Microsemi AFS1500 Terrestrial fpga and soc product catalog Datasheet

Terrestrial FPGA and SoC
Product Catalog
October 2011
Power Matters.
The leader in customizable System-on-Chip devices
and FPGAs for sense and control applications
where reliability, security, and power matter.
www.microsemi.com/soc
Now, more than ever, power matters.
Whether you’re designing at the board or system level, Microsemi’s customizable System-on-Chip (cSoC) devices and low
power FPGAs are your best choice. The unique, flash-based technology of Microsemi FPGAs, coupled with their history of reliability,
sets them apart from traditional FPGAs.
Design for today’s rapidly growing markets of consumer and portable medical devices, or tomorrow’s environmentally friendly data
centers, industrial controls and military and commercial aircraft. Only Microsemi can meet the power, size, cost and reliability targets
that reduce time-to-market and enable long-term profitability.
Table of Contents
SmartFusion®
• Customizable System-on-Chip (cSoC)
4
Fusion
• Mixed Signal FPGAs
5
Extended Temperature Fusion
• Mixed Signal Integration Down to –55ºC
• Reprogrammable Digital Logic and Configurable Analog
• Embedded Flash Memory
6
IGLOO®/e
• Low Power
• Small Package Footprint
• High Logic Density
7
IGLOO nano
• Low Power
• Small Package Footprint
8
IGLOO PLUS
• Low Power
• Small Package Footprint
• High I/O-to-Logic Ratio
9
ProASIC®3/E
• High Logic Density
• High Performance
• Low Cost
10
ProASIC3 nano
• Small Package Footprint
• High Performance
• Low Cost
11
ProASIC3L
•
•
•
•
12
Military ProASIC3/EL
• Unprecedented Low Power Consumption Across
the Full Military Temperature Range
• High-Density Fine-Pitch Ball Grid Packaging
• High Performance and Easy In-System Programming
13
Military ProASICPLUS®
• Industry’s First Military Screened Flash FPGA
• Full Processing to MIL-STD-883 Class B
• Established Heritage on Commercial and Military Aircraft
13
I/O Table
• I/O Counts
14
FPGA Packages
• Package Dimensions
16
Low Power
High Logic Density
High Performance
Low Cost
Axcelerator®
18
SX-A
19
MX
20
Design Tools
• Design Environment for Microsemi Flash Devices
21
Development Kits
• Starter, Evaluation and Demonstration Kits
22
Programmers
• FlashPro3 and Silicon Sculptor 3 Programmers
26
Intellectual Property Cores
• Microsemi IP Cores
27
Please refer to www.microsemi.com/soc and appropriate product datasheets for the latest device information, valid ordering codes and more
information regarding previous generations of flash and antifuse FPGAs.
www.microsemi.com/soc
3
SmartFusion
The customizable system-on-chip (cSoC) device
SmartFusion cSoCs are the only devices that integrate FPGA fabric, an ARM® Cortex™-M3 processor and programmable analog, offering full customization, IP
protection and ease-of-use. Based on Microsemi’s proprietary flash process, SmartFusion cSoCs are ideal for hardware and embedded designers who need a true
system-on-chip that gives more flexibility than traditional fixed-function microcontrollers without the excessive cost of soft processor cores on traditional FPGAs.
• Available in commercial, industrial
and military* grades
• Hard 100 MHz 32-bit ARM
Cortex-M3 CPU
• 10/100 Ethernet MAC
• 8-channel DMA controller
• Two peripherals of each type:
SPI, I 2 C, UART, and 32-bit timers
• Integrated analog-to-digital
converters (ADCs) and digitalto-analog converters (DACs)
with 1 percent accuracy
• Up to 512 KB flash and
64 KB SRAM
• Multi-layer AHB communications
matrix with up to 16 Gbps throughput
• On-chip voltage, current and
temperature monitors
• External memory controller (EMC)
• Up to ten 15 ns high-speed
comparators
• Analog compute engine (ACE)
offloads CPU from analog
processing
• Up to 35 analog I/Os and
169 digital GPIOs
* Under development
SmartFusion Devices
SmartFusion Devices
FPGA Fabric
A2F060
A2F200
A2F500
System Gates
60,000
200,000
500,000
Tiles (D-flip-flops)
1,536
4,608
11,520
8
8
24
Flash (Kbytes)
128
256
512
SRAM (Kbytes)
16
64
64
Cortex-M3 with
Memory Protection Unit (MPU)
Yes
Yes
Yes
RAM Blocks (4,608 bits)
10/100 Ethernet MAC
No
Yes
Yes
24-bit address, 16-bit data
24-bit address, 16-bit data
24-bit address, 16-bit data1
8 Ch
8 Ch
8 Ch
2
2
2
SPI
2
2
2
16550 UART
2
2
2
32-Bit Timer
2
2
2
PLL
1
1
22
32 KHz Low Power Oscillator
1
1
1
100 MHz On-Chip RC Oscillator
1
1
1
Main Oscillator (32 KHz to 20 MHz)
1
1
1
ADCs (8-/10-/12-bit SAR)
1
2
34
DACs (12-bit sigma-delta)
1
2
34
Signal Conditioning Blocks (SCBs)
1
4
54
Comparators3
2
8
104
1
4
54
Temperature Monitors
1
4
54
Bipolar High Voltage Monitors3
2
8
104
External Memory Controller (EMC)
Sma rtFusion
Microcontroller
Subsystem (MSS)
Programmable
Analog
DMA
I2C
Current Monitors3
3
Notes:
1. Not available on A2F500 for the PQ208 package.
2. Two PLLs are available in CS288 and FG484 (one PLL in FG256 and PQ208).
3. These functions share I/O pins and may not all be available at the same time.
4. Available on FG484 only. PQ208, FG256, and CS288 packages offer the same programmable analog capabilities as A2F200.
Package I/Os: MSS + FPGA I/Os
Device
A2F060
A2F200
A2F500
TQ144
CS288
FG256
PQ208
CS288
FG256
FG484
PQ208
CS288
FG256
Direct Analog Input
11
11
11
8
8
8
8
8
8
8
12
Shared Analog Input1
4
4
4
16
16
16
16
16
16
16
20
Total Analog Input
15
15
15
24
24
24
24
24
24
24
32
Total Analog Output
1
1
1
1
2
2
2
1
2
2
3
MSS I/Os2,3
214
284
264
22
31
25
41
22
31
25
41
FPGA I/Os
33
68
66
66
78
66
94
665
78
66
128
Total I/Os
70
112
108
113
135
117
161
113
135
117
204
Notes:
1. These pins are shared between direct analog inputs to the ADCs and voltage/current/temperature monitors.
2. 16 MSS I/Os are multiplexed and can be used as FPGA I/Os, if not needed for the MSS. These I/Os support Schmitt triggers and support only LVTTL and LVCMOS (1.5 / 1.8 / 2.5, 3.3 V) standards.
3. 9 MSS I/Os are primarily for 10/00 Ethernet MAC and are also multiplexed and can be used as FPGA I/Os if Ethernet MAC is not used in a design. These I/Os support Schmitt triggers and support only LVTTL and LVCMOS
(1.5 / 1.8 / 2.5, 3.3 V) standards.
4. 10/100 Ethernet MAC is not available on A2F060.
5. EMC is not available on the A2F500 PQ208 package.
4
www.microsemi.com/soc
FG484
Fusion
The world’s first mixed signal FPGA
Fusion FPGAs integrate configurable analog, large flash memory blocks, comprehensive clock generation and management circuitry and high-performance,
flash-based programmable logic in a monolithic device. The Fusion architecture can be used with soft microcontroller cores, such as the performance-optimized
ARM Cortex-M1, 8051s or Microsemi’s own CoreABC, the smallest soft microcontroller for FPGAs.
• Integrated A/D converter (ADC)
with 8-, 10- and 12-bit
resolution and 30 scalable
analog input channels
• ADC accuracy better than
1 percent
• On-chip voltage, current and
temperature monitors
• In-system configurable
analog supports a wide
variety of applications
• Up to 1 MB of user flash memory
• Extensive clocking resources
• Crystal oscillator circuit
• Ultra-low power
• Real-time counter (RTC)
• Configuration memory error
immune
• Flash FPGA fabric
• Clock management
• Reprogrammable
• Advanced I/O standards
• Live at power-up
• Analog PLLs
• 1 percent RC oscillator
• User nonvolatile FlashROM
• Maximum design security
Fusion Devices
Fusion Devices
AFS090
Cortex-M1 Devices
AFS250
M1AFS250
AFS600
AFS1500
M1AFS600
M1AFS1500
Pigeon Point Devices
P1AFS6002
P1AFS15002
MicroBlade Devices
U1AFS6003
1
General
Information
System Gates
90,000
250,000
600,000
1,500,000
Tiles (D–flip–flops)
2,304
6,144
13,824
38,400
AES-protected ISP
Yes
Yes
Yes
Yes
PLLs
1
1
2
2
Globals
18
18
18
18
Flash Memory Blocks (2 Mbits)
Total Flash Memory Bits
Memory
1
2
4
2M
4M
8M
1,024
1,024
1,024
1,024
RAM Blocks (4,608 bits)
6
8
24
60
FlashROM Bits
RAM (Kbits)
27
36
108
270
Analog Quads
5
6
10
10
Analog Input Channels
15
18
30
30
Gate Driver Outputs
5
6
10
10
I/O Banks (+ JTAG)
4
4
5
5
Maximum Digital I/Os
75
114
172
252
Analog I/Os
20
24
40
40
Fusion
Analog and I/Os
1
2M
Notes:
1. Refer to the Cortex-M1 product brief for more information.
2. Pigeon Point devices only offered in FG484 and FG256 packages.
3. MicroBlade devices only offered in FG256 package.
Package I/Os: Single-/Double-Ended (Analog)
Fusion Mixed Signal FPGAs
AFS090
AFS250
AFS600
AFS1500
M1AFS250
M1AFS600
M1AFS1500
Pigeon Point Devices
P1AFS6001
P1AFS15001
MicroBlade Devices
U1AFS600
Cortex-M1 Devices
2
QN1083
37/9 (16)
—
—
—
QN1803
60/16 (20)
65/15 (24)
—
—
PQ2084
—
93/26 (24)
95/46 (40)
—
FG2565
75/22 (20)
114/37 (24)
119/58 (40)
119/58 (40)
FG4845
—
—
172/86 (40)
223/109 (40)
FG676
—
—
—
252/126 (40)
5
Notes:
1. Pigeon Point devices only offered in FG484 and FG256 packages.
2. MicroBlade devices only offered in FG256 package.
3. These packages are available only as RoHS-compliant (QNG package specifier).
4. AFS250 and AFS600 PQ208 devices are not pin-compatible.
5. Available in RoHS-compliant and standard leaded packages.
www.microsemi.com/soc
5
Extended Temperature Fusion
Mixed signal integration at extended temperatures
Microsemi Fusion mixed signal FPGAs integrate configurable analog, large flash memory blocks, comprehensive clock generation and management circuitry and
high-performance, flash-based reprogrammable logic in a monolithic device. Innovative Fusion architecture can be used with Microsemi’s soft microcontroller (MCU)
core as well as the performance-maximized 32-bit ARM Cortex-M1 cores. Extended temperature Fusion devices operate at temperatures from 100ºC to as low
as -55ºC.
Extended Temperature Fusion Devices
Extended Temperature Fusion Devices
Cortex-M1 Devices
AFS1500
M1AFS1500
System Gates
600,000
1,500,000
Tiles (D–flip–flops)
13,824
38,400
AES-Protected ISP
Yes
Yes
PLLs
2
2
Globals
18
18
Flash Memory Blocks (2 Mbits)
Total Flash Memory Bits
FlashROM Bits
2
4
4M
8M
1,024
1,024
RAM Blocks (4,608 bits)
24
60
RAM (kbits)
108
270
Analog Quads
10
10
Analog Input Channels
30
30
Gate Driver Outputs
10
10
I/O Banks (+ JTAG)
5
5
Maximum Digital I/Os
172
223
Analog I/Os
40
40
FG256, FG484
FG256, FG484
E x tende d Te mpe ra ture Fusion
Package Pins
FG
6
AFS600
M1AFS600
www.microsemi.com/soc
IGLOO/e
The ultra low power programmable solution
The IGLOO family of reprogrammable, full-featured flash FPGAs is designed to meet the demanding power, area and cost requirements of today’s portable
electronics. Based on nonvolatile flash technology, the 1.2 V to 1.5 V operating voltage family offers the industry’s lowest power consumption—as low as 5 µW.
The IGLOO family supports up to 3,000,000 system gates with up to 504 Kbits of true dual-port SRAM, up to 6 embedded PLLs and up to 620 user I/Os.
Low power applications that require 32-bit processing can use the ARM Cortex-M1 processor without license fee or royalties in M1 IGLOO devices. Developed
specifically for implementation in FPGAs, Cortex-M1 offers an optimal balance between performance and size to minimize power consumption.
• Ultra low power FPGAs
• 1.2 V core and I/O voltage
• Reprogrammable
• Flash*Freeze technology for
lowest power consumption
• 5 µW Flash*Freeze mode
• Live at power-up
• AES-protected in-system
programming (ISP)
• User nonvolatile FlashROM
IGLOO/e Devices
IGLOO Devices
AGL030
AGL060
AGL125
AGL250
AGL400
M1AGL250
Cortex-M1 Devices1
AGL600
AGL1000
M1AGL600
M1AGL1000
AGLE600
AGLE3000
M1AGLE3000
30,000
60,000
125,000
250,000
400,000
600,000
1,000,000
600,000
3,000,000
Typical Equivalent
Macrocells
256
512
1,024
2,048
—
—
—
—
—
VersaTiles (D-flip-flops)
System Gates
768
1,536
3,072
6,144
9,216
13,824
24,576
13,824
75,264
Flash*Freeze Mode
(typical, µW)
5
10
16
24
32
36
53
49
137
RAM (1,024 bits)
—
18
36
36
54
108
144
108
504
RAM Blocks (4,608 bits)
—
4
8
8
12
24
32
24
112
FlashROM Kbits
(1,024 bits)
1
1
1
1
1
1
1
1
1
Yes
—
Yes
Yes
Yes
Yes
Yes
Yes
Yes
—
1
1
1
1
1
1
6
6
VersaNet Globals3
6
18
18
18
18
18
18
18
18
I/O Banks
2
2
2
4
4
4
4
8
8
81
96
133
143
194
235
300
270
620
UC81
CS81
CS121
CS81
CS196 4
QN132 4
CS196
CS281
CS281
QN132
CS81
CS196
QN132
VQ100
FG144 5
VQ100
FG144
VQ100
FG144
FG144
FG256
FG484
FG144
FG256
FG484
FG144
FG256
FG484
FG256
FG484
FG484
FG896
Maximum User I/Os
(packaged device)
Package Pins
UC
CS
QN48
QN68
QN132
VQ100
QN
VQ
FG
IGLOO
AES-Protected ISP1
Integrated PLLs with CCC2
Notes:
1. AES is not available for Cortex-M1 IGLOO devices.
2. AGL060 in CS121 does not support the PLL.
3. Six chip (main) and twelve quadrant global networks are available for AGL060 devices and above.
4. The M1AGL250 device does not support this package.
I/Os Per Package
IGLOO Devices
Cortex-M1
Devices
I/O Type
AGL030
AGL060
AGL125
AGL250
AGL400
M1AGL2501
SingleEnded
I/O
SingleEnded
I/O
SingleEnded
I/O
SingleEnded
I/O2
Differential I/O
Pairs
SingleEnded
I/O2
Differential I/O
Pairs
AGL600
AGL1000
M1AGL600
M1AGL1000
SingleEnded
I/O2
Differential I/O
Pairs
SingleEnded
I/O2
Differential I/O
Pairs
AGLE600
AGLE3000
M1AGLE3000
SingleEnded
I/O2
Differential I/O
Pairs
SingleEnded
I/O2
Differential I/O
Pairs
QN48
34
—
—
—
—
—
—
—
—
—
—
—
—
—
—
QN68
49
—
—
—
—
—
—
—
—
—
—
—
—
—
—
UC81
66
—
—
—
—
—
—
—
—
—
—
—
—
—
—
CS81
66
—
—
—
—
—
—
—
—
—
—
—
—
—
—
CS121
—
96
—
—
—
—
—
—
—
—
—
—
—
—
—
VQ100
77
71
71
68
13
—
—
—
—
—
—
—
—
—
—
QN132
81
80
84
87
19
—
—
—
—
—
—
—
—
—
—
CS196
—
—
133
143
35
143
35
—
—
—
—
—
—
—
—
FG144
—
96
97
97
24
97
25
97
25
97
25
—
—
—
—
FG256
—
—
—
—
—
178
38
177
43
177
44
165
79
—
—
—
—
CS281
—
—
—
FG484
—
—
—
FG896
—
—
—
—
—
—
—
215
53
215
53
—
—
—
—
194
38
235
60
300
74
270
135
341
168
—
—
—
—
—
—
—
—
620
310
Notes:
1. The M1AGL250 device does not support QN132 or CS196 packages.
2. Each used differential pair reduces the number of single-ended I/Os available by two.
www.microsemi.com/soc
7
IGLOO nano
The industry’s lowest power, smallest-size solution
IGLOO nano products offer groundbreaking possibilities in power, size, lead-times, operating temperature and cost. Available in logic densities from 10,000 to
250,000 gates, the 1.2 V to 1.5 V IGLOO nano devices have been designed for high-volume applications where power and size are key decision criteria.
IGLOO nano devices are perfect ASIC or ASSP replacements, yet retain the historical FPGA advantages of flexibility and quick time-to-market in low power
and small footprint profiles.
• Ultra low power in Flash*Freeze
mode, as low as 2 µW
• Variety of small footprint
packages as small as 3x3 mm
• Zero lead-time on selected devices
• Known good die supported
• Enhanced commercial temperature
• 1.2 V to 1.5 V single
voltage operation
• Embedded SRAM and
nonvolatile memory (NVM)
• Enhanced I/O features
• ISP and security
• Clock conditioning circuits (CCCs)
and PLLs
• Reprogrammable flash technology
IGLOO nano Devices
IGLOO nano Devices
AGLN010
AGLN020
AGLN060
AGLN125
AGLN250
10,000
20,000
60,000
125,000
250,000
Typical Equivalent Macrocells
86
172
512
1,024
2,048
VersaTiles (D-flip-flops)
260
520
1,536
3,072
6,144
2
4
10
16
24
System Gates
Flash*Freeze Mode (typical, µW)
RAM Kbits (1,024 bits)
—
—
18
36
36
4,608-Bit Blocks1
—
—
4
8
8
FlashROM Kbits (1,024 bits)
1
1
1
1
1
AES-Protected ISP
—
—
Yes
Yes
Yes
—
—
1
1
1
1
1
Integrated PLL in CCCs1,2
VersaNet Globals
4
4
18
18
18
I/O Banks
2
3
2
2
4
Maximum User I/Os (packaged device)
34
52
71
71
68
Known Good Die User I/Os
34
52
71
71
68
UC36
UC81
CS81
QN68
CS81
CS81
CS81
VQ100
VQ100
VQ100
IGLOO
Package Pins
UC
CS
QN
VQ
QN48
Notes:
1. AGLN030 and smaller devices do not support this feature.
2. AGLN060, AGLN125, and AGLN250 in the CS81 package do not support PLLs.
3. For higher densities and support of additional features, refer to the IGLOO and IGLOOe datasheets and FPGA fabric user’s guides.
I/Os Per Package
AGLN010
AGLN020
AGLN060
AGLN125
AGLN250
Known Good Die
IGLOO nano Devices
34
52
71
71
68
UC36
23
—
—
—
—
QN48
34
—
—
—
—
QN68
—
49
—
—
—
UC81
—
52
—
—
—
CS81
—
52
60
60
60
VQ100
—
—
71
71
68
Note:
* When the Flash*Freeze pin is used to directly enable Flash*Freeze mode and not used as a regular I/O, the number of single-ended user I/Os available is reduced by one.
8
www.microsemi.com/soc
IGLOO PLUS
The low power FPGA with enhanced I/O capabilities
IGLOO PLUS products deliver unrivaled low power and I/O features in a feature-rich programmable device, offering up to 64 percent more I/Os than the
award-winning IGLOO products and supporting independent Schmitt trigger inputs, hot-swapping and Flash*Freeze bus hold. Ranging from 30,000 to
125,000 gates, the 1.2 V to 1.5 V IGLOO PLUS devices have been optimized to meet the needs of I/O-intensive, power-conscious applications that require
exceptional features.
• I/O-optimized FPGA
• Ultra low power in Flash*Freeze
mode, as low as 5 µW
• Low power active capability
• Small footprint and
low-cost packages
• 1.2 V to 1.5 V single
voltage operation
• CCCs and PLLs
• Reprogrammable
flash technology
• Enhanced I/O features
• Embedded SRAM NVM
• AES-protected ISP
IGLOO PLUS Devices
IGLOO PLUS Devices
AGLP030
AGLP060
AGLP125
30,000
60,000
125,000
System Gates
Typical Equivalent Macrocells
256
512
1,024
VersaTiles (D-flip-flops)
792
1,584
3,120
Flash*Freeze Mode (typical, µW)
5
10
16
RAM (1,024 bits)
—
18
36
4,608-Bit Blocks
—
4
8
FlashROM Kbits (1,024 bits)
1
1
1
AES-Protected ISP
—
Yes
Yes
Integrated PLL in CCCs1
—
1
1
VersaNet Globals2
6
18
18
I/O Banks
4
4
4
120
157
212
CS201, CS289
VQ128
CS201, CS289
VQ176
CS281, CS289
AGLP030
AGLP060
AGLP125
Single-Ended I/O
Single-Ended I/O
Single-Ended I/O
Maximum User I/Os
(packaged device)
Package Pins
CS
VQ
IGLOO
Notes:
1. AGLP060 in CS201 does not support the PLL.
2. Six chip (main) and twelve quadrant global networks are available for AGLP060 and AGLP125.
I/Os Per Package
IGLOO PLUS Devices
I/O Type
CS201
120
157
—
CS281
—
—
212
CS289
120
157
212
VQ128
101
—
—
VQ176
—
137
—
Note:
* When the Flash*Freeze pin is used to directly enable Flash*Freeze mode and not used as a regular I/O, the number of single-ended user I/Os available is reduced by one.
www.microsemi.com/soc
9
ProASIC3/E
The low power, low-cost FPGA solution
The ProASIC3 series of flash FPGAs offers a breakthrough in power, price, performance, density and features for today’s most demanding high-volume applications.
ProASIC3 devices support the ARM Cortex-M1 processor, offering the benefits of programmability and time-to-market at low cost. ProASIC3 devices are based
on nonvolatile flash technology and support 30,000 to 3,000,000 gates and up to 620 high-performance I/Os. For automotive applications, selected ProASIC3
devices are qualified to the AEC-Q100 and are available with AEC T1 screening and PPAP documentation.
• Low power
• Low cost
• Configuration memory error immune
• User nonvolatile FlashROM
• Single chip, single voltage
• Live at power-up
• Clock management
• Secure ISP
• Nonvolatile, reprogrammable
• Maximum design security
• Advanced I/O standards
• High performance
ProASIC3/E Devices
ProASIC3/E Devices
A3P030
A3P060
A3P125
A3P250
A3P400
A3P600
A3P1000
30,000
60,000
125,000
M1A3P250
M1A3P400
M1A3P600
M1A3P1000
250,000
400,000
600,000
1,000,000
600,000
Typical Equivalent
Macrocells
256
512
1,024
2,048
—
—
—
VersaTiles (D-flip-flops)
Cortex-M1 Devices
System Gates
A3PE1500
A3PE3000
M1A3PE1500
M1A3PE3000
1,500,000
3,000,000
—
—
—
768
1,536
3,072
6,144
9,216
13,824
24,576
13,824
38,400
75,264
RAM (1,024 bits)
—
18
36
36
54
108
144
108
270
504
4,608-Bit Blocks
—
4
8
8
12
24
32
24
60
112
1
1
1
1
1
1
1
1
1
1
Yes
FlashROM Kbits
(1,024 bits)
AES-Protected ISP
—
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Integrated PLL in CCCs
—
1
1
1
1
1
1
6
6
6
VersaNet Globals
6
18
18
18
18
18
18
18
18
18
I/O Banks
2
2
2
4
4
4
4
8
8
8
Maximum User I/Os
(packaged device)
81
96
133
157
194
235
300
270
444
620
QN48
QN68
QN132
QN132
QN1322
QN1322, 3
VQ1002
TQ144
PQ208
FG1442
VQ1002
PQ208
FG144
FG256
FG484
PQ208
FG144
FG256
FG484
PQ208
FG1442
FG2562
FG4842
PQ208
FG256
FG484
PQ208
FG484
FG676
PQ208
FG324
FG484
FG896
1
Package Pins
QFN
CS
VQ
TQ
PQ
FG
P roASIC3
A3PE600
VQ100
CS121
VQ1002
TQ144
FG1442
PQ208
FG1442
FG2562, 3
Notes:
1. AES is not available for Cortex-M1 ProASIC3 devices.
2. Available as automotive “T” grade
3. The M1A3P250 device does not support this package.
I/Os Per Package
ProASIC3
Devices
Cortex-M1
Devices
A3P060
A3P125
A3P250
A3P400
A3P600
A3P1000
M1A3P250*
M1A3P400
M1A3P600
M1A3P1000
A3PE600
A3PE1500
A3PE3000
M1A3PE1500
M1A3PE3000
SingleEnded
I/O
SingleEnded
I/O
SingleEnded
I/O
QN48
34
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
QN68
49
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
QN132
81
80
84
87
19
—
—
—
—
—
—
—
—
—
—
—
—
CS121
—
96
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
VQ100
77
71
71
68
13
—
—
—
—
—
—
—
—
—
—
—
—
TQ144
—
91
100
—
—
—
—
—
—
—
—
—
—
—
—
—
—
PQ208
—
—
133
151
34
151
34
154
35
154
35
147
65
147
65
147
65
FG144
—
96
97
97
24
97
25
97
25
97
25
—
—
—
—
—
—
FG256
—
—
—
157
38
178
38
177
43
177
44
165
79
—
—
—
—
FG324
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
221
110
194
38
235
60
300
74
270
135
280
139
341
168
FG676
—
—
—
—
—
—
—
—
—
—
—
—
—
444
222
—
—
FG896
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
620
310
I/O Type
FG484
10
A3P030
Single- Differen- Single- Differen- Single- Differen- Single- Differen- Single- Differen- Single- Differen- Single- DifferenEnded tial I/O Ended tial I/O Ended tial I/O Ended tial I/O Ended tial I/O Ended tial I/O Ended tial I/O
I/O
Pairs
I/O
Pairs
I/O
Pairs
I/O
Pairs
I/O
Pairs
I/O
Pairs
I/O
Pairs
Note:
* M1A3P250 does not support the FG256 and QN132 packages.
ProASIC3 nano
The lowest-cost solution with enhanced I/O capabilities
Microsemi’s innovative ProASIC3 nano devices bring a new level of value and flexibility to high-volume markets. When measured against the typical project
metrics of performance, cost, flexibility and time-to-market, ProASIC3 nano devices provide an attractive alternative to ASICs and ASSPs in fast moving or highly
competitive markets. Customer-driven total system cost reduction was a key design criterium for the ProASIC3 nano program. Reduced device cost, availability of
known good die, a single-chip implementation and a broad selection of small footprint packages all contribute to lower total system costs.
• 1.5 V core for low power
• Embedded SRAM NVM
• Enhanced I/O features
• Zero lead-time on selected devices
• Known good die supported
• Configuration memory error immune
• ISP and security
• CCCs and PLLs
• 350 MHz system performance
• Enhanced commercial temperature
• Reprogrammable flash technology
ProASIC3 nano Devices
ProASIC3 nano Devices
A3PN010
A3PN020
A3PN060
A3PN125
A3PN250
10,000
20,000
60,000
125,000
250,000
Typical Equivalent Macrocells
86
172
512
1,024
2,048
VersaTiles (D-flip-flops)
System Gates
260
520
1,536
3,072
6,144
RAM1 (1,024 bits)
—
—
18
36
36
4,608-Bit Blocks
—
—
4
8
8
1
FlashROM Kbits (1,024 bits)
1
1
1
1
1
AES-Protected ISP1
—
—
Yes
Yes
Yes
Integrated PLL in CCCs1
—
—
1
1
1
VersaNet Globals
4
4
18
18
18
I/O Banks
2
3
2
2
4
Maximum User I/Os (packaged device)
34
49
71
71
68
Known Good Die User I/Os
34
52
71
71
68
QN48
QN68
VQ100
VQ100
VQ100
Package Pin
QN
VQ
Notes:
1. A3PN030 and smaller devices do not support this feature.
2. For higher densities and support of additional features, refer to the ProASIC3 and ProASIC3E datasheets and FPGA fabric user’s guides.
ProASIC3
I/Os Per Package
ProASIC3 nano Devices
A3PN010
A3PN020
A3PN060
A3PN125
A3PN250
Known Good Die
34
52
71
71
68
QN48
34
—
—
—
—
QN68
—
49
—
—
—
VQ100
—
—
71
71
68
www.microsemi.com/soc 11
ProASIC3L
Balancing low power, performance and low cost
ProASIC3L FPGAs feature 40 percent lower dynamic power and 90 percent lower static power than the previous generation ProASIC3 FPGAs and orders of
magnitude lower power than SRAM competitors, combining dramatically reduced power consumption with up to 350 MHz operation. The ProASIC3L family also
supports the free implementation of an FPGA-optimized 32-bit ARM Cortex-M1 processor, enabling system designers to select Microsemi’s flash FPGA solution
that best meets their speed and power design requirements, regardless of application or volume. Optimized software tools using power-driven layout (PDL)
provide instant power reduction capabilities.
• Low power 1.2 V to 1.5 V
core operation
• Up to 350 MHz
system performance
• Configuration memory error
immune
• Reprogrammable
flash technology
• 700 Mbps DDR, LVDS
capable I/Os
• Enhanced I/O features
• ISP and security
• CCCs and PLLs
• Embedded SRAM and NVM
• Flash*Freeze technology
for lowest power
ProASIC3L Low Power Devices
ProASIC3L Devices
A3P250L
Cortex-M1 Devices
A3P1000L
A3PE3000L
M1A3P600L
M1A3P1000L
M1A3PE3000L
250,000
600,000
1,000,000
3,000,000
6,144
13,824
24,576
75,264
RAM (1,024 bits)
36
108
144
504
4,608-Bit Blocks
8
24
32
112
1
1
1
1
System Gates
VersaTiles (D-flip-flops)
FlashROM Kbits (1,024 bits)
Yes
Yes
Yes
Yes
Integrated PLL in CCCs2
1
1
1
6
VersaNet Globals
18
18
18
18
I/O Banks
4
4
4
8
157
235
300
620
VQ100
PQ208
FG144, FG256
PQ208
FG144, FG256, FG484
PQ208
FG144, FG256, FG484
PQ208
FG324, FG484, FG896
A3P600L
A3P1000L
A3PE3000L
M1A3P600L
M1A3P1000L
M1A3PE3000L
AES-Protected ISP
1
Maximum User I/Os
(packaged device
P roASIC3
A3P600L
Package Pins
VQ
PQ
FG
Notes:
1 AES is not available for Cortex-M1 ProASIC3L devices.
2 For the A3PE3000L, the PQ208 package has six CCCs and two PLLs.
I/Os Per Package
ProASIC3L Devices
A3P250L
Cortex-M1 Devices
SingleEnded I/O
Differential
I/O Pairs
SingleEnded I/O
Differential
I/O Pairs
SingleEnded I/O
Differential
I/O Pairs
SingleEnded I/O
Differential
I/O Pairs
VQ100
68
13
—
—
—
—
—
—
I/O Type
PQ208
151
34
154
35
154
35
147
65
FG144
97
24
97
25
97
25
—
—
FG256
157
38
177
43
177
44
—
—
FG324
—
—
—
—
—
—
221
110
FG484
—
—
235
60
300
74
341
168
FG896
—
—
—
—
—
—
620
310
12 www.microsemi.com/soc
Military ProASIC3/EL
Low power FPGAs for military applications
Building on the successful heritage of the Military ProASICPLUS family, Military ProASIC3 FPGAs offer higher performance, greater density and more memory, while
at the same time offering high reliability combined with compact single-chip logic integration, live at power-up operation and reprogrammability. Military ProASIC3/EL
FPGAs have demonstrated immunity to configuration upsets caused by atmospheric neutrons.
• Supports single-voltage
system operation
• Up to 504 Kbits of true
dual-port SRAM
• 3,000,000 system gates
• Live-at-power-up level 0 support
• ISP protected using on-chip 128-bit
advanced encryption
• Standard (AES) decryption via
JTAG (IEEE 1532–compliant)
Military ProASIC3 Devices
Military ProASIC3 Devices
A3P250
A3PE600L
250,000
600,000
6,144
RAM (1,024 bits)
4,608-Bit Blocks
Cortex-M1 Devices
A3P1000
A3PE3000L
M1A3P1000
M1A3PE3000L
1,000,000
3,000,000
13,824
24,576
75,264
36
108
144
504
8
24
32
112
1
System Gates
VersaTiles (D-flip-flops)
FlashROM (Kbits)
AES-Protected ISP2
1
1
1
1
Yes
Yes
Yes
Yes
Integrated PLL in CCCs
1
6
1
6
VersaNet Globals
18
18
18
18
I/O Banks
4
8
4
8
Maximum User I/Os
68
270
154
620
484
208
144
484, 896
Package Pins
VQ
PQ
FG
100
Military ProASICPLUS
Reprogrammable, nonvolatile military FPGAs
Military ProASICPLUS is the industry’s first nonvolatile, reprogrammable FPGA with testing covering the full military temperature range (–55ºC to 125ºC), with available
MIL-STD-883 Class B screening. The flash-based reprogrammable interconnect used in Microsemi’s ProASICPLUS FPGAs has been proven to be immune to
configuration changes caused by atmospheric neutrons, which plague SRAM-based FPGAs in high-reliability applications.
Military ProASICPLUS Devices
Military ProASICPLUS Devices
APA300
APA600
APA1000
Maximum System Gates
300,000
600,000
1,000,000
8,192
21,504
56,320
RAM Kbits (1,024 bits)
72
126
198
RAM Blocks (256x9)
32
56
88
LVPECL
2
2
2
PLL
2
2
2
Global Networks
4
4
4
Maximum Clocks
32
56
88
Maximum User I/Os
290
454
712
JTAG ISP
Yes
Yes
Yes
PCI
Yes
Yes
Yes
208, 352
208, 352
624
208, 352
624
Tiles (registers)
Package Pins
CQ
CG
www.microsemi.com/soc 13
Milita ry P roASIC3/ EL / Milita ry P r oA S IC PL US
Notes:
1. Refer to the ARM Cortex-M1 product brief for more information.
2. AES is not available for ARM-enabled ProASIC3/EL devices.
I/O Table
A2F060
SmartFusion
A2F200
AFS090
Fusion
A2F500
AFS250
Ext. Temp. Fusion
AGL030
AGL060
AGL125
AGL250
AGLN030
AGLN060
AGLN125
AGLN250
IGLOO PLUS
AGLP030
AGLP060
AGLP125
ProASIC3/E
A3P030
A3P060
A3P125
A3P250
A3PN030
A3PN060
A3PN125
A3PN250
IGLOO/e
AGLN010
IGLOO nano
A3PN010
ProASIC3 nano
A3PN020
ProASIC3L
A3P250L
Military ProASIC3/EL
A3P250
Military
ProASICPLUS
Name
Pitch (mm)
3x3
UC36
0.40
4x4
UC81
0.40
5x5
CS81
0.50
6x6
CS121
0.50
6x6
QN48
0.40
8x8
CS196
0.50
8x8
QN68
0.40
8x8
QN132
0.50
8x8
CS201
0.50
10x10
QN108
0.50
10x10
QN180
0.50
10x10
CS281
0.50
11x11
CS288
0.50
13x13
FG144
1.00
14x14
CS289
0.80
14x14
VQ100
0.50
14x14
VQ128
0.40
17x17
FG256
1.00
19x19
FG324
1.00
20x20
TQ144
0.50
20x20
VQ176
0.40
23x23
FG484
1.00
27x27
FG676
1.00
28x28
PQ208
0.50
31x31
FG896
1.00
32.5x32.5
CG624
1.27
29.21x29.21
CQ208
0.50
48x48
CQ352
0.50
AGL600
AGL1000
AGLE600
A3P400
A3P600
A3P1000
A3PE600
A3P600L
A3P1000L
A3P1000
APA600
APA1000
215/53
215/53
97/25
97/25
119/58 (40) 177/43
177/44
AGLE3000
A3PE1500
A3PE3000
A3PE3000L
A3PE600L
A3PE3000L
23
52
66
52
66
60
60
60
133
143/35
84
87/19
96
34
34
49
143/35
49
81
80
120
157
37/9 (16)
60/16 (20)
65/15 (24)
212
112
135
135
96
97
120
157
212
77
71
71
97/25
97/24
68/13
101
108
117
75/22 (20)
178/38
114/37 (24) 157/38
117
165/79
119/58 (40)
221/110
70
91
100
137
194/38
161
204
172/86 (40) 235/60
300/74
270/135
223/109(40) 280/139
341/168
252/126(40) 444/222
133
Notes: # / # structure shows single-ended/double-ended I/Os. Fusion and Ext. Temp. Fusion I/O counts are in italics. Value in parentheses for Fusion is analog I/Os. SmartFusion values are total analog, MSS and FPGA I/Os.
Please refer to the SoC Products Group’s website at www.microsemi.com/soc and appropriate product datasheets for the latest device information and valid ordering codes.
14 www.microsemi.com/soc
AFS1500
AGL400
APA300
Size (mm)
AFS1500
AFS600
I/ O Ta ble
I/ O Ta ble
AGLN020
AFS600
113
151/34
93/26 (24) 151/34
113
95/46 (40) 154/35
154/35
147/65
147/65
147/65
620/310
440
440
158
158
158
248
248
248
Go to www.microsemi.com/soc for information regarding previous generations of flash and antifuse FPGAs.
www.microsemi.com/soc 15
FPGA Packages
Key:
f – family
bs – package body size excluding leads
FG896
p s – overall package dimensions including package leads
FG324
IGLOOe1
ProASIC3E1
ProASIC3L1
Military
ProASIC3/EL1
p s 31x31 mm
h 2.23 mm
p 1.00 mm
f
f
ps
h
p
FG676
ProASIC3E1
Fusion1
p s 27x27 mm
h 2.23 mm
p 1.00 mm
FG484
FG144
SmartFusion
Fusion1, 3
IGLOO1
IGLOOe1
ProASIC31, 2
ProASIC3E1, 2
ProASIC3L1
Military
ProASIC3/EL1
p s 23x23 mm
h 2.23 mm
p 1.00 mm
fIGLOO1
ProASIC31
ProASIC3L1
Military
ProASIC3/EL1
p s 13x13 mm
h 1.45 mm
p 1.00 mm
FPGA Pa c k a ge s
f
p s 10x10 mm
h 1.05 mm
p 0.50 mm
IGLOO
ProASIC3
p s 6x6 mm
h 0.90 mm
p 0.50 mm
Fusion
8x8 mm
0.75 mm
0.50 mm
QN68
f
IGLOO
IGLOO nano
ProASIC3
ProASIC3 nano
p s 8x8 mm
h 0.90 mm
p 0.40 mm
CS81
f
IGLOO
IGLOO nano
p s 5x5 mm
h 0.80 mm
p 0.50 mm
UC81
f
IGLOO
IGLOO nano
p s 4x4 mm
h 0.80 mm
p 0.40 mm
CS201
f
ps
h
p
QN108
f
ps
h
p
Notes:
1 Includes Cortex-M1 devices.
2 FG256 and FG484 are footprint-compatible for ProASIC3 and ProASIC3E.
3 Pigeon Point devices are only offered in FG484 and FG256.
4 MicroBlade devices are only offered in FG256.
16 www.microsemi.com/soc
IGLOO1
IGLOO PLUS
IGLOO PLUS
8x8 mm
0.89 mm
0.50 mm
CS196
QN132
IGLOO
ProASIC3
p s 8x8 mm
h 0.75 mm
p 0.50 mm
CS121
f
CS281
f
f
ps
h
p
QN180
f
SmartFusion
p s 11x11 mm
h 1.05 mm
p 0.50 mm
SmartFusion
Fusion1, 3, 4
IGLOO1
IGLOOe
ProASIC31, 2
ProASIC3E 2
ProASIC3L1
p s 17x17 mm
h 1.60 mm
p 1.00 mm
f
0.75 mm
0.50 mm
IGLOO PLUS
14x14 mm
1.20 mm
0.80 mm
CS288
f
f
h
p
p – pin pitch / ball pitch
CS289
fProASIC3E1
ProASIC3L1
p s 19x19 mm
h 1.63 mm
p 1.00 mm
FG256
f Fusion
p s 10x10 mm
h – package thickness
IGLOO
8x8 mm
1.11 mm
0.50 mm
QN48
f
IGLOO
IGLOO nano
ProASIC3
ProASIC3 nano
p s 6x6 mm
h 0.90 mm
p 0.40 mm
UC36
f
ps
h
p
IGLOO nano
3x3 mm
0.80 mm
0.40 mm
PQ208
f
SmartFusion
Fusion1
ProASIC31
ProASIC3E1
ProASIC3L1
Military
ProASIC3/EL1
bs 28x28 mm
ps 30.6x30.6 mm
h 3.40 mm
p 0.50 mm
CQ352
f
Military
ProASICPLUS
p s 48x48 mm
h 2.67 mm
p 0.50 mm
TQ144
f
bs
ps
h
p
ProASIC3
20x20 mm
22x22 mm
1.40 mm
0.50 mm
VQ176
f
IGLOO PLUS
bs 20x20 mm
ps 22x22 mm
h
p
1.00 mm
0.40 mm
CQ208
f
Military
ProASICPLUS
p s 29.21x29.21 mm
h 2.67 mm
p 0.50 mm
FP GA Pa c k a ge s
VQ128
f
IGLOO PLUS
bs 14x14 mm
ps 16x16 mm
h
p
1.00 mm
0.40 mm
VQ100
IGLOO1
IGLOO nano
ProASIC31
ProASIC3 nano
ProASIC3L
Military
ProASIC3/EL1
bs 14x14 mm
ps 16x16 mm
h 1.00 mm
p 0.50 mm
f
CG624
f
Military
ProASICPLUS
p s 32.5x32.5 mm
h 4.94 mm
p 1.27 mm
Refer to the Package Mechanical Drawings document located at www.microsemi.com/soc/documents/PckgMechDrwngs.pdf for more information concerning package dimensions.
www.microsemi.com/soc 17
Axcelerator
First for speed and performance
The Axcelerator FPGA family is a single-chip, nonvolatile solution offering high performance and unprecedented design security at densities of up to 2 million
equivalent system gates. Utilizing the AX architecture, Axcelerator devices have several system-level features, such as embedded SRAM (with embedded FIFO
control logic), PLLs, segmentable clocks, chip-wide highway routing, and carry logic. Based upon 0.15 µm, seven-layers-of-metal CMOS antifuse process
technology, 350 MHz system performance.
• 500+ MHz internal performance
• 6 levels of logic at 156+ MHz
• 8 global clocks per device
• 500+ MHz embedded FIFOs
• 1.5 V, 1.8 V, 2.5 V, and 3.3 V
mixed-voltage operation
• 4.5 kbits variable-aspect RAM
blocks with built-in FIFO control
• PLL output up to 1 GHz and
8 PLLs per device
• Secure programming technology
is designed to prevent reverse
engineering and design theft
• Bank-selectable I/Os—8 banks
per chip
Axcelerator Devices
Axcelerator Device
AX125
AX250
AX500
AX1000
AX2000
Capacity
(in equivalent system gates)
125,000
250,000
500,000
1,000,000
2,000,000
Typical Gates
82,000
154,000
286,000
612,000
1,060,000
672
1,408
2,688
6,048
10,752
Combinatorial (C-cells)
1,344
2,816
5,376
12,096
21,504
Maximum Flip-Flops
1,344
2,816
5,376
12,096
21,504
4
12
16
36
64
Register (R-cells)
Number of Core RAM Blocks
18,432
55,296
73,728
165,888
294,912
Clocks (hardwired)
4
4
4
4
4
Clocks (routed)
4
4
4
4
4
Axc e le ra tor
Total Bits of Core RAM
PLLs
8
8
8
8
8
I/O Banks
8
8
8
8
8
Maximum User I/Os
168
248
336
516
684
Maximum LVDS Channels
84
124
168
258
342
Total I/O Registers
504
744
1,008
1,548
2,052
Std., –1, –2
Std., –1, –2
Std., –1, –2
Std., –1, –2
Std., –1, –2
C, I
C, I, M
C, I, M
C, I, M
C, I, M
AX125
AX250
AX500
AX1000
AX2000
208
208
Speed Grades
Temperature Grades
I/Os Per Package
Axcelerator Device
PQ
729
BG
FG
CQ
CG/LG
18 www.microsemi.com/soc
256, 324
256, 484
484, 676
484, 676, 896
896, 1152
208, 352
208, 352
352
256, 352
624
624
SX-A
Reducing the cost of performance
The SX-A family of FPGAs offers a cost-effective, single-chip solution for low-power, high-performance designs. SX-A devices can be used to generate system-wide
savings by integrating multiple functions into a single-chip solution. Providing a combination of performance, security, and low power, SX-A FPGAs decrease the
premium for performance while providing a solution that is highly resistant to reverse engineering.
• 12,000 to 108,000 usable
system gates
• 250 MHz system performance
• 350 MHz internal performance
• Hot-swap compliant I/Os
• Power-up and power-down
friendly (no sequencing required
for supply voltages)
• 66 MHz, 64-bit 3.3 V / 5.0 V PCI
performance (supporting target,
master and master/target)
• 2.5 V, 3.3 V, and 5.0 V
mixed-voltage support
• 100% resource utilization
with 100% pin locking
SX-A Devices
A54SX08A
A54SX16A
A54SX32A
A54SX72A
Typical Gates
8,000
16,000
32,000
72,000
System Gates
12,000
24,000
48,000
108,000
Logic Modules
768
1,452
2,880
6,036
Combinatorial Cells
512
924
1,800
4,024
Dedicated Flip-Flops
256
528
1,080
2,012
Maximum Flip-Flops
512 *
990
1,980
4,024
Maximum User I/Os
130
180
249
360
Global Clocks
3
3
3
3
Quadrant Clocks
0
0
0
4
Boundary Scan Testing
Yes
Yes
Yes
Yes
3.3 V / 5 V PCI
Yes
Yes
Yes
Yes
Input Set-Up (external)
0 ns
0 ns
0 ns
0 ns
–F, Std., –1, –2
–F, Std., –1, –2
–F, Std., –1, –2
–F, Std., –1, –2
C, I, A, M
C, I, A, M
C, I, A, M, B
C, I, A, M, B
A54SX08A
A54SX16A
A54SX32A
A54SX72A
208
208
208
208
100, 144
100, 144
100, 144, 176
Speed Grades
Temperature Grades
I/Os Per Package
SX-A Devices
PQ
VQ
TQ
329
BG
FG
CQ
144
144, 256
144, 256, 484
256, 484
84, 208, 256
208, 256
www.microsemi.com/soc 19
SX-A
SX-A Device
MX
The price/performance leader at 5.0 V
Featuring very low power consumption and the industry’s highest design security, MX FPGAs offer designers a reliable, single-chip ASIC alternative. MX devices
provide high performance while shortening the system design and development cycle. Offering an efficient, flexible 5.0 V architecture, MX is an ideal high-volume
platform for integrating your legacy PLDs into a single device. Example applications include high-speed controllers and address decoding, peripheral bus
interfaces, DSP, and coprocessor functions.
• Single-chip ASIC alternative
• Fast wide-decode circuitry
• PCI compliant
• 3,000 to 54,000 system gates
• Up to 202 user-programmable
I/O pins
• Contains embedded dual-port
SRAM modules
• High performance
mixed-voltage solution
• QML certification
A40MX02
A40MX04
A42MX09
A42MX16
A42MX24
A42MX36
3,000
6,000
14,000
24,000
36,000
54,000
—
—
—
—
—
2,560
• Up to 2.5 kbits configurable
dual-port SRAM
• Ceramic devices available
to DSCC SM
MX Devices
MX Devices
System Gates
SRAM Bits
Sequential
Combinatorial
Decode
—
—
348
624
954
1,230
295
547
336
608
912
1,184
—
—
—
—
24
24
9.5 ns
9.5 ns
5.6 ns
6.1 ns
6.1 ns
6.3 ns
SRAM Modules
(64x4 or 32x8)
—
—
—
—
—
10
Dedicated Flip-Flops
—
—
348
624
954
1,230
Clocks
1
1
2
2
2
6
Clock-to-Out
Maximum Flip-Flops
147
273
516
928
1,410
1,822
User I/Os (maximum)
57
69
104
140
176
202
PCI
—
—
—
—
Yes
Yes
—
—
—
—
Yes
Yes
–F, Std., –1, –2, –3
–F, Std., –1, –2, –3
–F, Std., –1, –2, –3
–F, Std., –1, –2, –3
–F, Std., –1, –2, –3
–F, Std., –1, –2, –3
C, I, M, A
C, I, M, A
C, I, M, A
C, I, M, A
C, I, M, A
C, I, M, A, B
A40MX02
A40MX04
A42MX09
A42MX16
A42MX24
A42MX36
PL
44, 68
44, 68, 84
84
84
84
PQ
100
100
100, 160
100, 160, 208
160, 208
VQ
80
80
100
100
176
176
Boundary Scan Test (BST)
Speed Grades
MX
Temperature Grades
I/Os Per Package
MX Devices
TQ
208, 240
176
CQ
208, 256
BG
272
20 www.microsemi.com/soc
Design Environment for Microsemi Flash Devices
Embedded Design
FPGA Design
Microsemi’s Libero® Integrated Design Environment (IDE) is a comprehensive
software toolset for designing with all Microsemi FPGAs. Libero IDE includes
industry-leading synthesis, simulation and debug tools from Synopsys®
and Mentor Graphics,® as well as innovative timing and power optimization
and analysis.
Software IDE
(SoftConsole, Keil, IAR)
MSS Configurator*
MSS Configuration – Analog Configuration
Microsemi’s SmartDesign tool simplifies the use of Microsemi IP in user
designs as well as offering a simple way to build on-chip processors with
custom peripherals. Most Microsemi IP cores are now included by default
in Libero IDE as either obfuscated or RTL versions, depending on the
license selected.
Design Entry and IP Libraries
Simulation and Synthesis
Compile and Layout
Timing and Power Analysis
Hardware Debug
For embedded designers, Microsemi offers FREE SoftConsole Eclipse-based
IDE for use with ARM Cortex-M1, Cortex-M3 and Core8051s, as well as
evaluation versions from Keil™ and IAR Systems®. Full versions are available
from respective suppliers.
Drivers and Sample Projects
Application Development
Build Project
Simulation
Software Debug
Hardware Interfaces
FlashPro4, ULINK, J-LINK
For SmartFusion cSoCs, the MSS configurator creates a bridge between
the FPGA fabric and embedded designs, so device configuration can be
easily shared among multiple developers. The MSS configurator allows
the designer to choose peripherals, assign configuration settings and
change I/O attributes. Most importantly, the memory map is automatically
generated according to the user’s selections, along with all the required
firmware for the selected configuration. The memory map and firmware are
imported into the software project, whether it is GNU, Keil or IAR.
FPGA Design Support
Libero IDE Licenses
All families
Gold (FREE)
Platinum
Platinum Evaluation
Standalone
Up to 1,500,000 gates
All devices
All devices
All devices
Obfuscated
RTL
Obfuscated
RTL
x
x
x
Microsemi IP
Synthesis
Synplify® Pro AE
Simulation
ModelSim® AE
x
x
x
Identify® AE
x
x
x
Microsemi Debug
x
x
x
x
x
Debug
Program File
x
x
Embedded Design Support
Microsemi
Keil
IAR Systems
SoftConsole
Keil MDK
Embedded Workbench®
Free with Libero IDE
32 K Code Limited
32 K Code Limited
N/A
Full version
Full version
Compiler
GNU GCC
RealView® C/C++
IAR ARM Compiler
Debugger
GDB Debug
µVision Debugger
C-SPY® Debugger
Free Versions from Microsemi
Available from Vendor
No
µVision Simulator
Yes
FlashPro4
ULink®2 or ULINK-ME
J-Link™ or J-Link Lite
Instruction Set Simulator
Debug Hardware
Platform Support
Tool
Libero IDE
SoftConsole
Keil
IAR
FlashPro
Windows® XP Professional
Now
Now
Now
Now
Now
Windows Vista Business
and Windows 7
Now
Now
Now
Now
Now
RedHat Linux WS 5.0, 5.2
Now
N/A
N/A
N/A
N/A
* MSS configurator is specific to the SmartFusion design flow.
www.microsemi.com/soc 21
Mic rose mi De sign Environ m en t
Device Support
SmartFusion Evaluation Kit
SmartFusion Device
RVI - Header
• Supports SmartFusion
cSoC evaluation, including
ARM Cortex-M3, FPGA and
programmable analog
OLED Display
Potentiometer
USB
Program
and Debug
Interface
5 Debug I/Os
Reset Switch
Debug Select
10/100
Ethernet
Interface
8 User LEDs
JTAG Select
Regulators
PUB Switch
USB
Power and
USB-UART
Interface
SPI-Flash
Memory
User SW1
Mixed Signal
Header
20 MHz 32.768 KHz
Crystal
Crystal
VRPSM
Voltage
Option
• Board features
- Ethernet interface
• Free one-year Libero Integrated
Design Environment (IDE) software
and Gold license with SoftConsole
for program and debug
- USB port for power and
HyperTerminal
- USB port for programming
and debug
- J-Link header for debug
• USB programming built into board
- Mixed signal header
• Two USB cables
- SPI flash – off-chip memory
• User’s guide, tutorial and
design examples
- Reset and 2 user switches, 8 LEDs
• Printed circuit board (PCB)
schematics, layout files and
bill-of-materials (BOM)
- Temperature monitor
- POT for voltage / current monitor
- Organic light-emitting diode (OLED)
User SW2
Ordering Code
Supported Device
Price
A2F-EVAL-KIT
A2F200M3F-FGG484
$ 99
SmartFusion Development Kit
PSRAM AGLP125V5(1.8 V)
CSG289
A2F500
Connector
SRAM
(3.3 V)
DB9
CAN
Connector
for CAN0 Transceivers
DB9 Connector
for CAN1
IGLOO PLUS
Header
Memory Device
Configuration
Headers
DIP Switch
RealView®
AGLP DIP
Switch
Power Switch
Power Jack
SmartFusion
cSoC
DirectC Header
De ve lopme nt K its
Header
JTAG_SEL Switch
JTAG MUX
LCPS Connector
JTAG Chain
Configuration Header
1.5 V Header
DB9 Connector for
RS485 (UART1)
Board Reset
Switch
RJ45 Connector
for 10/100 Ethernet
PUB Switch
RS485 Transceiver
RJ45 Connectors
for EtherCAT
Ports
50 MHz Oscillator
USB Connector
for UART0
I2C Headers
SPI Headers
OLED
10/100 Ethernet
PHY
POT for EtherCAT Mixed EtherCAT DACOUT/ DAC0 and DAC1 Push-Button
ADC
ASIC
Signal
Current
PHYs
Callibration POTs Switches
Headers for ±15 V Bipolar
Header
Monitor
Outputs
Mixed Signal Daughter Card
Mixed Signal Connector
Test Points
• Supports SmartFusion
development, including
ARM Cortex-M3, FPGA and
programmable analog
• Board features
- Ethernet, EtherCAT, CAN, UART,
I2C and SPI interfaces
• Free one-year Libero IDE software
and Gold license with SoftConsole
for program and debug
• 5 V power supply and
international adapters
• Two USB cables and low cost
programming stick
• User’s guide, tutorial and
design examples
- USB port for HyperTerminal
- USB port for programming
and debug
- J-Link header for debug
- Mixed signal and A2F500 digital
expansion header
- Extensive off-chip memory
- Refer to www.microsemi.com/soc
for a full list of features
• PCB schematics, layout files
and BOM
Ordering Codes
Supported Devices
Price
A2F500-DEV-KIT
A2F500M3G-FGG484
$ 999
• Supports debug access to the
mixed signal header of the
SmartFusion Evaluation Kit and
SmartFusion Development Kit
• 4 1/2” plastic standoffs and
4 plastic screws to match
development kit height
• Board features
- Test points for signal probing
- Mixed signal header for daughter
card support
- 100 Mil header for wire-wrapped
or soldered signals
• Sold standalone
Ordering Code
MIXED-SIGNAL-DC
100 mil Connector
22 www.microsemi.com/soc
Supported Device
Price
No Microsemi device
$ 55
MPM Daughter Card
Power Supply Regulator
REG1 - REG4 Interrupt Switches
(SW8, SW11, SW16, SW15)
• Supports power management
design with the SmartFusion
Evaluation Kit and SmartFusion
Development Kit
Mixed Signal
Header
- 4 power supply regulators
- 4 potentiometers to control
regulators
• MPM design example implements
configurable power management
in SmartFusion cSoC
Power Supply
Regulators
R1 - R4 LEDs
MPM
Power
Switch
• Board features
- 4 power supply regulator
interrupt switches
• Graphical configuration dialog
- 4 power supply regulator
status LEDs
• In-system reconfigurable
- Mixed signal header connector
connects to SmartFusion board
• 9 V power supply
Ordering Code
MPM 9 V Jack
Power Supply Regulator
REG1 - REG4 Potentiometers
MPM-DC-KIT
Supported Device
Price
No Microsemi device
$ 299
Motor Control Development Kit
• Circuitry on board accommodates
drivers for up to 4 PMSM motors
(1 supplied with kit)
• One PMSM motor with Hall sensor
and encoder included
• Reference design supporting
multiple operation modes
• PC interface for defining velocity,
torque and other parameters for up
to four motors in real-time over an
Ethernet connection
• 18 V power supply
• Cross over cable
• Schematics and design
files available
• Commutation in trapezoidal mode
using Hall effect sensor feedback
• Sinusoidal using Hall effect
sensor feedback
- Commutation starts in trapezoidal
mode and switches to sinusoidal
when sufficient speed is achieved
• Sinusoidal with Hall effect
encoder feedback
- Commutation starts in trapezoidal
mode and switches to sinusoidal
mode on first edge of Hall sensor
input using incremental encoder
• Sensorless trapezoidal
- Uses back-EMF to generate
six-step commutation feedback
• User’s guide
Ordering Code
Description
Price
A2F-MOTOR-CONTROL-KIT
Motor control kit including reference designs and 1 motor
A2F-MOTOR-CONTROL-DESIGNS
Motor control reference designs
$ 499
3-MOTORS
Additional 3 motors
$ 185
$ 2,499
www.microsemi.com/soc 23
De ve lopme nt K its
• Mains power supply with
international adapter
• Five reference designs including
C source code and RTL
IGLOO nano Starter Kit
20 MHz
IGLOO nano
Clock Oscillator
FPGA
• Supports basic IGLOO nano
low power FPGA design, including
Flash*Freeze mode
I/O Test Pin
Headers
Flash*Freeze
Switch
USB
Interface
Push-Button
Reset Switch
5 V Wall
Jack
LCPS
Connector
Jumper
for Battery
Option
Jumpers to
Isolate User LEDs,
Push-Button
Switches, DIP
Switches for
I/O Test Pins
Jumpers
for Voltage
Options
• Free one-year Libero IDE software
and Gold license
• Low-cost programming
stick (LCPS)
• Two USB cables
8 User LEDs
- Full current measurement
capability of independent
I/O banks and VCC
- 20 MHz clock oscillator
• Kit user’s guide, Libero IDE
tutorial and design examples
- LEDs and switches for simple
inputs and outputs
• PCB schematics, layout files
and BOM
- Ability to switch VCORE from
1.2 V to 1.5 V
- RoHS compliant
Ordering Code
8 DIP Switches
- All I/Os available for external
connections
- USB connection for USB-toserial (RS232) interface for
HyperTerminal or power
4 Push-Button
Switches
Current Measurement
Headers
• Board features
AGLN-NANO-KIT*
Supported Device
Price
AGLN250V2-VQG100
$ 99
Note:
* Replaces -Z version of the nano Starter Kit.
ProASIC3 Starter Kit
Wall Mount
Power
LCD Display
Module
FlashPro3
ISP Connector
Removable
Shunts to
Isolate All I/Os
for Prototyping
ProASIC3/E in
PQ208 Package
Oscillator for
System
Clock
Every PQ208
Pin Accessible
for Prototyping
Manual
Clock Option
• Board features
• Free one-year Libero IDE software
and Gold license
Removable
Shunts to
Isolate All I/Os
for Prototyping
CAT5E RJ45
Connectors
for LVDS
Communications
De ve lopme nt K its
• Supports basic ProASIC3 FPGA
design and LVDS I/O usage
Interboard ISP
Connector
• FlashPro3 or FlashPro4
Programmer
4 Switches
8 LEDs
Removable Shunts to Isolate
All I/Os for Prototyping
- Oscillator for system clock or
manual clock option
- LEDs and switches for simple
inputs and outputs
• 9 V power supply and
international adapters
- LCD display module
• Kit user’s guide, Libero IDE
tutorial and design examples
- Two CAT5E RJ45 connectors for
high-speed LVDS communications
• PCB schematics, layout files
and BOM
- All I/Os available for external
connections
- Not RoHS compliant
Ordering Codes
SMA for
Optional
External
Oscillator
- Eight I/O banks with variety of
voltage options
A3PE-PROTO-KIT
Supported Devices
Price
A3PE1500-PQ208
$ 665
Fusion Embedded Development Kit
LCPS
Connector
User
SPI
LEDs Flash
• Supports royalty-free, industrystandard ARM Cortex-M1 or
8051s development
OLED
Potentiometer
Ethernet
Interface
PushButton
Reset
Ethernet
LEDs
PushButton
PUB
Two I2C
Interfaces
Interface
Connector
5 V Wall
Jack
RealView
Header
SRAM
PushButton
Switch
USB
Interface
Fusion
FPGA
Push-Button
Switch
Mixed Signal
Header
Mixed Signal
Test Pins
Jumpers
for Internal
or External
Regulator
- 512 KB SRAM, 2 MB SPI flash
memory provided on board
• Free one-year Libero IDE software
and Gold license with SoftConsole
for program and debug
• Low-cost programming
stick (LCPS)
• 5 V power supply and
international adapters
- 10/100 Ethernet and I2C interfaces
- USB-to-UART connection for
HyperTerminal on a PC
- Built-in voltage, current and
temperature monitor and
voltage potentiometer
- Mixed signal interface
• Two USB cables
- Blue OLED 96x16 pixel display
• Kit user’s guide, Libero IDE
tutorial and design examples
- Dynamic reconfigurable analog
and flash memory
• PCB schematics, layout files
and BOM
- FlashPro3 and RealView
debug interface
- RoHS compliant
Ordering Code
M1AFS-EMBEDDED-KIT
24 www.microsemi.com/soc
• Board features
Supported Device
Price
M1AFS1500-FGG484
$ 250
Core1553 Development Kit
Core1553-SA
Fusion Advanced Development Kit
• Allows users to evaluate
the functionality of Microsemi’s
Core1553BRM without having to
create a complete MIL-STD-1553B
compliant system
• Board features • Fusion Advanced Development Kit
with two 9 V power supplies
• Core1553 daughter card
• User’s guide, tutorial and
design example
• PCB schematics, layout files
and BOM
• Purchasing the kit gives the owner
the right to the programming file
of the demo, but not an evaluation
of the IP. The IP evaluation or
purchase is quoted separately.
- MIL-STD-1553B transceiver, two
transformers and two concentric
twinax connectors included on
the Core1553 daughter board
~ MIL-STD-1553B concentric
twinax connectors are center
pin signal high and cylindrical
contact signal low
~ Connectivity is
MIL-C-49142 compliant
~ Evaluate and develop
medium speed on-board data
communications bus solutions
for MIL-STD-1553B /
UK DEF-STAN 00-18 (Pt.2) /
NATO STANAG 3838 AVS /
Avionic Standards Coordinating
Committee Air-Std 50/2
- CAN bus interface support
- Connector to ARINC 429
Daughter Board (CORE429-SA)
Ordering Code
Description
CORE1553-DEV-KIT
Core1553 Development Kit
$ 3,620
Price
CORE1553-SA
Core1553 daughter card
$ 2,900
M1AFS-ADV-DEV-KIT-PWR
M1AFS-ADV-DEV-KIT with two 9 V power packs
$ 750
Hardware Summary
Microsemi offers hardware choices for terrestrial products. Most popular kits are listed in the table and shown in further detail in this section. Full details of these
kits can also be found online with user’s guides and accompanying tutorials.
Ordering Code
Name
Device
Price
Power
SmartFusion
A2F-EVAL-KIT*
SmartFusion Evaluation Kit
A2F200M3F-FGG484
$ 99
USB
SmartFusion
A2F500-DEV-KIT
SmartFusion Development Kit
A2F500M3G-FGG484
$ 999
5V
SmartFusion
MPM-DC-KIT
MPM Daughter Card
none
$ 299
9V
SmartFusion
MIXED-SIGNAL-DC
Mixed Signal Daughter Card
none
$ 55
N/A
Fusion
M1AFS-EMBEDDED-KIT*
Fusion Embedded Development Kit
M1AFS1500-FGG484
$ 250
USB / 5 V
Fusion
AFS-EVAL-KIT
Fusion Starter Kit
Fusion
M1AFS-ADV-DEV-KIT-PWR
Fusion Advanced Development Kit
IGLOO
AGLN-NANO-KIT*
IGLOO nano Starter Kit
AFS600-FG256
$ 500
9V
M1AFS1500-FGG484
$ 750
9V
AGLN250V2-ZVQG100
$ 99
USB
IGLOO
AGL-ICICLE-KIT
IGLOO Icicle Evaluation Kit
AGL125V2-QNG132
$ 150
USB
IGLOO
AGLP-EVAL-KIT
IGLOO PLUS Starter Kit
AGLP125V2-CSG289
$ 299
5V
IGLOO
M1AGL1000-DEV-KIT
ARM Cortex-M1 IGLOO Development Kit
M1AGL1000V2-FGG484
$ 550
5V
ProASIC3
A3PE-PROTO-KIT*
ProASIC3 Starter Kit
ProASIC3
M1A3PL-DEV-KIT
ARM Cortex-M1 ProASIC3L Development Kit
A3PE1500-PQ208
$ 665
9V
M1A3P1000L-FGG484
$ 550
5V
*Most recommended Kit for each product family
www.microsemi.com/soc 25
De ve lopme nt K its
Family
FlashPro4 In-System FPGA Programmer
• Supports in-system programming
• USB Connection to PC • Supports IEEE 1149 JTAG
programming through STAPL
• Operating systems
• Supports IEEE 1532
- Windows XP Professional
(SP2 recommended)
• Uses FlashPro software, available
as part of Libero IDE or standalone
- Windows 2000 Professional
(SP4 recommended)
• Free software updates
Ordering Code
Price
FLASHPRO4
$ 49
Silicon Sculptor 3 FPGA Programmer
• Programs all Microsemi packages,
including PL, PQ, VQ, QN, BG, FG,
and CS
• Universal Microsemi socket
adapters
• Use with Silicon Sculptor software
• Security fuse can be programmed
to secure the devices
• Includes self-test to test its
own hardware
Ordering Code
Progra mme rs
SILICON-SCULPTOR 3
• Protection features
- Overcurrent shutdown
- Power failure shutdown
- ESD protection
- ESD wrist straps with banana
jacks (included as standard)
• Operating systems
- Windows XP Professional
(SP2 recommended)
- Windows 2000 Professional
(SP4 recommended)
Price
$ 4,330
For adapter modules, refer to www.microsemi.com/soc/products/hardware/program_debug/ss/modules.aspx
Programming Devices In-System Using a Microprocessor
Although the FlashPro3 programmer can perform in-system programming, it does require a specific header to be connected externally. For example, if
your system already has external communication available through a microprocessor interface, you may prefer to have the processor perform the in-system
programming. This can be done in two ways.
DirectC
DirectC v2.3 is a set of C code designed to support embedded
microprocessor–based in-system programming for IGLOO, ProASIC3 and
Fusion families. To use DirectC v2.3, you must make some minor modifications
to the provided source code, add the necessary API and compile the source
code and the API together to create a binary executable. The target system
must contain a microprocessor with a minimum 256 bytes of RAM, a JTAG
interface to the target device from the microprocessor and access to the
programming data to be used for programming the FPGA. Access to
programming data could be provided by a telecommunications link for most
remote systems.
Download DirectC source files and the complete user’s guide at:
www.microsemi.com/soc/products/hardware/program_debug/directc/default.aspx
STAPL Player
The STAPL Player can be used to program third-generation flash devices such
as IGLOO, ProASIC3 and Fusion, and interprets the contents of a STAPL file,
which is generated by Libero IDE software tools. The file contains information
about the programming of Microsemi flash-based devices, as well as the
26 www.microsemi.com/soc
JTAG scan chain for a single device. The data format is a JEDEC standard
known as the Standard Test and Programming Language (STAPL) format.
For third-generation devices, note that the STAPL Player will not support
serialization of the FlashROM, nor will it support Smart Erase enabled silicon.
The STAPL Player reads the STAPL file and executes the file’s programming
instructions. Because all programming details are in the STAPL file, the
STAPL Player itself is completely device-independent. In other words, the
system does not need to implement any programming algorithm details; the
STAPL file provides all of the details.
The key differences between the DirectC and the STAPL player methods are
in the memory footprint in the microprocessor and amount of data to transmit.
The DirectC option requires more code space on the processor, but as a
result less data has to be transmitted to perform programming. On the other
hand, the STAPL player communicates both the information to be programmed
and the intelligence needed to perform programming. So the code footprint
is smaller but the amount of data to transmit will be larger. One advantage of
the STAPL player method is that if updates are required to the programming
algorithm, the STAPL method does not require new code in the processor,
but the DirectC would require new code for the processor.
Intellectual Property Cores
Microsemi IP Cores
Tiles
Obfuscated Core
RTL Core
10/100 Mbps Ethernet MAC with Host Controller (AHB/APB option available)
7,254
Free Libero Gold
Purchase
Core1553BBC
MIL-STD-1553B Bus Controller (BC)
2,331
Purchase
Purchase
Core1553BRM
MIL-STD-1553B Bus Monitor Only
3,016
Purchase
Purchase
Core1553BRM
MIL-STD-1553B Combined Remote Terminal (RT), Bus Controller, and Bus Monitor (BM)
6,787
Purchase
Purchase
Core1553BRT
MIL-STD-1553B Remote Terminal
1,612
Purchase
Purchase
Core429
ARINC 429 Bus Interface (1 receive channel)
740
Purchase
Purchase
Core429
ARINC 429 Bus Interface (1 transmit channel)
563
Purchase
Purchase
CorePCIF
PCI Specification 2.3 Bus Controller with FIFO Support (66/64 Target and Master)
3,808
Purchase
Purchase
CorePCIF
PCI Specification 2.3 Bus Controller with FIFO Support (33/32 Target)
996
Purchase
Purchase
Core16550
Universal Asynchronous Receiver/Transmitter with or without FIFO
979
Libero Gold
Libero Platinum
Core3DES
3DES Encryption and Decryption
1,413
Libero Gold
Libero Platinum
Core8051s
8-Bit Microprocessor, 100% ASM51 Compatible, Configurable Peripherals,
AHB Bus Compliant
2,500
Libero Gold
Libero Platinum
CoreABC
Low-Gate-Count Controller for the APB
241
Libero Gold
Libero Platinum
CoreAES128
AES Encryption and Decryption
5,193
Libero Gold
Libero Platinum
CoreAHB
Multi-Master Advanced High Performance Bus (AHB)
1,300
Libero Gold
Libero Platinum
CoreAHB2APB
AHB to Advanced Peripheral Bus (APB) Bridge
250
Libero Gold
Libero Platinum
CoreAHBLite
Single-Master AHB
700
Libero Gold
Libero Platinum
CoreAHBNVM
On-Chip Flash Memory Controller with AHB Interface
396
Libero Gold
Libero Platinum
CoreAHBSRAM
On-Chip SRAM Memory Controller with AHB Interface
236
Libero Gold
Libero Platinum
CoreAI
Analog Interface Core (maximum configuration)
460
Libero Gold
Libero Platinum
CoreAPB
APB
125
Libero Gold
Libero Platinum
CoreCFI
Common Flash Interface—Typical Configuration
600
Libero Gold
Libero Platinum
CoreCORDIC
Coordinate Rotational Digital Computer Core (bit-serial architecture)
450
Libero Gold
Libero Platinum
CoreDDR
High Performance Double Data Rate (DDR) SDRAM Controller
1,748
Libero Gold
Libero Platinum
CoreDES
DES Encryption and Decryption
1,271
Libero Gold
Libero Platinum
CoreFMEE
Flash Memory Endurance Extender (typical configuration)
541
Libero Gold
Libero Platinum
CoreGPIO
General-Purpose Input/Output Controller with APB Interface
100
Libero Gold
Libero Platinum
CoreI2C
I2C Master/Slave Interface
658
Libero Gold
Libero Platinum
CoreInterrupt
CoreMP7 Interrupt Controller
68
Libero Gold
Libero Platinum
CoreLPC
Intel Low Pin Count interface for Fusion/IGLOO/PA3 (SERIRQ disabled)
340
Libero Gold
Libero Platinum
CoreMemCtrl
Off-Chip Memory Controller with AHB Interface
100
Libero Gold
Libero Platinum
CorePWM
Pulse Width Modulation Core (typical configuration)
650
Libero Gold
Libero Platinum
CoreSDLC
Synchronous Data Link Controller
1,286
Libero Gold
Libero Platinum
CoreSDR
High Performance Single Data Rate (SDR) SDRAM Controller
1,350
Libero Gold
Libero Platinum
CoreSMBus
System Management Bus Controller (master/slave configuration)
1,078
Libero Gold
Libero Platinum
CoreSMBus
System Management Bus Controller (slave-only configuration)
733
Libero Gold
Libero Platinum
CoreSPI
Serial Peripheral Interface (Combined Mode)
330
Libero Gold
Libero Platinum
CoreTimer
16- or 32-Bit Timer with APB Interface
310
Libero Gold
Libero Platinum
CoreUART
Universal Asynchronous Receiver/Transmitter
337
Libero Gold
Libero Platinum
CoreUART_APB
Universal Asynchronous Receiver/Transmitter with APB Interface
300
Libero Gold
Libero Platinum
CoreWatchdog
Watchdog Timer with APB Interface
280
Libero Gold
Libero Platinum
Cortex-M1
High Performance 32-Bit FPGA-Optimized Processor (pre-placed design block)
4,300
Libero Gold
Libero Platinum
CoreFFT
Fast Fourier Transform Core Generator (1,024 points)
9,030
Web Only
Web Only
CoreFFT
Fast Fourier Transform Core Generator (256 points)
7,364
Web Only
Web Only
CoreFIR
Finite Impulse Response Core Generator (configuration 1)
583
Web Only
Web Only
Note: Additional Cores and configurations can be found on the website and in core handbooks.
www.microsemi.com/soc 27
Inte lle c tua l P rope rty Co r es
Core10/100
www.microsemi.com/soc
You may be interested in:
Space Product Catalog: www.microsemi.com/soc/documents/SpaceProdCat_PIB.pdf
Solutions and IP Catalog: www.microsemi.com/soc/documents/IPPIB.pdf
Microsemi SoC Products Group 2061 Stierlin Court, Mountain View, CA 94043-4655 USA Phone: 650.318.4200
Microsemi Corporation (NASDAQ: MSCC) offers a comprehensive portfolio of semiconductor
solutions for: aerospace, defense and security; enterprise and communications; and industrial
and alternative energy markets. Products include high-performance, high-reliability analog and
RF devices, mixed signal and RF integrated circuits, customizable SoCs, FPGAs, and complete
subsystems. Microsemi is headquartered in Aliso Viejo, Calif.
Learn more at www.microsemi.com.
Microsemi Corporate Headquarters
One Enterprise Drive, Aliso Viejo, CA 92656
Within the USA: (800) 713-4113
Outside the USA: (949) 221-7100
Fax: (949) 756-0308 · www.microsemi.com
©2011 Microsemi Corporation. All rights reserved. Microsemi and the Microsemi logo are trademarks of Microsemi Corporation. All other trademarks
and service marks are the property of their respective owners.
55700040-9/10.11
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