XCF02SVO20C Xilinx Inc, XCF02SVO20C Datasheet - Page 6

XCF02SVO20C

Manufacturer Part Number

XCF02SVO20C

Description

IC PROM IN SYST PRG 3.3V 20TSSOP

Manufacturer

Xilinx Inc

Datasheet

1.XCF01SVOG20C.pdf (35 pages)

Specifications of XCF02SVO20C

Programmable Type

In System Programmable

Memory Size

2Mb

Voltage - Supply

3 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Package / Case

20-TSSOP (0.173", 4.40mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Table 6: XCFxxS Instruction Capture Values Loaded into IR as part of an Instruction Scan Sequence

Table 7: XCFxxP Instruction Capture Values Loaded into IR as part of an Instruction Scan Sequence

Boundary-Scan Register

The Boundary-Scan register is used to control and observe

the state of the device pins during the EXTEST,

SAMPLE/PRELOAD, and CLAMP instructions. Each output

pin on the Platform Flash PROM has two register stages which

contribute to the Boundary-Scan register, while each input pin

has only one register stage. The bidirectional pins have a total

of three register stages which contribute to the Boundary-Scan

controls and observes the output state, and the second stage

closest to TDO controls and observes the High-Z enable state

of the output pin. For each input pin, a single register stage

controls and observes the input state of the pin. The

bidirectional pin combines the three bits, the input stage bit is

first, followed by the output stage bit and finally the output

enable stage bit. The output enable stage bit is closest to TDO.

See

Boundary-Scan bit order for all connected device pins, or see

the appropriate BSDL file for the complete Boundary-Scan bit

order description under the “attribute

BOUNDARY_REGISTER” section in the BSDL file. The bit

assigned to Boundary-Scan cell 0 is the LSB in the Boundary-

Scan register, and is the register bit closest to TDO.

Identification Registers

IDCODE Register

The IDCODE is a fixed, vendor-assigned value that is used to

electrically identify the manufacturer and type of the device

being addressed. The IDCODE register is 32 bits wide. The

IDCODE register can be shifted out for examination by using

the IDCODE instruction. The IDCODE is available to any

other system component via JTAG.

The IDCODE register has the following binary format:

where

DS123 (v2.18) May 19, 2010

Product Specification

TDI →

vvvv:ffff:ffff:aaaa:aaaa:cccc:cccc:ccc1

v = the die version number

f = the PROM family code

a = the specific Platform Flash PROM product ID

c = the Xilinx manufacturer's ID

Table 12, page 24

Reserved

IR[15:9]

Reserved

IR[7:5]

and

Table 13, page 26

ISC Error

IR[8:7]

Table 8

ISC Status

IR[4]

lists the IDCODE

ER/PROG

for the

IR[6:5]

Error

www.xilinx.com

Platform Flash In-System Programmable Configuration PROMs

ER/PROG

Security

Status

IR[4]

IR[3]

The LSB of the IDCODE register is always read as logic 1

as defined by IEEE Std. 1149.1.

Table 8: IDCODES Assigned to Platform Flash PROMs

USERCODE Register

The USERCODE instruction gives access to a 32-bit user

programmable scratch pad typically used to supply

information about the device's programmed contents. By

using the USERCODE instruction, a user-programmable

identification code can be shifted out for examination. This

code is loaded into the USERCODE register during

programming of the Platform Flash PROM. If the device is

blank or was not loaded during programming, the

USERCODE register contains FFFFFFFFh.

Customer Code Register

For the XCFxxP Platform Flash PROM, in addition to the

USERCODE, a unique 32-byte Customer Code can be

assigned to each design revision enabled for the PROM.

The Customer Code is set during programming, and is

typically used to supply information about the design

revision contents. A private JTAG instruction is required to

read the Customer Code. If the PROM is blank, or the

Customer Code for the selected design revision was not

loaded during programming, or if the particular design

revision is erased, the Customer Code contains all ones.

Notes:

The <v> in the IDCODE field represents the device’s revision

code (in hex) and can vary.

ISC Status

IR[3]

XCF01S

XCF02S

XCF04S

XCF08P

XCF16P

XCF32P

Device

IR[2]

DONE

IR[2]

IR[1:0]

0 1

IR[1:0]

0 1

IDCODE

<v>5044093

<v>5045093

<v>5046093

<v>5057093

<v>5058093

<v>5059093

(1)

(hex)

→ TDO

XCF02SVO20C Xilinx Inc, XCF02SVO20C Datasheet - Page 6

XCF02SVO20C

Specifications of XCF02SVO20C

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