XC4013E-3PQ160I Datasheet, PDF(19/68 Page) Xilinx, Inc – XC4000E and XC4000X Series Field Programmable Gate Arrays

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XC4013E-3PQ160I Datasheet, PDF (19/68 Pages) Xilinx, Inc – XC4000E and XC4000X Series Field Programmable Gate Arrays

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Product Obsolete or Under Obsolescence

XC4000E and XC4000X Series Field Programmable Gate Arrays

Additional Input Latch for Fast Capture (XC4000X only)

The XC4000X IOB has an additional optional latch on the

the desired delay based on the discussion in the previous

subsection.

input. This latch, as shown in Figure 16, is clocked by the

output clock â the clock used for the output ï¬ip-ï¬op â

rather than the input clock. Therefore, two different clocks

can be used to clock the two input storage elements. This

additional latch allows the very fast capture of input data,

which is then synchronized to the internal clock by the IOB

ï¬ip-ï¬op or latch.

To use this Fast Capture technique, drive the output clock

pin (the Fast Capture latching signal) from the output of one

of the Global Early buffers supplied in the XC4000X. The

second storage element should be clocked by a Global

Low-Skew buffer, to synchronize the incoming data to the

IOB Output Signals

Output signals can be optionally inverted within the IOB,

and can pass directly to the pad or be stored in an

edge-triggered ï¬ip-ï¬op. The functionality of this ï¬ip-ï¬op is

shown in Table 11.

An active-High 3-state signal can be used to place the out-

put buffer in a high-impedance state, implementing 3-state

outputs or bidirectional I/O. Under conï¬guration control, the

output (OUT) and output 3-state (T) signals can be

inverted. The polarity of these signals is independently con-

ï¬gured for each IOB.

internal logic. (See Figure 17.) These special buffers are The 4-mA maximum output current speciï¬cation of many

described in âGlobal Nets and Buffers (XC4000X only)â on FPGAs often forces the user to add external buffers, which

page 37.

are especially cumbersome on bidirectional I/O lines. The

The Fast Capture latch (FCL) is designed primarily for use XC4000E and XC4000EX/XL devices solve many of these

with a Global Early buffer. For Fast Capture, a single clock problems by providing a guaranteed output sink current of

signal is routed through both a Global Early buffer and a 12 mA. Two adjacent outputs can be interconnected exter-

Global Low-Skew buffer. (The two buffers share an input nally to sink up to 24 mA. The XC4000E and XC4000EX/XL

pad.) The Fast Capture latch is clocked by the Global Early FPGAs can thus directly drive buses on a printed circuit

buffer, and the standard IOB ï¬ip-ï¬op or latch is clocked by board.

the Global Low-Skew buffer. This mode is the safest way to By default, the output pull-up structure is conï¬gured as a

use the Fast Capture latch, because the clock buffers on TTL-like totem-pole. The High driver is an n-channel pull-up

both storage elements are driven by the same pad. There is transistor, pulling to a voltage one transistor threshold

no external skew between clock pads to create potential below Vcc. Alternatively, the outputs can be globally conï¬g-

problems.

ured as CMOS drivers, with p-channel pull-up transistors

To place the Fast Capture latch in a design, use one of the

special library symbols, ILFFX or ILFLX. ILFFX is a trans-

parent-Low Fast Capture latch followed by an active-High

input ï¬ip-ï¬op. ILFLX is a transparent-Low Fast Capture

latch followed by a transparent-High input latch. Any of the

clock inputs can be inverted before driving the library ele-

ment, and the inverter is absorbed into the IOB. If a single

BUFG output is used to drive both clock inputs, the soft-

ware automatically runs the clock through both a Global

Low-Skew buffer and a Global Early buffer, and clocks the

Fast Capture latch appropriately.

Figure 16 on page 21 also shows a two-tap delay on the

input. By default, if the Fast Capture latch is used, the Xilinx

software assumes a Global Early buffer is driving the clock,

and selects MEDDELAY to ensure a zero hold time. Select

pulling to Vcc. This option, applied using the bitstream gen-

eration software, applies to all outputs on the device. It is

not individually programmable. In the XC4000XL, all out-

puts are pulled to the positive supply rail.

Table 11: Output Flip-Flop Functionality (active rising

edge is shown)

Clock

Mode Clock Enable T

Power-Up

or GSR

Flip-Flop

__/

IPAD

BUFGE

ILFFX

to internal

logic

Legend:

__/

Donât care

Rising edge

Set or Reset value. Reset is default.

Input is Low or unconnected (default value)

Input is High or unconnected (default value)

3-state

IPAD

BUFGLS

X9013

Figure 17: Examples Using XC4000X FCL

May 14, 1999 (Version 1.6)

6-23

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