OPA1611 Datasheet, PDF(15/21 Page) Texas Instruments – High-Performance Bipolar-Input AUDIO OPERATIONAL AMPLIFIERS

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OPA1611

OPA1612

www.ti.com........................................................................................................................................................ SBOS450A â JULY 2009 â REVISED AUGUST 2009

When the operational amplifier connects into a circuit

such as the one Figure 34 shows, the ESD protection

components are intended to remain inactive and not

become involved in the application circuit operation.

However, circumstances may arise where an applied

voltage exceeds the operating voltage range of a

given pin. Should this condition occur, there is a risk

that some of the internal ESD protection circuits may

be biased on, and conduct current. Any such current

flow occurs through steering diode paths and rarely

involves the absorption device.

Figure 34 depicts a specific example where the input

voltage, VIN, exceeds the positive supply voltage

(+VS) by 500mV or more. Much of what happens in

the circuit depends on the supply characteristics. If

+VS can sink the current, one of the upper input

steering diodes conducts and directs current to +VS.

Excessively high current levels can flow with

increasingly higher VIN. As a result, the datasheet

specifications recommend that applications limit the

input current to 10mA.

If the supply is not capable of sinking the current, VIN

may begin sourcing current to the operational

amplifier, and then take over as the source of positive

supply voltage. The danger in this case is that the

voltage can rise to levels that exceed the operational

amplifier absolute maximum ratings. In extreme but

rare cases, the absorption device triggers on while

+VS and âVS are applied. If this event happens, a

direct current path is established between the +VS

and âVS supplies. The power dissipation of the

absorption device is quickly exceeded, and the

extreme internal heating destroys the operational

amplifier.

Another common question involves what happens to

the amplifier if an input signal is applied to the input

while the power supplies +VS and/or âVS are at 0V.

Again, it depends on the supply characteristic while at

0V, or at a level below the input signal amplitude. If

the supplies appear as high impedance, then the

operational amplifier supply current may be supplied

by the input source via the current steering diodes.

This state is not a normal bias condition; the amplifier

most likely will not operate normally. If the supplies

are low impedance, then the current through the

steering diodes can become quite high. The current

level depends on the ability of the input source to

deliver current, and any resistance in the input path.

If there is an uncertainty about the ability of the

supply to absorb this current, external zener diodes

may be added to the supply pins as shown in

Figure 34. The zener voltage must be selected such

that the diode does not turn on during normal

operation. However, its zener voltage should be low

enough so that the zener diode conducts if the supply

pin begins to rise above the safe operating supply

voltage level.

-In

+In

VIN(1)

+VS

OPA1611

Op-Amp

Core

ESD Current-

Steering Diodes

Out

Edge-Triggered ESD

Absorption Circuit

-V

-VS

(1) VIN = +VS + 500mV.

Figure 34. Equivalent Internal ESD Circuitry and Its Relation to a Typical Circuit Application

Product Folder Link(s): OPA1611 OPA1612

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