ATMEL TSS463B_03

TSS463B PPAP
TSS463B
Serial VAN Data Link Controller
ATMEL P/N : TSS463B-TERA
PPAP Submission
Date:
Supplier:
2003 October
Atmel Nantes SA
Address:
La Chantrerie
BP 70602
44306 NANTES Cedex 3
France
Tel : 33(0) 2 40 18 18 18
Fax : 33(0) 2 40 18 19 20
1
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
Table of Contents
1
DESIGN RECORDS .............................................................................................................................................................................. 6
1.1
1.2
2
PRODUCT S PECIFICATION.............................................................................................................................................................6
PACKAGE OUTLINE ........................................................................................................................................................................6
ENGINEERING CHANGE DOCUMENTS ................................................................................................................................... 7
2.1
CDC CERTIFICATE OF DESIGN, CONSTRUCTION AND QUALIFICATION............................................................................7
2.1.1 General Product Information................................................................................................................................................... 7
2.1.2 Process Technology Information............................................................................................................................................. 7
2.2
PRODUCT DESIGN ...........................................................................................................................................................................8
2.2.1 Product Design Information..................................................................................................................................................... 8
2.2.2 Product Design Validation....................................................................................................................................................... 8
2.2.3 Package Technology Information ........................................................................................................................................... 9
2.2.4 Packing Delivery Information................................................................................................................................................10
2.2.5 Final Test Information ............................................................................................................................................................10
2.2.6 Device Cross Section...............................................................................................................................................................10
2.3
QUALIFICATION AND CHANGE PROCEDURE...........................................................................................................................11
2.3.1 Qualification methodology.....................................................................................................................................................11
2.3.2 Change Procedure...................................................................................................................................................................12
2.3.3 Qualification test methods......................................................................................................................................................13
3
ENGINEERING APPROVAL..........................................................................................................................................................14
4
DESIGN FMEA ....................................................................................................................................................................................14
5
PROCESS FLOW DIAGRAMS .......................................................................................................................................................14
5.1
5.2
5.3
WAFER PROCESSING ....................................................................................................................................................................14
ASSEMBLY ......................................................................................................................................................................................15
TEST AND PACKING......................................................................................................................................................................15
6
PROCESS FMEA .................................................................................................................................................................................15
7
DIMENTIONAL RESULTS .............................................................................................................................................................15
8
PERFORMANCE TEST RES ULTS ...............................................................................................................................................16
8.1
QUALIFICATION RESULTS ...........................................................................................................................................................16
8.1.1 Wafer Process Qualification..................................................................................................................................................16
8.1.2 Package Qualification.............................................................................................................................................................16
8.1.3 Device Qualification................................................................................................................................................................17
8.1.4 Failure Mechanisms and Corrective Actions......................................................................................................................17
8.1.5 Electrical Distribution in Operating Life-Test....................................................................................................................18
8.1.6 Reliability Calculation............................................................................................................................................................19
8.1.7 ESD Results (HBM) - MIL-STD 883 method 3015.7.........................................................................................................19
8.1.8 Latch-up Results.......................................................................................................................................................................19
8.2
PRODUCT CHARACTERIZATION.................................................................................................................................................19
8.2.1 Characterization environment...............................................................................................................................................19
8.2.2 Corner lot’s splits.....................................................................................................................................................................19
8.2.3 Results / Parameter capability...............................................................................................................................................20
9
2
INITIAL PROCESS STUDY ............................................................................................................................................................21
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
9.1
SCMOS3 PROCESS (Z92G) ........................................................................................................................................................21
10
MEASUREMENT SYSTEM ANALYSIS STUDY................................................................................................................21
11
QUALIFIED LABORATORY DOCUMENTATION ..........................................................................................................22
12
CONTROL PLAN...........................................................................................................................................................................22
13
PART SUBMISSION WARRANT .............................................................................................................................................23
14
APPEARANCE APPROVAL REPORT...................................................................................................................................24
15
BULK MATERIAL REQUIREMENTS ...................................................................................................................................24
16
SAMPLE PRODUCTION PARTS .............................................................................................................................................24
17
MASTER SAMPLE........................................................................................................................................................................24
18
CHECKING AIDS ..........................................................................................................................................................................24
19
CUSTOMER-SPECIFIC REQUIREMENTS .........................................................................................................................24
3
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
Revision history
4
Rev
0
1
2
Issue
2003 March
2003 June
2003 October
3
2003 October
Modification Notice
Initial release (preliminary document)
Initial release (revised document)
Initial release (revised document)
- Add of TSS463B rev 4 reliability assessment
Initial release (revised document)
- Add of reliability calculation
Applicable from
2003 April
2003 June
2003 October
2003 October
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
PPAP Checklist
Requirements
Table of contents
PPAP Checklist
1. Design Records
2. Engineering Change Documents
3. Engineering Approval
4. Design FMEA
5. Process Flow Diagrams
6. Process FMEA
7. Dimensional Results
8. Records of Material / Performance Test Results
8.1 Material Test Records
8.2 Performance Test Records
9. Initial Process Study
10. Measurement System Analysis Study
11. Qualified Laboratory Documentation
12. Control Plan
13. Part Submission Warrant (PSW)
14. Appearance Approval Report
15. Bulk Material Requirements Checklist
16. Sample Production Parts
17. Master Sample
18. Checking Aids
19. Customer Specific Requirements
5
Included
yes
yes
yes
yes
yes
Project risk analysis
yes
yes
Not Applicable
Not applicable to IC
Yes
Yes
Yes
Yes
Yes
Yes
Not applicable to IC
Not applicable to IC
To be ordered
separately
Not attached
Not Applicable
Not attached
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
1 Design Records
1.1
Product Specification
Please refer to ATMEL’s Data Sheet: TSS463B VAN Data Link Controller with serial interface
http://www.atmel.com/
1.2
6
Package Outline
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
2 Engineering Change Documents
2.1
CDC Certificate of Design, Construction and Qualification
2.1.1 General Product Information
Product Name:
TSS463B
Function:
VAN Data Link Controller
Wafer Process:
CMOS 0.5um
Package Type:
SO-L.300 16 leads
Locations:
Process Development
Product Development
Wafer Plant
QC Responsibility
Probe Test
Assembly
Final Test
Lot Release
Shipment Control
Quality Assurance
Reliability Testing
Failure Analysis
Atmel Nantes , France
Atmel Nantes , France
Atmel Nantes , France
Atmel Nantes, France
Atmel Nantes , France
ASE Chung Li, Taiwan
CHIPPAC, China
AMKOR, Korea
TSTI Philippines
Atmel Nantes, France
Global Logistic Center, Philippines
Atmel Nantes, France
Atmel Nantes, France
Atmel Nantes, France
2.1.2 Process Technology Information
Process Type (Name):
Z92 (SCMOS3 : 0.5um Logic CMOS technology)
Base Material:
Wafer Thickness (final)
Wafer Diameter
Bulk silicon
475µm
150 mm
Number Of Masks
14
Gate Oxide (Logic transistors)
Material
Thickness
Silicon Dioxide
110 A
7
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
Polysilicon
Number of Layers
Thickness
1
2000A
Metal
Number of Layers
Material
Layer 1 Thickness
Layer 2 Thickness
Layer 3 Thickness
Passivation
Material
Thickness
2.2
3
AlCu
5150A
5150A
7650A
SiO2 / Nitride
2600A / 6400A
Product Design
2.2.1 Product Design Information
Die Size
Pad Size Opening
Logic Effective Channel Length
Gate Poly Width (min.)
Gate Poly Spacing (min.)
Metal 1 Width
Metal 1 Spacing
Metal 2 Width
Metal 2 Spacing
Metal 3 Width
Metal 3 Spacing
Contact size
Via 1 size
Via 2 size
2
2200µm * 2790 µm (6.14mm )
100µm * 100µm
0.5µm
0.50µm
0.60µm
0.60µm
0.70µm
0.80µm
0.70µm
0.80µm
0.70µm
0.60µm
0.60µm
0.60µm
2.2.2 Product Design Validation
Design validation done according to Atmel Nantes development procedure and documented in the following
documents:
VAN protocol assessment
DASSAULT Test Plan Results TSS463B Rev4
ATD-TS-GU-R001 – October 2002
Laurentiu BIRSAN
Third Party Application assessment
VAN Device TSS463B NSI Test Report
DCL-MUX-0077 /V1.0
Jacques TELLIER
EMC Evaluation
TSS463B Dynamic Current Analysis
APP/LAB/JLL/01/67-0.2
Jean Luc LEVANT
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Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
2.2.3 Package Technology Information
Package weight
Chip separation method
Lead frame
Material
Thickness
Size
Lead plating
Die attach
Material
Type
Wire bonding
Material
Diameter
Method
Molding
Material
Flammability rating
Marking
Method
Drawing example
0.43 g
Sawing
Cu
10 mils
2
270*270 mils
Electroplated Sn/Pb 85/15
Silver epoxy
Ablestick 84-1 LMISR4
Au
1.0 mil
Thermosonic
NITTO MP8000AN
UL94V-0
Printed ink (top) and Laser (back)
Atmel
TSS463B-TERA
YYMM Zxxxxxxx
Bonding Diagram
9
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
2.2.4 Packing Delivery Information
Dry packing
Tube packed
Primary
Material
Number per unit
Secondary
Material
Number per unit
Labeling (minimum)
Bar coding
Reel packed
Primary
Material
Carrier tape
Cover tape
Number per unit
Secondary
Number per unit
Labeling (minimum)
No
Tube
Antistatic PVC
36
Box
Cardboard
1692
Device type, quantity, Date code, Production code
Code 39 to EIA-556-A
Reel
Conductive black polystyrene
Antistatic film
1500
Box
1
Device type, quantity, Date code, Production code
2.2.5 Final Test Information
Probe equipment
Probe temperature
Test equipment
Test temperature
NEXTEST Maverick
o
125 C
NEXTEST Maverick
o
o
25 C, 125 C
2.2.6 Device Cross Section
10
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
2.3
Qualification and Change Procedure
2.3.1 Qualification methodology
All product qualifications are split into three distinct steps as shown below. Before a product is released for use,
successful qualification testing are required at wafer, device and package level.
Wafer Level Reliability consists in testing individually basic process modules regarding their well known potential
limitations (Electromigration, Hot Carriers Injection, Oxide Breakdown, NVM Data Retention). Each test is
performed using a dedicated wafer process structure.
Device reliability is covering either dice design and processing aspects. The tests are performed on device under
qualification, and generic data may also be considered for reliability calculation.
For each package type proposed in the Datasheet, it is verified that qualification data are available. If not
qualification tests are carried out for the new package types. At least one package type is selected to verify
packaging reliability of the devi ce under qualification.
Product
Qualification
Wafer Level
Device
Packaging
(Design / Process)
Reliability
11
Reliability
Reliability
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
2.3.2 Change Procedure
All changes are controlled by ECN (Engineering Change Notice). Major changes are notified to customers using
products affected by the change.
Major changes are defined as changes which may affect the electrical and/or mechanical product specification. The
following checklist provides the minimum list of items to be considered.
1
1-1
1-2
1-3
1-4
1-5
1-6
General Changes
Manufacturing line
Sequence of fabrication process cycle
Material type
Electrical parameter
External physical dimension
Die size
2
2-1
2-2
2-3
2-4
2-5
Changes Specific to Wafer Fabrication
Doping method
Gate oxide formation method
Equipment change
Layer Thickness
Module dimensions
3
3-1
3-2
3-3
3-4
3-5
Changes Specific to Asse mbly
Sawing method
Die attach method
Wiring method
Molding process
Lead finish / MSL classification
4
4-1
4-2
4-2
4-3
Changes Specific to Test
Specification limit
Test coverage reduction
Product identification
Final conditioning
12
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
2.3.3 Qualification test methods
General Requirements for Plastic Encapsulated CMOS Ics.
13
Standard
Test Description
Acceptance
MIL-STD 883
Method 1005
Electrical Life Test (Early Failure Rate)
48 hours 140°C
0/800 - 48h
MIL-STD 883
Method 1005
Electrical Life Test (Latent Failure Rate)
1000 hours 140°C Dynamic or Static
0/77 - 1000h
MIL-STD 883
Method 3015.7
Electrostatic Discharge HBM
+/-2000v 1.5kOhm/100pF/3 pulses
0/3 per level
JEDEC 78
Latch up
50mW power injection, 50% overvoltage @125°C
0/5 per stress
AEC Q100
Method 005
NVM Endurance
Program Erase Cycles 125°C
0/77 - 100kc
AEC Q100
Method 005
NVM Data Retention
High Temperature Storage 165°C
0/77 - 1000h
MIL-STD 883
Method 1010
Temperature Cycling
1000 cycles –65°C/150°C air/air
0/77 - 500c
EIA
JESD22-A110
Autoclave
96 hours 130°C/85%RH
0/77 – 96h
EIA
JESD22-A101
85/85 Humidity Test
1000 hours 85°C/85%RH
0/77 - 1000h
EIA
JESD22-A110
HAST
96 hours 130°C/85%RH/biased
0/50 - 96h
EIA
JESD20
Preconditioning
Soldering Stress 220°C/235°c/3 times
0/11 per class
MIL-STD 883
Method 2003
Solderability
0/3
MIL-STD 883
Method 2015
Marking Permanency
0/5
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
3 Engineering Approval
TSS463B is qualified since 2003 March
Released to production review was done in 2003 May
Release to Production is approved by:
Ø
Ø
Ø
Ø
Ø
Ø
Ø
Ø
Head of Technical Center
Project Leader
Product Engineering
Operation Back-end
Operation Front-end
Quality Management
Marketing
Business Planning
4 Design FMEA
Project Risk Analysis has been initiated at Feasibility stage and followed under Project Leader responsibility, all
over project development stages.
Project Risk Analysis report may be consulted in Atmel Nantes upon request.
5 Process Flow Diagrams
5.1
Wafer Processing
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
14
Incoming inspection of silicon wafers
Locos (Z92) Isolation
MOS N-Well implants and N Well diffusion
MOS P-Well Implants
MOS Gate oxidation
Polysilicon deposition and MOS gate definition
MOS Implants with Spacer definition
Salicide Hard mask definition
Salicide module
ILD deposition and SOG planarization
Contact etching and Plug1 filling
Metal 1 deposition and etching
IMD1 and REB planarization
Via1 etching and Plug2 filling
Metal 2 deposition and etching
IMD2 and REB planarization
Via2 etching and Plug3 filling
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
18.
19.
20.
21.
22.
5.2
Metal 3 deposition and etching
Passivation deposition and Pad etching
E-Test
Back grinding
Wafer sort
Assembly
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
5.3
Wafer mount
Wafer saw
First optical
Die bonding
Wire bonding
Molding
Solder plating
Top marking
Trim and form
Final visual inspection
Test and Packing
1.
2.
3.
Room temperature initial test
Final quality checks
Packing
6 Process FMEA
Process FMEA for 0.5um Z92 may be consulted in Atmel Nantes upon request.
7 Dimentional Results
SO-L.300 16 leads package comply with JEDEC standard outline.
Package dimensions were checked during Package Qualification.
15
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
8 Performance Test Results
8.1
Qualification Results
8.1.1 Wafer Process Qualification
ATMEL 0.5µm SCMOS3 wafer process is qualified since 1997, September.
8.1.2 Package Qualification
Package qualification measurements carried out on VAN DLC devices are detailed in the table below:
Lots
Device Type
Test Description
Z40807C
TSS463B
SO-L.300 16
AMKOR K
85/85 Humidity
Z41393J
Z45925A
(Note 1)
TSS461E
SO-L.300 24
AMKOR K
TSS463B rev4
SO-L.300 16
ASE CL
Thermal Cycles
HAST after Thermal
Shocks
High Temperature
Storage 165°C
Moisture sensitivity
JESD20 – level1
85/85 Humidity
Thermal Cycles
HAST after Thermal
Shocks
High Temperature
Storage 165°C
Moisture sensitivity
JESD20 – level1
85/85 Humidity
Thermal Cycles
HAST after Thermal
Shocks
Moisture sensitivity
JESD20 – level1
High Temperature
Storage 165°C
16
Step
500h
1000h
500c
Result Comment
1000c
96h
0/77
0/77
0/77
0/5
0/5
0/72
0/77
Post preconditioning level1
500h
1000h
CSAM
Elect
500h
1000h
500c
1000c
96h
0/77
0/77
0/11
0/231
0/50
0/50
0/50
0/72
0/77
Post preconditioning level1
500h
1000h
CSAM
Elect
500h
1000h
500c
1000c
96h
0/50
0/50
0/11
0/231
0/77
0/77
0/77
0/77
0/77
Post preconditioning level1
CSAM
Elect
500h
1000h
0/11
0/231
0/77
0/77
Post preconditioning level1
Ball shear cpk:1.70 (30 pads)
Wire pull cpk:2.35 (30 wires)
Post preconditioning level1
Post preconditioning level1
Post preconditioning level1
Post preconditioning level1
WP-Cpk= 1.67, BS-Cpk=1.89
Post preconditioning level1
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
Additional assembly qualification reports are available under the following references:
ASE Chung Li :
QR0813 (2002/09/23)
CHIPPAC China :
QR0726 (2002/05/13)
8.1.3 Device Qualification
Device qualification is based upon HTOL results of 3 lots as detailed in the table below:
Lot
Device Type
Test Description
Z40807C
TSS463B
SO-L.300 16
AMKOR K
EFR Dynamic Life Test
140°c/5.75v
LFR Life Test
140°c/5.75v
EFR Dynamic Life Test
140°c/5.75v
LFR Life Test
140°c/5.75v
EFR Dynamic Life Test
140°c/5.75v
LFR Life Test
140°c/5.75v
Z41393J
Z45925A
(Note 1)
TSS461E
SO-L.300 24
AMKOR K
TSS463B rev4
SO-L.300 16
ASE CL
Step
Result
48h
0/774
500h
1000h
48h
0/77
0/77
0/795
500h
1000h
48h
0/77
0/77
0/800
500h
1000h
0/100
0/100
Comment
Note 1:
In this revision of the TSS463B PPAP, are reported the reliability results of the final production version of the circuit
(Rev 4 design). The measurements have been carried out on lot Z45925A DC0327.
8.1.4 Failure Mechanisms and Corrective Actions
No failure mechanism reported in this document.
The table here below presents additional Reliability Monitor Data performed during the first quarter of 2003.
Lot
Device Type
Test Description
Z44574F
TSSIO16E
SO-L.300 28
AMKOR K
EFR Dynamic Life Test
140°c/5.75v
LFR Life Test
140°c/5.75v
Moisture sensitivity
JESD20 – level1
85/85 Humidity
Thermal Cycles
Autoclave post Thermal
Shocks
17
Step
Result
48h
0/300
500h
1000h
CSAM
Elect
500h
1000h
500c
1000c
96h
0/77
0/77
0/11
0/150
0/50
0/50
0/50
0/50
Comment
Post preconditioning level1
(Test in progress)
Post preconditioning level1
Post preconditioning level1
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
8.1.5 Electrical Distribution in Operating Life-Test
In order to assess the drift of product performance under HTOL stress 30 parts have been submitted to 1000 hours
140°c/5.75v aging. All specified AC and DC Parameters have been recorded prior (initial) and post stress (final) for
the lot Z41521. The table below summarizes the results with total drift ratio and final Cpk.
No significant drift noticed after HTOL aging. Final Cpk values are higher than 1.33.
HTOL performance records for the rev 4 design (lot Z45925A) have been included in the table as well. The records
do not indicate any change in the performance of the circuit.
Symbol
Parameter
Typical
Initial
Final
Drift (%)
Cpk
Z45925A
ICCSB
Static Consumption
50uA max
5.5V
0.050
0.049
0.046
-6.1
>20
0.051
ICCOP
Active Consumption
9 mA max
5.5V
2.20
2.23
2.25
0.9
>20
2.24
VIL CMOS
Input Low Level
1.5V min
4.5V
1.51
1.51
1.54
2.0
1.6
1.63
VIL1
XTAL 1 Low Level
1.5V min
4.5V
1.66
1.70
1.69
0.6
3.4
1.70
VIH CMOS
Input High Level
3.5V max
5.5V
3.16
3.12
3.23
3.5
1.5
3.11
VIH1
XTAL 1 In High Level
3.5V max
5.5V
3.15
3.11
3.21
3.2
1.6
3.10
VOL TXD
TXD Out Low Level
0.4V max
4.5V
0.22
0.21
0.23
9.5
10.2
0.23
VOL INTB
INTB Out Low Level
0.4V max
4.5V
0.22
0.21
0.23
9.5
9.3
0.24
VOH TXD
TXD Out High Level
2.4V min
4.5V
4.1
4.0
4.0
0.0
3.7
4.0
IIL RESET
RESET Low
Leakage
78.5uA max
5.5V
20.6
21.3
22.6
6.1
>20
20.8
TCYC
Cycle Time SPI
250ns max
4.5V
9.3
9.3
9.4
1.1
>20
9.3
TW SCKH
Clock High Time
100ns max
4.5V
3.41
3.41
3.47
1.8
>20
3.41
TW SCKL
Clock Low Time
100ns max
4.5V
5.9
5.9
5.9
0.0
>20
5.9
TSU
Data Setup Time
40ns max
4.5V
0.80
0.80
0.86
7.5
>20
0.79
TH
Data Hold Time
40ns max
5.5V
-0.52
-0.52
.052
0.0
>20
-0.52
TV
Enable to Data Valid
60ns max
4.5V
30.1
32.6
31.5
-3.4
7.5
31.6
18
Specification Vcc (*)
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
8.1.6 Reliability Calculation
Reliability calculation requires a large base of measurement data in prospect of targeting the objectives of
Automotive Market. Therefore the data source is enlarged to 2003 records of digital 0.5um Nantes products.
Sample size
Failures
Failure Rate
Projected Failure Rate
Unit
1.9E6
7
4
3
PPM
2880E3
0
2
1
FIT
Early Life Failures
Latent Failures
8.1.7 ESD Results (HBM) - MIL-STD 883 method 3015.7
Lot
Device Type
Test Description
Z40807C
TSS463B
SO-L.300 16
AMKOR K
ESD HBM
Step
2000v
3000v
4000v
Result
0/3
0/3
0/3
Comment
Class 3 of MIL STD 883
Method 3015
(ESD0113)
8.1.8 Latch-up Results
Lot
Device Type
Test Description
Step
Z40807C
TSS463B
SO-L.300 16
AMKOR K
LATCH-UP
Power Injection
Over voltage
50mw
10v
8.2
Result
0/5
0/5
Comment
Latch-up free
(min value: 180mW at 125°c)
Product Characterization
8.2.1 Characterization environment
Tester:
Sentry 15
Lot:
Z43525
Process:
Z92
Perso Code:
0RD7 (design Rev 4)
Assy package:
TE (SO-L.300 16 leads)
8.2.2 Corner lot’s splits
In order to characterize the product with the maximum excursion of the process, corner run splits have been
manufactured using :
19
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
-
Variations on LeffP and LeffN
Variations on VTP and VTN
The sample size is 3 parts per corner plus 6 parts in the group of typical values (Total 21 parts).
8.2.3 Results / Parameter capability
All specified AC and DC Parameters have been characterized for Rev 4 design version. They present Cpk values
higher than 1.6. The comparison of Rev 1 and Rev 4 characteristics does not point out any difference.
Characterization results have been submitted to a detailed customer review (TSS463B Test Review) held in
Nantes on 27/11/2001.
The next table provides the main product characteristics based upon Mask 6046 Rev 4 evaluation results.
All TSS463B AC parameters are reported in this table.
Symbol
Parameter
Specification (1)
Vcc (*)
Temp (*)
Average
Cpk
ICCSB
Static Consumption
50uA max
5.5V
125
2.9uA
9.6
ICCOP
Active Consumption
9 mA max
5.5V
-40
2.7mA
> 20
VIL CMOS
Input Low Level
1.5V min
4.5V
-40
1,6V
1.61
VIL1
XTAL 1 Low Level
1.5V min
4.5V
-40
1,7V
4.0
VIH CMOS
Input High Level
3.5V max
5.5V
-40
3.2V
5.7
VIH1
XTAL 1 In High Level
3.5V max
5.5V
-40
3.2V
4.7
VOL TXD
TXD Out Low Level
0.4V max
4.5V
125
0.22V
18.0
VOL INTB
INTB Out Low Level
0.4V max
4.5V
125
0.23V
12.3
VOH TXD
TXD Out High Level
2.4V min
4.5V
125
3.9V
> 20
IIL RESET
RESET Low Leakage
78.5uA max
5.5V
-40
26.5uA
> 20
TCYC
Cycle Time SPI
250ns max
4.5V
125
10ns
> 20
TW SCKH
Clock High Time
100ns max
4.5V
125
5.5ns
14.7
TW SCKL
Clock Low Time
100ns max
4.5V
125
5.9ns
>20
TSU
Data Setup Time
40ns max
4.5V
125
0.8ns
>20
TH
Data Hold Time
40ns max
5.5V
-40
-0.5ns
>20
TV
Enable to Data Valid
60ns max
4.5V
125
36.7ns
14.1
(*) worst case condition
20
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
9 Initial Process Study
9.1
SCMOS3 process (Z92G)
Parameters controlled during Electrical Test :
NMOS/PMOS :junction Breakdown Voltage, Threshold voltage, electrical width & length, Thin oxide
Breakdown Voltage, Sub-threshold current.
Sheet Resistance : N+, P+, WELL, PolyN, PolyP, Unsalicided Poly
Metal continuity / isolation: metal1, metal2, metal3
Contacts/ Vias1 & Vias2 resistance
Contacts Breakdown Voltage
Salicide isolation
Cpk history (Last update 23/01/2003) :
Z92G Cpk distribution
120%
100%
Répartition (%)
80%
60%
40%
20%
0%
02/01
02/02
02/03
02/04
02/05
02/06
02/07
02/08
02/09
02/10
02/11
02/12
03/01
Cpk<1.33 (%)
5%
3%
5%
8%
5%
5%
8%
0%
8%
14%
0%
3%
3%
Cpk>=1.33 & <1.66 (%)
5%
5%
3%
5%
19%
5%
11%
3%
5%
0%
3%
5%
3%
89%
92%
92%
86%
76%
89%
81%
97%
86%
86%
97%
92%
95%
Cpk>=1.66 (%)
Mois
Cpk<1.33 (%)
Cpk>=1.33 & <1.66 (%)
Cpk>=1.66 (%)
Linéaire (Cpk<1.33 (%))
Linéaire (Cpk>=1.66 (%))
10 Measurement System Analysis Study
Repeatability and Reproducibility tests are performed on all the manufacturing equipments.
Critical parameters and equipments are followed under SPC system. In addition Equipment performance is
assessed by GRR and through regular maintenance activity.
21
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
11 Qualified Laboratory Documentation
Internal Lab – COMPLIANT QS-9000 3rd edition
Application Lab
Calibration Lab
Characterization Lab
Chemical Lab
Environmental Lab
Technology Analysis Lab
Scope
Check the functionality of products to
customer applications
Standard Gage Calibration
Product and process characterization
before completing industrialization
Incoming inspection on chemical
products and process monitoring on
DI water , gases
Product Reliability Testing
Failure Analysis and Yield
enhancement
12 Control Plan
Control plan is composed of the following:
-
Wafer fab Control Plan for Z92G process
Assembly Control Plan
Test Control Plan
Front-end and Back-end operation control plans may be consulted in Atmel Nantes upon request.
Test Control Plan:
22
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
13 Part Submission Warrant
23
Rev. 3 : Initial Submission – 2003 October
TSS463B PPAP
14 Appearance Approval Report
Not Applicable for IC
15 Bulk Material Requirements
Not Applicable for IC
16 Sample Production Parts
Not attached, delivered previously
17 Master Sample
Not attached.
18 Checking Aids
Not applicable
19 Customer-Specific Requirements
Not attached.
24
Rev. 3 : Initial Submission – 2003 October