4 research outputs found
A five-level inverter topology with single-DC supply by cascading a flying capacitor inverter and an H-bridge
In this paper, a new three-phase, five-level inverter
topology with a single-dc source is presented. The proposed topol-
ogy is obtained by cascading a three-level flying capacitor inverter
with a flying H-bridge power cell in each phase. This topology has
redundant switching states for generating different pole voltages.
By selecting appropriate switching states, the capacitor voltages
can be balanced instantaneously (as compared to the fundamen-
tal) in any direction of the current, irrespective of the load power
factor. Another important feature of this topology is that if any
H-bridge fails, it can be bypassed and the configuration can still
operate as a three-level inverter at its full power rating. This fea-
ture improves the reliability of the circuit. A 3-kW induction motor
is run with the proposed topology for the full modulation range.
The effectiveness of the capacitor balancing algorithm is tested for
the full range of speed and during the sudden acceleration of the
motor
A Seventeen-level Inverter With a Single DC-link For Motor Drives
In the present paper, a novel topology for generating a 17-level inverter using three-level flying capacitor inverter and cascaded H-bridge modules with floating capacitors. The proposed circuit is analyzed and various aspects of it are presented in the paper. This circuit is experimentally verified and the results are shown. The stability of the capacitor balancing algorithm has been verified during sudden acceleration. This circuit has many pole voltage redundancies. This circuit has an advantage of balancing all the capacitor voltages instantaneously by switching through the redundancies. Another advantage of this topology is its ability to generate all the 17 pole voltages from a single DC link which enables back to back converter operation. Also, the proposed inverter can be operated at all load power factors and modulation indices. Another advantage is, if one of the H-bridges fail, the inverter can still be operated at full load with reduced number of levels
Common-mode voltage eliminated three-level inverter using a three-level flying-capacitor inverter and cascaded H-bridge
This paper proposes a new 3 level common mode voltage eliminated inverter using an inverter structure formed by cascading a H-Bridge with a three-level flying capacitor inverter. The three phase space vector polygon formed by this configuration and the polygon formed by the common-mode eliminated states have been discussed. The entire system is simulated in Simulink and the results are experimentally verified. This system has an advantage that if one of devices in the H-Bridge fails, the system can still be operated as a normal 3 level inverter mode at full power. This inverter has many advantages like use of single DC-supply, making it possible for a back to back grid-tied converter application, improved reliability etc