ISPGDX160VA-3B208 LATTICE SEMICONDUCTOR, ISPGDX160VA-3B208 Datasheet - Page 4

ISPGDX160VA-3B208

Manufacturer Part Number

ISPGDX160VA-3B208

Description

Digital Crosspoint 208-Pin FBGA

Manufacturer

LATTICE SEMICONDUCTOR

Datasheet

1.ISPGDX160VA-5BN208.pdf (36 pages)

Specifications of ISPGDX160VA-3B208

Package

208FBGA

Number Of Arrays

Power Supply Type

Dual

Maximum Dual Supply Voltage

3.6 V

Minimum Dual Supply Voltage

2.3|3 V

Output Level

TTL

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The ispGDXV/VA architecture is different from traditional

PLD architectures, in keeping with its unique application

focus. The block diagram is shown below. The program-

mable interconnect consists of a single Global Routing

Pool (GRP). Unlike ispLSI

grammable logic arrays on the device. Control signals for

OEs, Clocks/Clock Enables and MUX Controls must

come from designated sets of I/O pins. The polarity of

these signals can be independently programmed in each

I/O cell.

Each I/O cell drives a unique pin. The OE control for each

I/O pin is independent and may be driven via the GRP by

one of the designated I/O pins (I/O-OE set). The I/O-OE

set consists of 25% of the total I/O pins. Boundary Scan

test is supported by dedicated registers at each I/O pin.

In-system programming is accomplished through the

standard Boundary Scan protocol.

Figure 1. ispGDXV/VA I/O Cell and GRP Detail (160 I/O Device)

Architecture

I/O Cell 78

I/O Cell 79

80 I/O Cells

I/O Cell 1

I/OCell 0

•

Logic “0” Logic “1”

Outputs Horizontal

160 Input GRP

Inputs Vertical

160 I/O Inputs

Programmable

Interconnect

I/O Group A

I/O Group B

I/O Group C

I/O Group D

• • • • • •

devices, there are no pro-

CMOS

Clock_Enables

Clocks /

Y0-Y3

Global

Reset

N+2

N-1

N+1

of 2 Adjacent I/O Cells

From MUX Outputs

N-2

of 2 Adjacent I/O Cells

From MUX Outputs

Crossbar

Specifications ispGDX160V/VA

80 I/O Cells

Switch

4x4

The various I/O pin sets are also shown in the block

diagram below. The A, B, C, and D I/O pins are grouped

together with one group per side.

I/O Architecture

Each I/O cell contains a 4:1 dynamic MUX controlled by

two select lines as well as a 4x4 crossbar switch con-

trolled by software for increased routing flexiability (Figure

1). The four data inputs to the MUX (called M0, M1, M2,

and M3) come from I/O signals in the GRP and/or

adjacent I/O cells. Each MUX data input can access one

quarter of the total I/Os. For example, in a 160 I/O

ispGDXV, each data input can connect to one of 40 I/O

pins. MUX0 and MUX1 can be driven by designated I/O

pins called MUXsel1 and MUXsel2. Each MUXsel input

covers 25% of the total I/O pins (e.g. 40 out of 160). MUX0

and MUX1 can be driven from either MUXsel1 or MUXsel2.

ispGDXV/VA architecture enhancements over ispGDX (5V)

4-to-1 MUX

MUX0

MUX1

I/O Cells below

I/O Cells above

To 2 Adjacent

I/O Cell 159

I/O Cell 158

I/O Cell 81

I/O Cell 80

• •

•

• •

•

Bypass Option

CLK_EN

CLK

or Latch

Reset

Prog. Slew Rate

2.5V/3.3V Output

Prog. Open Drain

Boundary

Scan Cell

(VCCIO)

Pull-up

Prog.

I/O Cell N

Bus Hold

Latch

Prog.

I/O

ISPGDX160VA-3B208 LATTICE SEMICONDUCTOR, ISPGDX160VA-3B208 Datasheet - Page 4

ISPGDX160VA-3B208

Specifications of ISPGDX160VA-3B208

Available stocks

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