XCV405E-7BG556I XILINX [Xilinx, Inc], XCV405E-7BG556I Datasheet - Page 39

XCV405E-7BG556I

Manufacturer Part Number

XCV405E-7BG556I

Description

Virtex-E 1.8 V Extended Memory Field Programmable Gate Arrays

Manufacturer

XILINX [Xilinx, Inc]

Datasheet

1.XCV405E-7BG556I.pdf (116 pages)

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The LVTTL OBUFT additionally can support one of two slew

rate modes to minimize bus transients. By default, the slew

rate for each output buffer is reduced to minimize power bus

transients when switching non-critical signals.

LVTTL 3-state output buffers have selectable drive

strengths.

The format for LVTTL OBUFT symbol names is as follows.

<slew_rate> can be either F (Fast), or S (Slow) and

<drive_strength> is specified in milliamps (2, 4, 6, 8, 12, 16,

or 24).

The following list details variations of the OBUFT symbol.

•

DS025-2 (v2.1) July 17, 2002

Figure 41: 3-State Output Buffer Symbol (OBUFT)

OBUFT_<slew_rate>_<drive_strength>

OBUFT

OBUFT_S_2

OBUFT_S_4

OBUFT_S_6

OBUFT_S_8

OBUFT_S_12

OBUFT_S_16

OBUFT_S_24

OBUFT_F_2

OBUFT_F_4

OBUFT_F_6

OBUFT_F_8

OBUFT_F_12

OBUFT_F_16

OBUFT_F_24

OBUFT_LVCMOS2

OBUFT_PCI33_3

OBUFT_PCI66_3

OBUFT_GTL

OBUFT_GTLP

OBUFT_HSTL_I

OBUFT_HSTL_III

OBUFT_HSTL_IV

OBUFT_SSTL3_I

OBUFT_SSTL3_II

OBUFT_SSTL2_I

OBUFT_SSTL2_II

OBUFT_CTT

OBUFT_AGP

OBUFT_LVCMOS18

OBUFT_LVDS

OBUFT_LVPECL

OBUFT

x133_05_111699

Virtex™-E 1.8 V Extended Memory Field Programmable Gate Arrays

www.xilinx.com

1-800-255-7778

The Virtex-E series supports eight banks for the HQ and PQ

packages. The CS package supports four V

The SelectI/O OBUFT placement restrictions require that

within a given V

put source drive voltage. Input buffers of any type and out-

put buffers that do not require V

the same V

The LOC property can specify a location for the OBUFT.

3-state output buffers and bidirectional buffers can have

either a weak pull-up resistor, a weak pull-down resistor, or

a weak “keeper” circuit. Control this feature by adding the

appropriate symbol to the output net of the OBUFT (PUL-

LUP, PULLDOWN, or KEEPER).

The weak “keeper” circuit requires the input buffer within the

IOB to sample the I/O signal. So, OBUFTs programmed for

an I/O standard that requires a V

ment of a V

a weak “keeper” circuit. This restriction does not affect most

circuit design as applications using an OBUFT configured

with a weak “keeper” typically implement a bidirectional I/O.

In this case the IBUF (and the corresponding V

explicitly placed.

The LOC property can specify a location for the OBUFT.

IOBUF

Use the IOBUF symbol for bidirectional signals that require

both an input buffer and a 3-state output buffer with an

active high 3-state pin. The generic input/output buffer

IOBUF appears in

The extension to the base name defines which I/O standard

the IOBUF uses. With no extension specified for the generic

IOBUF symbol, the assumed standard is LVTTL input buffer

and slew rate limited LVTTL with 12 mA drive strength for

the output buffer.

The LVTTL IOBUF additionally can support one of two slew

rate modes to minimize bus transients. By default, the slew

rate for each output buffer is reduced to minimize power bus

transients when switching non-critical signals.

LVTTL bidirectional buffers have selectable output drive

strengths.

The format for LVTTL IOBUF symbol names is as follows.

<slew_rate> can be either F (Fast), or S (Slow) and

<drive_strength> is specified in milliamps (2, 4, 6, 8, 12, 16,

or 24).

IOBUF_<slew_rate>_<drive_strength>

CCO

REF

CCO

in the bank with an OBUFT configured with

bank.

Figure

bank each OBUFT share the same out-

42.

REF

CCO

have automatic place-

can be placed within

CCO

Module 2 of 4

banks.

REF

) are

XCV405E-7BG556I XILINX [Xilinx, Inc], XCV405E-7BG556I Datasheet - Page 39

XCV405E-7BG556I

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