EPM7128ELC84-10 Altera, EPM7128ELC84-10 Datasheet - Page 16
EPM7128ELC84-10
Manufacturer Part Number
EPM7128ELC84-10
Description
IC MAX 7000 CPLD 128 84-PLCC
Manufacturer
Altera
Series
MAX® 7000r
Datasheet
1.EPM7064STC44-10.pdf
(66 pages)
Specifications of EPM7128ELC84-10
Programmable Type
In System Programmable
Delay Time Tpd(1) Max
10.0ns
Voltage Supply - Internal
4.75 V ~ 5.25 V
Number Of Logic Elements/blocks
8
Number Of Macrocells
128
Number Of Gates
2500
Number Of I /o
68
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
84-PLCC
Voltage
5V
Memory Type
EEPROM
Number Of Logic Elements/cells
8
Family Name
MAX 7000
# Macrocells
128
Number Of Usable Gates
2500
Frequency (max)
125MHz
Propagation Delay Time
10ns
Number Of Logic Blocks/elements
8
# I/os (max)
68
Operating Supply Voltage (typ)
5V
In System Programmable
Yes
Operating Supply Voltage (min)
4.75V
Operating Supply Voltage (max)
5.25V
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
84
Package Type
PLCC
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Features
-
Lead Free Status / Rohs Status
Not Compliant
Other names
544-2317-5
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
EPM7128ELC84-10
Manufacturer:
ALTERA
Quantity:
35
Company:
Part Number:
EPM7128ELC84-10
Manufacturer:
ALTERA
Quantity:
178
Part Number:
EPM7128ELC84-10
Manufacturer:
ALTERA/阿尔特拉
Quantity:
20 000
MAX 7000 Programmable Logic Device Family Data Sheet
In-System
Programma-
bility (ISP)
16
When the tri-state buffer control is connected to ground, the output is
tri-stated (high impedance) and the I/O pin can be used as a dedicated
input. When the tri-state buffer control is connected to V
enabled.
The MAX 7000 architecture provides dual I/O feedback, in which
macrocell and pin feedbacks are independent. When an I/O pin is
configured as an input, the associated macrocell can be used for buried
logic.
MAX 7000S devices are in-system programmable via an
industry-standard 4-pin Joint Test Action Group (JTAG) interface (IEEE
Std. 1149.1-1990). ISP allows quick, efficient iterations during design
development and debugging cycles. The MAX 7000S architecture
internally generates the high programming voltage required to program
EEPROM cells, allowing in-system programming with only a single 5.0 V
power supply. During in-system programming, the I/O pins are tri-stated
and pulled-up to eliminate board conflicts. The pull-up value is nominally
50 k¾.
ISP simplifies the manufacturing flow by allowing devices to be mounted
on a printed circuit board with standard in-circuit test equipment before
they are programmed. MAX 7000S devices can be programmed by
downloading the information via in-circuit testers (ICT), embedded
processors, or the Altera MasterBlaster, ByteBlasterMV, ByteBlaster,
BitBlaster download cables. (The ByteBlaster cable is obsolete and is
replaced by the ByteBlasterMV cable, which can program and configure
2.5-V, 3.3-V, and 5.0-V devices.) Programming the devices after they are
placed on the board eliminates lead damage on high-pin-count packages
(e.g., QFP packages) due to device handling and allows devices to be
reprogrammed after a system has already shipped to the field. For
example, product upgrades can be performed in the field via software or
modem.
In-system programming can be accomplished with either an adaptive or
constant algorithm. An adaptive algorithm reads information from the
unit and adapts subsequent programming steps to achieve the fastest
possible programming time for that unit. Because some in-circuit testers
cannot support an adaptive algorithm, Altera offers devices tested with a
constant algorithm. Devices tested to the constant algorithm have an “F”
suffix in the ordering code.
The Jam
used to program MAX 7000S devices with in-circuit testers, PCs, or
embedded processor.
TM
Standard Test and Programming Language (STAPL) can be
Altera Corporation
CC
, the output is
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