Overview of SN75176BP by Texas Instruments
The SN75176BP manufactured by Texas Instruments is a differential bus transceiver, designed to operate within a wide range of digital communication systems. Encased in an 8-pin Plastic Dual-In-Line Package (DIP), it supports various interface standards including EIA-422-B, TIA-422-B, EIA-485-A, TIA-485-A, V.11, and X.27, which makes it suitable for multipoint communication networks. Characterized by its dual-functionality, it can operate as both a driver with a complmentary output and a receiver with 3-state outputs, enhancing its versatility in systems that require bidirectional communication.
This part is highlighted by its differential output and input characteristics that include Differential Schmitt Trigger, offering enhanced noise immunity and signal integrity over long cable distances or in electrically noisy environments. With a maximum operating temperature of 70°C, a nominal supply voltage of 5V, and lead (Pb)-free and RoHS compliance, the SN75176BP aligns with current environmental standards and power supply requirements in most commercial grade applications.
Industry Applications for SN75176BP
Given its specifications and performance characteristics, the SN75176BP may be suitable for a vast range of applications across multiple industries. Some potential use cases are:
- Consumer Electronics: It can be integrated into devices that require reliable data transmission, such as home automation systems or high-speed gaming peripherals, where signal integrity is crucial.
- Energy and Power Systems: In environments where electrical noise is prevalent, such as in smart grid or renewable energy installations, the differential signaling capabilities allow for robust communication between devices.
- Entertainment and Gaming: The SN75176BP’s ability to handle high-speed data transmission makes it ideal for arcade machines or video streaming devices, ensuring smooth operation and interactive user experiences.
- Communication and Networking: Its support for multiple interface standards and differential signaling makes it well-suited for networking equipment, including routers, switches, and networking cards, facilitating reliable data communication.
These applications benefit significantly from the product properties such as 3-state driver and receiver outputs, low power consumption, and minimal propagation delay, which reduce overall system power requirements and increase data throughput.
About Texas Instruments
Texas Instruments (TI) is a global semiconductor company that operates in more than 30 countries. Renowned for its innovative analog and digital signal processing (DSP) technologies, TI is a leader in manufacturing components for nearly every type of electronic system. In the realm of Line Drivers or Receivers, and more broadly in Drivers and Interfaces, TI has been pivotal in pioneering technologies that enhance device performance and advance industry standards. The SN75176BP is just one example of TI’s commitment to high-quality and reliable semiconductor products. They offer a wide range of similar parts, each designed to meet various operational requirements and applications, firmly positioning TI as a go-to manufacturer for electronic components that require precise and reliable data transmission.
Where to Find SN75176BP by Texas Instruments
Those looking to purchase the SN75176BP should start their search at findchips.com. The site offers comprehensive listings for parts availability from multiple distributors, ensuring you can find up-to-date stock levels and competitive pricing. For alternative parts to SN75176BP, exploring Line Driver or Receivers on findchips.com can provide options from Texas Instruments and other reputable manufacturers.
Historically, the SN75176BP has been available from distributors such as Component Electronics, Inc., CHIPMALL.COM LIMITED, Bristol Electronics, and Chip 1 Exchange, among others. While this provides a starting point, current availability and pricing can vary, so it’s recommended to visit findchips.com for the most current information.