LFEC10E-3F484C LATTICE SEMICONDUCTOR, LFEC10E-3F484C Datasheet - Page 26

LFEC10E-3F484C

Manufacturer Part Number

LFEC10E-3F484C

Description

FPGA LatticeEC Family 10200 Cells 340MHz 130nm (CMOS) Technology 1.2V 484-Pin FBGA

Manufacturer

LATTICE SEMICONDUCTOR

Datasheet

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

Specifications of LFEC10E-3F484C

Package

484FBGA

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

288

Ram Bits

282624

In System Programmability

Yes

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Input Register Block

The input register block contains delay elements and registers that can be used to condition signals before they are

passed to the device core. Figure 2-26 shows the diagram of the input register block.

Input signals are fed from the sysI/O buffer to the input register block (as signal DI). If desired the input signal can

bypass the register and delay elements and be used directly as a combinatorial signal (INDD), a clock (INCK) and

in selected blocks the input to the DQS delay block. If one of the bypass options is not chosen, the signal ﬁrst

passes through an optional delay block. This delay, if selected, reduces input-register hold-time requirement when

using a global clock.

The input block allows two modes of operation. In the single data rate (SDR) the data is registered, by one of the

registers in the single data rate sync register block, with the system clock. In the DDR Mode two registers are used

to sample the data on the positive and negative edges of the DQS signal creating two data streams, D0 and D2.

These two data streams are synchronized with the system clock before entering the core. Further discussion on

this topic is in the DDR Memory section of this data sheet.

Figure 2-27 shows the input register waveforms for DDR operation and Figure 2-28 shows the design tool primi-

tives. The SDR/SYNC registers have reset and clock enable available.

The signal DDRCLKPOL controls the polarity of the clock used in the synchronization registers. It ensures ade-

quate timing when data is transferred from the DQS to system clock domain. For further discussion on this topic,

see the DDR Memory section of this data sheet.

Figure 2-26. Input Register Diagram

Polarity Control Bus)

DDRCLKPOL

(From DDR

DQS Delayed

(From Routing)

(From sysIO

(From DQS

Buffer)

CLK0

Bus)

Delay Block

Fixed Delay

D-Type

DDR Registers

2-23

D-Type

LatticeECP/EC Family Data Sheet

SDR & Sync

/LATCH

D-Type

Registers

D-Type

INCK

INDD

IPOS0

IPOS1

Architecture

LFEC10E-3F484C LATTICE SEMICONDUCTOR, LFEC10E-3F484C Datasheet - Page 26

LFEC10E-3F484C

Specifications of LFEC10E-3F484C

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