Summus celeritas operatio motoris Brushless moderatoris magnum numerum damni in temperatura superiore sequeretur, proprietatum materiarum scelerisque propterea mutare, sic amissionem motoris moderatoris afficiunt et sic porro, donec duo temperantiae temperamentum stabilitas temperatura. In hac charta, utendo methodo copulandi, campum electromagneticum et temperatura altae celeritatis Brushless moderatoris copulationis calculi, informationis commenti, accurationem calculi emendare. By temperature distribution, heat load density winding end temperature, the heat load density development winding end when the temperature is 68. 8 ℃, thermal coupling stator cut to read temperature for 72. 4℃。 By using thermistor temperature rise test was carried out on the prototype, the winding temperature for 75. 6 ℃, the analysis of the operation of electromagnetic field and temperature field coupling calculation results error than the thermal load density method improves the 4. 8%. Calculi coniunctio provenit utens campum electromagneticum et temperatura et caloris modum densitatis onus computare ad eventus comparationis adhibetur, et siccus magnes rotor permanentis suscitavit temperatura statoris ortum minui. Summus celeritas Brushless moderatoris motoris in calorem currit detrimentum, pars est temperaturae, afficiunt proprietates materiales. Flexuum aeris cum resistentia ortum temperaturae et auget consumptionem aeris producere. Summus celeritas Brushless motoris moderatoris ndfeb commendatur pro materia, materia temperatura coefficientis est alta, residua inductionis magneticae intensio ndfeb permanentis magnetis materialis negate comparatur ad temperiem, siccus ortus causatus ex magnete permanenti remanentia intensio mutationem faciet mutationem centri damni ferrei, damnum decrescit sicut calor leviter descendit. Magnes electricus perpetuus ad viridis negative ad ortum siccus affinis est, sic temperatus oritur, magnes permanentis hydrocyclone etiam augebit. Appellatione, videri potest in summo cursu Brushless magnetis permanentis motoris moderatoris partem proprietatum materialium et temperaturam inter se influere, ita per copulationem electromagnetici et campi temperatus, considerans commercium diversorum factorum in processu calculi, melius potest simulare statum actuum moderatorem mobiles sine fine.
