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| OPA452 Datasheet, PDF (11/17 Pages) Texas Instruments – 80V, 50mA OPERATIONAL AMPLIFIERS | |||
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typical output current of 125mA. With ±40V power supplies,
this creates an internal dissipation of 10W. This far exceeds
practical heat sinking and is not recommended. If operation
in this region is unavoidable, use the part with a heat sink.
HEAT SINKING
Power dissipated in the OPA452 or OPA453 will cause the
junction temperature to rise. For reliable operation, the junc-
tion temperature should be limited to +125°C. Many applica-
tions will require a heat sink to assure that the maximum
operating junction temperature is not exceeded. The heat
sink required depends on the power dissipated and on
ambient conditions.
For heat sinking purposes, the tab of the DDPAK is typically
soldered directly to a circuit board copper area. Increasing
the copper area improves heat dissipation. Figure 4 shows
typical thermal resistance from junction-to-ambient as a
function of copper area.
Depending on conditions, additional heat sinking may be
required. Aavid Thermal Products Inc. manufactures sur-
face-mountable heat sinks designed specifically for use with
these packages. Further information is available on Aavidâs
web site, www.aavid.com.
50
40
30
20
10
0
0
THERMAL RESISTANCE vs
CIRCUIT BOARD COPPER AREA
OPA452FA, OPA453FA
Surface-Mount Package
1oz. copper
1
2
3
4
5
Copper Area (inches2)
CAPACITIVE LOADS
The dynamic characteristics of the OPA452 and OPA453
have been optimized for commonly encountered gains, loads,
and operating conditions. The combination of low closed-
loop gain and capacitive load will decrease the phase margin
and may lead to gain peaking or oscillations. Figure 5 shows
a circuit that preserves phase margin with capacitive load.
Figure 6 shows the small-signal step response for the circuit
in Figure 5. Consult Application Bulletin SBOA015, at
www.ti.com, for more information.
+40V
RG
5kâ¦
VI
OPA452
RF
5kâ¦
CS
1.8nF
â40V
CF
270pF
10nF
FIGURE 5. Driving Large Capacitive Loads.
SMALL-SIGNAL STEP RESPONSE
(G = â1, CL = 10nF)
OPA452
Circuit Board Copper Area
2.5µs/div
FIGURE 6. Small-Signal Step Response for Figure 5.
OPA452FA, OPA453FA
Surface-Mount Package
FIGURE 4. DDPAK Thermal Resistance versus Circuit Board
Copper Area.
OPA452, 453
11
SBOS127C
www.ti.com
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