lm7322mmx National Semiconductor Corporation, lm7322mmx Datasheet - Page 19

lm7322mmx

Manufacturer Part Number

lm7322mmx

Description

Lm7321 Single/ Lm7322 Dual Rail-to-rail Input/output, ?15v, High Output Current And Unlimited Capacitive Load Operational Amplifier

Manufacturer

National Semiconductor Corporation

Datasheet

1.LM7322MMX.pdf (24 pages)

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SETTLING TIME WITH LARGE CAPACITIVE LOADS

Figure 9 below, shows a typical application where the

LM7321/LM7322 is used as a buffer amplifier for the V

signal employed in a TFT LCD flat panel:

Figure 10 shows the time domain response of the amplifier

when used as a V

application, the op amp loop will try and maintain its output

voltage based on the voltage on its non-inverting input

load. As long as this load current is within the range tolerable

by the LM7321/LM7322 (45 mA sourcing and 65 mA sinking

for ±5V supplies), the output will settle to its final value within

less than 2 μs.

FIGURE 8. Output Sinking Characteristics with Load

REF

) despite the current injected into the TFT simulated

FIGURE 9. V

COM

buffer/driver with V

Driver Application Schematic

Lines

REF

at ground. In this

20205757

COM

20205758

OUTPUT SHORT CIRCUIT CURRENT AND DISSIPATION

ISSUES

The LM7321/LM7322 output stage is designed for maximum

output current capability. Even though momentary output

shorts to ground and either supply can be tolerated at all op-

erating voltages, longer lasting short conditions can cause the

junction temperature to rise beyond the absolute maximum

rating of the device, especially at higher supply voltage con-

ditions. Below supply voltage of 6V, the output short circuit

condition can be tolerated indefinitely.

With the op amp tied to a load, the device power dissipation

consists of the quiescent power due to the supply current flow

into the device, in addition to power dissipation due to the load

current. The load portion of the power itself could include an

average value (due to a DC load current) and an AC compo-

nent. DC load current would flow if there is an output voltage

offset, or the output AC average current is non-zero, or if the

op amp operates in a single supply application where the out-

put is maintained somewhere in the range of linear operation.

Therefore:

where:

: Supply Current

TOTAL

: V

: Total Supply Voltage (V

: Average Output Voltage

FIGURE 10. V

= I

= See Table 1 below

= I

for sourcing and V

= P

· V

· (V

+ P

- V

COM

)

+ P

Driver Performance Scope Photo

−

for sinking current

− V

−

Op Amp Quiescent Power

)

DC Load Power

AC Load Power

20205759

www.national.com

Dissipation

lm7322mmx National Semiconductor Corporation, lm7322mmx Datasheet - Page 19

lm7322mmx

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