service life? These and other questions can no longer be answered through measured data. Model your multiphysics systems and conduct virtual tests in SimulationX - from the modeling of drive systems, chassis and vehicle dynamics simulation to efficiency analyses of gearboxes and energy efficiency in general.

模拟x的好处for Vehicle Development

With the multiphysics simulation software SimulationX, you are in full control of a vehicle’s electronics and mechatronics interactions.

  • Design and evaluate conventional, hybrid and electric drive systems including battery and thermal management and operating strategies
  • Predict and minimize1d到3d振动现象(NVH: noise vibration harshness)
  • 设计可靠的安全和舒适系统E。G。主动转向,tailgates,挡风玻璃刮水器,侧镜
  • Investigate vehicle dynamics e. g. for active and passive vehicle suspension systems (including kinematics & compliance)
  • 从驱动器开发高效的动力驱动器。横向和纵向车辆动态
  • Evaluate transmissions with focus on shifting behavior, as well asgear rattling and whining
  • Assess powertrain vibrations and torque ripple originating from the electric machine and inverter
  • 考虑到电池的电气,热和老化特性,配置电池堆栈
  • 实际上测试和优化控制策略智慧h real-time capable driveline and vehicle models (SiL, MiL, HiL)
  • 有效地模拟,测试和分析先进的驾驶员辅助系统(ADAS)的功能考虑到环境和道路状况

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用于能源技术的仿真

The high energy density in power plants, transmission paths, and storages must be constantly available while remaining safe for man and the environment. From various projects, we know the complex requirements with respect to energy efficiency, the integration of renewable energies, and safety. Our simulation solutions offer you a solid foundation for simulating and analyzing fluid power, thermodynamic, mechanical, and electrical systems in order to meet all of these requirements – fast, safely, and efficiently.

SimulationX为能源技术的好处

  • Analyze power plant technology and processes – from drive technology and mechanical transmission of power to load scenarios and safety studies
  • 考虑到周围环境和管理能源,消费者和存储系统的互动,设计能量优化的建筑物
  • Optimize the operation of hydrogen compression and storage plants
  • Forecast renewable energies, from geothermal to hydrogen to solar, optimizing integration into existing grids and validating energy storage scenarios
  • 在车辆,机械和建筑物中模拟HVAC技术
  • Evaluate the dynamic behavior of components and systems used for oil & gas production, covering systems; drilling (top-side and subsea), production (top-side and subsea) and subsea construction and process equipment
  • Perform reliability analyses and establish Fault Tree FTA of an oil & gas system to identify the weakest link and bottlenecks in the system

模拟xfor移动机械

利用如此广泛的要求,瞬态的非线性过程的准确分析日益至关重要。对于这样的考虑,通常不足以看应力分析,流量计算或电影模拟。移动机器,如挖掘机,轮式装载机,农业和林业机械,道路施工设备,混凝土搅拌机,混凝土泵系统,起重机和吊装齿轮,压缩和隧道镗架机械都是机电系统。除了机械部件,它们包括液压执行器系统和相应的控制单元。在运营期间的许多不良效果都有其原因在子系统来自各种物理域的弱相互作用。特别是移动机器中的大量非线性过程几乎不能通过再次测量来管理。

用于移动机械的SimulationX的好处

  • Compare and analyze conventional, electric, and hybrid drive systems
  • Optimize hydrostatic drive and steering systems
  • 自主建筑设备设计与自动化绩效评价
  • 在设计阶段提前开发和测试控制器组件的功能和精力量方面
  • 计算在绳索特性(例如,长度,质量,拉伸强度)和负载型材的卷轴和悬架绳索上作用的力和片刻
  • 检查是否符合与认证相关的安全要求(例如稳定性)
  • Identify optimization potential for crane design in line with industry standards such as EN 13000 and EN 13001
  • Create training simulators with physically correct behavior of the machine
  • 通过分析车辆动态来最大限度地提高操作员舒适性

SimulationX可以应用于几个其他行业。爱游戏ayx11选5有关您的信息,请单击下面的链接。

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