ON Semiconductor MC74VHC132DTR2 Product Overview

The MC74VHC132DTR2 is a high-speed CMOS Quad 2-Input NAND Schmitt Trigger designed and manufactured by ON Semiconductor, a leading player in energy-efficient innovations. This integrated circuit (IC) is part of ON Semiconductor's VHC family, which is known for combining the low power dissipation of CMOS with the high speed of LSTTL gates.

The MC74VHC132DTR2 is characterized by its high noise immunity and low power consumption, making it a reliable and efficient choice for a wide range of applications. It operates with a supply voltage range of 2.0 to 5.5 volts, accommodating the needs of various systems and ensuring compatibility with both TTL and CMOS technologies.

Each gate in the MC74VHC132DTR2 features two inputs and a standard push-pull output. The Schmitt Trigger function provides a hysteresis between the positive-going and negative-going input thresholds, which is typically 1.2 volts at VCC = 5V. This hysteresis makes the gates highly tolerant to slower input rise and fall times, and it helps to eliminate noise that could otherwise cause unwanted switching.

The device is offered in a TSSOP-14 package, providing a compact footprint for space-constrained applications. The package is also surface-mount, which facilitates easier assembly and integration into various electronic systems. The MC74VHC132DTR2 is ideal for use in wave and pulse shapers, high-noise-environment systems, and logic signal processing where noise immunity and input hysteresis are critical.

Key features of the MC74VHC132DTR2 include:

• High Speed: t_PD 8.5 ns (Typ) at VCC = 5V
• Low Power Dissipation: I_CC = 2 µA (Max) at TA = 25°C
• Power Down Protection Provided on Inputs
• Low Noise: V_OLP = 0.8 V (Max)
• Pin and Function Compatible with Other Standard Logic Families
• Lead-Free, RoHS Compliant

The MC74VHC132DTR2 is a versatile and robust component that ensures stable performance in a variety of electronic circuits. Its combination of high-speed operation, low power consumption, and noise immunity makes it a preferred choice for designers looking to create reliable and efficient digital systems.