Active Thermal Control (ATC) consists in driving power switches in a less efficient way when low load conditions are present. The resulting wasted power is used to self-heat the device, reducing amplitude and occurrence of thermal cycles and hence improving the reliability. This paper presents a novel way to control losses, and hence temperature, of both positive- and negative-current devices in half-bridge topologies at various load conditions. The goal is achieved by means of a controlled shoot-through of the half-bridge leg
In this paper, a controller is proposed to design in such a way that it can be able to control the i...
Power electronic system design is typically constrained by the thermal limitation so by the overall ...
In recent years, intensive studies on thermal control devices have been conducted for the thermal ma...
Active Thermal Control (ATC) consists in driving power switches in a less efficient way when low loa...
This work proposes an Active Thermal Control (ATC) of power switches. Leveraging on the fact that th...
This paper proposes an Active Thermal Control (ATC) method for MOS-gated power switches aimed at red...
This paper presents a design and experimental validation of a temperature feedback control scheme to...
One of the most important causes of the failure of power electronic modules is thermal stress. Prope...
In this work we propose a system which is able to actively control the temperature of a power MOSFET...
Power Semiconductors undergo thermal stress during operation, which is caused by thermal cycling. Th...
Thermal cycling is one of the main sources of aging and failures in power electronics. A possibility...
This paper presents an advanced dynamic cooling strategy for multi-layer structured power electronic...
A thermal controller can be employed to reduce the thermal swing consequent to power cycling. This i...
With the development of the more/All electrical aircraft technology, the dual active bridge converte...
Semiconductor power switches are largely considered the most fragile components in power electronic ...
In this paper, a controller is proposed to design in such a way that it can be able to control the i...
Power electronic system design is typically constrained by the thermal limitation so by the overall ...
In recent years, intensive studies on thermal control devices have been conducted for the thermal ma...
Active Thermal Control (ATC) consists in driving power switches in a less efficient way when low loa...
This work proposes an Active Thermal Control (ATC) of power switches. Leveraging on the fact that th...
This paper proposes an Active Thermal Control (ATC) method for MOS-gated power switches aimed at red...
This paper presents a design and experimental validation of a temperature feedback control scheme to...
One of the most important causes of the failure of power electronic modules is thermal stress. Prope...
In this work we propose a system which is able to actively control the temperature of a power MOSFET...
Power Semiconductors undergo thermal stress during operation, which is caused by thermal cycling. Th...
Thermal cycling is one of the main sources of aging and failures in power electronics. A possibility...
This paper presents an advanced dynamic cooling strategy for multi-layer structured power electronic...
A thermal controller can be employed to reduce the thermal swing consequent to power cycling. This i...
With the development of the more/All electrical aircraft technology, the dual active bridge converte...
Semiconductor power switches are largely considered the most fragile components in power electronic ...
In this paper, a controller is proposed to design in such a way that it can be able to control the i...
Power electronic system design is typically constrained by the thermal limitation so by the overall ...
In recent years, intensive studies on thermal control devices have been conducted for the thermal ma...