<

• 

>

產(chǎn)品報(bào)價(jià)： ￥5000元

留言咨詢

產(chǎn)品熱度：加載中

品　　牌：FARADAY

產(chǎn)品型號(hào)：三維時(shí)諧渦流場求解器

適用范圍：高教 職教

所在地區(qū)：加拿大

溫馨提示：需求數(shù)量不同，價(jià)格不同。請(qǐng)聯(lián)系我們，確認(rèn)當(dāng)前新的報(bào)價(jià)！

降低成本和開發(fā)時(shí)間是一項(xiàng)不斷增加的挑戰(zhàn)。來自INTEGRATED Engineering Software的3D時(shí)諧渦流場求解器FARADAY^TM為您提供正面應(yīng)對(duì)這一挑戰(zhàn)所需的優(yōu)勢。使用我們的邊界元法（BEM）和有限元法（FEM）技術(shù)，F(xiàn)ARADAY^TM是需要大開放區(qū)域分析、邊界準(zhǔn)確建模以及處理small skin深度的問題的明確選擇。

FARADAY^TM快速準(zhǔn)確的計(jì)算力、扭矩、位移電流、磁鏈、感應(yīng)電壓、功率和阻抗。

特征：

• 使用FARADAY瞬態(tài)求解器直接模擬時(shí)間相關(guān)渦流場的模擬

• 平移和旋轉(zhuǎn)運(yùn)動(dòng)引起的渦流場也可以用有限元法求解

• 耦合到攝氏溫度進(jìn)行熱分析

• 直觀的線圈和繞組編輯器

• 模擬外加電流和指定電壓條件

• 瞬態(tài)、相量和靜態(tài)分析模式

• 周期性和對(duì)稱特征，以很大限度的減少建模和求解時(shí)間

• 分析力、扭矩、磁鏈、功率和阻抗參數(shù)

• 集膚效應(yīng)導(dǎo)致的導(dǎo)體電流密度分析

• 強(qiáng)的參數(shù)化功能，允許通過允許分析多個(gè)“假設(shè)”場景并促進(jìn)優(yōu)化來逐步定義可變參數(shù)

• 用于設(shè)計(jì)評(píng)估和優(yōu)化的多種后處理選項(xiàng)

• 自適應(yīng)網(wǎng)格劃分或可選的用戶細(xì)化

應(yīng)用：

• 核磁共振

• 磁記錄頭

• 無損檢測系統(tǒng)

• 磁屏蔽

• 母線、充電夾具

• 線圈和變壓器

• 感應(yīng)加熱線圈

• 感應(yīng)電機(jī)

系統(tǒng)要求：

64位操作系統(tǒng)

Microsoft Windows 10或更高版本

安裝需要大約110MB的磁盤空間

3D程序：

至少4GB的RAM運(yùn)行，但對(duì)于應(yīng)該使用16GB或更多RAM的較大問題，不建議這樣做。使用的RAM越多，解決問題的速度就越大

強(qiáng)烈建議使用多核處理器，因?yàn)?D程序是多線程的

【英文介紹】

Reducing design costs and development times is an ever-increasing challenge. FARADAY^TM, a 3D time-harmonic eddy current field solver from INTEGRATED Engineering Software gives you the advantage you need to meet this challenge head on. Using our innovative Boundary Element Method (BEM) and Finite Element Method (FEM) technologies, FARADAY^TM is the only clear choice for applications requiring large open region analysis, exact modeling of boundaries and problems where dealing with small skin depths is critical.

Fast and accurate, FARADAY^TMcalculates force, torque, displacement current, flux linkage, induced voltage, power, and impedance.

Features

• Simulation of time dependent eddy current field simulated directly with the FARADAY Transient Solver.

• Translational and rotational motion induced eddy current field can be solved with the finite element method as well.

• Coupling to Celsius for thermal analysis

• Intuitive Coils and Windings editor

• Simulation of impressed currents and assigned voltage conditions

• Transient, phasor and static analysis modes

• Periodic and symmetry features to minimize modeling and solution time

• Analysis of force, torque, flux linkage, power and impedance parameters

• Analysis of current density in conductors due to skin effects

• Powerful parametric feature which allows definition of variable parameters to be stepped through allowing the analysis of multiple “what-if” scenarios and facilitating design optimization

• A wide array of post-processing options for design evaluation and optimization

• Self-adaptative meshing or optional user refinement