Manufacturer Part Number
KSZ9897STXC-TR
Manufacturer
Microchip Technology
Introduction
The KSZ9897STXC-TR is a highly integrated Ethernet switch controller from Microchip Technology. This versatile device offers advanced features and performance for a wide range of Ethernet-based applications, providing a robust and reliable solution for seamless network connectivity.
Product Features and Performance
Supports Ethernet standards up to 1000Base-T
Integrated 7-port Ethernet switch with flexible port configuration
Supports advanced switching features such as VLAN, QoS, and IGMP snooping
Provides I2C and SPI interfaces for easy system integration
Operates on a wide range of supply voltages from 1.8V to 3.3V
Supports an operating temperature range of 0°C to 70°C
Product Advantages
Highly integrated design reducing overall system complexity and cost
Robust switching capabilities for reliable network performance
Flexible interface options for versatile system integration
Wide voltage and temperature range for diverse application environments
Key Reasons to Choose This Product
Proven reliability and performance from a trusted manufacturer
Comprehensive set of features for advanced Ethernet networking
Seamless integration with various system architectures
Cost-effective solution for a wide range of Ethernet-based applications
Quality and Safety Features
Rigorous quality control and testing procedures
Compliance with relevant industry standards and regulations
Compatibility
The KSZ9897STXC-TR is compatible with a variety of Ethernet-based systems and devices, making it a versatile choice for numerous applications.
Application Areas
Industrial automation and control systems
Networking equipment and infrastructure
Consumer electronics with Ethernet connectivity
Embedded systems requiring Ethernet switching capabilities
Product Lifecycle
The KSZ9897STXC-TR is an active product in our portfolio. There are no immediate plans for discontinuation, and customers can contact our website's sales team for the latest information on availability and potential alternative models.