MOSFET SELECTION FOR A THREE PHASE INVERTER Team 9 JR Alvarez, Matt Myers Chris Sommer, Scott OConnor.

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Presentation transcript:

MOSFET SELECTION FOR A THREE PHASE INVERTER Team 9 JR Alvarez, Matt Myers Chris Sommer, Scott OConnor

Table of Contents MOSFETs Overview Three Phase Inverter Gate Capacitance Switching Losses Breakdown Voltage On Resistance Heat Dissipation Insulation Heat Sink Package Type Mounting

MOSFET Overview Switching Device that acts as a voltage controlled current source. A change in the gate to source voltage causes a change in the drain to source current. To increase the current MOSFETs can be put in parallel.

This configuration of MOSFETS allows the conversion of DC voltage to a 3-phase AC voltage Three Phase Inverter

Gate Capacitance V GS - Gate to Source Capacitance V DS - Gate to Drain Capacitance

Caused by the parasitic capacitance Switching Losses

Drain to Source Breakdown Voltage This specification is gives the maximum drain to source voltage a MOSFET can handle

Effects efficiency Temperature Dependent On Resistance

Heat Dissipation and Efficiency Matlab analysis of power losses Gives efficiency at different power outputs. The Power Consumed by the motor controller varies with the square of the current and drain to source resistance.

Insulation Insulation needed to avoid undesired short circuits. Thermally conducting Electrical insulating Pad vs. Grease

R theta_jc =.28, R theta_ja = 50, R theta_cs = 1 Temperature Difference / Power Dissipated = desired R theta Max Current^2*R don = Desired power For our heat sink this gives 125 C / 64 Watts = 1.93 C/W 1.93 – 1.28 =.65 C/W Our heat sink <.65 C/W Thermal Properties and Heat Sink

Package Type Three common package types for MOSFETs PCB Power Electronics Lower Powered Surface Mount TO-247SOT-227D2PAK

Mounting Clipping Screw Holes Personal Heat Sink

MOSFET comparison ParametersIXFN 120N20STW88N65M5 Single2 in parallel Single4 in parallel Break-down V DS 200 V 710 V On resistance17 mΩ8.5 mΩ29 mΩ7.25 mΩ Drain current I D 120 A240 A84 A336 A Thermal resistance0.22 °C/W 0.28 °C/W Gate-Source Capacitance5 nF2.5nF5.1 nF1.275 nF Gate-Drain Capacitance16 nF8 nF8.4 nF2.1 nF

Thank You Questions?