LFXP6C-4TN144C Lattice, LFXP6C-4TN144C Datasheet - Page 36

LFXP6C-4TN144C

Manufacturer Part Number

LFXP6C-4TN144C

Description

IC FPGA 5.8KLUTS 100I/O 144-TQFP

Manufacturer

Lattice

Datasheet

1.LFXP3C-3T100C.pdf (397 pages)

Specifications of LFXP6C-4TN144C

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Lattice Semiconductor

Typical I/O Behavior During Power-up

The internal power-on-reset (POR) signal is deactivated when V

After the POR signal is deactivated, the FPGA core logic becomes active. It is the user’s responsibility to ensure

that all other V

I/O banks that are critical to the application. The default configuration of the I/O pins in a blank device is tri-state

with a weak pull-up to VCCIO. The I/O pins will not take on the user configuration until VCC, VCCAUX and VCCIO

have reached satisfactory levels at which time the I/Os will take on the user-configured settings.

The V

fers. In order to simplify system design while providing consistent and predictable I/O behavior, it is recommended

that the I/O buffers be powered-up prior to the FPGA core fabric. V

together with the V

Supported Standards

The LatticeXP sysIO buffer supports both single-ended and differential standards. Single-ended standards can be

further subdivided into LVCMOS, LVTTL and other standards. The buffers support the LVTTL, LVCMOS 1.2, 1.5,

1.8, 2.5 and 3.3V standards. In the LVCMOS and LVTTL modes, the buffer has individually configurable options for

drive strength, bus maintenance (weak pull-up, weak pull-down, or a bus-keeper latch) and open drain. Other sin-

gle-ended standards supported include SSTL and HSTL. Differential standards supported include LVDS, BLVDS,

LVPECL, differential SSTL and differential HSTL. Tables 2-7 and 2-8 show the I/O standards (together with their

supply and reference voltages) supported by the LatticeXP devices. For further information on utilizing the sysIO

buffer to support a variety of standards please see the details of additional technical documentation at the end of

this data sheet.

Table 2-7. Supported Input Standards

and V

Single Ended Interfaces

LVTTL

LVCMOS33

LVCMOS25

LVCMOS18

LVCMOS15

LVCMOS12

PCI

HSTL18 Class I, II

HSTL18 Class III

HSTL15 Class I

HSTL15 Class III

SSTL3 Class I, II

SSTL2 Class I, II

SSTL18 Class I

Differential Interfaces

Differential SSTL18 Class I

Differential SSTL2 Class I, II

Differential SSTL3 Class I, II

Differential HSTL15 Class I, III

Differential HSTL18 Class I, II, III

LVDS, LVPECL

BLVDS

1. When not specified V

2. JTAG inputs do not have a fixed threshold option and always follow V

CCIO

CCAUX

banks are active with valid input logic levels to properly control the output logic states of all the

Input Standard

supply the power to the FPGA core fabric, whereas the V

and V

CCAUX

CCIO

supplies.

can be set anywhere in the valid operating range.

REF

2-24

1.08

0.75

1.25

0.9

1.5

—

0.9

—

(Nom.)

CCIO

and V

CCJ.

supplies should be powered up before or

CCAUX

LatticeXP Family Data Sheet

CCIO

have reached satisfactory levels.

CCIO

supplies power to the I/O buf-

1.8

1.5

3.3

—

(Nom.)

Architecture

LFXP6C-4TN144C Lattice, LFXP6C-4TN144C Datasheet - Page 36

LFXP6C-4TN144C

Specifications of LFXP6C-4TN144C

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