MAX 7000
®
Programmable Logic
Device Family
Data Sheet
September 2005, ver. 6.7
Features...
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High-performance, EEPROM-based programmable logic devices
(PLDs) based on second-generation MAX
®
architecture
5.0-V in-system programmability (ISP) through the built-in
IEEE Std. 1149.1 Joint Test Action Group (JTAG) interface available in
MAX 7000S devices
– ISP circuitry compatible with IEEE Std. 1532
Includes 5.0-V MAX 7000 devices and 5.0-V ISP-based MAX 7000S
devices
Built-in JTAG boundary-scan test (BST) circuitry in MAX 7000S
devices with 128 or more macrocells
Complete EPLD family with logic densities ranging from 600 to
5,000 usable gates (see
Tables 1
and
2)
5-ns pin-to-pin logic delays with up to 175.4-MHz counter
frequencies (including interconnect)
PCI-compliant devices available
f
For information on in-system programmable 3.3-V MAX 7000A or 2.5-V
MAX 7000B devices, see the
MAX 7000A Programmable Logic Device Family
Data Sheet
or the
MAX 7000B Programmable Logic Device Family Data
Sheet.
Table 1. MAX 7000 Device Features
Feature
Usable
gates
Macrocells
Logic array
blocks
Maximum
user I/O pins
t
PD
(ns)
t
SU
(ns)
t
FSU
(ns)
t
CO1
(ns)
f
CNT
(MHz)
EPM7032
600
32
2
36
6
5
2.5
4
151.5
EPM7064
1,250
64
4
68
6
5
2.5
4
151.5
EPM7096
1,800
96
6
76
7.5
6
3
4.5
125.0
EPM7128E
2,500
128
8
100
7.5
6
3
4.5
125.0
EPM7160E
3,200
160
10
104
10
7
3
5
100.0
EPM7192E
3,750
192
12
124
12
7
3
6
90.9
EPM7256E
5,000
256
16
164
12
7
3
6
90.9
Altera Corporation
DS-MAX7000-6.7
1
MAX 7000 Programmable Logic Device Family Data Sheet
Table 2. MAX 7000S Device Features
Feature
Usable gates
Macrocells
Logic array
blocks
Maximum
user I/O pins
t
PD
(ns)
t
SU
(ns)
t
FSU
(ns)
t
CO1
(ns)
f
CNT
(MHz)
EPM7032S
600
32
2
36
5
2.9
2.5
3.2
175.4
■
■
■
■
■
EPM7064S
1,250
64
4
68
5
2.9
2.5
3.2
175.4
EPM7128S
2,500
128
8
100
6
3.4
2.5
4
147.1
EPM7160S
3,200
160
10
104
6
3.4
2.5
3.9
149.3
EPM7192S
3,750
192
12
124
7.5
4.1
3
4.7
125.0
EPM7256S
5,000
256
16
164
7.5
3.9
3
4.7
128.2
...and More
Features
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Open-drain output option in MAX 7000S devices
Programmable macrocell flipflops with individual clear, preset,
clock, and clock enable controls
Programmable power-saving mode for a reduction of over 50% in
each macrocell
Configurable expander product-term distribution, allowing up to
32 product terms per macrocell
44 to 208 pins available in plastic J-lead chip carrier (PLCC), ceramic
pin-grid array (PGA), plastic quad flat pack (PQFP), power quad flat
pack (RQFP), and 1.0-mm thin quad flat pack (TQFP) packages
Programmable security bit for protection of proprietary designs
3.3-V or 5.0-V operation
– MultiVolt
TM
I/O interface operation, allowing devices to
interface with 3.3-V or 5.0-V devices (MultiVolt I/O operation is
not available in 44-pin packages)
– Pin compatible with low-voltage MAX 7000A and MAX 7000B
devices
Enhanced features available in MAX 7000E and MAX 7000S devices
– Six pin- or logic-driven output enable signals
– Two global clock signals with optional inversion
– Enhanced interconnect resources for improved routability
–
Fast input setup times provided by a dedicated path from I/O
pin to macrocell registers
–
Programmable output slew-rate control
Software design support and automatic place-and-route provided by
Altera’s development system for Windows-based PCs and Sun
SPARCstation, and HP 9000 Series 700/800 workstations
2
Altera Corporation
MAX 7000 Programmable Logic Device Family Data Sheet
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Additional design entry and simulation support provided by EDIF
2 0 0 and 3 0 0 netlist files, library of parameterized modules (LPM),
Verilog HDL, VHDL, and other interfaces to popular EDA tools from
manufacturers such as Cadence, Exemplar Logic, Mentor Graphics,
OrCAD, Synopsys, and VeriBest
Programming support
–
Altera’s Master Programming Unit (MPU) and programming
hardware from third-party manufacturers program all
MAX 7000 devices
–
The BitBlaster
TM
serial download cable, ByteBlasterMV
TM
parallel port download cable, and MasterBlaster
TM
serial/universal serial bus (USB) download cable program MAX
7000S devices
General
Description
The MAX 7000 family of high-density, high-performance PLDs is based
on Altera’s second-generation MAX architecture. Fabricated with
advanced CMOS technology, the EEPROM-based MAX 7000 family
provides 600 to 5,000 usable gates, ISP, pin-to-pin delays as fast as 5 ns,
and counter speeds of up to 175.4 MHz. MAX 7000S devices in the -5, -6,
-7, and -10 speed grades as well as MAX 7000 and MAX 7000E devices in
-5, -6, -7, -10P, and -12P speed grades comply with the PCI Special Interest
Group (PCI SIG)
PCI Local Bus Specification, Revision 2.2.
See
Table 3
for available speed grades.
Table 3. MAX 7000 Speed Grades
Device
-5
EPM7032
EPM7032S
EPM7064
EPM7064S
EPM7096
EPM7128E
EPM7128S
EPM7160E
EPM7160S
EPM7192E
EPM7192S
EPM7256E
EPM7256S
Speed Grade
-6
v
v
v
v
v
v
-7
v
v
v
v
v
v
v
v
v
v
v
v
v
v
-10P
-10
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
-12P
-12
v
-15
v
-15T
v
-20
Altera Corporation
3
MAX 7000 Programmable Logic Device Family Data Sheet
The MAX 7000E devices—including the EPM7128E, EPM7160E,
EPM7192E, and EPM7256E devices—have several enhanced features:
additional global clocking, additional output enable controls, enhanced
interconnect resources, fast input registers, and a programmable slew
rate.
In-system programmable MAX 7000 devices—called MAX 7000S
devices—include the EPM7032S, EPM7064S, EPM7128S, EPM7160S,
EPM7192S, and EPM7256S devices. MAX 7000S devices have the
enhanced features of MAX 7000E devices as well as JTAG BST circuitry in
devices with 128 or more macrocells, ISP, and an open-drain output
option. See
Table 4.
Table 4. MAX 7000 Device Features
Feature
EPM7032
EPM7064
EPM7096
All
MAX 7000E
Devices
All
MAX 7000S
Devices
v
v
(1)
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
v
ISP via JTAG interface
JTAG BST circuitry
Open-drain output option
Fast input registers
Six global output enables
Two global clocks
Slew-rate control
MultiVolt interface
(2)
Programmable register
Parallel expanders
Shared expanders
Power-saving mode
Security bit
PCI-compliant devices available
Notes:
(1)
(2)
Available only in EPM7128S, EPM7160S, EPM7192S, and EPM7256S devices only.
The MultiVolt I/O interface is not available in 44-pin packages.
4
Altera Corporation
MAX 7000 Programmable Logic Device Family Data Sheet
The MAX 7000 architecture supports 100% TTL emulation and
high-density integration of SSI, MSI, and LSI logic functions. The
MAX 7000 architecture easily integrates multiple devices ranging from
PALs, GALs, and 22V10s to MACH and pLSI devices. MAX 7000 devices
are available in a wide range of packages, including PLCC, PGA, PQFP,
RQFP, and TQFP packages. See
Table 5.
Table 5. MAX 7000 Maximum User I/O Pins
Device
Note (1)
160-
Pin
PQFP
160-
Pin
PGA
192-
Pin
PGA
208-
Pin
PQFP
208-
Pin
RQFP
44-
44-
44-
68-
84- 100- 100-
Pin
Pin
Pin
Pin
Pin
Pin
Pin
PLCC PQFP TQFP PLCC PLCC PQFP TQFP
36
36
36
36
36
36
36
36
36
52
52
68
68
64
68
68
64
64
76
84
84
84
84
(2)
84
(2)
68
68
EPM7032
EPM7032S
EPM7064
EPM7064S
EPM7096
EPM7128E
EPM7128S
EPM7160E
EPM7160S
EPM7192E
EPM7192S
EPM7256E
EPM7256S
Notes:
(1)
(2)
100
100
104
104
124
124
132
(2)
164
164
(2)
164
164
124
When the JTAG interface in MAX 7000S devices is used for either boundary-scan testing or for ISP, four I/O pins
become JTAG pins.
Perform a complete thermal analysis before committing a design to this device package. For more information, see
the
Operating Requirements for Altera Devices Data Sheet.
MAX 7000 devices use CMOS EEPROM cells to implement logic
functions. The user-configurable MAX 7000 architecture accommodates a
variety of independent combinatorial and sequential logic functions. The
devices can be reprogrammed for quick and efficient iterations during
design development and debug cycles, and can be programmed and
erased up to 100 times.
Altera Corporation
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