10 Questions
Asinhronelektromaqina қanday есікке ие болады?
Үш фазалық жүйелі статор мен жылдамдық кішітінгіш ротор
Asinkron elektrik motorunun rotorunda hangi sargı vardır?
Kısa devreli sargı
Asinkron motorun verimliliği neye bağlıdır?
Yük durumuna bağlıdır
Асинхрон машиналардың жылдамдығы көлемі неліктен төмен?
Ротордың жылдамдық көлемі статордың жылдамдық көлемінен бір мүше жоғары
Асинхрон машиналардың қандай есіктері бар?
Үш фазалық жүйелі статор мен жылдамдық кішітінгіш ротор
Bir fazlı asinkron motorun statorunda hangi sargı vardır?
Bir fazlı sargı
Asinkron motorun rotor hızı ne kadar daha azdır?
Statorun manyetik alanının hızından
Bir fazlı asinkron motorun stator sargısı ne oluşturur?
Dönen manyetik alan
Bir fazlı asinkron motorun rotor manyetik alanı neyle etkileşir?
Statorun manyetik alanıyla
Bir fazlı asinkron motorun stator ve rotor arasında hangi eleman farklılık yaratmak için kullanılır?
Kapasitör
Study Notes
- The asynchronous electric machine has a stator with a three-phase winding and a rotor with short-circuited winding.
- The stator's three-phase winding creates a rotating magnetic field that induces a current in the rotor's winding.
- The rotor's magnetic field interacts with the stator's magnetic field, causing the rotor to rotate.
- The speed of the rotor is slightly less than the speed of the rotating magnetic field.
- The asynchronous machine's efficiency varies depending on the load.
- A single-phase asynchronous machine has a stator with a single-phase winding and a rotor with short-circuited winding.
- The single-phase winding creates a magnetic field that induces a current in the rotor's winding.
- The rotor's magnetic field interacts with the stator's magnetic field, causing the rotor to rotate.
- The speed of the rotor is slightly less than the speed of the rotating magnetic field.
- A capacitor is used to create a phase difference between the stator and the rotor in a single-phase asynchronous machine.
Test your knowledge of asynchronous electric machines with our quiz! Learn about the components and workings of both three-phase and single-phase variations, including the stator and rotor windings, magnetic fields, and speed differentials. Discover how efficiency varies based on load and how capacitors can be used to create a phase difference. Brush up on the fundamentals and challenge yourself with our quiz.
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