EPM2210F256C5N Altera, EPM2210F256C5N Datasheet - Page 12

EPM2210F256C5N

Manufacturer Part Number

EPM2210F256C5N

Description

IC MAX II CPLD 2210 LE 256-FBGA

Manufacturer

Altera

Series

MAX® IIr

Datasheets

1.EPM240GT100C5N.pdf (6 pages)

2.EPM240GT100C5N.pdf (88 pages)

Specifications of EPM2210F256C5N

Programmable Type

In System Programmable

Delay Time Tpd(1) Max

7.0ns

Voltage Supply - Internal

2.5V, 3.3V

Number Of Logic Elements/blocks

2210

Number Of Macrocells

1700

Number Of I /o

204

Operating Temperature

0°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

256-FBGA

Voltage

2.5V, 3.3V

Memory Type

FLASH

Number Of Logic Elements/cells

2210

Cpld Type

FLASH

No. Of Macrocells

1700

No. Of I/o's

204

Propagation Delay

7.5ns

Global Clock Setup Time

1.2ns

Frequency

304MHz

Supply Voltage Range

3V To 3.6V

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Other names

544-1354
EPM2210F256C5N

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2–4

Logic Array Blocks

Figure 2–3. MAX II LAB Structure

Note to

(1) Only from LABs adjacent to IOEs.

LAB Interconnects

MAX II Device Handbook

Fast I/O connection

to IOE (1)

DirectLink

interconnect from

adjacent LAB

or IOE

DirectLink

interconnect to

adjacent LAB

or IOE

Figure

2–3:

Each LAB consists of 10 LEs, LE carry chains, LAB control signals, a local interconnect,

a look-up table (LUT) chain, and register chain connection lines. There are 26 possible

unique inputs into an LAB, with an additional 10 local feedback input lines fed by LE

outputs in the same LAB. The local interconnect transfers signals between LEs in the

same LAB. LUT chain connections transfer the output of one LE’s LUT to the adjacent

LE for fast sequential LUT connections within the same LAB. Register chain

connections transfer the output of one LE’s register to the adjacent LE’s register

within an LAB. The Quartus

adjacent LABs, allowing the use of local, LUT chain, and register chain connections

for performance and area efficiency.

The LAB local interconnect can drive LEs within the same LAB. The LAB local

interconnect is driven by column and row interconnects and LE outputs within the

same LAB. Neighboring LABs, from the left and right, can also drive an LAB’s local

interconnect through the DirectLink connection. The DirectLink connection feature

minimizes the use of row and column interconnects, providing higher performance

and flexibility. Each LE can drive 30 other LEs through fast local and DirectLink

interconnects.

Logic Element

Figure 2–4

LE0

LE1

LE2

LE3

LE4

LE5

LE6

LE7

LE8

LE9

LAB

shows the DirectLink connection.

II software places associated logic within an LAB or

Figure 2–3

Local Interconnect

Row Interconnect

shows the MAX II LAB.

Chapter 2: MAX II Architecture

Column Interconnect

Fast I/O connection

to IOE (1)

DirectLink

interconnect from

adjacent LAB

or IOE

DirectLink

interconnect to

adjacent LAB

or IOE

Logic Array Blocks

EPM2210F256C5N Altera, EPM2210F256C5N Datasheet - Page 12

EPM2210F256C5N

Specifications of EPM2210F256C5N

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