论文信息 - Voltage control solutions to face the CPL instability in MVDC shipboard power systems

Voltage control solutions to face the CPL instability in MVDC shipboard power systems

Voltage control represents one of the main challenges in the development of Medium Voltage DC power systems on ships. The presence of non-linear loads (high-bandwidth controlled converters, CPLs) may cause dangerous voltage oscillations or even instability in presence of small or large disturbances (e.g. connection/disconnection of loads). To face this important issue, the voltage actuator approach appears as an effective solution by using DC/DC converters as sources of stabilizing power. Such controlling action is obtained by imposing control signals determined by different techniques. In this regard, the main goal of this paper is to analyze the action of three control techniques (State Feedback, Active Damping and Linearization via State Feedback) in order to suggest the implementation considering the system criticality (e.g. the CPL power or the filter damping factor). Numerical simulations are useful to compare the proposed methods by observing the control action in presence of growing disturbances.

Giorgio Sulligoi | Daniele Bosich | Giovanni Giadrossi

[1] Antonello Monti,et al. Multiconverter Medium Voltage DC Power Systems on Ships: Constant-Power Loads Instability Solution Using Linearization via State Feedback Control , 2014, IEEE Transactions on Smart Grid.

[2] Antonello Monti,et al. Generation control system for improving design and stability of medium-voltage DC power systems on ships , 2012 .

[3] Ali Emadi,et al. Active Damping in DC/DC Power Electronic Converters: A Novel Method to Overcome the Problems of Constant Power Loads , 2009, IEEE Transactions on Industrial Electronics.

[4] D. Bosich,et al. Linearizing voltage control of MVDC power systems feeding constant power loads: Stability analysis under saturation , 2013, 2013 IEEE Power & Energy Society General Meeting.

[5] S. C. Smithson,et al. Constant power loads in More Electric Vehicles - an overview , 2012, IECON 2012 - 38th Annual Conference on IEEE Industrial Electronics Society.

[6] D. Bosich,et al. Considerations on the design of voltage control for multi-machine MVDC power systems on large ships , 2013, 2013 IEEE Electric Ship Technologies Symposium (ESTS).

[7] Ali Emadi,et al. Loop-Cancellation Technique: A Novel Nonlinear Feedback to Overcome the Destabilizing Effect of Constant-Power Loads , 2010, IEEE Transactions on Vehicular Technology.

[8] A Kwasinski,et al. Dynamic Behavior and Stabilization of DC Microgrids With Instantaneous Constant-Power Loads , 2011, IEEE Transactions on Power Electronics.