XCS10XL-5TQ144C Xilinx Inc, XCS10XL-5TQ144C Datasheet - Page 34

XCS10XL-5TQ144C

Manufacturer Part Number

XCS10XL-5TQ144C

Description

IC FPGA 3.3V C-TEMP 144-TQFP

Manufacturer

Xilinx Inc

Series

Spartan™-XLr

Datasheet

1.XCS05XL-4VQG100C.pdf (83 pages)

Specifications of XCS10XL-5TQ144C

Number Of Logic Elements/cells

466

Number Of Labs/clbs

196

Total Ram Bits

6272

Number Of I /o

112

Number Of Gates

10000

Voltage - Supply

3 V ~ 3.6 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

144-LQFP

Case

TQFP144

02+

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Spartan and Spartan-XL FPGA Families Data Sheet

Configuration Sequence

There are four major steps in the Spartan/XL FPGA

power-up configuration sequence.

•

The full process is illustrated in

Configuration Memory Clear

When power is first applied or is reapplied to an FPGA, an

internal circuit forces initialization of the configuration logic.

When V

passes the write and read test of a sample pair of configu-

ration bits, a time delay is started. This time delay is nomi-

nally 16 ms. The delay is four times as long when in Master

Serial Mode to allow ample time for all slaves to reach a sta-

ble V

mended, the longest delay takes precedence. Therefore,

devices with different time delays can easily be mixed and

matched in a daisy chain.

This delay is applied only on power-up. It is not applied

when reconfiguring an FPGA by pulsing the PROGRAM pin

Configuration Memory Clear

Initialization

Configuration

Start-up

. When all INIT pins are tied together, as recom-

reaches an operational level, and the circuit

LAST DATA FRAME

Figure

30.

Figure 29: Circuit for Generating CRC-16

0 15 14 13 12 11 10 9

Polynomial: X16 + X15 + X2 + 1

Readback Data Stream

www.xilinx.com

CRC – CHECKSUM

9 10 11 12 13 14

Low. During this time delay, or as long as the PROGRAM

input is asserted, the configuration logic is held in a Config-

uration Memory Clear state. The configuration-memory

frames are consecutively initialized, using the internal oscil-

lator.

At the end of each complete pass through the frame

addressing, the power-on time-out delay circuitry and the

level of the PROGRAM pin are tested. If neither is asserted,

the logic initiates one additional clearing of the configuration

frames and then tests the INIT input.

Initialization

During initialization and configuration, user pins HDC, LDC,

INIT and DONE provide status outputs for the system inter-

face. The outputs LDC, INIT and DONE are held Low and

HDC is held High starting at the initial application of power.

The open drain INIT pin is released after the final initializa-

tion pass through the frame addresses. There is a deliber-

ate delay before a Master-mode device recognizes an

inactive INIT. Two internal clocks after the INIT pin is recog-

nized as High, the device samples the MODE pin to deter-

mine the configuration mode. The appropriate interface

lines become active and the configuration preamble and

data can be loaded.

7 6 5

SERIAL DATA IN

X15

DS060 (v1.8) June 26, 2008

DS060_29_080400

X16

Product Specification

XCS10XL-5TQ144C Xilinx Inc, XCS10XL-5TQ144C Datasheet - Page 34

XCS10XL-5TQ144C

Specifications of XCS10XL-5TQ144C

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