Publication#
20446
Rev:
I
Amendment/
0
Issue Date:
September 2000
MACH
5 CPLD Family
Fifth Generation MACH Architecture
FEATURES
◆
High logic densities and I/Os for increased logic integration
— 128 to 512 macrocell densities
— 68 to 256 I/Os
◆
Wide selection of density and I/O combinations to support most application needs
— 6 macrocell density options
— 7 I/O options
— Up to 4 I/O options per macrocell density
— Up to 5 density & I/O options for each package
◆
Performance features to fit system needs
— 5.5 ns t
PD
Commercial, 7.5 ns t
PD
Industrial
— 182 MHz f
CNT
— Four programmable power/speed settings per block
◆
Flexible architecture facilitates logic design
— Multiple levels of switch matrices allow for performance-based routing
— 100% routability and pin-out retention
— Synchronous and asynchronous clocking, including dual-edge clocking
— Asynchronous product- or sum-term set or reset
— 16 to 64 output enables
— Functions of up to 32 product terms
◆
Advanced capabilities for easy system integration
— 3.3-V & 5-V JEDEC-compliant operations
— IEEE 1149.1 compliant for boundary scan testing
— 3.3-V & 5-V in-system programmable via IEEE 1149.1 Boundary Scan Test Access Port
— PCI compliant (-5/-6/-7/-10/-12 speed grades)
— Safe for mixed supply voltage system design
— Bus-Friendly™ Inputs & I/Os
— Individual output slew rate control
— Hot socketing
— Programmable security bit
◆
Advanced E
2
CMOS process provides high performance, cost effective solutions
◆
Supported by ispDesignEXPERT™ software for rapid logic development
— Supports HDL design methodologies with results optimized for MACH 5 devices
— Flexibility to adapt to user requirements
— Software partnerships that ensure customer success
◆
Lattice and Third-party hardware programming support
— LatticePRO™ software for in-system programmability support on PCs and Automated Test
Equipment
— Programming support on all major programmers including Data I/O, BP Microsystems, Advin,
and System General
2 MACH 5 Family
Note:
1. “M5-xxx” is for 5-V devices. “M5LV-xxx” is for 3.3-V devices.
2. Preliminary specifications for new 6.5ns (Tpd) speed grade. 7.5ns speed grade in production now.
GENERAL DESCRIPTION
The MACH
®
5 family consists of a broad range of high-density and high-I/O Complex
Programmable Logic Devices (CPLDs). The fifth-generation MACH architecture yields fast speeds
at high CPLD densities, low power, and supports additional features such as in-system
programmability, Boundary Scan testability, and advanced clocking options (T able 1). The MACH
5 family offers 5-V (M5-xxx) and 3.3-V (M5LV-xxx) operation.
Manufactured in state-of-the-art ISO 9000 qualified fabrication facilities on E
2
CMOS process
technologies, MACH 5 devices are available with pin-to-pin delays as fast as 5.5 ns (T able 2). The
5.5, 6.5, 7.5, 10, and 12-ns devices are compliant with the
PCI Local Bus Specification
.
Table 1. MACH 5 Device Features
1
Feature M5-128/1
M5LV-128 M5-192/1 M5-256/1
M5LV-256 M5-320
M5LV-320 M5-384
M5LV-384 M5-512
M5LV-512
Supply Voltage (V) 5 3.3 5 5 3.3 5 3.3 5 3.3 5 3.3
Macrocells 128 128 192 256 256 320 320 384 384 512 512
Maximum User I/O Pins 120 120 120 160 160 192 192 160 192 256 256
t
PD
(ns) 5.5 5.5 5.5 5.5 5.5 6.5
2
6.5
2
6.5
2
6.5
2
6.5
2
6.5
2
t
SS
(ns) 3.0 3.0 3.0 3.0 3.0 3.0
2
3.0
2
3.0
2
3.0
2
3.0
2
3.0
2
t
COS
(ns) 4.5 4.5 4.5 4.5 4.5 5.0
2
5.0
2
5.0
2
5.0
2
5.0
2
5.0
2
f
CNT
(MHz) 182 182 182 182 182 167
2
167
2
167
2
167
2
167
2
167
2
Typical Static Power (mA) 35 35 45 55 55 70 70 75 75 100 100
IEEE 1149.1 Boundary Scan Compliant Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
PCI-Compliant Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
MACH 5 Family 3
Note:
1. C = Commercial grade, I = Industrial grade
2. /1 version recommended for new designs
3. Preliminary specificatons
With Lattice’s unique hierarchical architecture, the MACH 5 family provides densities up to 512
macrocells to support full system logic integration. Extensive routing resources ensure pinout
retention as well as high utilization. It is ideal for PAL
®
block device integration and a wide range
of other applications including high-speed computing, low-power applications, communications,
and embedded control. At each macrocell density point, Lattice offers several I/O and package
options to meet a wide range of design needs (Table 3).
Note:
1. The I/O options indicated with a “*” are obsolete, please contact factory for more information.
Table 2. MACH 5 Speed Grades
Device
Speed Grade
1
-5 -6 -7 -10 -12 -15 -20
M5-128
2
C C, I C, I C, I I
M5-128/1 C C, I C, I C, I C, I I
M5LV-128 C C,I C, I C, I I
M5-192/1 C C, I C, I C, I C, I I
M5-256
2
C C, I C, I C, I I
M5-256/1 C C, I C, I C, I C, I I
M5LV-256 C C, I C, I C, I I
M5-320 C C, I C, I C, I C, I I
M5LV-320 C C, I C, I C, I C, I I
M5-384 C
3
C, I
3
C, I C, I C, I I
M5LV-384 C
3
C, I
3
C, I C, I C, I I
M5-512 C
3
C, I
3
C, I C, I C, I I
M5LV-512 C
3
C, I
3
C, I C, I C, I I
Table 3. MACH 5 Package and I/O Options
1
M5-128/1
M5LV-128 M5-192/1 M5-256/1
M5LV-256 M5-320
M5LV-320 M5-384
M5LV-384 M5-512
M5LV-512
Supply Voltage 5 3.3 5 5 3.3 5 3.3 5 3.3 5 3.3
100-pin TQFP 68 68, 74 68 68 68*, 74
100-pin PQFP 68 68* 68* 68* 68
144-pin TQFP 104 104
144-pin PQFP 104 104* 104* 104* 104*
160-pin PQFP 120 120 120 120 120 120* 120 120* 120 120* 120
208-pin PQFP 160 160 160 160 160 160 160 160
240-pin PQFP 184* 184* 184* 184* 184* 184*
256-ball BGA 192 192* 192* 192* 192* 192*
352-ball BGA 256 256
4 MACH 5 Family
Advanced power management options allow designers to incrementally reduce power while
maintaining the level of performance needed for today’s complex designs. I/O safety features
allow for mixed-voltage design, and both the 3.3-V and the 5-V device versions are in-system
programmable through an IEEE 1149.1 Test Access Port (TAP) interface.
FUNCTIONAL DESCRIPTION
The MACH 5 architecture consists of PAL blocks connected by two levels of interconnect. The
block
interconnect
provides routing among 4 PAL blocks. This grouping of PAL blocks joined by the
block interconnect is called a
segment
. The second level of interconnect, the
segment
interconnect
, ties all of the segments together. The only logic difference between any two MACH
5 devices is the number of segments. Therefore, once a designer is familiar with one device,
consistent performance can be expected across the entire family. All devices have four clock pins
available which can also be used as logic inputs.
The MACH 5 PAL blocks consist of the elements listed below (Figure 2). While each PAL block
resembles an independent PAL device, it has superior control and logic generation capabilities.
◆
I/O cells
◆
Product-term array and Logic Allocator
◆
Macrocells
◆
Register control generator
◆
Output enable generator
I/O Cells
The I/Os associated with each PAL block have a path directly back to that PAL block called
local
feedback
. If the I/O is used in another P AL block, the
interconnect feeder
assigns a
block interconnect
line to that signal. The interconnect feeder acts as an input switch matrix. The block and segment
interconnects provide connections between any two signals in a device. The
block feeder
assigns
block interconnect lines and local feedback lines to the PAL block inputs.
Block Interconnect
4
CLK
Block:
16 MCs
Segment:
4 Blocks
Segment Interconnect
20446G-001
Figure 1. MACH 5 Block Diagram
MACH 5 Family 5
Product-Term Array and Logic Allocator
The product-term array uses the same sum-of-products architecture as P AL devices and consists of
32 inputs (plus their complements) and 64 product terms arranged in 16
clusters
. A cluster is a sum-
of-products function with either 3 of 4 product terms.
Logic allocators
assign the clusters to macrocells. Each macrocell can accept up to eight clusters of
three or four product terms, but a given cluster can only be steered to one macrocell (Table 4). If
only three product terms in a cluster are steered, the fourth can be used as an input to an XOR
gate for separate logic generation and/or polarity control.
The
wide logic allocator
is comprised of all 16 of the individual logic allocators and acts as an output
switch matrix by reassigning logic to macrocells to retain pinout as designs change. The logic
allocation scheme in the MACH 5 device allows for the implementation of large equations (up to
32 product terms) with only one pass through the logic array.
Table 4. Product Term Steering Options for PT Clusters and Macrocells
Macrocell Available Clusters Macrocell Available Clusters
M
0
C
0
, C
1
, C
2
, C
3
, C
4
M
8
C
5
, C
6
, C
7
,
C
8
, C
9
, C
10
, C
11
, C
12
M
1
C
0
, C
1
, C
2
, C
3
, C
4
, C
5
M
9
C
6
, C
7
,
C
8
, C
9
, C
10
, C
11
, C
12
, C
13
M
2
C
0
, C
1
, C
2
, C
3
, C
4
, C
5
, C
6
M
10
C
7
,
C
8
, C
9
, C
10
, C
11
, C
12
, C
13
, C
14
M
3
C
0
, C
1
, C
2
, C
3
, C
4
, C
5
, C
6
, C
7
M
11
C
8
, C
9
, C
10
, C
11
, C
12
, C
13
, C
14
, C
15
M
4
C
0
, C
1
, C
2
, C
3
, C
4
, C
5
, C
6
, C
7
M
12
C
8
, C
9
, C
10, C11, C12, C13, C14, C15
M5C1, C2, C3, C4, C5, C6, C7, C8M13 C9, C10, C11, C12, C13, C14, C15
M6C2, C3, C4, C5, C6, C7, C8, C9M14 C10, C11, C12, C13, C14, C15
M7C3, C4, C5, C6, C7, C8, C9, C10 M15 C11, C12, C13, C14, C15
Block Interconnect
Interconnect Feeder
Block
Feeder
32
I/Os
16
2
Macrocells
Logic Alocator
Control Generator
OE Generator
Product-term
Array
32
32
Input Register
Path 2
Local Feedback
20446G-002
Figure 2. PAL Block Structure
6 MACH 5 Family
Macrocells
The macrocells for MACH 5 devices consist of a storage element which can be configured for
combinatorial, registered or latched operation (Figure 3). The D-type flip-flops can be configured
as T-type, J-K, or S-R operation through the use of the XOR gate associated with each macrocell.
Each PAL block has the capability to provide two input registers by using macrocells 0 and 15. In
order to use this option, these macrocells must be accessed via the I/O pins associated with
macrocells 3 and 12, respectively. Once the macrocell is used as an input register, it cannot be used
for logic, so its clusters can be re-directed through the logic allocator to another macrocell. The
I/O pins associated with macrocells 0 and 15 can still be used as input pins. Although the I/O pins
for macrocells 3 and 12 are used to connect to the input registers, these macrocells can still be
used as “buried” macrocells to drive device logic via the matrix.
Control Generator
The control generator provides four configurable clock lines and three configurable set/reset lines to
each macrocell in a PAL block. Any of the four clock lines and any of the three set/reset lines can
be independently selected by any flip-flop within a block. The clock lines can be configured to
provide synchronous global (pin) clocks and asynchronous product term clocks, sum term clocks,
and latch enables (Figure 4). Three of the four global clocks, as well as two product-term clocks
and one sum-term clock, are available per PAL block. Positive or negative edge clocking is
available as well as advanced clocking features such as complementary and biphase clocking.
Complementary clocking provides two clock lines exactly 180 degrees out of phase, and is useful
in applications such as fast data paths. A biphase clock line clocks flip-flops on both the positive
and negative edges of the clock. The configuration options for the four clock lines per PAL block
are as follows:
Clock Line 0 Options
◆Global clock (0, 1, 2, or 3) with positive or negative edge clock enable
◆Product-term clock (A*B*C)
◆Sum-term clock (A+B+C)
Logic
Allocator
5-8
Clusters/
MC
Prog. Polarity Mode
Selection
Control Bus
Macrocell
DQ
20446G-003
Figure 3. Macrocell Diagram
MACH 5 Family 7
Clock Line 1 Options
◆Global clock (0, 1, 2, or 3) with positive edge clock enable
◆Global clock (0, 1, 2, or 3) with negative edge clock enable
◆Global clock (0, 1, 2, or 3) with positive and negative edge clock enable (biphase)
Clock Line 2 Options
◆Global clock (0, 1, 2, or 3) with clock enable
Clock Line 3 Options
◆Complement of clock line 2 (same clock enable)
◆Product-term clock (if clock line 2 does not use clock enable
The set/reset generation portion of the control generator (Figure 5) creates three set/reset lines for
the PAL block. Each macrocell can choose one of these three lines or choose no set/reset at all.
All three lines can be configured for product term set/reset and two of the three lines can be
configured as sum term set/reset and one of the lines can be configured as product-term or sum-
term latch enable. While the set/reset signals are generated in the control generator , whether that
signal sets or resets a flip-flop is determined within the individual macrocell. The same signal can
set one flip-flop and reset another. PT2 or /PT2 can also be used as a latch enable for macrocells
configured as latches.
0
1
2
3
0
1
2
3
0
1
2
3
CLKIN
Clock Enable N (0)
N (1) OUT
MUX 2TO1
/CLK
F0
/CLK
CLK
CLKEN1
BIPHASE
CLKEN2
OUT
CLK0
CLK1
CLK2
CLK3
CLKIN
Clock Enable
MUX 2TO1
/CLK2
PTCLK
F0 Block
Clocks
0–3
PT (0:3)
PINCLK (0:3)
PT0
PT1
PT2
PT3
MUX 4TO1
IN (0)
IN (1)
IN (2)
IN (3)
OUT
U1
F0 F1
MUX 4TO1
IN (0)
IN (1)
IN (2)
IN (3)
OUT
U2
F0 F1
MUX 4TO1
IN (0)
IN (1)
IN (2)
IN (3)
OUT
U3
F0 F1 MUX
2TO1
MUX 2TO1
F0
20446G-004
Figure 4. Clock Generator
SET2/RST2/LE
Block
Sets/Reset
0–2, LE
PT (0:2)
PT0
PT1
PT2
SET1/RST1
SET0/RST0
MUX 2TO1
OUT
F0
PT1
/PT1(ST)
MUX 2TO1
OUT
F0
PT2
/PT2
20446G-005
Figure 5. Set/Reset Generator
8 MACH 5 Family
OE Generator
There is one output enable (OE) generator per PAL block that generates two product-term driven
output enables. Each I/O cell is simply an output buffer. Each I/O cell within the PAL block can
choose to be permanently enabled, permanently disabled, or choose one of the two product term
output enables per PAL block (Figure 6).
Output Enable
Generator
VCC
Internal Feedback
External Feedback
20446G-006
Figure 6. Output Enable Generator and I/O Cell
MACH 5 Family 9
MACH 5 TIMING MODEL
The primary focus of the MACH 5 timing model is to accurately represent the timing in a MACH 5
device, and at the same time, be easy to understand. This model accurately describes all
combinatorial and registered paths through the device, making a distinction between internal
feedback and external feedback. A signal uses internal feedback when it is fed back into the switch
matrix or block without having to go through the output buffer. The input register specifications
are also reported as internal feedback. When a signal is fed back into the switch matrix after having
gone through the output buffer, it is using external feedback.
The parameter , tBUF, is defined as the time it takes to go through the output buffer to the I/O pad.
If a signal goes to the internal feedback rather than to the I/O pad, the parameter designator is
followed by an “i”. By adding tBUF to this internal parameter, the external parameter is derived.
For example, tPD = tPDi + tBUF. A diagram representing the modularized MACH 5 timing model is
shown in Figure 7. Refer to the Technical Note entitled MACH 5 Timing and High Speed Design
for a more detailed discussion about the timing parameters.
INPUT REG/
INPUT LATCH
tSIR (S/A)
tHIR (S/A)
tSIL
tHIL
tSRR
tCES
tCEH
tCO (S/A) i
tPDILi
tGOAi
tSRi
tBLK
tSEG
CE SR
(External Feedback)
(Internal Feedback)
Q
tS (S/A)
tH (S/A)
tSAL
tHAL
tSRR
tCES
tCEH
tPDi
tCO (S/A) i
tPDLi
tGOAi
tSRi
COMB/DFF/
LATCH
CE SR
tPL1
tPL2
tPL3
IN OUT
tPT
tEA
tER
tBUF
tSLW
PIN CLK
Q
20446G-014
Figure 7. MACH 5 Timing Model
10 MACH 5 Family
MULTIPLE I/O AND DENSITY OPTIONS
The MACH 5 family offers six macrocell densities in a number of I/O options. This allows designers
to choose a device close to their logic density and I/O requirements, thus minimizing costs. For
the same package type, every density has the same pin-out. With proper design considerations, a
design can be moved to a higher or lower density part as required.
IEEE 1149.1 - COMPLIANT BOUNDARY SCAN TESTABILITY
Most MACH 5 devices have boundary scan registers and are compliant to the IEEE 1149.1 standard.
This allows functional testing of the circuit board on which the device is mounted through a serial
scan path that can access all critical logic nodes. Internal registers are linked internally, allowing
test data to be shifted in and loaded directly onto test nodes, or test node data to be captured and
shifted out for verification. In addition, these devices can be linked into a board-level serial scan
path for more complete board-level testing.
IEEE 1149.1 - COMPLIANT IN-SYSTEM PROGRAMMING
Programming devices in-system provides a number of significant benefits including: rapid
prototyping, lower inventory levels, higher quality, and the ability to make in-field modifications.
All MACH 5 devices provide in-system programming (ISP) capability through their IEEE 1149.1-
compliant Boundary Scan Test Access Port. By using the IEEE 1149.1-compliant Boundary Scan
T est Access Port as the communication interface through which ISP is achieved, customers get the
benefit of a standard, well-defined interface.
MACH 5 devices can be programmed across the commercial temperature and voltage range. The
PC-based LatticePRO software facilitates in-system programming of MACH 5 devices. LatticePRO
software takes the JEDEC file output produced by design implementation software, along with
information about the Boundary Scan chain, and creates a set of vectors that are used to drive the
Boundary Scan chain. LatticePRO software can use these vectors to drive a Boundary Scan chain
via the parallel port of a PC. Alternatively, LatticePRO software can output files in formats
understood by common automated test equipment. This equipment can then be used to program
MACH 5 devices during the testing of a circuit board.
PCI COMPLIANT
MACH 5 devices in the -5/-6/-7/-10/-12 speed grades are compliant with the PCI Local Bus
Specification version 2.1, published by the PCI Special Interest Group (SIG). The 5-V devices are
fully PCI-compliant. The 3.3-V devices are mostly compliant but do not meet the PCI condition to
clamp the inputs as they rise above VCC because of their 5-V input tolerant feature. MACH 5
devices provide the speed, drive, density, output enables and I/Os for the most complex PCI
designs.
MACH 5 Family 11
SAFE FOR MIXED SUPPLY VOLTAGE SYSTEM DESIGNS 1
Both the 3.3-V and 5-V VCC MACH 5 devices are safe for mixed supply voltage system designs.
The 5-V devices will not overdrive 3.3-V devices above the output voltage of 3.3 V, while they
accept inputs from other 3.3-V devices. The 3.3-V devices will accept inputs up to 5.5 V. Both the
3.3-V and 5-V versions have the same high-speed performance and provide easy-to-use mixed-
voltage design capability.
Note:
1. Excludes original M5-128, M5-192, and M5-256 while M5-128/1, M3-192/1 and M5-256/1 are supported. Please refer to
Application Note titled “Hot Socketing and Mixed Supply Design with MACH 4 and MACH 5 Devices”.
BUS-FRIENDLY INPUTS AND I/OS
All MACH 5 devices have inputs and I/Os which feature the Bus-Friendly circuitry incorporating
two inverters in series which loop back to the input. This double inversion weakly holds the input
at its last driven logic state. While it is a good design practice to tie unused pins to a known state,
the Bus-Friendly input structure pulls pins away from the input threshold voltage where noise can
cause high-frequency switching. At power-up, the Bus-Friendly latches are reset to a logic level
“1.” For the circuit diagram, please refer to the document entitled MACH Endurance
Characteristics on the Lattice Data Book CD-ROM or Lattice web site.
POWER MANAGEMENT
There are 4 power/speed options in each MACH 5 PAL block (Table 5). The speed and power
tradeoff can be tailored for each design. The signal speed paths in the lower-power PAL blocks
will be slower than those in the higher-power PAL blocks. This feature allows speed critical paths
to run at maximum frequency while the rest of the signal paths operate in a lower-power mode.
In large designs, there may be several different speed requirements for different portions of the
design.
PROGRAMMABLE SLEW RATE
Each MACH 5 device I/O has an individually programmable output slew rate control bit. Each
output can be individually configured for the higher speed transition (3 V/ns) or for the lower
noise transition (1 V/ns). For high-speed designs with long, unterminated traces, the slow-slew rate
will introduce fewer reflections, less noise, and keep ground bounce to a minimum. For designs
with short traces or well terminated lines, the fast slew rate can be used to achieve the highest
speed. The slew rate is adjusted independent of power.
POWER-UP RESET/SET
All flip-flops power up to a known state for predictable system initialization. If a macrocell is
configured to SET on a signal from the control generator, then that macrocell will be SET during
device power-up. If a macrocell is configured to RESET on a signal from the control generator or
is not configured for set/reset, then that macrocell will RESET on power-up. To guarantee
Table 5. Power Levels
High Speed/High Power 100% Power
Medium High Speed/Medium High Power 67% Power
Medium Low Speed/Medium Low Power 40% Power
Low Speed/Low Power 20% Power
12 MACH 5 Family
initialization values, the VCC rise must be monotonic and the clock must be inactive until the reset
delay time has elapsed.
SECURITY BIT
A programmable security bit is provided on the MACH 5 devices as a deterrent to unauthorized
copying of the array configuration patterns. Once programmed, this bit defeats readback of the
programmed pattern by a device programmer, securing proprietary designs from competitors.
Programming and verification are also defeated by the security bit. The bit can only be reset by
erasing the entire device.
MACH 5 Family 13
MACH 5 PAL BLOCK
0 4 8 121620242832
I/O
Cell I/O
Switch
Matrix
Output Enable
Output Enable
CLK
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
I/O
Cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
32
Macro
cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
Macro
cell
7
0
Logic Allocator
63
C0
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
M
3
M
6
M
5
M
4
M
2
M
1
M
0
M
9
M
8
M
7
M
10
M
11
M
12
M
13
M
14
M
15
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
Control
Generator
16 16
4
6336 40 44 48 52 56 60
0 4 8 121620242832 6336 40 44 48 52 56 60
20446G-015
14 MACH 5 Family
BLOCK DIAGRAM — M5(LV)-128/XXX
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
S E G M E N T I N T E R C O N N E C T
CLK0
CLK1
CLK2
CLK3 4
SEGMENT 0
SEGMENT 1
I0, 1
I2, 3
2
2
20446G-007
MACH 5 Family 15
BLOCK DIAGRAM — M5-192/XXX
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
2
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
S E G M E N T I N T E R C O N N E C T
CLK0
CLK1
CLK2
CLK3 4
SEGMENT 0 SEGMENT 2
SEGMENT 1
I0I2, I3
I1
20446G-008
16 MACH 5 Family
BLOCK DIAGRAM — M5(LV)-256/XXX
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
S E G M E N T I N T E R C O N N E C T
CLK0
CLK1
CLK2
CLK3 4
SEGMENT 0 SEGMENT 3
SEGMENT 2
SEGMENT 1
I0I3
I1I2
20446G-009
MACH 5 Family 17
BLOCK DIAGRAM — M5(LV)-320/XXX
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
S E G M E N T
CLK0
CLK1
CLK2
CLK3 4
SEGMENT 0 SEGMENT 4
SEGMENT 2
SEGMENT 1
I0
I1I2I3
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
I N T E R C O N N E C T
SEGMENT 3
20446G-010
18 MACH 5 Family
BLOCK DIAGRAM — M5(LV)-384/XXX
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
S E G M E N T
CLK0
CLK1
CLK2
CLK3 4
SEGMENT 0 SEGMENT 5
SEGMENT 2
SEGMENT 1
I0
I1I2
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
I N T E R C O N N E C T
SEGMENT 3
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
I3
SEGMENT 4
20446G-011
MACH 5 Family 19
BLOCK DIAGRAM — M5(LV)-512/XXX
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
S E G M E N T
CLK0
CLK1
CLK2
CLK3 4
SEGMENT 0 SEGMENT 7
SEGMENT 2
SEGMENT 1
I0
I1
20446G-012
Continued
20 MACH 5 Family
BLOCK DIAGRAM — M5(LV)-512/XXX
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells
64 x 73
AND Logic Array
and Logic Allocator
Control
Generator
64 PT
2 PT OE
I/O Cells
16
16
32
7 PT
7
2
32
16
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Macrocells Control
Generator
64 PT
2 PT OE
16
16
32
7 PT
7
2
32
16 I/O Cells
64 x 73
AND Logic Array
and Logic Allocator
Block A/Macrocells 0-15 Block D/Macrocells 0-15
Block B/Macrocells 0-15 Block C/Macrocells 0-15
Block Interconnect
I N T E R C O N N E C T
SEGMENT 6 SEGMENT 5
SEGMENT 4
SEGMENT 3
I3
I2
20446G-013
Continued
MACH 5 Family 21
ABSOLUTE MAXIMUM RATINGS
M5
Storage Temperature . . . . . . . . . . . . . .-65°C to +150°C
Device Junction
Temperature (Note 1) . . . . . . . . . . . +130°C or +150°C
Supply Voltage
with Respect to Ground . . . . . . . . . . .-0.5 V to +7.0 V
DC Input Voltage . . . . . . . . . . . . . . . . .-0.5 V to 5.5 V
Static Discharge Voltage . . . . . . . . . . . . . . . . . 2000 V
Latchup Current (-40°C to +85°C) . . . . . . . . . . 200 mA
Stresses above those listed under Absolute Maximum
Ratings may cause permanent device failure. Functionality at
or above these limits is not implied. Exposure to Absolute
Maximum Ratings for extended periods may affect device
reliability.
OPERATING RANGES
Commercial (C) Devices
Ambient Temperature (TA)
Operating in Free Air. . . . . . . . . . . . . . . 0°C to +70°C
Supply Voltage (VCC)
with Respect to Ground . . . . . . . . . +4.75 V to +5.25 V
Industrial (I) Devices
Ambient Temperature (TA)
Operating in Free Air. . . . . . . . . . . . . . -40°C to +85°C
Supply Voltage (VCC)
with Respect to Ground . . . . . . . . . . . +4.5 V to +5.5 V
Operating ranges define those limits between which the
functionality of the device is guaranteed.
Note:
1. 150° for M5-128, M5-192 and M5-256 devices. 130° for M5-128/1, M5-192/1, M5-256/1, M5-320, M5-384 and M5-512 devices.
2. Total IOL between ground pins should not exceed 64 mA.
3. These are absolute values with respect to device ground, and all overshoots due to system and/or tester noise are included.
4. I/O pin leakage is the worst case of IIL and IOZL or IIH and IOZH.
5. Not more than one output should be shorted at a time. Duration of the short-circuit should not exceed one second.
5-V DC CHARACTERISITICS OVER OPERATING RANGES
Parameter
Symbol Parameter Description Test Description Min Typ Max Unit
VOH
Output HIGH Voltage
(For M5-128/1, M5-192/1, M5-256/1, M5-320,
M5-384, M5-512 Devices)
IOH = -3.2 mA, VCC = Min, VIN = VIH or VIL 2.4 V
IOH = 0 mA, VCC = Max, VIN = VIH or VIL 3.3 V
Output HIGH Voltage
(For M5-128, M5-192, M5-256 Devices)
IOH = -3.2 mA, VCC = Min, VIN = VIH or VIL 2.4 V
IOH = -2.5 mA, VCC = 5.25 V, VIN = VIH or VIL 3.6 V
VOL Output LOW Voltage (Note 2) IOL = +16 mA, VCC = Min, VIN = VIH or VIL 0.5 V
VIH Input HIGH Voltage Guaranteed Input Logical HIGH Voltage for all Inputs
(Note 3) 2.0 V
VIL Input LOW Voltage Guaranteed Input Logical LOW Voltage for all Inputs
(Note 3) 0.8 V
IIH Input HIGH Leakage Current VIN = 5.25, VCC = Max (Note 4) 10 µA
IIL Input LOW Leakage Current VIN = 0, VCC = Max (Note 4) -10 µA
IOZH Off-State Output Leakage Current HIGH VOUT = 5.25, VCC = Max, VIN = VIH or VIL (Note 4) 10 µA
IOZL Off-State Output Leakage Current LOW VOUT = 0, VCC = Max, VIN = VIH or VIL (Note 4) -10 µA
ISC Output Short-Circuit Current VOUT = 0.5 VCC = Max, VIN = VIH or VIL (Note 5) -30 -180 mA
22 MACH 5 Family
ABSOLUTE MAXIMUM RATINGS
M5LV
Storage Temperature . . . . . . . . . . . . . .-65°C to +150°C
Device Junction Temperature . . . . . . . . . . . . . +130°C
Supply Voltage
with Respect to Ground . . . . . . . . . . .-0.5 V to +4.5 V
DC Input Voltage . . . . . . . . . . . . . . . . .-0.5 V to 5.5 V
Static Discharge Voltage . . . . . . . . . . . . . . . . . 2000 V
Latchup Current (-40°C to +85°C) . . . . . . . . . . 200 mA
Stresses above those listed under Absolute Maximum
Ratings may cause permanent device failure. Functionality at
or above these limits is not implied. Exposure to Absolute
Maximum Ratings for extended periods may affect device
reliability.
OPERATING RANGES
Commercial (C) Devices
Ambient Temperature (TA)
Operating in Free Air. . . . . . . . . . . . . . . 0°C to +70°C
Supply Voltage (VCC)
with Respect to Ground . . . . . . . . . . . +3.0 V to +3.6 V
Industrial (I) Devices
Ambient Temperature (TA)
Operating in Free Air. . . . . . . . . . . . . . -40°C to +85°C
Supply Voltage (VCC)
with Respect to Ground . . . . . . . . . . . +3.0 V to +3.6 V
Operating ranges define those limits between which the
functionality of the device is guaranteed.
Notes:
1. Total IOL between ground pins should not exceed 64 mA.
2. These are absolute values with respect to device ground, and all overshoots due to system and/or tester noise are included.
3. I/O pin leakage is the worst case of IIL and IOZL or IIH and IOZH.
4. Not more than one output should be shorted at one time. Duration of the short-circuit should not exceed one second.
3.3-V DC CHARACTERISITICS OVER OPERATING RANGES
Parameter
Symbol Parameter Description Test Description Min Max Unit
VOH Output HIGH Voltage VCC = Min IOH = -100 µA VCC -0.2 V
VIN = VIH or VIL IOH = 3.2 mA 2.4 V
VOL Output LOW Voltage VCC = Min
VIN = VIH or VIL
IOL = 100 µA 0.2 V
IOL = 16 mA (Note 1) 0.5 V
VIH Input HIGH Voltage VOUT ≥ VOH Min or VOUT ≤ VOL Max (Note 2) 2.0 5.5 V
VIL Input LOW Voltage VOUT ≥ VOH Min or VOUT ≤ VOL Max (Note 2) -0.3 0.8 V
IIH Input HIGH Leakage Current VIN = 3.6, VCC = Max (Note 3) 10 µA
IIL Input LOW Leakage Current VIN = 0, VCC = Max (Note 3) -10 µA
IOZH Off-State Output Leakage Current HIGH VOUT = 3.6, VCC = Max, VIN = VIH or VIL (Note 3) 10 µA
IOZL Off-State Output Leakage Current LOW VOUT = 0, VCC = Max, VIN = VIH or VIL (Note 3) -10 µA
ISC Output Short-Circuit Current VOUT = 0.5 VCC = Max, VIN = VIH or VIL (Note 4) -15 -160 mA
MACH 5 Family 23
M5(LV) TIMING PARAMETERS OVER OPERATING RANGES1
-5 -6 -7 -10 -12 -15 -20
UnitMin Max Min Max Min Max Min Max Min Max Min Max Min Max
Combinatorial Delay:
tPDi Internal combinatorial propagation
delay 3.5 4.5 5.5 8.0 10.0 13.0 18.0 ns
tPD Combinatorial propagation delay 5.5 6.5 7.5 10.0 12.0 15.0 20.0 ns
Registered Delays:
tSS Synchronous clock setup time 3.0 3.0 4.0 5.0 6.0 8.0 10.0 ns
tSA Asynchronous clock setup time 3.0 3.0 4.0 5.0 6.0 7.0 8.0 ns
tHS Synchronous clock hold time 0.0 0.0 0.0 0.0 0.0 0.0 0.0 ns
tHA Asynchronous clock hold time 3.0 3.0 4.0 5.0 6.0 7.0 8.0 ns
tCOSi Synchronous clock to internal output 2.5 3.0 4.0 5.0 6.0 8.0 10.0 ns
tCOS Synchronous clock to output 4.5 5.0 6.0 7.0 8.0 10.0 12.0 ns
tCOAi Asynchronous clock to internal output 6.0 6.0 8.0 10.0 13.0 15.0 18.0 ns
tCOA Asynchronous clock to output 8.0 8.0 10.0 12.0 15.0 17.0 20.0 ns
Latched Delays:
tSAL Latch setup time 3.0 4.0 4.0 5.0 6.0 7.0 8.0 ns
tHAL Latch hold time 3.0 3.0 4.0 5.0 6.0 7.0 8.0 ns
tPDLi Transparent latch internal 6.0 7.0 7.0 8.0 9.0 10.0 10.0 ns
tPDL Propagation delay through transparent
latch 8.0 9.0 9.0 10.0 11.0 12.0 12.0 ns
tGOAi Gate to internal output 7.0 8.0 8.0 9.0 10.0 11.0 12.0 ns
tGOA Gate to output 9.0 10.0 10.0 11.0 12.0 13.0 14.0 ns
Input Register Delays:
tSIRS Input register setup time using a
synchronous clock 2.0 2.0 2.0 3.0 3.0 3.0 3.0 ns
tSIRA Input register setup time using an
asynchronous clock 0.0 0.0 0.0 0.0 0.0 0.0 0.0 ns
tHIRS Input register hold time using a
synchronous clock 3.0 3.0 3.0 4.0 4.0 4.0 4.0 ns
tHIRA Input register hold time using an
asynchronous clock 6.0 6.0 6.0 7.0 7.0 7.0 7.0 ns
Input Latch Delays:
tSIL Input latch setup time 2.0 2.0 2.0 3.0 3.0 3.0 3.0 ns
tHIL Input latch hold time 6.0 6.0 6.0 7.0 7.0 7.0 7.0 ns
tPDILi Transparent input latch 5.0 5.0 5.5 6.0 6.0 6.0 6.0 ns
Output Delays:
tBUF Output buffer delay 2.0 2.0 2.0 2.0 2.0 2.0 2.0 ns
tSLW Slow slew rate delay 2.5 2.5 2.5 2.5 2.5 2.5 2.5 ns
tEA Output enable time 7.5 7.5 9.5 10.0 12.0 15.0 20.0 ns
tER Output disable time 7.5 7.5 9.5 10.0 12.0 15.0 20.0 ns
24 MACH 5 Family
Power Delays:
tPL1 Power level 1 delay (Note 2) 4.0
(5.0) 4.0 4.0
(5.0) 4.0
(5.0) 4.0
(5.0) 4.0
(5.0) 4.0
(5.0) ns
tPL2 Power level 2 delay (Note 2) 6.0
(9.0) 6.0 6.0
(9.0) 6.0
(9.0) 6.0
(9.0) 6.0
(9.0) 6.0
(9.0) ns
tPL3 Power level 3 delay (Note 2) 9.0
(17.5) 9.0 9.0
(17.5)
9.0
(17.5)
9.0
(17.5)
9.0
(17.5)
9.0
(17.5) ns
Additional Cluster Delay:
tPT Product term cluster delay 0.3 0.3 0.3 0.3 0.3 0.3 0.3 ns
Interconnect Delays:
tBLK Block interconnect delay 1.5 1.5 1.5 2.0 2.0 2.0 2.0 ns
tSEG Segment interconnect delay 4.5 4.5 5.0 6.0 6.0 6.0 6.0 ns
Reset and Preset Delays:
tSRi Asynchronous reset or preset to internal
register output 6.0 8.0 8.0 10.0 12.0 14.0 16.0 ns
tSR Asynchronous reset or preset to register
output 8.0 10.0 10.0 12.0 14.0 16.0 18.0 ns
tSRR Reset and set register recovery time 5.5 7.5 7.5 8.0 9.0 10.0 11.0 ns
tSRW Asynchronous reset or preset width 3.0 4.0 4.0 5.0 6.0 7.0 8.0 ns
Clock Enable Delays:
tCES Clock enable setup time 4.0 5.0 5.0 6.0 7.0 7.0 8.0 ns
tCEH Clock enable hold time 3.0 4.0 4.0 5.0 6.0 6.0 7.0 ns
Width:
tWLS Global clock width low (Note 3) 2.5 3.0 3.0 4.0 5.0 6.0 6.0 ns
tWHS Global clock width high (Note 3) 2.5 3.0 3.0 4.0 5.0 6.0 6.0 ns
tWLA Product term clock width low 3.0 4.0 4.0 5.0 6.0 7.0 8.0 ns
tWHA Product term clock width high 3.0 4.0 4.0 5.0 6.0 7.0 8.0 ns
tGWA Gate width low (for low transparent) or
high (for high transparent) 3.0 4.0 4.0 5.0 6.0 7.0 8.0 ns
tWIR Input register clock width low or high 3.0 4.0 4.0 5.0 6.0 7.0 8.0 ns
M5(LV) TIMING PARAMETERS OVER OPERATING RANGES1 (CONTINUED)
-5 -6 -7 -10 -12 -15 -20
UnitMin Max Min Max Min Max Min Max Min Max Min Max Min Max
MACH 5 Family 25
Notes:
1. See “MACH Switching Test Circuits” documentation on the Lattice Data Book CD-ROM or Lattice web site.
2. Numbers in parentheses are for M5-128, M5-192, M5-256.
3. If a signal is used as both a clock and a logic array input, then the maximum input frequency applies (fMAX/2).
Frequency:
fMAX
External feedback, PAL block level. Min
of 1/(tWLS + tWHS) or 1/(tSS + tCOS)133 125 100 83.3 71.4 55.6 45.5 MHz
Internal feedback, PAL block level. Min
of 1/(tWLS + tWHS) or 1/(tSS +tCOSi)182 167 125 100 83.3 62.5 50.0 MHz
No feedback PAL block level. Min of
1/(tWLS + tWHS) or 1/(tSS + tHS)200 167 167 125 100 83.3 83.3 MHz
fMAXA
External feedback, P AL block level. Min
of 1/(tWLA + tWHA) or 1/(tSA + tCOA)91 91 71.4 58.8 47.6 41.7 35.7 MHz
Internal feedback, P AL block level. Min
of 1/(tWLA + tWHA) or 1/(tSA +tCOAi)111 111 83.3 66.7 52.6 45.5 38.5 MHz
No feedback, PAL block level. Min of
1/(tWLA + tWHA) or 1/(tSA + tHA)167 125 125 100 83.3 71.4 62.5 MHz
fMAXI Maximum input register frequency
1/(tSIRS+tHIRS) or 1/(2 x tWICW)167 125 125 100 83.3 71.4 62.5 MHz
M5(LV) TIMING PARAMETERS OVER OPERATING RANGES1 (CONTINUED)
-5 -6 -7 -10 -12 -15 -20
UnitMin Max Min Max Min Max Min Max Min Max Min Max Min Max
26 MACH 5 Family
1. These parameters are not 100% tested, but are calculated at initial characterization and at any time the design is modified where
these parameters may be affected.
ICC vs. FREQUENCY
These curves represent the typical power consumption for a particular device at system frequency.
The selected “typical” pattern is a 16-bit up-down counter. This pattern fills the device and
exercises every macrocell. Maximum frequency shown uses internal feedback and a D-type
register. Power/Speed are optimized to obtain the highest counter frequency and the lowest
power. The highest frequency (LSBs) is placed in common PAL blocks, which are set to high
power. The lowest frequency signals (MSBs) are placed in a common PAL block and set to
lowest power. For a more detailed discussion about MACH 5 power consumption, refer to the
application note entitled MACH 5 Power in the Application Notes section on the Lattice Data Book
CD-ROM or Lattice web site.
ICC CURVES AT HIGH /LOW POWER MODES
CAPACITANCE1
Parameter Symbol Parameter
Description Test conditions Typ Unit
CIN I/CLK pin VIN =2.0 V 3.3 V or 5 V, 25º C, 1 MHz 12 pF
CI/O I/O pin VOUT =2.0 V 3.3 V or 5 V, 25º C, 1 MHz 10 pF
700
600
500
400
300
200
100
0
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
VCC = 5 V or 3.3 V, TA = 25º C M5(LV)-512 high power
M5(LV)-384 high power
M5(LV)-320 high power
M5-256/1 and
M5LV-25 high power
M5-128/1 and M5LV-128 high power
M5(LV)-384 low power
M5(LV)-320 low power
M5-256/1 and M5LV-256 low power
M5-128/1 and M5LV-128 low power
ICC (mA)
Frequency (MHz) 20446G-048
Figure 8. ICC Curves at High/Low Power Modes
M5-192/1 high power
M5-192/1 low power
M5(LV)-512 low power
MACH 5 Family 27
700
600
500
400
300
200
100
0
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
VCC = 5 V, TA = 25º C
M5-256 high power
M5-256 low power
ICC (mA)
Frequency (MHz)
M5-192 high power
M5-128 high power
M5-192 low power
M5-128 low power
20446G-049
Figure 9. ICC Curves at High/Low Power Modes
28 MACH 5 Family
100-PIN PQFP CONNECTION DIAGRAM
Top View
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
GND
GND
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
I/O8
I0/CLK0
V
CC
V
CC
GND
GND
I1/CLK1
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
I/O16
I/O17
TCK
GND
GND
M5-128
M5LV-128* M5-128
M5LV-128*
M5-192*
M5-256*
M5LV-256
M5-256*
M5LV-256
M5-256*
M5LV-256
M5-256*
M5LV-256
M5-192*
M5-192*
M5-192*
M5-128
M5LV-128*
*Package obsolete, contact factory.
M5-128
M5LV-128*
0A12
0B13
0B12
0B11
0B8
0B7
0B4
0B3
0B2
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
1A12
0A12
0B13
0B12
0B11
0B8
0B7
0B4
0B3
0B2
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
1A12
0A14
0B13
0B12
0B11
0B8
0B7
0B4
0B3
0B2
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
1A14
3A12
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
2B2
2B3
2B4
2B7
2B8
2B11
2B12
2B13
2A12
2A12
2B13
2B12
2B11
2B8
2B7
2B4
2B3
2B2
2C2
2C3
2C4
2C7
2C8
2C11
2C12
2C13
2D12
0D14
0C13
0C12
0C11
0C8
0C7
0C4
0C3
0C2
1C2
1C3
1C4
1C7
1C8
1C11
1C12
1C13
1D14
GND
GND
TDO
I/O51
I/O50
I/O49
I/O48
I/O47
I/O46
I/O45
I/O44
I/O43
I3/CLK3
GND
GND
V
CC
V
CC
I2/CLK2
I/O42
I/O41
I/O40
I/O39
I/O38
I/O37
I/O36
I/O35
I/O34
TMS
GND
GND
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
I/O18
I/O19
I/O20
I/O21
I/O22
I/O23
I/O24
I/O25
V
CC
GND
GND
V
CC
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
I/O32
I/O33
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
2D0
2D1
2D2
2D3
2D4
2D5
2D6
2D7
1A13
1A12
1A11
1A8
1A7
1A4
1A3
1A2
1D2
1D3
1D4
1D7
1D8
1D11
1D12
1D13
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
3A0
3A1
3A2
3A3
3A4
3A5
3A6
3A7
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
0D2
0D3
0D4
0D7
0D8
0D11
0D12
0D13
0A13
0A12
0A11
0A8
0A7
0A4
0A3
0A2
I/O67
I/O66
I/O65
I/O64
I/O63
I/O62
I/O61
I/O60
V
CC
GND
GND
V
CC
I/O59
I/O58
I/O57
I/O56
I/O55
I/O54
I/O53
I/O52
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
20446G-016
100-Pin PQFP (68 I/O)
3D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-3)
MACH 5 Family 29
100-PIN TQFP CONNECTION DIAGRAM – 68 I/O
Top View
100-Pin TQFP (68 I/O)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
I/O8
I0/CLK0
VCC
GND
GND
I1/CLK1
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
I/O16
I/O17
TCK
GND
GND
I/O18
I/O19
I/O20
I/O21
I/O22
I/O23
I/O24
I/O25
NC
VCC
GND
GND
VCC
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
I/O32
I/O33
GND
GND
GND
GND
NC
I/O67
I/O66
I/O65
I/O64
I/O63
I/O62
I/O61
I/O60
VCC
GND
GND
VCC
NC
I/O59
I/O58
I/O57
I/O56
I/O55
I/O54
I/O53
I/O52
GND
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
3A0
3A1
3A2
3A3
3A4
3A5
3A6
3A7
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
0A13
0A12
0A11
0A8
0A7
0A4
0A3
0A2
0D2
0D3
0D4
0D7
0D8
0D11
0D12
0D13
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
2D0
2D1
2D2
2D3
2D4
2D5
2D6
2D7
1A13
1A12
1A11
1A8
1A7
1A4
1A3
1A2
1D2
1D3
1D4
1D7
1D8
1D11
1D12
1D13
GND
TDO
I/O51
I/O50
I/O49
I/O48
I/O47
I/O46
I/O45
I/O44
I/O43
I3/CLK3
GND
VCC
I2/CLK2
I/O42
I/O41
I/O40
I/O39
I/O38
I/O37
I/O36
I/O35
I/O34
TMS
3A12
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
M5-128
M5LV-128
M5-128
M5LV-128
M5-128
M5LV-128
M5-192
M5-256
M5LV-256*
M5-256
M5LV-256*
M5-256
M5LV-256*
M5-256
M5LV-256*
M5-192
M5-192
M5-192
M5-128
M5LV-128
2B2
2B3
2B4
2B7
2B8
2B11
2B12
2B13
2A12
2A12
2B13
2B12
2B11
2B8
2B7
2B4
2B3
2B2
2C2
2C3
2C4
2C7
2C8
2C11
2C12
2C13
2D12
0D14
0C13
0C12
0C11
0C8
0C7
0C4
0C3
0C2
1C2
1C3
1C4
1C7
1C8
1C11
1C12
1C13
1D14
0A12
0B13
0B12
0B11
0B8
0B7
0B4
0B3
0B2
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
1A12
0A12
0B13
0B12
0B11
0B8
0B7
0B4
0B3
0B2
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
1A12
0A14
0B13
0B12
0B11
0B8
0B7
0B4
0B3
0B2
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
1A14
*Package obsolete, contact factory.
20446G-017
3D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-3)
30 MACH 5 Family
100-PIN TQFP CONNECTION DIAGRAM – 74 I/O
Top View
100-Pin TQFP (74 I/O)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
I/O8
I0/CLK0
VCC
GND
GND
I1/CLK1
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
I/O16
I/O17
TCK
GND
I/O18
I/O19
I/O20
I/O21
I/O22
I/O23
I/O24
I/O25
I/O26
1/O27
VCC
GND
GND
VCC
I/O28
I/O29
I/O30
I/O31
I/O32
I/O33
I/O34
I/O35
1/O36
GND
GND
I/O73
I/O72
I/O71
I/O70
I/O69
I/O68
I/O67
I/O66
I/O65
I/O64
VCC
GND
GND
VCC
I/O63
I/O62
I/O61
I/O60
I/O59
I/O58
I/O57
I/O56
I/O55
GND
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
0D11
0D12
3D12
3A0
3A1
3A2
3A3
3A4
3A5
3A6
3A7
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1D11
1D12
2D12
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
0A13
0A12
0A11
0A10
0A9
0A8
0A7
0A4
0A3
0A2
0D1
0D2
0D3
0D4
0D7
0D8
0D11
0D12
0D13
1A13
1A12
1A11
1A10
1A8
1A7
1A4
1A3
1A2
1A1
1D2
1D3
1D4
1D7
1D8
1D10
1D11
1D12
1D13
GND
TDO
I/O54
I/O53
I/O52
I/O51
I/O50
I/O49
I/O48
I/O47
I/O46
I3/CLK3
GND
VCC
I2/CLK2
I/O45
I/O44
I/O43
I/O42
I/O41
I/O40
I/O39
I/O38
I/O37
TMS
3A12
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
M5LV-256
M5LV-128M5LV-128
M5LV-128M5LV-128
M5LV-256
M5LV-256
M5LV-256
2B2
2B3
2B4
2B7
2B8
2B11
2B12
2B13
2A12
0D14
0C13
0C12
0C11
0C8
0C7
0C4
0C3
0C2
1C2
1C3
1C4
1C7
1C8
1C11
1C12
1C13
1D14
0A12
0B13
0B12
0B11
0B8
0B7
0B4
0B3
0B2
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
1A12
0A14
0B13
0B12
0B11
0B8
0B7
0B4
0B3
0B2
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
1A14
20446G-018
3D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-3)
MACH 5 Family 31
144-PIN PQFP CONNECTION DIAGRAM
Top View
144-Pin PQFP
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
GND
I/O5
I/O6
I/O7
I/O8
GND
I/O9
I/O10
I/O11
I/O12
I0/CLK0
V
CC
GND
I1/CLK1
I/O13
I/O14
I/O15
I/O16
GND
I/O17
I/O18
I/O19
I/O20
GND
I/O21
I/O22
I/O23
I/O24
I/O25
TCK
0A8
0A9
0A10
0A11
0A12
0B13
0B12
0B11
0B8
0B5
0B4
0B3
0B2
1B2
1B3
1B4
1B5
1B8
1B11
1B12
1B13
1A12
1A11
1A10
1A9
1A8
0A12
0A13
0A14
0B13
0B12
0B11
0B8
0B5
0B4
0B3
0B2
0B1
0B0
1B0
1B1
1B2
1B3
1B4
1B5
1B8
1B11
1B12
1B13
1A14
1A13
1A12
0A14
0B13
0B12
0B11
0B10
0B8
0B7
0B6
0B5
0B4
0B3
0B2
0B1
1B1
1B2
1B3
1B4
1B5
1B6
1B7
1B8
1B10
1B11
1B12
1B13
1A14
M5-128
M5LV-128*
M5-256*
M5LV-256* M5-256*
M5LV-256*
M5-256*
M5LV-256* M5-256*
M5LV-256*
M5-192*
M5-192*
M5-192*
M5-192*
M5-128
M5LV-128*
M5-128
M5LV-128*
M5-128
M5LV-128*
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
GND
V
CC
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
I/O32
GND
I/O33
I/O34
I/O35
I/O36
I/O37
I/O38
V
CC
GND
GND
V
CC
I/O39
I/O40
I/O41
I/O42
I/O43
I/O44
GND
I/O45
I/O46
I/O47
I/O48
I/O49
I/O50
I/O51
V
CC
GND
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1D3
1D4
1D7
1D8
1D11
1D12
2D12
2D11
2D8
2D7
2D4
2D3
2A1
2A2
2A3
2A4
2A5
2A6
2A7
1A11
1A10
1A8
1A7
1A6
1A5
1A4
1A3
1A2
1D2
1D3
1D4
1D7
1D8
1D11
1D12
1D13
2D2
2D3
2D4
2D5
2D6
2D7
2D8
2D10
2D11
1A13
1A12
1A11
1A10
1A8
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1D0
1D1
1D2
1D3
1D4
1D5
1D6
1D7
1D8
1D10
1D11
1D12
1D13
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
GND
V
CC
I/O103
I/O102
I/O101
I/O100
I/O99
I/O98
I/O97
GND
I/O96
I/O95
I/O94
I/O93
I/O92
I/O91
V
CC
GND
GND
V
CC
I/O90
I/O89
I/O88
I/O87
I/O86
I/O85
GND
I/O84
I/O83
I/O82
I/O81
I/O80
I/O79
I/O78
V
CC
GND
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0D3
0D4
0D7
0D8
0D11
0D12
3D12
3D11
3D8
3D7
3D4
3D3
3A1
3A2
3A3
3A4
3A5
3A6
3A7
0A11
0A10
0A8
0A7
0A6
0A5
0A4
0A3
0A2
0D2
0D3
0D4
0D7
0D8
0D11
0D12
0D13
2A2
2A3
2A4
2A5
2A6
2A7
2A8
2A10
2A11
0A13
0A12
0A11
A10
0A8
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
0D0
0D1
0D2
0D3
0D4
0D5
0D6
0D7
0D8
0D10
0D11
0D12
0D13
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
TDO
I/O77
I/O76
I/O75
I/O74
I/O73
GND
I/O72
I/O71
I/O70
I/O69
GND
I/O68
I/O67
I/O66
I/O65
I3/CLK3
GND
V
CC
I2/CLK2
I/O64
I/O63
I/O62
I/O61
GND
I/O60
I/O59
I/O58
I/O57
GND
I/O56
I/O55
I/O54
I/O53
I/O52
TMS
3A8
3A9
3A10
3A11
3A12
3B13
3B12
3B11
3B8
3B5
3B4
3B3
3B2
2B2
2B3
2B4
2B5
2B8
2B11
2B12
2B13
2A12
2A11
2A10
2A9
2A8
2A12
2A13
2A14
2B13
2B12
2B11
2B8
2B5
2B4
2B3
2B2
2B1
2B0
2C0
2C1
2C2
2C3
2C4
2C5
2C8
2C11
2C12
2C13
2D14
2D13
2D12
0D14
0C13
0C12
0C11
0C10
0C8
0C7
0C6
0C5
0C4
0C3
0C2
0C1
1C1
1C2
1C3
1C4
1C5
1C6
1C7
1C8
1C10
1C11
1C12
1C13
1D14
*Package obsolete, contact factory.
20446G-019
3D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-3)
32 MACH 5 Family
144-PIN TQFP CONNECTION DIAGRAM
Top View
144-Pin TQFP
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
GND
I/O5
I/O6
I/O7
I/O8
GND
I/O9
I/O10
I/O11
I/O12
I0/CLK0
VCC
GND
I1/CLK1
I/O13
I/O14
I/O15
I/O16
GND
I/O17
I/O18
I/O19
I/O20
GND
I/O21
I/O22
I/O23
I/O24
I/O25
TCK
0A8
0A9
0A10
0A11
0A12
0B13
0B12
0B11
0B8
0B5
0B4
0B3
0B2
1B2
1B3
1B4
1B5
1B8
1B11
1B12
1B13
1A12
1A11
1A10
1A9
1A8
0A14
0B13
0B12
0B11
0B10
0B8
0B7
0B6
0B5
0B4
0B3
0B2
0B1
1B1
1B2
1B3
1B4
1B5
1B6
1B7
1B8
1B10
1B11
1B12
1B13
1A14
M5LV-128
M5LV-256 M5LV-256
M5LV-256 M5LV-256
M5LV-128
M5LV-128
M5LV-128
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
GND
VCC
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
I/O32
GND
I/O33
I/O34
I/O35
I/O36
I/O37
I/O38
VCC
GND
GND
VCC
I/O39
I/O40
I/O41
I/O42
I/O43
I/O44
GND
I/O45
I/O46
I/O47
I/O48
I/O49
I/O50
I/O51
VCC
GND
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1D3
1D4
1D7
1D8
1D11
1D12
2D12
2D11
2D8
2D7
2D4
2D3
2A1
2A2
2A3
2A4
2A5
2A6
2A7
1A13
1A12
1A11
1A10
1A8
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1D0
1D1
1D2
1D3
1D4
1D5
1D6
1D7
1D8
1D10
1D11
1D12
1D13
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
GND
VCC
I/O103
I/O102
I/O101
I/O100
I/O99
I/O98
I/O97
GND
I/O96
I/O95
I/O94
I/O93
I/O92
I/O91
VCC
GND
GND
VCC
I/O90
I/O89
I/O88
I/O87
I/O86
I/O85
GND
I/O84
I/O83
I/O82
I/O81
I/O80
I/O79
I/O78
VCC
GND
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0D3
0D4
0D7
0D8
0D11
0D12
3D12
3D11
3D8
3D7
3D4
3D3
3A1
3A2
3A3
3A4
3A5
3A6
3A7
0A13
0A12
0A11
A10
0A8
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
0D0
0D1
0D2
0D3
0D4
0D5
0D6
0D7
0D8
0D10
0D11
0D12
0D13
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
TDO
I/O77
I/O76
I/O75
I/O74
I/O73
GND
I/O72
I/O71
I/O70
I/O69
GND
I/O68
I/O67
I/O66
I/O65
I3/CLK3
GND
VCC
I2/CLK2
I/O64
I/O63
I/O62
I/O61
GND
I/O60
I/O59
I/O58
I/O57
GND
I/O56
I/O55
I/O54
I/O53
I/O52
TMS
3A8
3A9
3A10
3A11
3A12
3B13
3B12
3B11
3B8
3B5
3B4
3B3
3B2
2B2
2B3
2B4
2B5
2B8
2B11
2B12
2B13
2A12
2A11
2A10
2A9
2A8
0D14
0C13
0C12
0C11
0C10
0C8
0C7
0C6
0C5
0C4
0C3
0C2
0C1
1C1
1C2
1C3
1C4
1C5
1C6
1C7
1C8
1C10
1C11
1C12
1C13
1D14
20446G-020
3D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-3)
MACH 5 Family 33
160-PIN PQFP CONNECTION DIAGRAM
Top View 160-Pin PQFP (128, 192, 256 Macrocells)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
GND
I/O8
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
I0/CLK0
VCC
GND
I1/CLK1
I/O16
I/O17
I/O18
I/O19
I/O20
I/O21
I/O22
I/O23
GND
I/O24
I/O25
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
TCK
0A8
0A9
0A10
0A11
0A12
0A13
0A14
0A15
0B13
0B12
0B11
0B8
0B5
0B4
0B3
0B2
1B2
1B3
1B4
1B5
1B8
1B11
1B12
1B13
1A15
1A14
1A13
1A12
1A11
1A10
1A9
1A8
0A12
0A13
0A14
0A15
0B15
0B14
0B13
0B12
0B11
0B8
0B5
0B4
0B3
0B2
0B1
0B0
1B0
1B1
1B2
1B3
1B4
1B5
1B8
1B11
1B12
1B13
1B14
1B15
1A15
1A14
1A13
1A12
0A14
0A15
0B14
0B13
0B12
0B11
0B10
0B9
0B8
0B7
0B6
0B5
0B4
0B3
0B2
0B1
1B1
1B2
1B3
1B4
1B5
1B6
1B7
1B8
1B9
1B10
1B11
1B12
1B13
1B14
1A15
1A14
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
GND
VCC
I/O32
I/O33
I/O34
I/O35
I/O36
I/O37
I/O38
I/O39
GND
VCC
I/O40
I/O41
I/O42
I/O43
I/O44
I/O45
VCC
GND
GND
VCC
I/O46
I/O47
I/O48
I/O49
I/O50
I/O51
VCC
GND
I/O52
I/O53
I/O54
I/O55
I/O56
I/O57
I/O58
I/O59
VCC
GND
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1D3
1D4
1D7
1D8
1D11
1D12
2D12
2D11
2D8
2D7
2D4
2D3
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
1A11
1A10
1A9
1A8
1A7
1A6
1A5
1A4
1A3
1A2
1D2
1D3
1D4
1D7
1D8
1D11
1D12
1D13
2D2
2D3
2D4
2D5
2D6
2D7
2D8
2D9
2D10
2D11
1A13
1A12
1A11
1A10
1A9
1A8
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1D0
1D1
1D2
1D3
1D4
1D5
1D6
1D7
1D8
1D9
1D10
1D11
1D12
1D13
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
GND
VCC
I/O119
I/O118
I/O117
I/O116
I/O115
I/O114
I/O113
I/O112
GND
VCC
I/O111
I/O110
I/O109
I/O108
I/O107
I/O106
VCC
GND
GND
VCC
I/O105
I/O104
I/O103
I/O102
I/O101
I/O100
VCC
GND
I/O99
I/O98
I/O97
I/O96
I/O95
I/O94
I/O93
I/O92
VCC
GND
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
0D3
0D4
0D7
0D8
0D11
0D12
3D12
3D11
3D8
3D7
3D4
3D3
3A0
3A1
3A2
3A3
3A4
3A5
3A6
3A7
0A11
0A10
0A9
0A8
0A7
0A6
0A5
0A4
0A3
0A2
0D2
0D3
0D4
0D7
0D8
0D11
0D12
0D13
2A2
2A3
2A4
2A5
2A6
2A7
2A8
2A9
2A10
2A11
0A13
0A12
0A11
0A10
0A9
0A8
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
0D0
0D1
0D2
0D3
0D4
0D5
0D6
0D7
0D8
0D9
0D10
0D11
0D12
0D13
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
TDO
I/O91
I/O90
I/O89
I/O88
I/O87
I/O86
I/O85
I/O84
GND
I/O83
I/O82
I/O81
I/O80
I/O79
I/O78
I/O77
I/O76
I3/CLK3
GND
VCC
I2/CLK2
I/O75
I/O74
I/O73
I/O72
I/O71
I/O70
I/O69
I/O68
GND
I/O67
I/O66
I/O65
I/O64
I/O63
I/O62
I/O61
I/O60
TMS
3A8
3A9
3A10
3A11
3A12
3A13
3A14
3A15
3B13
3B12
3B11
3B8
3B5
3B4
3B3
3B2
2B2
2B3
2B4
2B5
2B8
2B11
2B12
2B13
2A15
2A14
2A13
2A12
2A11
2A10
2A9
2A8
M5-128
M5LV-128
M5-128
M5LV-128
M5-128
M5LV-128
M5-256
M5LV-256
M5-256
M5LV-256
M5-256
M5LV-256
M5-256
M5LV-256
M5-192
M5-192
M5-192
M5-192
M5-128
M5LV-128
2A12
2A13
2A14
2A15
2B15
2B14
2B13
2B12
2B11
2B8
2B5
2B4
2B3
2B2
2B1
2B0
2C0
2C1
2C2
2C3
2C4
2C5
2C8
2C11
2C12
2C13
2C14
2C15
2D15
2D14
2D13
2D12
0D14
0D15
0C14
0C13
0C12
0C11
0C10
0C9
0C8
0C7
0C6
0C5
0C4
0C3
0C2
0C1
1C1
1C2
1C3
1C4
1C5
1C6
1C7
1C8
1C9
1C10
1C11
1C12
1C13
1C14
1D15
1D14
20446G-021
3D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-3)
34 MACH 5 Family
160-PIN PQFP (WITH INTERNAL HEAT SPREADER) CONNECTION DIAGRAM
Top View
160-Pin PQFP (320, 384, 512 Macrocells)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
GND
I/O8
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
I0/CLK0
V
CC
GND
I1/CLK1
I/O16
I/O17
I/O18
I/O19
I/O20
I/O21
I/O22
I/O23
GND
I/O24
I/O25
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
TCK
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D13
0D12
0D11
0D8
0D7
0D4
0D3
0D2
1D2
1D3
1D4
1D7
1D8
1D11
1D12
1D13
1A13
1A12
1A11
1A8
1A7
1A4
1A3
1A2
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D13
0D12
0D11
0D8
0D7
0D4
0D3
0D2
1D2
1D3
1D4
1D7
1D8
1D11
1D12
1D13
1A13
1A12
1A11
1A8
1A7
1A4
1A3
1A2
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D13
0D12
0D11
0D8
0D7
0D4
0D3
0D2
1D2
1D3
1D4
1D7
1D8
1D11
1D12
1D13
1A15
1A14
1A13
1A12
1A11
1A10
1A9
1A8
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
GND
V
CC
I/O32
I/O33
I/O34
I/O35
I/O36
I/O37
I/O38
I/O39
GND
V
CC
I/O40
I/O41
I/O42
I/O43
I/O44
I/O45
V
CC
GND
GND
V
CC
I/O46
I/O47
I/O48
I/O49
I/O50
I/O51
V
CC
GND
I/O52
I/O53
I/O54
I/O55
I/O56
I/O57
I/O58
I/O59
V
CC
GND
2A13
2A12
2A11
2A8
2A7
2A4
2A3
2A2
2B3
2B4
2B7
2B8
2B11
2B12
3B12
3B11
3B8
3B7
3B4
3B3
3A2
3A3
3A4
3A7
3A8
3A11
3A12
3A13
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
2A12
2A11
2A8
2A7
2A4
2A3
2B3
2B4
2B7
2B8
2B11
2B12
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1B3
1B4
1B7
1B8
1B11
1B12
2B12
2B11
2B8
2B7
2B4
2B3
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
GND
V
CC
I/O119
I/O118
I/O117
I/O116
I/O115
I/O114
I/O113
I/O112
GND
V
CC
I/O111
I/O110
I/O109
I/O108
I/O107
I/O106
V
CC
GND
GND
V
CC
I/O105
I/O104
I/O103
I/O102
I/O101
I/O100
V
CC
GND
I/O99
I/O98
I/O97
I/O96
I/O95
I/O94
I/O93
I/O92
V
CC
GND
7A13
7A12
7A11
7A8
7A7
7A4
7A3
7A2
7B3
7B4
7B7
7B8
7B11
7B12
6B12
6B11
6B8
6B7
6B4
6B3
6A2
6A3
6A4
6A7
6A8
6A11
6A12
6A13
0B2
0B3
0B4
0B7
0B8
0B11
0B12
0B13
5A12
5A11
5A8
5A7
5A4
5A3
5B3
5B4
5B7
5B8
5B11
5B12
4B13
4B12
4B11
4B8
4B7
4B4
4B3
4B2
0B2
0B3
0B4
0B7
0B8
0B11
0B12
0B13
4A12
4A11
4A8
4A7
4A4
4A3
4B3
4B4
4B7
4B8
4B11
4B12
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
TDO
I/O91
I/O90
I/O89
I/O88
I/O87
I/O86
I/O85
I/O84
GND
I/O83
I/O82
I/O81
I/O80
I/O79
I/O78
I/O77
I/O76
I3/CLK3
GND
V
CC
I2/CLK2
I/O75
I/O74
I/O73
I/O72
I/O71
I/O70
I/O69
I/O68
GND
I/O67
I/O66
I/O65
I/O64
I/O63
I/O62
I/O61
I/O60
TMS
5A2
5A3
5A4
5A7
5A8
5A11
5A12
5A13
5D13
5D12
5D11
5D8
5D7
5D4
5D3
5D2
4D2
4D3
4D4
4D7
4D8
4D11
4D12
4D13
4A13
4A12
4A11
4A8
4A7
4A4
4A3
4A2
M5-320*
M5LV-320
M5-384*
M5LV-384
M5-384*
M5LV-384
M5-384*
M5LV-384
M5-384*
M5LV-384
M5-512*
M5LV-512
M5-512*
M5LV-512
M5-512*
M5LV-512
M5-512*
M5LV-512
M5-320*
M5LV-320
M5-320*
M5LV-320
M5-320*
M5LV-320
4A2
4A3
4A4
4A7
4A8
4A11
4A12
4A13
4D13
4D12
4D11
4D8
4D7
4D4
4D3
4D2
3D2
3D3
3D4
3D7
3D8
3D11
3D12
3D13
3A13
3A12
3A11
3A8
3A7
3A4
3A3
3A2
3A2
3A3
3A4
3A7
3A8
3A11
3A12
3A13
3D13
3D12
3D11
3D8
3D7
3D4
3D3
3D2
2D2
2D3
2D4
2D7
2D8
2D11
2D12
2D13
2A15
2A14
2A13
2A12
2A11
2A10
2A9
2A8
*Package obsolete, contact factory.
20446G-022
7D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-7)
MACH 5 Family 35
208-PIN PQFP CONNECTION DIAGRAM
Top View
208-Pin PQFP (192, 256 Macrocells)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
VCC
GND
I/O8
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
GND
I/O16
I/O17
I/O18
I/O19
I0/CLK0
VCC
GND
I1/CLK1
I/O20
I/O21
I/O22
I/O23
GND
I/O24
I/O25
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
GND
VCC
I/O32
I/O33
I/O34
I/O35
I/O36
I/O37
I/O38
I/O39
TCK
0A8
0A9
0A10
0A11
0A12
0A13
0A14
0A15
0B13
0B12
0B11
0B10
0B9
0B8
0B7
0B6
0B5
0B4
0B3
0B2
1B2
1B3
1B4
1B5
1B6
1B7
1B8
1B9
1B10
1B11
1B12
1B13
1A15
1A14
1A13
1A12
1A11
1A10
1A9
1A8
TDO
I/O119
I/O118
I/O117
I/O116
I/O115
I/O114
I/O113
I/O112
VCC
GND
I/O111
I/O110
I/O109
I/O108
I/O107
I/O106
I/O105
I/O104
GND
I/O103
I/O102
I/O101
I/O100
I3/CLK3
GND
VCC
I2/CLK2
I/O99
I/O98
I/O97
I/O96
GND
I/O95
I/O94
I/O93
I/O92
I/O91
I/O90
I/O89
I/O88
GND
VCC
I/O87
I/O86
I/O85
I/O84
I/O83
I/O82
I/O81
I/O80
TMS
3A8
3A9
3A10
3A11
2A12
3A13
3A14
3A15
3B13
3B12
3B11
3B10
3B9
3B8
3B7
3B6
3B5
3B4
3B3
3B2
2B2
2B3
2B4
2B5
2B6
2B7
2B8
2B9
2B10
2B11
2B12
2B13
2A15
2A14
2A13
2A12
2A11
2A10
2A9
2A8
M5-256
M5LV-256
M5-256
M5LV-256
M5-256
M5LV-256
M5-256
M5LV-256
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
GND
I/O40
I/O41
I/O42
I/O43
I/O44
I/O45
I/O46
I/O47
GND
VCC
I/O48
I/O49
I/O50
I/O51
I/O52
I/O53
I/O54
I/O55
GND
I/O56
I/O57
I/O58
I/O59
VCC
GND
GND
VCC
I/O60
I/O61
I/O62
I/O63
GND
I/O64
I/O65
I/O66
I/O67
I/O68
I/O69
I/O70
I/O71
VCC
GND
I/O72
I/O73
I/O74
I/O75
I/O76
I/O77
I/O78
I/O79
GND
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1D2
1D3
1D4
1D5
1D6
1D7
1D8
1D9
1D10
1D11
1D12
1D13
2D13
2D12
2D11
2D10
2D9
2D8
2D7
2D6
2D5
2D4
2D3
2D2
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
GND
I/O159
I/O158
I/O157
I/O156
I/O155
I/O154
I/O153
I/O152
GND
VCC
I/O151
I/O150
I/O149
I/O148
I/O147
I/O146
I/O145
I/O144
GND
I/O143
I/O142
I/O141
I/O140
VCC
GND
GND
VCC
I/O139
I/O138
I/O137
I/O136
GND
I/O135
I/O134
I/O133
I/O132
I/O131
I/O130
I/O129
I/O128
VCC
GND
I/O127
I/O126
I/O125
I/O124
I/O123
I/O122
I/O121
I/O120
GND
0A7
0A6
0A5
0A4
0A3
0A2
0A1
0A0
0D2
0D3
0D4
0D5
0D6
0D7
0D8
0D9
0D10
0D11
0D12
0D13
3D13
3D12
3D11
3D10
3D9
3D8
3D7
3D6
3D5
3D4
3D3
3D2
3A0
3A1
3A2
3A3
3A4
3A5
3A6
3A7
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
208
207
206
205
204
203
202
201
200
199
198
197
196
195
194
193
192
191
190
189
188
187
186
185
184
183
182
181
180
179
178
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
162
161
160
159
158
157
20446G-023
3D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-3)
36 MACH 5 Family
208-PIN PQFP (WITH INTERNAL HEAT SPREADER) CONNECTION DIAGRAM
Top View
208-Pin PQFP (320, 384, 512 Macrocells)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
VCC
GND
I/O8
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
GND
I/O16
I/O17
I/O18
I/O19
I0/CLK0
VCC
GND
I1/CLK1
I/O20
I/O21
I/O22
I/O23
GND
I/O24
I/O25
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
GND
VCC
I/O32
I/O33
I/O34
I/O35
I/O36
I/O37
I/O38
I/O39
TCK
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D15
0D14
0D13
0D12
0D11
0D10
0D9
0D8
0D7
0D4
0D3
0D2
1D2
1D3
1D4
1D7
1D8
1D9
1D10
1D11
1D12
1D13
1D14
1D15
1A13
1A12
1A11
1A8
1A7
1A4
1A3
1A2
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D15
0D14
0D13
0D12
0D11
0D10
0D9
0D8
0D7
0D4
0D3
0D2
1D2
1D3
1D4
1D7
1D8
1D9
1D10
1D11
1D12
1D13
1D14
1D15
1A13
1A12
1A11
1A8
1A7
1A4
1A3
1A2
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D15
0D14
0D13
0D12
0D11
0D10
0D9
0D8
0D7
0D4
0D3
0D2
1D2
1D3
1D4
1D7
1D8
1D9
1D10
1D11
1D12
1D13
1D14
1D15
1A15
1A14
1A13
1A12
1A11
1A10
1A9
1A8
TDO
I/O119
I/O118
I/O117
I/O116
I/O115
I/O114
I/O113
I/O112
VCC
GND
I/O111
I/O110
I/O109
I/O108
I/O107
I/O106
I/O105
I/O104
GND
I/O103
I/O102
I/O101
I/O100
I3/CLK3
GND
VCC
I2/CLK2
I/O99
I/O98
I/O97
I/O96
GND
I/O95
I/O94
I/O93
I/O92
I/O91
I/O90
I/O89
I/O88
GND
VCC
I/O87
I/O86
I/O85
I/O84
I/O83
I/O82
I/O81
I/O80
TMS
5A2
5A3
5A4
5A7
5A8
5A11
5A12
5A13
5D15
5D14
5D13
5D12
5D11
5D10
5D9
5D8
5D7
5D4
5D3
5D2
4D2
4D3
4D4
4D7
4D8
4D9
4D10
4D11
4D12
4D13
4D14
4D15
4A13
4A12
4A11
4A8
4A7
4A4
4A3
4A2
4A2
4A3
4A4
4A7
4A8
4A11
4A12
4A13
4D15
4D14
4D13
4D12
4D11
4D10
4D9
4D8
4D7
4D4
4D3
4D2
3D2
3D3
3D4
3D7
3D8
3D9
3D10
3D11
3D12
3D13
3D14
3D15
3A13
3A12
3A11
3A8
3A7
3A4
3A3
3A2
3A2
3A3
3A4
3A7
3A8
3A11
3A12
3A13
3D15
3D14
3D13
3D12
3D11
3D10
3D9
3D8
3D7
3D4
3D3
3D2
2D2
2D3
2D4
2D7
2D8
2D9
2D10
2D11
2D12
2D13
2D14
2D15
2A15
2A14
2A13
2A12
2A11
2A10
2A9
2A8
M5-384
M5LV-384
M5-384
M5LV-384
M5-384
M5LV-384
M5-384
M5LV-384
M5-320
M5LV-320
M5-320
M5LV-320
M5-320
M5LV-320
M5-320
M5LV-320
M5-512
M5LV-512
M5-512
M5LV-512
M5-512
M5LV-512
M5-512
M5LV-512
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
GND
I/O40
I/O41
I/O42
I/O43
I/O44
I/O45
I/O46
I/O47
GND
VCC
I/O48
I/O49
I/O50
I/O51
I/O52
I/O53
I/O54
I/O55
GND
I/O56
I/O57
I/O58
I/O59
VCC
GND
GND
VCC
I/O60
I/O61
I/O62
I/O63
GND
I/O64
I/O65
I/O66
I/O67
I/O68
I/O69
I/O70
I/O71
VCC
GND
I/O72
I/O73
I/O74
I/O75
I/O76
I/O77
I/O78
I/O79
GND
2A13
2A12
2A11
2A8
2A7
2A4
2A3
2A2
2B0
2B1
2B2
2B3
2B4
2B5
2B6
2B7
2B8
2B11
2B12
2B13
3B13
3B12
3B11
3B8
3B7
3B6
3B5
3B4
3B3
3B2
3B1
3B0
3A2
3A3
3A4
3A7
3A8
3A11
3A12
3A13
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
2A15
2A14
2A13
2A12
2A11
2A10
2A9
2A8
2A7
2A4
2A3
2A2
2B2
2B3
2B4
2B7
2B8
2B9
2B10
2B11
2B12
2B13
2B14
2B15
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1B0
1B1
1B2
1B3
1B4
1B5
1B6
1B7
1B8
1B11
1B12
1B13
2B13
2B12
2B11
2B8
2B7
2B6
2B5
2B4
2B3
2B2
2B1
2B0
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
GND
I/O159
I/O158
I/O157
I/O156
I/O155
I/O154
I/O153
I/O152
GND
VCC
I/O151
I/O150
I/O149
I/O148
I/O147
I/O146
I/O145
I/O144
GND
I/O143
I/O142
I/O141
I/O140
VCC
GND
GND
VCC
I/O139
I/O138
I/O137
I/O136
GND
I/O135
I/O134
I/O133
I/O132
I/O131
I/O130
I/O129
I/O128
VCC
GND
I/O127
I/O126
I/O125
I/O124
I/O123
I/O122
I/O121
I/O120
GND
7A13
7A12
7A11
7A8
7A7
7A4
7A3
7A2
7B0
7B1
7B2
7B3
7B4
7B5
7B6
7B7
7B8
7B11
7B12
7B13
6B13
6B12
6B11
6B8
6B7
6B6
6B5
6B4
6B3
6B2
6B1
6B0
6A2
6A3
6A4
6A7
6A8
6A11
6A12
6A13
0B2
0B3
0B4
0B7
0B8
0B11
0B12
0B13
5A15
5A14
5A13
5A12
5A11
5A10
5A9
5A8
5A7
5A4
5A3
5A2
5B2
5B3
5B4
5B7
5B8
5B9
5B10
5B11
5B12
5B13
5B14
5B15
4B13
4B12
4B11
4B8
4B7
4B4
4B3
4B2
0B2
0B3
0B4
0B7
0B8
0B11
0B12
0B13
4A15
4A14
4A13
4A12
4A11
4A10
4A9
4A8
4A7
4A4
4A3
4A2
4B2
4B3
4B4
4B7
4B8
4B9
4B10
4B11
4B12
4B13
4B14
4B15
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
208
207
206
205
204
203
202
201
200
199
198
197
196
195
194
193
192
191
190
189
188
187
186
185
184
183
182
181
180
179
178
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
162
161
160
159
158
157
20446G-024
7D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-7)
MACH 5 Family 37
240-PIN PQFP CONNECTION DIAGRAM
Top View
240-Pin PQFP
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
TDI
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
V
CC
GND
I/O8
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
GND
I/O16
I/O17
I/O18
I/O19
I/O20
I/O21
I/O22
I/O23
I0/CLK0
V
CC
GND
I1/CLK1
I/O24
I/O25
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
GND
I/O32
I/O33
I/O34
I/O35
I/O36
I/O37
I/O38
I/O39
GND
V
CC
I/O40
I/O41
I/O42
I/O43
I/O44
I/O45
I/O46
I/O47
TCK
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D15
0D14
0D13
0D12
0D11
0D10
0D9
0D8
0D7
0D6
0D5
0D4
0D3
0D2
0D1
0D0
1D0
1D1
1D2
1D3
1D4
1D5
1D6
1D7
1D8
1D9
1D10
1D11
1D12
1D13
1D14
1D15
1A13
1A12
1A11
1A8
1A7
1A4
1A3
1A2
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D15
0D14
0D13
0D12
0D11
0D10
0D9
0D8
0D7
0D6
0D5
0D4
0D3
0D2
0D1
0D0
1D0
1D1
1D2
1D3
1D4
1D5
1D6
1D7
1D8
1D9
1D10
1D11
1D12
1D13
1D14
1D15
1A13
1A12
1A11
1A8
1A7
1A4
1A3
1A2
0A2
0A3
0A4
0A7
0A8
0A11
0A12
0A13
0D15
0D14
0D13
0D12
0D11
0D10
0D9
0D8
0D7
0D6
0D5
0D4
0D3
0D2
0D1
0D0
1D0
1D1
1D2
1D3
1D4
1D5
1D6
1D7
1D8
1D9
1D10
1D11
1D12
1D13
1D14
1D15
1A15
1A14
1A13
1A12
1A11
1A10
1A9
1A8
TDO
I/O139
I/O138
I/O137
I/O136
I/O135
I/O134
I/O133
I/O132
V
CC
GND
I/O131
I/O130
I/O129
I/O128
I/O127
I/O126
I/O125
I/O124
GND
I/O123
I/O122
I/O121
I/O120
I/O119
I/O118
I/O117
I/O116
I3/CLK3
GND
V
CC
I2/CLK2
I/O115
I/O114
I/O113
I/O112
I/O111
I/O110
I/O109
I/O108
GND
I/O107
I/O106
I/O105
I/O104
I/O103
I/O102
I/O101
I/O100
GND
V
CC
I/O99
I/O98
I/O97
I/O96
I/O95
I/O94
I/O93
I/O92
TMS
5A2
5A3
5A4
5A7
5A8
5A11
5A12
5A13
5D15
5D14
5D13
5D12
5D11
5D10
5D9
5D8
5D7
5D6
5D5
5D4
5D3
5D2
5D1
5D0
4D0
4D1
4D2
4D3
4D4
4D5
4D6
4D7
4D8
4D9
4D10
4D11
4D12
4D13
4D14
4D15
4A13
4A12
4A11
4A8
4A7
4A4
4A3
4A2
4A2
4A3
4A4
4A7
4A8
4A11
4A12
4A13
4D15
4D14
4D13
4D12
4D11
4D10
4D9
4D8
4D7
4D6
4D5
4D4
4D3
4D2
4D1
4D0
3D0
3D1
3D2
3D3
3D4
3D5
3D6
3D7
3D8
3D9
3D10
3D11
3D12
3D13
3D14
3D15
3A13
3A12
3A11
3A8
3A7
3A4
3A3
3A2
3A2
3A3
3A4
3A7
3A8
3A11
3A12
3A13
3D15
3D14
3D13
3D12
3D11
3D10
3D9
3D8
3D7
3D6
3D5
3D4
3D3
3D2
3D1
3D0
2D0
2D1
2D2
2D3
2D4
2D5
2D6
2D7
2D8
2D9
2D10
2D11
2D12
2D13
2D14
2D15
2A15
2A14
2A13
2A12
2A11
2A10
2A9
2A8
M5-320*
M5LV-320*
M5-320*
M5LV-320*
M5-320*
M5LV-320*
M5-320*
M5LV-320*
M5-384*
M5LV-384*
M5-384*
M5LV-384*
M5-384*
M5LV-384*
M5-384*
M5LV-384*
M5-512*
M5LV-512*
M5-512*
M5LV-512*
M5-512*
M5LV-512*
M5-512*
M5LV-512*
GND
V
CC
I/O48
I/O49
I/O50
I/O51
I/O52
I/O53
I/O54
I/O55
GND
V
CC
I/O56
I/O57
I/O58
I/O59
I/O60
I/O61
I/O62
I/O63
GND
I/O64
I/O65
I/O66
I/O67
I/O68
I/O69
V
CC
GND
GND
GND
GND
V
CC
I/O70
I/O71
I/O72
I/O73
I/O74
I/O75
GND
I/O76
I/O77
I/O78
I/O79
I/O80
I/O81
I/O82
I/O83
V
CC
GND
I/O84
I/O85
I/O86
I/O87
I/O88
I/O89
I/O90
I/O91
V
CC
GND
2A13
2A12
2A11
2A8
2A7
2A4
2A3
2A2
2B0
2B1
2B2
2B3
2B4
2B5
2B6
2B7
2B8
2B9
2B10
2B11
2B12
2B13
3B13
3B12
3B11
3B10
3B9
3B8
3B7
3B6
3B5
3B4
3B3
3B2
3B1
3B0
3A2
3A3
3A4
3A7
3A8
3A11
3A12
3A13
1B2
1B3
1B4
1B7
1B8
1B11
1B12
1B13
2A15
2A14
2A13
2A12
2A11
2A10
2A9
2A8
2A7
2A6
2A5
2A4
2A3
2A2
2B2
2B3
2B4
2B5
2B6
2B7
2B8
2B9
2B10
2B11
2B12
2B13
2B14
2B15
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
1A7
1A6
1A5
1A4
1A3
1A2
1A1
1A0
1B0
1B1
1B2
1B3
1B4
1B5
1B6
1B7
1B8
1B9
1B10
1B11
1B12
1B13
2B13
2B12
2B11
2B10
2B9
2B8
2B7
2B6
2B5
2B4
2B3
2B2
2B1
2B0
2A0
2A1
2A2
2A3
2A4
2A5
2A6
2A7
GND
V
CC
I/O183
I/O182
I/O181
I/O180
I/O179
I/O178
I/O177
I/O176
GND
V
CC
I/O175
I/O174
I/O173
I/O172
I/O171
I/O170
I/O169
I/O168
GND
I/O167
I/O166
I/O165
I/O164
I/O163
I/O162
V
CC
GND
GND
GND
GND
V
CC
I/O161
I/O160
I/O159
I/O158
I/O157
I/O156
GND
I/O155
I/O154
I/O153
I/O152
I/O151
I/O150
I/O149
I/O148
V
CC
GND
I/O147
I/O146
I/O145
I/O144
I/O143
I/O142
I/O141
I/O140
V
CC
GND
7A13
7A12
7A11
7A8
7A7
7A4
7A3
7A2
7B0
7B1
7B2
7B3
7B4
7B5
7B6
7B7
7B8
7B9
7B10
7B11
7B12
7B13
6B13
6B12
6B11
6B10
9B9
6B8
6B7
6B6
6B5
6B4
6B3
6B2
6B1
6B0
6A2
6A3
6A4
6A7
6A8
6A11
6A12
6A13
0B2
0B3
0B4
0B7
0B8
0B11
0B12
0B13
5A15
5A14
5A13
5A12
5A11
5A10
5A9
5A8
5A7
5A6
5A5
5A4
5A3
5A2
5B2
5B3
5B4
5B5
5B6
5B7
5B8
5B9
5B10
5B11
5B12
5B13
5B14
5B15
4B13
4B12
4B11
4B8
4B7
4B4
4B3
4B2
0B2
0B3
0B4
0B7
0B8
0B11
0B12
0B13
4A15
4A14
4A13
4A12
4A11
4A10
4A9
4A8
4A7
4A6
4A5
4A4
4A3
4A2
4B2
4B3
4B4
4B5
4B6
4B7
4B8
4B9
4B10
4B11
4B12
4B13
4B14
4B15
3B13
3B12
3B11
3B8
3B7
3B4
3B3
3B2
180
179
178
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
162
161
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
240
239
238
237
236
235
234
233
232
231
230
229
228
227
226
225
224
223
222
221
220
219
218
217
216
215
214
213
212
211
210
209
208
207
206
205
204
203
202
201
200
199
198
197
196
195
194
193
192
191
190
189
188
187
186
155
184
183
182
181
*Package obsolete, contact factory.
20446G-025
7D15
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
Macrocell (0-15)
PAL Block (A-D)
Segment (0-7)
38 MACH 5 Family
256-BALL BGA CONNECTION DIAGRAM —
M5-320, M5LV-320*, M5-384*, M5LV-384*, M5-512*, M5LV-512*
Bottom View (I/O Pin-outs) 256-Ball BGA
2019181716151413121110987654321
AGND I/O11 GND I/O44 I/O58 GND I/O70 I/O76 GND GND GND GND I/O108 I/O116 GND I/O128 I/O134 GND GND GND A
BGND I/O12 I/O28 I/O45 I/O59 I/O64 I/O71 I/O77 I/O84 I/O90 I/O96 I/O102 I/O109 I/O117 I/O122 I/O129 I/O135 I/O148 I/O164 GND B
CI/O0 I/O13 VCC I/O46 I/O60 I/O65 I/O72 I/O78 I/O85 I/O91 I/O97 I/O103 I/O110 I/O118 I/O123 I/O130 I/O136 VCC I/O165 I/O181 C
DI/O1 I/O14 I/O29 VCC VCC I/O66 VCC I/O79 I/O86 I/O92 I/O98 I/O104 I/O111 VCC I/O124 VCC VCC I/O149 I/O166 I/O182 D
EI/O2 I/O15 I/O30 TDI TDO I/O150 I/O167 I/O183 E
FGND I/O16 I/O31 I/O47 I/O137 I/O151 I/O168 GND F
GI/O3 I/O17 I/O32 VCC VCC I/O152 I/O169 I/O184 G
HGND I/O18 I/O33 I/O48 I/O138 I/O153 I/O170 GND H
JI/O4 I/O19 I/O34 I/O49 I/O139 I/O154 I/O171 I/O185 J
KGND IO/CLK0 I/O35 I/O50 I/O140 I/O155 I3/CLK3 I/O186 K
LI/O5 I1/CLK1 I/O36 I/O51 I/O141 I/O156 I2/CLK2 GND L
MI/O6 I/O20 I/O37 I/O52 I/O142 I/O157 I/O172 I/O187 M
NGND I/O21 I/O38 I/O53 I/O143 I/O158 I/O173 GND N
PI/O7 I/O22 I/O39 VCC VCC I/O159 I/O174 I/O188 P
RGND I/O23 I/O40 I/O54 I/O144 I/O160 I/O175 GND R
TI/O8 I/O24 I/O41 TCK TMS I/O161 I/O176 I/O189 T
UI/O9 I/O25 I/O42 VCC VCC I/O67 VCC I/O80 I/O87 I/O93 I/O99 I/O105 I/O112 VCC I/O125 VCC VCC I/O162 I/O177 I/O190 U
VI/O10 I/O26 VCC I/O55 I/O61 I/O68 I/O73 I/O81 I/O88 I/O94 I/O100 I/O106 I/O113 I/O119 I/O126 I/O131 I/O145 VCC I/O178 I/O191 V
WGND I/O27 I/O43 I/O56 I/O62 I/O69 I/O74 I/O82 I/O89 I/O95 I/O101 I/O107 I/O114 I/O120 I/O127 I/O132 I/O146 I/O163 I/O179 GND W
YGND GND GND I/O57 I/O63 GND I/O75 I/O83 GND GND GND GND I/O115 I/O121 GND I/O133 I/O147 GND I/O180 GND Y
2019181716151413121110987654321
20446G-026
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
*Package obsolete, contact factory.
MACH 5 Family 39
256-BALL BGA CONNECTION DIAGRAM — M5-320, M5LV-320*
Bottom View (Macrocell Association)
256-Ball BGA
2019181716151413121110987654321
AGND 0B2 GND 0B13 4A14 GND 4A8 4A4 GND GND GND GND 4B4 4B8 GND 4B14 3B13 GND GND GND A
BGND 0A3 0B8 0B11 4A15 4A11 4A10 4A6 4A3 4A0 4B0 4B3 4B6 4B10 4B11 4B15 3B11 3B8 3B2 GND B
C0D15 0A8 VCC 0B3 0B4 0B12 4A13 4A9 4A5 4A1 4B1 4B5 4B9 4B13 3B12 3B4 3B3 VCC 3A3 3A11 C
D0D13 0A11 0A2 VCC VCC 0B7 VCC 4A12 4A7 4A2 4B2 4B7 4B12 VCC 3B7 VCC VCC 3A2 3A8 3D15 D
E0D10 0A13 0A4 TDI TDO 3A4 3A13 3D12 E
FGND 0D12 0A12 0A7 3A7 3A12 3D13 GND F
G0D7 0D8 0D14 VCC VCC 3D14 3D9 3D7 G
HGND 0D4 0D9 0D11 3D11 3D10 3D8 GND H
J0D2 0D3 0D5 0D6 3D6 3D5 3D4 3D3 J
KGND IO/CLK0 0D0 0D1 3D1 3D0 I3/CLK3 3D2 K
L1D2 I1/CLK1 1D0 1D1 2D1 2D0 I2/CLK2 GND L
M1D3 1D4 1D5 1D6 2D6 2D5 2D3 2D2 M
NGND 1D8 1D10 1D11 2D11 2D9 2D4 GND N
P1D7 1D9 1D14 VCC VCC 2D14 2D8 2D7 P
RGND 1D13 1A14 1A11 2A11 2A14 2D12 GND R
T1D12 1A15 1A10 TCK TMS 2A10 2A15 2D10 T
U1D15 1A12 1A8 VCC VCC 1A4 VCC 1B3 1B8 1B13 2B13 2B8 2B3 VCC 2A4 VCC VCC 2A8 2A13 2D13 U
V1A13 1A9 VCC 1A6 1A5 1A1 1B2 1B6 1B10 1B14 2B14 2B10 2B6 2B2 2A1 2A5 2A6 VCC 2A12 2D15 V
WGND 1A7 1A3 1A2 1B0 1B4 1B5 1B9 1B12 1B15 2B15 2B12 2B9 2B5 2B4 2B0 2A2 2A3 2A9 GND W
YGND GND GND 1A0 1B1 GND 1B7 1B11 GND GND GND GND 2B11 2B7 GND 2B1 2A0 GND 2A7 GND Y
2019181716151413121110987654321
20446G-029
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
4D15
Macrocell (0-15)
PAL Block (A-D)
Segment (0-4)
*Package obsolete, contact factory.
40 MACH 5 Family
256-BALL BGA CONNECTION DIAGRAM — M5-384*, M5LV-384*
Bottom View (Macrocell Association)
256-Ball BGA
2019181716151413121110987654321
AGND 0B2 GND 0B13 5A14 GND 5A8 5A4 GND GND GND GND 5B4 5B8 GND 5B14 4B13 GND GND GND A
BGND 0A3 0B8 0B11 5A15 5A11 5A10 5A6 5A3 5A0 5B0 5B3 5B6 5B10 5B11 5B15 4B11 4B8 4B2 GND B
C0D15 0A8 VCC 0B3 0B4 0B12 5A13 5A9 5A5 5A1 5B1 5B5 5B9 5B13 4B12 4B4 4B3 VCC 4A3 4A11 C
D0D13 0A11 0A2 VCC VCC 0B7 VCC 5A12 5A7 5A2 5B2 5B7 5B12 VCC 4B7 VCC VCC 4A2 4A8 4D15 D
E0D10 0A13 0A4 TDI TDO 4A4 4A13 4D12 E
FGND 0D12 0A12 0A7 4A7 4A12 4D13 GND F
G0D7 0D8 0D14 VCC VCC 4D14 4D9 4D7 G
HGND 0D4 0D9 0D11 4D11 4D10 4D8 GND H
J0D2 0D3 0D5 0D6 4D6 4D5 4D4 4D3 J
KGND IO/CLK0 0D0 0D1 4D1 4D0 I3/CLK3 4D2 K
L1D2 I1/CLK1 1D0 1D1 3D1 3D0 I2/CLK2 GND L
M1D3 1D4 1D5 1D6 3D6 3D5 3D3 3D2 M
NGND 1D8 1D10 1D11 3D11 3D9 3D4 GND N
P1D7 1D9 1D14 VCC VCC 3D14 3D8 3D7 P
RGND 1D13 1A12 1A7 3A7 3A12 3D12 GND R
T1D12 1A13 1A4 TCK TMS 3A4 3A13 3D10 T
U1D15 1A8 1A2 VCC VCC 1B7 VCC 2A12 2A7 2A2 2B2 2B7 2B12 VCC 3B7 VCC VCC 3A2 3A11 3D13 U
V1A11 1A3 VCC 1B3 1B4 1B12 2A13 2A9 2A5 2A1 2B1 2B5 2B9 2B13 3B12 3B4 3B3 VCC 3A8 3D15 V
WGND 1B2 1B8 1B11 2A15 2A11 2A10 2A6 2A3 2A0 2B0 2B3 2B6 2B10 2B11 2B15 3B11 3B8 3A3 GND W
YGND GND GND 1B13 2A14 GND 2A8 2A4 GND GND GND GND 2B4 2B8 GND 2B14 3B13 GND 3B2 GND Y
2019181716151413121110987654321
20446G-028
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
5D15
Macrocell (0-15)
PAL Block (A-D)
Segment (0-5)
*Package obsolete, contact factory.
MACH 5 Family 41
256-BALL BGA CONNECTION DIAGRAM — M5-512*, M5LV-512*
Bottom View (Macrocell Association)
256-Ball BGA
2019181716151413121110987654321
AGND 7A13 GND 7A2 7B1 GND 7B7 7B11 GND GND GND GND 6B11 6B7 GND 6B1 6A2 GND GND GND A
BGND 0A3 7A7 7A4 7B0 7B4 7B5 7B9 7B12 7B15 6B15 6B12 6B9 6B5 6B4 6B0 6A4 6A7 6A13 GND B
C0D15 0A8 VCC 7A12 7A11 7A3 7B2 7B6 7B10 7B14 6B14 6B10 6B6 6B2 6A3 6A11 6A12 VCC 5A3 5A11 C
D0D13 0A11 0A2 VCC VCC 7A8 VCC 7B3 7B8 7B13 6B13 6B8 6B3 VCC 6A8 VCC VCC 5A2 5A8 5D15 D
E0D10 0A13 0A4 TDI TDO 5A4 5A13 5D12 E
FGND 0D12 0A12 0A7 5A7 5A12 5D13 GND F
G0D7 0D8 0D14 VCC VCC 5D14 5D9 5D7 G
HGND 0D4 0D9 0D11 5D11 5D10 5D8 GND H
J0D2 0D3 0D5 0D6 5D6 5D5 5D4 5D3 J
KGND IO/CLK0 0D0 0D1 5D1 5D0 I3/CLK3 5D2 K
L1D2 I1/CLK1 1D0 1D1 4D1 4D0 I2/CLK2 GND L
M1D3 1D4 1D5 1D6 4D6 4D5 4D3 4D2 M
NGND 1D8 1D10 1D11 4D11 4D9 4D4 GND N
P1D7 1D9 1D14 VCC VCC 4D14 4D8 4D7 P
RGND 1D13 1A12 1A7 4A7 4A12 4D12 GND R
T1D12 1A13 1A4 TCK TMS 4A4 4A13 4D10 T
U1D15 1A8 1A2 VCC VCC 2A8 VCC 2B3 2B8 2B13 3B13 3B8 3B3 VCC 3A8 VCC VCC 4A2 4A11 4D13 U
V1A11 1A3 VCC 2A12 2A11 2A3 2B2 2B6 2B10 2B14 3B14 3B10 3B6 3B2 3A3 3A11 3A12 VCC 4A8 4D15 V
WGND 2A13 2A7 2A4 2B0 2B4 2B5 2B9 2B12 2B15 3B15 3B12 3B9 3B5 3B4 3B0 3A4 3A7 4A3 GND W
YGND GND GND 2A2 2B1 GND 2B7 2B11 GND GND GND GND 3B11 3B7 GND 3B1 3A2 GND 3A13 GND Y
2019181716151413121110987654321
20446G-027
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
5D15
Macrocell (0-15)
PAL Block (A-D)
Segment (0-5)
*Package obsolete, contact factory.
42 MACH 5 Family
352-BALL BGA CONNECTION DIAGRAM — M5-512, M5LV-512
Bottom View (I/O Pin-outs) 352-Ball BGA
2625242322212019181716151413121110987654321
ANC GND NC I/O51 GND I/O73 I/O80 I/O87 GND I/O101 NC I/O114 GND I/O128 I/O134 I/O142 GND I/O156 I/O162 GND NC GND NC GND NC NC A
BNC GND NC I/O52 I/O68 I/O74 I/O81 I/O88 I/O95 I/O102 I/O107 I/O115 I/O122 I/O129 I/O135 I/O143 I/O150 I/O157 I/O163 I/O169 I/O176 I/O183 I/O188 GND NC NCB
CGND I/O11 TDI I/O53 I/O69 I/O75 I/O82 I/O89 I/O96 I/O103 I/O108 I/O116 I/O123 I/O130 I/O136 I/O144 I/O151 I/O158 I/O164 I/O170 I/O177 I/O184 NC NC NC NC C
DI/O0 I/O12 I/O32 VCC I/O70 I/O76 I/O83 I/O90 VCC I/O104 I/O109 I/O117 VCC I/O131 I/O137 I/O145 VCC I/O159 I/O165 I/O171 I/O178 VCC TDO I/O205 I/O224 GND D
ENC I/O13 I/O33 I/O54 I/O189 I/O206 I/O225 NC E
FGND I/O14 I/O34 I/O55 I/O190 I/O207 I/O226 I/O245 F
GI/O1 I/O15 I/O35 VCC I/O191 I/O208 I/O227 GND G
HI/O2 I/O16 I/O36 I/O56 VCC I/O209 I/O228 I/O246 H
JGND I/O17 I/O37 VCC I/O192 I/O210 I/O229 I/O247 J
KI/O3 I/O18 I/O38 I/O57 VCC I/O211 I/O230 GND K
LI/O4 I/O19 I/O39 I/O58 I/O193 I/O212 I/O231 I/O248 L
MI/O5 I/O20 I/O40 I/O59 I/O194 I/O213 I/O232 I/O249 M
NGND I/O21 I0/CLK0 VCC I/O195 I/O214 I/O233 I3/CLK3 N
PI1/CLK1 I/O22 I/O41 I/O60 VCC I2CLK2 I/O234 GND P
RI/O6 I/O23 I/O42 I/O61 I/O196 I/O215 I/O235 I/O250 R
TI/O7 I/O24 I/O43 I/O62 I/O197 I/O216 I/O236 I/O251 T
UGND I/O25 I/O44 VCC I/O198 I/O217 I/O237 I/O252 U
VI/O8 I/O26 I/O45 I/O63 VCC I/O218 I/O238 GND V
WI/O9 I/O27 I/O46 VCC I/O199 I/O219 I/O239 I/O253 W
YGND I/O28 I/O47 I/O64 VCC I/O220 I/O240 I/O254 Y
AI/O10 I/O29 I/O48 I/O65 I/O200 I/O221 I/O241 GND AA
BNC I/O30 I/O49 I/O66 I/O201 I/O222 I/O242 NC AB
CGND I/O31 I/O50 TCK VCC I/O77 I/O84 I/O91 I/O97 VCC I/O110 I/O118 I/O124 VCC I/O138 I/O146 I/O152 VCC I/O166 I/O172 I/O179 I/O185 VCC I/O223 I/O243 I/O255 AC
DNC NC NC NC I/O71 I/O78 I/O85 I/O92 I/O98 I/O105 I/O111 I/O119 I/O125 I/O132 I/O139 I/O147 I/O153 I/O160 I/O167 I/O173 I/O180 I/O186 I/O202 TMS I/O244 GND AD
ENC NC GND I/O67 I/O72 I/O79 I/O86 I/O93 I/O99 I/O106 I/O112 I/O120 I/O126 I/O133 I/O140 I/O148 I/O154 I/O161 I/O168 I/O174 I/O181 I/O187 I/O203 NC GND NCAE
AF NC NC GND NC GND NC GND I/O94 I/O100 GND I/O113 I/O121 I/O127 GND I/O141 I/O149 I/O155 GND NC I/O175 I/O182 GND I/O204 NC GND NC AF
2625242322212019181716151413121110987654321
20446G-030
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
MACH 5 Family 43
352-BALL BGA CONNECTION DIAGRAM — M5-512, M5LV-512
Bottom View (I/O Pin-outs)
352-Ball BGA
2625242322212019181716151413121110987654321
ANC GND NC 7A10 GND 7A5 7A0 7B1 GND 7B7 NC 7B14 GND 6B14 6B10 6B6 GND 6B1 6A1 GND NC GND NC GND NC NC A
BNC GND NC 7A13 7A9 7A6 7A2 7B0 7B3 7B6 7B10 7B13 7B15 6B13 6B9 6B5 6B2 6A0 6A4 6A6 6A9 6A12 6A14 GND NC NC B
CGND 0A1 TDI 7A14 7A11 7A7 7A3 7A1 7B2 7B5 7B9 7B12 6B15 6B12 6B8 6B4 6B0 6A2 6A5 6A8 6A10 6A13 NC NC NC NC C
D0A6 0A3 0A2 VCC 7A15 7A12 7A8 7A4 VCC 7B4 7B8 7B11 VCC 6B11 6B7 6B3 VCC 6A3 6A7 6A11 6A15 VCC TDO 5A1 5A2 GND D
ENC 0A8 0A5 0A0 5A0 5A4 5A5 NC E
FGND 0A9 0A7 0A4 5A3 5A7 5A9 5A12 F
G0A13 0A12 0A10 VCC 5A6 5A8 5A14 GND G
H0D15 0A15 0A14 0A11 VCC 5A10 5A15 5D15 H
JGND 0D13 0D14 VCC 5A11 5A13 5D13 5D11 J
K0D9 0D10 0D11 0D12 VCC 5D14 5D10 GND K
L0D5 0D6 0D7 0D8 5D12 5D9 5D8 5D6 L
M0D1 0D2 0D4 0D3 5D7 5D5 5D4 5D3 M
NGND 0D0 I0/CLK0 VCC 5D2 5D1 5D0 I3/CLK3 N
PI1/CLK1 1D0 1D1 1D2 VCC I2/CLK2 4D0 GND P
R1D3 1D4 1D5 1D7 4D3 4D4 4D2 4D1 R
T1D6 1D8 1D9 1D12 4D8 4D7 4D6 4D5 T
UGND 1D10 1D14 VCC 4D12 4D11 4D10 4D9 U
V1D11 1D13 1A13 1A11 VCC 4D14 4D13 GND V
W1D15 1A15 1A10 VCC 4A11 4A14 4A15 4D15 W
YGND 1A14 1A8 1A6 VCC 4A10 4A12 4A13 Y
AA 1A12 1A9 1A7 1A3 4A4 4A7 4A9 GND AA
AB NC 1A5 1A4 1A0 4A0 4A5 4A8 NC AB
AC GND 1A2 1A1 TCK VCC 2A15 2A11 2A7 2A3 VCC 2B3 2B7 2B11 VCC 3B11 3B7 3B3 VCC 3A2 3A6 3A10 3A14 VCC 4A2 4A3 4A6 AC
DNC NC NC NC 2A13 2A10 2A8 2A5 2A2 2B0 2B4 2B8 2B12 2B15 3B12 3B8 3B4 3B1 3A1 3A4 3A8 3A11 3A15 TMS 4A1 GND AD
AE NC NC GND 2A14 2A12 2A9 2A6 2A4 2A0 2B2 2B5 2B9 2B13 3B15 3B13 3B9 3B5 3B2 3B0 3A3 3A7 3A9 3A13 NC GND NC AE
AF NC NC GND NC GND NC GND 2A1 2B1 GND 2B6 2B10 2B14 GND 3B14 3B10 3B6 GND NC 3A0 3A5 GND 3A12 NC GND NC AF
2625242322212019181716151413121110987654321
20446G-031
CLK = Clock
GND = Ground
I = Input
I/O = Input/Output
NC = No Connect
VCC = Supply Voltage
TDI = Test Data In
TCK = Test Clock
TMS = Test Mode Select
TDO = Test Data Out
Pin Designations
7D15
Macrocell (0-15)
PAL Block (A-D)
Segment (0-7)
44 MACH 5 Family
5V M5 ORDERING INFORMATION1,2
Lattice standard products are available in several packages and operating ranges. The order number (Valid Combination) is formed
by a combination of the elements below.
.
*Package obsolete, contact factory.
** Contact Factory for availability.
Device Marking
Actual device marking differs from the ordering part number
(OPN). All MACH devices are dual-marked with both
Commercial and Industrial grades. The Industrial grade is
slower, i.e., M5-512/256-7AC-10AI.
.
Valid Combinations
Valid Combinations list configurations planned to be
supported in volume for this device. Consult the local Lattice
sales office to confirm availability of specific valid
combinations and to check on newly released combinations.
FAMILY TYPE
M5- = MACH 5 (5-V VCC)
M5- 512 /256 -7 A C
MACROCELL DENSITY
128 = 128 Macrocells
192 = 192 Macrocells
256 = 256 Macrocells
320 = 320 Macrocells
384 = 384 Macrocells
512 = 512 Macrocells
I/Os
/68 = 68 I/Os in 100-pin PQFP or TQFP
/74 = 74 I/Os in 100-pin TQFP
/104 = 104 I/Os in 144-pin PQFP or TQFP
/120 = 120 I/Os in 160-pin PQFP
/160 = 160 I/Os in 208-pin PQFP
/192 = 192 I/Os in 256-ball BGA
/256 = 256 I/Os in 352-ball BGA
OPERATING CONDITIONS
C = Commercial (0°C to +70°C)
I = Industrial (-40°C to +85°C)
PACKAGE TYPE
Y = Plastic Quad Flat Pack (PQFP)
V = Thin Quad Flat Pack (TQFP)
A = Ball Grid Array (BGA)
H = Plastic Quad Flat Pack (PQFP)
with exposed heat sink
SPEED
-5 = 5.5 ns tPD
-6 = 6.5 ns tPD
-7 = 7.5 ns tPD
-10 = 10 ns tPD
-12 = 12 ns tPD
-15 = 15 ns tPD
-20 = 20 ns tPD
Note:
1. See below for valid device/package combinations.
2. M5-128/1, M5-192/1 and M5-256/1 recommended for new designs.
PROGRAMMING DESIGNATOR
Blank = Initial Algorithm
/1 = First Revision
Valid Combinations
M5-128/68
Commercial:
-5, -7, -10, -12, -15
Industrial:
-7, -10, -12, -15, -20
YC, VC, YI, VI
M5-128/104 YC, YI
M5-128/120 YC, YI
M5-192/68 YC*, VC, YI*, VI
M5-192/104 YC*, YI*
M5-192/120 YC, YI
M5-256/68 YC*, VC, YI*, VI
M5-256/104 YC*, YI*
M5-256/120 YC, YI
M5-256/160 YC, YI
Valid Combinations
M5-320/120
Commercial:
-6, -7, -10, -12, -15
Industrial:
-7, -10, -12, -15, -20
HC*, HI*
M5-320/160 HC, YC**, HI, YI**
M5-320/184 HC*, HI*
M5-320/192 AC, AI
M5-384/120 HC*, HI*
M5-384/160 HC, YC**, HI, YI**
M5-384/184 HC*, HI*
M5-384/192 AC*, AI*
M5-512/120 HC*, HI*
M5-512/160 HC, YC**, HI, YI**
M5-512/184 HC*, HI*
M5-512/192 AC*, AI*
M5-512/256 AC, AI
MACH 5 Family 45
3.3V M5LV ORDERING INFORMATION1
Lattice standard products are available in several packages and operating ranges. The order number (Valid Combination) is formed
by a combination of the elements below.
*Package obsolete, contact factory.
** Contact Factory for availability.
Device Marking
Actual device marking differs from the ordering part number
(OPN). All MACH devices are dual-marked with both
Commercial and Industrial grades. The Industrial grade is
slower, i.e., M5LV-512/256-7AC-10AI.
Valid Combinations
Valid Combinations list configurations planned to be
supported in volume for this device. Consult the local Lattice
sales office to confirm availability of specific valid
combinations and to check on newly released combinations.
FAMILY TYPE
M
5LV- = MACH 5 Low Voltage (3.3-V VCC)
M5LV- 512 /256 -7 A C
MACROCELL DENSITY
128 = 128 Macrocells
256 = 256 Macrocells
320 = 320 Macrocells
384 = 384 Macrocells
512 = 512 Macrocells
I/Os
/68 = 68 I/Os in 100-pin PQFP or TQFP
/74 = 74 I/Os in 100-pin TQFP
/
104 = 104 I/Os in 144-pin PQFP or TQFP
/
120 = 120 I/Os in 160-pin PQFP
/
160 = 160 I/Os in 208-pin PQFP
/
192 = 192 I/Os in 256-ball BGA
/
256 = 256 I/Os in 352-ball BGA
OPERATING CONDITIONS
C = Commercial (0°C to +70°C)
I = Industrial (-40°C to +85°C)
PACKAGE TYPE
Y = Plastic Quad Flat Pack (PQFP)
V = Thin Quad Flat Pack (TQFP)
A = Ball Grid Array (BGA)
H = Plastic Quad Flat Pack (PQFP)
with exposed heat sink
SPEED
-5 = 5.5 ns tPD
-6 = 6.5 ns tPD
-7 = 7.5 ns tPD
-10 = 10 ns tPD
-12 = 12 ns tPD
-15 = 15 ns tPD
-20 = 20 ns tPD
Note:
1. See below for valid device/package combinations.
Valid Combinations
M5LV-128/68
Commercial:
-5, -7, -10, -12
Industrial:
-7, -10, -12, -15
YC*, VC, YI*, VI
M5LV-128/74 VC, VI
M5LV-128/104 YC*, VC, YI*, VI
M5LV-128/120 YC, YI
M5LV-256/68 YC, VC*, YI, VI*
M5LV-256/74 VC, VI
M5LV-256/104 YC*, VC, YI*, VI
M5LV-256/120 YC, YI
M5LV-256/160 YC, YI
Valid Combinations
M5LV-320/120
Commercial:
-6, -7, -10, -12, -15
Industrial:
-10, -12, -15, -20
HC, YC**, HI, YI**
M5LV-320/160 HC, YC**, HI, YI**
M5LV-320/184 HC*, HI*
M5LV-320/192 AC*, AI*
M5LV-384/120 HC, YC**, HI, YI**
M5LV-384/160 HC, YC**, HI, YI**
M5LV-384/184 HC*, HI*
M5LV-384/192 AC*, AI*
M5LV-512/120 HC, YC**, HI, YI**
M5LV-512/160 HC, YC**, HI, YI**
M5LV-512/184 HC*, HI*
M5LV-512/192 AC*, AI*
M5LV-512/256 AC, AI
46 MACH 5 Family, 3.3-V Ind
MACH 5 Family, 3.3-V Ind 47
