XC3S250E-4FT256I Xilinx Inc, XC3S250E-4FT256I Datasheet - Page 107

XC3S250E-4FT256I

Manufacturer Part Number

XC3S250E-4FT256I

Description

FPGA Spartan®-3E Family 250K Gates 5508 Cells 572MHz 90nm (CMOS) Technology 1.2V 256-Pin FTBGA

Manufacturer

Xilinx Inc

Series

Spartan™-3Er

Datasheet

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

Specifications of XC3S250E-4FT256I

Package

256FTBGA

Family Name

SpartanÂ®-3E

Device Logic Cells

5508

Device Logic Units

612

Device System Gates

250000

Number Of Registers

4896

Maximum Internal Frequency

572 MHz

Typical Operating Supply Voltage

1.2 V

Maximum Number Of User I/os

172

Ram Bits

221184

Number Of Logic Elements/cells

5508

Number Of Labs/clbs

612

Total Ram Bits

221184

Number Of I /o

172

Number Of Gates

250000

Voltage - Supply

1.14 V ~ 1.26 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

256-LBGA

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Start-Up

At the end of configuration, the FPGA automatically pulses

the Global Set/Reset (GSR) signal, placing all flip-flops in a

known state. After configuration completes, the FPGA

switches over to the user application loaded into the FPGA.

The sequence and timing of how the FPGA switches over is

programmable as is the clock source controlling the

sequence.

The default start-up sequence appears in

the Global Three-State signal (GTS) is released one clock

cycle after DONE goes High. This sequence allows the

DONE signal to enable or disable any external logic used

during configuration before the user application in the FPGA

starts driving output signals. One clock cycle later, the Glo-

bal Write Enable (GWE) signal is released. This allows sig-

nals to propagate within the FPGA before any clocked

storage elements such as flip-flops and block ROM are

enabled.

The function of the dual-purpose I/O pins

VS[2:0], HSWAP, and A[23:0]

DONE pin goes High. When DONE is High, these pins

become user I/Os. Like all user-I/O pins, GTS controls when

the dual-purpose pins can drive out.

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

Product Specification

also changes when the

Figure

such as M[2:0],

69, where

www.xilinx.com

The relative timing of configuration events is programmed

via the Bitstream Generator (BitGen) options in the Xilinx

development software. For example, the GTS and GWE

events can be programmed to wait for all the DONE pins to

High on all the devices in a multiple-FPGA daisy-chain, forc-

ing the FPGAs to start synchronously. Similarly, the start-up

sequence can be paused at any stage, waiting for selected

DCMs to lock to their respective input clock signals. See

also

By default, the start-up sequence is synchronized to CCLK.

Alternatively, the start-up sequence can be synchronized to

a user-specified clock from within the FPGA application

using the STARTUP_SPARTAN3E library primitive and by

setting the

FPGA application can optionally assert the GSR and GTS

signals via the STARTUP_SPARTAN3E primitive. For JTAG

configuration, the start-up sequence can be synchronized

to the TCK clock input.

Stabilizing DCM Clocks Before User

Start-Up Clock

Figure 69: Default Start-Up Sequence

DONE

Phase

StartupClk

GWE

GTS

DONE High

bitstream generator option. The

Default Cycles

Sync-to-DONE

Functional Description

DS312-2_60_022305

Mode.

6 7

107

XC3S250E-4FT256I Xilinx Inc, XC3S250E-4FT256I Datasheet - Page 107

XC3S250E-4FT256I

Specifications of XC3S250E-4FT256I

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