MachXO Product Family

Lattice MachXO Product Family Qualification Summary
Lattice Document # 25 - 106236
January 2015
2015 Lattice Semiconductor Corp. All Lattice trademarks, registered trademarks, patents, and disclaimers are listed at www.latticesemi.com/legal. All other brand
or product names are trademarks or registered trademarks of their respective holders. The specifications and information herein are subject to change without
notice. www.latticesemi.com
Dear Customer,
Enclosed is Lattice Semiconductor’s MachXO Product Family Qualification Report.
This report was created to assist you in the decision making process of selecting and using our products. The
information contained in this report represents the entire qualification effort for this device family.
The information is drawn from an extensive qualification program of the wafer technology and packaging assembly
processes used to manufacture our products. The program adheres to JEDEC and Automotive Industry standards
for qualification of the technology and device packaging. This program ensures you only receive product that
meets the most demanding requirements for Quality and Reliability.
Your feedback is valuable to Lattice. If you have suggestions to improve this report, or the data included, we
encourage you to contact your Lattice representative.
Sincerely,
James M. Orr
Vice President,
Corporate Quality & Product Development
Lattice Semiconductor Corporation
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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TABLE OF CONTENTS
1.0 INTRODUCTION ....................................................................................................................................4
Table 1.1 MachXO Product Family Attributes ................................................................................................................................4
2.0 LATTI CE PRODUCT QUALIFICATION P ROGRAM .................................................................................5
Figure 2.1 Lattice Standard Product Qualification Process Flow ................................................................................................6
Table 2.2 Standard Qualification Testing ........................................................................................................................................8
3.0 QUALIFICATION DATA FOR CS90F PROCESS TECHNOLOGY........................................................... 10
3.1 MACHXO PRODUCT FAMILY LIFE DATA...................................................................................................... 10
Table 3.1.1 MachXO Product Family (CS90F) Life Results...................................................................................................... 11
3.2 MACHXO PRODUCT FAMILY HIGH TEMPERATURE RETENTION (HTRX) DATA...................................................... 12
Table 3.2.1 CS90F High Temperature Retention Results......................................................................................................... 13
3.3 MACHXO PRODUCT FAMILY ENDURANCE CYCLING DATA ............................................................................... 14
Table 3.3.1 CS90F Flash Endurance Cycling Results............................................................................................................... 14
3.4 MACHXO PRODUCT FAMILY – ESD AND LATCH UP DATA .............................................................................. 15
Table 3.4.1 MachXO (LC MXO) ESD-HBM Data ........................................................................................................................ 15
Table 3.4.2 MachXO (LC MXO) ESD-CDM Data ........................................................................................................................ 16
Table 3.4.3 MachXO (LC MXO) I/O Latch Up Data .................................................................................................................... 17
Table 3.4.4 MachXO (LC MXO) Power Supply Over-Voltage Latch-Up Data ........................................................................ 18
4.0 PACKAGE QUALIFI CATI ON DATA FOR MACHX O PRODUCT FAMIL Y ............................................... 19
Table 4.0 Product-Package Qualification-By-Extension Matrix................................................................................................ 19
4.1 MACHXO PRODUCT FAMILY SURFACE MOUNT PRECONDITIONING TESTING........................................................ 20
Table 4.1.1 Surface Mount Precondition Data ............................................................................................................................ 20
4.2 MACHXO PRODUCT FAMILY TEMPERATURE CYCLING DATA............................................................................ 22
Table 4.2.1 Temperature Cycling Data ........................................................................................................................................ 22
4.3 UNBIASED HAST DATA .......................................................................................................................... 24
Table 4.3.1 Unbiased HAST Data ................................................................................................................................................. 24
4.4 THB: BIASED HAST DATA...................................................................................................................... 25
Table 4.4.1 Biased HAST Data...................................................................................................................................................... 25
4.5 MACHXO PRODUCT FAMILY HIGH TEMPERATURE STORAGE LIFE (HTSL) .......................................................... 26
Table 4.5.1 MachXO High Temperature Storage Life Results ................................................................................................. 26
5.0 CS90F PROCESS RELIABILITY WAFER LEV EL REVI EW .................................................................... 28
Table 5.1 Wafer Level Reliability Results Fujitsu Mie Fabs ...................................................................................................... 28
6.0 MACHX O PACKAGE ASS EMBLY INTEGRITY TESTS .......................................................................... 29
6.1 W IRE BOND SHEAR TEST ....................................................................................................................... 29
6.2 W IRE BOND PULL ................................................................................................................................. 29
6.3 SOLDERABILITY .................................................................................................................................... 29
6.4 PHYSICAL DIMENSIONS .......................................................................................................................... 30
6.5 SOLDER BALL SHEAR............................................................................................................................. 30
7.0 MACHX O ADDITIONAL FAMILY DATA ................................................................................................ 31
Table 7.1 MachXO Package Assembly Data – csBGA/ ftBGA ................................................................................................ 31
Table 7.2 MachXO Package Assembly Data- TQFP ................................................................................................................. 31
Table 7.3 Copper (Cu) Bond Wire Bills of Material by Package Type and Assembly Site .................................................. 32
8.0 REVISION HISTORY ............................................................................................................................ 33
Table 8.0 Lattice MachXO Product Family Qualification Summary Revisions ...................................................................... 33
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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1.0 INTRODUCTION
The MachXO product family combines Flash and SRAM technology to provide "instant -on" capabilities in a single
low-cost device. This combination of SRAM and Flash enables easy field updates via Lattice's unique TransFR
technology.
The MachXO product family offers a flexible LUT (Look Up Table) architecture that provides 256 to 2280 LUTs
and in multiple Thin Quad Flat Pack (TQFP), Fine-Pitch Thin BGA (ftBGA) and Chip Scale BGA (csBGA) packages
with user I/O counts ranging from 78 to 271 I/Os. Table 1.1 shows the LUTs, package and I/O options, along with
other key parameters.
Table 1.1 MachXO Product Family Attributes
Vcc Voltage
LUTs
Density Macrocells *
tPD (ns)
Fmax (MHz)
Dist RAM (Kbits)
EBR SRAM (Kbits)
Number of PLLs
Max. I/O
Die Fabrication Site
Fabrication Process Technology
Packages – I/O
100-pin Lead-Free TQFP (14x14 mm)
144-pin Lead-Free TQFP (20x20 mm)
100-ball Lead-Free csBGA (8x8 mm)
132-ball Lead-Free csBGA (8x8 mm)
256-ball Lead-Free ftBGA (17x17 mm)
324-ball Lead-Free ftBGA (19x19 mm)
*Assumes 1 macrocell = 2 LUTs
LCMXO256
1.2/1.8/2.5/3.3V
256
128
3.5
388
2.0
0
0
78
Fujitsu - Mie
0.13um CMOS
LCMXO640
1.2/1.8/2.5/3.3V
640
320
3.5
388
6.0
0
0
159
Fujitsu - Mie
0.13um CMOS
LCMXO1200
1.2/1.8/2.5/3.3V
1200
600
3.6
388
6.25
9.2
1
211
Fujitsu - Mie
0.13um CMOS
LCMXO2280
1.2/1.8/2.5/3.3V
2280
1140
3.6
388
7.5
27.6
2
271
Fujitsu - Mie
0.13um CMOS
78
74
113
74
101
159
73
113
73
113
211
211
271
78
The MachXO product family features Lattice's exclusive sysCLOCK PLLs, sysMEM embedded memory blocks
(EBRs) and high-performance I/Os. The MachXO product family also offers flexible I/O buffers which supports
with a wide range of interfaces including LVCMOS 3.3/2.5/1.8/1.5/1.2 LVTTL, PCI, LVDS, Bus -LVDS, LVPECL
and RSDS. The MachXO product family is in-system programmable through the IEEE Standard 1532 interface.
IEEE Standard 1149.1 boundary scan testing capability also allows product testing on automated test equipment.
The MachXO product family is built on CS90F (also known as EE12) process technology. The CS90F Process
Technology is a 130 nm Flash CMOS process with low-k dielectric and copper metallization, fabricated by Fujitsu
Limited. This process uses 8 planarized Cu metal interconnect layers, an Al top layer metal layer and a double
layer poly-silicon flash cell. The CS90F process technology was originally qualified using qualification vehicles
from the Lattice XP Product Family. Therefore, data from those devices are included in this report.
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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2.0 LATTICE PRODUCT QUALIFICATION PROGRAM
Lattice Semiconductor Corp. maintains a comprehensive reliability qualification program to assure that each
product achieves its reliability goals. After initial qualification, the continued high reliability of Lattice products is
assured through ongoing monitor programs as described in Reliability Monitor Program Procedure (Doc. #70101667). All product qualification plans are generated in conformance with Lattice Semiconductor’s Qualification
Procedure (Doc. #70-100164) with failure analysis performed in conformance with Lattice Semiconductor’s Failure
Analysis Procedure (Doc. #70-100166).
Both documents are referenced in Lattice Semiconductor’s Quality
Assurance Manual, which can be obtained upon request from a Lattice Semiconductor sales office. Figure 2.1
shows the Product Qualification Process Flow.
If failures occur during qualification, an 8D process is used to find root cause and eliminate the failure mode from
the design, materials, or process. The effectiveness of any fix or change is validated through additional testing
as required. Final testing results are reported in the qualification reports.
Failure rates in this reliability report are expressed in FITs. Due to the very low failure rate of integrated circuits,
it is convenient to refer to failures in a population during a period of 10 9 device hours; one failure in 109 devic e
hours is defined as one FIT.
Product families are qualified based upon the requirements outlined in Tables 2.2.
In general, Lattice
Semiconductor follows the current Joint Electron Device Engineering Council (JEDEC) and Military Standard
testing methods.
Lattice automotive products are qualified and characterized to the Automotive Electronics
Council (AEC) testing requirements and methods. Product family qualification will include products with a wide
range of circuit densities, package types, and package lead counts. Major changes to products, processes, or
vendors require additional qualification before implementation.
The Lattice MachXO product family is Lattice’s second 130 nm Flash Technology based product offering.
Th e
LatticeXP product family was the initial 130 nm Flash Technology product line and as such was used as the
primary technology qualification vehicle.
The LatticeXP and MachXO product families are built on the same
foundry line (Fujitsu Mie-323 200mm), using the same technology design rules, design methodology and share
the same standard design library. In 2014 the very popular MachXO product family is transferring to an alternate
foundry line (Fujitsu Mie-101 300mm) to assure a long term supply. This foundry line currently manufactures the
LatticeXP2 product family.
Lattice Semiconductor maintains a regular reliability monitor program.
The current Lattice Reliability Monitor
Report can be found at Product Reliability Monitor Report.
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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Figure 2.1 Lattice Standard Product Qualification Process Flow
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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Table 2.2 Standard Qualification Testing
TEST
STANDARD
High Temperature Lattice Procedure
Operating Life
# 87-101943,
HTOL
JESD22-A108
Mach XO
Mach XO2
LatticeXP
High Temp Data
Retention
HTRX
Lattice Procedure
# 87-101925,
JESD22-A103
JESD22-A117
High Temp
Storage Life
HTSL
Mach XO
Mach XO2
LatticeXP
Lattice Procedure
# 87-101925,
JESD22-A103
Endurance Program/Erase
Cycling
Lattice Procedure,
# 70-104633
JESD22-A117
Flash based
Products
ESD HBM
MachXO
LatticeXP
Lattice Procedure
# 70-100844,
JS-001-2012
ESD CDM
Lattice Procedure
# 70-100844,
JESD22-C101
Lattice Procedure
# 70-101570,
JESD78
Latch Up
Resistance
LU
Surface Mount
Pre-conditioning
SMPC
Temperature
Cycling
TC
Lattice Procedure
# 70-103467,
IPC/JEDEC
J-STD-020D.1
JESD-A113
CPLD/FPGA - MSL 3
Lattice Procedure
#70-101568,
JESD22-A104
TEST CONDITIONS
SAMPLE SIZE PERFORMED ON
(Typ)
125° C,
77/lot
Design, Foundry
Maximum operating Vcc, 2 lots
Process, Package
168, 500, 1000 hours
Qualification
Preconditioned with
1000 read/write cycles
150° C,
100/lot
Maximum operating Vcc, 2 lots
168, 500, 700 hrs.
Design, Foundry
Process, Package
Qualification
Preconditioned with
1000 read/write cycles
150° C, at 168, 500,
1000 hours.
E2 Cell Products
Flash based Products
77/lot
2 lots
Design, Foundry
Process, Package
Qualification
Program/Erase
10/lot
devices to 10,000 cycles 2 lots typical
Design, Foundry
Process, Package
Qualification
Human Body Model
(HBM) sweep to 2000V
(130nm and older)
3 parts/lot
1-3 lots typical
Design, Foundry
Process
Charged Device model
(CDM) sweep to 1000V
(130nm and older)
±100 ma on I/O's,
Vcc +50% on Power
Supplies. (Max operating
temperature)
10 Temp cycles,
24 hr 125° C Bake
192hr. 30/60 Soak
3 SMT simulation cycles
3 parts/lot
1-2 lots typical
Design, Foundry
Process
6 parts/lot
1-2 lots typical
Design, Foundry
Process
(700 or 1000 cycles)
Repeatedly cycled
between -55° C and
+125° C in an air
environment
45 parts/lot
2 lots
All units going Plastic Packages only
into
Temp Cycling,
UHAST,
BHAST,
85/85
Design, Foundry
Process, Package
Qualification
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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Unbiased HAST
UHAST
Lattice Procedure
# 70-104285
JESD22-A118
2 atm. Pressure,
96 hrs, 130 C,
85% Relative Humidity
45 parts/lot
2 lots
Foundry Process,
Package Qualification
Moisture
Resistance
Temperature
Humidity Bias
Lattice Procedure
# 70-101571,
JESD22-A101
Biased to maximum
operating Vcc, 85° C,
85% Relative Humidity,
1000 hours
or
Biased to maximum
operating Vcc, 2atm.
Pressure,
96 hrs, 130 C,
85% Relative Humidity
45 devices/lot
2 lots
Plastic Packages only
Design, Foundry
Process, Package
Qualification
85/85 THB
or
Biased HAST
(BHAST)
Physical
Dimensions
Wire Bond
Strength
Solderability
JESD22-A110
Lattice Procedure
# 70-100211,
MIL-STD- 883 Method
2016 or applicable
LSC case outline
drawings
Lattice Procedure
# 70-100220
Plastic Packages only
Measure all dimensions 5 devices
listed on the case
outline.
Package Qualification
6 gr. min. for 1.25 mil
gold wire
15 devices per Design, Foundry
pkg. per year
Process, Package
Qualification
Lattice Procedure
Steam Pre-conditioning 22 leads/
All packages except
# 70-100212,
4-8 hours. Solder dip
3 devices/
BGAs
MIL-STD-883, Method at 245°C+5°C
Package family/
2003
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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3.0 QUALIFICATION DATA FOR CS90F PROCESS TECHNOLOGY
The Lattice MachXO product family is the Lattice’s second 130 nm Flash Technology based product offering. The
LatticeXP product family was the initial 130 nm Flash Technology product line and as such was used as the
primary technology qualification vehicle in the Fujitsu Mie-323 200mm foundry, using the same technology design
rules, design methodology and share the same standard design library. In 2014 the very popular MachXO product
family is transferring to an alternate foundry line (Fujitsu Mie-101 300mm) to assure a long term supply. This
foundry line currently manufactures the Flash Technology based LatticeXP2 product family.
Product Family: MachXO, LFXP
Packages offered: ftBGA, csBGA, fpBGA, PQFP and TQFP
Process Technology Node: 130nm
3.1 MachXO Product Family Life Data
High Temperature Operating Life (HTOL) Test
The High Temperature Operating Life test is used to thermally accelerate those wear out and failure mechanisms
that would occur as a result of operating the device continuously in a system application. Consistent with JEDEC
JESD22-A108 “Temperature, Bias, and Operating Life”, a pattern specifically designed to exercise the maximum
amount of circuitry is programmed into the device and this pattern is continuously exercised at specified voltages
as described in test conditions for each device type.
CS90F Life Test (HTOL) Conditions:
Stress Duration: 168, 500, 1000 (qual complete) hours; 1500 & 2000 (extended stress) hours
Temperature: 125°C
Stress Voltage MachXO (LCMXO): VCC =1.26V (E) or 3.47V (C) / V CCIO=3.47V
Stress Voltage LAMachXO (LA-MXO): VCC =1.26V (E) or 3.47V (C) / V CCIO=3.47V
Stress Voltage LatticeXP (LFXP): VCC =1.26V/ V CCIO=3.47V, VCC=2.5V/ V CCIO=3.47V
Preconditioned with 1000 read/write cycles
Method: Lattice Document # 87-101943 and JESD22-A108D
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Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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Table 3.1.1 MachXO Product Family (CS90F) Life Results
Lot #
Qty
LCMXO2280C
Wafer
Fab
Mie-101
Lot #1
78
LCMXO2280E
Mie-101
Lot #1
84
0
0
0
NA
NA
84,000
LCMXO2280E
Mie-101
Lot #2
85
0
0
0
NA
NA
85,000
LCMXO2280E
Mie-101
Lot #3
85
0
0
0
NA
NA
85,000
LCMXO640E
Mie-323
Lot #1
44
0
0
0
NA
0
88,000
LCMXO640C
Mie-323
Lot #1
44
0
0
0
NA
0
88,000
LCMXO640E
Mie-323
Lot #2
44
0
0
0
NA
0
88,000
LCMXO640C
Mie-323
Lot #2
44
0
0
0
NA
0
88,000
LCMXO640E
Mie-323
Lot #3
40
0
0
0
NA
0
80,000
LCMXO640C
Mie-323
Lot #3
40
0
0
0
NA
0
80,000
LCMXO256E
Mie-323
Lot #1
38
0
0
0
NA
0
76,000
LCMXO256C
Mie-323
Lot #1
38
0
0
0
NA
0
76,000
LCMXO256E
Mie-323
Lot #2
38
0
0
0
NA
0
76,000
LCMXO256C
Mie-323
Lot #2
38
0
0
0
NA
0
76,000
LFXP10C
Mie-323
Lot #A
70
0
0
0
NA
NA
70,000
LFXP10C
Mie-323
Lot #B
50
0
0
0
0
0
100,000
LFXP10C
Mie-323
Lot #C
75
0
0
0
0
0
150,000
LFXP10E
Mie-323
Lot #D
59
0
0
0
0
N/A
88,500
LFXP10E
Mie-323
Lot #E
35
0
0
0
0
0
70,000
LFXP3E
Mie-323
Lot #1
76
0
0
0
0
0
152,000
Product Name
168 Hrs 500 Hrs 1000 Hrs 1500 Hrs 2000 Hrs Cumulative
Result
Result
Result
Result
Result
Hours
0
NA
NA
NA
NA
13,104
LFXP3E
Mie-323
Lot #2
75
0
0
0
0
0
150,000
LAMXO256C
Mie-323
Lot #9
79
0
0
0
NA
NA
79,000
LAMXO256E
Mie-323
Lot# 10
78
0
0
0
NA
NA
78,000
LAMXO640E
Mie-323
Lot #12
80
0
0
0
NA
NA
80,000
CS90F Cumulative Device Hours = 2,100,604
CS90F Cumulative Sample Size = 0 / 1,417
CS90F FIT Rate = 6 FIT
MachXO Cumulative Result =0 / 740
LatticeXP Cumulative Result = 0 / 440
LAMachXO Cumulative Result =0 / 237
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Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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3.2 MachXO Product Family High Temperature Retention (HTRX) Data
High Temperature Data Retention (HTRX)
The High Temperature Data Retention test measures the Flash cell reliability while the High Temperat ure
Operating Life test is structured to measure functional operating circuitry failure mechanisms.
The High
Temperature Data Retention test is specifically designed to accelerate charge gain on to or charge loss off of the
floating gates in the device’s array. Since the charge on these gates determines the actual pattern and function
of the device, this test is a measure of the reliability of the device in retaining programmed information. In High
Temperature Data Retention, the Flash cell reliability is determined by monitoring the cell margin after biased
static operation at 150°C. All cells in all arrays are life tested in both programmed and erased stat es. Prior to
data retention testing all products are pre-conditioned to the maximum data sheet conditions program/eras e
cycles.
The High Temperature Storage Life (HTSL) test is used to determine the effect of time and temperature, under
storage conditions, for thermally activated failure mechanisms. For the non-volatile based products, the HTRX
and HTSL stress and test conditions condition are the same. The HTSL test is covered by HTRX.
CS90F Data Retention (HTRX) Conditions:
Stress Duration: 168, 500, 1000 hours.
Temperature: 150C
Stress Voltage MachXO (LCMXO): VCC =1.3V (E) or 3.6V (C) / V CCIO=3.6V
Stress Voltage LAMachXO (LA-MXO): VCC =1.3V (E) or 3.6V (C) / V CCIO=3.6V
Stress Voltage LatticeXP (LFXP): VCC =1.26V/ V CCIO=3.6V, V CC=2.5V/ V CCIO=3.6V
Stress Voltage LatticeXP2 (LFXP2): VCC =1.26V/ V CCIO=3.6V, V CC =2.5V/ V CCIO=3.6V
Method: Lattice Document # 87-101925 and JESD22-A103D / JESD22-A117C
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Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
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Table 3.2.1 CS90F High Temperature Retention Results
Wafer
Fab
Product Name
Package Assembly
Type
Site
Lot #
Qty
168 Hrs 500 Hrs
Result Result
1000
Hrs
Result
1500
Hrs
Result
2000
Hrs
Result
Cumulative
Hours
LCMXO2280C Mie-101 324 ftBGA
ASEM
Lot #1*
28
0
0
0
NA
NA
28,000
LCMXO2280C Mie-101 324 ftBGA
ASEM
Lot #2*
28
0
0
0
NA
NA
28,000
LCMXO2280C Mie-101 324 ftBGA
ASEM
Lot #3*
28
0
0
0
NA
NA
28,000
LCMXO2280E Mie-101 100 TQFP
ASEM
Lot #1*
27
0
0
0
NA
NA
27,000
LCMXO2280E Mie-101 100 TQFP
ASEM
Lot #2*
27
0
0
0
NA
NA
27,000
LCMXO2280E Mie-101 100 TQFP
ASEM
Lot #3*
27
0
0
0
NA
NA
27,000
LAXP2-17E
Mie-323 256 ftBGA
ASEM
Lot #1**
69
0
0
0
NA
NA
69,000
LAXP2-17E
Mie-323 256 ftBGA
ASEM
Lot #8**
100
0
0
0
NA
NA
100,000
LAXP2-17E
Mie-323 256 ftBGA
ASEM
Lot #9**
80
0
0
0
NA
NA
80,000
LAXP2-17E
Mie-323 256 ftBGA
ASEM
Lot #10**
80
0
0
0
NA
NA
80,000
LFXP2-40E
Mie-323 672 fpBGA
ASEM
Lot #1**
80
0
0
0
NA
NA
80,000
LFXP2-8E
Mie-323 144 TQFP
ASEM
Lot #1***
46
0
0
0
NA
NA
46,000
LFXP2-5E
Mie-323 144 TQFP
ASEM
Lot #1***
80
0
0
0
NA
NA
80,000
LFXP2-5E
Mie-323 144 TQFP
ASEM
Lot #2***
80
0
0
0
NA
NA
80,000
LAXP2-5E
Mie-323 208 PQFP
ASEM
Lot #1***
80
0
0
0
NA
NA
80,000
LAXP2-5E
Mie-323 208 PQFP
ASEM
Lot #2***
80
0
0
0
NA
NA
80,000
LAXP2-5E
Mie-323 208 PQFP
ASEM
Lot #3***
77
0
0
0
NA
NA
77,000
LCMXO640C
Mie-323 256 fpBGA
ASEM
Lot #1***
88
0
0
0
NA
NA
88,000
LCMXO640C
Mie-323 256 fpBGA
ASEM
Lot #2***
88
0
0
0
NA
NA
88,000
LFXP10C
Mie-323 388 fpBGA
ASEM
Lot #3*** 148
0
0
0
0
0
296,000
LFXP10C
Mie-323 388 fpBGA
ASEM
Lot #6*** 150
0
0
0
0
0
300,000
LFXP10C
Mie-323 388 fpBGA
ASEM
Lot #7***
55
0
0
0
0
0
110,000
LAMXO256C
Mie-323 100 TQFP
ASEM
Lot #9***
80
0
0
0
NA
NA
80,000
LAMXO256E
Mie-323 100 TQFP
ASEM
Lot# 10*** 80
0
0
0
NA
NA
80,000
LAMXO640E
Mie-323 256 fpBGA
ASEM
Lot #12*** 78
0
0
0
NA
NA
78,000
* These lots have copper (Cu) wire bonds & stressed as High Temperature Storage Life (150C bake – NVM cells erased).
** These lots have gold (Au) wire bonds & stressed as High Temperature Data Retention (150C bake– NVM cells 50/50
programmed & erased).
*** These lots have gold (Au) wire bonds & stressed as High Temperature Storage Life (150C bake – NVM cells erased).
CS90F Cumulative HTRX Failure Rate = 0 / 1,784
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
13
3.3 MachXO Product Family Endurance Cycling Data
Endurance testing measures the durability of the device through programming and erase cycles. Endurance
testing consists of repeatedly programming and erasing all cells in the array at 25°C to simulate pro gramming
cycles the user would perform. This test evaluates the integrity of the thin tunnel oxide through which current
passes to program the floating gate in each cell of the array.
CS90F Endurance Test Conditions:
Stress Duration: 1K, 2K, 3K, 5K, 10K Cycles
Stress Voltage MachXO (LCMXO): VCC =3.6V/ V CCIO=3.6V
Stress Voltage LatticeXP (LFXP): VCC =2.5V/ V CCIO=3.6V
Method: Lattice Document # 70-104633 and JESD22-A117A
Table 3.3.1 CS90F Flash Endurance Cycling Results
Product Name
Wafer
Fab
Lot #
Qty
1K CYC
Result
2K CYC
Result
3K CYC 5K CYC 10K CYC Cumulative
Result
Result Result
Cycles
LCMXO2280E
Mie-101
Lot #1
79
0
0
0
0
0
790,000
LCMXO640C
Mie-323
Lot #3
24
0
0
0
0
0
240,000
LFXP10C
Mie-323
Lot #6
10
0
0
0
0
0
100,000
LFXP10C
Mie-323
Lot #7
10
0
0
0
0
0
100,000
CS90F Cumulative Endurance Failure Rate = 0 / 123
CS90F Cumulative Endurance Cycles = 1,230,000
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
14
3.4 MachXO Product Family – ESD and Latch UP Data
Electrostatic Discharge-Human Body Model:
MachXO (LCMXO) product family was tested per the JS-001-2012 Electrostatic Discharge (ESD) Sensitivity
Testing Human Body Model (HBM) procedure and Lattice Procedure # 70-100844.
All units were tested at 25C and +105C prior to reliability stress and after reliability stress. No failures were
observed within the passing classification.
Table 3.4.1 MachXO (LCMXO) ESD-HBM Data
Product/Package
100 TQFP
LCMXO2280C
132 csBGA
256 ftBGA
324 ftBGA
> 2KV
Class 2*
>1.8KV
Class 1C*
> 2KV
Class 2*
> 2KV
Class 2*
LCMXO2280E
QBS
> 2KV
Class 2
QBS
> 2KV
Class 2
QBS
> 2KV
Class 2
> 2KV
Class 2
LCMXO1200C
> 2KV
Class 2*
> 2KV
Class 2*
>1.9KV
Class 1C*
> 2KV
Class 2*
LCMXO1200E
> 2KV
Class 2*
> 2KV
Class 2*
> 2KV
Class 2*
> 2KV
Class 2*
LCMXO640C
LCMXO640E
QBS
> 2KV
Class 2
QBS
> 2KV
Class 2
LCMXO256C
> 2KV
Class 2
LCMXO256E
> 2KV
Class 2
144 TQFP
100 csBGA
QBS
> 2KV
Class 2
QBS
> 2KV
Class 2
> 2KV
Class 2
> 2KV
Class 2
QBS
> 2KV
Class 2
*Current HBM results based on the Mie-323 wafer fab. The Mie-101 wafer fab results Q1’15.
HBM classification for Commercial/Industrial products, per JS-001-2012
All HBM levels indicated are dual-polarity (±)
Each device (unique silicon mask set) is Qualified-by-similarity (QBS) from one of the device/package combinations
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
15
Electrostatic Discharge-Charged Device Model:
MachXO (LCMXO) product family was tested per the JESD22-C101F, Field-Induced Charged-Device Model Test
Method for Electrostatic-Discharge-Withstand Thresholds of Microelectronic Components procedure and Lattice
Procedure # 70-100844.
All units were tested at 25C and +105C prior to reliability stress and after reliability stress. No failures were
observed within the passing classification.
Table 3.4.2 MachXO (LCMXO) ESD-CDM Data
Product/Package
100 TQFP
LCMXO2280C
144 TQFP
100 csBGA
132 csBGA
256 ftBGA
324 ftBGA
QBS
Class 3
QBS
Class 3
QBS
Class 3
> 1KV
Class 3
LCMXO2280E
QBS
Class 3
QBS
Class 3
QBS
Class 3
> 1KV
Class 3
LCMXO1200C
QBS
Class 3
QBS
Class 3
QBS
Class 3
> 1KV
Class 3
LCMXO1200E
QBS
Class 3
QBS
Class 3
QBS
Class 3
> 1KV
Class 3
LCMXO640C
QBS
Class 3
QBS
Class 3
> 1KV
Class 3
LCMXO640E
QBS
Class 3
QBS
Class 3
> 1KV
Class 3
LCMXO256C
> 1KV
Class 3
LCMXO256E
>1KV
Class 3
QBS
Class 3
CDM classification for Commercial/Industrial products, per JESD22 -C101F
All CDM levels indicated are dual-polarity (±)
Each device (unique silicon mask set) is Qualified-by-similarity (QBS) from one of the device/package combinations
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
16
Latch-Up:
MachXO (LCMXO) product family was tested per the JEDEC EIA/JESD78 IC Latch-up Test procedure and Lattice
Procedure # 70-101570.
All units were tested at 25C and +105C prior to reliability stress and after reliability stress. No failures were
observed within the passing classification.
Table 3.4.3 MachXO (LCMXO) I/O Latch Up Data
Product/Package
100 TQFP
LCMXO2280C
144 TQFP
100 csBGA
132 csBGA
256 ftBGA
324 ftBGA
QBS
Class II
QBS
Class II
QBS
Class II
>+/-100mA
Class II
LCMXO2280E
QBS
Class II
QBS
Class II
QBS
Class II
>+/-100mA
Class II
LCMXO1200C
QBS
Class II
QBS
Class II
QBS
Class II
>+/-100mA
Class II
LCMXO1200E
QBS
Class II
QBS
Class II
QBS
Class II
>+/-100mA
Class II
LCMXO640C
QBS
Class II
QBS
Class II
>+/-100mA
Class II
LCMXO640E
QBS
Class II
QBS Class
II
>+/-100mA
Class II
LCMXO256C
>+/-100mA
Class II
LCMXO256E
>+/-100mA
Class II
QBS
Class II
I-Test LU classification for Commercial/Industrial products, per JESD78
All IO-LU levels indicated are dual-polarity (±)
Latch Up Classification: The two main classes are Class I for latch -up at room-temperature and Class II for Latch-Up at
the maximum-rated ambient temperature
Each device (unique silicon mask set) is Qualified-by-similarity (QBS) from one of the device/package combinations
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
17
Table 3.4.4 MachXO (LCMXO) Power Supply Over-Voltage Latch-Up Data
Product/Package
100 TQFP
LCMXO2280C
144 TQFP
100 csBGA
132 csBGA
256 ftBGA
324 ftBGA
QBS
Class II
QBS
Class II
QBS
Class II
>1.5xVcc
Class II
LCMXO2280E
QBS
Class II
QBS
Class II
QBS
Class II
>1.5xVcc
Class II
LCMXO1200C
QBS
Class II
QBS
Class II
QBS
Class II
>1.5xVcc
Class II
LCMXO1200E
QBS
Class II
QBS
Class II
QBS
Class II
>1.5xVcc
Class II
LCMXO640C
QBS
Class II
QBS
Class II
>1.5xVcc
Class II
LCMXO640E
QBS
Class II
QBS
Class II
>1.5xVcc
Class II
LCMXO256C
>1.5xVcc
Class II
LCMXO256E
>1.5xVcc
Class II
QBS
Class II
Power Supply Over-Voltage Latch-Up LU classification for Commercial/Industrial products, per JESD78D
Latch-Up Classification: The two main classes are Class I for latch-up at room-temperature and Class II for Latch-Up at the
maximum-rated ambient temperature.
Each device (unique silicon mask s et) is Qualified-by-similarity (QBS) from one of the device/package combinations
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
18
4.0 PACKAGE QUALIFICATION DATA FOR MACHXO PRODUCT FAMILY
The MachXO and LFXP product family is offered in ftBGA, csBGA, fpBGA PQFP and TQFP packages. To cover
the range of die in the largest package types for this product family, different package and die combinations were
chosen as the generic qualification vehicles for all the package qualification tests including, Temperature Cycling
(T/C),
Un-biased HAST (UHAST)and Biased HAST (BHAST).
Mechanical evaluation tests include Scanning
Acoustic Tomography (SAT) and visual package inspection.
The generation and use of generic data is applied across a family of products or packages emanating from one
base wafer foundry or assembly process is a Family Qualification, or Qualification-By-Similarity. For the package
stresses BHAST and UHAST, these are considered generic for a given Package Technology. T/C is considered
generic up to an evaluated die size + package size + 10%, for a given Package Technology. Surface Mount Pre Conditioning (SMPC) is considered generic up to an evaluated Peak Reflow temperature, for a given P ackage
Technology. The following table demonstrates the package qualification matrix.
Table 4.0 Product-Package Qualification-By-Extension Matrix
Products
LCMXO2280C/E
Stress
Test
ASEM / ATK / UTAC
Leaded Packages
ASEM / ATP / UTAC
Saw-singulated BGA Packages
100csBGA
100-TQFP
144-TQFP
132-csBGA
SMPC
260°C
260°C
260°C
260°C
T/C
700/1K cyc
700/1K cyc
700/1K cyc
700/1K cyc
BHAST
96 hours
96 hours
UHAST
96 hours
96 hours
130C/96hr,
110C/264hr
130C/96hr,
110C/264hr
(2)
(3)
260°C
260°C
SMPC
LCMXO1200C/E
T/C
BHAST
UHAST
SMPC
LCMXO640C/E
T/C
700/1K cyc
BHAST
96 hours
UHAST
96 hours
SMPC
LCMXO256C/E
(1)
T/C
(3)
700/1K cyc
256-ftBGA
(3)
324-ftBGA
(3)
130C/96hr,
110C/264hr
260°C
1000
cycles
260°C
1000
cycles
(1)
(3)
BHAST
UHAST
1 – Qualified-by-similarity (QBS) from the 100TQFP Package and the 144TQFP Package
2 – Qualified-by-similarity (QBS) from the LCMXO-1200 144TQFP and the LCMXO-2280 144TQFP (largest die/package
combination)
3 – Qualified-by-similarity (QBS) from the LCMXO-2280 324-ftBGA (largest die/package combination)
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
19
4.1 MachXO Product Family Surface Mount Preconditioning Testing
The Surface Mount Preconditioning (SMPC) Test is used to model the surface mount assembly conditions during
component solder processing. All devices stressed through Temperature Cycling, Un-biased HAST and Biased
HAST were preconditioned.
This preconditioning is consistent with JEDEC JESD22-A113F “Preconditioning
Procedures of Plastic Surface Mount Devices Prior to Reliability Testing”, Moisture Sensitivity Level 3(MSL3)
package moisture sensitivity and dry-pack storage requirements.
Surface Mount Preconditioning (MSL3)
(10 Temperature Cycles, 24 hours bake @ 125°C, 30°C/60% RH, soak 192 hours, 225/245/250/260°C Reflow
Simulation, 3 passes) performed before all CS90F package tests.
MSL3 Packages: TQFP, PQFP, fpBGA, ftBGA, csBGA
Method: Lattice Procedure # 70-103467, J-STD-020D.1, JESD22-B101B; JESD22-A113F, and JESD22-A104D
Table 4.1.1 Surface Mount Precondition Data
Product Name
Package
Assembly
Site
Lot
Number
LCMXO2280C
132 csBGA
ASEM
Lot #1*
30
LCMXO2280C
132 csBGA
ASEM
Lot #2*
LCMXO2280C
132 csBGA
ASEM
Lot #3*
LCMXO2280C
324 ftBGA
ASEM
LCMXO2280C
324 ftBGA
LCMXO2280C
LCMXO2280E
Quantity # of Fails
Reflow
Temperature
0
260°C
30
0
260°C
30
1A
260°C
Lot #1*
104
0
260C
ASEM
Lot #2*
84
0
260C
324 ftBGA
ASEM
Lot #3*
84
0
260C
100 TQFP
ASEM
Lot #1*
84
0
260C
LCMXO2280E
100 TQFP
ASEM
Lot #2*
84
0
260C
LCMXO2280E
100 TQFP
ASEM
Lot #3*
84
0
260C
LCMXO2280E
144 TQFP
ASEM
Lot #1*
30
0
260C
LCMXO2280E
144 TQFP
ASEM
Lot #2*
30
0
260C
LCMXO2280E
144 TQFP
ASEM
Lot #3*
30
0
260C
LFXP3E
100 TQFP
ASEM
Lot #1**
45
0
260°C
LFXP3E
208 PQFP
ASEM
Lot #3**
45
0
245°C
LFXP10C
256 fpBGA
ASEM
Lot #13**
32
0
250°C
LFXP10C
256 fpBGA
ASEM
Lot #14**
17
0
250°C
LFXP10C
256 fpBGA
ASEM
Lot #15**
3
0
250°C
LFXP10E
256 fpBGA
ASEM
Lot #16**
40
0
250°C
LCMXO2280
256 ftBGA
ASEM
Lot #1**
45
0
260°C
LCMXO2280
256 ftBGA
ASEM
Lot #2**
45
0
260°C
LFXP10E
388 fpBGA
ASEM
Lot #2**
135
0
250°C
LFXP10E
388 fpBGA
ASEM
Lot #5**
135
0
250°C
LFXP10E
388 fpBGA
ASEM
Lot #8**
45
0
250°C
LFXP10C
388 fpBGA
ASEM
Lot #9**
25
0
250°C
LFXP10C
388 fpBGA
ASEM
Lot #10**
14
0
250°C
LFXP10C
388 fpBGA
ASEM
Lot #11**
26
0
250°C
LFXP10C
388 fpBGA
ASEM
Lot #12**
28
0
250°C
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
INDEX Return
20
100 TQFP
Assembly
Site
ATK
Lot
Number
Lot #1**
45
0
Reflow
Temperature
260°C
LCMXO256C
100 TQFP
ATK
Lot #2**
45
0
260°C
LAMXO640C
144 TQFP
LAMXO640C
144 TQFP
ATK
Lot #1**
241
0
260°C
ATK
Lot #2**
240
0
260°C
LAMXO2280E
144 TQFP
ATK
Lot #3**
233
0
260°C
LAMXO2280E
144 TQFP
ATK
Lot #4**
217
0
260°C
LCMXO256C
100 csBGA
ATP
Lot #3**
45
0
260°C
LCMXO256C
100 csBGA
ATP
Lot #4**
45
0
260°C
LCMXO640E
132 csBGA
ATP
Lot #1**
90
0
260°C
LCMXO640C
256 fpBGA
ATP
Lot #1**
46
0
250°C
LCMXO640C
256 fpBGA
ATP
Lot #2**
48
0
250°C
LCMXO2280C
324 ftBGA
ATP
Lot #1**
45
0
260°C
LCMXO2280C
324 ftBGA
ATP
Lot #2**
45
0
260°C
LAMXO2280E
324 ftBGA
ATP
Lot #5**
166
0
260°C
LAMXO2280E
324 ftBGA
ATP
Lot #6**
232
0
260°C
LAMXO2280E
324 ftBGA
ATP
Lot #7**
217
0
260°C
LAMXO2280E
324 ftBGA
ATP
Lot #8**
79
0
260°C
LFXP10E
388 fpBGA
ATP
Lot #1**
90
0
225°C
LFXP6C
144 TQFP
UTAC
Lot #7**
77
0
260°C
LFXP6C
144 TQFP
UTAC
Lot #8**
77
0
260°C
LFXP6C
144 TQFP
UTAC
Lot #9**
77
0
260°C
LFXP20E
256 ftBGA
UTAC
Lot # 1**
77
0
260°C
LFXP20E
256 ftBGA
UTAC
Lot # 2**
77
0
260°C
Product Name
Package
LCMXO256C
Quantity # of Fails
* These qual lots have copper (Cu) wire bonds .
** These qual lots have gold (Au) wire bonds .
A = FAR#1444: One unit functional failure (root cause analysis in-process)
Cumulative SMPC Failure Rate CS90F = 1 / 3,938
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
21
4.2 MachXO Product Family Temperature Cycling Data
The Temperature Cycling test is used to accelerate those failures resulting from mechanical stresses induced by
differential thermal expansion of adjacent films, layers and metallurgical interfaces in the die and package.
Devices are tested at 25°C after exposure to repeated cycling between -55°C and +125°C in an air environment
consistent with JEDEC JESD22-A104 “Temperature Cycling”, Condition B temperature cycling requirements .
Prior to Temperature Cycling testing, all devices are subjected to Surface Mount Preconditioning. Temperat ure
cycling Qual-Complete is 700 cycles and is a relatively new requirement consistent with JESD47I.
MSL3 Packages: TQFP, PQFP, fpBGA, ftBGA, csBGA
Stress Duration: 700 and 1000 cycles
Stress Conditions: Temperature cycling between -55°C to 125°C
Method: Lattice Procedure # 70-101568, JESD47I, and JESD22-A104D
Table 4.2.1 Temperature Cycling Data
Assembly
Lot
Site
Number
Quantity
250
Cycles
500
Cycles
700
Cycles
1000
Cycles
Lot #1*
28
0
0
0
N/A
ASEM
Lot #2*
28
0
0
0
N/A
ASEM
Lot #3*
28
0
0
0
N/A
132 csBGA
ASEM
Lot #1*
30
0
0
0
N/A
LCMXO2280C
132 csBGA
ASEM
Lot #2*
30
0
0
0
N/A
LCMXO2280C
132 csBGA
ASEM
Lot #3*
29
0
0
0
N/A
LCMXO2280E
100 TQFP
ASEM
Lot #1*
27
0
0
0
N/A
LCMXO2280E
100 TQFP
ASEM
Lot #2*
27
0
0
0
N/A
LCMXO2280E
100 TQFP
ASEM
Lot #3*
27
0
0
0
N/A
LCMXO2280E
144 TQFP
ASEM
Lot #1*
30
0
0
0
N/A
LCMXO2280E
144 TQFP
ASEM
Lot #2*
30
0
0
0
N/A
LCMXO2280E
144 TQFP
ASEM
Lot #3*
29
0
0
0
N/A
LFXP3E
100 TQFP
ASEM
Lot #4**
57
0
0
N/A
0
LFXP3E
208 PQFP
ASEM
Lot #3**
49
0
0
N/A
0
LFXP10C
256 fpBGA
ASEM
Lot #13**
32
0
0
N/A
0
LFXP10C
256 fpBGA
ASEM
Lot #14**
17
0
0
N/A
0
LFXP10C
256 fpBGA
ASEM
Lot #15**
3
0
0
N/A
0
Product Name
Package
LCMXO2280C
324 ftBGA
ASEM
LCMXO2280C
324 ftBGA
LCMXO2280C
324 ftBGA
LCMXO2280C
LFXP10C
256 fpBGA
ASEM
Lot #16**
40
0
0
N/A
0
LCMXO2280
256 ftBGA
ASEM
Lot #1**
45
0
0
N/A
0
LCMXO2280
256 ftBGA
ASEM
Lot #2**
45
0
0
N/A
0
LFXP10E
388 fpBGA
ASEM
Lot #1**
45
0
0
N/A
0
LFXP10C
388 fpBGA
ASEM
Lot #9**
25
0
0
N/A
0
LFXP10C
388 fpBGA
ASEM
Lot #10**
14
0
0
N/A
0
LFXP10C
388 fpBGA
ASEM
Lot #11**
26
0
0
N/A
0
LFXP10C
388 fpBGA
ASEM
Lot #12**
28
0
0
N/A
0
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
22
INDEX Return
Assembly
Lot
Site
Number
ATK
Lot #1**
45
250
Cycles
0
500
Cycles
0
700
Cycles
N/A
1000
Cycles
0
Lot #2**
45
0
0
N/A
0
Lot #1**
241
0
0
N/A
0
ATK
Lot #2**
240
0
0
N/A
0
144 TQFP
ATK
Lot #1**
80
0
0
N/A
0
144 TQFP
ATK
Lot #2**
80
0
0
N/A
0
LAMXO2280E
144 TQFP
ATK
Lot #3**
76
0
0
N/A
0
LAMXO2280E
144 TQFP
ATK
Lot #4**
79
0
0
N/A
0
LCMXO256C
100 csBGA
ATP
Lot #3**
45
0
0
N/A
0
LCMXO256C
100 csBGA
ATP
Lot #4**
45
0
0
N/A
0
LCMXO640E
132 csBGA
ATP
Lot #3**
45
0
0
N/A
0
LCMXO640C
256 fpBGA
ATP
Lot #1**
46
0
0
N/A
0
LCMXO640C
256 fpBGA
ATP
Lot #2**
48
0
0
N/A
0
LCMXO2280C
324 ftBGA
ATP
Lot #1**
45
0
0
N/A
0
LCMXO2280C
324 ftBGA
ATP
Lot #2**
45
0
0
N/A
0
LAMXO2280E
324 ftBGA
ATP
Lot #5**
62
0
0
N/A
0
LAMXO2280E
324 ftBGA
ATP
Lot #6**
72
0
0
N/A
0
LAMXO2280E
324 ftBGA
ATP
Lot #7**
72
0
0
N/A
0
LAMXO2280E
324 ftBGA
ATP
Lot #8**
25
0
0
N/A
0
LFXP6C
144 TQFP
UTAC
Lot #7**
77
0
0
N/A
0
LFXP6C
144 TQFP
UTAC
Lot #8**
77
0
0
N/A
0
LFXP6C
144 TQFP
UTAC
Lot #9**
77
0
0
N/A
0
LFXP20E
256 ftBGA
UTAC
Lot # 1**
77
0
0
N/A
0
LFXP20E
256 ftBGA
UTAC
Lot # 2**
77
0
0
N/A
0
Product Name
Package
LCMXO256C
100 TQFP
LCMXO256C
100 TQFP
ATK
LAMXO640C
144 TQFP
ATK
LAMXO640C
144 TQFP
LAMXO640C
LAMXO640C
Quantity
* These qual lots have copper (Cu) wire bonds.
** These qual lots have gold (Au) wire bonds .
Cumulative Temp Cycle Failure Rate CS90F = 0 / 2,590
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
23
4.3 Unbiased HAST Data
Unbiased Highly Accelerated Stress Test (HAST) testing uses both pressure and temperature to accelerate
penetration of moisture into the package and to the die surface. The Unbiased HAST test is designed to detect
ionic contaminants present within the package or on the die surface, which can cause chemical corrosion.
Consistent JEDEC JESD22-A118, “Accelerated Moisture Resistance Unbiased HAST,” the Unbiased HAST conditions are 96 hour exposure at 130°C, 85% relative humidity, and 2
atmospheres of pressure.
Prior to Unbiased HAST testing, all devices are subjected to Surface Mount
Preconditioning.
MSL3 Packages: TQFP, PQFP, fpBGA, ftBGA, csBGA
Stress Duration: 96 Hrs
Stress Conditions: 130°C, 15psig, 85% RH
Method: Lattice Procedure # 70-104285 and JESD22-A118A
Table 4.3.1 Unbiased HAST Data
Product Name
Package
Assembly
Site
Lot
Number
Quantity
# of
Fails
Stress
Duration
LCMXO640E
132 csBGA
ASEM
Lot #1
45
0
96 Hrs
LFXP10E
388 fpBGA
ASEM
Lot #1
45
0
96 Hrs
LFXP10E
388 fpBGA
ASEM
Lot #2
45
0
96 Hrs
LFXP10E
388 fpBGA
ASEM
Lot #5
45
0
96 Hrs
LAMXO640C
144 TQFP
ATK
Lot #1
81
0
96 Hrs
LAMXO640C
144 TQFP
ATK
Lot #2
79
0
96 Hrs
LAMXO2280E
144 TQFP
ATK
Lot #3
77
0
96 Hrs
LAMXO2280E
144 TQFP
ATK
Lot #4
58
0
96 Hrs
LAMXO2280E
324 ftBGA
ATP
Lot #5
46
0
96 Hrs
LAMXO2280E
324 ftBGA
ATP
Lot #6
72
0
96 Hrs
LAMXO2280E
324 ftBGA
ATP
Lot #7
73
0
96 Hrs
LAMXO2280E
324 ftBGA
ATP
Lot #8
40
0
96 Hrs
Cumulative Unbiased HAST failure Rate CS90F = 0 / 706
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
24
4.4 THB: Biased HAST Data
Highly Accelerated Stress Test (HAST) testing uses both pressure and temperature to accelerate penetration of
moisture into the package and to the die surface. The Biased HAST test is used to accelerate threshold shifts in
the MOS device associated with moisture diffusion into the gate oxide region as well as electrochemical corrosion
mechanisms within the device package. Consistent with JEDEC JESD A110-B “Highly-Accelerated Temperat ure
and Humidity Stress Test (HAST)”, the biased HAST conditions are with Vcc bias and alternate pin biasing in an
ambient of 130°C, 85% relative humidity, for 96 hours; or 110°C, 85% relative humidity, for 264 hours . Prior to
Biased HAST testing, all devices are subjected to Surface Mount Preconditioning.
MSL3 Packages: TQFP, PQFP, fpBGA, ftBGA, csBGA
Stress Conditions: Vcc= 1.2V/ V CCIO = 3.3V, and either 130°C / 85% RH, 96 hrs; or 110°C / 85% RH, 264 hrs
Method: Lattice Procedure # 70-101571, JESD47I, and JESD22-A110D
Table 4.4.1 Biased HAST Data
Assembly
Lot
Site
Number
Quantity
# of
Fails
Stress
Temp
Stress
Duration
Lot #1*
26
0
110°C
264 Hrs
ASEM
Lot #2*
27
0
110°C
264 Hrs
324 ftBGA
ASEM
Lot #3*
25
0
110°C
264 Hrs
100 TQFP
ASEM
Lot #1*
26
0
130°C
96 Hrs
100 TQFP
ASEM
Lot #2*
27
0
130°C
96 Hrs
LCMXO2280E
100 TQFP
ASEM
Lot #3*
27
0
130°C
96 Hrs
LFXP10E
388 fpBGA
ASEM
Lot #2**
45
0
130°C
96 Hrs
LFXP10E
388 fpBGA
ASEM
Lot #5**
45
0
130°C
96 Hrs
Product Name
Package
LCMXO2280C
324 ftBGA
ASEM
LCMXO2280C
324 ftBGA
LCMXO2280C
LCMXO2280E
LCMXO2280E
LFXP10E
388 fpBGA
ASEM
Lot #8**
45
0
130°C
96 Hrs
LAMXO640C
144 TQFP
ATK
Lot #2**
81
0
130°C
96 Hrs
LAMXO2280E
144 TQFP
ATK
Lot #3**
80
0
130°C
96 Hrs
LAMXO2280E
144 TQFP
ATK
Lot #4**
80
0
130°C
96 Hrs
LAMXO2280E
324 ftBGA
ATP
Lot #5**
58
0
130°C
96 Hrs
LAMXO2280E
324 ftBGA
ATP
Lot #6**
88
0
130°C
96 Hrs
LAMXO2280E
324 ftBGA
ATP
Lot #7**
72
0
130°C
96 Hrs
LAMXO2280E
324 ftBGA
ATP
Lot #8**
14
0
130°C
96 Hrs
* These qual lots have copper (Cu) wire bonds .
** These qual lots have gold (Au) wire bonds .
Cumulative BHAST failure Rate CS90F = 0 / 766
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
25
4.5 MachXO Product Family High Temperature Storage Life (HTSL)
High Temperature Storage Life (HTSL)
The High Temperature Storage Life test is used to determine the effect of time and temperature, under storage
conditions, for thermally activated failure mechanisms. Consistent with JEDEC JESD22-A103D, the devices are
subjected to high temperature storage Condition B: +150 (-0/+10) °C for 1000 hours. Prior to High Temperat ure
Storage, all MachXO2 devices are subjected to Surface Mount Preconditioning as mentioned in Table 4.1.1. This
is a relatively new requirement consistent with JESD47F for Pb-free, wirebonded packages. For the non-volatile
based products, the HTRX and HTSL stress and test conditions condition are the same. The HTSL test can be
covered by HTRX.
MSL3 Packages: TQFP, csBGA, QFN
Stress Duration: 1000 hours
Temperature: 150°C (ambient)
Method: Lattice Document # 87-101925, JESD47I, JESD22-A103D, and JESD22-A113F
Table 4.5.1 MachXO High Temperature Storage Life Results
LCMXO2280C Mie-101 324 ftBGA
ASEM
Lot #1*
28
0
0
1000
Hrs
Result
0
LCMXO2280C Mie-101 324 ftBGA
ASEM
Lot #2*
28
0
0
0
NA
NA
28,000
LCMXO2280C Mie-101 324 ftBGA
ASEM
Lot #3*
28
0
0
0
NA
NA
28,000
LCMXO2280E Mie-101 100 TQFP
ASEM
Lot #1*
27
0
0
0
NA
NA
27,000
LCMXO2280E Mie-101 100 TQFP
ASEM
Lot #2*
27
0
0
0
NA
NA
27,000
LCMXO2280E Mie-101 100 TQFP
ASEM
Lot #3*
27
0
0
0
NA
NA
27,000
69
0
0
0
NA
NA
69,000
Product Name
Wafer
Fab
Package Assembly
Type
Site
Lot #
Qty
168 Hrs 500 Hrs
Result Result
1500 2000
Hrs
Hrs
Result Result
NA
NA
Cumulative
Hours
28,000
LAXP2-17E
Mie-323 256 ftBGA
ASEM
Lot #1**
LAXP2-17E
Mie-323 256 ftBGA
ASEM
Lot #8** 100
0
0
0
NA
NA
100,000
LAXP2-17E
Mie-323 256 ftBGA
ASEM
Lot #9**
80
0
0
0
NA
NA
80,000
LAXP2-17E
Mie-323 256 ftBGA
ASEM
Lot #10** 80
0
0
0
NA
NA
80,000
LFXP2-40E
Mie-323 672 fpBGA
ASEM
Lot #1**
80
0
0
0
NA
NA
80,000
LFXP2-8E
Mie-323 144 TQFP
ASEM
Lot #1***
46
0
0
0
NA
NA
46,000
LFXP2-5E
Mie-323 144 TQFP
ASEM
Lot #1***
80
0
0
0
NA
NA
80,000
LFXP2-5E
Mie-323 144 TQFP
ASEM
Lot #2***
80
0
0
0
NA
NA
80,000
LAXP2-5E
Mie-323 208 PQFP
Mie-323 208 PQFP
ASEM
Lot #1***
80
0
0
0
NA
NA
80,000
LAXP2-5E
ASEM
Lot #2***
80
0
0
0
NA
NA
80,000
LAXP2-5E
Mie-323 208 PQFP
ASEM
Lot #3***
77
0
0
0
NA
NA
77,000
LCMXO640C Mie-323 256 fpBGA
ASEM
Lot #1***
88
0
0
0
NA
NA
88,000
LCMXO640C Mie-323 256 fpBGA
ASEM
Lot #2***
88
0
0
0
NA
NA
88,000
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
26
Product Name
Wafer
Fab
Package Assembly
Type
Site
Lot #
Qty
168 Hrs 500 Hrs
Result Result
1000
Hrs
Result
1500 2000
Hrs
Hrs
Result Result
Cumulative
Hours
LFXP10C
Mie-323 388 fpBGA
ASEM
Lot #3*** 148
0
0
0
0
0
296,000
LFXP10C
Mie-323 388 fpBGA
ASEM
Lot #6*** 150
0
0
0
0
0
300,000
LFXP10C
Mie-323 388 fpBGA
ASEM
Lot #7***
55
0
0
0
0
0
110,000
LAMXO256C
Mie-323 100 TQFP
ASEM
Lot #9***
80
0
0
0
NA
NA
80,000
LAMXO256E
Mie-323 100 TQFP
ASEM
Lot# 10*** 80
0
0
0
NA
NA
80,000
LAMXO640E
Mie-323 256 fpBGA
ASEM
Lot #12*** 78
0
0
0
NA
NA
78,000
* These qual lots have copper (Cu) wire bonds & stressed as High Temperature Storage Life (150°C bake) with SMPC.
** These qual lots have gold (Au) wire bonds & stressed as High Temperature Data Retention (150°C bake) without SMPC.
*** These lots have gold (Au) wire bonds & stressed as High Temperature Storage Life (150C bake) without SMPC.
Cumulative HTSL failure Rate = 0 / 1,784
Cumulative HTSL device hours = 2,137,000
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
27
5.0 CS90F PROCESS RELIABILITY WAFER LEVEL REVIEW
Several key fabrication process related parameters have been identified by the foundry that would affect the
Reliability of the End-Product. These parameters are tested during the Development Phase of the Technology .
Passing data (a 10yr lifetime at the reliability junction temperature) must be obtained for three lots minimum for
each parameter before release to production. Normal operating conditions are defined in the Electrical Design
Rules (EDR). These parameters are:
Hot Carrier Immunity (HCI): Effect is a reduction in transistor Idsat. Worst case is low temperature.
Time Dependent Dielectric Breakdown (TDDB): Transistor and capacitor oxide shorts or leakage.
Negative Bias Temperature Instability (NBTI): Symptom is a shift in Vth (also a reduction in Idsat).
Electromigration Lifetime (EML): Symptom is opens within, or shorts between, metal conductors.
Stress Migration (SM): Symptom is a void (open) in a metal Via due to microvoid coalescence.
Table 5.1 Wafer Level Reliability Results Fujitsu Mie Fabs
HCI
TDDB
NBTI
EML
SM
Device
LVN
MVN
HVN
LVP
MVP
HVP
Celsius
delta Ids
25
-10%
25
-10%
25
-10%
25
-10%
25
-10%
25
-10%
Vds
1.32
3.6
5.5
-1.32
-3.6
-3.6
TTF
3 lots > 180yr
5 lots > 18yr
4 lots > 30yr
3 lots > 120yr
3 lots > 64yr
3 lots > 36yr
Device
LVN
MVN
HVN
LVP
MVP
HVP
Celsius
0.1%
TTF
125
125
125
125
125
125
2 lots > 23yr
2 lots > 25yr
1 lot > 10yr
2 lots > 50yr
2 lots > 300yr
1 lot > 10yr
Device
LVP
MVP
HVP
delta Ids
-10%
-10%
-10%
Celsius
TTF
125
3 lots > 60yr
125
5 lots > 47yr
125
3 lots > 200yr
Device
Intermediate
Semi-Global
Celsius
0.1%
TTF
125
125
Global (Top
Al)
125
3 lots > 45yr
1 lot > 72yr
1 lot > 89yr
Intermediate*
Semi-Global
Device
Celsius
125
125
TTF
3 lots > 11yr
3 lots > 11yr
Note: Reliability life times are based on listed temperature and used conditions. Detailed WLR test conditions are
available upon request.
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
28
6.0 MACHXO PACKAGE ASSEMBLY INTEGRITY TESTS
6.1 Wire Bond Shear Test
This procedure is used to measure the wire bond strength at the ball joints. Thirty bonds from a minimum of five
devices were used for Wire Bond Shear.
WIRE BOND SHEAR TEST RESULTS:
All bond shear observations were > 15 grams for TQFP and ftBGA
packages tested.
The average measured bond shear results for 100 and 144 pin TQFP were Cpk of > 3.7 and Ppk of > 3.7.
The average measured bond shear results for 256 and 324 ball ftBGA were Cpk of > 3.5 and Ppk of > 3.5
6.2 Wire Bond Pull
This procedure is used to measure the wire bond strength at the ball joints and stitch bonds.
For products
evaluation thirty bonds from a minimum of five devices were used for and Wire Bond Pull. Test conditions for
these tests were 6 grams minimum for 1.0 mil gold wire
WIRE BOND PULL RESULTS: All bond pull observations were > 6 grams for TQFP and ftBGA packages tested.
The average measured wire bond pull results for 100 and 144 pin TQFP were Cpk of > 3.2 and Ppk of > 3.2.
The average measured wire bond pull results for 256 and 324 ball ftBGA were Cpk of > 2.4 and Ppk of > 2.4.
6.3 Solderability
This procedure is used to evaluate the solderability of device terminals normally joined by a soldering operation.
An accelerated aging test is included in this test method, which simulates natural aging under a combination of
various storage conditions that have deleterious effects. Units are exposed to a 8 hour steam preconditioning
followed a flux exposure for 7 seconds and a dip in Pb-free solder alloy @ 245°C ± 5°C for 5 seconds. Minimum
of 22 leads from 3 devices per lot were tested with zero failure acceptance.
No failures were observed for MachXO devices in TQFP packages. All the tested units passed. There was less
than 5% pitting and dewetting on the solder covered area.
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
29
6.4 Physical Dimensions
Devices were measured using the appropriate Lattice Semiconductor case outline drawings.
The 10 devices each of 100 and 144 pin TQFP from 3 different lots were measured with no failures found. The
calculated Cpk on this small sample is Cpk > 5.2.
The 10 devices each of 256 and 324 pin ftBGA from 3 different lots were measured with no failures found. The
calculated Cpk on this small sample is Cpk > 2.0.
6.5 Solder Ball Shear
For the 256 ball and 324 ball ftBGA packages, ten devices from three lots were tested. All units were exposed to
two surface mount reflow simulations.
The 256 ball ftBGA packages use a 0.40 mm barrier metal diameter. All ball shear observations were > 800
grams.
The 324 ball ftBGA packages use a 0.45 mm barrier metal diameter.
All ball shear observations were > 1200
grams.
The average measured ball shear results for 256 and 324 ball ftBGA packages post reflow stress were Cpk of >
2.0.
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
30
7.0 MACHXO ADDITIONAL FAMILY DATA
Table 7.1 MachXO Package Assembly Data – csBGA/ ftBGA
Package Attributes / Assembly Sites
ASEM
Amkor
UTAC
MachXO
CS90F
(130nm CMOS)
Malaysia
MachXO
CS90F
(130nm CMOS)
Singapore
100/132/256
MachXO
CS90F
(130nm CMOS)
Philippines
csBGA/caBGA/
ftBGA
100/132/256/324
Die Preparation/Singulation
wafer saw, full cut
wafer saw, full cut
wafer saw, full cut
Die Attach Material
Ablebond 2100A
Sumitomo / G770
Series
Gold (Au)
Ablebond 2300
Sumitomo / G770
Series
Gold (Au)
Ablebond 2100A
Hitachi 9750HF
Series
Gold (Au)
Thermosonic Ball
Bismaleimide
Triazine HL83X
Series
Thermosonic Ball
Bismaleimide
Triazine HL83X
Series
Thermosonic Ball
Bismaleimide
Triazine HL83X
Series
L/F Plating or BGA Ball
Sn96.5/Ag3.0/Cu0.5
Sn95.5/Ag4.0/Cu0.5
Sn96.5/Ag3.0/Cu0.5
Lead Finish
SnAgCu solder ball
SnAgCu solder ball
SnAgCu solder ball
Laser
Laser
Laser
ASEM
MachXO
CS90F
(130nm CMOS)
Malaysia
TQFP 100/144
wafer saw, full cut
Ablebond 3230
Hitachi 9220HFA
Series
Gold (Au)
Thermosonic Ball
Cu Alloy
Matte Sn (annealed)
Laser
Amkor
MachXO
CS90F
(130nm CMOS)
Korea
TQFP 100/144
wafer saw, full cut
Ablebond 3230
UTAC
MachXO
CS90F
(130nm CMOS)
Singapore
TQFP 100/144
wafer saw, full cut
Ablebond 3230
Hitachi 9510HF
Series
Gold (Au)
Thermosonic Ball
Cu Alloy
Matte Sn (annealed)
Laser
Die Family (Product Line)
Fabrication Process Technology
Package Assemble Site
Package Type
Ball Counts
Mold Compound Supplier/ID
Wire Bond Material
Wire Bond Methods
Substrate Material
csBGA/ftBGA
Marking
csBGA/ftBGA
100/132/256
Table 7.2 MachXO Package Assembly Data- TQFP
Package Attributes / Assembly Sites
Die Family (Product Line)
Fabrication Process Technology
Package Assembly Site
Package Type / Pin Count
Die Preparation/Singulation
Die Attach Material
Mold Compound Supplier/ID
Wire Bond Material
Wire Bond Methods
Lead frame Material
Lead Finish
Marking
KTMC5700TQ Series
Gold (Au)
Thermosonic Ball
Cu Alloy
Matte Sn (annealed)
Laser
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
31
Table 7.3 Copper (Cu) Bond Wire Bills of Material by Package Type and Assembly Site
Attributes
Assembly Site
Die Family (Product Line)
Fabrication Process
Technology
Package Type
Ball/Lead Counts
Die Attach Material
Mold Compound
Supplier/ID
Mold Compound
Chlorine (Cl-) content
Saw-Singulated BGA
TQFP
Overmolded BGA
ASEM / ASET / ATP
ASEM / ASET / ATP
ASEM / ASET / ATP
ispMACH 4000ZE,
LatticeECP3,
LatticeXP2,
MachXO and
MachXO2
ispMACH 4000ZE,
LatticeEC, LatticeECP,
LatticeECP2,
LatticeECP3, LatticeXP,
LatticeXP2, MachXO
and MachXO2
LatticeEC, LatticeECP,
LatticeECP2M,
LatticeECP3, LatticeXP,
LatticeXP2, and MachXO2
65nm, 90nm, 130nm &
180nm
65nm, 90nm, 130nm &
180nm
65nm, 90nm, & 130nm
ucBGA,
csBGA,
caBGA &
ftBGA
TQFP
fpBGA
64/132,
56/64/100/132/144/328,
256/332 &
256/324
44, 48, 64, 100, 128 &
144
256, 388, 484, 672, 900,
1152 & 1156
Yizbond 8143 /
CRM-1076WA /
Ablebond 3230
Ablebond 2100A /
Ablebond 2100A /
Ablebond 2300
Sumitomo EME G750SE /
CEL-9750ZHF10AKL-U /
GE-110
Ablebond 2100A /
Ablebond 2100A /
Ablebond 2300
Sumitomo EME G750E /
KEG-1250LKDS /
GE-110
Sumitomo EME G700Y /
EME-G631H / G700SY
< 10 ppm
< 20 ppm
< 10 ppm
5 to 7
5 to 7
5 to 7
Wire Bond Material
Palladium-coated
Copper (PdCu)
Copper (Cu) /
Palladium-coated
Copper (PdCu) /
Palladium-coated
Copper (PdCu)
Palladium-coated Copper
(PdCu)
Wire Bond Methods
Thermosonic Ball
Thermosonic Ball
Thermosonic Ball
Mold Compound
pH level
INDEX Return
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
32
8.0 REVISION HISTORY
Table 8.0 Lattice MachXO Product Family Qualification Summary Revisions
Date
October 2005
May 2006
April 2009
Revision
A
B
C
Section
October 2012
D
2.2, 3.4.2
November 2012
E
3.4.2
June 2014
F
All
September 2014
G
All
January 2015
H
Change Summary
New Release
Updated Data in report
Updated report
ESD-MM data added, administrative change to
add document wrapper.
Update ESD-MM terminology
CS90F Fab transfer to Fujitsu Mie-101; deleted
ESD MM data
1000 hour HTOL update; update ESD follow
on products; remove revision levels from
Jedec tables; update Product Qualification
Process Flowchart
Provide schedule for update of correct ESDHBM data; correct wrapper title page
INDEX Return
Lattice Semiconductor Corporation
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Hillsboro, Oregon 97124 U.S.A.
Telephone: (503) 268-8000
www.latticesemi.com
© 2015 Lattice Semiconductor Corp. All Lattice trademarks, registered trademarks, patents, and disclaimers are listed at
www.latticesemi.com/legal. All other brand or product names are trademarks or registered trademarks of their respective
holders. The specifications and information herein are subject to change without notice.
Lattice Semiconductor Corporation Doc. # 25-106236 Rev . H
33