The XC95108-7PQG160C is a high-performance Complex Programmable Logic Device (CPLD) from Xilinx. It belongs to the XC9500 family, known for its fast propagation delays and high levels of integration. This device is designed for a wide range of logic applications, including address decoding, peripheral control, and state machine implementation.

Applications

• Address Decoding
• Peripheral Control
• State Machine Implementation
• Glue Logic Replacement
• Interface Bridging

Features

• 108 Macrocells: Provides 108 macrocells for implementing complex logic functions.
• Fast Propagation Delay: Offers a fast propagation delay of 7.5 ns, ensuring high-speed operation.
• High I/O Count: Features a high number of I/O pins for interfacing with external devices.
• In-System Programmability (ISP): Supports in-system programmability, allowing for easy design updates.
• Low Power Consumption: Designed for low power consumption, making it suitable for battery-powered applications.
• Advanced Feature Set: Includes advanced features such as programmable slew rate control and output enable control.
• 160-Pin PQFP Package: Available in a 160-pin PQFP (Plastic Quad Flat Pack) package.

Benefits

• High Performance: Fast propagation delay enables high-speed operation in demanding applications.
• Flexibility: Programmable logic allows for flexible design changes and customization.
• Reduced Board Space: High level of integration reduces board space requirements.
• Simplified Design Updates: In-system programmability simplifies design updates and reduces development time.
• Lower Power Consumption: Low power consumption extends battery life in portable devices.

Additional Details

The XC95108-7PQG160C requires a 3.3V power supply. It is programmed using Xilinx's development tools, such as ISE or Vivado. The CPLD is non-volatile, meaning that it retains its configuration even when power is removed. This device is commonly used in embedded systems, industrial control systems, and communication equipment. The programmable slew rate control feature allows designers to optimize signal integrity and reduce electromagnetic interference (EMI). The in-system programmability feature is particularly useful for prototyping and debugging.