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SPC5565MVZ132 Datasheet(PDF) 6 Page - Freescale Semiconductor, Inc |
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SPC5565MVZ132 Datasheet(HTML) 6 Page - Freescale Semiconductor, Inc |
6 / 54 page MPC5565 Microcontroller Data Sheet, Rev. 2.0 Electrical Characteristics Freescale Semiconductor 6 3.2.1 General Notes for Specifications at Maximum Junction Temperature An estimation of the device junction temperature, T J , can be obtained from the equation: TJ = TA + (RθJA × PD) where: TA = ambient temperature for the package ( oC) RθJA = junction to ambient thermal resistance ( oC/W) PD = power dissipation in the package (W) The thermal resistance values used are based on the JEDEC JESD51 series of standards to provide consistent values for estimations and comparisons. The difference between the values determined for the single-layer (1s) board compared to a four-layer board that has two signal layers, a power and a ground plane (2s2p), demonstrate that the effective thermal resistance is not a constant. The thermal resistance depends on the: • Construction of the application board (number of planes) • Effective size of the board which cools the component • Quality of the thermal and electrical connections to the planes • Power dissipated by adjacent components Connect all the ground and power balls to the respective planes with one via per ball. Using fewer vias to connect the package to the planes reduces the thermal performance. Thinner planes also reduce the thermal performance. When the clearance between the vias leave the planes virtually disconnected, the thermal performance is also greatly reduced. As a general rule, the value obtained on a single-layer board is within the normal range for the tightly packed printed circuit board. The value obtained on a board with the internal planes is usually within the normal range if the application board has: • One oz. (35 micron nominal thickness) internal planes • Components are well separated • Overall power dissipation on the board is less than 0.02 W/cm2 The thermal performance of any component depends on the power dissipation of the surrounding components. In addition, the ambient temperature varies widely within the application. For many natural convection and especially closed box applications, the board temperature at the perimeter (edge) of the package is approximately the same as the local air temperature near the device. Specifying the local ambient conditions explicitly as the board temperature provides a more precise description of the local ambient conditions that determine the temperature of the device. |
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