Microchip Technology KSZ8695P Integrated Switch

The Microchip Technology KSZ8695P is a robust and versatile integrated switch designed to cater to the demanding requirements of embedded networking applications. This high-performance chip integrates a 5-port switch with a non-blocking architecture, ensuring efficient data transfer and management within networked devices.

Key Features:

• Integrated 5-Port Switch: The KSZ8695P features an advanced 5-port 10/100Mbps Ethernet switch that supports auto-negotiation and auto MDI/MDI-X crossover detection, simplifying network setup and maintenance.
• High Throughput: With a non-blocking switch fabric, the chip provides a high-speed data path for all ports, ensuring seamless data transmission and reducing packet loss.
• Quality of Service (QoS): The KSZ8695P supports QoS with four priority queues per port, enabling prioritization of traffic and enhancing network efficiency, especially for multimedia and VoIP applications.
• Advanced Management: The switch offers comprehensive management features, including port-based VLANs, tag-based VLANs (IEEE 802.1Q), and port mirroring, facilitating network segmentation and monitoring.
• Energy Efficient: The chip incorporates power-saving features that reduce energy consumption without compromising performance, making it an eco-friendly solution for modern networking devices.

Applications:

The KSZ8695P is ideally suited for a variety of networking applications, including:

• Home Networking Equipment
• SOHO Networking Devices
• Industrial Control Systems
• Networked Printers and Multifunction Devices
• Set-Top Boxes and Digital Media Adapters

Technical Specifications:

• Supply Voltage: 3.3V
• Operating Temperature: 0°C to 70°C
• Package: 128-Pin PQFP

The Microchip Technology KSZ8695P provides a comprehensive solution for network connectivity, offering high performance, advanced features, and energy efficiency. Its integration capabilities make it an ideal choice for developers looking to streamline their designs and enhance network reliability.