Servo motricium secundum electromagneticas regula, cum magnetica agri mutationes, adiacentibus conductor potest producere inductionem electromotive vis, directionem apta Farided legis et Lenz lege, et in fine est contra electromotive vi, et in fine est contra electromotive vim et in fine est contra electrodem. In permanens magnes Synchronae servo motricium, quamdiu motricium in volumen, semper erit interficiam coil magnetica agro lineas, sic erit contra electromotive vis. Contra electro vis in E1, in RMS calculus est ut sequitur: Interea, ke- -to participes constant; FN - Frequency de Stator Current; NL - sicut numerus vices cuniculi curva cuiusque phase; ф- -give prioritas ad amplitudinem magneticae fluunt values. A determinants, counter electromotive force, the rotor angular velocity of rotor magnet magnetic field planning, the number of turns of the stator winding when motor rotor magnetic field and the number of turns of the stator winding is determined, and only decided to counter electromotive force factor is the rotor angular velocity, may say is the rotor speed, with the increase of rotor speed, the counter electromotive force also will increase. Secundo, contra electromotive vi test via communicando secundum permanens magnes servo Motor Generalis Technical Conditions, ut plerumque contra electromotive vis constantes inspectionem permanens magnes Synchronous motricium. Back AMF Constant est permanens Magnet Synchronae motricium est a valde magna technica parametri, id est ad motricium operationem perficientur et planning opus est controller. Ideo in permanens Magnet Servo Motor productio necesse est verius test de parametri et per specificationem temptationis ut quin an planning products occursum technica requisita. GB / T (L) CCCXLIX permanens magnes communicationis servo motricium generalis technica condiciones in regula et conati primo motricium ad regulas de technica condiciones de quadam gyratorius celeritate ad Waveformis Motor Technology Synchronois Servo Motor Technology et Servo. Chart I: Vi electro vim test channels ut ostensum est in supra channels ad permanens magnes synchronous servo motricium contra electromotive vi test, secundum ad experimenta cum test motricium ad electrica non-onus currit celeritas ad participantium motricium non-onus currit velocitate ad n: Per experimentum gyratoris celeritate sensorem finem WP4000 Frequency Conversion Power Analysyzer contra electromotive vis u test subditos motricium finem linea. Nullum experimentum acquisitionem motricium non-onus celeritate n lineam contra electroptive vis u contra electroptive vi ratione per genus sub constant, ut cognoscere utrum occurrit technica requisita pro coactione. Typus: Ke- -Counter Electromotive Force Constants, quod unitas Volt per Radian negative Power Secundi (V / Rad * -1 Motor Motor Motor, Square AMPLEPTOR EXERCITUS Motor Motor Motor Via, N - per Motensis Motor (R / min). Hoc consilium usum WP4000 Frequency contra Electromotive vim et celeritate test de RF potentia analyzer, in adoptionem et in Aer, potest perfecte in demanda in Demotion Oscilloscope. Post completionem consuetudine analysis software potest directe contra electro vim constans test, occursum postulant experimentorum in servo motor ratio automation test.
