XC3S200-4TQG144I Xilinx Inc, XC3S200-4TQG144I Datasheet - Page 42

FPGA Spartan®-3 Family 200K Gates 4320 Cells 630MHz 90nm Technology 1.2V 144-Pin TQFP

XC3S200-4TQG144I

Manufacturer Part Number

XC3S200-4TQG144I

Description

FPGA Spartan®-3 Family 200K Gates 4320 Cells 630MHz 90nm Technology 1.2V 144-Pin TQFP

Manufacturer

Xilinx Inc

Series

Spartan™-3r

Datasheet

1.XC3S50-4VQG100C.pdf (217 pages)

Specifications of XC3S200-4TQG144I

Package

144TQFP

Family Name

SpartanÂ®-3

Device Logic Units

4320

Device System Gates

200000

Maximum Internal Frequency

630 MHz

Typical Operating Supply Voltage

1.2 V

Maximum Number Of User I/os

Ram Bits

221184

Package / Case

144-TQFP, 144-VQFP

Mounting Type

Surface Mount

Voltage - Supply

1.14 V ~ 3.465 V

Operating Temperature

-40°C ~ 100°C

Number Of I /o

Number Of Logic Elements/cells

Number Of Gates

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Spartan-3 FPGA Family: Functional Description

Table 24: BUFGMUX Select Mechanism

The two clock inputs can be asynchronous with regard to

each other, and the S input can change at any time, except

for a short setup time prior to the rising edge of the presently

selected clock (I0 or I1). Violating this setup time require-

ment can result in an undefined runt pulse output.

The BUFG clock buffer primitive drives a single clock signal

onto the clock network and is essentially the same element

as a BUFGMUX, just without the clock select mechanism.

Similarly, the BUFGCE primitive creates an enabled clock

buffer using the BUFGMUX select mechanism.

Each BUFGMUX buffers incoming clock signals to two pos-

sible destinations:

1. The vertical spine belonging to the same side of the die

— top or bottom — as the BUFGMUX element in use.

The two spines — top and bottom — each comprise

four vertical clock lines, each running from one of the

BUFGMUX elements on the same side towards the

center of the die. At the center of the die, clock signals

S Input

O Output

I0 Input

I1 Input

www.xilinx.com

2. The clock input of either DCM on the same side of the

Use either a BUFGMUX element or a BUFG (Global Clock

Buffer) element to place a Global input in the design. For the

purpose of minimizing the dynamic power dissipation of the

clock network, the Xilinx development software automati-

cally disables all clock line segments that a design does not

use.

A global clock line ideally drives clock inputs on the various

clocked elements within the FPGA, such as CLB or IOB

flip-flops or block RAMs. A global clock line also optionally

drives combinatorial inputs. However, doing so provides

additional loading on the clock line that might also affect

clock jitter. Ideally, drive combinatorial inputs using the sig-

nal that also drives the input to the BUFGMUX or BUFG ele-

ment.

For more details, refer to the “Using Global Clock

Resources” chapter in UG331.

reach the eight-line horizontal spine, which spans the

width of the die. In turn, the horizontal spine branches

out into a subsidiary clock interconnect that accesses

the CLBs.

die — top or bottom — as the BUFGMUX element in

use.

DS099-2 (v2.5) December 4, 2009

Product Specification

XC3S200-4TQG144I Xilinx Inc, XC3S200-4TQG144I Datasheet - Page 42

XC3S200-4TQG144I

Specifications of XC3S200-4TQG144I

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