CYPRESS CY37192

Ultra37000™ CPLD Family
5V, 3.3V, ISR™ High-Performance CPLDs
Features
General Description
• In-System Reprogrammable™ (ISR™) CMOS CPLDs
— JTAG interface for reconfigurability
— Design changes don’t cause pinout changes
— Design changes don’t cause timing changes
• High density
— 32 to 512 macrocells
— 32 to 264 I/O pins
— 5 dedicated inputs including 4 clock pins
• Simple timing model
— No fanout delays
— No expander delays
— No dedicated vs. I/O pin delays
— No additional delay through PIM
— No penalty for using full 16 product terms
•
•
•
•
— No delay for steering or sharing product terms
3.3V and 5V versions
PCI Compatible[1]
Programmable Bus-Hold capabilities on all I/Os
Intelligent product term allocator provides:
— 0 to 16 product terms to any macrocell
— Product term steering on an individual basis
— Product term sharing among local macrocells
• Flexible clocking
— 4 synchronous clocks per device
— Product Term clocking
— Clock polarity control per logic block
• Consistent package/pinout offering across all densities
— Simplifies design migration
— Same pinout for 3.3V and 5.0V devices
• Packages
— 44 to 400 Leads in PLCC, CLCC, PQFP, TQFP, CQFP,
BGA, and Fine-Pitch BGA packages
The Ultra37000™ family of CMOS CPLDs provides a range of
high-density programmable logic solutions with unparalleled
system performance. The Ultra37000 family is designed to
bring the flexibility, ease of use, and performance of the 22V10
to high-density CPLDs. The architecture is based on a number
of logic blocks that are connected by a Programmable Interconnect Matrix (PIM). Each logic block features its own product term array, product term allocator, and 16 macrocells. The
PIM distributes signals from the logic block outputs and all input pins to the logic block inputs.
All of the Ultra37000 devices are electrically erasable and InSystem Reprogrammable (ISR), which simplifies both design
and manufacturing flows, thereby reducing costs. The ISR feature provides the ability to reconfigure the devices without having design changes cause pinout or timing changes. The
Cypress ISR function is implemented through a JTAG-compliant serial interface. Data is shifted in and out through the TDI
and TDO pins, respectively. Because of the superior routability
and simple timing model of the Ultra37000 devices, ISR allows
users to change existing logic designs while simultaneously
fixing pinout assignments and maintaining system performance.
The entire family features JTAG for ISR and boundary scan,
and is compatible with the PCI Local Bus specification, meeting the electrical and timing requirements. The Ultra37000
family features user programmable bus-hold capabilities on all
I/Os.
Ultra37000 5.0V Devices
The Ultra37000 devices operate with a 5V supply and can support 5V or 3.3V I/O levels. VCCO connections provide the capability of interfacing to either a 5V or 3.3V bus. By connecting
the VCCO pins to 5V the user insures 5V TTL levels on the
outputs. If VCCO is connected to 3.3V the output levels meet
3.3V JEDEC standard CMOS levels and are 5V tolerant.
These devices require 5V ISR programming.
Ultra37000V 3.3V Devices
Devices operating with a 3.3V supply require 3.3V on all VCCO
pins, reducing the device’s power consumption. These devices
support 3.3V JEDEC standard CMOS output levels, and are
5V tolerant. These devices allow 3.3V ISR programming.
Note:
1. Due to the 5V-tolerant nature of 3.3V device I/Os, the I/Os are not clamped to VCC, PCI VIH=2V.
Cypress Semiconductor Corporation
Document #: 38-03007 Rev. **
•
3901 North First Street
•
San Jose
•
CA 95134 • 408-943-2600
Revised March 15, 2001
Ultra37000™ CPLD Family
Selection Guide
5.0V Selection Guide
General Information
Device
Dedicated
Inputs
Macrocells
I/O Pins
Speed (tPD)
Speed (fMAX)
CY37032
32
5
32
6
200
CY37064
64
5
32/64
6
200
CY37128
128
5
64/128
6.5
167
CY37192
192
5
120
7.5
154
CY37256
256
5
128/160/192
7.5
154
CY37384
384
5
160/192
10
118
CY37512
512
5
160/192/264
10
118
Speed Bins
Device
200
CY37032
X
CY37064
X
167
154
143
125
X
X
CY37128
100
83
66
X
X
X
X
X
CY37192
X
X
X
CY37256
X
X
X
CY37384
X
CY37512
X
X
X
X
Device-Package Offering & I/O Count
Device
44Lead
TQFP
44Lead
PLCC
CY37032
37
37
CY37064
37
37
CY37128
44Lead
CLCC
84Lead
PLCC
37
69
69
84Lead
CLCC
100Lead
TQFP
160Lead
TQFP
160Lead
CQFP
208Lead
PQFP
208Lead
CQFP
256Lead
BGA
69
69
69
133
CY37192
125
CY37256
133
165
197
CY37384
165
197
CY37512
165
Document #: 38-03007 Rev. **
352Lead
BGA
133
165
197
269
Page 2 of 67
Ultra37000™ CPLD Family
3.3V Selection Guide
General Information
Device
Macrocells
Dedicated
Inputs
CY37032V
32
CY37064V
64
CY37128V
CY37192V
I/O Pins
Speed (tPD)
Speed (fMAX)
5
32
8.5
143
5
32/64
8.5
143
128
5
64/80/128
10
125
192
5
120
12
100
CY37256V
256
5
128/160/192
12
100
CY37384V
384
5
160/192
15
83
CY37512V
512
5
160/192/264
15
83
Speed Bins
Device
200
167
154
143
CY37032V
125
100
X
CY37064V
X
CY37128V
X
66
X
X
X
CY37192V
X
CY37256V
83
X
X
X
X
X
CY37384V
X
CY37512V
X
X
X
X
Shaded areas indicate preliminary speed bins.
Device
44Lead
TQFP
44Lead
PLCC
44Lead
CLCC
48Lead
FBGA
84Lead
PLCC
84Lead
CLCC
100Lead
TQFP
100Lead
FBGA
160Lead
TQFP
160Lead
CQFP
208Lead
PQFP
208Lead
CQFP
256Lead
BGA
256Lead
FBGA
352Lead
BGA
400Lead
FBGA
Device-Package Offering & I/O Count
CY37032V
37
37
CY37064V
37
37
37
37
CY37128V
37
69
69
69
69
69
69
85
133
CY37192V
125
CY37256V
133
133
165
CY37384V
165
CY37512V
165
Document #: 38-03007 Rev. **
197
197
197
165
197
269
269
Page 3 of 67
Ultra37000™ CPLD Family
Architecture Overview of Ultra37000 Family
Programmable Interconnect Matrix
The Programmable Interconnect Matrix (PIM) consists of a
completely global routing matrix for signals from I/O pins and
feedbacks from the logic blocks. The PIM provides extremely
robust interconnection to avoid fitting and density limitations.
The inputs to the PIM consist of all I/O and dedicated input pins
and all macrocell feedbacks from within the logic blocks. The
number of PIM inputs increases with pin count and the number
of logic blocks. The outputs from the PIM are signals routed to
the appropriate logic blocks. Each logic block receives 36 inputs from the PIM and their complements, allowing for 32-bit
operations to be implemented in a single pass through the
device. The wide number of inputs to the logic block also improves the routing capacity of the Ultra37000 family.
An important feature of the PIM is its simple timing. The propagation delay through the PIM is accounted for in the timing
specifications for each device. There is no additional delay for
traveling through the PIM. In fact, all inputs travel through the
PIM. As a result, there are no route-dependent timing parameters on the Ultra37000 devices. The worst-case PIM delays
are incorporated in all appropriate Ultra37000 specifications.
Routing signals through the PIM is completely invisible to the
user. All routing is accomplished by software—no hand routing
is necessary. Warp™ and third-party development packages
automatically route designs for the Ultra37000 family in a matter of minutes. Finally, the rich routing resources of the
Ultra37000 family accommodate last minute logic changes
while maintaining fixed pin assignments.
Logic Block
The logic block is the basic building block of the Ultra37000
architecture. It consists of a product term array, an intelligent
product-term allocator, 16 macrocells, and a number of I/O
cells. The number of I/O cells varies depending on the device
used. Refer to Figure 1 for the block diagram.
Product Term Array
Each logic block features a 72 x 87 programmable product
term array. This array accepts 36 inputs from the PIM, which
originate from macrocell feedbacks and device pins. Active
LOW and active HIGH versions of each of these inputs are
generated to create the full 72-input field. The 87 product
terms in the array can be created from any of the 72 inputs.
Of the 87 product terms, 80 are for general-purpose use for
the 16 macrocells in the logic block. Four of the remaining
seven product terms in the logic block are output enable (OE)
product terms. Each of the OE product terms controls up to
eight of the 16 macrocells and is selectable on an individual
macrocell basis. In other words, each I/O cell can select between one of two OE product terms to control the output buffer.
The first two of these four OE product terms are available to
the upper half of the I/O macrocells in a logic block. The other
two OE product terms are available to the lower half of the I/O
macrocells in a logic block.
The next two product terms in each logic block are dedicated
asynchronous set and asynchronous reset product terms. The
final product term is the product term clock. The set, reset, OE
and product term clock have polarity control to realize OR
functions in a single pass through the array.
2
3
0−16
PRODUCT
TERMS
7
0−16
PRODUCT
TERMS
FROM
PIM
36
72 x 87
PRODUCT TERM
ARRAY
80
PRODUCT
TERMS
0−16
16
MACROCELL
1
I/O
CELL
0
to cells
2, 4, 6 8, 10, 12
PRODUCT
TERM
ALLOCATOR
0−16
TO
PIM
MACROCELL
0
2
PRODUCT
TERMS
MACROCELL
14
I/O
CELL
14
MACROCELL
15
8
Figure 1. Logic Block with 50% Buried Macrocells
Document #: 38-03007 Rev. **
Page 4 of 67
Ultra37000™ CPLD Family
Low-Power Option
Each logic block can operate in high-speed mode for critical
path performance, or in low-power mode for power conservation. The logic block mode is set by the user on a logic block
by logic block basis.
Product Term Allocator
Through the product term allocator, software automatically distributes product terms among the 16 macrocells in the logic
block as needed. A total of 80 product terms are available from
the local product term array. The product term allocator provides two important capabilities without affecting performance:
product term steering and product term sharing.
Product Term Steering
Product term steering is the process of assigning product
terms to macrocells as needed. For example, if one macrocell
requires ten product terms while another needs just three, the
product term allocator will “steer” ten product terms to one
macrocell and three to the other. On Ultra37000 devices, product terms are steered on an individual basis. Any number between 0 and 16 product terms can be steered to any macrocell.
Note that 0 product terms is useful in cases where a particular
macrocell is unused or used as an input register.
Product Term Sharing
Product term sharing is the process of using the same product
term among multiple macrocells. For example, if more than
one output has one or more product terms in its equation that
are common to other outputs, those product terms are only
programmed once. The Ultra37000 product term allocator allows sharing across groups of four output macrocells in a variable fashion. The software automatically takes advantage of
this capability—the user does not have to intervene.
Note that neither product term sharing nor product term steering have any effect on the speed of the product. All worst-case
steering and sharing configurations have been incorporated in
the timing specifications for the Ultra37000 devices.
Ultra37000 Macrocell
Within each logic block there are 16 macrocells. Macrocells
can either be I/O Macrocells, which include an I/O Cell which
is associated with an I/O pin, or buried Macrocells, which do
not connect to an I/O. The combination of I/O Macrocells and
buried Macrocells varies from device to device.
Buried Macrocell
Figure 2 displays the architecture of buried macrocells. The
buried macrocell features a register that can be configured as
combinatorial, a D flip-flop, a T flip-flop, or a level-triggered
latch.
Document #: 38-03007 Rev. **
The register can be asynchronously set or asynchronously reset at the logic block level with the separate set and reset product terms. Each of these product terms features programmable polarity. This allows the registers to be set or reset based
on an AND expression or an OR expression.
Clocking of the register is very flexible. Four global synchronous clocks and a product term clock are available to clock the
register. Furthermore, each clock features programmable polarity so that registers can be triggered on falling as well as
rising edges (see the Clocking section). Clock polarity is chosen at the logic block level.
The buried macrocell also supports input register capability.
The buried macrocell can be configured to act as an input register (D-type or latch) whose input comes from the I/O pin associated with the neighboring macrocell. The output of all buried macrocells is sent directly to the PIM regardless of its
configuration.
I/O Macrocell
Figure 2 illustrates the architecture of the I/O macrocell. The
I/O macrocell supports the same functions as the buried macrocell with the addition of I/O capability. At the output of the
macrocell, a polarity control mux is available to select active
LOW or active HIGH signals. This has the added advantage of
allowing significant logic reduction to occur in many applications.
The Ultra37000 macrocell features a feedback path to the PIM
separate from the I/O pin input path. This means that if the
macrocell is buried (fed back internally only), the associated
I/O pin can still be used as an input.
Bus Hold Capabilities on all I/Os
Bus-hold, which is an improved version of the popular internal
pull-up resistor, is a weak latch connected to the pin that does
not degrade the device’s performance. As a latch, bus-hold
maintains the last state of a pin when the pin is placed in a
high-impedance state, thus reducing system noise in bus-interface applications. Bus-hold additionally allows unused device pins to remain unconnected on the board, which is particularly useful during prototyping as designers can route new
signals to the device without cutting trace connections to VCC
or GND. For more information, see the application note “Understanding Bus-Hold − A Feature of Cypress CPLDs.”
Programmable Slew Rate Control
Each output has a programmable configuration bit, which sets
the output slew rate to fast or slow. For designs concerned with
meeting FCC emissions standards the slow edge provides for
lower system noise. For designs requiring very high performance the fast edge rate provides maximum system performance.
Page 5 of 67
Ultra37000™ CPLD Family
f
I/O MACROCELL
FROM PTM
FAST
0
1
0−16
PRODUCT
TERMS
SLEW
SLOW
C25
0
1
2
3
C26
0
P
D/T/L
O
O
1
Q
1
R
C4
4
“0”
“1”
DECODE
C0 C1 C24
I/O CELL
O
0
0
1
2
3
O
C6 C5
1
0
C2 C3
BURIED MACROCELL
FROM PTM
0−16
0
1
PRODUCT
TERMS
C25
0
0
0
1
2
3
O
P
D/T/L
1
O
1
Q
C7
Q
R
4
DECODE
C0 C1 C24
1
0
C2 C3
FEEDBACK TO PIM
FEEDBACK TO PIM
FEEDBACK TO PIM
ASYNCHRONOUS
BLOCK RESET
4 SYNCHRONOUS CLOCKS (CLK0,CLK1,CLK2,CLK3)
ASYNCHRONOUS
1 ASYNCHRONOUS CLOCK(PTCLK)
BLOCK PRESET
OE0 OE1
Figure 2. I/O and Buried Macrocells
INPUT PIN
FROM CLOCK
POLARITY MUXES
0
1
2
3
D
Q
D
Q
0
1
2
3
O
TO PIM
O
C12 C13
C10 C11
D
Q
LE
Figure 3. Input Macrocell
Document #: 38-03007 Rev. **
Page 6 of 67
Ultra37000™ CPLD Family
0
TO CLOCK MUX ON
ALL INPUT MACROCELLS
O
1
INPUT/CLOCK PIN
C12
0
O
1
FROM CLOCK
POLARITY INPUT
CLOCK PINS
D
0
1
2
3
Q
D
Q
C13, C14, C15
0
1
2
3
O
TO PIM
TO CLOCK MUX
IN EACH
LOGIC BLOCK
OR C16
CLOCK POLARITY MUX
ONE PER LOGIC BLOCK
FOR EACH CLOCK INPUT
O
C10C11
C8 C9
D
Q
LE
Figure 4. Input/Clock Macrocell
Clocking
Each I/O and buried macrocell has access to four synchronous
clocks (CLK0, CLK1, CLK2 and CLK3) as well as an asynchronous product term clock PTCLK. Each input macrocell has
access to all four synchronous clocks.
Dedicated Inputs/Clocks
Five pins on each member of the Ultra37000 family are designated as input-only. There are two types of dedicated inputs
on Ultra37000 devices: input pins and input/clock pins.
Figure 3 illustrates the architecture for input pins. Four input
options are available for the user: combinatorial, registered,
double-registered, or latched. If a registered or latched option
is selected, any one of the input clocks can be selected for
control.
Figure 4 illustrates the architecture for the input/clock pins.
Like the input pins, input/clock pins can be combinatorial, registered, double-registered, or latched. In addition, these pins
feed the clocking structures throughout the device. The clock
path at the input has user-configurable polarity.
The Ultra37000 features:
• No fanout delays
• No expander delays
• No dedicated vs. I/O pin delays
• No additional delay through PIM
• No penalty for using 0–16 product terms
• No added delay for steering product terms
• No added delay for sharing product terms
• No routing delays
• No output bypass delays
The simple timing model of the Ultra37000 family eliminates
unexpected performance penalties.
COMBINATORIAL SIGNAL
Timing Model
One of the most important features of the Ultra37000 family is
the simplicity of its timing. All delays are worst case and system performance is unaffected by the features used. Figure 5
illustrates the true timing model for the 167-MHz devices in
high speed mode. For combinatorial paths, any input to any
output incurs a 6.5-ns worst-case delay regardless of the
amount of logic used. For synchronous systems, the input setup time to the output macrocells for any input is 3.5 ns and the
clock to output time is also 4.0 ns. These measurements are
for any output and synchronous clock, regardless of the logic
used.
Document #: 38-03007 Rev. **
OUTPUT
REGISTERED SIGNAL
tS = 3.5 ns
Product Term Clocking
In addition to the four synchronous clocks, the Ultra37000 family also has a product term clock for asynchronous clocking.
Each logic block has an independent product term clock which
is available to all 16 macrocells. Each product term clock also
supports user configurable polarity selection.
tPD = 6.5 ns
INPUT
D,T,L
O
tCO = 4.5 ns
INPUT
OUTPUT
CLOCK
Figure 5. Timing Model for CY37128
JTAG and PCI Standards
PCI Compliance
5V operation of the Ultra37000 is fully compliant with the PCI
Local Bus Specification published by the PCI Special Interest
Group. The 3.3V products meet all PCI requirements except
for the output 3.3V clamp, which is in direct conflict with 5V
tolerance. The Ultra37000 family’s simple and predictable timing model ensures compliance with the PCI AC specifications
independent of the design.
Page 7 of 67
Ultra37000™ CPLD Family
IEEE 1149.1 Compliant JTAG
The Ultra37000 family has an IEEE 1149.1 JTAG interface for
both Boundary Scan and ISR.
Boundary Scan
The Ultra37000 family supports Bypass, Sample/Preload, Extest, Idcode, and Usercode boundary scan instructions. The
JTAG interface is shown in Figure 6.
tion as well as a debugger. It has the ability to generate graphical HDL blocks from HDL text. It can even generate
testbenches.
Warp is available for PC and UNIX platforms. Some features
are not available in the UNIX version. For further information
see the Warp for PC, Warp for UNIX, Warp Professional and
Warp Enterprise data sheets on Cypress’s web site
(www.cypress.com).
Third-Party Software
Instruction Register
TDI
TMS
TDO
JTAG
TAP
CONTROLLER
TCK
Bypass Reg.
Boundary Scan
idcode
Usercode
ISR Prog.
Data Registers
Figure 6. JTAG Interface
In-System Reprogramming (ISR)
In-System Reprogramming is the combination of the capability
to program or reprogram a device on-board, and the ability to
support design changes without changing the system timing
or device pinout. This combination means design changes
during debug or field upgrades do not cause board respins.
The Ultra37000 family implements ISR by providing a JTAG
compliant interface for on-board programming, robust routing
resources for pinout flexibility, and a simple timing model for
consistent system performance.
Development Software Support
Warp™
Warp is a state-of-the-art compiler and complete CPLD design
tool. For design entry, Warp provides an IEEE-STD-1076/1164
VHDL text editor, an IEEE-STD-1364 Verilog text editor, and a
graphical finite state machine editor. It provides optimized synthesis and fitting by replacing basic circuits with ones pre-optimized for the target device, by implementing logic in unused
memory and by perfect communication between fitting and
synthesis. To facilitate design and debugging, Warp provides
graphical timing simulation and analysis.
Warp Professional™
Warp Professional contains several additional features. It provides an extra method of design entry with its graphical block
diagram editor. It allows up to 5 ms timing simulation instead
of only 2 ms. It allows comparison of waveforms before and
after design changes.
Although Warp is a complete CPLD development tool on its
own, it interfaces with nearly every third party EDA tool. All
major third-party software vendors provide support for the
Ultra37000 family of devices. Refer to the third-party software
data sheet or contact your local sales office for a list of currently supported third-party vendors.
Programming
There are four programming options available for Ultra37000
devices. The first method is to use a PC with the 37000
UltraISR programming cable and software. With this method,
the ISR pins of the Ultra37000 devices are routed to a connector at the edge of the printed circuit board. The 37000 UltraISR
programming cable is then connected between the parallel
port of the PC and this connector. A simple configuration file
instructs the ISR software of the programming operations to
be performed on each of the Ultra37000 devices in the system.
The ISR software then automatically completes all of the necessary data manipulations required to accomplish the programming, reading, verifying, and other ISR functions. For
more information on the Cypress ISR Interface, see the ISR
Programming Kit data sheet (CY3700i).
The second method for programming Ultra37000 devices is on
automatic test equipment (ATE). This is accomplished through
a file created by the ISR software. Check the Cypress website
for the latest ISR software download information.
The third programming option for Ultra37000 devices is to utilize the embedded controller or processor that already exists
in the system. The Ultra37000 ISR software assists in this
method by converting the device JEDEC maps into the ISR
serial stream that contains the ISR instruction information and
the addresses and data of locations to be programmed. The
embedded controller then simply directs this ISR stream to the
chain of Ultra37000 devices to complete the desired reconfiguring or diagnostic operations. Contact your local sales office
for information on availability of this option.
The fourth method for programming Ultra37000 devices is to
use the same programmer that is currently being used to program FLASH370i devices.
For all pinout, electrical, and timing requirements, refer to device data sheets. For ISR cable and software specifications,
refer to the UltraISR kit data sheet (CY3700i).
Third-Party Programmers
As with development software, Cypress support is available on
a wide variety of third-party programmers. All major third-party
programmers (including BP Micro, Data I/O, and SMS) support
the Ultra37000 family.
Warp Enterprise™
Warp Enterprise provides even more features. It provides unlimited timing simulation and source-level behavioral simulaDocument #: 38-03007 Rev. **
Page 8 of 67
Ultra37000™ CPLD Family
Logic Block Diagrams
CY37032 / CY37032V
Clock/
Input Input
1
TDI
TCK
TMS
4
36
LOGIC
BLOCK
A
16 I/Os
I/O0−I/O15
36
PIM
16
16
16
TDO
JTAGEN
4
4
JTAG Tap
Controller
LOGIC
BLOCK
B
16 I/Os
I/O16−I/O31
16
CY37064 / CY37064V (100-Lead TQFP)
Input
Clock/
Input
4
1
4
4
LOGIC
BLOCK
A
16 I/Os
I/O0-I/O15
36
36
16
16
36
16 I/Os
LOGIC
BLOCK
B
I/O16-I/O31
32
TDI
TCK
16
PIM
LOGIC
BLOCK
D
16 I/Os
LOGIC
BLOCK
C
16 I/Os
I/O48-I/O63
36
16
I/O32-I/O47
32
JTAG Tap
Controller
TDO
TMS
Document #: 38-03007 Rev. **
Page 9 of 67
Ultra37000™ CPLD Family
Logic Block Diagrams (continued)
CY37128 / CY37128V (160-Lead TQFP)
TDI
CLOCK
INPUTS INPUTS
JTAG Tap
TCK
Controller
TDO
TMS
1
4
INPUT/CLOCK
MACROCELLS
4
INPUT
MACROCELL
4
I/O0–I/O15
16 I/Os
LOGIC
BLOCK
36
A
16 I/Os
I/O16–I/O31
16 I/Os
LOGIC
BLOCK
LOGIC
BLOCK
C
16 I/Os
I/O28–I/O63
PIM
16
B
I/O32–I/O47
36
LOGIC
BLOCK
D
36
16
16
36
36
16
16
36
36
16
16
LOGIC
BLOCK
16 I/Os
LOGIC
BLOCK
16 I/Os
LOGIC
BLOCK
16 I/Os
LOGIC
BLOCK
16 I/Os
I/O112–I/O127
H
16
36
JTAGEN
I/O96–I/O111
G
I/O80–I/O95
F
E
I/O64–I/O79
64
64
CY37192 / CY37192V (160-Lead TQFP)
Clock/
Input Input
1
4
4
4
TDI
TCK
TMS
10 I/Os
I/O0–I/O9
LOGIC
BLOCK
A
10 I/Os
I/O10–I/O19
LOGIC
BLOCK
B
10 I/Os
I/O20–I/O29
LOGIC
BLOCK
C
10 I/Os
I/O30–I/O39
LOGIC
BLOCK
D
10 I/Os
I/O40–I/O49
LOGIC
BLOCK
E
10 I/Os
I/O50–I/O59
LOGIC
BLOCK
F
JTAG Tap
Controller
60
36
36
16
16
36
36
16
16
36
36
16
16
36
16
PIM
36
16
36
36
16
16
36
36
16
16
LOGIC
BLOCK
L
10 I/Os
I/O110–I/O119
LOGIC
BLOCK
K
10 I/Os
I/O100–I/O109
LOGIC
BLOCK
J
10 I/Os
I/O90–I/O99
LOGIC
BLOCK
I
10 I/Os
I/O80–I/O89
LOGIC
BLOCK
H
10 I/Os
I/O70–I/O79
LOGIC
BLOCK
G
10 I/Os
I/O60–I/O69
60
TDO
Document #: 38-03007 Rev. **
Page 10 of 67
Ultra37000™ CPLD Family
Logic Block Diagrams (continued)
CY37256 / CY37256V (256-Lead BGA)
Clock/
Input Input
1
4
4
4
12 I/Os
I/O0−I/O11
LOGIC
BLOCK
A
12 I/Os
I/O12−I/O23
LOGIC
BLOCK
B
12 I/Os
I/O24−I/O35
LOGIC
BLOCK
C
12 I/Os
I/O36−I/O47
LOGIC
BLOCK
D
12 I/Os
I/O48−I/O59
LOGIC
BLOCK
E
12 I/Os
I/O60−I/O71
LOGIC
BLOCK
F
12 I/Os
I/O72−I/O83
LOGIC
BLOCK
G
12 I/Os
LOGIC
BLOCK
H
I/O84−I/O95
TDI
TCK
TMS
JTAG Tap
Controller
Document #: 38-03007 Rev. **
96
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
PIM
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
LOGIC
BLOCK
P
12 I/Os
I/O180−I/O191
LOGIC
BLOCK
O
12 I/Os
I/O168−I/O179
LOGIC
BLOCK
N
12 I/Os
I/O156−I/O167
LOGIC
BLOCK
M
12 I/Os
I/O144−I/O155
LOGIC
BLOCK
L
12 I/Os
I/O132−I/O143
LOGIC
BLOCK
K
12 I/Os
I/O120−I/O131
LOGIC
BLOCK
J
12 I/Os
I/O108−I/O119
LOGIC
BLOCK
I
12 I/Os
I/O96−I/O107
96
TDO
Page 11 of 67
Ultra37000™ CPLD Family
Logic Block Diagrams (continued)
CY37384 / CY37384V (256-Lead BGA)
Clock/
Input Input
1
4
4
4
12 I/Os
I/O0−I/O11
LOGIC
BLOCK
AA
12 I/Os
LOGIC
BLOCK
AB
I/O12−I/O23
12 I/Os
I/O24−I/O35
LOGIC
BLOCK
AC
LOGIC
BLOCK
AD
12 I/Os
I/O36−I/O47
LOGIC
BLOCK
AE
LOGIC
BLOCK
AF
12 I/Os
I/O48−I/O59
LOGIC
BLOCK
AG
12 I/Os
I/O60−I/O71
LOGIC
BLOCK
AH
12 I/Os
LOGIC
BLOCK
AI
I/O72−I/O83
LOGIC
BLOCK
AJ
12 I/Os
I/O84−I/O95
LOGIC
BLOCK
AK
LOGIC
BLOCK
AL
TDI
TCK
TMS
JTAG Tap
Controller
Document #: 38-03007 Rev. **
TDO
96
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
PIM
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
LOGIC
BLOCK
BL
LOGIC
BLOCK
BK
12 I/Os
I/O168−I/O191
LOGIC
BLOCK
BJ
12 I/Os
I/O156−I/O179
LOGIC
BLOCK
BI
12 I/Os
I/O144−I/O167
LOGIC
BLOCK
BH
LOGIC
BLOCK
BG
12 I/Os
I/O132−I/O155
LOGIC
BLOCK
BF
LOGIC
BLOCK
BE
12 I/Os
I/O120−I/O143
LOGIC
BLOCK
BD
12 I/Os
I/O108−I/O131
LOGIC
BLOCK
BC
12 I/Os
I/O96−I/O119
LOGIC
BLOCK
BB
LOGIC
BLOCK
BA
12 I/Os
I/O96−I/O107
96
Page 12 of 67
Ultra37000™ CPLD Family
Logic Block Diagrams (continued)
CY37512 / CY37512V (352-Lead BGA)
Input Clock/ Input
4
1
4
4
12 I/Os
I/O0−I/O11
LOGIC
BLOCK
AA
12 I/Os
I/O12−I/O23
LOGIC
BLOCK
AB
12 I/Os
I/O24−I/O35
LOGIC
BLOCK
AC
LOGIC
BLOCK
AD
12 I/Os
I/O36−I/O47
LOGIC
BLOCK
AE
LOGIC
BLOCK
AF
12 I/Os
I/O48−I/O59
LOGIC
BLOCK
AG
LOGIC
BLOCK
AH
12 I/Os
I/O60−I/O71
12 I/Os
I/O72−I/O83
LOGIC
BLOCK
AK
12 I/Os
LOGIC
BLOCK
AL
12 I/Os
I/O96−I/O107
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
LOGIC
BLOCK
AM
PIM
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
16
16
36
36
I/O108−I/O119
LOGIC
BLOCK
AN
16
16
36
12 I/Os
I/O120−I/O131
36
LOGIC
BLOCK
AO
16
16
36
36
16
16
12 I/Os
LOGIC
BLOCK
AP
132
TDI
TCK
TMS
36
36
LOGIC
BLOCK
AI
LOGIC
BLOCK
AJ
I/O84−I/O95
36
JTAG Tap
Controller
LOGIC
BLOCK
BP
LOGIC
BLOCK
BO
12 I/Os
I/O252−I/O263
LOGIC
BLOCK
BN
12 I/Os
I/O240−I/O251
LOGIC
BLOCK
BM
12 I/Os
I/O228−I/O239
LOGIC
BLOCK
BL
LOGIC
BLOCK
BK
12 I/Os
I/O216−I/O227
LOGIC
BLOCK
BJ
LOGIC
BLOCK
BI
12 I/Os
I/O204−I/O215
LOGIC
BLOCK
BH
LOGIC
BLOCK
BG
12 I/Os
I/O192−I/O203
LOGIC
BLOCK
BF
LOGIC
BLOCK
BE
12 I/Os
I/O180−I/O191
LOGIC
BLOCK
BD
12 I/Os
I/O168−I/O179
LOGIC
BLOCK
BC
12 I/Os
I/O156−I/O167
LOGIC
BLOCK
BB
12 I/Os
I/O144−I/O155
LOGIC
BLOCK
BA
12 I/Os
I/O132−I/O143
132
TDO
Document #: 38-03007 Rev. **
Page 13 of 67
Ultra37000™ CPLD Family
5.0V Device Characteristics
DC Voltage Applied to Outputs
in High Z State................................................–0.5V to +7.0V
Maximum Ratings
DC Input Voltage ............................................–0.5V to +7.0V
(Above which the useful life may be impaired. For user guidelines, not tested.)
DC Program Voltage ............................................ 4.5 to 5.5V
Storage Temperature ................................. –65°C to +150°C
Static Discharge Voltage ........................................... >2001V
(per MIL-STD-883, Method 3015)
Ambient Temperature with
Power Applied............................................. –55°C to +125°C
Current into Outputs .................................................... 16 mA
Latch-Up Current..................................................... >200 mA
Supply Voltage to Ground Potential ............... –0.5V to +7.0V
Operating Range[2]
Range
Commercial
Industrial
Military[3]
Ambient
Temperature[2]
Junction
Temperature
Output
Condition
VCC
VCCO
0°C to +70°C
0°C to +90°C
5V
5V ± 0.25V
5V ± 0.25V
3.3V
5V ± 0.25V
3.3V ± 0.3V
–40°C to +85°C
–55°C to +125°C
–40°C to +105°C
–55°C to +130°C
5V
5V ± 0.5V
5V ± 0.5V
3.3V
5V ± 0.5V
3.3V ± 0.3V
5V
5V ± 0.5V
5V ± 0.5V
3.3V
5V ± 0.5V
3.3V ± 0.3V
Notes:
2. Normal Programming Conditions apply across Ambient Temperature Range for specified programming methods. For more information on programming the
Ultra37000 Family devices, please refer to the Application Note titled “An Introduction to In System Reprogramming with the Ultra37000.”
3. TA is the “Instant On” case temperature.
Document #: 38-03007 Rev. **
Page 14 of 67
Ultra37000™ CPLD Family
5.0V Device Electrical Characteristics Over the Operating Range
Parameter
VOH
Description
Test Conditions
Output HIGH Voltage
Min.
IOH = –3.2 mA (Com’l/Ind)[4]
VCC = Min.
IOH = –2.0 mA (Mil)
VOHZ
VCC = Max. IOH = 0 µA (Com’l)
Output HIGH Voltage with
Output Disabled[5]
[4]
Max.
2.4
V
4.2
V
4.5
V
3.6
V
3.6
V
IOL = 16 mA (Com’l/Ind)
0.5
V
IOL = 12 mA (Mil)[4]
0.5
V
IOH = 0 µA (Ind/Mil)[6]
[6]
IOH = –150 µA (Ind/Mil)
Output LOW Voltage
[6]
[4]
VCC = Min.
Unit
V
[6]
IOH = –100 µA (Com’l)
VOL
Typ.
2.4
VIH
Input HIGH Voltage
Guaranteed Input Logical HIGH Voltage
for all Inputs[7]
2.0
VCCmax
V
VIL
Input LOW Voltage
Guaranteed Input Logical LOW Voltage
for all Inputs[7]
–0.5
0.8
V
IIX
Input Load Current
VI = GND OR VCC, Bus-Hold Disabled
–10
10
µA
IOZ
Output Leakage Current
VO = GND or VCC, Output Disabled,
Bus-Hold Disabled
–50
50
µA
IOS
Output Short Circuit
Current[8, 5]
VCC = Max., VOUT = 0.5V
–30
–160
mA
IBHL
Input Bus-Hold LOW
Sustaining Current
VCC = Min., VIL = 0.8V
+75
µA
IBHH
Input Bus-Hold HIGH
Sustaining Current
VCC = Min., VIH = 2.0V
–75
µA
IBHLO
Input Bus-Hold LOW Overdrive
Current
VCC = Max.
+500
µA
IBHHO
Input Bus-Hold HIGH Overdrive
Current
VCC = Max.
–500
µA
Inductance[5]
Parameter
L
Description
Test
Conditions
Maximum Pin
Inductance
VIN = 5.0V
at f = 1 MHz
44Lead
TQFP
44Lead
PLCC
44Lead
CLCC
84Lead
PLCC
84Lead
CLCC
100Lead
TQFP
160Lead
TQFP
208Lead
PQFP
Unit
2
5
2
8
5
8
9
11
nH
Capacitance[5]
Parameter
Description
Test Conditions
Max.
Unit
CI/O
Input/Output Capacitance
VIN = 5.0V at f = 1 MHz at TA = 25°C
10
pF
CCLK
Clock Signal Capacitance
VIN = 5.0V at f = 1 MHz at TA = 25°C
12
pF
VIN = 5.0V at f = 1 MHz at TA = 25°C
16
pF
CDP
[9]
Dual Function Pins
Endurance Characteristics[5]
Parameter
N
Description
Test Conditions
Min.
Typ.
Unit
Minimum Reprogramming Cycles
Normal Programming Conditions[2]
1,000
10,000
Cycles
Notes:
4. IOH = –2 mA, IOL = 2 mA for TDO.
5. Tested initially and after any design or process changes that may affect these parameters.
6. When the I/O is output disabled, the bus-hold circuit can weakly pull the I/O to above 3.6V if no leakage current is allowed. Note that all I/Os are output disabled
during ISR programming. Refer to the application note “Understanding Bus-Hold” for additional information.
7. These are absolute values with respect to device ground. All overshoots due to system or tester noise are included.
8. Not more than one output should be tested at a time. Duration of the short circuit should not exceed 1 second. VOUT = 0.5V has been chosen to avoid test
problems caused by tester ground degradation.
9. Dual pins are I/O with JTAG pins.
Document #: 38-03007 Rev. **
Page 15 of 67
Ultra37000™ CPLD Family
3.3V Device Characteristics
DC Voltage Applied to Outputs
in High Z State................................................–0.5V to +7.0V
Maximum Ratings
DC Input Voltage ............................................–0.5V to +7.0V
(Above which the useful life may be impaired. For user guidelines, not tested.)
DC Program Voltage ............................................ 3.0 to 3.6V
Storage Temperature ................................. –65°C to +150°C
Static Discharge Voltage ........................................... >2001V
(per MIL-STD-883, Method 3015)
Ambient Temperature with
Power Applied............................................. –55°C to +125°C
Current into Outputs ...................................................... 8 mA
Latch-Up Current..................................................... >200 mA
Supply Voltage to Ground Potential ............... –0.5V to +4.6V
Operating Range[2]
Ambient Temperature[2]
Junction Temperature
VCC
0°C to +70°C
0°C to +90°C
3.3V ± 0.3V
Industrial
–40°C to +85°C
–40°C to +105°C
3.3V ± 0.3V
Military[3]
–55°C to +125°C
–55°C to +130°C
3.3V ± 0.3V
Range
Commercial
3.3V Device Electrical Characteristics Over the Operating Range
Parameter
VOH
Description
Test Conditions
Output HIGH Voltage
Min.
IOH = –4 mA (Com’l)[4]
VCC = Min.
IOH = –3 mA (Mil)
VOL
Output LOW Voltage
Max.
2.4
V
[4]
IOL = 8 mA (Com’l)[4]
VCC = Min.
IOL = 6 mA (Mil)
Unit
0.5
V
[4]
VIH
Input HIGH Voltage
Guaranteed Input Logical HIGH Voltage for
all Inputs[7]
2.0
5.5
V
VIL
Input LOW Voltage
Guaranteed Input Logical LOW Voltage for
all Inputs[7]
–0.5
0.8
V
IIX
Input Load Current
VI = GND OR VCC, Bus-Hold Disabled
–10
10
µA
IOZ
Output Leakage Current
VO = GND or VCC, Output Disabled,
Bus-Hold Disabled
–50
50
µA
IOS
Output Short Circuit Current[8, 5]
VCC = Max., VOUT = 0.5V
–30
–160
mA
IBHL
Input Bus-Hold LOW Sustaining
Current
VCC = Min., VIL = 0.8V
+75
µA
IBHH
Input Bus-Hold HIGH Sustaining
Current
VCC = Min., VIH = 2.0V
–75
µA
IBHLO
Input Bus-Hold LOW Overdrive
Current
VCC = Max.
+500
µA
IBHHO
Input Bus-Hold HIGH Overdrive
Current
VCC = Max.
–500
µA
Inductance[5]
Parameter
L
Description
Test
Conditions
Maximum Pin
Inductance
VIN = 3.3V
at f = 1 MHz
Document #: 38-03007 Rev. **
44Lead
TQFP
44Lead
PLCC
44Lead
CLCC
84Lead
PLCC
84Lead
CLCC
100Lead
TQFP
160Lead
TQFP
208Lead
PQFP
Unit
2
5
2
8
5
8
9
11
nH
Page 16 of 67
Ultra37000™ CPLD Family
Capacitance[5]
Parameter
Description
Test Conditions
Max.
Unit
CI/O
Input/Output Capacitance
VIN = 3.3V at f = 1 MHz at TA = 25°C
8
pF
CCLK
Clock Signal Capacitance
VIN = 3.3V at f = 1 MHz at TA = 25°C
12
pF
VIN = 3.3V at f = 1 MHz at TA = 25°C
16
pF
[9]
CDP
Dual Functional Pins
Endurance Characteristics[5]
Parameter
Description
N
Test Conditions
Minimum Reprogramming Cycles
Normal Programming Conditions
[2]
Min.
Typ.
Unit
1,000
10,000
Cycles
AC Characteristics.
5.0V AC Test Loads and Waveforms
238Ω (COM'L)
319Ω (MIL)
238Ω (COM’L)
319Ω (MIL)
5V
OUTPUT
170Ω (COM’L)
236Ω (MIL)
35 pF
ALL INPUT PULSES
5V
3.0V
OUTPUT
170Ω (COM'L)
GND
236Ω (MIL)
90%
5 pF
90%
10%
10%
<2 ns
INCLUDING
JIG AND
SCOPE
INCLUDING
JIG AND
SCOPE
(a)
<2 ns
(c)
(b)
Equivalent to:
THÉVENIN EQUIVALENT
99Ω (COM’L)
136Ω (MIL) 2.08V (COM'L)
OUTPUT
2.13V (MIL)
5 OR 35 pF
3.3V AC Test Loads and Waveforms
295Ω (COM'L)
393Ω (MIL)
295Ω (COM’L)
393Ω (MIL)
3.3V
3.3V
OUTPUT
340Ω (COM’L)
453Ω (MIL)
35 pF
INCLUDING
JIG AND
SCOPE
Equivalent to:
OUTPUT
90%
OUTPUT
340Ω (COM'L)
GND
453Ω (MIL)
<2 ns
5 pF
INCLUDING
JIG AND
SCOPE
(a)
ALL INPUT PULSES
3.0V
(b)
90%
10%
10%
<2 ns
(c)
THÉVENIN EQUIVALENT
158Ω (COM’L)
270Ω (MIL)
1.77V (COM'L)
1.77V (MIL)
5 OR 35 pF
Document #: 38-03007 Rev. **
Page 17 of 67
Ultra37000™ CPLD Family
Parameter[10]
VX
tER(–)
1.5V
Output Waveform—Measurement Level
VOH
tER(+)
0.5V
VX
0.5V
VOH
0.5V
VOL
1.5V
VX
tEA(–)
VX
2.6V
VOL
tEA(+)
0.5V
Vthe
VX
(d) Test Waveforms
Note:
10. tER measured with 5-pF AC Test Load and tEA measured with 35-pF AC Test Load.
Document #: 38-03007 Rev. **
Page 18 of 67
Ultra37000™ CPLD Family
Switching Characteristics Over the Operating Range[11]
Parameter
Description
Unit
Combinatorial Mode Parameters
tPD[12, 13, 14]
Input to Combinatorial Output
ns
tPDL[12, 13, 14]
Input to Output Through Transparent Input or Output Latch
ns
tPDLL[12, 13, 14]
Input to Output Through Transparent Input and Output Latches
ns
tEA[12, 13, 14]
tER[10, 12]
Input to Output Enable
ns
Input to Output Disable
ns
Input Register Parameters
tWL
Clock or Latch Enable Input LOW Time[8]
ns
tWH
Clock or Latch Enable Input HIGH Time
[8]
ns
tIS
Input Register or Latch Set-Up Time
ns
Input Register or Latch Hold Time
ns
tIH
tICO
[12, 13, 14]
tICOL[12, 13, 14]
Input Register Clock or Latch Enable to Combinatorial Output
ns
Input Register Clock or Latch Enable to Output Through Transparent Output Latch
ns
Synchronous Clocking Parameters
tCO[13, 14]
Synchronous Clock (CLK0, CLK1, CLK2, or CLK3) or Latch Enable to Output
ns
tS[12]
Set-Up Time from Input to Sync. Clk (CLK0, CLK1, CLK2, or CLK3) or Latch Enable
ns
tH
Register or Latch Data Hold Time
ns
tCO2[12, 13, 14]
Output Synchronous Clock (CLK0, CLK1, CLK2, or CLK3) or Latch Enable to Combinatorial Output
Delay (Through Logic Array)
ns
tSCS[12]
Output Synchronous Clock (CLK0, CLK1, CLK2, or CLK3) or Latch Enable to Output Synchronous
Clock (CLK0, CLK1, CLK2, or CLK3) or Latch Enable (Through Logic Array)
ns
tSL[12]
Set-Up Time from Input Through Transparent Latch to Output Register Synchronous Clock (CLK0
CLK1, CLK2, or CLK3) or Latch Enable
ns
tHL
Hold Time for Input Through Transparent Latch from Output Register Synchronous Clock (CLK0,
CLK1, CLK2, or CLK3) or Latch Enable
ns
Product Term Clocking Parameters
tCOPT[12, 13, 14]
Product Term Clock or Latch Enable (PTCLK) to Output
ns
tSPT
Set-Up Time from Input to Product Term Clock or Latch Enable (PTCLK)
ns
Register or Latch Data Hold Time
ns
Set-Up Time for Buried Register used as an Input Register from Input to Product Term Clock or
Latch Enable (PTCLK)
ns
tIHPT
Buried Register Used as an Input Register or Latch Data Hold Time
ns
tCO2PT[12, 13, 14]
Product Term Clock or Latch Enable (PTCLK) to Output Delay (Through Logic Array)
ns
tHPT
tISPT
[12]
Pipelined Mode Parameters
tICS[12]
Input Register Synchronous Clock (CLK0, CLK1, CLK2, or CLK3) to Output Register Synchronous
Clock (CLK0, CLK1, CLK2, or CLK3)
ns
Notes:
11. All AC parameters are measured with two outputs switching and 35-pF AC Test Load.
12. Logic Blocks operating in Low-Power Mode, add tLP to this spec.
13. Outputs using Slow Output Slew Rate, add tSLEW to this spec.
14. When VCCO= 3.3V, add t3.3IO to this spec.
Document #: 38-03007 Rev. **
Page 19 of 67
Ultra37000™ CPLD Family
Switching Characteristics Over the Operating Range[11] (continued)
Parameter
Description
Unit
Operating Frequency Parameters
fMAX1
Maximum Frequency with Internal Feedback (Lesser of 1/tSCS, 1/(tS + tH), or 1/tCO)[5]
MHz
fMAX2
Maximum Frequency Data Path in Output Registered/Latched Mode (Lesser of 1/(tWL + tWH),
1/(tS + tH), or 1/tCO)[5]
MHz
fMAX3
Maximum Frequency with External Feedback (Lesser of 1/(tCO + tS) or 1/(tWL + tWH)[5]
MHz
fMAX4
Maximum Frequency in Pipelined Mode (Lesser of 1/(tCO + tIS), 1/tICS, 1/(tWL + tWH), 1/(tIS + tIH),
or 1/tSCS)[5]
MHz
Reset/Preset Parameters
Asynchronous Reset Width[5]
ns
[12]
Asynchronous Reset Recovery Time[5]
ns
[12, 13, 14]
Asynchronous Reset to Output
ns
tRW
tRR
tRO
[5]
tPW
Asynchronous Preset Width
tPR[12]
Asynchronous Preset Recovery Time[5]
ns
Asynchronous Preset to Output
ns
tPO
[12, 13, 14]
ns
User Option Parameters
tLP
Low Power Adder
tSLEW
Slow Output Slew Rate Adder
t3.3IO
ns
3.3V I/O Mode Timing Adder
ns
[5]
ns
JTAG Timing Parameters
tS JTAG
tH JTAG
tCO JTAG
fJTAG
Set-Up Time from TDI and TMS to TCK[5]
Hold Time on TDI and TMS
Falling Edge of TCK to TDO
ns
[5]
Maximum JTAG Tap Controller Frequency
Document #: 38-03007 Rev. **
ns
[5]
ns
[5]
ns
Page 20 of 67
Ultra37000™ CPLD Family
Switching Characteristics Over the Operating Range[11]
Max.
Min.
Min.
66 MHz
Max.
83 MHz
Max.
Min.
Min.
100 MHz
Max.
125 MHz
Max.
143 MHz
Min.
Max.
154 MHz
Min.
Min.
Max.
167 MHz
Max.
Parameter
Min.
200 MHz
Unit
Combinatorial Mode Parameters
tPD[12, 13, 14]
6
tPDL[12, 13, 14]
tPDLL[12, 13, 14]
tEA[12, 13, 14]
tER[10, 12]
6.5
7.5
8.5
10
12
15
20
ns
11
12.5
14.5
16
16.5
17
19
22
ns
12
13.5
15.5
17
17.5
18
20
24
ns
8
8.5
11
13
14
16
19
24
ns
8
8.5
11
13
14
16
19
24
ns
Input Register Parameters
tWL
2.5
2.5
2.5
2.5
tWH
2.5
2.5
2.5
2.5
tIS
2
2
2
2
tIH
2
2
2
2
2
tICO[12, 13, 14]
tICOL[12, 13, 14]
3
3
4
5
ns
3
3
4
5
ns
2
2.5
3
4
ns
2.5
3
4
ns
11
11
11
12.5
12.5
16
19
24
ns
12
12
12
14
16
18
21
26
ns
4.5
6
10
ns
Synchronous Clocking Parameters
tCO [13, 14]
4
4
6.5[15]
[15]
6.5[16]
[16]
8[17]
[17]
tS[12]
4
4
5
5
5.5
tH
0
0
0
0
0
tCO2[12, 13, 14]
tSCS[12]
tSL[12]
5
6
6.5
7
8[15]
10
12
15
ns
7.5
7.5
8.5
9
10
12
15
15
ns
0
0
0
0
0
0
0
0
ns
tHL
9.5
10
11
12
6
8
0
14
0
16
10
ns
0
ns
19
24
ns
Product Term Clocking Parameters
tCOPT[12, 13, 14]
7
10
10
13
13
13
15
20
ns
tSPT
2.5
2.5
2.5
3
5
5.5
6
7
ns
tHPT
2.5
2.5
2.5
3
5
5.5
6
7
ns
tISPT[12]
0
0
0
0
0
0
0
0
ns
tIHPT
6
tCO2PT[12, 13, 14]
6.5
12
6.5
14
7.5
15
9
19
11
19
14
21
19
24
ns
30
ns
Pipelined Mode Parameters
tICS[12]
5
6
6
7
8[15]
10
12
15
ns
154
143
125[15]
100
83
66
MHz
Operating Frequency Parameters
fMAX1
200
167
[16]
[17]
fMAX2
200
200
200
167
154
153
100
MHz
fMAX3
125
125
105
91
83
80[16]
125
62.5
50
MHz
fMAX4
167
167
154
125
118
100
83
66
MHz
Notes:
15. The following values correspond to the CY37512 and CY37384 devices: tCO = 5 ns, tS = 6.5 ns, tSCS = 8.5 ns, tICS = 8.5 ns, fMAX1 = 118 MHz.
16. The following values correspond to the CY37192V and CY37256V devices: tCO = 6 ns, tS = 7 ns, fMAX2 = 143 MHz, fMAX3 = 77 MHz, and fMAX4 = 100 MHz; and
for the CY37512 devices: tS = 7 ns.
17. The following values correspond to the CY37512V and CY37384V devices: tCO = 6.5 ns, tS = 9.5 ns, and fMAX2 = 105 MHz.
Document #: 38-03007 Rev. **
Page 21 of 67
Ultra37000™ CPLD Family
Switching Characteristics Over the Operating Range[11] (continued)
Max.
Min.
66 MHz
Max.
Min.
Min.
Min.
83 MHz
Max.
100 MHz
Max.
125 MHz
Max.
143 MHz
Min.
Max.
154 MHz
Min.
Max.
167 MHz
Min.
Max.
Parameter
Min.
200 MHz
Unit
Reset/Preset Parameters
tRW
8
tRR[12]
tRO[12, 13, 14]
10
tPW
8
tPR[12]
tPO[12, 13, 14]
10
8
8
10
12
10
13
8
10
10
13
8
10
12
8
12
14
8
10
12
14
15
10
10
15
17
18
12
12
20
22
21
15
14
ns
ns
26
20
17
ns
ns
22
ns
13
13
14
15
18
21
26
ns
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
ns
3
3
3
3
3
3
3
3
ns
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
ns
User Option Parameters
tLP
tSLEW
t3.3IO[18]
JTAG Timing Parameters
tS JTAG
0
tH JTAG
20
0
0
20
0
20
0
20
0
20
0
20
0
20
ns
20
ns
tCO JTAG
20
20
20
20
20
20
20
20
ns
fJTAG
20
20
20
20
20
20
20
20
MHz
Note:
18. Only applicable to the 5V devices.
Document #: 38-03007 Rev. **
Page 22 of 67
Ultra37000™ CPLD Family
Switching Waveforms
Combinatorial Output
INPUT
tPD
COMBINATORIAL
OUTPUT
Registered Output with Synchronous Clocking
INPUT
tS
tH
SYNCHRONOUS
CLOCK
tCO
REGISTERED
OUTPUT
tCO2
REGISTERED
OUTPUT
tWL
tWH
SYNCHRONOUS
CLOCK
Registered Output with Product Term Clocking
Input Going Through the Array
INPUT
tSPT
tHPT
PRODUCT TERM
CLOCK
tCOPT
REGISTERED
OUTPUT
Document #: 38-03007 Rev. **
Page 23 of 67
Ultra37000™ CPLD Family
Switching Waveforms (continued)
Registered Output with Product Term Clocking
Input Coming From Adjacent Buried Register
INPUT
tISPT
tIHPT
PRODUCT TERM
CLOCK
tCO2PT
REGISTERED
OUTPUT
Latched Output
INPUT
tSL
tHL
LATCH ENABLE
tPDL
tCO
LATCHED
OUTPUT
Registered Input
REGISTERED
INPUT
tIS
tIH
INPUT REGISTER
CLOCK
tICO
COMBINATORIAL
OUTPUT
tWH
tWL
CLOCK
Document #: 38-03007 Rev. **
Page 24 of 67
Ultra37000™ CPLD Family
Switching Waveforms (continued)
Clock to Clock
INPUT REGISTER
CLOCK
tICS
tSCS
OUTPUT
REGISTER CLOCK
Latched Input
LATCHED INPUT
tIS
tIH
LATCH ENABLE
tPDL
tICO
COMBINATORIAL
OUTPUT
tWH
tWL
LATCH ENABLE
Latched Input and Output
LATCHED INPUT
tPDLL
LATCHED
OUTPUT
tICOL
tSL
INPUT LATCH
ENABLE
tHL
tICS
OUTPUT LATCH
ENABLE
tWH
tWL
LATCH ENABLE
Document #: 38-03007 Rev. **
Page 25 of 67
Ultra37000™ CPLD Family
Switching Waveforms (continued)
Asynchronous Reset
tRW
INPUT
tRO
REGISTERED
OUTPUT
tRR
CLOCK
Asynchronous Preset
tPW
INPUT
tPO
REGISTERED
OUTPUT
tPR
CLOCK
Output Enable/Disable
INPUT
tER
tEA
OUTPUTS
Document #: 38-03007 Rev. **
Page 26 of 67
Ultra37000™ CPLD Family
Power Consumption
Typical 5.0V Power Consumption
CY37032
60
H ig h S p e e d
50
40
Icc (mA)
Low Power
30
20
10
0
0
50
100
150
200
250
F re q u e n c y (M H z)
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 5.0V, TA = Room Temperature
CY37064
90
80
H igh S p e e d
70
Icc (mA)
60
50
Low Power
40
30
20
10
0
0
20
40
60
80
100
120
140
160
180
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 5.0V, TA = Room Temperature
Document #: 38-03007 Rev. **
Page 27 of 67
Ultra37000™ CPLD Family
Typical 5.0V Power Consumption (continued)
CY37128
160
H ig h S p e e d
140
120
Icc (mA)
100
Low P ower
80
60
40
20
0
0
20
40
60
80
100
120
140
160
180
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 5.0V, TA = Room Temperature
CY37192
300
250
H ig h S p e e d
Icc (mA)
200
Low P ower
150
100
50
0
0
20
40
60
80
100
120
140
160
180
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 5.0V, TA = Room Temperature
Document #: 38-03007 Rev. **
Page 28 of 67
Ultra37000™ CPLD Family
Typical 5.0V Power Consumption (continued)
CY37256
300
H ig h S p e e d
250
200
Icc (mA)
Low P ower
150
100
50
0
0
20
40
60
80
100
120
140
160
180
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 5.0V, TA = Room Temperature
CY37384
50 0
45 0
H ig h S p e e d
40 0
35 0
Icc (mA)
30 0
Low Power
25 0
20 0
15 0
10 0
50
0
0
20
40
60
80
10 0
1 20
14 0
16 0
F re q u e n c y (M H z)
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 5.0V, TA = Room Temperature
Document #: 38-03007 Rev. **
Page 29 of 67
Ultra37000™ CPLD Family
Typical 5.0V Power Consumption (continued)
CY37512
600
H ig h S p e e d
500
Icc (mA)
400
Low P ower
300
200
100
0
0
20
40
60
80
100
120
140
160
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 5.0V, TA = Room Temperature
Typical 3.3V Power Consumption
CY37032V
30
H igh S pe ed
25
Low P owe r
Icc (mA)
20
15
10
5
0
0
20
40
60
80
100
120
140
160
F req u en c y (M H z)
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 3.3V, TA = Room Temperature
Document #: 38-03007 Rev. **
Page 30 of 67
Ultra37000™ CPLD Family
Typical 3.3V Power Consumption (continued)
CY37064V
45
H ig h S p e e d
40
35
Low Power
Icc (mA)
30
25
20
15
10
5
0
0
20
40
60
80
1 00
12 0
14 0
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 3.3V, TA = Room Temperature
CY37128V
80
H ig h S p e e d
70
60
Low P ower
Icc (mA)
50
40
30
20
10
0
0
20
40
60
80
100
120
140
F r e q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 3.3V, TA = Room Temperature
Document #: 38-03007 Rev. **
Page 31 of 67
Ultra37000™ CPLD Family
Typical 3.3V Power Consumption (continued)
CY37192V
120
H ig h S p e e d
100
80
Icc (mA)
Low Power
60
40
20
0
0
20
40
60
80
100
120
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 3.3V, TA = Room Temperature
CY37256V
140
120
H ig h S p e e d
100
Icc (mA)
Low P ow er
80
60
40
20
0
0
20
40
60
80
100
120
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 3.3V, TA = Room Temperature
Document #: 38-03007 Rev. **
Page 32 of 67
Ultra37000™ CPLD Family
Typical 3.3V Power Consumption (continued)
CY37384V
200
180
H ig h S p e e d
160
140
Low Power
Icc (mA)
120
100
80
60
40
20
0
0
10
20
30
40
50
60
70
80
90
F r e q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 3.3V, TA = Room Temperature
CY37512V
250
H ig h S p e e d
200
150
Icc (mA)
Low Power
100
50
0
0
10
20
30
40
50
60
70
80
90
F re q u e n c y (M H z )
The typical pattern is a 16-bit up counter, per logic block, with outputs disabled.
VCC = 3.3V, TA = Room Temperature
Document #: 38-03007 Rev. **
Page 33 of 67
Ultra37000™ CPLD Family
Pin Configurations[19]
44-Pin TQFP (A44)
GND
CLK0/I 1
I/O8
I/O9
I/O10
I/O29
I/O28
I/O31
I/O30
I/O 0
GND
VCCO
I/O1
I/O12
I/O13 /TMS
I/O14
I/O15
I/O11
26
8
9
25
10
24
11
23
12 13 14 15 16 17 18 19 20 21 22
I/O27 /TDI
I/O26
I/O25
I/O24
CLK1/I 4
GND
I3
CLK3/I2
I/O23
I/O22
I/O21
I/O19 /TDO
I/O20
CLK2/I0
JTAGEN
44 43 42 41 40 39 38 37 36 35 34
33
32
2
3
31
4
30
5
29
6
28
27
7
1
VCC
GND
I/O16
I/O17
I/O18
I/O5/TCK
I/O6
I/O 7
I/O2
I/O4
I/O3
Top View
I/O28
I/O29
I/O31
I/O30
I/O 0
GND
VCCO
I/O 1
I/O 2
I/O 4
I/O 3
44-Pin PLCC (J67) / CLCC (Y67)
Top View
6 5 4 3 2 1 44 43 42 41 40
I/O27 /TDI
I/O26
I/O25
I/O24
CLK1/I 4
GND
I3
CLK3/I2
I/O23
I/O22
I/O21
I/O19 /TDO
I/O20
39
38
37
36
35
34
33
32
31
30
29
18 19 20 21 22 23 24 25 26 27 28
VCC
GND
I/O16
I/O17
I/O18
7
8
9
10
11
12
13
14
15
16
17
I/O12
I/O /TMS
13
I/O14
I/O15
I/O 5/TCK
I/O6
I/O7
CLK2/I0
JTAGEN
GND
CLK0/I 1
I/O8
I/O9
I/O10
I/O 11
Note:
19. For 3.3V versions (Ultra37000V), VCCO = VCC.
Document #: 38-03007 Rev. **
Page 34 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
48-Ball Fine-Pitch BGA (BA50)
Top View
Document #: 38-03007 Rev. **
1
2
3
4
5
6
7
8
A
I/O5
TCK
VCC
I/O3
I/O1
I/O31
I/O30
VCC
I/O27
TDI
B
VCC
I/O4
I/O2
I/O0
I/O29
I/O28
I/O26
CLK1/
I4
C
CLK2/
I0
I/O7
I/O6
GND
GND
I/O25
I/O24
I3
D
JTAGEN
I/O8
I/O9
GND
GND
I/O22
I/O23
CLK3/
I2
E
CLK0/
I1
I/O12
I/O11
I/O10
I/O16
I/O20
I/O21
VCC
F
I/O13
TMS
VCC
I/O14
I/O15
I/O17
I/O18
VCC
I/O19
TDO
Page 35 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
84-Lead PLCC (J83) / CLCC (Y84)
I/O 8
12
I/O 9
13
I/O 11
15
I/O 12
16
I/O 13
17
I/O 14
18
I/O 15
19
CLK 0/I 0
20
VCCO
21
75
22
I/O
I/O 55
72
I/O 54 /TDI
71
I/O 53
70
I/O 52
69
I/O 51
68
I/O 50
67
I/O 49
66
I/O 48
65
CLK3/I 4
64
GND
63
VCCO
62
CLK2/I 3
61
I/O 47
60
I/O 46
59
I/O 45
58
I/O 44
57
I/O 43
56
I/O 42
55
I/O 41
54
I/O 40
53
GND
I/O 39
GND
73
38
/TDO
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52
74
I/O
32
37
GND
I/O
31
36
I/O23
35
30
I/O
I/O22
I/O
29
34
I/O21
I/O
28
33
I/O20
32
27
I/O
I/O19
I/O
26
[20]
I/O18
VCC
25
GND
I/O17
VCCO
24
2
I/O16
I
23
I/O 24
CLK1/I 1
56
57
I/O
I/O
I/O
I/O
I/O
1 84 83 82 81 80 79 78 77 76
I/O
58
59
60
61
62
2
I/O
GND
I/O 63
JTAGEN
V CCO
3
4
VCC
1
I/O 0
2
5
I/O
3
6
I/O
4
I/O
6
5
I/O
7
/TMS
26
I/O
27
I/O
28
I/O
29
I/O
30
I/O
31
GND
8
14
I/O 25
I/O10 /TCK
9
I/O
7
11 10
I/O
I/O
GND
Top View
Note:
20. This pin is a N/C, but Cypress recommends that you connect it to VCC to ensure future compatibility.
Document #: 38-03007 Rev. **
Page 36 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
NC
56
GND
57
I/O
59
58
I/O
I/O
I/O
62
61
I/O 60
I/O
I/O 63
I/O
VCC
N/C
GND
NC
2
1
I/O 0
VCCO
I/O
I/O
5
6
7
4
3
I/O
I/O
I/O
I/O
I/O
VCCO
NC
100-Lead TQFP (A100)
Top View
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
1
75
TDI
2
74
VCCO
3
73
I/O 55
4
72
5
71
I/O 53
6
70
I/O 52
I/O 12
7
69
I/O 51
I/O 13
8
68
I/O 50
I/O 14
9
67
TCK
GND
I/O 8
I/O 9
I/O 10
I/O 11
I/O 54
I/O 49
I/O 48
I/O 15
10
66
CLK0 /I 0
11
65
VCCO
12
64
N/C
13
63
GND
CLK 1 /I 1
14
62
15
61
I/O16
16
60
I/ O47
I/O17
17
59
I/O 46
I/O18
18
58
I/O 45
I/O19
19
57
I/O 44
I/O20
20
56
I/O21
21
55
I/O22
22
54
I/O23
23
53
VCCO
24
52
NC
25
51
CLK 3 /I 4
GND
NC
VCCO
CLK 2 /I 3
I/O 43
I/O 42
I/O 41
I/O 40
GND
NC
TDO
VCCO
I/O 39
I/O 36
I/O 37
I/O 38
I/O 34
I/O 35
[20]
GND
VCC
I/O 32
I/O 33
NC
I2
VCCO
I/O 30
I/O 31
I/O 28
I/O 29
I/O 26
I/O 27
I/O 24
I/O 25
TMS
Document #: 38-03007 Rev. **
GND
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
Page 37 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
100-Ball Fine-Pitch BGA (BB100)
for CY37064V
Top View
1
2
3
4
5
6
7
8
9
10
A
NC
NC
I/O7
I/O5
I/O2
I/O62
I/O60
I/O58
I/O57
I/O56
B
I/O9
I/O8
I/O6
I/O4
I/O1
I/O63
VCC
I/O59
I/O55
NC
C
I/O10
TCK
VCC
I/O3
NC
NC
I/O61
VCC
TDI
I/O54
D
I/O11
NC
I/O12
I/O13
I/O0
NC
I/O51
I/O52
CLK3/
I4
I/O53
E
I/O14
CLK0/
I0
I/O15
NC
GND
GND
I/O48
I/O49
CLK2/
I3
I/O50
F
I/O17
NC
NC
I/O16
GND
GND
NC
NC
I2
I/O47
G
I/O22
CLK1/
I1
I/O21
I/O19
I/O18
I/O46
I/O45
I/O44
NC
I/O43
H
I/O23
TMS
VCC
I/O20
NC
I/O32
I/O42
VCC
TDO
I/O41
J
NC
I/O26
I/O28
NC
I/O31
I/O33
I/O35
I/O37
I/O39
I/O40
K
I/O24
I/O25
I/O27
I/O29
I/O30
I/O34
I/O36
I/O38
NC
NC
100-Ball Fine-Pitch BGA (BB100)
for CY37128V
Top View
1
2
3
4
5
6
7
8
9
10
A
NC
I/O9
I/O8
I/O6
I/O3
I/O76
I/O74
I/O72
I/O71
I/O70
B
I/O11
I/O10
I/O7
I/O5
I/O2
I/O77
VCC
I/O73
I/O68
I/O69
C
I/O12
I/O13
TCK
VCC
I/O4
I/O1
I/O78
I/O75
VCC
I/O67
TDI
I/O66
D
I/O14
VCC
I/O15
I/O16
I/O0
I/O79
I/O63
I/O64
CLK3/
I4
I/O65
E
I/O17
CLK0/
I0
I/O18
I/O19
GND
GND
I/O60
I/O61
CLK2/
I3
I/O62
F
I/O22
JTAGEN
I/O21
I/O20
GND
GND
I/O59
I/O58
I2
I/O57
G
I/O27
CLK1/
I1
I/O26
I/O24
I/O23
I/O56
I/O55
I/O54
VCC
I/O53
H
I/O28
I/O33
TMS
VCC
I/O25
I/O39
I/O40
I/O52
VCC
I/O47
TDO
I/O51
J
I/O29
I/O32
I/O35
VCC
I/O38
I/O41
I/O43
I/O45
I/O48
I/O50
K
I/O30
I/O31
I/O34
I/O36
I/O37
I/O42
I/O44
I/O46
I/O49
NC
Document #: 38-03007 Rev. **
Page 38 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
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
VCCO
I/O15
I/O14
I/O13
I/O12
I/O11
I/O10
I/O9
I/O8
GND
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1
I/O0
VCCO
GND
VCC
JTAGEN
I/O127
I/O126
I/O125
I/O124
I/O123
I/O122
I/O121
I/O120
GND
I/O119
I/O118
I/O117
I/O116
I/O115
I/O114
I/O113
I/O112
GND
160-Lead TQFP (A160) / CQFP (U162)
for CY37128(V) and CY37256(V)
Top View
GND
I/O16
I/O17
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
VCCO
I/O111
83
82
81
I/O81
I/O80
GND
I/O110
I/O109
I/O108 /TDI
I/O107
I/O106
I/O105
I/O104
GND
I/O103
I/O102
I/O101
I/O100
I/O99
I/O98
I/O97
I/O96
CLK3/I4
GND
VCCO
CLK2/I3
I/O95
I/O94
I/O93
I/O92
I/O91
I/O90
I/O89
I/O88
GND
I/O87
I/O86
I/O85
I/O84
I/O83
I/O82
GND
I/O48
I/O49
I/O50
I/O51
I/O52/TMS
I/O53
I/O54
I/O55
GND
I/O56
I/O57
I/O58
I/O59
I/O60
I/O61
I/O62
I/O63
I2
VCCO
GND
VCC
I/O64
I/O65
I/O66
I/O67
I/O68
I/O69
I/O70
I/O71
GND
I/O72
I/O73
I/O74
I/O75
I/O76/TDO
I/O77
I/O78
I/O79
VCCO
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
I/O18
I/O19
I/O20/TCK
I/O21
I/O22
I/O23
GND
I/O24
I/O25
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
CLK0/I0
VCCO
GND
CLK1/I1
I/O32
I/O33
I/O34
I/O35
I/O36
I/O37
I/O38
I/O39
GND
I/O40
I/O41
I/O42
I/O43
I/O44
I/O45
I/O46
I/O47
VCCO
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
Document #: 38-03007 Rev. **
Page 39 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
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
VCCO
I/O15
I/O14
I/O13
I/O12
I/O11
I/O10
I/O9
I/O8
GND
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1
I/O0
VCCO
GND
VCC
NC
I/O119
I/O118
I/O117
I/O116
I/O115
I/O114
I/O113
I/O112
GND
I/O111
I/O110
I/O109
I/O108
I/O107
I/O106
I/O105
NC
GND
160-Lead TQFP (A160) for CY37192(V)
Top View
GND
NC
I/O16
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
VCCO
I/O104
83
82
81
I/O75
NC
GND
I/O103
I/O102
TDI
I/O101
I/O100
I/O99
I/O98
GND
I/O97
I/O96
I/O95
I/O94
I/O93
I/O92
I/O91
I/O90
CLK3/I4
GND
VCCO
CLK2/I3
I/O89
I/O88
I/O87
I/O86
I/O85
I/O84
I/O83
I/O82
GND
I/O81
I/O80
I/O79
I/O78
I/O77
I/O76
Document #: 38-03007 Rev. **
TDO
I/O72
I/O73
I/O74
VCCO
TMS
I/O49
I/O50
I/O51
GND
I/O52
I/O53
I/O54
I/O55
I/O56
I/O57
I/O58
I/O59
I2
VCCO
GND
VCC
I/O60
I/O61
I/O62
I/O63
I/O64
I/O65
I/O66
I/O67
GND
I/O68
I/O69
I/O70
I/O71
GND
NC
I/O46
I/O47
I/O48
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
I/O17
I/O18
TCK
I/O19
I/O20
I/O21
GND
I/O22
I/O23
I/O24
I/O25
I/O26
I/O27
I/O28
I/O29
CLK0/I0
VCCO
GND
CLK1/I1
I/O30
I/O31
I/O32
I/O33
I/O34
I/O35
I/O36
I/O37
GND
I/O38
I/O39
I/O40
I/O41
I/O42
I/O43
I/O44
I/O45
VCCO
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
Page 40 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
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
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
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
VCCO
I/O139
I/O138
I/O137
I/O136
I/O135
TDI
I/O134
I/O133
I/O132
I/O131
I/O130
GND
I/O129
I/O128
I/O127
I/O126
I/O125
I/O124
I/O123
I/O122
I/O121
I/O120
CLK3/I4
VCC
GND
VCCO
GND
CLK2/I3
I/O119
I/O118
I/O117
I/O116
I/O115
NC
I/O114
I/O113
I/O112
I/O111
I/O110
GND
I/O109
I/O108
I/O107
I/O106
I/O105
I/O104
I/O103
I/O102
I/O101
I/O100
GND
GND
I/O60
I/O61
I/O62
I/O63
I/O64
TMS
I/O65
I/O66
I/O67
I/O68
I/O69
GND
I/O70
I/O71
I/O72
I/O73
I/O74
NC
I/O75
I/O76
I/O77
I/O78
I/O79
I2
VCC0
GND
VCC
I/O80
I/O81
I/O82
I/O83
I/O84
I/O85
I/O86
I/O87
I/O88
I/O89
GND
I/O90
I/O91
I/O92
I/O93
I/O94
GND
TDO
I/O95
I/O96
I/O97
I/O98
I/O99
VCC0
GND
I/O20
I/O21
I/O22
I/O23
I/O24
TCK
I/O25
I/O26
I/O27
I/O28
I/O29
GND
I/O30
I/O31
I/O32
I/O33
I/O34
NC
I/O35
I/O36
I/O37
I/O38
I/O39
CLK0/I0
VCCO
GND
NC
CLK1/I1
I/O40
I/O41
I/O42
I/O43
I/O44
I/O45
I/O46
I/O47
I/O48
I/O49
GND
I/O50
I/O51
I/O52
I/O53
I/O54
NC
I/O55
I/O56
I/O57
I/O58
I/O59
VCC0
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
VCC
VCC0
I/O19
I/O18
I/O17
I/O16
I/O15
NC
I/O14
I/O13
I/O12
I/O11
I/O10
GND
I/O9
I/O8
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1
I/O0
VCC0
GND
VCC
NC
I/O159
I/O158
I/O157
I/O156
I/O155
NC
I/O154
I/O153
I/O152
I/O151
I/O150
GND
I/O149
I/O148
I/O147
I/O146
I/O145
I/O144
I/O143
I/O142
I/O141
I/O140
NC
GND
208-Lead PQFP (N208) / CQFP (U208)
Top View
Document #: 38-03007 Rev. **
Page 41 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
256-Ball PBGA (BG256)
Top View
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
GND
I/O21
NC
I/O16
I/O12
I/O9
I/O7
I/O4
I/O0
I/O190
I/O189
I/O186
I/O182
NC
I/O178
I/O175
NC
NC
I/O169
I/O168
A
B
I/O23
I/O20
I/O19
I/O18
I/O15
I/O11
I/O8
I/O5
I/O1
I/O191
I/O187
I/O185
I/O181
NC
NC
I/O174
I/O171
I/O170
NC
I/O166
B
C
NC
NC
I/O22
NC
I/O17
I/O14
I/O10
I/O6
I/O2
NC
I/O188
I/O184
I/O180
I/O179
I/O176
I/O173
I/O172
I/O167
I/O165
I/O162
C
D
I/O24
NC
NC
GND
NC
VCCO
I/O13
GND
I/O3
NC
VCC
I/O183
GND
I/O177
VCCO
NC
GND
I/O164
TDI
I/O160
D
E
I/O27
I/O26
I/O25
NC
I/O163
I/O161
I/O159
I/O156
E
F
I/O30
TCK
I/O28
VCCO
VCCO
I/O158
NC
I/O154
F
G
I/O33
I/O32
I/O31
I/O29
I/O157
I/O155
I/O153
I/O152
G
H
I/O35
NC
I/O34
GND
GND
GND
GND
GND
GND
GND
GND
I/O151
I/O150
I/O149
H
J
I/O39
I/O38
I/O37
I/O36
GND
GND
GND
GND
GND
GND
I/O148
I/O147
I/O146
I/O145
J
K
I/O42
I/O40
I/O41
VCC
GND
GND
GND
GND
GND
GND
I/O144 CLK3/I4
NC
NC
K
L
I/O43
I/O44
I/O45
I/O46
GND
GND
GND
GND
GND
GND
VCC
NC
L
M
I/O47
I/O48
GND
GND
GND
GND
GND
GND
I/O139
I/O140
I/O141
I/O142
M
N
I/O49
I/O50
I/O51
GND
GND
GND
GND
GND
GND
GND
GND
I/O136
I/O137
I/O138
N
P
I/O52
I/O53
I/O55
I/O58
I/O131
I/O133
I/O134
I/O135
P
R
I/O54
I/O56
I/O59
VCCO
VCCO
I/O130
NC
I/O132
R
T
I/O57
I/O60
I/O62
I/O65
I/O124
I/O127
I/O128
I/O129
T
U
I/O61
I/O63
I/O66
GND
I/O76
VCCO
I/O82
GND
I/O91
VCC
I/O98
I/O102
GND
I/O112
VCCO
NC
GND
I/O123
I/O122
I/O126
U
V
I/O64
I/O67
I/O69
I/O75
I/O78
I/O81
I/O85
I/O88
I/O92
I2
I/O97
I/O101
I/O105
I/O109
I/O113
TDO
I/O114
I/O117
I/O121
I/O125
V
W
I/O68
I/O70
I/O72
I/O74
I/O79
I/O83
I/O86
I/O89
I/O93
I/O95
I/O96
I/O100
I/O104
I/O107
I/O110
NC
NC
I/O115
I/O118
I/O120
W
Y
I/O71
I/O73
I/O77
TMS
I/O80
I/O84
I/O87
I/O90
I/O94
NC
NC
I/O99
I/O103
I/O106
I/O108
I/O111
NC
NC
I/O116
I/O119
Y
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
CLK0/I0 CLK1/I1
Document #: 38-03007 Rev. **
CLK2/I3 I/O143
Page 42 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
256-Ball Fine-Pitch BGA (BB256)
Top View
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
A
GND
GND
I/O26
I/O24
I/O20
VCC
I/O11
GND
GND
I/O186
VCC
I/O177
I/O172
I/O167
GND
GND
B
GND
I/O27
I/O25
I/O23
I/O19
I/O15
I/O10
GND
GND
I/O185
I/O181
I/O176
I/O171
I/O166
I/O165
GND
C
I/O29
I/O28
NC
I/O22
I/O18
I/O14
I/O9
I/O4
I/O191
I/O184
I/O180
I/O175
I/O170
NC
I/O163
I/O164
D
I/O32
I/O31
I/O30
NC
I/O17
I/O13
I/O8
I/O3
I/O190
I/O183
I/O179
I/O174
I/O169
I/O160
I/O161
I/O162
E
I/O35
I/O34
I/O33
I/O21
I/O16
I/O12
I/O7
I/O2
I/O189
VCC
I/O178
I/O173
I/O168
I/O157
I/O158
I/O159
F
VCC
I/O38
I/O37
I/O36
TCK
VCC
I/O6
I/O1
I/O188
I/O182
VCC
TDI
I/O154
I/O155
I/O156
VCC
G
I/O43
I/O42
I/O41
I/O40
VCC
I/O39
I/O5
I/O0
I/O187
I/O148
I/O149
CLK3
/I4
I/O150
I/O151
I/O152
I/O153
H
GND
GND
I/O47
I/O46
CLK0
/I0
I/O45
I/O44
GND
GND
I/O144
I/O145
CLK2
/I3
I/O146
I/O147
GND
GND
J
GND
GND
I/O51
I/O50
NC
I/O49
I/O48
GND
GND
I/O140
I/O141
I2
I/O142
I/O143
GND
GND
K
I/O57
I/O56
I/O55
I/O54
CLK1
/I1
I/O53
I/O52
I/O91
I/O96
I/O101
I/O135
VCC
I/O136
I/O137
I/O138
I/O139
L
VCC
I/O60
I/O59
I/O58
TMS
VCC
I/O86
I/O92
I/O97
I/O102
VCC
TDO
I/O132
I/O133
I/O134
VCC
M
I/O63
I/O62
I/O61
I/O72
I/O77
I/O82
VCC
I/O93
I/O98
I/O103
I/O108
I/O112
I/O117
I/O129
I/O130
I/O131
N
I/O66
I/O65
I/O64
I/O73
I/O78
I/O83
I/O87
I/O94
I/O99
I/O104
I/O109
I/O113
NC
I/O126
I/O127
I/O128
P
I/O68
I/O67
NC
I/O74
I/O79
I/O84
I/O88
I/O95
I/O100
I/O105
I/O110
I/O114
I/O118
NC
I/O124
I/O125
R
GND
I/O69
I/O70
I/O75
I/O80
I/O85
I/O89
GND
GND
I/O106
I/O111
I/O115
I/O119
I/O121
I/O123
GND
T
GND
GND
I/O71
I/O76
I/O81
VCC
I/O90
GND
GND
I/O107
VCC
I/O116
I/O120
I/O122
GND
GND
Document #: 38-03007 Rev. **
Page 43 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
352-Lead BGA (BG352)
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
A
GND GND I/O19 I/O15 I/O13 I/O34 I/O31 I/O28 I/O25 I/O10
I/O7
I/O4
I/O1 I/O263 I/O260 I/O257 I/O254 I/O239 I/O237 I/O232 I/O229 I/O250 I/O248 I/O244 GND GND
B
GND
I/O18 I/O17 I/O14 I/O35 I/O32 I/O29 I/O26 I/O11
I/O8
I/O5
I/O2
C
I/O23 I/O38 I/O37 I/O16 I/O12 I/O33 I/O30 I/O27 I/O24
I/O9
I/O6
I/O3
I/O0 I/O262 I/O259 I/O256 I/O253 I/O238 I/O235 I/O233 I/O230 I/O251 I/O247 I/O225 I/O224 I/O227
D
I/O39 I/O40 I/O36
NC
NC
GND GND VCCO VCCO GND GND
E
I/O42
NC
F
I/O45 I/O44 I/O43 I/O22
I/O242 I/O219 I/O218 I/O217
G
I/O48 I/O47 I/O46 I/O63
I/O241 I/O216 I/O215 I/O214
H
I/O49 I/O50 I/O51 VCCO
VCCO I/O211 I/O212 I/O213
J
I/O52 I/O53 I/O54 VCCO
VCCO I/O208 I/O209 I/O210
K
I/O55 I/O56 I/O57
L
I0
NC
TCK
I/O41
NC
I/O21 I/O20 VCCO VCCO
NC
VCCO VCCO I/O236 I/O243
NC
NC
NC
NC
NC
I/O59 I/O58 GND
I/O226 I/O222 I/O223
TDI
I/O221 I/O220
I/O205 I/O206 I/O207
GND GND GND GND GND GND
GND I/O204
GND
GND GND GND GND GND GND
GND
I/O197
I/O61 I/O60
N
I/O64
I/O62 VCCO
GND GND GND GND GND GND
VCCO I/O201 I/O200 I/O199
P
I/O65 I/O66 I/O67 VCCO
GND GND GND GND GND GND
VCCO I/O196 VCC I/O198
R
I/O68 I/O69 I/O70 GND
GND GND GND GND GND GND
GND I/O193 I/O194 I/O195
T
I/O71 I/O84 I/O85 GND
GND GND GND GND GND GND
GND I/O178 I/O179 I/O192
U
I/O88 I/O87 I/O86
V
I/O91 I/O90 I/O89 VCCO
VCCO I/O174 I/O173 I/O172
W
I/O94 I/O93 I/O92 VCCO
VCCO I/O171 I/O170 I/O169
Y
I/O95 I/O72 I/O73 I/O110
I/O153 I/O190 I/O191 I/O168
AA
I/O74 I/O75 I/O76 I/O111
I/O152 I/O187 I/O188 I/O189
AB
I/O77 I/O78 I/O79
AC
I/O81 I/O80 I/O108 N/C
NC
NC
N/C
NC
I/O112 I/O113 VCCO VCCO
NC
GND GND VCCO VCCO GND GND
AD I/O109 I/O82 I/O83 I/O117 I/O97 I/O100 I/O102 I/O105 I/O120 I/O123 I/O126 I/O129
NC
I2
NC
VCCO VCCO I/O150 I/O151
NC
I3
I4
M
VCC
I1
VCC I/O261 I/O258 I/O255 I/O252 I/O234 I/O231 I/O228 I/O249 I/O246 I/O245 I/O240 GND
I/O203 I/O202
I/O177 I/O176 I/O175
NC
I/O184 I/O185 I/O186
NC
I/O155 I/O183 I/O182
I/O133 I/O136 I/O139 I/O142 I/O157 I/O159 I/O161 I/O163 I/O166 I/O146 I/O180 I/O181 I/O154
AE
GND
I/O115 I/O116 I/O119 I/O98 I/O101 I/O103 I/O106 I/O121 I/O124 I/O127 VCC I/O130 I/O134 I/O137 I/O140 I/O143 I/O160 I/O162 I/O165 I/O144 I/O147 I/O148
AF
GND GND I/O114 I/O118 I/O96 I/O99 TMS I/O104 I/O107 I/O122 I/O125 I/O128 I/O131 I/O132 I/O135 I/O138 I/O141 I/O156 I/O158 TDO I/O164 I/O167 I/O145 I/O149 GND GND
Document #: 38-03007 Rev. **
NC
GND
Page 44 of 67
Ultra37000™ CPLD Family
Pin Configurations[19] (continued)
400-Ball Fine-Pitch BGA (BB400)
Top View
A
GND
GND
NC
I/O17
I/O16
I/O14
I/O29
VCC
I/O11
GND
GND
I/O257
VCC
I/O239 I/O233
I/O232 I/O230
B
GND
GND
GND
NC
I/O15
I/O13
I/O28
VCC
I/O10
GND
GND
I/O256
VCC
I/O238 I/O231
I/O229
C
NC
GND
GND
GND
I/O20
I/O12
I/O27
VCC
I/O9
GND
GND
I/O255
VCC
I/O237 I/O228
I/O245
D
I/O44
NC
GND
I/O21
I/O19
I/O18
I/O26
I/O25
I/O8
GND
GND
I/O254
I/O235 I/O236 I/O251
E
I/O46
I/O43
I/O23
I/O22
NC
I/O35
I/O34
I/O24
I/O7
I/O4
I/O263 I/O253
I/O234 I/O250 I/O248
F
I/O47
I/O45
I/O42
I/O41
I/O40
NC
I/O33
I/O32
I/O6
I/O3
I/O262 I/O252
G
I/O53
I/O52
I/O51
I/O50
I/O39
I/O38
I/O37
I/O31
I/O5
I/O2
I/O261
H
VCC
VCC
VCC
I/O49
I/O48
I/O36
TCK
VCC
I/O30
I/O1
I/O259 I/O260
VCC
TDI
I/O216
I/O210
J
I/O59
I/O58
I/O57
I/O56
I/O55
I/O54
VCC
I/O62
I/O60
I/O0
I/O258 I/O202
I/O203
CLK3
/I4
I/O204
I/O205 I/O206 I/O207
I/O208 I/O209
K
GND
GND
GND
GND
I/O65
I/O64
CLK0
/I0
I/O63
I/O61
GND
GND
I/O198
I/O199
CLK2
/I3
I/O200
I/O201
GND
GND
GND
GND
L
GND
GND
GND
GND
I/O69
I/O68
NC
I/O67
I/O66
GND
GND
I/O193
I/O195
I2
I/O196
I/O197
GND
GND
GND
GND
M
I/O89
I/O88
I/O87
I/O86
I/O85
I/O84
CLK1
/I1
I/O71
I/O70
I/O126 I/O132 I/O192
I/O194
VCC
I/O174
I/O175 I/O176 I/O177
N
VCC
VCC
VCC
I/O91
I/O90
I/O72
TMS
VCC
I/O128
I/O127 I/O133 I/O162
VCC
TDO
I/O180
I/O168 I/O169
P
I/O95
I/O94
I/O93
I/O92
I/O75
I/O74
I/O73
I/O114
VCC
I/O129 I/O134 I/O137
I/O163 I/O181 I/O182
I/O183 I/O170 I/O171
I/O172 I/O173
R
I/O80
I/O79
I/O78
I/O108
I/O77
I/O76
I/O115
I/O117
I/O120
I/O130 I/O135 I/O138
I/O164 I/O165
I/O184 I/O185 I/O186
I/O189 I/O191
T
I/O82
I/O81
I/O110
I/O109
NC
I/O116
I/O118
I/O102 I/O121
I/O131 I/O136 I/O139
I/O156 I/O166 I/O167
U
I/O83
NC
GND
I/O111
I/O112
I/O119
I/O104 I/O103 I/O122
GND
GND
I/O140
I/O157 I/O158 I/O150
V
NC
GND
GND
GND
I/O113
I/O96
I/O105
VCC
I/O123
GND
GND
I/O141
VCC
I/O159 I/O144 I/O152
W
GND
GND
GND
NC
I/O97
I/O99
I/O106
VCC
I/O124
GND
GND
I/O142
VCC
I/O160 I/O145
I/O147
Y
GND
GND
NC
I/O98
I/O100 I/O101
I/O107
VCC
I/O125
GND
GND
I/O143
VCC
I/O161 I/O146
I/O148 I/O149
Document #: 38-03007 Rev. **
VCC
NC
GND
GND
NC
GND
GND
GND
GND
GND
GND
NC
I/O244 I/O243
GND
NC
I/O227
I/O241 I/O242
I/O225 I/O226
I/O249 I/O247 I/O220
I/O221 I/O240 I/O222
I/O223 I/O224
I/O246 I/O217 I/O218
I/O219 I/O212 I/O213
I/O214 I/O215
NC
NC
NC
I/O211
VCC
VCC
I/O154 I/O155
I/O151 I/O153
VCC
VCC
I/O178 I/O179
VCC
VCC
I/O187 I/O190
GND
NC
I/O188
GND
GND
GND
NC
NC
GND
GND
GND
NC
GND
GND
Page 45 of 67
Ultra37000™ CPLD Family
Ordering Information
CY 37 512 V P400 - 83 BB C
Cypress Semiconductor ID
Family Type
37 = Ultra37000 Family
Macrocell Density
32 = 32 Macrocells
64 = 64 Macrocells
128 = 128 Macrocells
192 = 192 Macrocells
Operating Conditions
Commercial
0°C to +70°C
Industrial
-40°C to +85°C
Military
-55°C to +125°C
256 = 256 Macrocells
384 = 384 Macrocells
512 = 512 Macrocells
Package Type
A = Thin Quad Flat Pack (TQFP)
U = Ceramic Quad Flat Pack (CQFP)
N = Plastic Quad Flat Pack (PQFP)
NT = Thermally Enhanced Plastic Quad Flat Pack
(EQFP)
J = Plastic Leaded Chip Carrier (PLCC)
Y = Ceramic Leaded Chip Carrier (CLCC)
BG = Ball Grid Array (BGA)
BA = Fine-Pitch Ball Grid Array (FBGA)
0.8mm Lead Pitch
BB = Fine-Pitch Ball Grid Array (FBGA)
1.0mm Lead Pitch
Operating Reference Voltage
V = 3.3V Supply Voltage
(5.0V if not specified)
Pin Count
P44 = 44 Leads
P48 = 48 Leads
P84 = 84 Leads
P100 = 100 Leads
P160 = 160 Leads
P208 = 208 Leads
P256 = 256 Leads
P352 = 352 Leads
P400 = 400 Leads
Speed
200 = 200 MHz
167 = 167 MHz
154 = 154 MHz
143 = 143 MHz
125 = 125 MHz
100 = 100 MHz
83 = 83 MHz
66 = 66 MHz
5.0V Ordering Information
Macrocells
Speed
(MHz)
32
200
154
125
Ordering Code
CY37032P44-200AC
Package
Name
Package Type
A44
44-Lead Thin Quad Flat Pack
CY37032P44-200JC
J67
44-Lead Plastic Leaded Chip Carrier
CY37032P44-154AC
A44
44-Lead Thin Quad Flat Pack
CY37032P44-154JC
J67
44-Lead Plastic Leaded Chip Carrier
CY37032P44-154AI
A44
44-Lead Thin Quad Flat Pack
CY37032P44-154JI
J67
44-Lead Plastic Leaded Chip Carrier
CY37032P44-125AC
A44
44-Lead Thin Quad Flat Pack
44-Lead Plastic Leaded Chip Carrier
CY37032P44-125JC
J67
CY37032P44-125AI
A44
44-Lead Thin Quad Flat Pack
CY37032P44-125JI
J67
44-Lead Plastic Leaded Chip Carrier
Document #: 38-03007 Rev. **
Operating
Range
Commercial
Commercial
Industrial
Commercial
Industrial
Page 46 of 67
Ultra37000™ CPLD Family
5.0V Ordering Information (continued)
Macrocells
Speed
(MHz)
64
200
Ordering Code
A44
44-Lead Thin Quad Flat Pack
CY37064P44-200JC
J67
44-Lead Plastic Leaded Chip Carrier
J83
84-Lead Plastic Leaded Chip Carrier
CY37064P100-200AC
A100
100-Lead Thin Quad Flat Pack
CY37064P44-154AC
A44
44-Lead Thin Quad Flat Pack
CY37064P44-154JC
J67
44-Lead Plastic Leaded Chip Carrier
J83
84-Lead Plastic Leaded Chip Carrier
CY37064P84-154JC
CY37064P100-154AC
A100
100-Lead Thin Quad Flat Pack
CY37064P44-154AI
A44
44-Lead Thin Quad Flat Pack
CY37064P44-154JI
J67
44-Lead Plastic Leaded Chip Carrier
J83
84-Lead Plastic Leaded Chip Carrier
CY37064P84-154JI
CY37064P100-154AI
125
128
167
125
A100
Operating
Range
Commercial
Commercial
Industrial
100-Lead Thin Quad Flat Pack
5962-9951902QYA
Y67
44-Lead Ceramic Leadless Chip Carrier
Military
CY37064P44-125AC
A44
44-Lead Thin Quad Flat Pack
Commercial
CY37064P44-125JC
J67
44-Lead Plastic Leaded Chip Carrier
CY37064P84-125JC
J83
84-Lead Plastic Leaded Chip Carrier
CY37064P100-125AC
A100
100-Lead Thin Quad Flat Pack
CY37064P44-125AI
A44
44-Lead Thin Quad Flat Pack
CY37064P44-125JI
J67
44-Lead Plastic Leaded Chip Carrier
CY37064P84-125JI
J83
84-Lead Plastic Leaded Chip Carrier
Industrial
CY37064P100-125AI
A100
100-Lead Thin Quad Flat Pack
5962-9951901QYA
Y67
44-Lead Ceramic Leadless Chip Carrier
Military
84-Lead Plastic Leaded Chip Carrier
Commercial
CY37128P84-167JC
J83
CY37128P100-167AC
A100
CY37128P160-167AC
A160
CY37128P84-125JC
J83
100-Lead Thin Quad Flat Pack
160-Lead Thin Quad Flat Pack
84-Lead Plastic Leaded Chip Carrier
CY37128P100-125AC
A100
100-Lead Thin Quad Flat Pack
CY37128P160-125AC
A160
160-Lead Thin Quad Flat Pack
CY37128P84-125JI
100
Package Type
CY37064P44-200AC
CY37064P84-200JC
154
Package
Name
J83
84-Lead Plastic Leaded Chip Carrier
Commercial
Industrial
CY37128P100-125AI
A100
CY37128P160-125AI
A160
160-Lead Thin Quad Flat Pack
5962-9952102QYA
Y84
84-Lead Ceramic Leaded Chip Carrier
Military
J83
84-Lead Plastic Leaded Chip Carrier
Commercial
CY37128P84-100JC
100-Lead Thin Quad Flat Pack
CY37128P100-100AC
A100
100-Lead Thin Quad Flat Pack
CY37128P160-100AC
A160
160-Lead Thin Quad Flat Pack
CY37128P84-100JI
J83
84-Lead Plastic Leaded Chip Carrier
CY37128P100-100AI
A100
100-Lead Thin Quad Flat Pack
CY37128P160-100AI
A160
160-Lead Thin Quad Flat Pack
5962-9952101QYA
Y84
84-Lead Ceramic Leaded Chip Carrier
Document #: 38-03007 Rev. **
Industrial
Military
Page 47 of 67
Ultra37000™ CPLD Family
5.0V Ordering Information (continued)
Macrocells
Speed
(MHz)
192
154
CY37192P160-154AC
A160
160-Lead Thin Quad Flat Pack
Commercial
125
CY37192P160-125AC
A160
160-Lead Thin Quad Flat Pack
Commercial
CY37192P160-125AI
A160
160-Lead Thin Quad Flat Pack
Industrial
83
CY37192P160-83AC
A160
160-Lead Thin Quad Flat Pack
Commercial
CY37192P160-83AI
A160
160-Lead Thin Quad Flat Pack
Industrial
154
CY37256P160-154AC
A160
160-Lead Thin Quad Flat Pack
Commercial
256
Ordering Code
CY37256P208-154NC
CY37256P256-154BGC
125
A160
160-Lead Thin Quad Flat Pack
208-Lead Plastic Quad Flat Pack
CY37256P208-125NI
CY37256P256-125BGI
N208
BG256
256-Lead Ball Grid Array
160-Lead Thin Quad Flat Pack
Industrial
208-Lead Plastic Quad Flat Pack
256-Lead Ball Grid Array
U162
160-Lead Ceramic Quad Flat Pack
Military
CY37256P160-83AC
A160
160-Lead Thin Quad Flat Pack
Commercial
CY37256P208-83NC
N208
BG256
208-Lead Plastic Quad Flat Pack
256-Lead Ball Grid Array
CY37256P160-83AI
A160
160-Lead Thin Quad Flat Pack
CY37256P208-83NI
N208
208-Lead Plastic Quad Flat Pack
CY37256P256-83BGI
5962-9952301QZC
CY37384P208-125NC
CY37384P256-125BGC
83
A160
Commercial
5962-9952302QZC
CY37256P256-83BGC
125
208-Lead Plastic Quad Flat Pack
N208
BG256
Operating
Range
256-Lead Ball Grid Array
CY37256P208-125NC
CY37256P160-125AI
384
N208
BG256
Package Type
CY37256P160-125AC
CY37256P256-125BGC
83
Package
Name
CY37384P208-83NC
CY37384P256-83BGC
CY37384P208-83NI
CY37384P256-83BGI
Document #: 38-03007 Rev. **
BG256
U162
N208
BG256
N208
BG256
N208
BG256
Industrial
256-Lead Ball Grid Array
160-Lead Ceramic Quad Flat Pack
Military
208-Lead Plastic Quad Flat Pack
Commercial
256-Lead Ball Grid Array
208-Lead Plastic Quad Flat Pack
Commercial
256-Lead Ball Grid Array
208-Lead Plastic Quad Flat Pack
Industrial
256-Lead Ball Grid Array
Page 48 of 67
Ultra37000™ CPLD Family
5.0V Ordering Information (continued)
Macrocells
Speed
(MHz)
512
125
100
Ordering Code
CY37512P208-125NC
N208
Package Type
208-Lead Plastic Quad Flat Pack
CY37512P256-125BGC
BG256
256-Lead Ball Grid Array
CY37512P352-125BGC
BG352
352-Lead Ball Grid Array
CY37512P208-100NC
N208
208-Lead Plastic Quad Flat Pack
CY37512P256-100BGC
BG256
256-Lead Ball Grid Array
CY37512P352-100BGC
BG352
352-Lead Ball Grid Array
CY37512P208-100NI
N208
CY37512P256-100BGI
BG256
CY37512P352-100BGI
BG352
5962-9952502QZC
83
Package
Name
CY37512P208-83NC
U208
N208
208-Lead Plastic Quad Flat Pack
Military
208-Lead Plastic Quad Flat Pack
Commercial
CY37512P352-83BGC
BG352
352-Lead Ball Grid Array
208-Lead Plastic Quad Flat Pack
CY37512P256-83BGI
BG256
256-Lead Ball Grid Array
CY37512P352-83BGI
BG352
352-Lead Ball Grid Array
U208
Industrial
352-Lead Ball Grid Array
256-Lead Ball Grid Array
5962-9952501QZC
Commercial
208-Lead Ceramic Quad Flat Pack
BG256
N208
Commercial
256-Lead Ball Grid Array
CY37512P256-83BGC
CY37512P208-83NI
Operating
Range
208-Lead Ceramic Quad Flat Pack
Industrial
Military
3.3V Ordering Information
Macrocells
Speed
(MHz)
32
143
Ordering Code
Package Type
Operating
Range
Commercial
CY37032VP44-143AC
A44
44-Lead Thin Quad Flat Pack
CY37032VP44-143JC
J67
44-Lead Plastic Leaded Chip Carrier
CY37032VP48-143BAC
100
Package
Name
CY37032VP44-100AC
CY37032VP44-100JC
CY37032VP48-100BAC
BA50
48-Lead Fine Pitch Ball Grid Array
A44
44-Lead Thin Quad Flat Pack
J67
44-Lead Plastic Leaded Chip Carrier
BA50
48-Lead Fine Pitch Ball Grid Array
CY37032VP44-100AI
A44
44-Lead Thin Quad Flat Pack
CY37032VP44-100JI
J67
44-Lead Plastic Leaded Chip Carrier
CY37032VP48-100BAI
Document #: 38-03007 Rev. **
BA50
Commercial
Industrial
48-Lead Fine Pitch Ball Grid Array
Page 49 of 67
Ultra37000™ CPLD Family
3.3V Ordering Information (continued)
Macrocells
Speed
(MHz)
64
143
Ordering Code
A44
44-Lead Thin Quad Flatpack
CY37064VP44-143JC
J67
44-Lead Plastic Leaded Chip Carrier
CY37064VP84-143JC
CY37064VP100-143AC
CY37064VP100-143BBC
100-Lead Thin Quad Flatpack
100-Lead Fine-Pitch Ball Grid Array
44-Lead Thin Quad Flatpack
44-Lead Plastic Leaded Chip Carrier
BA50
J83
A100
BB100
84-Lead Plastic Leaded Chip Carrier
100-Lead Thin Quad Flatpack
100-Lead Fine-Pitch Ball Grid Array
A44
44-Lead Thin Quad Flatpack
CY37064VP44-100JI
J67
44-Lead Plastic Leaded Chip Carrier
CY37064VP84-100JI
CY37064VP100-100BBI
BA50
Commercial
48-Lead Fine-Pitch Ball Grid Array
CY37064VP44-100AI
CY37064VP48-100BAI
Commercial
84-Lead Plastic Leaded Chip Carrier
J67
CY37064VP100-100BBC
Industrial
48-Lead Fine-Pitch Ball Grid Array
J83
84-Lead Plastic Leaded Chip Carrier
BB100
100-Lead Fine-Pitch Ball Grid Array
CY37064VP100-100AI
A100
100-Lead Thin Quad Flatpack
5962-9952001QYA
Y67
44-Lead Ceramic Leaded Chip Carrier
Military
CY37128VP84-125JC
J83
84-Lead Plastic Leaded Chip Carrier
Commercial
CY37128VP100-125AC
CY37128VP100-125BBC
CY37128VP160-125AC
CY37128VP84-83JC
CY37128VP100-83AC
CY37128VP100-83BBC
CY37128VP160-83AC
CY37128VP84-83JI
CY37128VP100-83AI
CY37128VP100-83BBI
192
A100
BB100
Operating
Range
48-Lead Fine-Pitch Ball Grid Array
A44
CY37064VP100-100AC
83
J83
CY37064VP44-100JC
CY37064VP84-100JC
125
BA50
CY37064VP44-100AC
CY37064VP48-100BAC
128
Package Type
CY37064VP44-143AC
CY37064VP48-143BAC
100
Package
Name
A100
BB100
A160
J83
A100
BB100
A160
J83
A100
BB100
100-Lead Thin Quad Flat Pack
100-Lead Fine-Pitch Ball Grid Array
160-Lead Thin Quad Flat Pack
84-Lead Plastic Leaded Chip Carrier
Commercial
100-Lead Thin Quad Flat Pack
100-Lead Fine-Pitch Ball Grid Array
160-Lead Thin Quad Flat Pack
84-Lead Plastic Leaded Chip Carrier
Industrial
100-Lead Thin Quad Flat Pack
100-Lead Fine-Pitch Ball Grid Array
CY37128VP160-83AI
A160
160-Lead Thin Quad Flat Pack
5962-9952201QYA
Y84
84-Lead Ceramic Leaded Chip Carrier
Military
100
CY37192VP160-100AC
A160
160-Lead Thin Quad Flat Pack
Commercial
66
CY37192VP160-66AC
A160
160-Lead Thin Quad Flat Pack
Commercial
CY37192VP160-66AI
A160
160-Lead Thin Quad Flat Pack
Industrial
Document #: 38-03007 Rev. **
Page 50 of 67
Ultra37000™ CPLD Family
3.3V Ordering Information (continued)
Macrocells
Speed
(MHz)
256
100
66
Ordering Code
A160
160-Lead Thin Quad Flat Pack
CY37256VP208-100NC
N208
208-Lead Plastic Quad Flat Pack
CY37256VP256-100BGC
BG256
256-Lead Ball Grid Array
CY37256VP256-100BBC
BB256
256-Lead Fine-Pitch Ball Grid Array
CY37256VP160-66AC
A160
160-Lead Thin Quad Flat Pack
CY37256VP208-66NC
N208
208-Lead Plastic Quad Flat Pack
CY37256VP256-66BGC
BG256
256-Lead Ball Grid Array
CY37256VP256-66BBC
BB256
256-Lead Fine-Pitch Ball Grid Array
BB256
256-Lead Fine-Pitch Ball Grid Array
U162
160-Lead Ceramic Quad Flat Pack
Military
208-Lead Plastic Quad Flat Pack
Commercial
CY37384VP208-83NC
CY37384VP208-66NC
CY37384VP256-66BGI
66
Industrial
CY37256VP256-66BBI
CY37384VP208-66NI
83
Commercial
256-Lead Ball Grid Array
CY37384VP256-66BGC
512
160-Lead Thin Quad Flat Pack
Commercial
BG256
CY37384VP256-83BGC
66
A160
Operating
Range
CY37256VP256-66BGI
5962-9952401QZC
83
Package Type
CY37256VP160-100AC
CY37256VP160-66AI
384
Package
Name
CY37512VP208-83NC
N208
BG256
N208
BG256
N208
BG256
N208
256-Lead Ball Grid Array
208-Lead Plastic Quad Flat Pack
208-Lead Plastic Quad Flat Pack
208-Lead Plastic Quad Flat Pack
BG256
256-Lead Ball Grid Array
CY37512VP352-83BGC
BG352
352-Lead Ball Grid Array
CY37512VP400-83BBC
BB400
400-Lead Fine-Pitch Ball Grid Array
N208
208-Lead Plastic Quad Flat Pack
CY37512VP256-66BGC
BG256
256-Lead Ball Grid Array
CY37512VP352-66BGC
BG352
352-Lead Ball Grid Array
CY37512VP400-66BBC
BB400
400-Lead Fine-Pitch Ball Grid Array
CY37512VP208-66NI
N208
Industrial
256-Lead Ball Grid Array
CY37512VP256-83BGC
CY37512VP208-66NC
Commercial
256-Lead Ball Grid Array
208-Lead Plastic Quad Flat Pack
CY37512VP256-66BGI
BG256
256-Lead Ball Grid Array
CY37512VP352-66BGI
BG352
352-Lead Ball Grid Array
CY37512VP400-66BBI
BB400
400-Lead Fine-Pitch Ball Grid Array
5962-9952601QZC
U208
208-Lead Ceramic Quad Flat Pack
Commercial
Commercial
Industrial
Military
In-System Reprogrammable, ISR, Ultra37000, Warp, Warp Professional, and Warp Enterprise are trademarks of
Cypress Semiconductor Corporation.
ViewDraw and SpeedWave are trademarks of ViewLogic.
Windows is a registered trademark of Microsoft Corporation.
Document #: 38-03007 Rev. **
Page 51 of 67
Ultra37000™ CPLD Family
Package Diagrams
44-Lead Thin Plastic Quad Flat Pack A44
51-85064-B
44-Lead Plastic Leaded Chip Carrier J67
51-85003-A
Document #: 38-03007 Rev. **
Page 52 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
44-Pin Ceramic Leaded Chip Carrier Y67
51-80014
Document #: 38-03007 Rev. **
Page 53 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
48-Ball (7.0 mm x 7.0 mm x 1.1 mm, 0.80 pitch) Thin BGA BA50
51-85109-A
Document #: 38-03007 Rev. **
Page 54 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
84-Lead Plastic Leaded Chip Carrier J83
51-85006-A
Document #: 38-03007 Rev. **
Page 55 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
84-Pin Ceramic Leaded Chip Carrier Y84
51-80095-A
Document #: 38-03007 Rev. **
Page 56 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
100-Pin Thin Plastic Quad Flat Pack (TQFP) A100
51-85048-B
Document #: 38-03007 Rev. **
Page 57 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
100-Ball Thin Ball Grid Array (11 x 11 x 1.4 mm) BB100
51-85107
Document #: 38-03007 Rev. **
Page 58 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
160-Pin Thin Plastic Quad Flat Pack (TQFP) A160
51-85049-A
Document #: 38-03007 Rev. **
Page 59 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
160-Lead Ceramic Quad Flatpack (Cavity Up) U162
51-80106
Document #: 38-03007 Rev. **
Page 60 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
208-Lead Plastic Quad Flatpack N208
51-85069-B
Document #: 38-03007 Rev. **
Page 61 of 67
Ultra37000™ CPLD Family
Package Diagrams (continued)
208-Lead Ceramic Quad Flatpack (Cavity Up) U208
51-80105
Document #: 38-03007 Rev. **
Page 62 of 67
51-85097
51-85108-A
51-85103
51-85111-A
**
106272
04/18/01
SZV
Change from Spec number: 38-00475 to 38-03007