Variable frequency drive system apparatus and method for reduced ground leakage current and transistor protection
First Claim
1. A method of increasing dielectric strength of a power semiconductor in a variable frequency drive (VFD) system comprising:
- disposing an electrically insulating plate which has high thermal conductivity, a low dielectric constant, and high dielectric strength, an insulator and a heat sink between a VFD power semiconductor module and a cooling plate;
wherein an output voltage of said VFD is greater than or equal to 690 V.
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Abstract
As applications of variable frequency drives (VFD) (50) continue to grow so do challenges to provide VFD (50) systems meeting application specific requirements. For multiple reasons to include safety standards and electromagnetic interference, reduced ground leakage current is desirable. Building high output voltage VFDs (50) using transistors rated at voltages lower than the VFD output voltage is desireable for economic reasons. The apparatus and method described herein meet these challenges and others, in part by placing an electrically insulating plate (cp176) having high thermal conductivity, a low dielectric constant, and high dielectric strength between the heat sink plate of a VFD power semiconductor module and a grounded cooling plate (80 TE). The positive effects of this plate installation include reducing ground leakage current induced by system capacitances to ground upon high frequency voltage steps and increasing the effective dielectric strength of the VFD'"'"'s (50) transistor modules engaging in high reliable VFD (50) voltage output for a given transistor rating.
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Citations
9 Claims
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1. A method of increasing dielectric strength of a power semiconductor in a variable frequency drive (VFD) system comprising:
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disposing an electrically insulating plate which has high thermal conductivity, a low dielectric constant, and high dielectric strength, an insulator and a heat sink between a VFD power semiconductor module and a cooling plate; wherein an output voltage of said VFD is greater than or equal to 690 V. - View Dependent Claims (8)
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2. A variable frequency drive (VFD) system comprising:
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an inverter bridge, of a VFD power semiconductor module, electrically connected to the DC bus; an electrically insulating plate which has high thermal conductivity, a low dielectric constant, and high dielectric strength; and a cooling plate wherein the VFD power semiconductor module is mounted on an insulator, a heat sink and on the electrically insulating plate, having high thermal conductivity, a low dielectric constant, and high dielectric strenght; wherein the insulating plate is mounted on the cooling plate; wherein the cooling plate is grounded and wherein an output voltage of said VFD is greater than or equal to 690 V. - View Dependent Claims (3, 4, 5, 6, 9)
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7. A variable frequency drive (VFD) system comprising:
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a DC bus which has a grounded neutral point; and VFD power semiconductor modules, wherein transistor modules of an inverter bridge are connected in series, the inverter bridges is electrically connected to the DC bus, and an insulation of transistor modules is rated at less than half of a full maximum DC bus voltage rating; an electrically insulating plate which has high thermal conductivity, a low dielectric constant, and high dielectric strength; and a grounded cooling plate, wherein the VFD power semiconductor module is mounted on an insulator, a heat sink and on the electrically insulating plate, having high thermal conductivity, a low dielectric constant, and high dielectric strength; wherein the insulating plate is mounted on the grounded cooling plate; wherein an effective insulation capability to ground of the VFD system is increased, and wherein an output voltage of said VFD is greater than or equal to 690 V.
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Specification