![](/user_photo/2706_HbeT2.jpg)
- •Navigating This Book
- •Table of Contents
- •Introduction
- •The History of Programmable Logic
- •Complex Programmable Logic Devices (CPLDs)
- •Why Use a CPLD?
- •Field Programmable Gate Arrays (FPGAs)
- •Design Integration
- •The Basic Design Process
- •HDL File Change Example
- •Before (16 x 16 multiplier):
- •After (32 x 32 multiplier):
- •Intellectual Property (IP) Cores
- •Design Verification
- •Xilinx Solutions
- •Introduction
- •Xilinx Devices
- •Platform FPGAs
- •Virtex FPGAs
- •Virtex-II Pro FPGAs
- •Virtex FPGAs
- •Spartan FPGAs
- •Spartan-3 FPGAs
- •Spartan-IIE FPGAs
- •Spartan-IIE Architectural Features
- •Xilinx CPLDs
- •XC9500 ISP CPLD Overview
- •XC9500XL 3.3V Family
- •XC9500XV 2.5V CPLD Family
- •CoolRunner Low-Power CPLDs
- •CoolRunner-II CPLDs
- •CoolRunner Reference Designs
- •Military and Aerospace
- •Automotive and Industrial
- •Design Tools
- •Design Entry
- •Synthesis
- •Implementation and Configuration
- •Board-Level Integration
- •Verification Technologies
- •Advanced Design Techniques
- •Embedded SW Design Tools Center
- •Xilinx IP Cores
- •Web-Based Information Guide
- •End Markets
- •Silicon Products and Solutions
- •Design Resources
- •System Resources
- •Xilinx Online (IRL)
- •Configuration Solutions
- •Processor Central
- •Tools and Partnerships
- •Memory Corner
- •Silicon
- •Design Tools and Boards
- •Technical Literature and Training
- •Connectivity Central
- •High-Speed Design Resources
- •Signal Integrity Tools
- •Partnerships
- •Signal Integrity
- •Services
- •Xilinx Design Services
- •Education Services
- •Live E-Learning Environment
- •Day Segment Courses
- •Computer-Based Training (CBT)
- •University Program
- •Design Consultants
- •Technical Support
- •Module Descriptions
- •WebPACK Design Suite
- •WebPACK Design Entry
- •WebPACK StateCAD
- •WebPACK MXE Simulator
- •WebPACK HDL Bencher Tool
- •WebPACK FPGA Implementation Tools
- •WebPACK CPLD Implementation Tools
- •WebPACK iMPACT Programmer
- •WebPACK ChipViewer
- •XPower
- •WebPACK CD-ROM Installation
- •Getting Started
- •Licenses
- •Projects
- •Summary
- •Introduction
- •Design Entry
- •The Language Template
- •Close the Language Templates
- •Edit the Counter Module
- •Save the Counter Module
- •Functional Simulation
- •State Machine Editor
- •Top-Level VHDL Designs
- •Top-Level Schematic Designs
- •ECS Hints
- •I/O Markers
- •Implementing CPLDs
- •Introduction
- •Synthesis
- •Constraints Editor
- •CPLD Reports
- •Timing Simulation
- •Configuration
- •Implementing FPGAs
- •Introduction
- •Synthesis
- •The Constraints File
- •FPGA Reports
- •Programming
- •Summary
- •Design Reference Bank
- •Introduction
- •Get the Most out of Microcontroller-Based Designs
- •Conventional Stepper Motor Control
- •Using a Microcontroller to Control a Stepper Motor
- •Stepper Motor Control Using a CPLD
- •PC-Based Motor Control
- •Design Partitioning
- •Conclusion
- •Documentation and Example Code
- •Website Reference
- •ACRONYMS
- •GLOSSARY OF TERMS
![](/html/2706/360/html_VlCnZR7m53.iSY_/htmlconvd-3KC6_483x1.jpg)
XILINX SOLUTIONS
Table 2-5 details the current reference designs. These are continually updated, so check regularly for new listings.
TABLE 2-5: CURRENT REFERENCE DESIGNS
Military and Aerospace
Xilinx is the leading supplier of high-reliability PLDs to the aerospace and defense markets. These devices are used in a wide range of applications such as electronic warfare, missile guidance and targeting, RADAR, SONAR communications, signal processing, avionics, and satellites.
The Xilinx QPro family of ceramic and plastic QML products provides you with advanced programmable logic solutions for next-generation designs. The QPro family also includes select products that are radiation hardened for use in satellite and other space applications.
Our quality management system is fully compliant with all ISO9001 requirements. In 1997, Xilinx became fully qualified as a QML supplier by meeting all of the requirements for MIL Standard 38535.
Automotive and Industrial
XILINX IQ SOLUTIONS – ARCHITECTING AUTOMOTIVE
INTELLIGENCE
In-car electronic content is increasing at a phenomenal rate. It includes such applications as navigation systems, entertainment systems, instrument clusters, advanced driver information systems, and communications devices.
Xilinx • 71
![](/html/2706/360/html_VlCnZR7m53.iSY_/htmlconvd-3KC6_484x1.jpg)
PROGRAMMABLE LOGIC DESIGN: QUICK START HANDBOOK • CHAPTER 2
To address the needs of automotive electronics designers, Xilinx has created a new family of devices with an extended industrial temperature range option.
This new “IQ” family consists of existing Xilinx industrial grade (I) FPGAs and CPLDs, with the addition of a new extended temperature grade (Q) for selected devices.
The new IQ product grade (-40°C to +125°C ambient for CPLDs and junction for FPGAs) is ideal for automotive and industrial applications. The wide range of device density and package combinations enables you to deliver highperformance, cost-effective, flexible solutions that meet your application needs.
Design-In Flexibility
With Xilinx IQ devices, you can design-in flexibility and get your product to market faster than ever before.
Because many new standards continue to evolve (such as the LIN, MOST, and FlexRay in-car busing standards), you need the flexibility to quickly modify your designs at any time.
With our unique Internet Reconfigurable Logic (IRL) capability, you can remotely and automatically modify your designs, in the field, after your product has left the factory.
By combining our latest IQ PLDs with our solutions infrastructure of highproductivity software, IP cores, design services, and customer education, you can develop advanced, highly flexible products faster than ever before.
For more information, visit www.xilinx.com/automotive.
FIGURE 2-45: IQ DEVICES ORDERING INFORMATION
Xilinx • 72