Datasheet

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OUTX

COM

ESDCurrent

Steering

Diodes

BUF12840

Schottky

Diode

ExternalCapacitor

(notrecommended)

LogicInput

DVDD

DigitalInput

ESD

Only

DVSS

LogicInput

LogicOutput

DVDD

DigitalInput/Output

ESD

Only

DVSS

BUF12840

SBOS519A –OCTOBER 2010– REVISED JULY 2011

www.ti.com

OUTPUT PROTECTION

The BUF12840 output stages can safely source and

sink the current levels indicated in Figure 1. However,

there are other modes where precautions must be

taken to prevent to the output stages from being

damaged by excessive current flow. The outputs

(OUT1 through OUT12) include electrostatic

discharge (ESD) protection diodes, as shown in

Figure 24. Normally, these diodes do not conduct and

are passive during typical device operation. Unusual

operating conditions can occur where the diodes may

conduct, potentially subjecting them to high, even

damaging current levels. These conditions are most

likely to occur when a voltage applied to an output

exceeds (V

) + 0.5V, or drops below GND – 0.5V.

One common scenario where this condition can occur

Figure 24. Output Pins ESD Protection

is when the output pin is connected to a sufficiently

Current-Steering Diodes

large capacitor, and the BUF12840 power-supply

source (V

) is suddenly removed. Removing the

power-supply source allows the capacitor to

discharge through the current-steering diodes. The

energy released during the high current flow period

causes the power dissipation limits of the diode to be

exceeded. Protection against the high current flow

may be provided by placing a Schottky diode, as

shown in Figure 24. This diode must be capable of

discharging the capacitor without allowing more than

0.5V to develop across the internal ESD

current-steering diodes. It is not recommended that

Figure 25. Digital Input Model

large capacitors be connected to the output of the

gamma buffers.

Figure 26 shows a simplified schematic of the SDA

Figure 25 shows a simplified schematic of the input

and SCL input/output pins. As shown, there are no

pins A0, BKSEL, EN, EA0, EA1, and LD. As shown,

ESD cells or diodes to supply; therefore, the input to

there are no ESD cells or diodes to supply; therefore,

the device can go above ground but must be lower

the input to the device can go above supply but must

than 6V.

be lower than 6V.

Figure 26. Digital Input/Output Model