Quam ut control current de anti-vibrationis motricium

Multi amici valde interested in quam ad control current de anti-vibrationis motricium. Hoc quidem a critica et arduum negotium. Ut facilitate tua operatio et usus et solvere tua quaestiones, ego inducere aliqua related contentus ad vos proximus. Vos can lego subtilitate et externa in anti-vibrationis motricium est per resistor Rs ut current sampling. Et sampling voltage debet esse initus ad current ex pin IX ad pin XV et comparator potest deprehendi hoc modo. At the inverting input of the comparator, a reference voltage of one hundred millivolts can be set, which can be used as a reference for current limit.During the ramp-up period of the anti-vibration motor oscillator, if the current is too large, the comparator should be flipped, and then the Rs flip-flop should be reset to turn off the driver output, so there is another function, which will limit the current increase.During the falling Tempus oscillator s Sawtooth fluctus, vos can set in trigger iterum ad conversus in coegi output. Per periodica per periodica current, in current limiting munus potest esse intellexit. Si licita current est ut imapl, in sampling repugnet potest electus secundum hoc formula: Rs = 0,1 Motor Current in CCCLX °, quod est a normalis mechanica potest esse in CCCLX °, quod est normalis mechanica. In Electrical Engineering, angulus unitas solebat metimur electromagnetic relatione dicitur electrica angle. Hoc angulus dividit in weekly sinusoidal alterna current in CCCLX ° in abscissae, id est, cum conductor spatio transit per par magneticam polos, electro correspondentes mutare electrica angulus CCCLX °. Ideo necessitudo inter electrica angulus et mechanica angulus in motricium est: Electrical angle α = numerus poli pairs xpx360. Eg enim duo polus motricium, numerum poli pariamum P = I, tum electrica angulus aequalis ad mechanica; Nam quattuor polus motricium, P = II, tunc motricium habet duo paria magnetica in circulo, et correspondentes electrica angulus est II × CCCLX ° = DCCXX. et multa more.