XCV1600E-6BG560I Xilinx Inc, XCV1600E-6BG560I Datasheet - Page 8

XCV1600E-6BG560I

Manufacturer Part Number

XCV1600E-6BG560I

Description

IC FPGA 1.8V I-TEMP 560-MBGA

Manufacturer

Xilinx Inc

Series

Virtex™-Er

Datasheet

1.XCV200E-6CS144C.pdf (233 pages)

Specifications of XCV1600E-6BG560I

Number Of Logic Elements/cells

34992

Number Of Labs/clbs

7776

Total Ram Bits

589824

Number Of I /o

404

Number Of Gates

2188742

Voltage - Supply

1.71 V ~ 1.89 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

560-LBGA, Metal

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Virtex™-E 1.8 V Field Programmable Gate Arrays

Table 1: Supported I/O Standards

In addition to the CLK and CE control signals, the three

flip-flops share a Set/Reset (SR). For each flip-flop, this sig-

nal can be independently configured as a synchronous Set,

a synchronous Reset, an asynchronous Preset, or an asyn-

chronous Clear.

The output buffer and all of the IOB control signals have

independent polarity controls.

All pads are protected against damage from electrostatic

discharge (ESD) and from over-voltage transients. After

configuration, clamping diodes are connected to V

the exception of LVCMOS18, LVCMOS25, GTL, GTL+,

LVDS, and LVPECL.

Optional pull-up, pull-down and weak-keeper circuits are

attached to each pad. Prior to configuration all outputs not

involved in configuration are forced into their high-imped-

ance state. The pull-down resistors and the weak-keeper

circuits are inactive, but I/Os can optionally be pulled up.

The activation of pull-up resistors prior to configuration is

controlled on a global basis by the configuration mode pins.

If the pull-up resistors are not activated, all the pins are in a

high-impedance state. Consequently, external pull-up or

pull-down resistors must be provided on pins required to be

at a well-defined logic level prior to configuration.

All Virtex-E IOBs support IEEE 1149.1-compatible Bound-

ary Scan testing.

Module 2 of 4

BLVDS & LVDS

HSTL III & IV

SSTL3 I & II

SSTL2 I & II

LVCMOS18

LVCMOS2

Standard

PCI33_3

PCI66_3

AGP-2X

LVPECL

HSTL I

LVTTL

GTL+

GTL

CTT

I/O

Output

N/A

3.3

1.8

3.3

2.5

1.5

2.5

1.5

3.3

2.5

3.3

CCO

Input

N/A

3.3

2.5

1.8

3.3

CCO

Input

1.50

1.25

0.80

0.75

0.90

1.50

1.32

N/A

1.0

REF

Voltage (V

Termination

Board

1.50

1.25

1.20

1.50

0.75

1.50

N/A

CCO

www.xilinx.com

with

)

Input Path

The Virtex-E IOB input path routes the input signal directly

to internal logic and/ or through an optional input flip-flop.

An optional delay element at the D-input of this flip-flop elim-

inates pad-to-pad hold time. The delay is matched to the

internal clock-distribution delay of the FPGA, and when

used, assures that the pad-to-pad hold time is zero.

Each input buffer can be configured to conform to any of the

low-voltage signalling standards supported. In some of

these standards the input buffer utilizes a user-supplied

threshold voltage, V

constraints on which standards can be used in close prox-

imity to each other. See

There are optional pull-up and pull-down resistors at each

user I/O input for use after configuration. Their value is in

the range 50 – 100 kΩ.

Output Path

The output path includes a 3-state output buffer that drives

the output signal onto the pad. The output signal can be

routed to the buffer directly from the internal logic or through

an optional IOB output flip-flop.

The 3-state control of the output can also be routed directly

from the internal logic or through a flip-flip that provides syn-

chronous enable and disable.

Each output driver can be individually programmed for a

wide range of low-voltage signalling standards. Each output

buffer can source up to 24 mA and sink up to 48 mA. Drive

strength and slew rate controls minimize bus transients.

In most signalling standards, the output High voltage

depends on an externally supplied V

to supply V

can be used in close proximity to each other. See

ing.

An optional weak-keeper circuit is connected to each out-

put. When selected, the circuit monitors the voltage on the

pad and weakly drives the pin High or Low to match the

input signal. If the pin is connected to a multiple-source sig-

nal, the weak keeper holds the signal in its last state if all

drivers are disabled. Maintaining a valid logic level in this

way eliminates bus chatter.

Since the weak-keeper circuit uses the IOB input buffer to

monitor the input level, an appropriate V

provided if the signalling standard requires one. The provi-

sion of this voltage must comply with the I/O banking rules.

I/O Banking

Some of the I/O standards described above require V

and/or V

plied and connected to device pins that serve groups of

IOBs, called banks. Consequently, restrictions exist about

which I/O standards can be combined within a given bank.

REF

CCO

voltages. These voltages are externally sup-

imposes constraints on which standards

REF

. The need to supply V

I/O

Production Product Specification

Banking.

DS022-2 (v2.8) January 16, 2006

CCO

REF

voltage. The need

voltage must be

REF

I/O Bank-

imposes

CCO

XCV1600E-6BG560I Xilinx Inc, XCV1600E-6BG560I Datasheet - Page 8

XCV1600E-6BG560I

Specifications of XCV1600E-6BG560I

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