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Semiconductors flex thermoelectric power
Science, 2022Ductile inorganic semiconductors can help enable self-powered wearable ...
Chengyi, Hou, Meifang, Zhu
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2012
Power semiconductor devices are one of the core constituent elements of state-of-the-art power electronic applications. They are employed in a plethora of applications ranging from DC–DC converters, rectifiers, inverters, AC–AC converters, and so on.
Dongsheng Ma, Rajdeep Bondade
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Power semiconductor devices are one of the core constituent elements of state-of-the-art power electronic applications. They are employed in a plethora of applications ranging from DC–DC converters, rectifiers, inverters, AC–AC converters, and so on.
Dongsheng Ma, Rajdeep Bondade
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2015
Many industrial applications require control of power such as in variable speed drives, light-intensity controllers, temperature regulators etc. They are controlled by Power devices such as four-layer devices, semiconductor controlled rectifiers (SCRs) etc.
K. M. Gupta, Nishu Gupta
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Many industrial applications require control of power such as in variable speed drives, light-intensity controllers, temperature regulators etc. They are controlled by Power devices such as four-layer devices, semiconductor controlled rectifiers (SCRs) etc.
K. M. Gupta, Nishu Gupta
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International Congress on Transportation Electronics,, 2005
This paper presents an overview on the current state of the art of smart power semiconductors with a special emphasis on automotive applications. As an example the Siemens smart SIP- MOS technology is described and two families of standard devices especi ally suited for such applications are presented in detail.
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This paper presents an overview on the current state of the art of smart power semiconductors with a special emphasis on automotive applications. As an example the Siemens smart SIP- MOS technology is described and two families of standard devices especi ally suited for such applications are presented in detail.
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1986
The converter valves used in solid state based on power electronic systems are designated power semiconductor devices. Here they will be abbreviated as power semiconductors. The most important power semiconductors are silicon diodes, thyristors, and power transistors [3.9, 3.15, 3.16, 3.26, 3.27].
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The converter valves used in solid state based on power electronic systems are designated power semiconductor devices. Here they will be abbreviated as power semiconductors. The most important power semiconductors are silicon diodes, thyristors, and power transistors [3.9, 3.15, 3.16, 3.26, 3.27].
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2009
All a.c. and d.c. drives use power semiconductor devices to convert and control electrical power. This section reviews important characteristics of the most conventional power devices in drives applications. It is common to operate semiconductor devices in switched mode operation.
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All a.c. and d.c. drives use power semiconductor devices to convert and control electrical power. This section reviews important characteristics of the most conventional power devices in drives applications. It is common to operate semiconductor devices in switched mode operation.
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2004
The most important step in the history of semiconductor devices was the discovery of the transistor effect in a semiconductor material by Bardeen and Brattain [1] and Shockley [2] at the end of the 1940s. This invention stimulated the further development of power semiconductor devices.
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The most important step in the history of semiconductor devices was the discovery of the transistor effect in a semiconductor material by Bardeen and Brattain [1] and Shockley [2] at the end of the 1940s. This invention stimulated the further development of power semiconductor devices.
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2015
In this chapter, the characteristics of high-voltage SiC IGBT, SiC MOSFET, SiC junction gate field-effect transistor (JFET), and low-voltage SiC MOSFET are discussed.
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In this chapter, the characteristics of high-voltage SiC IGBT, SiC MOSFET, SiC junction gate field-effect transistor (JFET), and low-voltage SiC MOSFET are discussed.
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Controllable Power Semiconductors
1972A semiconductor diode cannot be controlled. With a positive anode voltage it will conduct at the commencement of this voltage and will cease conduction when the anode is driven to a potential negative with respect to the cathode. When operating from an a.c. supply line it will therefore conduct for one half cycle and block the other half cycle.
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