Manufacturer Part Number
SN74HC165DT
Manufacturer
Texas Instruments
Introduction
The SN74HC165DT is an 8-bit parallel-load shift register from Texas Instruments. It features a parallel data input and a serial data output, allowing for efficient data transfer and conversion between parallel and serial formats. This device is widely used in digital logic circuits, microcontroller systems, and various electronic applications.
Product Features and Performance
8-bit parallel-load shift register
Parallel data input and serial data output
Complementary outputs
Operates on a wide supply voltage range of 2V to 6V
Wide operating temperature range of -40°C to 125°C
Surface mount package (16-SOIC)
Product Advantages
Efficient data conversion between parallel and serial formats
Wide supply voltage and temperature range for diverse applications
Complementary outputs for flexible interface with other logic devices
Small surface mount package for compact design
Key Reasons to Choose This Product
Reliable and high-performance shift register from a trusted manufacturer
Versatile functionality for various digital logic and control applications
Compact surface mount package for space-constrained designs
Cost-effective solution for parallel-to-serial data conversion needs
Quality and Safety Features
Robust design and high-quality manufacturing by Texas Instruments
Compliance with industry safety and reliability standards
Compatibility
The SN74HC165DT is compatible with a wide range of digital logic devices and can be easily integrated into various electronic systems.
Application Areas
Digital logic circuits
Microcontroller systems
Data acquisition and control systems
Industrial automation and control
Telecommunications equipment
Consumer electronics
Product Lifecycle
The SN74HC165DT is a discontinued product. However, there are equivalent or alternative models available from Texas Instruments, such as the SN74HC165N and SN74HC165PWR. Customers are advised to contact our website's sales team for more information on current product availability and alternatives.