17-04-2017, 12:30 PM
An inverter is simply an electronic device that converts the energy of the low voltage DC battery 230 volts AC (alternating current) of electric power. They are used in applications ranging from laptops to microwaves to satellite systems, X-ray machines, etc.
Most industrial applications require high frequency high voltage power. These higher energy requirements have led to a significant development in inverted technology.
Significant improvements have been made to traditional pulse width modulation (PWM) inverters to make the power distribution system more efficient and more suitable for reactive power compensation (var) and harmonic filtering. This includes the use of multi-level inverters, zero current switching and other power switching devices. The spatial application involves high power systems (hundreds of kilowatts to megawatts). Large reductions of power conditioning mass are required to enable this megawatt power system.
An inverter is simply an electronic device that converts the energy of the low voltage DC battery 230 volts AC (alternating current) of electric power. They are used in applications ranging from portable computers to microwave to satellite systems to X-ray machines etc. Most industrial applications require high frequency high voltage power. These higher energy requirements have led to a significant development in inverted technology.
Significant improvements have been made to traditional pulse width modulation (PWM) inverters to make the power distribution system more efficient and more suitable for reactive power compensation (var) and harmonic filtering. This includes the use of multi-level inverters, zero current switching and other power switching devices. The spatial application involves high power systems (hundreds of kilowatts to megawatts). Large reductions of power conditioning mass are required to enable this megawatt power system. Therefore, the inverter design for space applications represents the state of the art in power conditioning technology.
Most industrial applications require high frequency high voltage power. These higher energy requirements have led to a significant development in inverted technology.
Significant improvements have been made to traditional pulse width modulation (PWM) inverters to make the power distribution system more efficient and more suitable for reactive power compensation (var) and harmonic filtering. This includes the use of multi-level inverters, zero current switching and other power switching devices. The spatial application involves high power systems (hundreds of kilowatts to megawatts). Large reductions of power conditioning mass are required to enable this megawatt power system.
An inverter is simply an electronic device that converts the energy of the low voltage DC battery 230 volts AC (alternating current) of electric power. They are used in applications ranging from portable computers to microwave to satellite systems to X-ray machines etc. Most industrial applications require high frequency high voltage power. These higher energy requirements have led to a significant development in inverted technology.
Significant improvements have been made to traditional pulse width modulation (PWM) inverters to make the power distribution system more efficient and more suitable for reactive power compensation (var) and harmonic filtering. This includes the use of multi-level inverters, zero current switching and other power switching devices. The spatial application involves high power systems (hundreds of kilowatts to megawatts). Large reductions of power conditioning mass are required to enable this megawatt power system. Therefore, the inverter design for space applications represents the state of the art in power conditioning technology.