GAL16LV8C-10LJN LATTICE [Lattice Semiconductor], GAL16LV8C-10LJN Datasheet - Page 17

GAL16LV8C-10LJN

Manufacturer Part Number

GAL16LV8C-10LJN

Description

Manufacturer

LATTICE [Lattice Semiconductor]

Datasheet

1.GAL16LV8C-10LJN.pdf (22 pages)

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An electronic signature is provided in every GAL16LV8 device. It

contains 64 bits of reprogrammable memory that can contain user

defined data. Some uses include user ID codes, revision numbers,

or inventory control. The signature data is always available to the

user independent of the state of the security cell.

NOTE: The electronic signature is included in checksum calcula-

tions. Changing the electronic signature will alter the checksum.

A security cell is provided in the GAL16LV8 devices to prevent un-

authorized copying of the array patterns. Once programmed, this

cell prevents further read access to the functional bits in the device.

This cell can only be erased by re-programming the device, so the

original configuration can never be examined once this cell is pro-

grammed. The Electronic Signature is always available to the user,

regardless of the state of this control cell.

GAL16LV8 devices are designed with an on-board charge pump

to negatively bias the substrate. The negative bias minimizes the

potential of latch-up caused by negative input undershoots.

GAL devices are programmed using a Lattice Semiconductor-ap-

proved Logic Programmer, available from a number of manufac-

turers. Complete programming of the device takes only a few sec-

onds. Erasing of the device is transparent to the user, and is done

automatically as part of the programming cycle.

Electronic Signature

Security Cell

Latch-Up Protection

Device Programming

When testing state machine designs, all possible states and state

transitions must be verified in the design, not just those required

in the normal machine operations. This is because, in system

operation, certain events occur that may throw the logic into an

illegal state (power-up, line voltage glitches, brown-outs, etc.). To

test a design for proper treatment of these conditions, a way must

be provided to break the feedback paths, and force any desired (i.e.,

illegal) state into the registers. Then the machine can be sequenced

and the outputs tested for correct next state conditions.

GAL16LV8 devices include circuitry that allows each registered

output to be synchronously set either high or low. Thus, any present

state condition can be forced for test sequencing. If necessary,

approved GAL programmers capable of executing text vectors

perform output register preload automatically.

GAL16LV8 devices are designed with TTL level compatible input

buffers. These buffers have a characteristically high impedance,

and present a much lighter load to the driving logic than bipolar TTL

devices.

The GAL16LV8D input and I/O pins have built-in active pull-ups.

As a result, unused inputs and I/O's will float to a TTL "high" (logical

"1"). Lattice Semiconductor recommends that all unused inputs

and tri-stated I/O pins be connected to another active input, V

or Ground. Doing this will tend to improve noise immunity and re-

duce I

Output Register Preload

Input Buffers

Typical Input Pull-up Characteristic (GAL16LV8D)

-10

-20

-30

-40

-50

-60

-70

-80

for the device.

Specifications GAL16LV8

Input Voltage (V)

GAL16LV8C-10LJN LATTICE [Lattice Semiconductor], GAL16LV8C-10LJN Datasheet - Page 17

GAL16LV8C-10LJN

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