GAL20XV10B-15LP Lattice, GAL20XV10B-15LP Datasheet - Page 3

GAL20XV10B-15LP

Manufacturer Part Number

GAL20XV10B-15LP

Description

SPLD GAL Family 10 Macro Cells 83.3MHz EECMOS Technology 5V 24-Pin PDIP

Manufacturer

Lattice

Datasheet

1.GAL20XV10B-15LP.pdf (14 pages)

Specifications of GAL20XV10B-15LP

Package

24PDIP

Family Name

GAL

Number Of Macro Cells

Maximum Propagation Delay Time

15 ns

Typical Operating Supply Voltage

5 V

Maximum Internal Frequency

83.3 MHz

Number Of Product Terms Per Macro

Re-programmability Support

Yes

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The following discussion pertains to configuring the Output Logic

Macrocell. It should be noted that actual implementation is

accomplished by development software/hardware and is com-

pletely transparent to the user.

The GAL20XV10 has two global architecture configurations that

allow it to emulate PAL architectures. The Input mode emulates

combinatorial PAL devices, with the I/CLK and I/OE pins used as

inputs. The Feedback mode emulates registered PAL devices with

the I/CLK pin used as the register clock and the I/OE pin as an

output enable for all registers. The following is a list of PAL archi-

tectures that the GAL20XV10 can emulate. It also shows the

global architecture mode used to emulate the PAL architecture.

INPUT MODE

The Input mode architecture is defined when the global

architecture bit SYN = 1. In this mode, the I/CLK pin becomes an

input to the AND array and also provides the clock source for

all registers. The I/OE pin becomes an input into the AND array

and provides the output enable control for any macrocell config-

ured as an Exclusive-OR function. Feedback into the AND array

is provided from macrocells 2 through 9 only. In this mode,

macrocells 1 and 10 have no feedback into the AND array.

FEEDBACK MODE

The Feedback mode architecture is defined when the global

architecture bit SYN = 0. In this mode the I/CLK pin becomes a

dedicated clock source for all registers. The I/OE pin is a dedi-

cated output enable control for any macrocell configured as an

Exclusive-OR function. The I/CLK and I/OE pins are not avail-

able to the AND array in this mode. Feedback into the AND array

is provided on all macrocells 1 through 10.

FEATURES

Each Output Logic Macrocell has four possible logic function

configurations controlled by architecture control bits AC0 and AC1.

Four product terms are fed into each macrocell.

XOR REGISTERED CONFIGURATION

The Macrocell is set to the Exclusive-OR Registered configuration

when AC0 = 0 and AC1 = 0. The four product terms are seg-

mented into two OR-sums of two product terms each, which are

then combined by an Exclusive-OR gate and fed into a D-type

I/CLK pin. The inverting output buffer is enabled by the

I/OE pin, which is an active low output enable common to all

Output Logic Macrocell (OLMC)

PAL Architectures Emulated by

GAL20XV10

PAL12L10

PAL20L10

PAL20X10

PAL20X8

PAL20X4

GAL20XV10 Global

Feedback Mode

OLMC Mode

Input Mode

Exclusive-OR macrocells. In Feedback mode, the state of the

path on all macrocells. In Input mode, the state of the register

is available to the AND array via an internal feedback path on

macrocells 2 through 9 only, macrocells 1 and 10 have no feedback

into the AND array.

REGISTERED CONFIGURATION

The Macrocell is set to Registered configuration when AC0 = 1 and

AC1 = 0. Three of the four product terms are used as sum-of-

product terms for the D input of the register. The inverting output

buffer is enabled by the fourth product term. The output is en-

abled while this product term is true. The XOR bit controls the po-

larity of the output. The register is clocked by the low-to-high tran-

sition of the I/CLK. In Feedback mode, the state of the register

is available to the AND array via an internal feedback path on

all macrocells. In Input mode, the state of the register is available

to the AND array via an internal feedback path on macrocells

2 through 9 only, macrocells 1 and 10 have no feedback into the

AND array.

XOR COMBINATORIAL CONFIGURATION

The Macrocell is set to the Exclusive-OR Combinatorial configu-

ration when AC0 = 0 and AC1 = 1. The four product terms are seg-

mented into two OR-sums of two product terms each, which are

then combined by an Exclusive-OR gate and fed to an output

buffer. The inverting output buffer is enabled by the I/OE pin,

which is an active low output enable that is common to all XOR

macrocells. In Feedback mode, the state of the I/O pin is avail-

able to the AND array via an internal feedback path on all

macrocells. In Input mode, the state of the I/O pin is available to

the AND array via an input buffer path on macrocells 2 through

9 only, macrocells 1 and 10 have no input into the AND array.

COMBINATORIAL CONFIGURATION

The Macrocell is set to Combinatorial mode when AC0 = 1 and

AC1 = 1. Three of the four product terms are used as sum-of-

product terms for the combinatorial output. The XOR bit controls

the polarity of the output. The inverting output buffer is enabled

by the fourth product term. The output is enabled while this product

term is true. In Feedback mode, the state of the I/O pin is avail-

able to the AND array via an internal feedback path on all

macrocells. In Input mode, the state of the I/O pin is available

to the AND array via an input buffer path on macrocells 2 through

9 only, macrocells 1 and 10 have no input into the AND array.

Specifications GAL20XV10

GAL20XV10B-15LP Lattice, GAL20XV10B-15LP Datasheet - Page 3

GAL20XV10B-15LP

Specifications of GAL20XV10B-15LP

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