| 住所 | 〒- 220-1821 Wellington Ave, Winnipeg |
|---|---|
| TEL | 1-204-6325636 |
| FAX | 1-204-6327780 |
| URL | https://www.integratedsoft.com/ |
| Queenie@integratedsoft.com | |
| 設立年 | 1984年 |
| Sales Leader | Queenie Wong |
| 最終更新日:2026年02月19日 |
Integrated Engineering Software Sales Inc.
Integrated Engineering Software Sales Inc. 取り扱い製品
Lorentz-3EM
It can solve 3D Electrostatic and 3D Magnetostatic models separately by using Boundary Element Method or Finite Element Method as per the user’s choice. Electric and Magnetic Fields and voltage distribution can be displayed in contours, arrow plots, and graphs form. After obtaining the field solution(s) the trajectories of the charged particles can be obtained under the influence of electric and/or magnetic fields. Beam optic parameters of the charged particles can be estimated. Capacitance and inductance matrices of the model can also be decided.
Lorentz-3E
It can solve 3D Electrostatic models by using Boundary Element Method or Finite Element Method as per the user’s choice. Electric and voltage distribution can be displayed in contours, arrow plots, and graphs form. After obtaining the field solution the trajectories of the charged particles can be obtained under the influence of electric field. Beam optic parameters of the charged particles can be estimated. Capacitance matrix of the model can also be decided.
Lorentz-3M
It can solve 3D Magnetostatic models by using Boundary Element Method or Finite Element Method as per the user’s choice. Magnetic flux density distribution can be displayed in contours, arrow plots, and graphs form. After obtaining the field solution the trajectories of the charged particles can be obtained under the influence of magnetic field. Beam optic parameters of the charged particles can be estimated. Inductance matrix of the model can be decided. Magnetic Forces among the different parts of the model and torque about an axis can be calculated.
Lorentz-HF
It can solve 3D eddy current models by using Boundary Element Method or Finite Element Method as per the user’s choice. Magnetic flux density distribution can be displayed in contours, arrow plots, and graphs form. After obtaining the field solution the trajectories of the charged particles can be obtained under the influence of magnetic field. Beam optic parameters of the charged particles can be estimated. Inductance matrix of the model can be decided. Magnetic Forces among the different parts of the model and torque about an axis can be calculated.
Lorentz-2EM
It can solve 2D and Axi-symmetric Electrostatic and Magnetostatic models separately by using Boundary Element Method or Finite Element Method as per the user’s choice. Electric and Magnetic fields and voltage distribution can be displayed in contours, arrow plots, and graphs form. After obtaining the field solution the trajectories of the charged particles can be obtained under the influence of electric and/or magnetic fields. Beam optic parameters of the charged particles can be estimated. Capacitance and inductance matrices of the model can be decided.