XC4VFX12-10SFG363C Xilinx Inc, XC4VFX12-10SFG363C Datasheet - Page 75

XC4VFX12-10SFG363C

Manufacturer Part Number

XC4VFX12-10SFG363C

Description

IC FPGA VIRTEX-4 FX 12K 363FCBGA

Manufacturer

Xilinx Inc

Series

Virtex™-4r

Datasheets

1.XC4VFX12-10FFG668C.pdf (58 pages)

2.XC4VFX12-10FFG668C.pdf (9 pages)

3.XC4VFX12-10FFG668C.pdf (406 pages)

Specifications of XC4VFX12-10SFG363C

Number Of Logic Elements/cells

12312

Number Of Labs/clbs

1368

Total Ram Bits

663552

Number Of I /o

240

Voltage - Supply

1.14 V ~ 1.26 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

363-FBGA, FCBGA

Package

363FCBGA

Family Name

VirtexÂ®-4

Device Logic Units

12312

Typical Operating Supply Voltage

1.2 V

Maximum Number Of User I/os

240

Ram Bits

663552

For Use With

HW-V4-ML403-UNI-G - EVALUATION PLATFORM VIRTEX-4

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Gates

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

XC4VFX12-10SFG363C

Manufacturer:

Xilinx Inc

Quantity:

10 000

Company:

BOSTOCK HK LIMITED

Part Number:

XC4VFX12-10SFG363C

Manufacturer:

XILINX

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Virtex-4 FPGA User Guide

UG070 (v2.6) December 1, 2008

Frequency Synthesis

Frequency Synthesis Operation

1. This is an asynchronous clock mux as shown in

•

The DCM provides several flexible methods for generating new clock frequencies. Each

method has a different operating frequency range and different AC characteristics. The

CLK2X and CLK2X180 outputs double the clock frequency. The CLKDV output provides a

divided output clock (lower frequency) with division options of 1.5, 2, 2.5, 3, 3.5, 4, 4.5, 5,

5.5, 6, 6.5, 7, 7.5, 8, 9, 10, 11, 12, 13, 14, 15, and 16.

The DCM also offers fully digital, dedicated frequency-synthesizer outputs CLKFX and its

opposite phase CLKFX180. The output frequency can be any function of the input clock

frequency described by M ÷ D, where M is the multiplier (numerator) and D is the divisor

(denominator).

The frequency synthesized outputs can drive the global-clock routing networks within the

device. The well-buffered global-clock distribution network minimizes clock skew due to

differences in distance or loading.

The DCM clock output CLKFX is any M ÷ D factor of the clock input to the DCM.

Specifications for M and D, as well as input and output frequency ranges for the frequency

synthesizer, are provided in the

Only when feedback is provided to the CLKFB input of the DCM is the frequency

synthesizer output phase aligned to the clock output, CLK0.

The internal operation of the frequency synthesizer is complex and beyond the scope of

this document. As long as the frequency synthesizer is within the range specified in the

CLKIN

Reset

while acquiring LOCK the CLKIN clock feeds DCM2. After the DCM1 locks the

DCM1 output clock feeds DCM2. DCM2 is held in reset for 16 additional CLKIN

cycles.

It is recommended that R1 > R2, where:

The ranges of M and D values are given in the data sheet.

R1 =

R2 =

Figure 2-5

CLKIN

CLKFB

RST

M/D ratio for DCM1

M/D ratio for DCM2

DCM1

BUFG

illustrates this approach.

LOCKED

CLKDV

CLK0

www.xilinx.com

Figure 2-5: Cascading DCMs

Virtex-4 Data

BUFCTRL

INV

Note (1)

CLK

Figure 1-13, page

SRL16

Sheet.

CLKIN

CLKFB

RST

36.

DCM2

BUFG

DCM Design Guidelines

LOCKED

CLKFX

CLK0

BUFG

UG070_02_23_031308

CLKFX

LOCK

XC4VFX12-10SFG363C Xilinx Inc, XC4VFX12-10SFG363C Datasheet - Page 75

XC4VFX12-10SFG363C

Specifications of XC4VFX12-10SFG363C

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