XC3S500E-4PQG208I Xilinx Inc, XC3S500E-4PQG208I Datasheet - Page 62

XC3S500E-4PQG208I

Manufacturer Part Number

XC3S500E-4PQG208I

Description

IC FPGA SPARTAN-3E 500K 208-PQFP

Manufacturer

Xilinx Inc

Series

Spartan™-3Er

Datasheet

1.XC3S100E-4VQG100C.pdf (233 pages)

Specifications of XC3S500E-4PQG208I

Package / Case

208-MQFP, 208-PQFP

Mounting Type

Surface Mount

Voltage - Supply

1.1 V ~ 3.465 V

Operating Temperature

-40°C ~ 100°C

Number Of I /o

158

Number Of Logic Elements/cells

Number Of Gates

No. Of Logic Blocks

1564

No. Of Gates

500000

No. Of Macrocells

10476

Family Type

Spartan-3E

No. Of Speed Grades

No. Of I/o's

158

Clock

RoHS Compliant

Total Ram Bits

368640

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Price

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Part Number:

XC3S500E-4PQG208I

Manufacturer:

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Part Number:

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Functional Description

Quadrant Clock Routing

The clock routing within the FPGA is quadrant-based, as

shown in

total clock signals, labeled ‘A’ through ‘H’ in

Figure

inates either from a global BUFGMUX element along the

top and bottom edges or from a BUFGMUX element along

the associated edge, as shown in

feed the synchronous resource elements (CLBs, IOBs,

block RAM, multipliers, and DCMs) within the quadrant.

The four quadrants of the device are:

•

Note that the quadrant clock notation (TR, BR, BL, TL) is

separate from that used for similar IOB placement con-

straints.

To estimate the quadrant location for a particular I/O, see

the footprint diagrams in

For exact quadrant locations, use the floorplanning tool. In

the QFP packages (TQ144 and PQ208) the quadrant bor-

ders fall in the middle of each side of the package, at a GND

pin. The clock inputs fall on the quadrant boundaries, as

indicated in

Top Right (TR)

Bottom Right (BR)

Bottom Left (BL)

Top Left (TL)

47. The clock source for an individual clock line orig-

Figure

Table

45. Each clock quadrant supports eight

42.

*(XC3S1200E and

RHCLK input

Double Line

XC3S1600E only)

DCM output*

LHCLK or

Pinout Descriptions

Figure 46: Clock Switch Matrix to BUFGMUX Pair Connectivity

CLK Switch

Figure

Left-/Right-Half BUFGMUX

Matrix

47. The clock lines

Table 41

(Module 4).

www.xilinx.com

and

BUFGMUX

2nd DCM output

1st DCM output

2nd GCLK pin

1st GCLK pin

Double Line

Table 42: QFP Package Clock Quadrant Locations

In a few cases, a dedicated input is physically in one quad-

rant of the device but connects to a different clock quadrant:

•

FT256, H16 is in clock quadrant BR

FG320, K2 is in clock quadrant BL

FG400, L8 is in clock quadrant TL and the I/O at N11 is

in clock quadrant BL

FG484, M2 is in clock quadrant TL and L15 is in clock

quadrant BR

GCLK[15:12]

RHCLK[3:0]

RHCLK[7:4]

GCLK[11:8]

Clock Pins

LHCLK[3:0]

LHCLK[7:4]

GCLK[3:0]

GCLK[7:4]

Top/Bottom (Global) BUFGMUX

CLK Switch

Matrix

DS312-2 (v3.8) August 26, 2009

DS312-2_16_110706

BUFGMUX

Product Specification

Quadrant

XC3S500E-4PQG208I Xilinx Inc, XC3S500E-4PQG208I Datasheet - Page 62

XC3S500E-4PQG208I

Specifications of XC3S500E-4PQG208I

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