XA2C32A Datasheet, PDF(13/14 Page) Xilinx, Inc – AEC-Q100 device qualification and full PPAP support

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XA2C32A Datasheet, PDF (13/14 Pages) Xilinx, Inc – AEC-Q100 device qualification and full PPAP support

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XA2C32A CoolRunner-II Automotive CPLD

10. Attach all CPLD VCC and GND pins in order to have

necessary power and ground supplies around the

CPLD.

11. Decouple all VCC and VCCIO pins with capacitors of

0.01 Î¼F and 0.1 Î¼F closest to the pins for each

VCC/VCCIO-GND pair.

12. Configure I/Os properly. CoolRunner-II Automotive

CPLDs have I/O banks; therefore, signals must be

assigned to appropriate banks (LVCMOS33,

LVCMOS18 â¦)

Recommendations

The following recommendations are for all automotive appli-

cations.

1. Use strict synchronous design (only one clocking event)

if possible. A synchronous system is more robust than

an asynchronous one.

2. Include JTAG stakes on the PCB. JTAG stakes can be

used to test the part on the PCB. They add benefit in

reprogramming part on the PCB, inspecting chip

internals with INTEST, identifying stuck pins, and

inspecting programming patterns (if not secured).

3. CoolRunner-II Automotive CPLDs work with any power

sequence, but it is preferable to power the VCCI

(internal VCC) before the VCCIO for the applications in

which any glitches from device I/Os are unwanted.

4. Do not disregard report file warnings. Software

identifies potential problems when compiling, so the

report file is worth inspecting to see exactly how your

design is mapped onto the logic.

5. Understand the Timing Report. This report file provides

a speed summary along with warnings. Read the timing

file (*.tim) carefully. Analyze key signal chains to

determine limits to given clock(s) based on logic

analysis.

6. Review Fitter Report equations. Equations can be

shown in ABEL-like format, or can also be displayed in

Verilog or VHDL formats. The Fitter Report also

includes switch settings that are very informative of

other device behaviors.

7. Let design software define pinouts if possible. Xilinx

CPLD software works best when it selects the I/O pins

and manages resources for users. It can spread signals

around and improve pin-locking. If users must define

pins, plan resources in advance.

8. Perform a post-fit simulation for all speeds to identify

any possible problems (such as race conditions) that

might occur when fast-speed silicon is used instead of

slow-speed silicon.

9. Distribute SSOs (Simultaneously Switching Outputs)

evenly around the CPLD to reduce switching noise.

10. Terminate high speed outputs to eliminate noise caused

by very fast rising/falling edges.

Automotive Warranty Disclaimer

THIS WARRANTY DOES NOT EXTEND TO ANY IMPLEMENTATION IN AN APPLICATION OR ENVIRONMENT THAT IS

NOT CONTAINED WITHIN XILINX SPECIFICATIONS. PRODUCTS ARE NOT DESIGNED TO BE FAIL-SAFE AND ARE

NOT WARRANTED FOR USE IN THE DEPLOYMENT OF AIRBAGS. FURTHER, PRODUCTS ARE NOT WARRANTED

FOR USE IN APPLICATIONS THAT AFFECT CONTROL OF THE VEHICLE UNLESS THERE IS A FAIL-SAFE OR

REDUNDANCY FEATURE AND ALSO A WARNING SIGNAL TO THE OPERATOR OF THE VEHICLE UPON FAILURE.

USE OF PRODUCTS IN SUCH APPLICATIONS IS FULLY AT THE RISK OF CUSTOMER SUBJECT TO APPLICABLE

LAWS AND REGULATIONS GOVERNING LIMITATIONS ON PRODUCT LIABILITY.

Additional Information

Additional information is available for the following CoolRunner-II topics:

â¢ XAPP784: Bulletproof CPLD Design Practices

â¢ XAPP375: Timing Model

â¢ XAPP376: Logic Engine

â¢ XAPP378: Advanced Features

â¢ XAPP382: I/O Characteristics

â¢ XAPP389: Powering CoolRunner-II

To access these and all application notes with their associ-

ated reference designs, click the following link and scroll

down the page until you find the document you want:

CoolRunner-II Data Sheets and Application Notes

Device Packages

â¢ XAPP399: Assigning VREF Pins

DS552 (v1.1) May 5, 2007

www.xilinx.com

Product Specification

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