XCV812E-6BG560C Xilinx Inc, XCV812E-6BG560C Datasheet - Page 25

XCV812E-6BG560C

Manufacturer Part Number

XCV812E-6BG560C

Description

IC FPGA 1.8V C-TEMP 560-MBGA

Manufacturer

Xilinx Inc

Series

Virtex™-E EMr

Datasheet

1.XCV405E-6FG676C.pdf (118 pages)

Specifications of XCV812E-6BG560C

Number Of Logic Elements/cells

21168

Number Of Labs/clbs

4704

Total Ram Bits

1146880

Number Of I /o

404

Number Of Gates

254016

Voltage - Supply

1.71 V ~ 1.89 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

560-LBGA, Metal

0325

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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BUFGDLL Pin Descriptions

Use the BUFGDLL macro as the simplest way to provide

zero propagation delay for a high-fanout on-chip clock from

an external input. This macro uses the IBUFG, CLKDLL and

BUFG primitives to implement the most basic DLL applica-

tion as shown in

This symbol does not provide access to the advanced clock

domain controls or to the clock multiplication or clock divi-

sion features of the DLL. This symbol also does not provide

access to the RST, or LOCKED pins of the DLL. For access

to these features, a designer must use the library DLL prim-

itives described in the following sections.

Source Clock Input — I

The I pin provides the user source clock, the clock signal on

which the DLL operates, to the BUFGDLL. For the BUF-

GDLL macro the source clock frequency must fall in the low

frequency range as specified in the data sheet. The BUF-

GDLL requires an external signal source clock. Therefore,

only an external input port can source the signal that drives

the BUFGDLL I pin.

Clock Output — O

The clock output pin O represents a delay-compensated

version of the source clock (I) signal. This signal, sourced by

a global clock buffer BUFG symbol, takes advantage of the

dedicated global clock routing resources of the device.

The output clock has a 50-50 duty cycle unless you deacti-

vate the duty cycle correction property.

CLKDLL Primitive Pin Descriptions

The library CLKDLL primitives provide access to the com-

plete set of DLL features needed when implementing more

complex applications with the DLL.

Source Clock Input — CLKIN

The CLKIN pin provides the user source clock (the clock

signal on which the DLL operates) to the DLL. The CLKIN

frequency must fall in the ranges specified in the data sheet.

A global clock buffer (BUFG) driven from another CLKDLL,

one of the global clock input buffers (IBUFG), or an

IO_LVDS_DLL pin on the same edge of the device (top or

bottom) must source this clock signal. There are four

IO_LVDS_DLL input pins that can be used as inputs to the

DS025-2 (v2.3) November 19, 2002

IBUFG

Figure 24: BUFGDLL Schematic

Figure

CLKIN

CLKFB

RST

24.

CLKDLL

CLK0

CLK90

CLK180

CLK270

CLK2X

CLKDV

LOCKED

BUFG

ds022_28_121099

Virtex™-E 1.8 V Extended Memory Field Programmable Gate Arrays

www.xilinx.com

1-800-255-7778

DLLs. This makes a total of eight usable input pins for DLLs

in the Virtex-E family.

Feedback Clock Input — CLKFB

The DLL requires a reference or feedback signal to provide

the delay-compensated output. Connect only the CLK0 or

CLK2X DLL outputs to the feedback clock input (CLKFB)

pin to provide the necessary feedback to the DLL. The feed-

back clock input can also be provided through one of the fol-

lowing pins.

If an IBUFG sources the CLKFB pin, the following special

rules apply.

1. An external input port must source the signal that drives

2. The CLK2X output must feedback to the device if both

3. That signal must directly drive only OBUFs and nothing

These rules enable the software determine which DLL clock

output sources the CLKFB pin.

Reset Input — RST

When the reset pin RST activates the LOCKED signal deac-

tivates within four source clock cycles. The RST pin, active

High, must either connect to a dynamic signal or tied to

ground. As the DLL delay taps reset to zero, glitches can

occur on the DLL clock output pins. Activation of the RST

pin can also severely affect the duty cycle of the clock out-

put pins. Furthermore, the DLL output clocks no longer

de-skew with respect to one another. For these reasons,

rarely use the reset pin unless re-configuring the device or

changing the input frequency.

2x Clock Output — CLK2X

The output pin CLK2X provides a frequency-doubled clock

with an automatic 50/50 duty-cycle correction. Until the

CLKDLL has achieved lock, the CLK2X output appears as a

1x version of the input clock with a 25/75 duty cycle. This

behavior allows the DLL to lock on the correct edge with

respect to source clock. This pin is not available on the

CLKDLLHF primitive.

Clock Divide Output — CLKDV

The clock divide output pin CLKDV provides a lower fre-

quency version of the source clock. The CLKDV_DIVIDE

property controls CLKDV such that the source clock is

divided by N where N is either 1.5, 2, 2.5, 3, 4, 5, 8, or 16.

This feature provides automatic duty cycle correction such

that the CLKDV output pin always has a 50/50 duty cycle,

with the exception of noninteger divides in HF mode, where

the duty cycle is 1/3 for N=1.5 and 2/5 for N=2.5.

IBUFG - Global Clock Input Pad

IO_LVDS_DLL - the pin adjacent to IBUFG

the IBUFG I pin.

the CLK0 and CLK2X outputs are driving off chip

devices.

else.

Module 2 of 4

XCV812E-6BG560C Xilinx Inc, XCV812E-6BG560C Datasheet - Page 25

XCV812E-6BG560C

Specifications of XCV812E-6BG560C

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