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TLC080A Datasheet, PDF (24/52 Pages) Texas Instruments – FAMILY OF WIDE BANDWIDTH HIGH OUTPUT DRIVE SINGLE SUPPLY OPERATIONAL AMPLIFIERS
TLC080, TLC081, TLC082, TLC083, TLC084, TLC085, TLC08xA
FAMILY OF WIDEĆBANDWIDTH HIGHĆOUTPUTĆDRIVE SINGLE SUPPLY
OPERATIONAL AMPLIFIERS
SLOS254D − JUNE 1999 − REVISED FEBRUARY 2004
APPLICATION INFORMATION
general PowerPAD design considerations (continued)
MAXIMUM POWER DISSIPATION
vs
FREE-AIR TEMPERATURE
7
PWP Package
Low-K Test PCB
TJ = 150°C
6
θJA = 29.7°C/W
SOT-23 Package
5
DGN Package
Low-K Test PCB
θJA = 324°C/W
Low-K Test PCB
4 θJA = 52.3°C/W
SOIC Package
Low-K Test PCB
3 PDIP Package
θJA = 176°C/W
Low-K Test PCB
2 θJA = 104°C/W
1
0
−55 −40 −25 −10 5 20 35 50 65 80 95 110 125
TA − Free-Air Temperature − °C
NOTE A: Results are with no air flow and using JEDEC Standard Low-K test PCB.
Figure 54. Maximum Power Dissipation vs Free-Air Temperature
The next consideration is the package constraints. The two sources of heat within an amplifier are quiescent
power and output power. The designer should never forget about the quiescent heat generated within the
device, especially multi-amplifier devices. Because these devices have linear output stages (Class A-B), most
of the heat dissipation is at low output voltages with high output currents.
The other key factor when dealing with power dissipation is how the devices are mounted on the PCB. The
PowerPAD devices are extremely useful for heat dissipation. But, the device should always be soldered to a
copper plane to fully use the heat dissipation properties of the PowerPAD. The SOIC package, on the other
hand, is highly dependent on how it is mounted on the PCB. As more trace and copper area is placed around
the device, θJA decreases and the heat dissipation capability increases. The currents and voltages shown in
these graphs are for the total package. For the dual or quad amplifier packages, the sum of the RMS output
currents and voltages should be used to choose the proper package.
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