Jan 25, 2018 - Detecting a Crack - A Problem in N.D.T. Problem 8) Sensors & NDT with. Motorsolve Trial Edition, free motorsolve trial edition software.
AC Synchronous Reluctance Machine for Traction Application In this example, a 55 KW traction motor is designed using a stator that was originally designed for a squirrel cage induction motor for a similar output rating and application. The design of the new machine uses the stator of the induction machine and only the rotor geometrical parameters and configurations are used as free design parameters to achieve the target performance criterion. Shows the variable wind speed MPPT tracker with a battery load.
Battery Charging with Maximal Peak Power Tracking A maximal peak power tracking (MPPT) example for wind power plant is implemented in this example. The load is a battery that is subjected to a variable speed realistic wind profile. The system simulated consist of the following components; a wind turbine, a planetary gear system, a generator, a load (battery) and a 3-phase bridge regulator for the generator. Designing a Servo Motor The sizing feature of MotorSolve can be used to obtain an initial design of a motor model at the onset on the motor design process. It is an automated feature which uses as input, the target performance specifications and design constraints of the motor, and outputs a complete design including model dimensions and winding details including winding layout, phase coil details and end turn electrical parameters. Investigating the Complex Characteristics of an Hybrid Electric Vehicle Motor HEV motors are characterized by high power density and high output torque over a wide range of operational speeds. Field weakening and operation in the constant-power speed range (CPSR) is key to operating at a wide range of vehicle speeds without the need for excessive gearing.
MotorSolve is able to provide useful results to investigate these complex characteristics.
Announced that MotorSolve v4.1 is now available. This latest update introduces the new DCM module for brushed DC and universal motors. It uses the same automated finite element analysis engine found in the BLDC, IM, SRM and Thermal modules, which means designers can get an accurate prediction of the machine performance without doing any mesh refining or FEA style post-processing, the company says.
MotorSolve DCM is a design software for brushed DC, PMDC, and wound field motors, the last of which can be series, shunt or separately excited. The template library includes all common armature and stator geometries. The solution supports both lap and wave windings with the option to choose either progressive or regressive types.
It also features a new winding diagram interface unique to this module. All standard performance data can be computed, including cogging torque, Kt/Ke, back emf calculations with user defined brush shift angle, flux density/linkage, winding losses, demagnetization and more. Design parameters, performance data and summary comparisons can be recorded in an experimental log or report. Results are also accessible either with the use of the clipboard or export functionality.
The MotorSolve software suite supports brushless dc/PMAC (BLDC), induction machine (IM), switched reluctance machine (SRM) and DC motors (DCM). For more information, visit.
New: You can now import old configuration files from version 3.5. Fix: C++: Some overloaded operator functions were not showing up in the Relation or Context windows, and Jump to Definition failed on it. Now, the source directory is not changed, so you can reconnect your network drive and continue using the project. New: Symbol Window Options: New option to control whether long functions are shown in bold or not. Source insight 4 crack.
Sources: Press materials received from the company and additional information gleaned from the company’s website.