Heat Sink Thermal Resistance Model

This heat sink calculator compares heat sinks using a solid metal base to those using a vapor chamber base.

Heat sink thermal resistance model.

Junction case and case ambient or case heatsink thermal resistances r jc r ca a row vector r jc r ca of two thermal resistance values represented by the two conductive heat transfer blocks the first value r jc is the thermal resistance between the junction and the case the second value r ca is the thermal resistance between port h and the device case. If it is not then the base resistance is primarily spreading resistance. 4 the resistances in a heat sink model the goal of the analysis is to determine the heat sink geometry and a device setup which allow enough heat dissipation for a given devices and working conditions. A heat sink can be added to either the top of the package or directly beneath the exposed pad on the backside of the pcb.

Absolute thermal resistance r in kelvins per watt k w is a property of a particular component. Thermal resistance is a heat property and a measurement of a temperature difference by which an object or material resists a heat flow thermal resistance is the reciprocal of thermal conductance. The heat sink base thermal resistance can be written as follows if the source is a uniformly applied the heat sink base. Specific thermal resistance or thermal resistivity r.

Again because of the high thermal resistance of plastic a heat sink will be more effective when connected to an exposed metal pad either directly or through thermal vias. For example a characteristic of a heat sink. Optimum thermal design of the heat sink was then studied using this model and a self developed software package where the influences of the heat sink s channel aspect ratio fin width to. Heat sink thermal resistance delta t for each component part of the heat sink.

The highest thermal resistance of an assembly is fixed. Thermal resistance tables for a given heat sink according to the type of air circulation natural or forced. The heat sink thermal resistance model consists of two resistances namely the resistance in the heat sink base and the resistance in the fins. A thermal resistance model was set up to analyse the flow and heat transfer in microchannel heat sinks.

In order to select the appropriate heat sink the thermal designer must first determine the maximum allowable heat sink thermal resistance. To do this it is necessary to know the maximum allowable module case temperature t case the module power dissipation p mod and the thermal resistance at the module to heat sink interface r int.