Introduction

The Counter Shift Registers SN74HC166N by Texas Instruments are high-speed CMOS logic devices designed for parallel-to-serial data conversion in digital systems. These ICs are widely used in Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers where efficient data handling, signal processing, and control logic are essential. Manufactured by Texas Instruments, the SN74HC166N Counter Shift Registers deliver reliable and consistent performance across a wide range of applications.

Technical Specifications of SN74HC166N Counter Shift Registers

General Specifications

• Manufacturer: Texas Instruments

• Part Number: SN74HC166N

• Product Type: 8-Bit Parallel-In Serial-Out Shift Register

• Logic Type: CMOS

• Number of Bits: 8

• Supply Voltage: 2V to 6V

• Package: DIP (Dual In-line Package)

• Mounting Type: Through Hole

• Clock Type: Synchronous

• Product Category: Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers

These specifications make the SN74HC166N ideal for data conversion tasks in Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers applications.

Key Features of SN74HC166N Counter Shift Registers

Design and Performance Benefits

• Parallel-in serial-out (PISO) data conversion

• High-speed CMOS operation

• Low power consumption

• Compact and reliable design

• Wide operating voltage range

The SN74HC166N Counter Shift Registers by Texas Instruments are engineered to meet the needs of Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers systems.

Applications of SN74HC166N Counter Shift Registers

Common Use Cases

• Data serialization

• Digital communication systems

• Embedded controllers

• Signal processing circuits

• Data storage and transfer systems

These applications highlight the versatility of SN74HC166N Counter Shift Registers in Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers across multiple industries.

Circuit Integration Overview

Installation Guidelines

• Ensure proper clock signal input

• Load parallel data correctly before shifting

• Avoid floating inputs

• Use decoupling capacitors for stable operation

Proper integration ensures optimal performance in Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers applications.

Use Case Example: Data Transmission Circuit

Practical Implementation

• Application: Serial data communication

• Challenge: Converting parallel data to serial format efficiently

• Solution: SN74HC166N Counter Shift Registers by Texas Instruments

• Result: Simplified data transmission with reduced wiring

This example demonstrates the effectiveness of SN74HC166N Counter Shift Registers in Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers applications.

Datasheet Information

For detailed electrical characteristics, timing diagrams, and pin configurations, refer to the official Texas Instruments datasheet available through authorized distributors.

Why Buy SN74HC166N Counter Shift Registers from X-On Electronics?

Purchasing SN74HC166N Counter Shift Registers by Texas Instruments from
X-On Electronics ensures:

• 100% genuine Texas Instruments components

• Competitive pricing and bulk availability

• Fast global shipping

• Dedicated technical and customer support

Order today from X-On Electronics for trusted Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers solutions.

FAQs – SN74HC166N Counter Shift Registers

What is SN74HC166N used for?

It is used for converting parallel data into serial output.

How many bits does it support?

It supports 8-bit data input.

What is the operating voltage range?

It operates between 2V and 6V.

Is it suitable for through-hole mounting?

Yes, it comes in a DIP package.

Where can I buy this product online?

You can buy it from X-On Electronics with worldwide delivery.

Conclusion

The SN74HC166N Counter Shift Registers by Texas Instruments provide a reliable and efficient solution for data conversion and signal processing. As a trusted component in Semiconductors, Integrated Circuits - ICs, Logic ICs, Counter Shift Registers, they are ideal for ensuring accurate and efficient digital communication.