This paper assesses the suitability of the moving coil actuator for use as an ultra-fast, long stroke linear drive for HVDC breaker applications. With the help of FEA, a sensitivity analysis of the actuator is conducted in order to better understand how the different design parameters affect the actuator performance. Based on this assessment a high performance actuator design has been implemented using FEA software. Simulation results show the suitability of the moving coil design as an ultra-fast linear driver. Efficiency of the proposed moving-coil design has been calculated and shows a remarkable advantage over other high speed actuator designs
The challenges of an HVDC breaker are to generate impulsive forces in the order of hundreds of kilon...
In order to obtain an ultra-fast actuator functionality in mechanical switching mechanisms, Thomson-...
The prime topic of research presented in this report is the development and use of computer-based mo...
DC circuit breakers are major enabling components for multi-terminal HVDC systems. Their key design ...
High Voltage Direct Current (HVDC) is a rapidly growing form of power transmission that offers advan...
One of the major challenges of DC circuit breakers is the required fast mechanical actuator. In this...
With the rapid development of DC power systems and the increasing demand for DC circuit breakers, el...
Abstract:Operating mechanism is the main part of breaker,and the quality of breaker will directly in...
In the 500 kV hybrid high-voltage direct current (HVDC) circuit breaker, there are five 110 kV fast ...
Electromagnetic (EM) solenoid actuators are widely used in many applications such as the automobile,...
This paper presents the modelling of a moving coil actuator for use as an element in a High Redundan...
This paper presents the research on the influence of coil parameter on the force of DC electromagnet...
The force acting on a current carrying body, which is induced by magnetic fields gained more interes...
The efficiency of digital hydraulic machines is strongly dependent on the valve switching time. Rece...
In a power system with the ability to integrate geographically spread diverse renewable energy sourc...
The challenges of an HVDC breaker are to generate impulsive forces in the order of hundreds of kilon...
In order to obtain an ultra-fast actuator functionality in mechanical switching mechanisms, Thomson-...
The prime topic of research presented in this report is the development and use of computer-based mo...
DC circuit breakers are major enabling components for multi-terminal HVDC systems. Their key design ...
High Voltage Direct Current (HVDC) is a rapidly growing form of power transmission that offers advan...
One of the major challenges of DC circuit breakers is the required fast mechanical actuator. In this...
With the rapid development of DC power systems and the increasing demand for DC circuit breakers, el...
Abstract:Operating mechanism is the main part of breaker,and the quality of breaker will directly in...
In the 500 kV hybrid high-voltage direct current (HVDC) circuit breaker, there are five 110 kV fast ...
Electromagnetic (EM) solenoid actuators are widely used in many applications such as the automobile,...
This paper presents the modelling of a moving coil actuator for use as an element in a High Redundan...
This paper presents the research on the influence of coil parameter on the force of DC electromagnet...
The force acting on a current carrying body, which is induced by magnetic fields gained more interes...
The efficiency of digital hydraulic machines is strongly dependent on the valve switching time. Rece...
In a power system with the ability to integrate geographically spread diverse renewable energy sourc...
The challenges of an HVDC breaker are to generate impulsive forces in the order of hundreds of kilon...
In order to obtain an ultra-fast actuator functionality in mechanical switching mechanisms, Thomson-...
The prime topic of research presented in this report is the development and use of computer-based mo...