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SN74AHCT132
  • SN74AHCT132
  • SN74AHCT132
  • SN74AHCT132
  • SN74AHCT132
  • SN74AHCT132
  • SN74AHCT132
  • SN74AHCT132
  • SN74AHCT132

SN74AHCT132

ACTIVE

4-ch, 4-input, 4.5-V to 5.5-V NAND gates with Schmitt-Trigger inputs

Texas Instruments SN74AHCT132 Product Info

1 April 2026 2

Parameters

Technology family

AHCT

Supply voltage (min) (V)

4.5

Supply voltage (max) (V)

5.5

Number of channels

4

Inputs per channel

4

IOL (max) (mA)

8

IOH (max) (mA)

-8

Input type

Schmitt-Trigger

Output type

Push-Pull

Features

Over-voltage tolerant inputs, Very high speed (tpd 5-10ns)

Data rate (max) (Mbps)

70

Rating

Catalog

Operating temperature range (°C)

-40 to 85

Package

PDIP (N)-14-181.42 mm² 19.3 x 9.4

Features

  • Operating range of 4.5 V to 5.5 V
  • Low power consumption, 10-µA maximum I CC
  • ±8-mA output drive at 5 V
  • Operation from very slow input transitions
  • Temperature-compensated threshold levels
  • High noise immunity
  • Same pinouts as ’AHCT00
  • Latch-up performance exceeds 250 mA per JESD 17
  • Operating range of 4.5 V to 5.5 V
  • Low power consumption, 10-µA maximum I CC
  • ±8-mA output drive at 5 V
  • Operation from very slow input transitions
  • Temperature-compensated threshold levels
  • High noise immunity
  • Same pinouts as ’AHCT00
  • Latch-up performance exceeds 250 mA per JESD 17

Description

The ’AHCT132 devices are quadruple positive-NAND gates. These devices perform the Boolean function Y = A • B or Y = A + B in positive logic.

Each circuit functions as a NAND gate, but because of the Schmitt action, it has different input threshold levels for positive- and negative-going signals. These circuits are temperature compensated and can be triggered from the slowest of input ramps and still give clean jitter-free output signals.

The ’AHCT132 devices are quadruple positive-NAND gates. These devices perform the Boolean function Y = A • B or Y = A + B in positive logic.

Each circuit functions as a NAND gate, but because of the Schmitt action, it has different input threshold levels for positive- and negative-going signals. These circuits are temperature compensated and can be triggered from the slowest of input ramps and still give clean jitter-free output signals.

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