Configurable gates

Simplify your bill of materials with configurable logic

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Resolve common combinational logic issues such as combining power good signals, enabling or disabling digital signals, or monitoring multiple error signals with our portfolio of more than 20 configurable gates. Included device options enable up to 19 functions from a single channel device with push-pull and 3-state output types.

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Featured configurable gates

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SN74LVC2G100-Q1
NEW
Configurable gates
SN74LVC2G100-Q1 ACTIVE

Automotive two-channel 1.1V-to-3.6V configurable gate with flip-flop and Schmitt-trigger inputs

Approx. price (USD) 1ku | 0.328

SN74LVC2G100
NEW
Configurable gates
SN74LVC2G100 ACTIVE

Two-channel 1.1V-to-3.6V configurable gate with flip-flop and Schmitt-trigger inputs

Approx. price (USD) 1ku | 0.278

SN74LVC3G98
NEW
Configurable gates
SN74LVC3G98 ACTIVE

Three-channel 1.2V to 3.6V multiple-function configurable gate with Schmitt-trigger inputs

Approx. price (USD) 1ku | 0.278

SN74LVC3G98-Q1
NEW
Configurable gates
SN74LVC3G98-Q1 ACTIVE

Automotive, 3-channel 1.2V-to-3.6V multiple-function configurable gate with Schmitt-trigger inputs

Approx. price (USD) 1ku | 0.328

SN74LVC3G97-Q1
NEW
Configurable gates
SN74LVC3G97-Q1 ACTIVE

Automotive, three-channel 1.1V-to-3.6V multiple-function configurable gate

Approx. price (USD) 1ku | 0.328

SN74LVC3G97
NEW
Configurable gates
SN74LVC3G97 ACTIVE

Three-channel 1.1V-to-3.6V multiple-function configurable gate

Approx. price (USD) 1ku | 0.278

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Why should you choose our configurable gates?

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Diverse functionality

Condense board space by having multiple logic functions in a single package 

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Small packages 

Packages as small as 1 mm2 ranging from 6 to 16 pins

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Qualified for the latest industry standards

Testing and manufacturing to meet quality requirements for automotive, military, and industrial. 

Common applications of configurable gates

Use fewer inputs to monitor error signals

Many systems have multiple error flags to monitor. When it's more important that an error occurred than exactly which module had the error, it is possible to reduce the number of inputs required to monitor these error flags. This video discusses one method to reduce the number of required inputs to monitor a set of error flag outputs in an example system.

Technical resources

More literature
More literature
SN74LVC1G97 and SN74LVC1G98 Product Clip (Rev. A)
TI's broad portfolio of configurable logic gates enables users to implement two-stage designs, save board space and simplify part management with multi-functional gates.
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Application brief
Application brief
Understanding Schmitt Triggers (Rev. A)
Use a Schmitt-trigger type device to translate slow or noisy edges into something faster that meets the input rise and fall specs of the following device. A true Schmitt trigger input will not have rise and fall time limitations.
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Application note
Application note
CMOS Power Consumption and CPD Calculation (Rev. B)
This application report addresses the different types of power consumption in a CMOS logic circuit, focusing on calculation of power-dissipation capacitance (Cpd), and the determination of total power consumption in a CMOS device.
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