XC4VFX140 XILINX [Xilinx, Inc], XC4VFX140 Datasheet - Page 5

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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Reliability and Endurance

Xilinx in-system programmable products provide a

guaranteed endurance level of 20,000 in-system

program/erase cycles and a minimum data retention of 20

years. Each device meets all functional, performance, and

data retention specifications within this endurance limit.

Design Security

The Xilinx in-system programmable Platform Flash PROM

devices incorporate advanced data security features to fully

protect the FPGA programming data against unauthorized

reading via JTAG. The XCFxxP PROMs can also be

programmed to prevent inadvertent writing via JTAG.

Table 4

the XCFxxS PROM and XCFxxP PROM, respectively.

Read Protection

The read protect security bit can be set by the user to

prevent the internal programming pattern from being read or

copied via JTAG. Read protection does not prevent write

Table 5: XCFxxP Design Revision Data Security Options

IEEE 1149.1 Boundary-Scan (JTAG)

The Platform Flash PROM family is compatible with the IEEE

1149.1 boundary-scan standard and the IEEE 1532

in-system configuration standard. A Test Access Port (TAP)

and registers are provided to support all required boundary

scan instructions, as well as many of the optional

instructions specified by IEEE Std. 1149.1. In addition, the

JTAG interface is used to implement in-system programming

(ISP) to facilitate configuration, erasure, and verification

operations on the Platform Flash PROM device.

page 6

instructions supported in the Platform Flash PROMs. Refer

to the IEEE Std. 1149.1 specification for a complete

description of boundary-scan architecture and the required

and optional instructions.

DS123 (v2.9) May 09, 2006

Reset (default)

Set

Caution!

the JTAG 1149.1 specification. If a temporary pause of a JTAG shift operation is

required, then stop the JTAG TCK clock and maintain the JTAG TAP within the

JTAG Shift-IR or Shift-DR TAP state. Do not transition the XCFxxP JTAG TAP

through the JTAG Pause-IR or Pause-DR TAP state to temporarily pause a

JTAG shift operation.

lists the required and optional boundary-scan

and

Read Protect

Table 5

The XCFxxP JTAG TAP pause states are not fully compliant with

show the security settings available for

Reset (default)

Write Protect

Set

Table 6,

www.xilinx.com

Platform Flash In-System Programmable Configuration PROMS

operations. For the XCFxxS PROM, the read protect

security bit is set for the entire device, and resetting the read

protect security bit requires erasing the entire device. For

the XCFxxP PROM the read protect security bit can be set

for individual design revisions, and resetting the read

protect bit requires erasing the particular design revision.

Write Protection

The XCFxxP PROM device also allows the user to write

protect (or lock) a particular design revision to prevent

inadvertent erase or program operations. Once set, the

write protect security bit for an individual design revision

must be reset (using the UNLOCK command followed by

ISC_ERASE command) before an erase or program

operation can be performed.

Table 4: XCFxxS Device Data Security Options

Instruction Register

The Instruction Register (IR) for the Platform Flash PROM

is connected between TDI and TDO during an instruction

scan sequence. In preparation for an instruction scan

sequence, the instruction register is parallel loaded with a

fixed instruction capture pattern. This pattern is shifted out

onto TDO (LSB first), while an instruction is shifted into the

instruction register from TDI.

XCFxxS Instruction Register (8 bits wide)

The Instruction Register (IR) for the XCFxxS PROM is eight

bits wide and is connected between TDI and TDO during an

instruction scan sequence. The detailed composition of the

instruction capture pattern is illustrated in

The instruction capture pattern shifted out of the XCFxxS

device includes IR[7:0]. IR[7:5] are reserved bits and are set

to a logic 0. The ISC Status field, IR[4], contains logic 1 if

the device is currently in In-System Configuration (ISC)

mode; otherwise, it contains logic 0. The Security field,

IR[3], contains logic 1 if the device has been programmed

with the security option turned on; otherwise, it contains

Reset (default)

Set

Read Protect

Read/Verify

Inhibited

✓

Read/Verify

Program Inhibited

Inhibited

✓

Program

Inhibited

Erase Inhibited

Table 7, page

Inhibited

✓

Erase

XC4VFX140 XILINX [Xilinx, Inc], XC4VFX140 Datasheet - Page 5

XC4VFX140

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