Manufacturer Part Number
AM26C32CNSR
Manufacturer
Texas Instruments
Introduction
The AM26C32CNSR, an interface receiver from Texas Instruments, is designed for communication protocols such as RS422 and RS423 and is widely used in data transmission applications.
Product Features and Performance
Quadruple differential line receiver
Supports RS422 and RS423 protocols
Optimized for balanced multipoint bus transmission
Receives up to four differential data lines
60 mV typical receiver hysteresis
Built-in input fail-safe circuitry
Receives with 3-state outputs
Compatible with TTL and CMOS
Product Advantages
Enhanced signal reception capabilities for reliable data communication
Low-power Schottky circuitry reduces power consumption
Designed for high-speed operation to support fast data rates
Operates from a single 5V power supply for easy integration
Key Technical Parameters
Number of Receivers: 4
Voltage Supply: 4.5V to 5.5V
Operating Temperature Range: 0°C to 70°C
Package: 16-SOIC with a width of 5.30mm
Mounting Type: Surface Mount
Receiver Hysteresis: 60 mV
Quality and Safety Features
Built to industry-standard specifications ensuring reliability
Fail-safe design guarantees a logic high output when inputs are open
Compliance with the RoHS directive for environmental safety
Compatibility
Compatible with RS422 and RS423 communication protocol standards
Interoperable with various transceivers and drivers supporting these protocols
TTL and CMOS logic level compatible outputs
Application Areas
Telecommunications
Data acquisition systems
Industrial control systems
Networking and data communication equipment
Product Lifecycle
Product Status: Last Time Buy
Includes information on nearing discontinuation with alternatives or replacements when available
Several Key Reasons to Choose This Product
Critical component for systems requiring high-speed differential reception
Robust quality guarantees long-term reliability
Supported by Texas Instruments' excellence in manufacturing and design expertise
Optimal price-performance ratio for large-scale communication systems
Future-proof design with last-time-buy status providing transition time for system upgrades