MSK4804H M. S Kennedy, MSK4804H Datasheet - Page 3

Manufacturer Part Number

MSK4804H

Description

1200v/100a Sic Half Bridge

Manufacturer

M. S Kennedy

Datasheet

1.MSK4804H.pdf (6 pages)

THERMAL CALCULATIONS

PWM duty cycle and switching frequency all factor into power dissipation. DC losses or "ON-TIME" losses are simply

30%, DC losses equal 240 watts. Switching losses vary proportionally with switching frequency. The MSK 4804 typical

switching losses at V

and the turn-off switching loss. Multiplying the switching frequency times the switching losses will result in a power

dissipation number for switching. The MSK 4804, at 5KHz, will exhibit switching power dissipation of 19.95 watts. The

total losses are the sum of DC losses plus switching losses, or in this case, 91.95 watts total.

91.95 watts x 0.190°C/W thermal resistance equals 17.47 degrees of temperature rise between the case and the junc-

tion. Subtracting 17.47°C from the maximum junction temperature of 150°C equals 132.53°C maximum case tempera-

ture for this example.

Turn-on switching loss + Turn-off switching loss = Total switching losses = 2.08mJ + 1.91mJ = 3.99mJ

Total switching loss x PWM frequency = Total switching power dissipation = 3.99mJ x 5KHz = 19.95 watts

Total power dissipation = DC losses + switching losses =72W + 19.95W = 91.95 watts

Junction temperature rise above case = Total power dissipation x thermal resistance

Maximum junction temperature - junction temperature rise = maximum baseplate temperature

Power dissipation and maximum allowable temperature rise involve many variables working together. Drain current,

APPLICATION NOTES

x Drain Current x PWM duty cycle. For the MSK 4804, V

150°C - 17.47°C = 132.53°C

91.95 watts x 0.190°C/W = 17.47°C temperature rise above case

x I

x PWM duty cycle = 2.4V x 100 amps x 30% =72 watts DC losses

=600V and I

=100A are about 3.99mJ, which is simply the sum of the turn-on switching loss

=2.4V max., and at 100 amps and a PWM duty cycle of

Rev. C

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