10. The circuit shown above represents: a) induction motor with three-phase frequency converter b) induction motor with AC voltage controller c) DC motor with four-quadrant converter d) DC motor with dual converter 11. Where does the energy go during the dynamic braking of the induction motor in the circuit shown above? a) The energy is returned in the supplying AC mains. b) The energy is dissipated in the braking resistor. c) The energy is dissipated in the motor. d) The energy is stored in the filter capacitor.

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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초점
K
ㅏ
w
17 M
to
A
Th
17
1
M
구
Transcribed Image Text:초점 K ㅏ w 17 M to A Th 17 1 M 구
10. The circuit shown above represents:
a) induction motor with three-phase frequency converter
b) induction motor with AC voltage controller
c) DC motor with four-quadrant converter
d) DC motor with dual converter
11. Where does the energy go during the dynamic braking of the induction motor in the circuit shown above?
a) The energy is returned in the supplying AC mains.
b) The energy is dissipated in the braking resistor.
c) The energy is dissipated in the motor.
d) The energy is stored in the filter capacitor.
Transcribed Image Text:10. The circuit shown above represents: a) induction motor with three-phase frequency converter b) induction motor with AC voltage controller c) DC motor with four-quadrant converter d) DC motor with dual converter 11. Where does the energy go during the dynamic braking of the induction motor in the circuit shown above? a) The energy is returned in the supplying AC mains. b) The energy is dissipated in the braking resistor. c) The energy is dissipated in the motor. d) The energy is stored in the filter capacitor.
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