0 summary table, C/w @ 0.8nm 1.5 – C&H Technology PowIRtab Mounting Guidelines User Manual

Application Note

4.2 Contact Thermal resistance as a Function of Force
Above the Die (Clip Mounting).

0

0.2

0.4

0.6

0.8

1

1.2

1.4

1.6

0

50

100

150

200

250

300

Force / N

Thermal Resistance C/W

Dry Mounting

With Heatsink Compound

Figure 8

Figure 8 shows the contact thermal resistance as a
function of force above the die with and without heatsink.
It can be seen from the graph that when heatsink

compound is not used the contact resistance decreases
with increasing force. However there is a point beyond
which the advantage gained by increasing the force is
offset by the additional cost required to do so. The use of
heatsink compound reduces the thermal resistance by a
factor of 85% and also makes the thermal resistance less
dependent on the applied force.

This measurement was acheived using a device with
60W power applied for 100secs, on an ‘infinite’ heatsink.

Recommended force:
Without heatsink compound: 20N (4.5lbf) minimum to
give a thermal resistance, case to sink, of 1.5

o

C/W.

With heatsink compound: 20N (4.5lbf) minimum to give a
thermal resistance, case to sink, of 0.23

o

C/W.

5.0 Summary Table

Screw Mounting

Maximum allowable torque

(Tab & lead)

Thermal mounting

Clip Mounting

Maximum allowable force

Thermal mounting

Without heatsink compound

With heatsink compound

250N (56.21lbf)

3Nm (2.2 lbf ft)

Without heatsink compound

With heatsink compound

1

o

C/W @ 1.1Nm

0.22

o

C/W @ 0.8Nm

1.5

o

C/W @ 20N

0.23

o

C/W @ 20N

Laminated Busbar supplier

Rogers Mektron Busbar Division
Rogers N.V.
Afrikalaan 188,9000 Gent
Belgium