The XPC860SRZP50D3 is an embedded processor from the PowerQUICC™ family manufactured by Freescale Semiconductor (now NXP). This processor integrates a CPU core and various peripherals onto a single chip, designed to meet the demands of various embedded applications where processing power and efficient I/O are crucial.

Applications

• Routers, switches, and other networking devices.
• Industrial automation equipment and control systems.
• Telecommunications infrastructure.
• Automotive electronics and control units.
• Embedded systems requiring real-time processing.

Features

• Power Architecture™ core: Based on the PowerPC architecture, providing efficient processing capabilities.
• Integrated memory controller: Simplifies memory interface design and supports multiple memory types.
• Communication interfaces: Includes Ethernet, UART, and other interfaces for network connectivity and peripheral communication.
• DMA controller: Enables efficient data transfer between peripherals and memory without CPU intervention.
• Timers and counters: Provides timing and counting functions essential for real-time applications.

Benefits

• Reduced system cost: Integration of multiple functionalities on a single chip reduces the need for external components.
• Improved performance: The Power Architecture™ core and integrated peripherals enable efficient processing and data transfer.
• Simplified design: The integrated memory controller and communication interfaces streamline system design.
• Lower power consumption: Optimized power management features minimize power consumption in embedded applications.
• Enhanced reliability: Robust design and manufacturing ensure reliable operation in various environments.

Additional Details

The XPC860SRZP50D3 has a clock speed of 50 MHz. It supports a range of memory types, including SDRAM and Flash memory. The device is typically available in a Power Quad Flat Pack (PQFP) package. Refer to Freescale's (NXP) official documentation for detailed specifications, including voltage requirements, operating temperature range, and pin configurations.