1. DC/DC, two-quadrant converter (one-arm; two-switches) 2. DC/AC, bipolarconverter (one-arm; two-switches) 3. DC/AC,monopolar converter(two-arms; four-switches) In order to allow further signal processing, signals displayed on the three Scope blocks (sampled at simulation sampling rate...
Control a two-quadrant chopper. The two-quadrant chopper operates in the first and second quadrants, allowing positive and negative output current. The Control subsystem implements a simple PI-based control algorithm for controlling the output current. The load of the system is considered constant th...
A high-voltage battery feeds the HESM through a controlled three-phase converter for the stator windings and through a controlled four quadrant chopper for the rotor winding. An ideal torque source provides the load. The Control subsystem includes a multi-rate PI-based cascade control structure. ...
Control the rotor speed in a Synchronous Machine (SM) based electrical drive. A high-voltage battery feeds the SM through a controlled three-phase converter for the stator windings and through a controlled two-quadrant chopper for the rotor winding. Use the model to design the SM controller, ...
1. DC/DC, two-quadrant converter (one-arm; two-switches) 2. DC/AC, bipolar converter (one-arm; two-switches) 3. DC/AC, monopolar converter (two-arms; four-switches) In order to allow further signal processing, signals displayed on the three Scope blocks (sampled at simulation sampling ...
dandqare the components of the two-axis system in the rotating reference frame. 0is the zero component of the two-axis system in the stationary reference frame. For a power invarianta-phase toq-axis alignment, the block implements the transform using this equation: ...
Simscape / Electrical / Control / Observers Description TheLuenberger Observerblock implements a discrete time Luenberger observer. Use this block to estimate the states of an observable system using: The discrete inputs and outputs of the system. ...