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SN74AUP1G00DRYR Texas Instruments In Stock

SN74AUP1G00DRYR is a single 2-input NAND gate from Texas Instruments featuring ultra-low power AUP logic with 0.8V to 3.6V supply range. Key specs: propagation delay below 3.5ns, sub-microamp quiescent current, and Schmitt-trigger inputs for noise immunity. From $0.10, in stock with worldwide shipping.

ACTIVEVerified May 2026
Package / Visual Reference
SN74AUP1G00DRYRIC Package
Quick Facts
Manufacturer
Texas Instruments
Package
Lifecycle
ACTIVE
Datasheet
SN74AUP1G00DRYR Datasheet PDF
RoHS
Compliant
Lead Time
3–7 business days
Shipping
DHL Express · Worldwide

Key Features

  • Ultra-low power AUP logic family with sub-microamp quiescent current ideal for always-on and battery-sensitive designs
  • Wide supply voltage range of 0.8V to 3.6V enables use across multiple logic families and battery-powered systems
  • Schmitt-trigger inputs provide hysteresis for reliable switching in noisy environments and slow-edge signal conditions
  • Tiny DRY (1.5x1.4mm) package minimizes board space in ultra-compact wearable and IoT device designs

Applications

The SN74AUP1G00DRYR is used in portable consumer electronics, wearables, and IoT sensor nodes where minimum power consumption and small form factor are critical design requirements. Its wide voltage range and Schmitt-trigger inputs make it ideal for signal conditioning, clock gating, and logic-level translation in mixed-voltage digital systems. The device is also suited for always-on power management logic in energy-harvesting and ultra-low-power microcontroller applications.

Compliance & Regulatory

RoHS StatusCompliant
Lead-FreeYes (Pb-Free)

Datasheet

SN74AUP1G00DRYR Datasheet Download

Official datasheet from Texas Instruments

Alternate & Equivalent Parts

Compatible alternatives and drop-in replacements for SN74AUP1G00DRYR:

SN74AUP1G00DBVRTexas Instruments

NAND Gate, AUP/ULP/V Series, 1-Func, 2-Input, CMOS, PDSO5

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SN74AUP1G00DCKRTexas Instruments

NAND Gate, AUP/ULP/V Series, 1-Func, CMOS, PDSO5

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SN74AUP1G00DBVTTexas Instruments

NAND Gate, AUP/ULP/V Series, 1-Func, CMOS, PDSO5

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SN74AUP1G00DCKTTexas Instruments

NAND Gate, AUP/ULP/V Series, 1-Func, CMOS, PDSO5

View Part →
SN74AUP1T00DCKRTexas Instruments

NAND Gate, AUP/ULP/V Series, 1-Func, CMOS, PDSO5

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SN74AUP1G00YFPRTexas Instruments

NAND Gate, AUP/ULP/V Series, 1-Func, 2-Input, CMOS, PBGA6

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SN74AUP1G00DBVRG4Texas Instruments

NAND Gate, AUP/ULP/V Series, 1-Func, CMOS, PDSO5

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Frequently Asked Questions

What is the supply voltage range of the SN74AUP1G00DRYR?

The SN74AUP1G00DRYR operates from a supply voltage of 0.8V to 3.6V, making it compatible with low-voltage microcontrollers, energy-harvesting circuits, and systems powered by single-cell batteries.

Does the SN74AUP1G00DRYR have Schmitt-trigger inputs?

Yes, the SN74AUP1G00DRYR includes Schmitt-trigger inputs that provide hysteresis, ensuring reliable logic switching even with slow-rising, slow-falling, or noisy input signals in typical IoT and embedded system designs.

What package does the SN74AUP1G00DRYR come in?

The SN74AUP1G00DRYR is packaged in the ultra-small DRY (SOT-363) 6-pin package measuring only 1.5x1.4mm, making it one of the smallest options available for single-gate logic in space-constrained wearable and module designs.

What is the logic function of the SN74AUP1G00DRYR?

The SN74AUP1G00DRYR implements a single 2-input NAND gate; the output is LOW only when both inputs are HIGH, otherwise it is HIGH — a fundamental building block for combinational and sequential logic designs.

How does the AUP logic family compare to other TI single-gate families?

The AUP (Advanced Ultra-Low Power) family has lower quiescent current and supports a lower minimum supply voltage (0.8V) compared to LVC or HC families, making it the preferred choice for designs prioritizing battery life and minimum standby power.

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About Texas Instruments

Texas Instruments (TI) is a global semiconductor company headquartered in Dallas, Texas. TI designs and manufactures analog and embedded processing chips used in industrial, automotive, consumer, communications, and enterprise systems.

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Their engineering team helped us find a pin-compatible alternative when our original MCU went EOL.

MR
Marco Rossi
CTO, AutoDrive Systems, Italy