XC3S250E-4TQG144C Xilinx Inc, XC3S250E-4TQG144C Datasheet - Page 13

XC3S250E-4TQG144C

Manufacturer Part Number

XC3S250E-4TQG144C

Description

IC SPARTAN-3E FPGA 250K 144TQFP

Manufacturer

Xilinx Inc

Series

Spartan™-3Er

Datasheet

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

Specifications of XC3S250E-4TQG144C

Number Of Logic Elements/cells

5508

Number Of Labs/clbs

612

Total Ram Bits

221184

Number Of I /o

108

Number Of Gates

250000

Voltage - Supply

1.14 V ~ 1.26 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

144-LQFP

For Use With

813-1009 - MODULE USB-TO-FPGA TOOL W/MANUAL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

122-1524

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

XC3S250E-4TQG144C

Manufacturer:

XILINX

Quantity:

2 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

XC3S250E-4TQG144C

Manufacturer:

XILINX

Quantity:

2 400

Company:

BOSTOCK HK LIMITED

Part Number:

XC3S250E-4TQG144C

Manufacturer:

Xilinx Inc

Quantity:

10 000

Company:

BOSTOCK HK LIMITED

Part Number:

XC3S250E-4TQG144C

Manufacturer:

XILINX

Quantity:

5 000

Company:

BOSTOCK HK LIMITED

Part Number:

XC3S250E-4TQG144C

Manufacturer:

XILINX

Quantity:

5 000

Company:

BOSTOCK HK LIMITED

Part Number:

XC3S250E-4TQG144C

Manufacturer:

XILINX

Company:

Meier Automation Equipment Co., Limited

Part Number:

XC3S250E-4TQG144C

Manufacturer:

XILINX/赛灵思

Quantity:

20 000

Company:

BOSTOCK HK LIMITED

Part Number:

XC3S250E-4TQG144CS1

Manufacturer:

XILINX

Company:

Meier Automation Equipment Co., Limited

Part Number:

XC3S250E-4TQG144CS1

Manufacturer:

XILINX/赛灵思

Quantity:

20 000

Current page: 13 of 233
Download datasheet (6Mb)

Storage Element Functions

There are three pairs of storage elements in each IOB, one

pair for each of the three paths. It is possible to configure

each of these storage elements as an edge-triggered

D-type flip-flop (FD) or a level-sensitive latch (LD).

The storage-element pair on either the Output path or the

Three-State path can be used together with a special multi-

plexer to produce Double-Data-Rate (DDR) transmission.

Table 4: Storage Element Signal Description

As shown in

and three-state paths share a common clock. The OTCLK1

clock signal drives the CK clock inputs of the upper registers

on the output and three-state paths. Similarly, OTCLK2

drives the CK inputs for the lower registers on the output

and three-state paths. The upper and lower registers on the

input path have independent clock lines: ICLK1 and ICLK2.

The OCE enable line controls the CE inputs of the upper

and lower registers on the output path. Similarly, TCE con-

Table 5: Storage Element Options

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

Product Specification

REV

FF/Latch

SYNC/ASYNC

Element

Storage

Signal

Option Switch

Data input

Data output

Clock input

Clock Enable input

Set/Reset input

Reverse input

Figure

Description

5, the upper registers in both the output

Chooses between an edge-triggered flip-flop

or a level-sensitive latch

Determines whether the SR set/reset control is

synchronous or asynchronous

When asserted, this input enables CK. If not connected, CE defaults to the asserted

Data at this input is stored on the active edge of CK and enabled by CE. For latch

operation when the input is enabled, data passes directly to the output Q.

The data on this output reflects the state of the storage element. For operation as a latch

in transparent mode, Q mirrors the data at D.

Data is loaded into the storage element on this input’s active edge with CE asserted.

state.

This input forces the storage element into the state specified by the SRHIGH/SRLOW

attributes. The SYNC/ASYNC attribute setting determines if the SR input is

synchronized to the clock or not. If both SR and REV are active at the same time, the

storage element gets a value of 0.

This input is used together with SR. It forces the storage element into the state opposite

from what SR does. The SYNC/ASYNC attribute setting determines whether the REV

input is synchronized to the clock or not. If both SR and REV are active at the same time,

the storage element gets a value of 0.

Function

www.xilinx.com

This is accomplished by taking data synchronized to the

clock signal’s rising edge and converting it to bits syn-

chronized on both the rising and the falling edge. The com-

bination of two registers and a multiplexer is referred to as a

Double-Data-Rate D-type flip-flop (ODDR2).

Table 4

age element.

trols the CE inputs for the register pair on the three-state

path and ICE does the same for the register pair on the

input path.

The Set/Reset (SR) line entering the IOB controls all six

registers, as is the Reverse (REV) line.

In addition to the signal polarity controls described in

Overview, each storage element additionally supports the

controls described in

Independent for each storage element

describes the signal paths associated with the stor-

Function

Table

Specificity

Functional Description

IOB

XC3S250E-4TQG144C Xilinx Inc, XC3S250E-4TQG144C Datasheet - Page 13

XC3S250E-4TQG144C

Specifications of XC3S250E-4TQG144C

Available stocks

Related parts for XC3S250E-4TQG144C