LFEC10E-3FN256C LATTICE SEMICONDUCTOR, LFEC10E-3FN256C Datasheet - Page 31

LFEC10E-3FN256C

Manufacturer Part Number

LFEC10E-3FN256C

Description

FPGA LatticeEC Family 10200 Cells 340MHz 130nm (CMOS) Technology 1.2V 256-Pin FBGA

Manufacturer

LATTICE SEMICONDUCTOR

Datasheet

1.LFEC3E-5TN144C.pdf (163 pages)

Specifications of LFEC10E-3FN256C

Package

256FBGA

Family Name

LatticeEC

Device Logic Units

10200

Maximum Internal Frequency

340 MHz

Typical Operating Supply Voltage

1.2 V

Maximum Number Of User I/os

195

Ram Bits

282624

In System Programmability

Yes

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

LFEC10E-3FN256C

Manufacturer:

Lattice Semiconductor Corporation

Quantity:

10 000

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Architecture

Lattice Semiconductor

LatticeECP/EC Family Data Sheet

Polarity Control Logic

In a typical DDR Memory interface design, the phase relation between the incoming delayed DQS strobe and the

internal system Clock (during the READ cycle) is unknown.

The LatticeECP/EC family contains dedicated circuits to transfer data between these domains. To prevent setup

and hold violations at the domain transfer between DQS (delayed) and the system Clock a clock polarity selector is

used. This changes the edge on which the data is registered in the synchronizing registers in the input register

block. This requires evaluation at the start of each READ cycle for the correct clock polarity.

Prior to the READ operation in DDR memories DQS is in tristate (pulled by termination). The DDR memory device

drives DQS low at the start of the preamble state. A dedicated circuit detects this transition. This signal is used to

control the polarity of the clock to the synchronizing registers.

sysI/O Buffer

Each I/O is associated with a ﬂexible buffer referred to as a sysI/O buffer. These buffers are arranged around the

periphery of the device in eight groups referred to as Banks. The sysI/O buffers allow users to implement the wide

variety of standards that are found in today’s systems including LVCMOS, SSTL, HSTL, LVDS and LVPECL.

sysI/O Buffer Banks

LatticeECP/EC devices have eight sysI/O buffer banks; each is capable of supporting multiple I/O standards. Each

sysI/O bank has its own I/O supply voltage (V

), and two voltage references V

and V

resources allow-

CCIO

REF1

REF2

ing each bank to be completely independent from each other. Figure 2-34 shows the eight banks and their associ-

ated supplies.

In the LatticeECP/EC devices, single-ended output buffers and ratioed input buffers (LVTTL, LVCMOS, PCI and PCI-

X) are powered using V

LVTTL, LVCMOS33, LVCMOS25 and LVCMOS12 can also be set as ﬁxed threshold

CCIO.

input independent of V

In addition to the bank V

supplies, the LatticeECP/EC devices have a V

core logic

CCIO.

CCIO

power supply, and a V

supply that power all differential and referenced buffers.

CCAUX

Each bank can support up to two separate VREF voltages, VREF1 and VREF2 that set the threshold for the refer-

enced input buffers. In the LatticeECP/EC devices, some dedicated I/O pins in a bank can be conﬁgured to be a

reference voltage supply pin. Each I/O is individually conﬁgurable based on the bank’s supply and reference volt-

ages.

2-28

LFEC10E-3FN256C LATTICE SEMICONDUCTOR, LFEC10E-3FN256C Datasheet - Page 31

LFEC10E-3FN256C

Specifications of LFEC10E-3FN256C

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