ATF1500ABV View Datasheet(PDF) - Atmel Corporation

Part Name

Description

Manufacturer

ATF1500ABV

High Performance EE PLD

Atmel Corporation 

ATF1500ABV/L

data passes through when the clock is high and is latched

when the clock is low.

The clock itself can be either the global CLK pin or an indi-

vidual product term. The flip flop changes state on the

clock's rising edge. When the CLK pin is used as the clock,

one of the macrocell product terms can be selected as a

clock enable. When the clock enable function is active and

the enable signal (product term) is low, all clock edges are

ignored.

The flip flop's asynchronous reset signal (AR) can be either

the pin global clear (GCLR), a product term, or always off.

AR can also be a logic OR of GCLR with a product term.

The asynchronous preset (AP) can be a product term or

always off.

Output Select and Enable

The ATF1500ABV macrocell output can be selected as

registered or combinatorial. When the output is registered,

the same registered signal is fed back internally to the glo-

bal bus. When the output is combinatorial, the buried feed-

back can be either the same combinatorial signal or it can

be the register output if the separate product term is cho-

sen as the flip flop input.

The output enable multiplexer (MOE) controls the output

enable signals. Any buffer can be permanently enabled for

simple output operation. Buffers can also be permanently

disabled to allow use of the pin as an input. In this configu-

ration all the macrocell resources are still available, includ-

ing the buried feedback, expander and CASCADE logic.

The output enable for each macrocell can also be selected

as either of the two OE pins or as an individual product

term.

Global/Regional Busses

The global bus contains all Input and I/O pin signals as well

as the buried feedback signal from all 32 macrocells.

Together with the complement of each signal, this provides

a 68-bit bus as input to every product term. Having the

entire global bus available to each macrocell eliminates any

potential routing problems. With this architecture designs

can be modified without requiring pinout changes.

Each macrocell also generates a foldback product term.

This signal goes to the regional bus, and is available to 16

macrocells. The foldback is an inverse polarity of one of the

macrocell's product terms. The 16 foldback terms in each

region allow generation of high fan-in sum terms (up to 21

product terms) with a small additional delay.

5

Share Link: