HIP0080 データシートの表示(PDF) - Intersil
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HIP0080 Datasheet PDF : 14 Pages
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HIP0080, HIP0081
The Junction-to-Ambient equivalent to Equation 3, 3A is:
TJ = TA + PD × θJA
(EQ. 5)
or:
TA = TJ – PD × θJA
(EQ. 5A)
Not all Integrated Circuit packages have a directly definable
case temperature because the heat is spread through the
lead frame to a PC Board which is the effective heat sink.
Calculation Example 1
For the HIP0081, θJC = 3oC/W and the worst case junction
temperature, as an application design solution, should not
exceed 150oC. For a given application, Equation 1
determines the dissipation, PD.
Assume the package is mounted to a heat sink having a
thermal resistance of 6oC/W and, for a given application,
assume the dissipation is 3W and the ambient temperature
(TA) is 100oC. From Equation 4, θJA is 9oC/W. The solution
for junction temperature (TC) by Equation 3 is:
TJ = 100oC + 3W x 9oC/W = 127oC.
Calculation Example 2:
Assume for the HIP0080, θJA = 30oC/W mounted on a PC
Board with good heat sinking characteristics. Again, the
worst case junction temperature, as an application design
solution, should not exceed 150oC. Assume from the
application, based on Equation 1, the dissipation,
PD = 1.5W. The maximum junction temperature is known
and can be used to determine the maximum allowable
ambient temperature from Equation 5A as follows:
TA = 150oC - 1.5W x 30oC/W = 105oC.
Equal Current Loading Solution
Many applications may have equal current loading in the
output drivers with equal saturated turn ON and
temperature conditions. As such, a convenient method to
show rating boundaries is to substitute the dissipation
Equation 2 into the junction temperature Equation 3. For m
outputs that are ON and conducting with equal currents,
where I = I1 = I2..... = Im, we have the following solution for
dissipation:
PD = m × Pk = m × I2 × rDS(ON)
(EQ. 6)
I = m-------×-----θ---J-T--C--J---×-–----Tr---D-C---S----(--O----N-----)
(EQ. 7)
The number of output drivers ON and conducting (m) may
be from 1 to n. (i.e., For all four output drivers of the HIP0081
ON, m = 4.) Maximum temperature, dissipation and current
ratings must be observed. For a defined number of
conducting Power MOS Output Drivers, we can plot the
results for m devices showing I vs TC.
Given the HIP0081 as an example, Figures 6 and Figure 7
illustrate the boundaries for temperature and current. Figure
6 shows the maximum current for a single output ON while
Figure 7 shows the maximum current for all four outputs ON
with equal current plotted versus Case Temperature, TC.
Boundary conditions relate to the Absolute Maximum
Ratings as defined in the Data Sheet.
3.0
2.5
MAX. +IOUT(DC)
2.0
1.5
(1)
CURVE (1): rDS(ON) = 1Ω
1.0
(2)
CURVE (2): rDS(ON) = 0.5Ω
0.5
THERMAL RESISTANCE, θJC = 3oC/W
0.0
50
75
100
125
150
CASE (HEAT SINK TAB) TEMPERATURE (oC)
FIGURE 6. HIP0081 MAXIMUM SINGLE OUTPUT CURRENT vs CASE (TAB) TEMPERATURE
10
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