EPM570ZM256C6N Altera, EPM570ZM256C6N Datasheet - Page 17

EPM570ZM256C6N

Manufacturer Part Number

EPM570ZM256C6N

Description

IC MAX IIZ CPLD 570 LE 256-MBGA

Manufacturer

Altera

Series

MAX® IIr

Datasheets

1.EPM240GT100C5N.pdf (6 pages)

2.EPM240GT100C5N.pdf (88 pages)

Specifications of EPM570ZM256C6N

Programmable Type

In System Programmable

Delay Time Tpd(1) Max

9.0ns

Voltage Supply - Internal

1.71 V ~ 1.89 V

Number Of Logic Elements/blocks

570

Number Of Macrocells

440

Number Of I /o

160

Operating Temperature

0°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

256-MBGA

Voltage

1.8V

Memory Type

FLASH

Number Of Logic Elements/cells

570

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Other names

544-2453

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Manufacturer

Quantity

Price

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Part Number:

EPM570ZM256C6N

Manufacturer:

ALTERA

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736

Company:

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Part Number:

EPM570ZM256C6N

Manufacturer:

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Quantity:

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Chapter 2: MAX II Architecture

Logic Elements

Figure 2–7. LE in Normal Mode

Note to

(1) This signal is only allowed in normal mode if the LE is at the end of an adder/subtractor chain.

addnsub (LAB Wide)

Figure

data1

data2

data3

cin (from cout

of previous LE)

data4

2–7:

(1)

Normal Mode

The normal mode is suitable for general logic applications and combinational

functions. In normal mode, four data inputs from the LAB local interconnect are

inputs to a four-input LUT (see

selects the carry-in or the data3 signal as one of the inputs to the LUT. Each LE can use

LUT chain connections to drive its combinational output directly to the next LE in the

LAB. Asynchronous load data for the register comes from the data3 input of the LE.

LEs in normal mode support packed registers.

Dynamic Arithmetic Mode

The dynamic arithmetic mode is ideal for implementing adders, counters,

accumulators, wide parity functions, and comparators. An LE in dynamic arithmetic

mode uses four 2-input LUTs configurable as a dynamic adder/subtractor. The first

two 2-input LUTs compute two summations based on a possible carry-in of 1 or 0; the

other two LUTs generate carry outputs for the two chains of the carry-select circuitry.

As shown in

carry-in1 chain. The selected chain’s logic level in turn determines which parallel sum

is generated as a combinational or registered output. For example, when

implementing an adder, the sum output is the selection of two possible calculated

sums:

data1 + data2 + carry in0

data1 + data2 + carry-in1

4-Input

Figure

LUT

connection

2–8, the LAB carry-in signal selects either the carry-in0 or

clock (LAB Wide)

(LAB Wide)

ena (LAB Wide)

aclr (LAB Wide)

sload

Figure

(LAB Wide)

sclear

2–7). The Quartus II Compiler automatically

(LAB Wide)

ADATA

ENA

ALD/PRE

aload

CLRN

MAX II Device Handbook

Row, column, and

DirectLink routing

Row, column, and

DirectLink routing

Local routing

LUT chain

connection

chain output

2–9

EPM570ZM256C6N Altera, EPM570ZM256C6N Datasheet - Page 17

EPM570ZM256C6N

Specifications of EPM570ZM256C6N

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