Quote Originally Posted by Eddy View Post
You missed my point. The motor controller has to dissipate the heat caused by the voltage loss of the high and low side Vsat. A loss of 2V at 15A is 30 watts of heat to dissipate per IC (there's 2 on the board), a total of 60 watts with no heatsink. The movement of the air across the surface of the IC and the PCB is able to dissipate the 60 watts.

Eddy
Eddy, I didnt miss the point - if its a motor controller is not dissipating 60w continuously, as its almost certainly a PWM arrangement. Its only dissipating that wattage during the 'on' cycle at a high frequency. take for example a common controller chip from ST. Its capable of 30A without a heatsink... but thats because the switching frequency is 10khz. for a single pulse at that frequency the thermal characteristic is <0.1degC/W so a heatsink of only 16sq cm of copper on the PCB will suffice to keep the mean junction temperature below 125degC. You could never run a linear circuit at that sort of load. The actual static chip thermal resistance is typical at 15decC/W... at 60W the jiunction temp would be 15*60deg over ambient = 900deg... it would have long since melted!

For the record I have designed systems for both miltary (-55 -> +125degC) and space applications (-100 -> +250degC)!