XA2C128 Datasheet, PDF(2/16 Page) Xilinx, Inc – AEC-Q100 device qualification and full PPAP support

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XA2C128 Datasheet, PDF (2/16 Pages) Xilinx, Inc – AEC-Q100 device qualification and full PPAP support

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XA2C128 CoolRunner-II Automotive CPLD

The use of the clock divide (division by 2) and DualEDGE

flip-flop gives the resultant CoolCLOCK feature.

DataGATE is a method to selectively disable inputs of the

CPLD that are not of interest during certain points in time.

By mapping a signal to the DataGATE function, lower power

can be achieved due to reduction in signal switching.

Another feature that eases voltage translation is I/O bank-

ing. Two I/O banks are available on the CoolRunner-II Auto-

motive 128-macrocell device that permit easy interfacing to

3.3V, 2.5V, 1.8V, and 1.5V devices.

The CoolRunner-II Automotive 128-macrocell CPLD is I/O

compatible with various JEDEC I/O standards (see

Table 1). This device is also 1.5V I/O compatible with the

use of Schmitt-trigger inputs.

RealDigital Design Technology

Xilinx CoolRunner-II Automotive CPLDs are fabricated on a

0.18 micron process technology which is derived from lead-

ing edge FPGA product development. CoolRunner-II Auto-

motive CPLDs employ RealDigital technology, a design

technique that makes use of CMOS technology in both the

fabrication and design methodology. RealDigital technology

employs a cascade of CMOS gates to implement sum of

products instead of traditional sense amplifier methodology.

Due to this technology, Xilinx CoolRunner-II Automotive

CPLDs achieve both high-performance and low power

operation.

Supported I/O Standards

The CoolRunner-II Automotive 128-macrocell device fea-

tures LVCMOS and LVTTL I/O implementations. See

Table 1 for I/O standard voltages. The LVTTL I/O standard

is a general purpose EIA/JEDEC standard for 3.3V applica-

tions that use an LVTTL input buffer and Push-Pull output

buffer. The LVCMOS standard is used in 3.3V, 2.5V, 1.8V

applications.

Table 1: I/O Standards for XA2C128

IOSTANDARD Attribute Output VCCIO Input VCCIO

LVTTL

3.3

LVCMOS33

3.3

LVCMOS25

2.5

LVCMOS18

1.8

LVCMOS15(1)

1.5

(1) LVCMOS15 requires use of Schmitt-trigger inputs.

100

150

Frequency (MHz)

DS554_092106

Figure 1: ICC vs Frequency

Table 2: ICC vs Frequency (LVCMOS 1.8V TA = 25Â°C)(1)

Frequency (MHz)

Typical ICC (mA)

0.019

3.97

7.95

Notes:

1. 16-bit up/down, Resetable binary counter (one counter per function block).

11.92

100

15.89

150

23.83

www.xilinx.com

DS554 (v1.1) May 5, 2007

Product Specification

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