EPM3512AFI256-10N Altera, EPM3512AFI256-10N Datasheet - Page 7

EPM3512AFI256-10N

Manufacturer Part Number

EPM3512AFI256-10N

Description

IC MAX 3000A CPLD 512 256-FBGA

Manufacturer

Altera

Series

MAX® 3000Ar

Datasheet

1.EPM3032ATC44-10N.pdf (46 pages)

Specifications of EPM3512AFI256-10N

Programmable Type

In System Programmable

Delay Time Tpd(1) Max

10.0ns

Voltage Supply - Internal

3 V ~ 3.6 V

Number Of Logic Elements/blocks

Number Of Macrocells

512

Number Of Gates

10000

Number Of I /o

208

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

256-FBGA

Voltage

3.0 V ~ 3.6 V

Memory Type

EEPROM

Number Of Logic Elements/cells

Family Name

MAX 3000A

# Macrocells

512

Number Of Usable Gates

10000

Frequency (max)

125MHz

Propagation Delay Time

10ns

Number Of Logic Blocks/elements

# I/os (max)

208

Operating Supply Voltage (typ)

3.3V

In System Programmable

Yes

Operating Supply Voltage (min)

Operating Supply Voltage (max)

3.6V

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

256

Package Type

FBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Lead Free Status / Rohs Status

Compliant

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For registered functions, each macrocell flipflop can be individually

programmed to implement D, T, JK, or SR operation with programmable

clock control. The flipflop can be bypassed for combinatorial operation.

During design entry, the designer specifies the desired flipflop type; the

Altera development system software then selects the most efficient

flipflop operation for each registered function to optimize resource

utilization.

Each programmable register can be clocked in three different modes:

■

Two global clock signals are available in MAX 3000A devices. As shown

either of the two global clock pins, GCLK1 or GCLK2.

Each register also supports asynchronous preset and clear functions. As

shown in

to control these operations. Although the product–term–driven preset

and clear from the register are active high, active–low control can be

obtained by inverting the signal within the logic array. In addition, each

dedicated global clear pin (GCLRn).

All registers are cleared upon power-up. By default, all registered outputs

drive low when the device is powered up. You can set the registered

outputs to drive high upon power-up through the Quartus

Quartus II software uses the NOT Gate Push-Back method, which uses an

additional macrocell to set the output high. To set this in the Quartus II

software, go to the Assignment Editor and set the Power-Up Level

assignment for the register to High.

Figure

Global clock signal mode, which achieves the fastest clock–to–output

performance.

Global clock signal enabled by an active–high clock enable. A clock

enable is generated by a product term. This mode provides an enable

on each flipflop while still achieving the fast clock–to–output

performance of the global clock.

Array clock implemented with a product term. In this mode, the

flipflop can be clocked by signals from buried macrocells or I/O pins.

1, these global clock signals can be the true or the complement of

Figure

2, the product–term select matrix allocates product terms

MAX 3000A Programmable Logic Device Family Data Sheet

II software.

EPM3512AFI256-10N Altera, EPM3512AFI256-10N Datasheet - Page 7

EPM3512AFI256-10N

Specifications of EPM3512AFI256-10N

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