A Resolver , etiam ut shrchronum resolver, est electro sensorem disposito ad metimur gyratorius angulis cum alta praecisione. Eius operatio cardine in principle electro inductione, ubi interaction inter a stator (certum component) et rotor (rotating component) generat, positio-dependens electrica significationibus. Infra est a detailed explicatione quomodo hoc electro coupling translates mechanica gyrationis in measurable electrica outputs.
I. Core structuram et excitationem resolver consistit ex duabus pelagus partes: et rotor. In Stator continet primaria quae per anergized in alterna current (n) excitationem intentione, typice ad frequentiis sicut CD HZ, III khz, aut V khz. Hoc excitationem gignit rotating magnetica agro intra stator. Et rotor, mechanice coniunctum est in shaft cuius situ est metiri, features secunda et rotate in hoc magnetica agro.
II. Electromagnetic mechanism sicut rotor gyretur, relativus situ inter stator scriptor rotating magnetica agro et rotor scriptor Wallings mutationes. In rotor et imbecilles, saepe disposita orthogonaliter (eg, sine et cosinus anxius), experientia vario magnetica fluens. Secundum ad Faraday scriptor lege inductione, hi mutantur fluxes inducere sinusoidal voltages in rotor et motum. In amplitudo harum voltages dependent in angulari obsessio inter stator et rotor, typice sequenti sinu et cosinus munera rotor angle.
III. Signum characteres in output annuit ex Rotor Wallings sunt Analog voltages. Nam unum celeritatem resolver, outputs sunt:
Sine output (e_sin), proportionalem esse SinΘ, ubi θ est rotor angulus.
Cosine output (e_cos) proportionalem Cosθ.
In multi-celeritate soles (eg, dual-channel systems), additional poli pares generate altius-frequency annuit, enhancing resolution et enabling pulcher angulus deprehensio.
IV. Signum dispensando et positus extractionem ut convertam in Sine / Cosinus outputs in utibilis positio data, externi circuitus aut algorithms non requiritur. Communi modi includit:
Analog Division: Using Tan-I (esin / ECOS) ad computare θ, quamquam hoc est sensitivo strepitu.
Resolver-ut-Digital Converters (RDCS): Integrated Circuitus, quod uti tracking ansas (eg, typus II servo ansas) ad decode resolver. Haec cogitationes componere resolver outputs ad intrinsecus generatae references, adjusting usque ad tempus errorem est elevat, ita convalescens rotor angulus.
V. Desperages et Applications SOLONDERS Praecedo in dura environments debitum ad eorum aspera constructione (non optical components vel contactus) et immunitatem ad electro intercessiones. Sunt late in:
Motor control Systems: Providing Real-vicis Feedback enim servo Motors in robotics, aerospace et automation.
Aerospace et defensionis: discrimine ad applications requiring princeps reliability et tolerantia ad vibrationem / temperatus extrema.
Industrial Equipment: in praecisione machining tools, ubi resolver-fundatur ratio enable sub-Arcminute resolutio.
VI. Key parametri influing perficientur
Excitatio Frequency: afficit signum-ut-sonitus ratio et ratio Sed.
Numerus poli pairs: decernit resolutio et mensurae range.
Cupidus configuratione: optimized pro linearibus et nonlinear (eg, sinusoidal) output relationes.
In summary, quod resolver scriptor facultatem transform mechanica gyrationis in electrica signals via electromagnetic facit eam vitalis component in systems postulantes precise angulari mensurae. Eius consilio statera inter simplicitatem, robustness, et accuracy ensures eius continua relevance in modern ipsum applications.
SDM Magnetics est unus de maxime integrativa magnes manufacturers in Sinis. Prodex Products: Permanens Magnet, Neodymium Magnets, Motor Stator et Rotor, Sensorem RESOLVER et magneticam coetus.
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