TLC3704-Q1 Datasheet, PDF(5/23 Page) Texas Instruments – QUAD MICROPOWER LINCMOS VOLTAGE COMPARATORS

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TLC3704-Q1 Datasheet, PDF (5/23 Pages) Texas Instruments – QUAD MICROPOWER LINCMOS VOLTAGE COMPARATORS

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TLC3704ÄQ1

QUAD MICROPOWER LinCMOSï£ª VOLTAGE COMPARATORS

PRINCIPLES OF OPERATION

SGLS191 â JUNE 2004

LinCMOS process

The LinCMOS process is a linear polysilicon-gate CMOS process. Primarily designed for single-supply

applications, LinCMOS products facilitate the design of a wide range of high-performance analog functions from

operational amplifiers to complex mixed-mode converters.

This short guide is intended to answer the most frequently asked questions related to the quality and reliability

of LinCMOS products. Direct further questions to the nearest TI field sales office.

electrostatic discharge

CMOS circuits are prone to gate oxide breakdown when exposed to high voltages even if the exposure is only

for very short periods of time. Electrostatic discharge (ESD) is one of the most common causes of damage to

CMOS devices. It can occur when a device is handled without proper consideration for environmental

electrostatic charges, e.g., during board assembly. If a circuit in which one amplifier from a dual op amp is being

used and the unused pins are left open, high voltages tends to develop. If there is no provision for ESD

protection, these voltages may eventually punch through the gate oxide and cause the device to fail. To prevent

voltage buildup, each pin is protected by internal circuitry.

Standard ESD-protection circuits safely shunt the ESD current by providing a mechanism whereby one or more

transistors break down at voltages higher than the normal operating voltages but lower than the breakdown

voltage of the input gate. This type of protection scheme is limited by leakage currents which flow through the

shunting transistors during normal operation after an ESD voltage has occurred. Although these currents are

small, on the order of tens of nanoamps, CMOS amplifiers are often specified to draw input currents as low as

tens of picoamps.

To overcome this limitation, TI design engineers developed the patented ESD-protection circuit shown in

Figure 1. This circuit can withstand several successive 2-kV ESD pulses, while reducing or eliminating leakage

currents that may be drawn through the input pins. A more detailed discussion of the operation of the TI

ESD-protection circuit is presented on the next page.

All input and output pins on LinCMOS and Advanced LinCMOS products have associated ESD-protection

circuitry that undergoes qualification testing to withstand 2000 V discharged from a 100-pF capacitor through

a 1500-â¦ resistor (human body model) and 200 V from a 100-pF capacitor with no current-limiting resistor

(charged device model). These tests simulate both operator and machine handling of devices during normal

test and assembly operations.

Input

VDD

To Protected Circuit

GND

Figure 1. LinCMOS ESD-Protection Schematic

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