Steam Generator Tube Inspection Report for Refueling Outage 19

ML17236A457
Person / Time
Site:	Braidwood
Issue date:	08/24/2017
From:	Marchionda-Palmer M Exelon Generation Co
To:	Document Control Desk, Office of New Reactors
References
BW170080
Download: ML17236A457 (26)
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Text

August24,2017 BW170080 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-0001 Braidwood Station, Unit 2 Renewed Facility Operating License No. NPF-77 NRG Docket No. STN 50-457 www.exeloncom.com

Subject:

Braidwood Station, Unit 2 Steam Generator Tube Inspection Report for Refueling Outage 19 LLC 84 In accordance with Technical Specification 5.6.9, "Steam Generator (SG) Tube Inspection Report,"

Exelon Generation Company, LLC is reporting the results of the SG inspections that were completed during Braidwood Station, Unit 2 Refueling Outage 19 (A2R19).

Please direct any questions you may have regarding this submittal to Mr. Steven Reynolds, Regulatory Assurance Manager, at (815) 417-2800.

Respectfully, fhMNhl~,~

Marri Marchionda-Palmer Site Vice President Braidwood Station

Attachment:

Braidwood Station, Unit 2 Steam Generator Tube Inspection Report Refueling Outage 19 cc:

NRG Regional Administrator, Region Ill NRG Senior Resident Inspector-Braidwood Station NRG Project Manager, NRR - Braidwood and Byron Stations Illinois Emergency Management Agency Division of Nuclear Safety

Exelon Generation Company, LLC BRAIDWOOD STATION UNIT 2 35100 South Rte. 53, Suite 84 Braceville, IL 60407 COMMERCIAL OPERATION: October 17, 1988 STEAM GENERATOR TUBE INSPECTION REPORT REFUELING OUTAGE 19 (A2R19)

April 2017 Mailing Address 4300 Winfield Road Warrenville, IL 60555 Page 1 of 25

TABLE OF CONTENTS Introduction............................................................................................. 3 Steam Generator Inspection Scope (TS 5.6.9.a)............................................. 3 Degradation Mechanisms Found (TS 5.6.9.b)................................................. 5 Nondestructive Examination Techniques Utilized for Each Degradation Mechanism Found During A2R19 (TS 5.6.9.c)............................................... 5 Location, Orientation (if linear), and Measured Sizes of Service Induced Indications (TS 5.6.9.d)............................................................................ 6 Plugging Summary (TS 5.6.9.e and TS 5.6.9.f).............................................. 8 Results of Condition Monitoring (TS 5.6.9.g).................................................. 9 Primary to Secondary Leakage Assessment (TS 5.6.9.h and TS 5.6.9.i)............. 10 Results of Monitoring for Tube Axial Displacement (Slippage) (TS 5.6.9.j)........... 11 Attachment A - Westinghouse Model D-5 Tube Support Configuration............... 12 Attachment B - Anti-Vibration Bar Wear Indications........................................ 13-25 Page 2 of 25

Introduction Braidwood Station, Unit 2 operates with four (4) Westinghouse Model D-5 recirculating steam generators (SGs) in the four loop pressurized water reactor system. Each SG contains 4570 thermally treated Alloy-600 U-tubes that have a nominal outside diameter of 0.75 inches and a nominal thickness of 0.043 inches. The tubes are hydraulically expanded into the full depth of the tubesheet. The tubes are supported by stainless steel quatrefoil support plates (TSPs) and chrome plated Alloy-600 anti-vibration bars (AVBs).

The tube support plates within the pre-heater region are 0.75" stainless steel drilled hole baffle plates. The lowest tube support plate (TSP 01) on the hot and cold leg sides is a flow distribution baffle that is also stainless steel of 0.75" thick with enlarged drilled tube holes to distribute the feedwater flow. See Attachment A, for a diagram of the D-5 SG tube support plate (TSP) and AVB Configuration.

Technical Specification (TS} 5.5.9.d provides the requirements for SG inspection frequencies and requires periodic SG tube inspections to be performed. TS 5.5.9.d requires that 100% of the Unit 2 tubes are to be inspected at sequential periods of 120, 96, and thereafter 72 effective full power months (EFPM). The first sequential period shall be considered to begin after the first inservice inspection of the SGs.

At the start of A2R19, the Braidwood Unit 2 SGs had accumulated a total of 25.56 EFPY, and 24.38 since the first in-service inspection (ISi) during A2R01 (subtracting the first operating cycle of 1.18 EFPY from the cumulative EFPY of 25.56 EFPY since commercial operation). At Braidwood A2R19, approximately 4.61 effective full power months (EFPM) of the 72 EFPM in the fourth sequential inspection period have been accrued.

The A2R19 SG inspections were performed consistent with the Electric Power Research Institute (EPRI) "PWR Steam Generator Examination Guidelines: Revision 7," applicable interim guidance and Nuclear Energy Institute (NEI) 97-06, "Steam Generator Program Guidelines" Revision 3. The field inspection activities were conducted from April 27, 2017 through May 7, 2017 by the Westinghouse Electric Company LLC.

Steam Generator Inspection Scope (TS 5.6.9.a)

Braidwood Unit 2 Refueling Outage 19 (A2R 19) was the first inspection outage of the fourth (4) outage inspection period of 72 EFPM; the next SG inspection is planned for A2R21, which will be the third refuel outage within the fourth inspection period. The following inspections were performed during A2R19 to ensure that 100% of the tubes will be inspected within the period as required by TS 5.5.9.d.

Eddy Current Scope:

1.

Bobbin Coil Inspections

• 100% full length examination of all in-service tubes in all four SGs.

• Examined the hot leg and cold leg tubesheet region for tube slippage.

2.

MRPC (+POINT'} Inspections

• 50% Row 1 and Row 2 U-bend region from TSP 11 H to 11 C.

• All tubes in the U-bend region containing manufacturing artifacts.

• 50% Dents/Dings >5.0 volts located in the hot leg, cold leg and U-bend.

Page 3 of 25

• 50% Dents 2.0-5.0 volts located at TSPs 01 H, 01 C, 02C, 03C, 04C, 05C, and 06C.

• 50% Dings 2.0-5.0 volts located below TSP 06C and TSP 01 H.

• All quatrefoil TSP mix residual signals greater than or equal to 0.4 maximum vertical volts (Vvm) and baffle plate mix residual signals 0.4 Vvm or greater that could mask a flaw.

• All "I-code" indications that were not resolved after history review.

• Existing TSP wear indications based on bobbin inspection.

• Inspection to bound (all surrounding tubes, at least 2 pitches removed) the tubes with potential loose part (PLP) signals identified during the current inspection as necessary to support the Operational Assessment.

• All PLP signals and foreign objects left in service from the previous inspection.

• All hot leg, cold leg, and U-bend dent/ding locations >2.0 volts and locations of tube wear in potentially high stress (minus 2-sigma) tubes.

3.

Array (X-PROBE') Inspections

• 50% hot leg TIS +3 inches/-14.01 inches. Data acquisition shall continue as required to assure that the required distance below the tubesheet (14.01 inches) is adequately covered.

• 50% hot leg bulges/overexpansions within TTS-14.01 inches (H* region).

• 50% preheater baffle plate expansions at TSP 02C and TSP 03C.

• All preheater baffle plate expansions at TSP 02C in the "corner" peripheral tubes with hydraulic expansions in all four SGs.

• Hot leg peripheral tubes three tubes deep including the T-slot inspected from TSP 01 H to 14.01 inches into the tubesheet. Data acquisition shall continue as required to assure that the required distance below the tubesheet (14.01 inches) is adequately covered.

• Cold leg peripheral tubes three tubes deep including the T-slot three tubes inspected from TSP 01 C to 3 inches into the tubesheet.

• 100% hot leg and cold leg intersections in the potentially high stress (minus 2-sigma) tubes.

• 100% hot leg and cold leg tubesheet expansion transitions +/-3 inches in the potentially high stress (minus 2-sigma) tubes.

Other SG Inspections:

Visual Inspection of Installed Tube Plugs -All previously installed tube plugs were visually inspected for signs of degradation and leakage. In addition, all plugs installed during A2R19 were visually inspected, and the installation parameters were reviewed for acceptable installation. No degradation or non-conformances were found.

SG Channel Head Bowl Visual Inspections-Each SG primary channel head was visually examined in accordance with the recommendations of Westinghouse NSAL 12-01 and NRC IN 2013-20 for evidence of breaches in the cladding or Page 4 of 25

divider to channel head weld and for evidence of wastage of the carbon steel channel head. No evidence of cladding or weld breaches or evidence of channel head wastage was identified.

Secondary Side Visual lnspections-SG secondary side ITS sludge lancing was performed during A2R19. ITS region foreign object search and retrieval FOSAR was performed on all 4 SG's. Additionally, a full FOSAR of the pre-heater baffle plate TSP 02C was performed in the 2A and 2C SG preheater high flow regions on the pre-heater tube support baffle plate TSP 02C. The high flow regions included the preheater waterbox rib and cap plate region. No evidence of degradation or non-conformances were reported in the 2A and 2C SG preheater.

Visual inspection was performed of the 2C SG upper bundle. The upper bundle region was inspected through the 2.5" inspection ports located at the 8th and 11th TSPs. The inspections included the tube lanes and four in-bundle columns at each TSP. The purpose of these inspections was to assess the general condition of the upper tube bundle, which included quatrefoil blockage. No evidence of degradation or non-conformances were reported in the 2C SG upper bundle.

Visual inspections supplemented, as applicable, by ultrasonic thickness measurements of the 2C and 20 SG primary moisture separator regions were performed during the A2R19 outage. The results show Flow Accelerated Corrosion (FAC) wear is still present but progressing slowly. The minimum component thickness measured by ultrasonic measurement techniques was 0.089 inches compared to the nominal component thickness of 0.25 inches. No repairs were required, and it was concluded that a 2-cycle inspection interval was justified with no adverse consequences for continued operation of the primary moisture separators in all 4 SGs.

Degradation Mechanisms Found (TS 5.6.9.b)

The Table below provides a summary of all the degradation, by mechanism, identified during the A2R19 inspections (all mechanisms were present during previous inspections). No evidence of any cracking was detected.

Summary of A2R19 Degradation Indications by Mechanism Dearadation Mechanism SG2A SG28 SG2C SG2D AVB Wear 464 126 317 198 TSP Wear 1

3 0

1 Secondary Side FO Wear 7

7 0

4 Nondestructive Examination Techniques Utilized for Each Degradation Mechanism Found During A2R19 (TS 5.6.9.c)

Total 1105 5

18 All SG eddy current examination techniques used (see Table below) were qualified in accordance with Appendix H or Appendix I of the EPRI PWR SG Examination Guidelines Revision 7. Each examination technique was evaluated to be applicable to the tubing and the degradation mechanisms found in the Braidwood Station Unit 2 SGs during A2R19.

Page 5 of 25

EPRI APPENDIX H and APPENDIX I TECHNIQUES EPRI ETSS Technique Probe Degradation Applicability 1 Rev.

ETSS 21998.1 2

+Point' Detection/Sizing Volumetric Wear at Foreign Object Wear 4

Locations and Freespan Flaws (Volumetric Indications)

SizinQ Volumetric Wear at Broached TSPs 96004.3 13 Bobbin Detection/Sizing Volumetric Wear at AVBs and Drilled TSPs Detection Volumetric Wear at Broached TSPs 96910.1 2'3

+Point' Detection/Sizing Volumetric Wear (Tapered) at TSPs, 10 Foreign Object Wear Locations, and Freespan Flaws (Volumetric Indications)

Notes: 1.

TSP - Tube Support Plate AVB - Anti-Vibration Bar PLP - Possible Loose Part

2.

Extended technique for use with a PLP present within a structure or freespan because the mix suppresses structures and/or loose part signals.

3.

Extended inspection technique to detect/size freespan foreign object wear because signal characteristics resemble tube wear from a broached TSP.

Location, Orientation (if linear), and Measured Sizes of Service Induced Indications (TS 5.6.9.d)

Anti-Vibration Bar (AVB) Wear - Tube degradation was found during bobbin coil examination in the U-Bend region due to fretting of the AVB on the outer surface of the tube. A total of 1105 indications were reported. Seven (7) tubes had indications of AVB wear meeting or exceeding 40% TW plugging limit, and the seven tubes were removed from service by mechanical tube plugging. The largest AVB wear indication found during A2R19 was measured at 46% through-wall (TW). The Table below provides a summary of AVB wear degradation.

A2R19 AVB Wear Summary NOE Depth SG2A SG2B SG2C SG2D

1. of Ind.

1. of Ind. #of Ind. #of Ind.

10-39% TW 456 126 317 198

>= 40% TW 8*

0 0

0 TOTAL 464 126 317 198

• Tube R39C73 in 2A SG had two indications 2::. 40% TW. Refer to Attachment B for detailed locations and sizing for all AVB wear indications.

Mechanical Wear at Tube Support Plates (TSPs) - Tube degradation attributed to wear in the pre-heater TSPs, which are drilled support baffle plates, was identified. Additionally, tube degradation attributed to wear at broached quatrefoil TSPs was identified. No tubes were identified with new TSP wear. Five (5) tubes had pre-existing TSP wear in the 2A, 2B, and 2D SGs. The depth of the TSP wear ranged from 2% TW to 28% TW. The Table below provides a summary of Page 6 of 25

SGt:.

2A 2A 2A 2A 2A 2A 2A 28 28 28 28 the tubes that contain indications of pre-heater or quatrefoil TSP wear as identified during A2R19.

A2R19 TSP Wear Summary NOE SG Row Col Location Depth Wear Type

(%TW) 2A 22 98 10C

-0.00 28 Single-Land Wear 28 47 39 03C

-0.38 2

Drilled Hole 28 47 41 03C

-0.03 5

Drilled Hole 28 49 49 05C

-050 3

Drilled Hole 2D 49 53 07C 0.00 15 Single-Land Wear Note: No newly identified TSP wear indications detected during A2R19 Foreign Object Wear-Foreign object (FO) wear is an existing degradation mechanism at Braidwood Unit 2 since foreign object wear was found during prior inspections. At these locations wear was again detected in A2R19 with no growth in size as all FOs associated with the legacy wear flaws were removed in a prior outage. In addition, a total of 7 new indications of secondary side foreign object (FO) wear were identified in 7 tubes in A2R19. These indications ranged from 15% TW to 39% TW. Tube R22-C107 in SG 2D was preventively plugged due to containing a 39% TW FO wear indication at TSP 07H-0.54 which had no prior history from A2R17.

The Table below lists all 18 foreign object wear indications detected during A2R19; 7 new and 11 legacy indications.

A2R19 Foreign Object Wear Summary

\\.. Affected

/

Noe:

Tubes;°'

.Legacy ****

Location.

Depth*

Comment*~**

• "flow** Col ; **~;.

(~!Wl or New**

j

'~

• :':t**...

• *\\

,,',"'/

~<"er',.;!',\\';:;-:_

-.;;) {, T~*~:, > ;*,

'.':f}i 2

2 08H

-0.86 15 New Object Not Present 8

9 05H

-0.68 19 New Object Not Present 15 47 07H

-0.62 20 Legacy No Change-Object No Longer Present 30 53 01H 0.40 11 Legacy No Change-Object No Longer Present 31 52 01H 0.42 30 Legacy No Change-Object No Longer Present 32 53 01H 0.36 16 Legacy No Change-Object No Longer Present 42 22 02C 0.72 15 Legacy No Change-Object No Longer Present 2

80 07H

-0.85 19 New Object Not Present 21 108 07H

-0.72 25 New Object Not Present 40 50 03H

-0.76 17 New Object Not Present 49 51 TSC 0.64 21 Legacy No Change-Object No Longer Present Page 7 of 25

2B 2B 2B 20 20 20 20 49 52 TSC 0.43 24 Legacy No Change-Object No Longer Present 49 52 TSC 1.06 38 Legacy No Change-Object No Longer Present 49 53 TSC 0.19 16 Legacy No Change-Object No Longer Present 22 107 07H

-0.54 39 New Object Not Present 24 86 05H

-0.74 22 New Object Not Present 31 48 01H 0.38 20 Legacy No Change-Object No Longer Present 36 61 TSH 0.04 17 Legacy No Change-Object No Longer Present All newly identified indications of secondary side FO wear received additional +Point' inspection of the surroundin~ tubes to make certain that the wear region was adequately bounded. Additional +Pointr inspection was performed on tubes surrounding historical secondary side FOs that could not be confirmed in its originally identified location to ensure that no wear occurred due to the migration of the object. Furthermore, +Point' inspections were performed on tubes surrounding newly found secondary side FOs (without wear) to ensure that no wear resulted from the object.

While not containing wear, Tubes R16-C91, R16-C92, and R17-C92 in SG 20 contained PLP signals just above TSP 08C. These tubes were in close proximity to three (3) tubes that were plugged in A2R17 due to having FO wear and/or PLP signals. It is apparent that the object migrated to these tubes from A2R17 to A2R19. Table below shows the tubes plugged for foreign object wear and PLP signals during A2R19.

Ind NOE SG Row Col Type Depth Location Stabilized?

(o/oTW) 20 22 107 PCT 39 07H

-0.54 No 20 16 91 PLP 00c 062 Yes-Cold Leg 20 16 92 PLP 00c 0.9 Yes-Cold Leg 20 17 92 PLP 00c 1.03 Yes-Cold LeQ Plugging Summary (TS 5.6.9.e and TS 5.6.9.f)

As a result of the A2R19 SG inspections, performed in accordance with TS 5.5.9.d, the modes of tube degradation found were Anti-Vibration Bar (AVB) wear, tube support plate (TSP) wear, and secondary side foreign object (FO) wear. A total of eleven (11) tubes were removed from service by mechanical tube plugging. The eleven (11) tubes removed from service, are as follows:

• Seven (7) tubes were plugged due to having A VB wear meeting or exceeding the 40% TW Technical Specification 5.5.9.c plugging criteria.

• One (1) tube was plugged preventatively due to foreign object wear without the presence of a PLP indication.

• Three (3) tubes with PLP indications were plugged preventatively because they were in close proximity to three (3) tubes that were plugged in a prior outage (A2R17) due to having FO wear and/or PLP signals.

Page 8 of 25

A2R19 Tube Plugging by Degradation Mechanism (TS 5.6.9.e)

Degradation Mechanism SG2A SG2B SG2C SG2D Total AVB Wear 7

0 0

0 7

TSP/Pre-heater Wear 0

0 0

0 0

Axial ODSCC 0

0 0

0 0

FO Wear 0

0 0

1 1

Preventative 0

0 0

3 3

Total PluQQed durinQ A2R19 7

0 0

4 11 Tube plugging was conducted in accordance with ASME Section XI, 2001 Edition through 2003 Addenda. All tube plugging was performed by Westinghouse using an Alloy 690 mechanical tube plugging process in accordance with ASME Section XI IWA-4713, "Heat Exchanger Tube Plugging by Expansion." All plugging was performed in accordance with Westinghouse approved procedures. There are no approved tube repair methods for the Unit 2 SGs. No tube sleeving or tube pulls were performed.

Tube Plugging to Date (Number and Percentage per SG) (TS 5.6.9.f)

SG2A SG2B SG2C SG2D Total Plugged during A2R19 7

0 0

4 Total Stabilized during A2R191 0

0 0

3 Total Pluaaed throuQh A2R19 107 66 72 44 Total Percent Plugped through A2R19 2.34%

1.44%

1.58%

0.96%

Tube that was stabilized was also plugged.

Notes: 1)

2)

Plugging percent is based on 4570 tubes per SG for all 4 SGs.

Results of Condition Monitoring (TS 5.6.9.g)

Total 11 3

289 1.58%

A condition monitoring assessment was performed for each inservice degradation mechanism found during the A2R19 SG inspection. The condition monitoring assessment was performed in accordance with TS 5.5.9.a and NEI 97-06 Revision 3 using the EPRI Steam Generator Integrity Assessment Guidelines, Revision 3. For each identified degradation mechanism, the as-found condition was compared to the appropriate performance criteria for tube structural integrity, accident induced leakage, and operational leakage as defined in TS 5.5.9.b. For each degradation mechanism a tube structural limit was determined to ensure that SG tube integrity would be maintained over the full range of normal operating conditions, all anticipated transients in the design specifications, and design basis accidents. This includes retaining a safety factor of 3.0 against burst under normal steady state full power operation primary to secondary pressure differential and a safety factor of 1.4 against burst under the limiting design basis accident pressure differential. The structural limits for wear related degradation were performed in accordance with the EPRI Steam Generator Integrity Assessment Guidelines and the EPRI Steam Generator Degradation Specific Management Flaw Handbook, Revision 2 (Flaw Handbook).

The as-found condition of each degradation mechanism found during the A2R19 outage was shown to meet the appropriate limiting structural integrity performance parameter with a probability of 0.95 at 50% confidence, including consideration of relevant Page 9 of 25

uncertainties thus satisfying the condition monitoring requirements. The NOE measured flaw depths are compared to the structural integrity condition monitoring (CM) limits, which account for tube material strength, burst relation, and NOE measurement uncertainties with a 0.95 probability at 50% confidence. Therefore, the NOE measured flaw sizes are directly compared to the CM limit. No indications met the requirements for proof or leakage testing; therefore, no In Situ Pressure tests were performed during A2R19. In addition, no tube pulls were performed during A2R19.

The sections below provide a summary of the condition monitoring assessment for each degradation mechanism found during A2R19.

AVB Wear-The largest AVB wear indication found during the A2R19 inspection was 46% TW as measured by the EPRI Appendix H qualified technique 96004.3, Revision

13. This is below the AVB wear CM limit of 64.9% TW. The tube with this indication was plugged in accordance with TS 5.5.9.c SG tube plugging criteria.

Pre-Heater Baffle!TSP Wear-The largest drill hole baffle plate tube support wear left in service during A2R19 was measured at 5% TW by ETSS 96004.3, Revision 13 and the largest quatrefoil tube support wear left in service during A2R19 was measured at 15% TW by ETSS 96910.1, Revision 10. However, one indication of a point wear within a quatrefoil land contact was detected and measured 28% TW by +POINT probe ETSS 21998.1, Revision 4. The above wear is well below the drilled hole baffle plate and flat single land TSP wear condition monitoring limits of 61.5% TW and 50.5% TW, respectively.

Foreign Object Wear* The largest foreign object wear indication found during the A2R19 inspection was 39% TW as measured by the EPRI Appendix H qualified technique 21998.1, Revision 4. This is below the foreign object wear (0.5-inch long axial thinning less than 135 degrees circumferential extent) CM limit of 64.8% TW.

Primary to Secondary Leakage Assessment (TS 5.6.9.h and TS 5.6.9.i)

Braidwood TS 5.6.9.h reporting requirement states:

"For Unit 2, the operational primary to secondary leakage rate observed (greater than three gallons per day) in each steam generator (if it is not practical to assign the leakage to an individual steam generator, the entire primary to secondary leakage should be conservatively assumed to be from one steam generator) during the cycle preceding the inspection which is the subject of the report,"

Braidwood Station, Unit 2 did not observe any operational SG primary to secondary leakage over the preceding cycle. This is based on chemistry sampling taken from the Steam Jet Air Ejector and liquid SG blowdown sample locations.

Braidwood TS 5.6.9.i reporting requirement states:

"For Unit 2, the calculated accident induced leakage rate from the portion of the tubes below 14.01 inches from the top of the tubesheet for the most limiting accident in the most limiting SG. In addition, if the calculated accident induced leakage rate from the most limiting accident is less than 3.11 times the maximum operational primary to secondary leakage rate, the report should describe how it was determined...,"

Page 10 of 25

Braidwood Station Unit 2 did not observe any SG primary to secondary operational leakage over the preceding cycle, therefore the calculated accident leakage rate from flaws below 14.01 inches from the TTS is not quantifiable.

Results of Monitoring for Tube Axial Displacement (Slippage) (TS 5.6.9.j)

All in-service tubes were monitored for tube axial displacement (slippage) in both the hot and cold leg ti.Jbesheet region in accordance with industry developed guidance. This was performed to ensure tubes had not severed within the tubesheet in regions of the tubesheet that were not scheduled for inspection with X-Probe' in A2R19. The absence of tube sever indications {TSI) from the entirety of the collected bobbin coil inspection data confirms no tubes had tube slippage.

Page 11 of 25

ATTACHMENT A Westinghouse Model D-5 TSP and AVB Configuration 11" 1UH 09H OOH 07H O!iff tnH TSH TEH Nozzle Anti-vibration

~~-....+IJJ----bars 11C 10C 19C 1.18C Ol1C 06C 05C 04C feedwater OlC Inlet 02C 01C TSC TfC Note: A VB bars are denoted as AV in the figure Page 12 of 25

SG A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

A A

ATTACHMENT B Anti-Vibration Bar {AVB) Wear Indications 2A SG A VB Wear Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 16 74 18 1.22 AV4 0

A 29 100 20 1.5 AV3 0

20 60 37 4.34 AV1 0

A 29 100 17 1.26 AV2

• 0.02 20 60 28 2.3 AV4

-0.36 A

29 102 24 1.55 AV3 0.05 20 89 19 0.94 AV4 0

A 29 102 18 0.95 AV2

-0.3 24 40 24 2.01 AV3 0

A 29 103 16 1.17 AV1 0

24 40 20 1.51 AV2 0.16 A

29 103 10 0.66 AV4 0

24 40 21 1.59 AV1

-0.16 A

29 103 14 0.93 AV3 0

25 78 21 1.34 AV3

-0.2 A

29 104 24 1.61 AV1

-0.11 25 78 23 1.54 AV4

-0.14 A

29 104 36 3.99 AV2 0.35 25 105 17 1.12 AV2

-0.12 A

29 104 37 4.48 AV3 0.45 25 106 25 1.66 AV3

-0.3 A

29 105 25 1.57 AV2

-0.27 25 106 27 2.03 AV2 0.36 A

29 105 32 2.72 AV3 0.05 25 106 19 1.04 AV4

-0.36 A

30 11 24 1.98 AV3 0.05 25 107 30 2.89 AV4 0

A 30 11 18 1.24 AV1 0.36 25 107 31 3.09 AV1 0

A 30 12 22 1.8 AV2 0.28 25 108 27 2.06 AV4 0.05 A

30 13 15 1.02 AV3 0.26 26 8

32 3.4 AV1 0

A 30 13 24 2.15 AV2

• 0.18 26 8

23 1.83 AV4 0

A 30 24 19 1.34 AV4 0.27 26 8

23 1.79 AV2 0

A 30 28 15 1.03 AV2

-0.2 26 10 15 0.99 AV2 0

A 30 28 19 1.35 AV3 0.12 26 41 23 2.04 AV3 0.05 A

30 39 17 1.41 AV4 0.08 26 97 24 1.45 AV3

-0.29 A

30 39 23 2.09 AV3 0.05 27 105 25 2.11 AV2 0

A 30 39 15 1.16 AV2

• 0.05 27 105 32 3.26 AV3 0

A 30 41 12 0.93 AV3 0.32 27 105 28 2.55 AV1 0

A 30 76 17 0.99 AV2 0

27 106 32 3.01 AV1 0.05 A

30 76 20 1.29 AV3 0

27 106 30 2.45 AV2

-0.1 A

30 103 31 3.12 AV1 0

27 106 26 1.79 AV4 0.11 A

30 103 25 2.22 AV2 0

27 106 30 2.55 AV3

-0.32 A

30 103 29 2.76 AV3 0

28 13 16 1.04 AV2 0.02 A

31 13 16 1.25 AV2 0.17 28 99 19 0.99 AV3 0.15 A

31 14 13 0.98 AV3 0.02 28 104 29 2.29 AV2

-0.33 A

31 14 10 0.7 AV2 0.31 28 105 20 1.58 AV1 0

A 31 38 20 1.66 AV2

-0.34 28 105 16 1.2 AV2 0

A 31 38 26 2.43 AV3

-0.34 28 105 20 1.6 AV3 0

A 31 79 31 2.75 AV3 0.05 29 12 25 2.25 AV3 0.34 A

31 79 22 1.55 AV2 0.26 29 35 21 1.48 AV4

-0.24 A

31 79 15 0.88 AV1 0.19 29 77 19 1.22 AV2

-0.1 A

31 90 18 1.38 AV3 0.02 29 77 15 0.88 AV3

-0.31 A

31 93 24 1.51 AV3

-0.35 29 78 24 1.86 AV2

-0.12 A

31 93 21 1.21 AV2

-0.02 29 87 19 1

AV2

-0.02 A

32 73 18 1.04 AV1

-0.09 Page 13 of 25

SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 A

32 73 17 0.99 AV4 0.03 A

36 89 22 1.22 AV3 0.1 A

32 73 22 1.5 AV3

-0.03 A

36 89 22 1.23 AV2 0.4 A

32 73 19 1.19 AV2

-0.12 A

36 89 18 0.94 AV1 0.41 A

33 13 13 0.87 AV3 0.1 A

36 92 25 2.17 AV3 0.07 A

33 15 27 2.43 AV3

-0.07 A

36 92 23 1.88 AV2 0

A 33 77 17 1.01 AV1 0.17 A

36 93 17 1.08 AV2 0

A 33 81 21 1.53 AV2 0

A 37 25 15 1.05 AV3

-0.23 A

33 88 21 1.65 AV2 0

A 37 25 15 1.13 AV2 0.3 A

33 91 19 0.97 AV2 0.36 A

37 26 18 1.4 AV3 0.15 A

33 94 16 1.09 AV3 0

A 37 42 18 1.39 AV3 0.1 A

33 94 16 1.14 AV2 0

A 37 42 18 1.34 AV2 0.1 A

33 98 33 3.21 AV3 0.37 A

37 73 18 1.18 AV4 0

A 33 98 23 1.43 AV2 0.07 A

37 73 14 0.84 AV1 0

A 33 99 25 2.15 AV2 0

A 37 73 20 1.38 AV3 0

A 34 14 18 1.3 AV1

-0.22 A

37 73 32 3.01 AV2 0

A 34 14 25 2.12 AV3

-0.12 A

37 74 15 0.94 AV1 0

A 34 14 22 1.7 AV2 0.05 A

37 74 18 1.17 AV2 0

A 34 78 23 1.77 AV2 0

A 37 74 15 0.98 AV4 0

A 34 81 24 1.82 AV2 0.33 A

37 75 16 0.98 AV1 0

A 34 94 17 1.19 AV2 0

A 37 75 36 3.92 AV2 0

A 34 98 24 1.61 AV3

-0.39 A

37 75 24 1.83 AV3 0.05 A

35 14 17 1.26 AV4 0.11 A

37 76 20 1.42 AV4 0

A 35 90 15 1.06 AV2 0

A 37 76 24 1.82 AV1 0

A 35 90 28 2.7 AV3 0

A 37 76 37 4.16 AV2 0

A 35 90 18 1.37 AV1 0

A 37 76 29 2.58 AV3 0

A 35 93 12 0.77 AV3 0

A 37 77 19 1.32 AV2 0

A 35 96 31 2.75 AV2 0.27 A

37 77 15 0.91 AV4

-0.2 A

35 101 19 1.41 AV2

-0.05 A

37 78 17 0.94 AV1 0.1 A

36 16 33 3.45 AV2

-0.07 A

37 81 20 1.25 AV1

-0.14 A

36 16 15 1

AV3

-0.15 A

37 81 32 3.21 AV2

-0.13 A

36 17 16 1.07 AV3 0.12 A

37 81 31 2.96 AV3

-0.16 A

36 17 18 1.22 AV2

-0.29 A

37 82 22 1.43 AV1 0.13 A

36 18 25 2.08 AV2 0.37 A

37 82 19 1.17 AV3

-0.11 A

36 18 25 2.14 AV3 0.07 A

37 83 24 1.7 AV2 0.12 A

36 19 15 0.99 AV2

-0.34 A

37 83 13 0.67 AV1 0

A 36 26 20 1.47 AV2

-0.02 A

37 90 18 1.35 AV2 0

A 36 30 18 1.23 AV2 0

A 37 92 22 1.38 AV3 0.05 A

36 30 23 1.84 AV1 0.09 A

37 93 21 1.65 AV3 0

A 36 30 19 1.39 AV3

-0.31 A

38 20 29 2.75 AV3 0

A 36 36 15 0.99 AV3 0

A 38 20 30 2.89 AV2

-0.24 A

36 36 17 1.14 AV2

-0.29 A

38 20 18 1.26 AV1 0.29 A

36 66 24 1.9 AV3

-0.28 A

38 20 30 3

AV4 0.24 A

36 83 23 1.66 AV2

-0.07 A

38 23 17 1.16 AV2 0.31 A

36 85 22 1.23 AV4 0.28 A

38 24 24 2.02 AV2 0.34 A

36 85 19 1.01 AV2 0.05 A

38 24 16 1.1 AV4

-0.26 A

36 87 25 1.63 AV3 0.05 A

38 24 17 1.21 AV1 0.05 A

36 88 16 1.13 AV2 0

A 38 24 26 2.2 AV3

-0.19 A

36 88 22 1.79 AV3 0

A 38 26 19 1.32 AV1

-0.11 Page 14 of 25

SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 A

38 26 19 1.37 AV2 0.38 A

39 67 21 1.56 AV2 0

A 38 26 34 3.68 AV3

-0.38 A

39 67 20 1.4 AV1 0

A 38 27 21 1.59 AV2

-0.02 A

39 68 14 0.82 AV1 0

A 38 27 22 1.74 AV3 0.1 A

39 70 21 1.5 AV3 0

A 38 28 15 0.95 AV4 0.16 A

39 70 30 2.72 AV2 0

A 38 28 25 2.15 AV3

-0.36 A

39 72 21 1.53 AV2 0

A 38 28 11 0.66 AV2

-0.14 A

39 73 18 1.2 AV1 0

A 38 29 16 1.05 AV3 0.07 A

39 73 31 2.95 AV4 0

A 38 30 28 2.51 AV3 0.1 A

39 73 45 6.07 AV3 0

A 38 30 26 2.32 AV2 0

A 39 73 46 6.42 AV2 0

A 38 30 17 1.17 AV1

-0.08 A

39 75 19 1.23 AV3 0

A 38 31 24 1.95 AV2 0

A 39 76 19 1.1 AV3 0

A 38 31 29 2.81 AV3 0.05 A

39 76 18 1.04 AV4 0

A 38 31 15 0.98 AV4

-0.19 A

39 76 17 0.99 AV2 0

A 38 33 22 1.79 AV3 0.12 A

39 76 20 1.26 AV1

-0.02 A

38 33 16 1.07 AV2

-0.05 A

39 78 26 1.96 AV3 0

A 38 34 17 1.16 AV2

-0.12 A

39 78 29 2.43 AV2 0

A 38 35 25 2.08 AV2

-0.07 A

39 84 24 1.69 AV3

-0.17 A

38 86 17 1.26 AV1

-0.25 A

39 84 19 1.15 AV1 0

A 38 86 22 1.8 AV2

-0.1 A

39 84 18 1

AV4

-0.35 A

38 86 19 1.39 AV3

-0.11 A

39 84 24 1.7 AV2

-0.18 A

38 87 18 1.14 AV2 0.38 A

39 85 25 1.96 AV3 0.1 A

38 89 23 1.37 AV3

-0.26 A

39 85 19 1.25 AV2 0.46 A

38 89 27 1.83 AV2 0.02 A

39 86 19 1.14 AV3

-0.13 A

38 90 19 1.44 AV2

-0.1 A

39 86 25 1.89 AV2 0.1 A

38 90 22 1.74 AV3 0

A 39 87 46 6.39 AV2 0

A 38 90 16 1.1 AV1 0

A 39 87 24 1.88 AV3 0

A 38 92 34 3.57 AV2

-0.42 A

39 87 20 1.34 AV4 0

A 38 92 30 2.57 AV3 0.44 A

39 90 33 3.6 AV2 0

A 38 93 34 3.56 AV3 0

A 39 90 33 3.53 AV3 0

A 38 93 20 1.59 AV2 0

A 39 90 16 1.15 AV4 0

A 39 20 39 4.5 AV3

-0.02 A

39 90 17 1.19 AV1 0

A 39 20 23 1.95 AV4 0.08 A

40 24 37 4.59 AV2 0.26 A

39 20 21 1.74 AV2 0.4 A

40 24 17 1.18 AV1 0.32 A

39 20 30 2.9 AV1 0.36 A

40 24 21 1.55 AV4

-0.29 A

39 21 35 3.82 AV2 0.38 A

40 24 16 1.08 AV3 0.14 A

39 21 16 1.17 AV1 0.32 A

40 25 12 0.74 AV4 0.47 A

39 21 22 1.88 AV3 0.02 A

40 25 34 3.76 AV3 0.2 A

39 21 20 1.59 AV4 0.06 A

40 25 27 2.42 AV1

-0.28 A

39 22 19 1.44 AV1 0.39 A

40 25 30 2.89 AV2

-0.07 A

39 22 25 2.15 AV2 0.41 A

40 26 35 3.87 AV3

-0.37 A

39 41 22 1.79 AV2 0.05 A

40 26 16 1.1 AV2

-0.14 A

39 41 15 1.03 AV3

-0.15 A

40 29 31 3.14 AV2 0.4 A

39 50 18 1.41 AV3 0.17 A

40 29 31 3.13 AV3

-0.31 A

39 51 14 1.01 AV3

-0.14 A

40 29 16 1.07 AV4

-0.19 A

39 65 29 2.61 AV3 0

A 40 31 22 1.75 AV1

-0.03 A

39 65 19 1.26 AV1 0

A 40 31 23 1.84 AV2 0.38 A

39 65 22 1.67 AV2 0

A 40 31 20 1.47 AV4 0.11 Page 15 of 25

SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 A

40 31 28 2.66 AV3

-0.4 A

40 88 20 1.6 AV4

-0.35 A

40 33 18 1.23 AV3 0.12 A

40 89 21 1.18 AV2

-0.29 A

40 34 19 1.35 AV2 0.4 A

40 89 24 1.49 AV3 0.15 A

40 37 17 1.2 AV2 0

A 41 24 30 2.96 AV2 0.02 A

40 37 15 0.95 AV3

-0.26 A

41 24 29 2.7 AV3

-0.41 A

40 38 22 1.75 AV3

-0.3 A

41 30 15 1.1 AV2 0.33 A

40 38 26 2.27 AV1 0

A 41 37 33 3.48 AV3 0.41 A

40 38 18 1.27 AV4 0.17 A

41 37 32 3.16 AV2 0.42 A

40 38 18 1.27 AV2 0

A 41 38 13 0.93 AV2 0.36 A

40 40 18 1.24 AV2

-0.02 A

41 39 29 2.75 AV2

-0.33 A

40 40 20 1.47 AV3

-0.33 A

41 39 27 2.4 AV3

-0.32 A

40 43 18 1.29 AV1

-0.11 A

41 39 24 2.08 AV4 0.39 A

40 43 18 1.31 AV2

-0.05 A

41 41 22 1.86 AV3

-0.32 A

40 43 14 0.9 AV3 0.34 A

41 41 12 0.79 AV2 0.2 A

40 47 21 1.55 AV2 0

A 41 42 23 1.91 AV2

-0.09 A

40 61 31 3.07 AV3 0.15 A

41 42 28 2.6 AV3 0.05 A

40 61 36 4.64 AV2 0.25 A

41 52 18 1.33 AV2 0.36 A

40 64 18 1.14 AV3 O.Q7 A

41 53 16 1.22 AV3

-0.29 A

40 66 15 0.91 AV2 0.34 A

41 68 20 1.38 AV2 0

A 40 66 18 1.12 AV3

-0.29 A

41 68 34 3.43 AV3 0.38 A

40 66 17 1.05 AV1 0.05 A

41 69 14 0.84 AV1 0

A 40 68 14 0.8 AV3 0.05 A

41 69 16 0.98 AV2 0

A 40 68 24 1.84 AV2 0

A 41 69 22 1.59 AV3 0

A 40 69 18 1.1 AV1 0.13 A

41 70 17 1.14 AV3 0.07 A

40 73 25 1.99 AV3

-0.13 A

41 72 23 1.8 AV3 0

A 40 73 33 3.7 AV2 0.19 A

41 75 27 2.33 AV3 0

A 40 73 14 0.74 AV1

-0.03 A

41 75 39 4.45 AV2 0.02 A

40 74 19 1.2 AV3

-0.11 A

41 75 26 2.17 AV1 0.05 A

40 75 18 1.15 AV3 0.19 A

41 78 24 1.67 AV3

-0.15 A

40 78 19 1.28 AV2 0

A 41 79 32 3.11 AV3

-0.18 A

40 78 20 1.35 AV3 0

A 41 79 23 1.64 AV2

-0.08 A

40 79 34 3.38 AV3 0

A 41 79 19 1.16 AV1

-0.11 A

40 79 31 2.88 AV2 0

A 41 79 17 0.96 AV4

-0.02 A

40 80 38 4.23 AV2 0

A 41 82 19 1.14 AV1 0.15 A

40 81 29 2.48 AV2 0

A 41 82 38 4.82 AV2

-0.25 A

40 82 28 2.42 AV2 0

A 41 82 29 2.47 AV3

-0.03 A

40 82 23 1.73 AV3 0

A 41 82 23 1.58 AV4 0.02 A

40 83 33 3.16 AV1 0

A 41 84 15 0.78 AV2

-0.15 A

40 83 30 2.65 AV2 0

A 41 85 26 2.07 AV2 0

A 40 83 18 1.2 AV4 0

A 41 85 24 1.78 AV3 0

A 40 83 25 1.94 AV3 0

A 41 87 31 2.82 AV3 0.07 A

40 84 13 0.69 AV3 0.17 A

41 87 35 3.57 AV2 0

A 40 87 21 1.44 AV3 0

A 41 89 27 1.89 AV3 0.1 A

40 87 19 1.29 AV1 0

A 41 90 37 4.48 AV2 0

A 40 87 20 1.33 AV4 0

A 41 90 17 1.26 AV3 0

A 40 87 41 5.07 AV2 0

A 41 91 44 6.06 AV2 0.4 A

40 88 28 2.67 AV3 0

A 41 91 17 0.79 AV1 0.22 A

40 88 31 3.16 AV2

-0.34 A

41 91 18 0.9 AV4

-0.34 Page 16 of 25

SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 A

41 91 30 2.36 AV3 0.12 A

45 55 31 2.66 AV3 0.32 A

41 92 43 6.58 AV3 0.39 A

45 55 28 2.19 AV2 0.41 A

41 92 15 0.66 AV1

-0.17 A

45 59 21 1.57 AV2 0.3 A

41 92 30 2.54 AV2 0.05 A

45 59 31 2.87 AV3 0.35 A

42 26 15 0.96 AV2 0.02 A

45 61 15 0.92 AV1 0.28 A

42 26 22 1.68 AV3 0

A 45 61 17 1.11 AV2 0.3 A

42 28 15 0.95 AV4

-0.32 A

45 61 19 1.34 AV4

-0.29 A

42 28 20 1.51 AV3

-0.25 A

45 61 43 5.57 AV3

-0.32 A

42 28 16 1.04 AV2 0.3 A

45 62 19 1.27 AV3

-0.09 A

42 30 19 1.41 AV2 0.28 A

45 65 16 1.04 AV3 0.14 A

42 30 22 1.77 AV3

-0.28 A

45 65 17 1.15 AV1

-0.12 A

42 36 15 0.96 AV3 0.02 A

45 70 26 2.18 AV2

-0.28 A

42 51 23 1.8 AV2 0.35 A

45 70 29 2.65 AV3

-0.35 A

42 51 16 1.01 AV3 0

A 45 71 15 0.96 AV2

-0.09 A

42 56 21 1.55 AV2 0.3 A

45 71 18 1.23 AV1 0.31 A

42 62 16 0.95 AV3

-0.13 A

45 80 23 1.79 AV4 0.05 A

42 62 13 0.68 AV2

-0.1 A

45 80 34 3.38 AV3

-0.28 A

42 71 20 1.33 AV3 0.1 A

45 80 24 1.93 AV2 0.05 A

42 89 23 1.33 AV2 0.21 A

45 82 22 1.68 AV3 0.07 A

42 89 23 1.33 AV3 0.02 A

45 82 18 1.2 AV2

-0.07 A

42 89 16 0.74 AV4 0.22 A

45 91 17 0.83 AV2

-0.14 A

42 94 21 1.65 AV4 0

A 45 91 28 2.04 AV1 0.33 A

43 71 27 2.25 AV1 0.35 A

46 26 18 1.05 AV4 0.03 A

43 71 34 3.41 AV2

-0.05 A

46 33 20 1.32 AV3

-0.28 A

43 71 25 2.05 AV3

-0.32 A

46 33 23 1.57 AV4

-0.32 A

43 72 17 1.16 AV1

-0.17 A

46 56 16 0.98 AV3 0

A 43 72 13 0.76 AV3

-0.16 A

46 60 22 1.54 AV1

-0.09 A

43 93 23 1.36 AV4 0.03 A

46 60 30 3.1 AV2

-0.21 A

43 93 22 1.3 AV3

-0.39 A

46 61 15 0.89 AV1

-0.11 A

44 24 16 0.91 AV1 0.31 A

46 71 22 1.62 AV2 0.33 A

44 55 16 1

AV3 0

A 46 71 19 1.27 AV4

-0.07 A

44 60 17 1.05 AV4 0.2 A

46 71 16 0.98 AV3

-0.21 A

44 67 15 0.88 AV1 0.18 A

46 73 29 2.64 AV3

-0.33 A

44 92 22 1.22 AV4 0.06 A

46 73 16 1

AV1 0.28 A

45 37 19 1.14 AV2 0.28 A

46 73 34 3.56 AV2 0

A 45 37 40 4.64 AV3 0.1 A

47 29 32 2.78 AV2

-0.02 A

45 40 21 1.34 AV2

-0.07 A

47 29 31 2.76 AV3 0.34 A

45 40 18 1.01 AV1

-0.06 A

47 30 27 2.08 AV2

-0.02 A

45 41 21 1.35 AV3 0.1 A

47 30 21 1.36 AV3 0.12 A

45 41 23 1.6 AV2 0.35 A

47 33 15 0.91 AV1 0.09 A

45 45 33 2.98 AV2

-0.02 A

47 34 21 1.28 AV3 0.17 A

45 45 24 1.61 AV3

-0.33 A

47 34 21 1.37 AV4 0.06 A

45 45 18 1.03 AV1 0.31 A

47 34 16 0.9 AV1

-0.17 A

45 46 17 1.07 AV2 0.12 A

47 72 17 1.07 AV1 0

A 45 48 19 1.16 AV3 0.1 A

47 88 29 2.15 AV4

-0.36 A

45 49 19 1.3 AV2

-0.12 A

49 41 16 0.91 AV1

-0.17 A

45 51 19 1.13 AV3 0.34 A

45 52 19 1.14 AV2 0.31 Page 17 of 25

28 SG A VB Wear SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 B

21 110 23 1.24 AV4

-0.08 B

36 96 20 1.32 AV2

-0.1 B

22 109 22 1.06 AV4 0.42 B

36 97 20 1.42 AV3 0.08 B

22 109 20 0.85 AV4

-0.22 B

36 99 21 1.58 AV2

-0.08 B

24 78 13 0.64 AV4 0.03 B

36 99 19 1.21 AV1 0

B 24 107 21 0.94 AV3

-0.09 B

36 100 15 0.84 AV1 0

B 24 107 23 1.16 AV1

-1.03 B

36 100 20 1.31 AV2 0

B 25 75 23 1.92 AV3

-0.5 B

37 36 24 1.79 AV3 0

B 25 107 20 0.89 AV3

-0.18 B

37 36 24 1.83 AV2 0.19 B

25 108 28 1.97 AV4 0.03 B

37 36 15 0.84 AV1 0.1 B

25 108 22 1.01 AV3

-0.09 B

37 36 22 1.53 AV4 0

B 25 108 17 0.58 AV2

-0.09 B

37 38 32 3.71 AV3 0.34 B

25 108 32 3.11 AV1

-0.17 B

37 38 21 1.71 AV4

-0.24 B

27 106 17 0.61 AV4 0.16 B

37 38 18 1.31 AV1 0.15 B

27 106 23 1.2 AV3

-0.26 B

37 38 36 4.69 AV2 0.02 B

27 106 18 0.69 AV1 0.05 B

37 98 16 1.07 AV4

-0.33 B

28 34 20 1.34 AV2 0.2 B

37 99 21 1.62 AV3

-0.33 B

28 34 18 1.04 AV1 0.24 B

37 99 17 0.93 AV2 0.03 B

28 104 28 1.93 AV2

-0.24 B

38 24 15 0.89 AV2

-0.35 B

29 100 24 2.11 AV2

-0.03 B

38 24 16 1.01 AV3

-0.1 B

29 100 18 1.31 AV3 0.15 B

38 41 20 1.38 AV3 0

B 29 104 22 1.05 AV3

-0.08 B

38 41 15 0.9 AV2 0.07 B

30 101 17 1.48 AV3 0.02 B

38 59 14 0.83 AV3 0.17 B

30 101 16 1.41 AV2 0.27 B

38 59 27 2.29 AV2 0.23 B

31 38 13 0.82 AV1 0.14 B

38 67 21 1.67 AV3 0.12 B

32 39 17 1.11 AV2 0

B 38 95 24 1.89 AV2 0.03 B

32 48 15 1.07 AV2 0

B 38 98 21 1.42 AV3 0

B 32 101 24 1.74 AV3 0

B 38 98 19 1.21 AV4 0

B 32 101 11 0.65 AV4 0.32 B

39 34 19 1.16 AV1 0.27 B

33 14 17 1.12 AV1 0.12 B

39 85 16 1

AV1 0.1 B

33 14 24 1.96 AV3

-0.37 B

39 85 20 1.48 AV2

-0.02 B

33 14 32 3.55 AV2 0.37 B

39 85 25 2.17 AV3

-0.43 B

33 103 24 1.88 AV3

-0.14 B

39 96 24 1.97 AV1 0.39 B

33 103 15 0.81 AV2 0.29 B

39 96 34 4.05 AV3 0

B 35 15 22 1.67 AV4 0

B 39 96 15 0.95 AV4

-0.34 B

35 15 35 3.75 AV3 0

B 39 97 18 1.2 AV2

-0.37 B

35 15 24 1.81 AV2 0.33 B

39 97 25 2.19 AV1 0.3 B

35 31 12 0.69 AV2 0.22 B

39 97 38 5.27 AV3

-0.41 B

35 63 24 2.07 AV4

-0.29 B

39 97 21 1.64 AV4

-0.39 B

35 98 16 0.88 AV3 0.15 B

40 18 16 1.03 AV3 0

B 36 73 17 1.12 AV2 0.05 B

40 22 19 1.24 AV3

-0.02 B

36 81 16 0.92 AV2 0.08 B

40 22 23 1.71 AV2 0.05 B

36 93 15 0.82 AV2 0.12 B

40 46 24 2.21 AV3 0

B 36 96 16 0.92 AV4

-0.13 B

40 46 22 1.94 AV2 0

B 36 96 15 0.79 AV3

-0.08 B

40 47 15 0.9 AV3 0

Page 18 of 25

SG Row Col Per Volts Locn lnch1 B

40 66 17 1

AV3

-0.34 B

40 66 16 1.05 AV2 0

B 40 74 21 1.41 AV3 0

B 40 74 23 1.55 AV2 0.13 B

40 76 14 0.87 AV3 0.12 B

40 82 13 0.74 AV4 0

B 40 82 33 3.21 AV3

-0.Q?

B 40 82 12 0.61 AV2 0.21 B

40 82 17 1

AV1 0.24 B

40 90 18 1.2 AV2 0.38 B

40 90 23 1.77 AV3 0.1 B

40 92 15 0.85 AV4 0.25 B

40 92 28 2.36 AV3 0

B 40 92 17 0.99 AV2 0

B 40 93 23 1.78 AV3

-0.29 B

40 93 20 1.41 AV2 0.08 B

40 95 15 0.8 AV2

-0.23 B

41 26 22 1.45 AV2 0

B 41 36 23 1.55 AV1

-0.23 B

41 40 25 1.86 AV3 0

B 41 40 22 1.43 AV2 0

B 41 50 25 2.38 AV3 0

B 41 55 27 2.29 AV2 0

B 41 55 30 2.77 AV3 0

B 41 55 17 1.18 AV4 0

B 42 44 16 1.07 AV3

-0.26 B

42 44 15 1.01 AV1

-0.2 B

43 30 30 2.81 AV2 0

B 43 30 20 1.17 AV3 0

B 43 32 27 2.32 AV2 0

B 43 32 18 1.01 AV3 0

B 43 32 25 1.94 AV1 0

B 43 37 33 3.57 AV3 0.24 B

43 37 26 1.99 AV1 0

B 43 37 35 4.38 AV2 0

B 44 81 19 1.18 AV3 0.05 B

47 59 19 1.3 AV1

-0.06 B

47 59 17 1.11 AV2

-0.12 Page 19 of 25

2C SG AVB Wear SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 c

22 92 16 0.53 AV4

-0.02 c

36 17 16 0.81 AV4

-0.22 c

26 9

17 1.02 AV1

-0.19 c

36 17 25 1.79 AV3 0.1 c

26 9

15 0.8 AV4 0.21 c

36 17 31 2.66 AV2 0.37 c

27 9

14 0.74 AV2 0.08 c

36 19 14 0.63 AV4 0.13 c

27 9

23 1.6 AV4

-0.08 c

36 19 35 3.52 AV3 0.33 c

27 9

19 1.15 AV1 0.02 c

36 19 30 2.48 AV2

-0.41 c

27 103 14 0.86 AV2 0.24 c

36 20 13 0.79 AV1 0.24 c

28 42 12 0.6 AV4 0.03 c

36 20 16 1.13 AV2 0.44 c

28 42 21 1.39 AV3

-0.19 c

36 20 15 0.98 AV3 0.24 c

30 13 16 0.94 AV1

-0.36 c

36 20 14 0.87 AV4 0.13 c

30 60 26 1.95 AV2 0.19 c

36 21 17 0.98 AV3

-0.33 c

30 60 16 0.96 AV4 0

c 36 21 14 0.68 AV1 0.26 c

30 60 21 1.32 AV3

-0.17 c

36 26 21 1.33 AV3 0.1 c

30 60 29 2.56 AV1 0.42 c

36 26 16 0.89 AV2 0.07 c

30 62 13 0.69 AV2 0.27 c

36 26 16 0.89 AV4

-0.29 c

31 101 17 1.08 AV3 0

c 36 34 11 0.7 AV2

-0.19 c

31 102 19 0.77 AV2 0.26 c

36 34 26 2.22 AV3 0.07 c

31 102 25 1.39 AV3

-0.14 c

36 56 21 1.38 AV2 0.37 c

32 16 12 0.63 AV1 0

c 36 78 22 1.53 AV2 0.14 c

32 16 13 0.75 AV4 0

c 36 86 18 0.76 AV1

-0.36 c

32 16 12 0.64 AV2 0

c 36 86 29 2.07 AV4

-0.4 c

32 89 17 1.02 AV2

-0.28 c

36 86 27 1.65 AV2 0.3 c

32 99 19 1.22 AV3 0

c 36 86 32 2.62 AV3 0.04 c

33 14 27 2.23 AV4

-0.37 c

36 89 22 1.55 AV3

-0.37 c

33 14 26 2.04 AV2

-0.31 c

36 89 15 0.91 AV2

-0.09 c

33 14 24 1.76 AV3

-0.51 c

36 90 35 3.39 AV3

-0.4 c

33 16 15 0.92 AV1

-0.14 c

36 90 16 0.94 AV1

-0.14 c

33 72 15 0.92 AV2

-0.07 c

36 90 30 2.26 AV2

-0.09 c

33 72 23 1.69 AV3 0

c 36 90 23 1.16 AV4

-0.32 c

33 76 15 0.83 AV1 0.05 c

36 93 13 0.74 AV3 0

c 33 85 15 0.92 AV3 0.18 c

36 93 20 1.34 AV2 0

c 33 90 13 0.71 AV3

-0.07 c

36 95 14 0.8 AV3 0

c 33 92 20 0.85 AV3 0.12 c

36 96 20 0.8 AV2

-0.02 c

34 16 15 0.86 AV3 0.19 c

36 96 24 1.21 AV3 0.11 c

34 17 16 0.8 AV2 0.17 c

36 99 15 1

AV1 0.02 c

34 17 16 0.79 AV1

-0.3 c

36 99 22 1.54 AV2 0

c 34 17 22 1.41 AV3

-0.35 c

36 99 33 3.22 AV3 0

c 34 56 23 1.49 AV1 0.05 c

36 99 20 1.35 AV4 0

c 34 100 25 1.42 AV3 0.05 c

37 17 15 0.73 AV2 0.15 c

34 101 24 1.94 AV3 0.34 c

37 23 17 0.93 AV3

-0.29 c

34 101 12 0.76 AV2 0.19 c

37 47 19 1.05 AV2

-0.02 c

35 54 22 1.44 AV1

-0.12 c

37 77 28 2.46 AV3

-0.32 c

35 56 19 1.07 AV2 0.1 c

37 77 21 1.42 AV2 0.34 Page 20 of 25

SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 c

37 87 13 0.7 AV4

-0.36 c

40 77 23 1.71 AV2

-0.29 c

37 87 22 1.55 AV3 0.13 c

40 77 24 1.88 AV3 0.02 c

37 87 19 1.24 AV2 0.37 c

40 81 33 3.33 AV2 0.35 c

37 87 13 0.76 AV1 0.4 c

40 81 18 1.13 AV1 0.05 c

37 88 18 0.7 AV2 0.21 c

40 81 21 1.48 AV3 0.31 c

37 89 16 0.93 AV3

-0.35 c

40 83 15 0.89 AV1 0.09 c

37 93 15 0.97 AV2 0.48 c

40 83 34 3.54 AV2 0.02 c

37 93 17 1.13 AV3 0.2 c

40 83 35 3.79 AV3 0.02 c

38 21 23 1.57 AV3

-0.3 c

40 85 19 1.24 AV3

-0.21 c

38 21 23 1.59 AV2 0.02 c

40 85 26 2.17 AV2

-O.Q7 c

38 27 13 0.62 AV1

-0.17 c

40 88 31 2.5 AV3 0.07 c

38 27 28 2.3 AV2 0.34 c

40 88 26 1.59 AV2 0.36 c

38 27 23 1.55 AV3 0.07 c

40 88 21 0.98 AV1 0.29 c

38 30 28 2.28 AV3

-0.04 c

40 88 17 0.7 AV4 0.48 c

38 30 14 0.71 AV1 0.28 c

40 91 22 1.56 AV3 0.11 c

38 30 25 1.9 AV2 0

c 40 91 13 0.75 AV4

-0.43 c

38 34 15 0.99 AV3

-0.17 c

40 92 30 2.27 AV2 0

c 38 34 19 1.39 AV2 0.1 c

40 92 37 3.86 AV3

-0.02 c

38 39 16 0.84 AV2

-0.28 c

40 92 18 0.75 AV1

-0.3 c

38 39 21 1.29 AV3 0.33 c

40 92 21 1.03 AV4

-0.18 c

38 42 15 0.79 AV1

-0.23 c

40 94 26 1.51 AV3

-0.12 c

38 56 22 1.38 AV3 0.05 c

40 94 18 0.68 AV2

-0.27 c

38 60 24 1.76 AV3 0.09 c

40 95 14 0.92 AV4 0.36 c

38 60 26 1.98 AV2 0.15 c

40 95 20 1.48 AV3 0.22 c

38 60 16 0.93 AV4

-0.26 c

40 95 33 3.31 AV2 0.37 c

38 60 26 2.03 AV1

-0.12 c

40 97 19 1.35 AV4 0.08 c

38 66 15 0.87 AV4

-0.12 c

40 97 13 0.78 AV3 0.14 c

38 66 29 2.59 AV2 0.03 c

41 22 12 0.75 AV2

-0.38 c

38 66 18 1.15 AV3

-0.3 c

41 22 21 1.6 AV4

-0.28 c

38 68 16 0.98 AV1

-0.2 c

41 22 26 2.19 AV3 0.07 c

38 68 22 1.58 AV2

-0.37 c

41 24 17 1.2 AV3 0.14 c

38 68 15 0.86 AV3

-0.31 c

41 30 22 1.69 AV3 0.12 c

38 71 21 1.56 AV2 0.08 c

41 30 25 2.12 AV2

-0.35 c

38 71 23 1.8 AV3

-0.03 c

41 31 13 0.67 AV4 0

c 38 72 24 1.84 AV3

-0.38 c

41 31 27 2.12 AV3 0.07 c

38 72 14 0.83 AV2 0.08 c

41 31 24 1.75 AV1 0.1 c

38 73 16 0.97 AV1

-0.08 c

41 31 33 3.17 AV2 0.05 c

38 84 21 0.95 AV3

-0.3 c

41 34 27 2.41 AV2 0.38 c

38 84 20 0.91 AV2 0.35 c

41 34 29 2.72 AV3 0.07 c

38 91 15 0.92 AV2

-0.02 c

41 34 18 1.26 AV4 0.26 c

38 91 27 2.19 AV3

-0.27 c

41 35 17 0.94 AV2 0.12 c

38 95 17 1.13 AV2 0.37 c

41 35 13 0.67 AV1 0.07 c

38 95 18 1.25 AV3 0.09 c

41 36 10 0.57 AV1 0.17 c

39 59 19 0.9 AV3

-0.19 c

41 36 29 2.74 AV2 0.35 c

39 64 15 0.88 AV1

-0.43 c

41 36 23 1.82 AV3 0.02 c

39 65 19 1.26 AV2 O.Q7 c

41 36 15 0.96 AV4 0.25 c

40 73 29 2.57 AV3 0.07 c

41 38 31 3.05 AV2 O.Q7 c

40 73 18 1.18 AV2 0.2 c

41 38 20 1.5 AV3 0.09 Page 21 of 25

SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 c

41 41 15 0.82 AV3

• 0.27 c

42 82 26 1.53 AV3

-0.41 c

41 41 15 0.87 AV4

• 0.33 c

42 83 17 1.02 AV2

-0.07 c

41 44 18 1.02 AV2 0.19 c

42 83 21 1.47 AV3 0.13 c

41 49 20 1.32 AV1 0.3 c

42 90 39 4.58 AV3

• 0.41 c

41 50 21 1.25 AV2 0.17 c

42 90 36 3.53 AV2 0.44 c

41 50 21 1.08 AV1 0.28 c

42 90 26 1.62 AV1

• 0.06 c

41 50 34 3.15 AV3 0.35 c

42 90 22 1.08 AV4

• 0.36 c

41 56 13 0.75 AV1

• 0.44 c

42 94 18 0.71 AV3 0.05 c

41 71 19 1.31 AV3 0.12 c

42 94 21 0.94 AV4 0.47 c

41 71 19 1.29 AV1

• 0.15 c

43 33 17 0.96 AV2

• 0.33 c

41 71 22 1.69 AV2 0.33 c

43 33 16 0.84 AV1

• 0.44 c

41 82 24 1.34 AV2 0.33 c

43 44 17 0.77 AV3 0.14 c

41 83 16 0.98 AV3 0.13 c

43 44 16 0.73 AV1

-0.03 c

41 83 15 0.88 AV2 0.16 c

43 54 21 1.5 AV2 0.35 c

41 83 16 0.97 AV1 0

c 43 54 26 2.22 AV3

-0.35 c

41 88 17 0.69 AV4 0.43 c

43 54 15 0.85 AV1 0

c 41 88 23 1.24 AV2 0.36 c

43 55 16 0.99 AV2 0.31 c

41 88 23 1.2 AV3 0.11 c

43 56 35 3.84 AV1

• 0.06 c

41 88 18 0.77 AV1

• 0.33 c

43 56 23 1.72 AV4 0.46 c

41 92 22 1.12 AV4 0.31 c

43 78 19 0.83 AV1 0.36 c

41 92 28 1.79 AV3 0.07 c

43 78 22 1.08 AV2 0.09 c

41 92 31 2.34 AV2

• 0.39 c

43 78 28 1.81 AV3 0.07 c

41 94 22 1.05 AV3

• 0.16 c

43 80 19 0.82 AV3 0.04 c

41 94 20 0.83 AV2

-0.11 c

43 80 24 1.32 AV2 0.33 c

42 21 18 1

AV2 0.32 c

43 80 21 0.97 AV1

• 0.44 c

42 22 22 1.68 AV4 0.38 c

43 84 30 2.21 AV3 0.07 c

42 22 27 2.45 AV3 0.02 c

43 84 31 2.43 AV2 0.05 c

42 23 21 1.36 AV3

• 0.27 c

43 89 12 0.66 AV4 0.09 c

42 23 15 0.81 AV4

• 0.09 c

43 91 16 0.95 AV4

• 0.31 c

42 23 12 0.6 AV2

-0.19 c

43 93 17 1.04 AV4 0

c 42 25 31 2.83 AV2 0.41 c

44 23 15 0.74 AV1

• 0.03 c

42 25 31 2.8 AV3 0.05 c

44 23 37 4.16 AV2 0.43 c

42 25 21 1.33 AV4

• 0.4 c

44 23 35 3.61 AV3

• 0.36 c

42 36 33 3.51 AV3

• 0.05 c

44 23 14 0.74 AV4

-0.09 c

42 36 18 1.26 AV4

• 0.05 c

44 28 19 1.38 AV3 0.18 c

42 36 14 0.86 AV2 0.14 c

44 28 19 1.42 AV2

• 0.07 c

42 39 20 1.25 AV2 0.31 c

44 28 16 1.11 AV4

• 0.16 c

42 39 27 2.1 AV3

-0.36 c

44 50 22 1.21 AV2

• 0.19 c

42 79 15 0.88 AV4

• 0.24 c

44 50 20 1.07 AV3 0.23 c

42 79 19 1.24 AV3 0.15 c

44 50 25 1.57 AV1 0

c 42 80 22 1.12 AV2 0.25 c

44 52 22 1.23 AV3 0.14 c

42 80 28 1.91 AV3 0.09 c

44 52 25 1.59 AV2 0.14 c

42 80 22 1.05 AV4

-0.11 c

44 54 18 1.21 AV3

• 0.26 c

42 81 21 1.47 AV1

• 0.03 c

44 55 15 0.85 AV3

• 0.14 c

42 81 28 2.33 AV3

• 0.36 c

45 26 28 2.59 AV2 0.05 c

42 81 20 1.33 AV4 0.06 c

45 26 28 2.52 AV3

• 0.36 c

42 81 34 3.59 AV2 0.02 c

45 26 15 0.96 AV4

• 0.02 c

42 82 32 2.63 AV2 0.41 c

45 30 20 1.49 AV4 0.2 Page 22 of 25

SG Row Col Per Volts Locn lnch1 c

45 30 36 4.05 AV3 0.39 c

45 30 25 2.07 AV2

-0.4 c

45 36 18 1.29 AV2

-0.05 c

45 36 18 1.24 AV3

-0.22 c

45 50 21 1.1 AV1 0.16 c

45 52 23 1.37 AV1 0.05 c

45 52 21 1.32 AV2

-0.14 c

45 52 31 2.57 AV3 0.09 c

45 53 20 1.22 AV3 0.02 c

45 53 19 1.09 AV1 0.09 c

45 54 18 1.18 AV3

-0.26 c

45 54 16 1.04 AV1 0.25 c

45 55 22 1.59 AV1 0.28 c

45 55 19 1.23 AV3 0.05 c

45 55 26 2.08 AV2 0.31 c

45 61 19 1.24 AV4

-0.27 c

45 61 25 1.93 AV3 0.37 c

45 61 21 1.33 AV2

-0.16 c

45 85 14 0.84 AV2 0.41 c

45 85 15 0.73 AV1 0

c 45 85 29 2.63 AV3 0.07 c

46 34 24 1.95 AV2 0.31 c

46 34 24 1.99 AV3

-0.07 c

46 34 19 1.44 AV4 0.09 c

46 55 13 0.72 AV3

-0.31 c

46 63 19 1.09 AV3 0.02 c

46 63 17 0.87 AV2 0.07 c

46 63 18 0.98 AV1 0.09 c

46 63 20 1.03 AV4 0.12 c

46 70 19 0.95 AV1

-0.18 c

46 89 14 0.79 AV4

-0.33 c

47 29 14 0.71 AV2 0.38 c

47 44 23 1.33 AV1

-0.23 c

47 66 19 1.21 AV1

-0.09 c

48 29 12 0.55 AV4 0.34 c

48 30 13 0.84 AV4

-0.14 c

48 56 16 1.05 AV1 0.25 c

49 41 12 0.59 AV1 0

c 49 82 15 0.94 AV4 0.24 Page 23 of 25

20 SG A VB Wear SG Row Col Per Volts Locn lnch1 SG Row Col Per Volts Locn lnch1 D

23 9

13 0.8 AV4

-0.6 D

35 97 16 0.9 AV3

-0.1 D

26 8

14 0.9 AV4 0.1 D

35 97 26 2.2 AV2 0.1 D

26 8

19 1.4 AV1 0.4 D

36 17 17 1.2 AV2

-0.1 D

26 48 22 1.7 AV2 0.4 D

36 39 33 3.5 AV2 0.1 D

26 50 15 1.0 AV2 0.4 D

36 39 25 2.1 AV3 0.1 D

27 106 16 1.1 AV1 0.2 D

36 75 15 1.0 AV2 0.5 D

27 106 15 1.0 AV4

-0.1 D

36 93 13 0.8 AV3

-0.2 D

28 18 13 0.9 AV3 0.1 D

36 93 17 1.1 AV1

-0.1 D

29 10 24 2.0 AV2

-0.1 D

37 23 15 0.9 AV3

-0.4 D

29 10 25 2.2 AV3

-0.3 D

37 23 17 1.1 AV2

-0.3 D

29 11 21 1.6 AV3

-0.3 D

37 27 19 1.3 AV3

-0.3 D

29 11 26 2.3 AV2 0.1 D

37 27 15 0.9 AV1 0.5 D

29 11 11 0.7 AV4 0.0 D

37 28 16 1.1 AV3

-0.3 D

29 12 16 1.1 AV4 0.0 D

37 28 16 1.1 AV2 0.0 D

29 13 13 0.9 AV2 0.1 D

37 29 15 0.9 AV3

-0.5 D

29 14 19 1.4 AV2

-0.3 D

37 34 21 1.7 AV3

-0.3 D

29 14 18 1.3 AV3 0.4 D

37 34 22 1.8 AV2

-0.1 D

29 31 29 2.6 AV4

-0.5 D

37 43 18 1.4 AV2

-0.3 D

29 31 20 1.4 AV3

-0.1 D

37 51 23 1.9 AV2 0.2 D

30 11 16 1.2 AV4

-0.2 D

37 74 21 1.4 AV2 0.0 D

30 11 31 3.0 AV2

-0.1 D

37 74 19 1.3 AV1 0.0 D

30 11 18 1.4 AV3

-0.1 D

37 74 18 1.1 AV3 0.1 D

30 13 10 0.6 AV2 0.1 D

37 79 15 0.9 AV2 0.2 D

30 13 16 1.1 AV3

-0.1 D

37 89 24 1.9 AV3

-0.3 D

30 101 16 1.0 AV2 0.3 D

38 41 16 1.1 AV3

-0.3 D

30 101 15 1.0 AV3

-0.5 D

38 41 15 1.0 AV2 0.2 D

31 14 14 0.9 AV1 0.0 D

38 43 16 1.2 AV3

-0.3 D

31 101 16 1.0 AV4

-0.1 D

38 43 20 1.6 AV2 0.1 D

31 101 16 0.9 AV1 0.0 D

38 44 24 1.7 AV3 0.4 D

32 37 18 1.3 AV3 0.4 D

38 44 27 2.1 AV2 0.3 D

33 14 15 1.0 AV2 0.1 D

38 64 30 3.0 AV3 0.4 D

33 14 11 0.6 AV3 0.1 D

38 64 19 1.5 AV2 0.4 D

33 36 18 1.2 AV3 0.1 D

38 67 24 2.0 AV3 0.0 D

33 38 16 1.0 AV3 0.3 D

38 67 13 0.9 AV2 0.0 D

33 47 14 1.0 AV2

-0.3 D

38 75 14 0.8 AV3 0.0 D

33 52 14 0.9 AV3 0.3 D

38 75 17 1.2 AV2 0.4 D

34 25 20 1.4 AV3 0.1 D

38 85 16 1.1 AV3

-0.2 D

34 25 17 1.1 AV2 0.3 D

38 97 18 1.3 AV2 0.3 D

34 41 15 1.0 AV2 0.4 D

38 97 26 2.1 AV1

-0.1 D

34 81 12 0.8 AV3

-0.4 D

38 97 20 1.4 AV3 0.1 D

34 81 11 0.7 AV2 0.2 D

39 37 17 1.2 AV3

-0.3 D

34 82 15 1.0 AV3

-0.3 D

39 38 15 0.9 AV3 0.0 D

34 82 18 1.2 AV2

-0.4 D

39 39 25 2.1 AV2 0.1 D

35 75 23 1.7 AV3 0.0 D

39 40 20 1.4 AV3

-0.2 D

35 75 19 1.2 AV1

-0.1 D

39 43 14 1.0 AV1 0.0 D

35 83 21 1.5 AV2

-0.1 D

39 43 14 1.0 AV3 0.0 D

35 84 22 1.5 AV2 0.1 D

39 44 14 0.9 AV3 0.0 D

35 84 22 1.6 AV4

-0.4 D

39 45 16 1.1 AV2 0.3 Page 24 of 25

SG Row Col Per Volts Lo en lneh1 SG Row Col Per Volts Lo en lneh1 D

39 45 24 2.1 AV3

-0.1 D

42 35 18 1.1 AV3

-0.5 D

39 47 23 2.0 AV2 0.4 D

42 35 12 0.7 AV4

-0.1 D

39 47 14 1.0 AV1 0.3 D

42 45 17 1.3 AV4

-0.3 D

39 47 26 2.3 AV3 0.4 D

42 47 25 2.3 AV3

-0.4 D

39 48 20 1.6 AV3

-0.2 D

42 51 16 1.0 AV3

-0.1 D

39 48 16 1.1 AV2 0.3 D

42 51 22 1.7 AV2 0.4 D

39 68 18 1.4 AV2 0.5 D

42 51 20 1.4 AV1

-0.1 D

39 68 15 1.1 AV3

-0.3 D

42 52 35 3.8 AV2 0.0 D

39 70 18 1.4 AV2

-0.3 D

42 52 23 2.0 AV3 0.0 D

39 70 22 1.8 AV3 0.1 D

42 66 12 0.8 AV3 0.3 D

39 76 17 1.0 AV2 0.1 D

42 82 19 1.3 AV3 0.3 D

39 93 21 1.5 AV2 0.1 D

42 82 12 0.7 AV2 0.3 D

39 95 17 1.1 AV4

-0.1 D

42 85 12 0.7 AV4 0.2 D

39 95 17 1.1 AV3 0.0 D

42 85 25 2.1 AV3

-0.3 D

39 96 22 1.6 AV3 0.0 D

42 85 15 0.9 AV2 0.1 D

39 96 22 1.5 AV2 0.0 D

43 35 12 0.6 AV4 0.0 D

40 42 15 1.0 AV2 0.0 D

43 36 25 2.1 AV1 0.1 D

40 48 19 1.4 AV2 0.4 D

43 36 31 3.0 AV3

-0.4 D

40 48 28 2.7 AV3

-0.4 D

43 40 20 1.4 AV1 0.2 D

40 49 22 1.9 AV2 0.0 D

43 40 14 0.9 AV4 0.0 D

40 49 13 0.8 AV3

-0.1 D

43 40 23 1.8 AV3 0.0 D

40 50 10 0.6 AV2 0.3 D

43 40 25 2.0 AV2 0.0 D

40 62 18 1.4 AV2 0.2 D

43 45 16 1.1 AV2 0.1 D

40 62 12 0.8 AV3

-0.3 D

43 48 14 1.0 AV1 0.0 D

40 97 18 1.2 AV2 0.0 D

43 82 16 1.0 AV2 0.1 D

40 97 19 1.3 AV3 0.0 D

43 84 29 2.5 AV3

-0.4 D

41 29 18 1.2 AV3

-0.4 D

44 43 16 1.1 AV2

-0.4 D

41 33 17 1.1 AV3 0.1 D

44 56 16 1.1 AV3 0.1 D

41 33 25 2.0 AV2 0.4 D

44 56 20 1.5 AV2 0.2 D

41 34 18 1.4 AV3 0.1 D

44 86 17 1.2 AV2 0.1 D

41 42 21 1.6 AV2 0.0 D

44 92 15 0.9 AV4 0.2 D

41 42 16 1.0 AV3 0.0 D

45 44 18 1.3 AV2 0.0 D

41 46 17 1.1 AV2 0.0 D

45 44 24 1.9 AV3 0.0 D

41 46 26 2.2 AV3 0.0 D

45 44 18 1.3 AV4 0.0 D

41 48 32 3.3 AV2 0.0 D

45 46 18 1.2 AV4 0.0 D

41 48 13 0.8 AV4

-0.5 D

45 46 22 1.7 AV3 0.0 D

41 48 19 1.5 AV3 0.0 D

45 50 19 1.5 AV1 0.0 D

41 49 15 0.9 AV3

-0.5 D

45 50 31 3.2 AV2 0.0 D

41 49 39 4.6 AV2

-0.2 D

45 50 21 1.7 AV3 0.0 D

41 65 26 2.4 AV3 0.0 D

45 56 15 1.0 AV1 0.3 D

41 67 17 1.3 AV3 0.0 D

45 56 26 2.4 AV2 0.1 D

41 67 15 1.1 AV2 0.0 D

45 56 28 2.6 AV3 0.2 D

41 72 15 0.9 AV1

-0.2 D

46 56 21 1.7 AV2 0.1 D

41 76 18 1.2 AV3 0.3 D

46 56 21 1.6 AV3 0.3 D

41 76 16 0.9 AV2 0.3 D

48 37 16 1.0 AV3 0.0 D

41 76 19 1.3 AV1 0.3 D

49 50 13 0.8 AV1 0.2 D

41 78 20 1.4 AV3

-0.1 D

49 51 13 0.8 AV4

-0.5 D

41 84 15 0.9 AV2 0.3 D

49 61 22 1.9 AV1 0.0 D

41 84 28 2.4 AV3

-0.4 D

49 65 11 0.7 AV1 0.0 D

41 84 17 1.1 AV1

-0.1 D

49 66 13 0.9 AV1 0.1 D

42 35 25 2.0 AV2 0.1 D

49 71 15 1.0 AV1

-0.1 Page 25 of 25