EPM240GM100C5N Altera, EPM240GM100C5N Datasheet - Page 16
EPM240GM100C5N
Manufacturer Part Number
EPM240GM100C5N
Description
IC MAX II CPLD 240 LE 100-MBGA
Manufacturer
Altera
Series
MAX® IIr
Datasheets
1.EPM240GT100C5N.pdf
(6 pages)
2.EPM240GT100C5N.pdf
(88 pages)
3.EPM240GM100C5N.pdf
(10 pages)
Specifications of EPM240GM100C5N
Programmable Type
In System Programmable
Delay Time Tpd(1) Max
4.7ns
Voltage Supply - Internal
1.71 V ~ 1.89 V
Number Of Logic Elements/blocks
240
Number Of Macrocells
192
Number Of I /o
80
Operating Temperature
0°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
100-MBGA
Voltage
1.8V
Memory Type
FLASH
Number Of Logic Elements/cells
240
Family Name
MAX II
# Macrocells
192
Frequency (max)
1.8797GHz
Propagation Delay Time
7.5ns
Number Of Logic Blocks/elements
24
# I/os (max)
80
Operating Supply Voltage (typ)
1.8V
In System Programmable
Yes
Operating Supply Voltage (min)
1.71V
Operating Supply Voltage (max)
1.89V
Operating Temp Range
0C to 85C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
100
Package Type
MBGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Features
-
Lead Free Status / Rohs Status
Compliant
Other names
544-1726
Available stocks
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2–8
LUT Chain and Register Chain
addnsub Signal
LE Operating Modes
MAX II Device Handbook
In addition to the three general routing outputs, the LEs within an LAB have LUT
chain and register chain outputs. LUT chain connections allow LUTs within the same
LAB to cascade together for wide input functions. Register chain outputs allow
registers within the same LAB to cascade together. The register chain output allows an
LAB to use LUTs for a single combinational function and the registers to be used for
an unrelated shift register implementation. These resources speed up connections
between LABs while saving local interconnect resources. Refer to
Interconnect” on page 2–12
connections.
The LE’s dynamic adder/subtractor feature saves logic resources by using one set of
LEs to implement both an adder and a subtractor. This feature is controlled by the
LAB-wide control signal addnsub. The addnsub signal sets the LAB to perform either
A + B or A – B. The LUT computes addition; subtraction is computed by adding the
two’s complement of the intended subtractor. The LAB-wide signal converts to two’s
complement by inverting the B bits within the LAB and setting carry-in to 1, which
adds one to the least significant bit (LSB). The LSB of an adder/subtractor must be
placed in the first LE of the LAB, where the LAB-wide addnsub signal automatically
sets the carry-in to 1. The Quartus II Compiler automatically places and uses the
adder/subtractor feature when using adder/subtractor parameterized functions.
The MAX II LE can operate in one of the following modes:
■
■
Each mode uses LE resources differently. In each mode, eight available inputs to the
LE, the four data inputs from the LAB local interconnect, carry-in0 and carry-
in1 from the previous LE, the LAB carry-in from the previous carry-chain LAB, and
the register chain connection are directed to different destinations to implement the
desired logic function. LAB-wide signals provide clock, asynchronous clear,
asynchronous preset/load, synchronous clear, synchronous load, and clock enable
control for the register. These LAB-wide signals are available in all LE modes. The
addnsub control signal is allowed in arithmetic mode.
The Quartus II software, in conjunction with parameterized functions such as library
of parameterized modules (LPM) functions, automatically chooses the appropriate
mode for common functions such as counters, adders, subtractors, and arithmetic
functions.
“Normal Mode”
“Dynamic Arithmetic Mode”
for more information about LUT chain and register chain
© October 2008 Altera Corporation
Chapter 2: MAX II Architecture
“MultiTrack
Logic Elements
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