XC4VFX140 XILINX [Xilinx, Inc], XC4VFX140 Datasheet - Page 4

XC4VFX140

Manufacturer Part Number

XC4VFX140

Description

Platform Flash In-System Programmable Configuration PROMS

Manufacturer

XILINX [Xilinx, Inc]

Datasheet

1.XC4VFX140.pdf (46 pages)

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Table 2: Xilinx FPGAs and Compatible Platform Flash

PROMs (Continued)

Table 3: Platform Flash PROM Capacity

DS123 (v2.9) May 09, 2006

Notes:

XC3S1200E

XC3S1600E

Spartan-3L

XC3S1000L

XC3S1500L

XC3S5000L

Spartan-3

XC3S50

XC3S200

XC3S400

XC3S1000

XC3S1500

XC3S2000

XC3S4000

XC3S5000

Spartan-IIE

XC2S50E

XC2S100E

XC2S150E

XC2S200E

XC2S300E

XC2S400E

XC2S600E

Spartan-II

XC2S15

XC2S30

XC2S50

XC2S100

XC2S150

XC2S200

XCF01S

XCF02S

XCF04S

Flash PROM

Platform

If design revisioning or other advanced feature support is

required, the XCFxxP can be used as an alternative to the

XCF01S, XCF02S, or XCF04S.

Assumes compression used.

The largest possible Virtex-II bitstream sizes are specified. Refer

to the Virtex-II User Guide for information on bitgen options

which affect bitstream size.

FPGA

Configuration

Bitstream

Bits

1,048,576 XCF08P

2,097,152 XCF16P

4,194,304 XCF32P

13,271,936

11,316,864

13,271,936

3,832,320

5,957,760

3,223,488

5,214,784

1,047,616

1,699,136

3,223,488

5,214,784

7,673,024

1,134,496

1,442,016

1,875,648

2,693,440

3,961,632

1,040,096

1,335,840

439,264

630,048

863,840

197,696

336,768

559,200

781,216

Flash PROM

Platform

Platform Flash PROM

XCF04S

XCF08P

XCF04S

XCF08P

XCF16P

XCF01S

XCF02S

XCF04S

XCF08P

XCF16P

XCF01S

XCF02S

XCF04S

XCF01S

XCF02S

Configuration

16,777,216

33,554,432

Bits

8,388,608

www.xilinx.com

Platform Flash In-System Programmable Configuration PROMS

(1)

Programming

In-System Programming

In-System Programmable PROMs can be programmed

individually, or two or more can be daisy-chained together

and programmed in-system via the standard 4-pin JTAG

protocol as shown in

offers quick and efficient design iterations and eliminates

unnecessary package handling or socketing of devices. The

programming data sequence is delivered to the device

using either Xilinx iMPACT software and a Xilinx download

cable, a third-party JTAG development system, a

JTAG-compatible board tester, or a simple microprocessor

interface that emulates the JTAG instruction sequence. The

iMPACT software also outputs serial vector format (SVF)

files for use with any tools that accept SVF format, including

automatic test equipment. During in-system programming,

the CEO output is driven High. All other outputs are held in

a high-impedance state or held at clamp levels during

in-system programming. In-system programming is fully

supported across the recommended operating voltage and

temperature ranges.

OE/RESET

The 1/2/4 Mbit XCFxxS Platform Flash PROMs in-system

programming algorithm results in issuance of an internal

device reset that causes OE/RESET to pulse Low.

External Programming

Xilinx reprogrammable PROMs can also be programmed by

the Xilinx MultiPRO Desktop Tool or a third-party device

programmer. This provides the added flexibility of using

pre-programmed devices with an in-system programmable

option for future enhancements and design changes.

Figure 3: JTAG In-System Programming Operation

(b) Program Using Download Cable

(a)

(a) Solder Device to PCB

Figure

3. In-system programming

(b)

DS026_02_082703

XC4VFX140 XILINX [Xilinx, Inc], XC4VFX140 Datasheet - Page 4

XC4VFX140

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