EN6360QI Просмотр технического описания (PDF) - Enpirion, Inc.
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EN6360QI Datasheet PDF : 24 Pages
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Thermal Considerations
Thermal considerations are important power supply
design facts that cannot be avoided in the real
world. Whenever there are power losses in a
system, the heat that is generated by the power
dissipation needs to be accounted for. The Enpirion
PowerSoC helps alleviate some of those concerns.
The Enpirion EN6360QI DC-DC converter is
packaged in an 8x11x3mm 68-pin QFN package.
The QFN package is constructed with copper lead
frames that have exposed thermal pads. The
exposed thermal pad on the package should be
soldered directly on to a copper ground pad on the
printed circuit board (PCB) to act as a heat sink.
The recommended maximum junction temperature
for continuous operation is 125°C. Continuous
operation above 125°C may reduce long-term
reliability. The device has a thermal overload
protection circuit designed to turn off the device at
an approximate junction temperature value of
150°C.
The EN6360QI is guaranteed to support the full 8A
output current up to 85°C ambient temperature.
The following example and calculations illustrate
the thermal performance of the EN6360QI.
Example:
VIN = 5V
VOUT = 3.3V
IOUT = 8A
First calculate the output power.
POUT = 3.3V x 8A = 26.4W
Next, determine the input power based on the
efficiency (η) shown in Figure 8.
100
90
80
70
60
50
40
30
20
10
0
0
Efficiency vs. Output Current
94%
VOUT = 3.3V
CONDITIONS
VIN = 5.0V
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OUTPUT CURRENT (A)
Figure 8: Efficiency vs. Output Current
EN6360QI
For VIN = 5V, VOUT = 3.3V at 8A, η ≈ 94%
η = POUT / PIN = 94% = 0.94
PIN = POUT / η
PIN ≈ 26.4W / 0.94 ≈ 28.085W
The power dissipation (PD) is the power loss in the
system and can be calculated by subtracting the
output power from the input power.
PD = PIN – POUT
≈ 28.085W – 26.4W ≈ 1.685W
With the power dissipation known, the temperature
rise in the device may be estimated based on the
theta JA value (θJA). The θJA parameter estimates
how much the temperature will rise in the device for
every watt of power dissipation. The EN6360QI has
a θJA value of 15 ºC/W without airflow.
Determine the change in temperature (∆T) based
on PD and θJA.
∆T = PD x θJA
∆T ≈ 1.685W x 15°C/W = 25.28°C ≈ 25.3°C
The junction temperature (TJ) of the device is
approximately the ambient temperature (TA) plus
the change in temperature. We assume the initial
ambient temperature to be 25°C.
TJ = TA + ∆T
TJ ≈ 25°C + 25.3°C ≈ 50.3°C
With 1.685W dissipated into the device, the TJ will
be 50.3°C.
The maximum operating junction temperature
(TJMAX) of the device is 125°C, so the device can
operate at a higher ambient temperature. The
maximum ambient temperature (TAMAX) allowed can
be calculated.
TAMAX = TJMAX – PD x θJA
≈ 125°C – 25.3°C ≈ 99.7°C
The ambient temperature can actually rise by
another 74.7°C, bringing it to 99.7°C before the
device will reach TJMAX. This indicates that the
EN6360QI can support the full 8A output current
range up to approximately 99.7°C ambient
temperature given the input and output voltage
conditions. This allows the EN6360QI to guarantee
full 8A output current capability at 85°C with room
for margin. Note that the efficiency will be slightly
lower at higher temperatures and this estimate will
be slightly lower.
©Enpirion 2011 all rights reserved, E&OE
06489
Enpirion Confidential
April 16, 2012
www.enpirion.com, Page 19
Rev: C
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