Analysis software Product List and Ranking from 164 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:May 06, 2026~Jun 02, 2026
This ranking is based on the number of page views on our site.

Analysis software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:May 06, 2026~Jun 02, 2026
This ranking is based on the number of page views on our site.

  1. SAS Institute Japan JMP Japan Division Tokyo//others
  2. ミューテック Kanagawa//Facility Design Office
  3. ウェーブフロント 本社 Kanagawa//others
  4. 4 フォトン Kyoto//others
  5. 5 JIPテクノサイエンス Tokyo//Information and Communications
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Analysis software Product ranking

Last Updated: Aggregation Period:May 06, 2026~Jun 02, 2026
This ranking is based on the number of page views on our site.

  1. JMP Pro SAS Institute Japan JMP Japan Division
  2. General-purpose linear and nonlinear structural analysis system "DIANA" JIPテクノサイエンス
  3. IDA Pro - Disassembler and Decompiler テガラ 本社
  4. 4 弾塑性地震応答解析ソフトウェア『DynamicPRO』 ユニオンシステム
  5. 5 GNSS measurement system "ARUQ" ジツタ 東京営業所

Analysis software Product List

31~60 item / All 795 items

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The theory of OPTISHAPE-TS "Gradient Method in Finite-Dimensional Spaces"

The theory of OPTISHAPE-TS "Gradient Method in Finite-Dimensional Spaces"

An explanation of gradient methods when the design variables are a finite number of real numbers! Introduction to the column.

In the previous article, we explained the gradient method, which is one of the solutions to optimization problems. In this article, we will discuss the gradient method in finite-dimensional spaces, specifically when the design variables are a finite number of real numbers. Please feel free to download and take a look. [Contents] ■ Episode 15: What is H1 Gradient Method Part 8 "Gradient Method in Finite-Dimensional Spaces" *For more details, please refer to the PDF document or feel free to contact us.

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[Technical Column] The Theory of OPTISHAPE-TS: "Space"

[Technical Column] The Theory of OPTISHAPE-TS: "Space"

An explanation of the concept of "space" in modern mathematics! Introduction to a technical column.

In the previous article, I provided an overview of the function space known as H1. As I mentioned briefly, there is a significant difference between the "space" that engineers think of and the "space" in modern mathematics. This time, I will explain the concept of "space" in modern mathematics. Please feel free to download and take a look. [Contents] ■ Episode 9: What is the H1 Gradient Method? Part 2 "Space" *For more details, please refer to the PDF document or feel free to contact us.

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[Technical Column] The Theory of OPTISHAPE-TS: "What is Gradient Method?"

[Technical Column] The Theory of OPTISHAPE-TS: "What is Gradient Method?"

Based on the formulation of optimization problems, let's briefly explain what the gradient method is!

In the previous articles, we explained the "H1" in the H1 gradient method. I hope you have deepened your understanding of the concept of function spaces. From this time onward, I would like to explain the remaining "gradient methods" over several articles. To begin with, this article will discuss an overview of gradient methods. Please feel free to download and take a look. [Contents] ■ Episode 14 What is H1 Gradient Method Part 7 "What is Gradient Method" *For more details, please refer to the PDF document or feel free to contact us.

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The theory of OPTISHAPE-TS: The relationship between three functions and H1.

The theory of OPTISHAPE-TS: The relationship between three functions and H1.

A subtle relationship with three functions commonly encountered in the field of engineering! Introducing in a column.

In the previous session, we explained norms and inner products in function spaces. Finally, to help you gain a deeper understanding of the concept of function spaces, we will discuss the subtle relationships with three functions that frequently appear in the field of engineering (for example, control engineering and vibration engineering). Please feel free to download and take a look. 【Contents】 ■ Episode 13: What is the H1 Gradient Method? Part 6 "The Relationship Between Three Functions and H1" *For more details, please refer to the PDF document or feel free to contact us.

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[Technical Column] The Theory of OPTISHAPE-TS: Infinite Dimensions and Function Spaces

[Technical Column] The Theory of OPTISHAPE-TS: Infinite Dimensions and Function Spaces

To deepen your understanding of H1, we will explain norms and inner products in function spaces!

Last time, I explained the completeness of spaces. Since H1 is a function space, this time I will explain norms and inner products in function spaces to deepen your understanding of H1. Please feel free to download and take a look. [Contents] ■ Episode 12 What is the H1 Gradient Method? Part 5 "Infinite Dimensions and Function Spaces" *For more details, please refer to the PDF document or feel free to contact us.

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What is compliance in the theory of OPTISHAPE-TS?

What is compliance in the theory of OPTISHAPE-TS?

An explanation of compliance in linear elastic analysis! Introduction to the technical column.

Non-parametric optimization of OPTISHAPE-TS (shape optimization, topology optimization, bead optimization) can commonly evaluate compliance in linear elastic analysis. For those who use it regularly, it may seem like a trivial matter to say, "Ah, compliance," but occasionally, I receive questions from others asking, "What is compliance?" In this article, I would like to explain compliance in a bit more detail. Please feel free to download and take a look. [Contents] ■ Episode 21: What is compliance? *For more details, please refer to the PDF document or feel free to contact us.

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[Column] The Theory of OPTISHAPE-TS: Lagrange Multiplier Method

[Column] The Theory of OPTISHAPE-TS: Lagrange Multiplier Method

An explanation of the general concept of the Lagrange multiplier method through a simple problem! Introduction to a technical column.

The discussion about deriving the sensitivity of compliance began from the previous article. This time, I would like to take a break from the derivation of sensitivity and explain the Lagrange multiplier method itself. Please feel free to download and take a look. [Contents] ■ Episode 24: Lagrange Multiplier Method *For more details, please refer to the PDF document or feel free to contact us.

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Actuator control coil and magnet design / μ-Excel electromagnetic force version

Actuator control coil and magnet design / μ-Excel electromagnetic force version

Visualize the magnetic field distribution, attractive force, and torque distribution of coils, permanent magnets, and nonlinear magnetic materials!

μ-Excel is analysis software that uses a two-dimensional (or axisymmetric) finite element method. The μ-Excel series consists of individual packages for each analysis theme, allowing for smooth analysis through customized input and output screens for each theme. Additionally, it utilizes Excel macros in the GUI, enabling operation in a familiar Excel environment without discomfort. It is evolving into a rich variety of themes, not only for electromagnetic field analysis but also for heat, structure, fluid, and electromagnetic waves. Please look for the series that matches your theme (currently, there are a total of 11 series). 【Features】 - Calculation of electromagnetic force and torque for notable magnetic materials - Magnetic field distribution and magnetic line output - DC excitation using magnets and coils - Nonlinearity and magnetic saturation of magnetic materials - Adjustable position of the plunger *It can be introduced at a lower cost compared to other analysis software. The academic version is even more advantageous! *For more details, please contact us or download the PDF.

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Seamless magnetization and torque analysis / μ-Excel Magnetization Torque Edition

Seamless magnetization and torque analysis / μ-Excel Magnetization Torque Edition

Evaluate the magnetic ceramics, orientation and magnetic permeability, surface magnetic flux distribution after magnetization, and motor torque characteristics of the assembly!

μ-Excel is analysis software that uses a two-dimensional (or axisymmetric) finite element method. The μ-Excel series consists of individual packages for each analysis theme, allowing for smooth analysis through customized input and output screens for each theme. Additionally, it utilizes Excel macros in the GUI, enabling operation in a familiar Excel environment without discomfort. It is evolving into a rich variety of themes, not only for electromagnetic field analysis but also for heat, structure, fluid, and electromagnetic waves. Please look for the series that fits your theme (currently, there are a total of 11 series). 【Features】 - Magnetic analysis of magnetizer models - Calculation of magnetization distribution, magnetization direction, and surface magnetic flux - Torque analysis of motor models - Automatic transfer of magnetization information and rotor rotation function - Calculation of rotation angle vs. torque curve - Improvement of meshing algorithms (examples are shown in the photos below) *It can be introduced at a lower cost compared to other analysis software. The academic version is even more advantageous! *For more details, please contact us or download the PDF.

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Stress distribution analysis in dielectric materials / μ-Excel Dielectric Stress Edition

Stress distribution analysis in dielectric materials / μ-Excel Dielectric Stress Edition

Visualize dielectric materials, electrode designation, potential, electric field, and electrostatic force within the dielectric!

μ-Excel is analysis software that uses a two-dimensional (or axisymmetric) finite element method. The μ-Excel series consists of individual packages for each analysis theme, allowing for smooth analysis through customized input and output screens for each theme. Additionally, it utilizes Excel macros in the GUI, enabling operation in a familiar Excel environment without any discomfort. It is evolving into a rich variety of themes, not only for electromagnetic field analysis but also for heat, structure, fluid, and electromagnetic waves. Please look for the series that matches your theme (currently, there are a total of 11 series). 【Features】 - Electrostatic field analysis, stress distribution analysis - Calculation of electric field, potential distribution, electric field vector, and stress vector - Setting of relative permittivity for composite dielectrics and potential for electrodes *Compared to other analysis software, it can be introduced at a lower price. The academic version is even more economical! *For more details, please request materials or view the PDF data from the download.

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Vector magnetic characteristic analysis software for iron loss evaluation / μ-E&S [Technical documentation available]

Vector magnetic characteristic analysis software for iron loss evaluation / μ-E&S [Technical documentation available]

Aiming for low loss, accurately measure the actual state of electromagnetic materials and understand and analyze their vector magnetic characteristics! Supporting low loss and high efficiency for motors used in EVs.

This is an introduction to the next-generation iron loss evaluation method, the "E&S Model." Based on an evaluation method called vector magnetic characteristics, it has become possible to obtain a more detailed loss distribution of steel materials as analysis results compared to conventional methods. It can calculate high-precision magnetic fields, magnetic flux densities, and iron loss distributions that are not achievable with other software. 【Features】 - By considering vector magnetic characteristics, magnetic vectors can be calculated with high precision. - Rotating magnetic fields and hysteresis can be calculated. - Finished as an easy-to-use tool specifically for iron loss evaluation. - Permanent magnet excitation function and torque calculation function. *For more details, please contact us or download the PDF.

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Vector Magnetic Characteristic Iron Loss Analysis Software 'μ-E&S'

Vector Magnetic Characteristic Iron Loss Analysis Software 'μ-E&S'

Supports low loss and high efficiency of EV motors! Capable of analyzing rotating magnetic fields and hysteresis.

"μ-E&S" is a iron loss analysis software that can simulate magnetic flux density, magnetic field, and iron loss distribution based on actual measurements of motor laminated cores. By analyzing vector magnetic characteristics, it can identify areas where iron loss occurs significantly, making it a useful analysis tool for reducing the size and weight of motors as well as for achieving low loss and high efficiency. 【Features】 ■ High-precision calculation of magnetic vectors ■ Capable of calculating rotating magnetic fields and hysteresis ■ Equipped with permanent magnet excitation function and torque calculation function *For more details, please refer to the materials. Feel free to contact us with any inquiries.

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Vector Magnetic Property Analysis 【Analysis Case Study Document 2】

Vector Magnetic Property Analysis 【Analysis Case Study Document 2】

An example of analysis using a model of non-oriented electrical steel sheet shaped into a ring is presented!

This document presents an analysis example using a model of isotropic electromagnetic steel plates shaped into a ring. It provides detailed explanations about the ring model voltage source (differences in steel materials), magnetic field distribution, and iron loss distribution results. 【Contents】 ■2.1 Analysis Model and Objectives ■2.2 Analysis Conditions and Calculation Time ■2.3 Magnetic Field Distribution and Iron Loss Distribution Results ■2.4 X-Direction Hysteresis Curve Results ■2.5 Y-Direction Hysteresis Curve Results ■2.6 Current Waveform Results *For more details, please refer to the PDF document or feel free to contact us.

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Vector Magnetic Characteristic Analysis 【Analysis Case Study 4】

Vector Magnetic Characteristic Analysis 【Analysis Case Study 4】

A basic analysis example aimed at the iron loss distribution of SPM (Surface Permanent Magnet) motors is presented!

This document presents a basic analysis example aimed at the iron loss distribution of SPM (Surface Permanent Magnet) motors. It provides a detailed explanation of the analysis model and objectives, as well as the magnetic flux lines, magnetic field distribution, and iron loss distribution results. [Contents] ■4.1 Analysis Model and Objectives ■4.2 Analysis Conditions and Calculation Time ■4.3 Magnetic Flux Lines, Magnetic Field Distribution, Iron Loss Distribution Results ■4.4 Results of Inclination Angle θB and Aspect Ratio α Distribution ■4.5 X-Direction Hysteresis Curve Results ■4.6 Y-Direction Hysteresis Curve Results ■4.7 Lissajous Waveform Results ■4.8 Current Waveform Results *For more details, please refer to the PDF document or feel free to contact us.

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The operation is easy, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP 1

The operation is easy, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP 1

[Excel-based simulation software] Check out the operation feel in the video now! Free trial version available for download! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the operation experience through videos for each work step! The video available here is "Step 1: Starting Excel." Using the "Magnetic Torque Version" of the "μ-Excel" series as an example, we will demonstrate the analysis based on a macro-enabled workbook prepared for each analysis theme, showing that all input data and result information fit within the sheets. ▽▼▽ Please also check out other videos! ▼▽▼ Step 0: Introduction ▼Step 1: Starting Excel Step 2: Model Creation Step 3: DXF Import Step 4: Mesh Creation Step 5: Execute Calculation Step 6: Add Materials Step 7: Display Results Step 8: Create Graphs Step 9: Save As Step 10: Surface Flux Calculation Step 11: Torque Calculation

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP6

The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP6

[Excel-based simulation software] Check out the operation feel in the video now! Free trial version available for download! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the operation experience through videos for each work step! The video available here is 'Step 6 Adding Materials' - taking the "Magnetic Torque Version" of the 'μ-Excel' series as an example, we will introduce how to add the BH curve for magnetic materials to the material sheet and freely reference the material database. ▽▼▽ Please also check out other videos! ▼▽▼ Step 0 Introduction Step 1 Starting Excel Step 2 Creating a Model Step 3 Importing DXF Step 4 Creating Mesh Step 5 Running Calculations ▼Step 6 Adding Materials Step 7 Displaying Results Step 8 Creating Graphs Step 9 Saving with a Name Step 10 Calculating Surface Flux Step 11 Calculating Torque

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP9

The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP9

[Excel-based simulation software] Check out the operation feel in the video now! Free trial version available for download! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the user experience through videos for each work step! The video available here is "Step 9: Save As" - taking the "Magnetic Torque Version" of the "μ-Excel" series as an example, we will show how saving with a name such as a date allows for input and output data to be completed in a single Excel file, making data organization easy. ▽▼▽ Please also check out other videos! ▼▽▼ Step 0 Introduction Step 1 Starting Excel Step 2 Model Creation Step 3 DXF Import Step 4 Mesh Creation Step 5 Execute Calculation Step 6 Add Materials Step 7 Display Results Step 8 Create Graphs ▼Step 9 Save As Step 10 Surface Flux Calculation Step 11 Torque Calculation

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Easy operation, check with video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP10

Easy operation, check with video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP10

[Excel-based simulation software] Check out the operation feel in the video now! Free trial download available! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the operation experience through videos for each work step! The video available here is "Step 10 Surface Flux Calculation" - taking the "Magnetization Torque Version" of the "μ-Excel" series as an example, we will introduce the flow of surface flux evaluation created by the magnetized magnets, which is unique to the magnetization torque version. ▽▼▽ Please also check out other videos! ▼▽▼ Step 0 Introduction Step 1 Starting Excel Step 2 Model Creation Step 3 DXF Import Step 4 Mesh Creation Step 5 Execute Calculation Step 6 Add Materials Step 7 Display Results Step 8 Create Graphs Step 9 Save with Name ▼Step 10 Surface Flux Calculation Step 11 Torque Calculation

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Video site "Analysis Know-How.com"

Video site "Analysis Know-How.com"

The usage and analysis know-how of the thermal, structural, and electromagnetic field analysis software "μ-EXCEL" are published. Easily search and browse from your smartphone!

"Analysis Know-How.com" is a dedicated site that introduces know-how to support the introduction, utilization, and application of the thermal, structural, and electromagnetic field analysis software "μ-EXCEL." Each video is compact, lasting about 1 to 2 minutes, allowing you to easily check the topics you want to know during your spare time using your smartphone or other devices. 【What is "μ-EXCEL"?】 It is software that operates on Excel and allows for full-scale simulations with simple operations. We offer versions for electromagnetic force, motor characteristics, heat conduction, and more. A subscription service is also available starting from one month. *For more details, please check the link below. Feel free to contact us as well.

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Analysis software "μ-Excel" <Available for purchase at Mutech Rakuten Market>

Analysis software "μ-Excel" <Available for purchase at Mutech Rakuten Market>

Familiar usability based on Excel. Full-fledged thermal, structural, and electromagnetic field analysis available at a low subscription price. *Special benefits included.

"μ-Excel" is an affordable software for thermal, structural, and electromagnetic field analysis. It operates on Excel, allowing for a familiar user experience while enabling sophisticated simulations. The software is organized into series based on analysis themes, each equipped with dedicated macros for easy use. At the newly opened Mutech Rakuten Market store, you can purchase the subscription version of this product. 【Features】 ■ Input and output data are stored in sheets, allowing for flexible data processing. ■ Implements necessary tools for finite element analysis, such as modelers and meshers. ■ Easy condition setting, with results obtainable in just a few minutes. ■ Adopts 2D or axisymmetric finite element methods. ■ Equipped with DXF import functionality and a material database feature. *For more details, please download the PDF or feel free to contact us. ★ We are celebrating the grand opening of the Mutech Rakuten Market store! ★ ・Eligible product: μ-Excel Subscription New 3-Month License ・Benefit: 2000 yen OFF coupon ・Period: February 8, 2022 (Tuesday) 10:00 to March 1, 2022 (Tuesday) 9:59

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【解析ノウハウ.com】静磁場解析の境界条件

【解析ノウハウ.com】静磁場解析の境界条件

磁場解析では物体の周りに空間領域が必要!モデル化範囲を決めるときは境界条件に注意

解析領域の最外周で、磁束が垂直になる、平行になるの2つの境界条件があります 詳細は【解析ノウハウ.com】の「NO.156 静磁場解析の境界条件」をご覧ください ポイントはこちら ・磁場解析では物体の周りに空間領域が必要 ・モデルの最外周には境界条件が必要 ・磁束が垂直になるのが自然境界条件 ・平行になるのが固定境界条件 ・μ-EXCELでは自然境界条件に自動設定 ・モデル化範囲を決めるときは境界条件に注意

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Analysis Know-How.com Evaluation Points and Graph Display

Analysis Know-How.com Evaluation Points and Graph Display

You can freely perform calculations in Excel! The calculation results are interpolated at arbitrary coordinates for each node and element.

As a result of processing, values of arbitrary coordinates are stored in cells, and graphs can also be displayed. For details, please refer to "NO.022 Evaluation Points and Graph Display" on 【Analysis Know-How.com】. Key points are as follows: - Results of arbitrary evaluation point coordinates are stored in cells on the evaluation sheet. - These results are displayed in graphs. - Excel calculations can be freely performed. - Calculation results are interpolated at arbitrary coordinates for each node and element.

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【Analysis Know-How.com】Making contour displays easier to see

【Analysis Know-How.com】Making contour displays easier to see

Hide the outline display for small areas! Changing the number of display divisions and whether or not to show the outline will make it easier to evaluate.

Specifying the maximum and minimum values for contour display, the number of display divisions, and whether to show the outline or not makes it easier to evaluate. For details, please refer to "No. 103 How to Make Contour Displays Easier to Read" on 【Analysis Know-How.com】. Here are the key points: - Contours refer to contour line displays. - Specify maximum and minimum values to find areas above a reference value. - Specify maximum and minimum values to perform parameter analysis comparisons. - Reduce the number of display divisions to read values. - Hide the outline display for smaller areas.

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Introduction to μ-EXCEL Electrostatic Current Version on 【Analysis Know-How.com】

Introduction to μ-EXCEL Electrostatic Current Version on 【Analysis Know-How.com】

Estimate heat generation from current density in wiring on printed circuit boards! It's a simple analysis, but there are various themes.

The electrostatic current version calculates the current density within the conductor and the resistance between the electrodes. It addresses a variety of themes such as thermistors, heating wires, printed circuit boards, and sensor electrodes. For more details, please refer to "Introduction to 163 ex Electrostatic Current Version" on 【Analysis Know-How.com】. Key points are as follows: - The electrostatic current version verifies the current distribution within the conductor. - It is a simple analysis, but there are various themes. - For thermistors, it examines the current density between electrodes. - For heating wires in rear glass, it investigates how to evenly distribute the current. - In printed circuit boards, it estimates heat generation from the current density in the wiring. - For sensor electrodes, it estimates the material of the lower layer based on resistance values.

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Can the resistance value R be determined?

Can the resistance value R be determined?

In the electrostatic version, R is calculated from the heat generation energy! In the two-dimensional model, the depth dimension is specified for calculation!

In the electrostatic current version, we calculate the current distribution flowing through the conductor between the electrodes. From the current distribution, we can derive the amount of heat generated, and at the same time, we can also calculate the resistance value R between the electrodes. Once the resistance R is obtained, it can be used for circuit calculations, etc. For more details, please refer to "NO.162 Can the resistance value be determined?" on 【Analysis Know-How.com】. Key points are as follows: - We want to determine the resistance R between electrodes with complex structures. - It can be calculated from the heat loss energy of the current flowing through the conductor. - In the electrostatic current version, R is calculated from the heat energy. - In the two-dimensional model, the depth dimension is specified for calculation. - If R is determined, it can be used for circuit calculations.

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【解析ノウハウ.com】ex静電場版の紹介

【解析ノウハウ.com】ex静電場版の紹介

誘電体・電極で構成、電荷も設定可!キャパシタンスを求める事も出来ます!

静電場版では誘電体と電極による電位・電場分布を求めます、電荷を指定する事も出来ます。キャパシタンスを求める事も出来ます。詳細は【解析ノウハウ.com】の「NO.025 EX静電場版の紹介」をご覧ください ポイントはこちら ・静電場分を見る ・誘電体・電極で構成、電荷も設定可 ・等電位線、電場コンター・電場ベクトル表示 ・電場・電位グラフ出力 ・キャパシタンス算出

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【解析ノウハウ.com】キャパシタンスは求まるの?

【解析ノウハウ.com】キャパシタンスは求まるの?

平行平板コンデンサのキャパシタンスCは理論式がある!軸対称モデルも計算できます!

静電場版でキャパシタンスCが算出できます。静電場版では誘電体に蓄えられた電気エネルギーからCを算出しています。任意の形状・複合誘電体のキャパシタンスを求める事が出来ます。詳細は【解析ノウハウ.com】の「NO.142 キャパシタンスは求まるの?」をご覧ください ポイントはこちら ・平行平板コンデンサのキャパシタンスCは理論式がある ・誘電体に蓄えられる全電気エネルギーからも算出できる ・静電場版はエネルギーからCを算出 ・2次元モデルでは奥行き寸法を指定して計算 ・軸対称モデルも計算できる

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Steady-state thermal analysis sets heat capacity to zero!

Steady-state thermal analysis sets heat capacity to zero!

In the heat conduction module, it is possible to calculate the time variation of temperature! If you only want to know the temperature distribution, set the heat capacity to zero for steady-state thermal analysis!

In the heat conduction module, unsteady thermal analysis is performed. You can track how the temperature changes over time. If you only want to know the final temperature distribution, you can set the heat capacity to zero and perform steady-state thermal analysis. For details, please refer to "NO.009 Steady-State Thermal Analysis with Heat Capacity Set to Zero" on 【Analysis Know-How.com】. Key points are as follows: - The heat conduction module allows for the calculation of time-dependent temperature changes (unsteady). - The material properties provided are thermal conductivity and heat capacity. - Thermal conductivity measures how easily heat is transferred, with units of W/mK. - Heat capacity measures how easily temperature increases, with units of J/m³K. - If you only want to see the final temperature, you can perform steady-state thermal calculations. - This can be done by setting the heat capacity to zero. - The heat transfer handbook is recommended.

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Magneto-sputtering analysis available in the trial version on 【AnalysisKnowHow.com】!

Magneto-sputtering analysis available in the trial version on 【AnalysisKnowHow.com】!

The key is the magnitude of the X component at the position where the Y component crosses zero! It can be done in about 10 minutes from modeling to result display.

The magnetic field distribution analysis of magnetron sputtering was conducted using an axisymmetric model. From the distribution of the magnetic flux density components on the target, we estimate the erosion. The magnitude of the X component at the position where the Y component crosses zero is crucial. This task can be completed in about 10 minutes, from modeling to result display. Furthermore, it can be done with the free trial version of the static magnetic field! Please give it a try. For more details, please refer to NO.020 on "Analysis Know-How.com." You can download the trial version from the sample software on the special site below: https://premium.ipros.jp/mutec/product/detail/2000623620/?hub=148+2991245

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How to specify flow rate with equivalent heat transfer coefficient!

How to specify flow rate with equivalent heat transfer coefficient!

Specify the flow rate of the cooling pipe in temperature analysis with an equivalent heat transfer coefficient! The calculation formula has been organized!

There are times when we evaluate the effect of cooling pipes through temperature analysis. Originally, this calculation requires a high-level analysis function known as "thermal fluid analysis." If such precision is not required, I would like to evaluate it simply using approximate calculations. Therefore, I have thought of a method to approximate the flow rate of the cooling pipe with an equivalent heat transfer coefficient. I organized the calculation formula for the heat transfer coefficient of the cooling pipe from the literature, and by providing the flow rate, I can calculate the equivalent heat transfer coefficient. The outlet temperature can also be estimated. Please refer to No. 015 on "Analysis Know-How.com."

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