CD40106BE - Texas Instruments

Manufacturer Part Number

CD40106BE

Manufacturer

Texas Instruments

Introduction

The CD40106BE is a hex inverting Schmitt trigger from the 4000B series, encapsulated in a 14-PDIP package, designed for logic gate and inverter functions.

Product Features and Performance

Features six Schmitt trigger inverters in one package

Wide supply voltage range from 3V to 18V

Low current consumption: Maximum quiescent current of 4 µA

Symmetric output characteristics: 3.4mA source and sink current

Input logic levels accommodate standard CMOS levels

Maximum propagation delay of 120ns at 15V with a 50pF load

Product Advantages

High noise immunity due to Schmitt trigger action

Flexible to use across a wide range of supply voltages

Minimal power consumption enhances device longevity

Key Technical Parameters

Supply Voltage: 3V ~ 18V

Quiescent Current (Max): 4 µA

Output Current (High, Low): 3.4mA, 3.4mA

Low Input Logic Level: 0.9V ~ 4V

High Input Logic Level: 3.6V ~ 10.8V

Propagation Delay (Max): 120ns @ 15V, 50pF

Operating Temperature: -55°C ~ 125°C

Quality and Safety Features

High thermal tolerance ensuring operability from -55°C to 125°C

Fabricated using robust CMOS technology for enhanced reliability

Compatibility

Compatible with other CMOS and TTL logic families when the respective voltage levels are matched

Through-hole mounting technique for secure PCB attachment

Application Areas

Waveform shaping

Signal conditioning

Clock signal generation for microprocessors

Logic signal interconversion

Product Lifecycle

Current product status: Active

No indication of discontinuation, ensuring long-term availability

Several Key Reasons to Choose This Product

Versatile power supply compatibility from 3V up to 18V fits various design specifications

Extremely low power consumption which is crucial for power-sensitive applications

Built-in Schmitt trigger for high noise immunity, suitable for noisy operational environments

Suitable for operating in a wide range of temperatures from very cold to extremely hot conditions

Support high-speed operations with its low maximal propagation delay