Thermal analysis, Not using a heat sink – Altera PowerPlay Early Power Estimator User Manual

Altera Corporation

3–39

January 2007

PowerPlay Early Power Estimator For Stratix II, Stratix II GX & HardCopy II

Using the PowerPlay Early Power Estimator

Thermal Analysis

You can choose to enter T

J

directly or compute T

J

based on information

provided. If you choose to enter T

J

, select User Entered T

j

in the Input

Parameters section. If you choose to automatically compute T

J

, select

Auto Computed T

j

in the Input Parameters section.

When automatically computing T

J

, the device’s ambient temperature, the

airflow, the heat sink solution and the board thermal model are
considered to determine the junction temperature (T

J

) in degrees Celsius.

T

J

is the estimated operating junction temperature based on your device

and thermal conditions.

The device can be considered a heat source and the junction temperature
is the temperature at the device. For simplicity, we can assume that the
temperature of the device is constant regardless of where it is being
measured. In reality, the temperature varies across the device.

Power can be dissipated from the device through many paths. Different
paths become significant depending on the thermal properties of the
system. In particular, the significance of power dissipation paths vary
depending on whether or not a heat sink is being used for the device.

Not Using a Heat Sink

When a heat sink is not used the major paths of power dissipation are
from the device to the air. This can be referred to as a junction-to-ambient
thermal resistance (

θ

JA

). In this case there are two significant junction-to-

P

s t a t i c

This shows the static power consumed irrespective of clock frequency. Does not include
static I/O current due to termination resistors, which is included in the I/O power above.

P

s t a t i c

is affected by junction temperature, selected device, and power characteristics.

TOTAL

This shows the total power dissipated as heat from the FPGA. Does not include power
dissipated in off-chip termination resistors.

See Power Supply Current for current draw from the FPGA supply rails. This may differ
due to currents supplied to off-chip components and thus not dissipated as heat in the
FPGA.

HardCopy II

This shows the approximate total power for the equivalent HardCopy II device. This field
is only available when a Stratix II device is being used. For more information on the
HardCopy II device suggested and further power details, click the HardCopy II button.

Table 3–12. Thermal Power Section Information

Column Heading

Description