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{{#Wiki_filter: | {{#Wiki_filter:REGULATO NFORHATION DISTR BUNION TEH {RIDS) | ||
ACCESSION'BR ~ 8503 1'90386 DOC ~ DATE e NOTA RI ED; NO DOCKET FAC IL:t 50 244 Rober t Emmet. Ginna Nuclear .Plant~ Uni:t ii , | |||
Rochester G 05000244 AUTHOR AFFILIATION | |||
'AUTH'AME'ARLONiT'~A+ | |||
Rochester Gas 8, El ectr) c Cor p ~ | |||
CURTISi A ~ E e, Rochester Gas 8 Electric Corp. | |||
KOBE R i R ~ | |||
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~ Rochester Gas 8 Electric "REC IP ~ NAMEi AFFILIATION Corp'ECIPIENT MURLEYiT~ Ee, Regjon li Office~ of Director | |||
==SUBJECT:== | ==SUBJECT:== | ||
"1984 Steam Generator- Eddy Current Exam Summary Rept-,", | |||
NRR ORBS BC 01 INTERNALS ACRS 16 ELD/HDS4 NRR/DE/HTEB-14 | '/850306 ltr+ | ||
~~W"' | D'I'STRIBUTION CODE: 470 O IES "RECE'IVED;LTR ENCL SIZE'e T'ITLE:: OR Submitta: Inservice Inspection/Testin9 NOTES;NRR/DL/SEP 1cy, 05000244 OL e 09/19/69-RECIPIENT .:COPIES RECIPIENT, COPIES ID CODE/NAME< LTTR ENCL ID CODE/NAME LTTR ENCL NRR ORBS BC 01 "7 7 INTERNALS ACRS 16 10 10 ADM/LFMB 1 0 ELD/HDS4 1 0 NRR/DE/HEB 15 1 1 NRR/DE/HTEB- 14 1- 1 NRR/DL/TAPMG 1 1 04 1 1 RGN1 1 l. | ||
t | EXTERNALS LPDR 1 1 NRC PDR'2 1 1 NOTES'3 NSIC 05. '1 1 1 TOTAL NUMBER>> OF COPIES REQUIRED: LTTR 28 ENCL" 26 | ||
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I ZZZuZ ROCHESTER GAS AND ELECTRIC CORPORATION o 89 EAST AVENUE, ROCHESTER, N.K 14649-0001 ROGER W. KOBER VICE PRESIDENT TEI.EPNONE ELECTRIC & STEAM PIIODVCTION AREA coDE Tls 546 2700 March 6, 1985 Dr. Thomas E. Murley Regional Administrator U.S. Nuclear Regulatory Commission Region I 631 Park Avenue King of Prussia, Pennsylvania 19406 | |||
==Subject:== | ==Subject:== | ||
1984 Steam Generator Tube Inservice Inspection Special Report | 1984 Steam Generator Tube Inservice Inspection Special Report | ||
==Dear Dr. Murley:== | |||
In accordance with Section 6.9.3.4 of the Ginna Station Technical Specifications and Appendix B step 5.7.2 of the Ginna Station Quality Assurance Manual, we are submitting the 1984 R.E. Ginna Nuclear Station Steam Generator Eddy Current-Examination Summary Report. | |||
In accordance with Section 6.9.3.4 of the Ginna Station Technical Specifications and Appendix B step 5.7.2 of the Ginna Station Quality Assurance Manual, we are submitting the 1984 R.E.Ginna Nuclear Station Steam Generator Eddy Current-Examination Summary Report.This summary report includes: 1)The number and extent of tubes inspected. | This summary report includes: | ||
2)Location and percent of wall-thickness penetration for each indication of an imperfection. | : 1) The number and extent of tubes inspected. | ||
3)Identification of tubes plugged or sleeved.4))Steam Generator tube inspection and corrective action history.n erely, er$U.Kober xc: Director, Inspection and Enforcement r~"'I I l | : 2) Location and percent of wall-thickness penetration for each indication of an imperfection. | ||
~C c l g l,Q i/I<j)e(~Y'P'A J 1984 Steam Generator Eddy Current Examination Summary Report Table of Contents A.Introduction B.'rogram C.Procedure D.Results E.Observations F.Corrective Action Figure 1 | : 3) Identification of tubes plugged or sleeved. | ||
4)) Steam Generator tube inspection and corrective action history. | |||
n erely, er $ U. Kober xc: Director, Inspection and Enforcement | |||
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Rochester Gas 6 Electric Corporation General Maintenance Department Materials Engineering Division EXAHINATlON REPORT R.E. Ginna Nuclear Station 1984 Steam Generator Eddy Current Examination Summary Report August 15, 1984 Prepared by: Materials Engineering Personnel Reviewed by: Date: 3 " | |||
up rvisor, Technzca Prospects Ginna Station Approved by: | |||
Ma ager, Materia s Engineering Date: I QI-BS03l90SSS 8508SS PDR ADOCK 05000244 6 PDR | |||
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1984 Steam Generator Eddy Current Examination Summary Report Table of Contents A. Introduction B. 'rogram C. Procedure D. Results E. Observations F. Corrective Action Figure 1 A S/G Inlet Program Figure 2 A S/G Outlet Program Figure 3 - B S/G Inlet Program Figure 4 B S/G Outlet Program Figure 5 1984 Corrective Action Summary Figure 6 - Steam Generator Tube Inspection and Corrective Action History Figure 6A- Steam Generator Tube Inspection and Corrective Action History Comments | |||
. Figure 7 - A S/G Defect Log. | |||
Figure 8 B S/G Defect Log. | |||
Attachment 1 Strip Chart Data Review Page 1 of 8 | |||
1984 STEAM GENERATOR EDDY CURRENT EXAMINATIONS | |||
==SUMMARY== | ==SUMMARY== | ||
REPORT A.Introduction During the Spring 1984 Annual Refueling and Maintenance Outage at Ginna Station, a multifrequency eddy current examination was performed on tubes in both A and B steam generators. | REPORT A. Introduction During the Spring 1984 Annual Refueling and Maintenance Outage at Ginna Station, a multifrequency eddy current examination was performed on tubes in both A and B steam generators. The purpose of these examinations was to access any corrosion or mechanical damage that may have occurred during the operating cycle since April 1983. Particular attention was given in detecting intergranular attack (IGA) in the tube sheet crevices; pitting, stress corrosion cracking (SCC) and wastage between the tube sheet and the first support plate, denting and fretting wear at the antivibration bar to tube intersections in the U-bend region. | ||
The purpose of these examinations was to access any corrosion or mechanical damage that may have occurred during the operating cycle since April 1983.Particular attention was given in detecting intergranular attack (IGA)in the tube sheet crevices;pitting, stress corrosion cracking (SCC)and wastage between the tube sheet and the first support plate, denting and fretting wear at the antivibration bar to tube intersections in the U-bend region.The examination was performed by R.G.R E.personnel that have been trained and qualified in the eddy current method to at least a Level I Examiners Certification. | The examination was performed by R.G.R E. personnel that have been trained and qualified in the eddy current method to at least a Level I Examiners Certification. Initial data analysis was performed by two personnel from Zetec, Inc. of Issaquah, Washington. Data analysis and review was also performed by R.G.R E. and Babcock R Wilcox personnel subsequent to the Zetec personnel analysis. The data analysis was performed by both teams utilizing Zetec DDA-4 Digital Data Analysis System. | ||
Initial data analysis was performed by two personnel from Zetec, Inc.of Issaquah, Washington. | Results of this examination highlights, once again, the major area of concern for future steam generator tube degradation being tube sheet crevice intergranular attack (IGA) and stress corrosion cracking (SCC). Attachment 1 gives the Steam Generator Tube Inspection and Corrective Action History from 1972 through the April 1984 Outage. | ||
Data analysis and review was also performed by R.G.R E.and Babcock R Wilcox personnel subsequent to the Zetec personnel analysis.The data analysis was performed by both teams utilizing Zetec DDA-4 Digital Data Analysis System.Results of this examination highlights, once again, the major area of concern for future steam generator tube degradation being tube sheet crevice intergranular attack (IGA)and stress corrosion cracking (SCC).Attachment 1 gives the Steam Generator Tube Inspection and Corrective Action History from 1972 through the April 1984 Outage.B.Program At each inspection of the steam generators an eddy current examination program is generated for each leg (inlet and outlet)of both A and B steam generators. | B. Program At each inspection of the steam generators an eddy current examination program is generated for each leg (inlet and outlet) of both A and B steam generators. The philosophy in generating this program is to examine every tube in the inlets to at least the first tube support plate, as well as doing at, least three percent (3%) over the U-bends to the primary face of the outlet. Then as a random sample an examination of a select group of tubes up through the sixth tube support plate. The program for the outlets varies somewhat each year and includes the three percent (3%) sample up to the U-bend to complete the full length inspection of those tubes. Other tubes are also looked at up through the sixth tube support plate. An assesment of the sludge pile zone of the outlet is performed by examining tubes up through the first tube support plate. | ||
The philosophy in generating this program is to examine every tube in the inlets to at least the first tube support plate, as well as doing at, least three percent (3%)over the U-bends to the primary face of the outlet.Then as a random sample an examination of a select group of tubes up through the sixth tube support plate.The program for the outlets varies somewhat each year and includes the three percent (3%)sample up to the U-bend to complete the full length inspection of those tubes.Other tubes are also looked at up through the sixth tube support plate.An assesment of the sludge pile zone of the outlet is performed by examining tubes up through the first tube support plate.The specific program for this year included 100%of all the tubes in the inlets of both steam generators examined to at least the first tube support plate.The following is a breakdown by steam generator of all tubes examined and to the extent tested.Page 2 of 8 B.Program (Continued) | The specific program for this year included 100% of all the tubes in the inlets of both steam generators examined to at least the first tube support plate. The following is a breakdown by steam generator of all tubes examined and to the extent tested. | ||
A S/G Inlet Number of Tube Su orts Number of Tubes Percentage 1st | Page 2 of 8 | ||
B. Program (Continued) | |||
A S/G Inlet Number of Tube Su orts Number of Tubes Percentage 1st 2926 89. 7~o 2nd 44 1. O~o 3rd 2 c 1 P 4th 0 5th 0 6th 165 5. 0'o Tubes Permanently Plugged 123 3~7 0 A S/G Outlet Number of Tube Su orts Number of Tubes Percenta 1st 495 15. 1'o 2nd 3 l. O~o 3rd 0 4th 0 5th 0 6th 1 1 . 0'o 7th 209 6.4 ~o 8th 5 ( 1.0io Sleeved 4 100.0~o B S/G Inlet Number of Tube Su orts Number of Tubes Percenta 1st 2818 86. 4'o 2nd 80 2. 0'o 3rd 3 ( 1.0~ | |||
4th 2 ( 1,0~o 5th 12 (1.0&o 6th 178 S. O~o Tubes Permanently Plugged 167 S. 1~o B S/G Outlet Number of Tube Su orts Number of Tubes Percenta 1st 665 20. 3~o 2nd 7 4 1.0~o 3rd 0 4th 0 5th 0 6th 2 < 1.0~o 7th 217 6. 6'o 8th 4 C, 1 ~ P~o Tube Sheet to Tube Sheet 1 Cl P~o Sleeved Tubes 67 63.65'o Page 3 of 8 | |||
B. Program (Continued) | |||
In addition to the scheduled eddy current examination a profilometry examination was I | |||
performed on the nine new sleeves. This examination was performed by Babcock 4 Wilcox personnel. | |||
Figures I through 4 are tube sheet maps which define the actual program that was followed for each leg of both steam generators. | Figures I through 4 are tube sheet maps which define the actual program that was followed for each leg of both steam generators. | ||
C.Procedure The procedure utilized for the examination of steam generator tubes was NDE-500-4 Rev.6,"Multifrequency Eddy Current Examination of Inconel 600 Steam Generator Tubing".For the sleeve examination NDE-500-5 Rev.3,"Eddy Current Examination of Sleeved Inconel 600 Steam Generator Tubing".Procedure NDE-500-4 provides for the examination of steam generator tubing utilizing 400KHZ and 200KHZ differential method and 210KHZ and 100KHZ absolute method.These frequencies give the ability for direct comparison with all steam generator inspection data since 1972, as well as allow for a more sensitive examination for small volume defects and intergranular attack (IGA).The detection of IGA utilizing the absolute frequencies has been performed since the Spring 1980 examination. | C. Procedure The procedure utilized for the examination of steam generator tubes was NDE-500-4 Rev.6, "Multifrequency Eddy Current Examination of Inconel 600 Steam Generator Tubing". | ||
IGA is the most difficult type of degradation to detect with the eddy current method of examination because the total loss of conductivity is so minute as compared to complete wall loss.Procedure NDE-500-5 provides for the examination of sleeved steam generator tubing addressing the sleeve which forms the new primary boundary and the original tube in the area of the expanded/braze region as well as the"free spand" region.Both of these procedures are available in the NDE Procedures Manual.'Page 4 of 8 D.Results The results of this examination are as follows: (Further information is given on the defect logs, Figures 7 and 8 of the report.)A Inlet 0-20'D 21-30~o OD 31 40o OD 41-50~o OD | For the sleeve examination NDE-500-5 Rev.3, "Eddy Current Examination of Sleeved Inconel 600 Steam Generator Tubing". | ||
STEAM GENERATOR IGA INDICATION IIISTORY Not Sizeable 0-25%26-50%51-75%76-100% | Procedure NDE-500-4 provides for the examination of steam generator tubing utilizing 400KHZ and 200KHZ differential method and 210KHZ and 100KHZ absolute method. These frequencies give the ability for direct comparison with all steam generator inspection data since 1972, as well as allow for a more sensitive examination for small volume defects and intergranular attack (IGA). The detection of IGA utilizing the absolute frequencies has been performed since the Spring 1980 examination. IGA is the most difficult type of degradation to detect with the eddy current method of examination because the total loss of conductivity is so minute as compared to complete wall loss. | ||
However, the B steam-generator has shown a much lower number of IGA and possible IGA indications in comparison to the previous years examination. | Procedure NDE-500-5 provides for the examination of sleeved steam generator tubing addressing the sleeve which forms the new primary boundary and the original tube in the area of the expanded/braze region as well as the "free spand" region. Both of these procedures are available in the NDE Procedures Manual. | ||
The 8 IGA indications identified in the B steam generator breakdown into the following two categories: | ' Page 4 of 8 | ||
1.Tubes above plugging criteria greater than 40% | |||
b.All 5 tubes wer e identified as not sizeable.Out of the 8 indications, all 8 were'ew indications. | D. Results The results of this examination are as follows: (Further information is given on the defect logs, Figures 7 and 8 of the report.) | ||
There were no recorded indications in e tubes during the Spring 1983 examination. | A Inlet Number of Tubes 0-20'D 263 21-30~o OD 48 31 40o OD 5 41-50~o OD 1 Crevice IGA 27~o Dents 872 A Outlet 0-20 o 5 Dents 225 B Inlet 0-20 o OD 95 21-30~o OD 3 31-40'o OD 1 51-60 o OD 1 8 1 90~o OD 1 81-90~o ID 1 91-100'~ OD 1 Crevice IGA Not Sizable 51-60'o 81-90'0 91-100'0 Dents 576 | ||
Page 6 of 8 1 0 E.Observations As was noted last year, the IGA continues to be developing deeper in the crevice.Along with the IGA being deeper in the crevice, most of the tubes requiring corrective action had stress corrosion crack (SCC)indications near the rolled transition zone.There were no indications of pitting, wastage or SCC above the top of the secondary face of the tube sheet.A comparison of the dent indications between this inspection and past inspections revealed that there were no noticable changes in number of tube intersections or size of dents.All sleeves continue to perform well with no indications of any degradation. | ~Bul es B Outlet 0-20~o OD 31-40'o OD 41-50~D OD Dents 178 | ||
One tube had an 85%Inside Diameter (ID)defect in the rolled transition area of the tube.Comparison with the previous years data'showed some change.In reviewing the data no other tubes with similar indication were found.Also one cold leg tube had an apparent wastage indication at the first tube support plate intersection that exceeded the plugging criteria.This tube was sized utilizing the differential mix which allowed for more accurate sizing than in the past.Several of these type of indications have been seen in the past in the periphery zone of the cold leg and are probably the result of old phosphate chemistry control resulting in wastage.These phenomenas will continue to be monitored in future inspections. | *Inside Diameter Defect Page 5 of 8 | ||
There were no indications of any problems associated with the antivibration bar to tube intersection points during this inspection. | |||
This is a very important area of the steam generator due to problems that have been found at other plants, especially those with Model 51 steam generators. | 1 STEAM GENERATOR IGA INDICATION IIISTORY Not A-S/G B-S/G Sizeable 0-25% 26-50% 51-75% 76-100% TOTAL TOTAL r | ||
At the end of the outage a meeting was held to discuss the net positive reduction in number of IGA indications at this inspection as compared to last year', (8 to 78).One of the most significant observations during the meeting was that last years inspection was after two outages in 1982 where there was an abnormal number of days with the B steam generator in dry lay-up.In dry lay-up the tube sheet crevices could be affected by both oxygen and carbon dioxide potentially raising the crevice environment's aggressiveness. | March 1979 0 (0) 2 December 1979 0 0 (0) 11 April 1980 | ||
In order to allay this concern and continue to try improving our IGA attack rate, the following items have been addressed by the plant for the 84-85 operating cycle: a)Continue excellent operating secondary water chemistry. | * 19 (0) 31 November 1980 2 r 0 (0) | ||
b)Crevice flushing.c)Water lancing of sludge.d)Minimize dry layup time.e)Maintain excellent wet layup chemistry. | April 1981 0 (0) 14 February 1982 0 (0) 13 October 1982 27 7(1) 59'4rg April 1983 38(3) 3(1) 15 15 (4) 51 March 1984 92(3) 13(1) 0(1) 33(1) 41(1)'6 2 40 (6) 192 | ||
f)Consider N>or Argon blanket of steam generator secondary for sleeving or when not in wet layup.g)Continued plant operation support.Page 7 of 8 | ~ ~ ~ | ||
Crevice flushing implemented (31) tubes plugged at this outage (28) remained inservice and were sleeved during April 1983 Outage with 50 other indications, (1) indication was removed by pulling. | |||
( ) denotes A-S/G tube indications These results are consistent with past examinations of the A steam generator. However, the B steam -generator has shown a much lower number of IGA and possible IGA indications in comparison to the previous years examination. | |||
The 8 IGA indications identified in the B steam generator breakdown into the following two categories: | |||
: 1. Tubes above plugging criteria greater than 40% 3 Tubes | |||
: a. All 3 tubes were new indications | |||
: 2. Tubes below plugging criteria less than 40% 5 tubes | |||
: a. All 5 tubes were new indications. | |||
: b. All 5 tubes wer e identified as not sizeable. | |||
Out of the 8 indications, all 8 were'ew indications. There were no recorded indications in e tubes during the Spring 1983 examination. | |||
Page 6 of 8 | |||
1 0 | |||
E. Observations As was noted last year, the IGA continues to be developing deeper in the crevice. Along with the IGA being deeper in the crevice, most of the tubes requiring corrective action had stress corrosion crack (SCC) indications near the rolled transition zone. There were no indications of pitting, wastage or SCC above the top of the secondary face of the tube sheet. | |||
A comparison of the dent indications between this inspection and past inspections revealed that there were no noticable changes in number of tube intersections or size of dents. All sleeves continue to perform well with no indications of any degradation. | |||
One tube had an 85% Inside Diameter (ID) defect in the rolled transition area of the tube. Comparison with the previous years data 'showed some change. In reviewing the data no other tubes with similar indication were found. Also one cold leg tube had an apparent wastage indication at the first tube support plate intersection that exceeded the plugging criteria. This tube was sized utilizing the differential mix which allowed for more accurate sizing than in the past. Several of these type of indications have been seen in the past in the periphery zone of the cold leg and are probably the result of old phosphate chemistry control resulting in wastage. These phenomenas will continue to be monitored in future inspections. | |||
There were no indications of any problems associated with the antivibration bar to tube intersection points during this inspection. This is a very important area of the steam generator due to problems that have been found at other plants, especially those with Model 51 steam generators. | |||
At the end of the outage a meeting was held to discuss the net positive reduction in number of IGA indications at this inspection as compared to last year', (8 to 78). One of the most significant observations during the meeting was that last years inspection was after two outages in 1982 where there was an abnormal number of days with the B steam generator in dry lay-up. In dry lay-up the tube sheet crevices could be affected by both oxygen and carbon dioxide potentially raising the crevice environment's aggressiveness. | |||
In order to allay this concern and continue to try improving our IGA attack rate, the following items have been addressed by the plant for the 84-85 operating cycle: | |||
a) Continue excellent operating secondary water chemistry. | |||
b) Crevice flushing. | |||
c) Water lancing of sludge. | |||
d) Minimize dry layup time. | |||
e) Maintain excellent wet layup chemistry. | |||
f) Consider N> or Argon blanket of steam generator secondary for sleeving or when not in wet layup. | |||
g) Continued plant operation support. | |||
Page 7 of 8 | |||
F. Corrective Action Corrective Action for the one tube in the A steam generator that had an area of IGA approximately 19.6 inches above the tube end required that the tube be plugged. A Combustion Engineering Mechanical Plug was used for removing the tube from service. | |||
Corrective action for ten (10) tubes in the B steam generator included plugging one (1) tube and sleeving nine (9) tubes with tube sheet sleeves. These sleeved tubes are listed in the 1984 Corrective Action Summary (Figure 5), along with the tubes that were plugged in both steam generators. | |||
Also included in this year's maintenance activity was the repair of three (3) leaking explosive plugs in the A steam generator. The following tubes were repaired by Gas Tungsten Arc Welding in bare hole plugs: R12 C70, R17 C60, and R27 C48. | |||
In previous years leaking explosive plugs have been repaired in the B steam generator, the following are those tubes that were repaired in May 1983: R24 C44 and in October 1982 R39 C68, R39 C69 and R39 C70. | |||
Figure 6 of this report "Steam Generator Tube Inspection and Corrective Action History" gives an overview of inspections, results, and actions taken for all inspections since 1977. | |||
Page 8 of 8 | |||
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FIGURE 4 | |||
GINNA ATION 1984 CORRECTIVE ACTION | |||
==SUMMARY== | ==SUMMARY== | ||
ROW 17 | |||
R17 C41 had ECT indications at all frequencies, R15 C44 had just 100kH2 Absolute ECT indication and R17 C40 had not ECT indication. | A Steam Generator ROW COLUMN LEG FLAM LOCATION SLEEVE SIZE 17 47 Hot 27% OD IGA 19.6" Above Tube End Combustion Mech. Plug. | ||
Both hot leg tubes had approximately 50%IGA, R17 C41 had a 60%SCC indication associated with the IGA.(2)Manually sleeved five (5)tubes with Nickel plated | B Steam Generator 20 47 Hot Abs Indication IGA 6-11" Above Tube End 22 tl 42 50 Hot 85% OD SCC 4" Above Tube End 22 32 53 Hot 54% OD SCC 4" Above Tube End 22" 32 54 Hot Abs Indication IGA 4-8" Above Tube End 22 II 11 55 Hot Abs Indication IGA 4-8" Above Tube End 22 II 36 59 Hot Abs Indication IGA 4-8" Above Tube End 22" 36 63 Hot Abs Indication IGA 4-10" Above Tube End 22 tl 28 76 Hot 85% ID SCC 3.2" Above- Tube End 22" 26 79 Hot 95% OD SCC 3" Above Tube End 22" 18 87 Cold 53% OD Mastage ffl Tube Support Plate 'BRW Explosive Plug FIGURE 5 | ||
Pulled R21 C46 with a 100kH2 ECT indication, R7 C45 and R28 C45 which were clean.All tubes pulled were from the hot leg.(4)Recovery from the January 25, 1982 included removing 26 tube sections by EDM and ID Cutters along with one tube pulled from the secondary side.(5)The four tubes identified with IGA in the A steam generator were sleeved with 22" tube sheet sleeves.The 78 tubes identified in the"B" steam generator with IGA and/or SCC in the crevice were repaired as follows: 41 tubes were sleeved with 9 tubes were sleeved with 24 tubes were sleeved with 1 tube and 2 sleeves were 1 tube R34 C54 was pulled | |||
STEAM GENERATOR TUBE INSPECTION AND CORRECTIVE ACTION HISTORY Primary to No.Defects Secondary Total Type of Requiring No. Tubes No.Tubes No.Tubes DATE No. Tubes Inspected Leaka e pm Defects Deterioration Reaa I r Pl uqled -'Ieeved PuIIed Comm A B A A/B A A A B B B A B A B Hot Col d Hot Col d In Factory 1 1 April 1972 1050 0 0 0 0 0 0 | |||
'March 1974 3259 516 1098 516 19 0 Wastage 19 0 19 0 Nov. 1974 1701 430 672 39 2 0 Wastage 2 0 2 0 Ma rch 1975 2174 442 0.0050 Jan. 1976 1931 442 A S/G 46 11 Cracking/Wastage 46 11 46 II 53 0.09I B S/G 0 2 Wastage 0 2 0 2 Feb. 1976 3192 3192 3247 3247 39 2 Wastage 2 39 39 2 April 1976 100 1025 75 0.099 B S/G 0 15 Cracking 0 15 0 15 Apri I 1977 2003 268 1525 268 13 1 Wastage 13 1 13 1 July 1977 300 0.012 B S/G 5 ID Cracking 5 5 Jan. 1978 350 0.060 B S/G 8 Cracking/Wastage 8 8 April 1978 2049 325 I714 375 1 15 ID Cracking 1 15 1 15 Feb. 1979 2049 325 1714 375 6 Cracking, Wastage,21 GA 6 6 Dec. 1979 1200 0.007 B S/G 13 IIIGA, 2 Wastage 13 13 April 1980 3139 325 3182 375 1 31 "A" Pitting/"B"IGA 1 13 1 31 (1 Nov. 1980 3138 325 3151 375 3 IGA 2 0 5 --(2 May 1981 Feb 1982 3138 325 3141 400 15 IGA, Wastage 6 16 (3 3'137 526 3140 526 620/ B S/G 16 IGA, Mech. Dam 16 18 --(4 Sep. 1982 3138 382 3129 893 1 32 IGA 1 28 33' Apri I 1983 March 1984 3137 633 3096 832 4 78 IGA, SCC 23 74 (5 3137 717 3093 963 1 10 IGA, SCC 5 1 9 12 2 3 123 171 12 1 10 Or Or Or Or Or Or Or Or 3.94 8.01 3 7e 5.24 3.84 5. I 4 0. I 4 3. 1C FIGURE 6 8/13/84 Albert E. Curtis III | |||
Steam Generator Tube Ins ection and Correct@ye Action Hzstor Comments (1) Pulled R15 C55 and R17 C41 from hot leg and R17 C40 from the cold leg to determine IGA conditions in "B" steam generator. | |||
R17 C41 had ECT indications at all frequencies, R15 C44 had just 100kH2 Absolute ECT indication and R17 C40 had not ECT indication. Both hot leg tubes had approximately 50% IGA, R17 C41 had a 60% SCC indication associated with the IGA. | |||
(2) Manually sleeved five (5) tubes with Nickel plated inconel 600 T.T. sleeves. Three tubes had IGA indications, two others were preventatively sleeved. | |||
(3) Sleeved 16 tubes with co-extruded sleeves, 13 with defects and 3 preventatively. Pulled R21 C46 with a 100kH2 ECT indication, R7 C45 and R28 C45 which were clean. All tubes pulled were from the hot leg. | |||
(4) Recovery from the January 25, 1982 included removing 26 tube sections by EDM and ID Cutters along with one tube pulled from the secondary side. | |||
(5) The four tubes identified with IGA in the A steam generator were sleeved with 22" tube sheet sleeves. The 78 tubes identified in the "B" steam generator with IGA and/or SCC in the crevice were repaired as follows: | |||
41 tubes were sleeved with 36" brazed sleeves 9 tubes were sleeved with 28" brazed sleeves 24 tubes were sleeved with 22" tube sheet sleeves 1 tube and 2 sleeves were plugged 1 tube R34 C54 was pulled for metallurgical analysis 8/13/84 Albert E. Curtis III FIGURE 6A | |||
A S/G DEFECT LOG 1984 March 1984 Inspection INLET OUTLET Dents: Dents: | |||
Below Tube Sheet 8 Below Tube Sheet 7 At Tube Sheet 521 At Tube Sheet 101 Above Tube Sheet 12 Above Tube Sheet 8 gl Tube Support 304 j/1 Tube Support 47 Above jul Tube Support 3 Above jjl Tube Support 1 Jj2 Tube Support 7 g2 Tube Support 13 g3 Tube Support 1 g3 Tube Support 5 fj4 Tube Support 2 Above jj3 Tube Support g5 Tube Support 1 g4 Tube Support 12 g6 Tube Support 13 g5 Tube Support TOTAL 872 jf6 Tube Support AVB ll 3 | |||
3 Bulge 13 (10&ossible TOTAL 225 Defects: Defects: | |||
0-20% 263 0-20% 5 21-30% 48 21-30% 0 31-40% 5 31-40% 0 41-50% 1 41-50% 0 51-60% 0 51-60% 0 61-70% 0 61-70% 0 71-80% 0 71-80% 0 81-90% 0 81-90% 0 90-100% 0 90-100% 0 TOTAL 317 TOTAL FIGURE 7 | |||
B S/G DEFECT LOG March 1984 Inspection INLET OUTLET Dents: Dents: | |||
Below Tube Sheet 8 Below Tube Sheet 8 At Tube Sheet 483 At Tube Sheet 103 Above Tube Sheet 6 Above Tube Sheet 2 jjl Tube Support 37 jjl Tube Support 17 Above jjl Tube Support 3 Above jjl Tube Support 1 jj2 Tube Support 2 jj2 Tube Support 3 Tube Supports 3-5 0 jj3 Tube Support 2 jj6 Tube Support 33 Above jj3 Tube Support 1 jj4 AVB 4 jj4 Tube Support 0 jj5 Tube Support 2 TOTAL 576 jj6 Tube Support 37 Below jj6 Tube Support 2 TOTAL 178 De fects: De fects: | |||
0-20% 95 0-20% 1 21-30% 3 21-30% 0 31-40% 1 31-40/. 1 41-50% 0 41-50% 1 51-60% 1 5 1-60% 0 61-70% 0 61-70% 0 71-80% 0 71-80% 0 81-90% 1 81-90% 0 91-100% 1 91-100% 0 TOTAL 102 TOTAL FIGURE 8 | |||
ATTACHhFNT 1 STRIP CHART DATA REVIEW NOTE: Steam Generator Identification as Follows: | |||
Ex. S.G. 2.1 = B S/G = 2 Inlet = 1 S.G. 1.2 = A S/G = 1 Outlet = 2 | |||
CH 5 VERT CH 6 VERT CHANEL HO "- 1 G 11 NN 17 COL 47 | |||
CHAHHEL 1 FREQ 488 kHz SPAH Ã4 | |||
ROTATIOH | |||
CHAHHEL 2 FREQ SPAH DIFF 8 DEG 288 kHz 1824 | |||
- | |||
CHANHEL FREQ SPAH | |||
ROTATIOH 3 ABS 8 DEG 218 kHz 1824 ROTATIOH 8 DEG 8.72 HTS VOLTS | |||
-2. 4 Q%t%EL 4 FREQ SPAH | |||
ROTATION ABS 188 kHz 1824 8 DEG HIX 1 (5) 1824 CHAHNELS 12 Q-'AH ROTATION - 13 DEG HI X 2 | |||
(6) | |||
CHANHEL5 SPAH 1824 34 ZETEC Inc. - 1%8 Edition 12.8 Rev 1 CH 5 VERT + I CH 6 VERT + 11 ROW 1 7 COL 47 FREQ SPA H | |||
- | |||
CHAHNEL 1 DIFF 488 kHz 354 8 DEG | |||
ROTATIOH CHAHNEL 2 Qgji FREQ 288 kHz 264 FREQ SPAH | |||
ROTATIOH | |||
CHAf+tEL 3 ABS 8 DEG 218 kHz 1824 ROTATIOH - 8 DEG 8.54 VOLTS 122 DEG 8 z FREQ SPAH | |||
CHAHtKL 4 | |||
ABS 188 kH 1824 HTS 4 ROTATIOH 8 DEG HIX 1 (5) | |||
- | |||
CHAHHELS SPAN 1824 12 ROTATIOH 13 DEG C~~S SPAH HIX 2 (6) | |||
ROTATIOH - | |||
34 1824, 8 DEG | |||
~C Inc. | |||
Edition 12.8 Rev l~ | |||
CH 5 VERT ~ CH 6 VERT 11 RON 17 COL 47 CHAOS 1 DIFF FREQ- 488 kHz SPRH 354 ROTATIOH- 8 DEG CHAtbKL 2 DIFF FREQ- 288 kHz SPAH 264 ROTATION- 8 DEG CHAHfKL 3 ERR FREQ- 218 kH-SPAH 374 ROTATIOH- 8 DEG CIiNEL 4 MRS 23 VOLTS 339 8 FREQ- 188 kHz HTS 1 ~ | |||
-2. 4 DEG SPAH1824 ROTATIOH- 8 DEG NIX 1 <5> | |||
CHANHELS 12 | |||
~WW- 1824 ROTRTIOH 13 DEG NIX 2 <6> | |||
CHAPELS 34 SPAH- 1824 ROTATIOH 8 ZETEC Inc. | |||
12.8 Rev 19'dition 1 | |||
CH 6 VFRT + 11 RON 17 COL 47 CKNNNEL FREQ SPAH-1 | |||
- | |||
DIFF 488 kHz ROTATIOH CHAHHEL FREQ QKN | |||
2 DIFF 8 DEG 288 kHz 264 | |||
- 8 DEG | |||
ROTATION | |||
CHAHNEL 3 ABS FREQ 218 kH-SPAH 374 ROTATIOH - 8 DEG 8.66 VOLTS 318 DEG 8 I FREQ " | |||
CHANHEL 4 ggg 188 kHz HTS -2. 4 SPAN 334 ROTRTIOH 8 DEG NIX 1 | |||
<5> | |||
CHAHHELS SPAH ROTATIOH - | |||
1824 12 13 DEG SPAH NIX 2 <6> | |||
Ct%NNELS ROTRTIOH - | |||
34 1824 8 DEG ETEC Inc. - 1983 Edition 12.8 Rev 1 | |||
CH 5 VERT CH 6 VERT CHAHHEL HO 1 ~ 21 ROW 20 COL 4E'HAHHFJ 1 | |||
FREQ 480 kHz cVN 1024 CHAHHEL FREQ SR% | |||
ROTATIOH 2 DIFF 0 DEG 288 kHz 1824 | |||
- | |||
FREQ SPAH | |||
ROTATIOH CHAN)KL 3 | |||
. | |||
ABS 0 DEG 210 kHz 1024 ROTATION - 0 DEG HTS 0.88 VOLTS | |||
-11 3 | |||
~ | |||
210 FREQ Q%H | |||
CkFNHEL 4 ROTATIOH | |||
Abc 188 kHz 1824 8 DEG IIX 1 SPAN CHAHHELS ROTATIOH | |||
<5) | |||
- | |||
12 1024 8 DEG SPAN HIX 2 <6) | |||
CHAHHELS ROTATIOH - | |||
34 1824 0 DEG ETEC Inc. 1983 Edition 12.8 Rev 1 CR; VERT CH 6 VERT + CHAHHEL NO 21 RON 20 COL 4r CHAHHEL 1 DIFF FREQ- 408 kHz SPAH1024 ROTATIOH- 8 DEG CHAHHEL 2 EEQ FREQ - 280 kHz SPAN1024 ROTATIOH- 0 DEG CHAHNEL 3 ABS FREQ- 210 kHz SPAH1824 ROTATION- 8 DEG CHAHNEL 4 ABS e.ze voLTs e e r. | |||
FREQ- 188 kHz HTS -11. 3 DEG SPAHIe24 ROTATIOH- 0 DEG I1IX 1 <5) | |||
CHAHHELS SPAH 12 1024 ROTATIOH- 8 DEG iiIX 2 <6) 0%t4KLS 34 SPRt- 1024 ROTATIOH- 8 DEG Inc. 1303 'ETEC Edition 12.0 Rev 1 | |||
28 47 | |||
CH 5 VERT + + 21 RON COL QSHHEL FREQ Q%H 1 DIFF 488 kHz 1824 CHAHHEL FREQ SR% | |||
ROTATIOH 2 DIFF 8 DEG 288 kHz 1824 ROTATION | |||
8 DEG ggg | |||
CHANEL 3 FREQ 218 kHz SPAN 114 | |||
- | |||
HTS 8.43 VOLTS | |||
-11.3 165 OEG 8 < | |||
FREQ SPAN | |||
ROTATIOH | |||
CHANHEL 4 ABS 1824 8 | |||
188 kHz DEG ROTATIOH - 8 DEG HIX 1 (5> | |||
SPAH -- | |||
CHAHNELS CHARNELS ROTATIOH 1824 12 8 DEG SPAN HIX 2 (6) | |||
ROTATIOH - | |||
1824 34 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT CHAHHEL NO 4 G 21 RON 28 COL CHAHNEL 1 DIFF i FREQ- 488 kHz f SPAH 1824 ROTATIOH- 8 OEG CHAHHEL 2 DIFF FREQ- 288 kHz SPAH 1824 ROTATIOH- 8 OEG CHANHEL 3 ABS FREQ- 218 kHz SPAN 114 ROTATIOH- 8 DEG CH%%EL 4 RES FREQ-8.49 HTS VOLTS | |||
-11. 3 96 DEG 8 < | |||
SPAH . 188 kHz 244 ROTATION- 8 DEG HIX 1 (5) | |||
CHANHELS Q%H 1824 12 ROTATIOH 8 DEG l11X 2 (6> | |||
DRttKLS 34 SPCN- 1824 ROTATIOH 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 | |||
5 VERT ~ CH 6 VERT 0%HNEL NO 1 QSRKL FREQ SPAH | |||
1 QKHi 488 kHz 584 | |||
ROTATIOH | |||
CHAIT 2 DIFF FREQ SPAN 8 DEG 208 kHz 1824 FREQ SR% | |||
ROTATIOH | |||
CHAHtKL 3 FRS 8 DEG 218 kHz 114 | |||
- | |||
HTS 1.06 VOLTS | |||
-17. 8 FREQ SPAH | |||
ROTATION | |||
CHAt&EL 4 %8 244 8 DEG 100 kHz ROTATIOH - 8 DEG SPAN HIX 1 (5> | |||
CHAHHELS ROTATION - | |||
12 1824 0 DEG SPAH HIX 2 (6> | |||
C)%HNELS ROTATION - | |||
34 1824 8 DEG ZETEC I nc. 1983 Edition 12.8 Rev CH 5 VERT + Ch 6 VERT + BQNHEa. HO 2 Rl ROfl 42~~~I CHAHHEL FREQ SPAH | |||
. 1 DIFF 480 kHz 584 ROTATIOH- 0 DEC i 2 | |||
CHANHEL FREQ M kHz SPAH1024 ROTATION- 8 DEG CHAHtKL 3 ABS FREQ- 218 kHz SPAH 114 ROTATION- 0 DEG AS 8.84 79 DEG 0 r FREQ CHAHHEL 4 188 kHz HTS VOLTS | |||
-17. 8 SPAH 244 ROTATIOH- 8 DEG HIX 1 (5> | |||
SPAH - | |||
CHAHHELS ROTATIOH 12 1024 8 DEG HIX 2 (6> | |||
CHASES 34 SPfW- 1824 ROTATI(N- 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 I | |||
~, | ~, | ||
CH 5 YERT+CH 6 VERT+ | CH 5 YERT + CH 6 VERT + | ||
CH 5 VERT+CH 6 VERT 0%t&EL HO | CHAL%EL 1 DIFF FREQ- 488 kHz SPAH 584 ROTATIOH- e DEG 0%NHEL 2 DIFF FREQ- 288 kHz SPAH 1824 ROTATIOH-CHAHfKL 3 FREQ-II 8 DEG 218 kH-SPAN 324 ROTATIOH- 8 DEG CHA%KL 4 ABS 1.41 YOLTS 71 DEG 8 Z FREQ- 188 kHz HTS -17 8 SPAH 244 ROTATIOH- 8 DEG HIX 1 (5) 12 1824 8 DEG 34 SPAH- 1824 ROTATIOH- 8 DEGJ ZETEC Inc. - 1933 Edition 12.8 Rev 1 CH 5 VERT +I CH 6 YERT PG 21 RON 42 COL 58( | ||
CHAHHEL 1 DIFF FREQ- 488 kHz Q%H 584 ROTATIOH- 8 DEG DIFF FREQ CHANHEL 2 288 I:Hz SPAH1824 ROTATION- 8 DEG C~%EL 3 ABS FREQ 218 kHz SPAN 324 ROTATION- 8 DEG 8.92 VOLTS 72 8 Z FREQ CHAHNEL 4 IRK'88 kHz HTS -17.3 OEG SPAH 244 ROTATIOH- 8 DEG HIX 1 (5> | |||
CHAHNELS 12 Q%N 1824 ROTATIOH- 8 DEG HIX 2 (6) 0%NELS 34 SPfH- 1824 ROTATIOH- 8 DEG ZETEC Inc. - 1933 Edition 12.8 Rev 1 | |||
CH 5 VERT + CH 6 VERT + 21 RON:c | |||
COL 53/ | |||
CHAHHEL FREQ SPAH 1 488 kHz 1824 | |||
ROTATI OH 8 DEG CHANHEL FREQ SR% 2 DIFF 288 kHz 1824 CHAt4KL 3 FREQ SPIC | |||
ROTATIOH ABS 8 DEG 218 kHz 324 ROTATION - 8 DEG HTS 1.63 VOLTS | |||
-17. 3 CHANHEL 4 FREQ SPAN | |||
ROTATION ABS 188 kHz 244 8 DEG | |||
~ | |||
NIX 1 (5) | |||
Q%N CHAHNELS ROTATIOH 1824 12 8 DEG SPAH NIX 2 <6) | |||
CI%HNELS ROTATION - | |||
34 1824 8 DEG ZETEC Inc. - 1933 Edi t Ion 12. 8 Rev 1 CH 5 VERT 6 VF.RT CHANNEL NO 2 ~i 32 COL | |||
21 RON CHAHNEL DIFF | |||
1 FREQ 488 kHz SPAH 1824 CHAHHEL 2 FREQ SPAH | |||
ROTATIOH | |||
8 DEG 288 kHz 1824 CHAHNEL FREQ SPAN | |||
ROTATION 3 ABS 8 DEG 218 kHz 324 ROTATION 8 DEG 8.78 VOLTS 94 DEG 8 % | |||
CHAf+KL 4 FREQ | |||
ABS 188 kHz HTS -17. 3 SPAH 244 ROTATIOH - 8 DEG NIX 1 | |||
(5) | |||
CHAHHELS SPAN ROTATIOH - | |||
1824 12 8 DEG NIX 2 <6) | |||
C~fKLS SAR ROTATIOH | |||
- | |||
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1 | |||
CH 5 VERT 6 VERT 21 RON 32 COL 53 | |||
CH CHANEL FREQ SPAN 1 | |||
- | |||
DIFF 488 kHz 1824 CHANEL 2 FREQ SPW | |||
ROTATION DIFF 8 DEG 288 kHz 1824 | |||
- | |||
CHAWEL 3 FREQ SPIC | |||
ROTATIOH ggg 8 | |||
218 kHz 324 DEG ROTATIOH 8 DEG HTS 1.18 VOLTS | |||
-17. 3 259 DEG 8 < | |||
FREQ SPAH CHAHHEL 4 | |||
" 188 ROTATIOH A8S 244 8 | |||
kHz DEG SPAH IIX 1 (5) | |||
CHAHHELS ROTATIOH 1824 12 8 DEG HIX 2 (6) | |||
CHAHHELS SPAN ROTATION 34 1824 8 DEG 2ETEC Inc. 1933 Edition 12.8 Rev I CH 5 VERT + CH 6 VERT CHAHHF.L HO 4 8G r1 RON 92 COL 53( | |||
CHANEL DIF F 1 | |||
488 kKz FREQ SPAN 1824 ROTATIOH- 8 DEG CHAHHEL 2 DIFF FREQ- 288 kHz SPAH1824 ROTATION- 8 DEG FREQ SPAN | |||
" | |||
CHAHtKL 3 QK 218 324 I<H ROTATION- 8 DEG | |||
CHAHHEL 4 RKR 8.78 HTS VOLTS | |||
-17. 3 256 OEG 8 z FREQ SPAH - | |||
IOH-188 kHz 244 ROTAT 8 DEG HIX 1 (5> | |||
CHAPELS 12 SPAH- 1824 ROTATION- 8 DEG SIX 2 (6> | |||
~LS SPFN-34 1824 ROTATIOH 8 DEG I ZETEC Inc. - 1933 Edition 12.8 Rev 1 | |||
CH 5 VERT ~ CH 6 VERT CHAt4tEL HO 1 21 R04 32 COL 54 | |||
488 CHAPEL 1 FREQ kHz SPAH 754 | |||
- | |||
ROTATIOH CHA!+EL 2 FREQ SR% | |||
DIFF 8 DEG 288 kHz 1824 CHARNEL FREQ SPAH | |||
ROTATIOH 3 ABS 8 | |||
218 kHz 324 DEG | |||
- | |||
HTS 8.41 VOLTS | |||
-14. 8 214 < 8 CHQ4KL 4 FREQ SPAN | |||
ROTATION ABS 244 8 DEG 188 kHz ROTAT IOH 8 DEG HIX 1 <5) | |||
CHAHHELS SPAN ROTATIOH 12 1824 8 DECi HIX 2 <6) | |||
CHAHHELS SPAN ROTATIOH 1824 34 8 DEG ZETEC Inc. 1983 Edi t i on 12. 8 Rev 1 | |||
~CH EVERT | |||
' | |||
6 VERT CHAHHEL HO 2 PO 21 ROH 32 m. | |||
CHANHEL 1 DIFF FREQ- 488 kHz SPAH 754 ROTATIOH- 8 DEG I CHAHHEL 2 FREQ - 288 kHz SPAH 324 ROTATIOH- 8 DEG CHAHHEL 3 FREQ SPAH | |||
" AK 218 kHz 324 ROTATIOH- DEG e.36 VOLTS 341 DEG 8 z CHANHEL 4 FREQ 188 ABS kHz HTS -14. 8 SPAH 244 ROTAT IOH- 8 DEG HIX 1 iS) | |||
CHAHHELS 12 SPAH- 1824 ROTATIOH- 8 DEG HIX 2 <6) | |||
CINNtKLS 34 SRW- 1824 ROTATIOH- 8 DEG ZETEC Inc. 193-Edition 12.8 Rev 1 | |||
CH 6 YERT ~ 21 ROW 32 COL CHISEL 1 DIFF FREQ- 488 kHz SPAH 754 ROTATIOH- 8 DEG CHAHNEL 2 DIFF FREQ 288 kHz 324 ROTATIOH- 8 DEG CHARKL 3 EE!5 FREQ- 218 kHz SPAH 324 ROTATIOH- 8 DEG CHAi%EL 4 (AS 8.58 VQ.TS 15? 8 I FREQ- 188 kHz NTS -14. 8 OEG SPAH 244 ROTATIOH- 8 DEG MIX 1 (5) | |||
CHAHHELS 12 SPAH- 1824 ROTATIOH 8 DEG MIX 2 <6) | |||
CHAHHELS 34 SPAN- 1824 ROTATIOH 8 OEG ZETEC Inc. 1983 Edition 12.8 Rev 1 CH 5 YERT CH 6 VERT CNANHEL NO 4 21 RON 32 COL | |||
+I + | |||
CHAHNEL 1 DIFF FREQ 488 kHz SPAH 7M ROTATIOH 8 DEG FREQ CHAHtKL 2 | |||
. | |||
DIFF 288 kHz SPAH 324 | |||
- | |||
FREQ SPAH | |||
R07ATIOH | |||
Cl%HtKL 3 FSS 8 OEG 218 kHz 324 ROTATIOH 8 DEG 8.31 HTS VOLTS | |||
-14. 8 138 DEG 8 / | |||
CHISEL 4 FREQ SPAH | |||
- ggg ROTATIOH - | |||
188 244 8 | |||
kNz OEG MIX 1 | |||
CHAHNELS SPAH | |||
<5) | |||
ROTATIOH 12 1824 8 DEG MIX 2 CHWtKLS SPIN (6) | |||
ROTATIOH - | |||
34 1824 8 OEG ZE7EC Inc. 1983 Edition 12.8 Rev 1 | |||
e CH 5 VERT + CH 6 VERT 0%t&EL HO 1 21 RCN 11 COL CHAPEL 1 FREQ- 488 kHz SPAH 274 ROTATIOH- 8 DEG CHANNEL 2 DIFF FREQ 288 kHz 324 ROTATIOH- 8 DEG CHA%KL 3 Q% | |||
FREQ- 218 kHz SPAN 324 ROTATIOH- e DEG CHANNEL 4 | |||
: 8. 37 VOLTS 225 FREQ ABS 188 kHz HTS -14. 4 SPAN 244 ROTATIOH- 8 DEG NIX 1 (5> | |||
CHAHNELS 12 SPAH- 1824 ROTATIOH- 8 DEG NIX 2 (6> | |||
CHAHHELS 34 SPAH- 1824 ROTATIOH 8 DEG~ | |||
cXTEC Inc. 1933 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT G 21 RN 11 COL 55 CHAHHEL FREQ - 1 DIFF 488 kHz SPAH 274 ROTATIOH- 8 DEG CHAHHEL 2 pgg FREQ- 288 kH= | |||
SPAN 324 ROTATIOH- 8 DEG CHANNEL 3 Q3S FREQ- 218 kHz SPAH 324 ROTATIOH- e DEG | |||
CHAHkKL 4 ABS 8.28 HTS VOLTS | |||
-14.4 194 DEG 8 Z FRF.Q SPAH - | |||
IOH-188 kHz 244 ROTAT 8 DEG NIX 1 (5> | |||
CHAHHELS 12 SPAH- 1824 ROTATIOH- 8 DEG NIX 2 (6> | |||
CHWtKLS 34 SRW- 1824 ROTATIOH 8 DEG ZETEC Inc. - 1933 Edition 12.8 Rev 1 | |||
CH 5 VERT CH 6 VERT 21 NN ll COL 55l GUNNEL 1 DIFF FREQ- 488 kHz SPAN 274 ROTATIOH- 8 DEG Q%%KL 2 DIFF FREQ- 288 kli= | |||
SPAf 324 ROTATIOH- 8 OEG C~EL 3 IRRS FREQ- 218 kHz SPAH 324 ROTATIOH- 8 DEG CHAHHEL 4 ABS 8.68 VOLTS 61 DEG 8 i FREQ- 188 kHz NTS -14. 4 SPAH 244 ROTAT IOH- 8 DEG HIX 1 (5) | |||
CHAHNELS 12 SPAi( 824 1 ROTATIOH- 8 OEG HIX 2 (6) | |||
CHAINS 34 SPAH- 1824 ROTATIOH 8 OEG ZETEC Inc. 1933 Edition 12.8 Rev CH 5 VERT 6 VERT i 21 ROI4 11 i'5 CHANNEL FREQ | |||
1 DIFF 488 kH SPAN 274 | |||
- | |||
ROTATIOH CHAHfKL 2 FREQ SPAN | |||
DIFF 8 DEG 288 kHz 324 ROTATIOH 8 OEG CHAHHEL FREQ SPAH | |||
ROTATION 3 | |||
218 ABS 324 8 | |||
kHz OEG HTS 8.44 VOLTS | |||
-14.4 66 OEG 8 > | |||
CHANNEL 4 FREQ SPAH | |||
- | |||
ggg 188 kHz 244 ROTATIOH - 8 DEG HIX 1 (5) | |||
CHAHHELS SPAH - 1824 12 ROTATIOH 0 OEG HIX 2 <6) 0%HHELS SAW ROTATIOH 34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 | |||
CH 5 VERT CH 6 VERT CHAHHEL HO 1 21 RON 36 COL 59 CHAItKL 1 FREQ- 488 kHz SPAH 264 ROTATIOH- 8 DEG CHAHHEL 2 DIFF FREQ- 288 kHz SR% 3P4 ROTATIOH- 8 DEG CHQtKL 3 QK FREQ- 218 kHz SPFH 324 ROTATIOH- 8 DEG CHAHHEL 4 ABS 8.3? | |||
FREQ- 188 kHz HTS VOLTS | |||
-16. 8 234 Q%H 244 ROTATION- 8 DEG HIX 1 (5) | |||
CHANNELS 12 SPAH- 1824 ROTATIOH- 8 DEG HIX 2 (6) | |||
CHANHELS SPAH- 1824 ROTAT IOH- 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 CH 5 VERT,~ CH 6 VERT $ G 2! RON 36 COL 59) | |||
CHANHEL FREQ SPAH | |||
1 DIFF | |||
- 264 488 kHz ROTATION - 8 DEG CH~EL 2 FREQ SPAN 288 324 kHz | |||
ROTATION | |||
CHAHHEL 3 FREQ SPAH QN 8 DEG 218 kNz 324 ROTATIOH - 8 DEG 8.28 VOLTS 225 HTS'16. 8 DEG 8 4 CHANEL 4 FREQ SPAH | |||
ROTATION | |||
- | |||
ABS 188 kHz 244 8 DEG PIIX 1 | |||
(5) | |||
CHAHHELS SPAN ROTATION - | |||
1824 12 8 DEG SR% | |||
NIX 2 (6> | |||
Cl+tt%LS ROTATIOH - | |||
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1 | |||
CH 5 VERT 21 NN 36 COL 59I CHAHKL FREQ SPAH | |||
1 DIFF 488 kHz 264 | |||
ROTATIOH | |||
CHAOS 2 DIFF FREQ SAW 8 DEG 288 kHz 324 | |||
- | |||
ROTATIOH | |||
CHQAEL 3 ggg FREQ SPAN 8 DEG 218 kHz 324 | |||
- | |||
HTS 8.85 VOLTS | |||
-16. 8 91 DEG 8 Z ROTATIOH CHANNEL 4 FREQ SPAH | |||
ABS 244 8 DEG 188 kHz ROTATIOH 8 DEG HIX 1 (5) | |||
CHANNELS SPAN ROTATIOH | |||
- | |||
1824 12 8 DEG aeWRLS SPAN tlIX 2 (6) | |||
ROTATIOH 34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev CH 5 VERT + CH 6 VERT + CHAHNEL NO 4 5G 21 NN 36 COL 59 QQNHEL FREQ SPAN | |||
1 | |||
- | |||
DIFF 488 kH" 264 ROTATIOH - | |||
CHAHHEL 2 FREQ SPAN | |||
DIFF 8 DEG 288 kNz 324 CHAHHEL 3 FREQ SPAH | |||
ROTATIOH ABS 8 DEG 218 kHz 324 ROTATIOH - 8 DEG 8.46 VOLTS Z6 DEG 8 Z CHANHEL 4 FREQ " | |||
/gal 188 kHz HTS -16. 8 SPAH 244 ROTATIOH - 8 DEG HIX SPAN 1 | |||
CHANHELS ROTATION (5) | |||
- | |||
1824 12 8 DEG HIX 2 CHAOKLS SPW ROTATIOH (6) | |||
- | |||
1824 34 8 DEG ZETEC Inc. - 1933 Edi t i on 12. 8 Rev | |||
5 6 VERT ll | |||
CH VERT ~ CH ROM 36 COL 63 CHAHHEL FREQ SPAN I 488 kHz 734 CHAWEL 2 FREQ SPAN | |||
ROTATIOH DIFF 8 DEG 288 kH-324 CHARNEL 3 FREQ SPIC | |||
ROTATION QK 8 DEG 218 kHz 324 ROTATIOH - 8 DEG HTS 8.76 VOLTS | |||
-16. 1 221 ~ 8 CHAHNEL 4 FREQ SPAH | |||
ABS 188 kHz 244 ROTATIOH 8 DEG | |||
( | |||
HIX 1 CHAHHELS SPAN (5) | |||
ROTATION 1824 12 8 DEG HIX 2 CHAHHELS SPAH (6) | |||
ROTATIOH 34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT 36 COL 63 | |||
11 ROM CHAHkKL FREQ SPAH 1 DIFF 488 kHz 734 CHAHHEL 2 FREQ SPAH | |||
ROTATIOH ggg 8 DEG 288 kHz 324 | |||
- | |||
ROTATIOH CHAHNEL FREQ | |||
%%N | |||
3 QK 8 DEG 218 kHz 324 | |||
" | |||
HTS 8.93 VOLTS | |||
-16. 1 153 DEG 8 Z ROTATIOH BRHHEi. 4 FREQ SPAH-ABS 8 DEG 188 kHz ROTATIOH - 8 DEG HIX 1 CHANNELS SPAH ROTATIOH | |||
(5) | |||
- | |||
1824 12 8 DEG HIX 2 | |||
~OKLS SR% | |||
~ | |||
ROTATIOH | |||
(6) | |||
- | |||
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1 | |||
CH 5 VERT ~ CH 6 VERT Q%HHEL HO 3 11 RON 36 COL 63 CHANEL 1 DIFF FREQ- 488 kHz SPAH 734 ROTATION- 8 DEG CHAtdKL 2 DIFF FREQ- 288 kHz SRW 324 ROTATION- 8 DEG CHARKL 3 RES FREQ- 218 kHz SPAH 324 ROTATIOH- 8 DEG CHAHHEL 4 QK FREQ- 188 kHz HTS 8.38 VOLTS | |||
-16. 1 62 DEG 8 Lc SPAN 244 ROTATION- 8 DEG HIX 1 (5> | |||
CHAHHELS 12 SPAH- 1824 ROTATIOH- 8 DEG HIX 2 (6> | |||
CHAHHELS 34 SPAH , 1824 ROTATION- 8 DEG ZETEC Inc. 1933 Edition 12.8 Rev 1 CH 5 VERT + 6 VERT + 4 RSl | |||
CH CHAHHEL HO G 11 36 COL 63 CHANNEL FREQ SPAN ROTATIOH 1 | |||
- | |||
DIFF 488 kHz 734 8 DEG CHAHHEL FREQ SPAH | |||
2 | |||
- | |||
DIFF 288 kHz Sc?4 ROTATIOH - | |||
FREQ CHANHEL 3 ABS 8 DEG 218 kHz 324 ROTATIOH - 8 DEG HTS 8.56 VOLTS | |||
-16. 1 28c? DEG 8 i FREQ SPAH CHAHHEL 4 | |||
ROTATIOH | |||
- | |||
188 kHz 244 8 DEG NIX 1 | |||
(5> | |||
CHAHHELS SPAH ROTATIOH 1824 12 8 DEG SPAH HIX 2 (6> | |||
CHAHHELS ROTATIOH - | |||
=4 1824 8 DEG ZETEC Inc. 1933 Fdition 12.8 Rev 1 | |||
CH 5 VERT + CH 6 VERT 21 RQi 28 COL 76 CHAitKL 1 FREQ- 488 kHz SPAH 152 ROTATION- 8 DEG CilNNEL 2 DIFF FREQ- 288 kHz SRW 324 ROTATIOH- 8 DEG CHR4'KL 3 MRS FREQ- 218 kHz SRW 324 ROTATIOH- 8 DEG CHAHIKL 4 ABS | |||
: 8. 61 VOLTS FREQ- 188 kHz HTS -17. 5 SPAN 244 ROTATIOH- 8 OEG MIX 1 (5> | |||
CHAHNELS 12 SPAH- 1824 ROTATIOH 8 DEG, MIX 2 <6) | |||
C}N%KLS 34 SPAN- 1824 ROTAT ION 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT SG 21 ROH 28 COL 76 CHAHHEL FREQ | |||
$ %H | |||
1 DIFF 488 kHz 152 | |||
- | |||
CHANHEL FREQ SPAH | |||
ROTATIOH 2 Qgj 8 DEG 288 kHz 324 CHANNEL 3 FREQ Q%H | |||
ROTATION ABS 8 DEG 218 kHz 324 ROTATIOH - 8 DEG HTS 8.33 VOLTS | |||
-17. 5 3 DEG 8 X CHURL FREQ SPAH ROTATIOH | |||
4 188 | |||
- | |||
ABS P44 8 | |||
kH" OEG MIX 1 <5> | |||
CHAHHELS 12 SPAH - 1824 ROTATIOH - 8 DEG MIX 2 (6) | |||
CHURL S SR% | |||
ROTATIOH 34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 | |||
CH 5 VERT ~ CH 6 VERT CHANEL NO 3 21 RON 28 COL 76 QRHKL FREQ SPAH | |||
1 DIFF 488 kHz 152 CHANNEL FREQ SR% | |||
ROTATION 2 DIFF 8 DEG 288 kHz 324 | |||
- | |||
ROTATION CHARNEL FREQ SPAN | |||
3 ggg 8 DEG 218 kHz 324 | |||
- | |||
HTS 8.51 VOLTS | |||
-17. 5 183 DEG 8 x ROTATIOH CHAHf%1 FREQ SPAH | |||
4 ABS P44 8 DEG 188 kHz ROTATIOH 8 DEG HIX SPAH 1 | |||
CHAHHELS | |||
ROTATIOH | |||
<5) 1824 12 8 DEG MIX 2 <6) | |||
CHAHHELS SPAH ROTATIOH | |||
- | |||
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1 CH 5 VERT + CH 6 VERT 9@HHEL HO . 4 21 ROI4 28 COL 76 CHAHHEL FREQ SPAN | |||
1 DIFF 488 kH-152 | |||
- | |||
ROTATIOH CHAHNEL FREQ SPAH | |||
2 DIFF 8 DEG 288 kHz 324 | |||
- | |||
ROTATIOH CHAHHEL FREQ SPAN | |||
3 ASS 8 | |||
218 kHz 324 DEG ROTATIOH - 8 DEG 8.24 VOLTS 84 DEG 8 z FREQ | |||
ggg5 188 kHz HTS -17. 5 SPAH 244 ROTATIOH - 8 DEG HIX SPAH 1 | |||
CHANNELS ROTATIOH | |||
<5) | |||
- | |||
1824 12 8 DEG HIX 2 <6) | |||
C~LS SAW ROTATION | |||
- | |||
1824 34 8 DEG ZETEC Inc. - 1983 Edit i on 12. 8 Rev 1 | |||
CH 5 VERT + CH 6 VERT CHURL HO 1 CHAiAEL 1 EHXi FREQ- 488 kHz SPAH 1824 ROTATION- 8 DEG CHAfHEL 2 DIFF FREQ- 288 kHz SPfS 324 ROTATION- 8 DEG CHAI+KL 3 FSS FREQ- 218 kHz SRW 324 ROTATIOH- 8 DEG CHAt&EL 4 %K 1.94 39 97 FREQ- 188 kHz HTS VOLTS | |||
-18. 5 | |||
< | |||
SPAH 244 ROTATIOH- 8 DEG HIX 1 (5) | |||
CHAHHELS 12 SPAN- 1824 ROTATIOH 8 DEG t11X 2 (6) | |||
CHAHHELS 34 SRW- 1824 ROTATIOH- 8 DEG ( | |||
ZETEC Inc. - 1933 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT + CHAHHEL HO 2 21 RON 26 COL CHAP%EL RKQ | |||
1 DIFF 488 kH= | |||
SPAH 1824 CHISEL 2 FREQ SPAH | |||
ROTATIOH | |||
8 DEG 288 kHz 324 FREQ SPAN | |||
ROTATION CHAHHEL 3 | |||
ABS 8 DEG 218 kHz 324 | |||
- | |||
1.42 HTS VOLTS | |||
-18. 5 78 DEG 8 z QCHHEL 4 FREQ Q%H | |||
ROTATIOH ABS 244 8 DEG 188 kHz ROTATIOH 8 DEG HIX 1 (5) | |||
SPAH - | |||
CHAHfKLS ROTATIOH 1824 12 8 DEG CHASES SR% | |||
HIX 2 (6) | |||
ROTATIOH 1824 34 8 DEG ZETEC Inc. 1933 Edition 12 8 Rev 1 | |||
CH 5 VERT CH 6 VERT 21 RON 26 COL Cf&t4KL 1 DIFF FREQ- 488 kHz SPAH 1824 ROTATIOH- 8 DEG CHROKL 2 DIFF FREQ- 288 kHz SR% 324 ROTATIOH- 8 DEG | |||
~KL 3 RH FREQ- 218 kHz SP&t 324 ROTATIOH- 8 DEG 0%RKL 4 MRS 235 8 FREQ- 188 kHz HTS VOLTS | |||
-18. 5 DEG SPAH 244 ROTATIOH- 8 DEG HIX 1 (5> | |||
CHAPELS 12 SPAH- 1824 ROTATIOH 8 DEG HIX 2 (6) | |||
CHANNELS 34 SPAH- 1824 ROTATION 8 'DEG ZETEC Inc. 1933 Edition 12.8 Rev 1 | |||
. CH 5 VERT + CH 6 VERT G 21 NN 26 COL CHfHtiEL FREQ . | |||
1 DIFF 488 kNz SPAN 1824 CHANHEL FREQ SPAH | |||
ROTATIOH 2 DIFF c~ | |||
324 8 DEG kHz CHAHHEL FREQ SPAN | |||
ROTATIOH 3 ABS 8 DEG 218 kHz 324 8.88 HTS VOLTS | |||
-18. 5 61 DEG 8 SPAH | |||
ROTATIOH | |||
QiAHHEL 4 FREQ ggg 244 8 DEG 188 kHz ROTATIOH 8 DEG HIX 1 (5> | |||
CHAHHELS SPAN 12 1824 ROTATIOH 8 DEG C~LS SR% | |||
l1IX 2 (6) | |||
ROTATIOH - | |||
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1 | |||
87 | |||
CH 5 VERT + CHANNEL HO 1 G 22 RON 18 COL GUNNEL FREQ SPAH 1 | |||
- | |||
Qgj 488 kHz 1824 | |||
ROTATIOH | |||
CHANEL 2 FREQ SR% | |||
DIFF 8 DEG 288 kHz 324 | |||
ROTATIOH | |||
CHAHHEL 3 FREQ SR% | |||
QK 8 DEG 218 kNz 324 3 63 VOLTS FREQ SPAH | |||
ROTATION CHAHHEL 4 188 244 8 DEG kHz ROTATIOH 8 DEG HIX 1 (5) | |||
SPAH CHANHELS ROTATIOH | |||
- | |||
12 1824 8 DEG HIX 2 CH~ELS SPAH (6) | |||
ROTATION 34 1824 8 DEG ZETEC Inc. - 193-Edition 12.8 Rev 1 87 | |||
CH 5 VERT ~ CH 6 VERT 22 PCN 18 COL CHAHNEL FREQ SPAN ROTATIOH I DIFF 488 kH 1824 | |||
8 DEG | |||
CHANHEL 2 FREQ 288 kHz | |||
'PAH 454 CHAHHEL FREQ SPAH | |||
ROTATIOH 3 ASS 8 DEG 218 kHz 324 ROTATIOH 8 DEG 2.32 YQ.TS 113 DEG 8 z FREQ SPAH | |||
CNAI+iEL 4 ROTATION CRS 188 244 8 | |||
kHz DEG HIX 1 (5> | |||
CHAHHELS SPAN ROTATION - | |||
12 1824 8 DEG | |||
MIX 2 (6> | |||
CHAHHELS SR% | |||
ROTATIOH - | |||
34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 | |||
CH 5 VERT CH 6 VERT 22 RON 18 COL QCtHEL FREQ SPAI ROTATIOH 1 DIFF 488 kH 1824 | |||
8 DEG CHAOS 2 DIFF FREQ SAW - 288 kHz 454 8 DEG | |||
ROTATIOH CHA~ ggg | |||
3 FREQ 218 kHz SR% 524 | |||
- | |||
1.25 VOLTS 228 DEG 8 i FPEQ SPAN | |||
ROTATIOH | |||
CHAI&EL 4 $ R.. | |||
8 DEG 188 kHz 244 ROTATIOH - 8 DEG HIX SPAH 1 | |||
CA%NELS ROTATIOH (5) | |||
- | |||
1824 12 8 DEG CHAPELS SR% | |||
HIX 2 (6> | |||
ROTATIOH - | |||
34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Re@ 1 5 VERT + 22 RN 18 COL 87 | |||
CH CH 6 VERT + | |||
CHAHNEL FREQ SPAH ROTATIOH 1 | |||
- | |||
DIFF 488 kHz 1824 8 DEG CHANEL 2 FREQ SPAH | |||
- | |||
DIFF 288 kHz 454 | |||
- | |||
ROTATIOH 8 DEG | |||
CHANEL 3 ABS FREQ 218 kHz SPAH 524 ROTATIOH - 8 DEG 3.18 VOLTS 319 DEG 8 k FREQ | |||
CNAHNEL 4 | |||
ABS 188 kHz SPAN Qgg ROTQTIOH - 8 DEG HIX SPAN 1 | |||
CHAHHELS ROTATIOH (5) | |||
- | |||
1824 12 8 DEG | |||
~KLS SR% | |||
iiIX 2 (6> | |||
ROTATIOH - | |||
1824 34 8 DEG ZETEC Inc. - 1%@ | |||
Edition 12.8 Rev 1 | |||
CH 5 VERT + CH 6 VERT + 22 RON 18 COL 87 CHR443 FREQ SPAH 1 | |||
- | |||
DIFF 488 kHz 1824 | |||
ROTATIOH 8 DEG | |||
CHAWEL 2 DIFF FREQ 288 kHz SPfH 454 ROTATIOH | |||
8 DEG | |||
CHANEL 3 FREQ 218 kHz SR% 524 ROTATIOH - 8 DEG CHAttKL 4 4.43 VOLTS 133 DEG 8 k FREQ SPAN | |||
ROTATION . | |||
188 kHz 484 8 DEG MIX 1 | |||
<5) | |||
CHANNELS SPAM ROTATION gg 1824 12 8 DEG SPAH MIX 2 <6) | |||
CHAPELS ROTATIOH - | |||
34 1824 8 DEG "ETEC Inc. 1933 Edition 12.8 Rev 1 CH 5 VERT + CH 6 VERT + 22 RON 18 COL 87 CHANNEL 1 DIFF FREQ- 488 kNz SPAH 1824 ROTATIOH- 8 DEG CHAHHEL 2 DIFF FREQ- 288 kHz SPAH 454 ROTATIOH- 8 DEG CHAHHEL 3 ABS FREQ- 218 kHz SPAH 524 ROTATIOH- 8 DEG 1 ~ 46 VOLTS 72 DEG 8 Z FREQ - | |||
CHANNEL 4 | |||
ASS 188 kHz SF% 484 ROTAT IOH . 8 DEG I MIX 1 <5) | |||
CHAf+tELS 12 SPAH 1824 ROTATIOH 8 DEG MIX 2 (6> RR CHURL S 34 SPAH- 1824 ROTATIOH- 8 DEG ZETEC Ine. - 1933 Edition 12.8 Rev 1 | |||
l l | |||
I l lt xt I ~ | |||
J 1l h | |||
f | |||
\}} |
Revision as of 08:51, 29 October 2019
ML17309A353 | |
Person / Time | |
---|---|
Site: | Ginna |
Issue date: | 08/15/1984 |
From: | Curtis A, Kober R, Marlow T ROCHESTER GAS & ELECTRIC CORP. |
To: | Murley T NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION I) |
References | |
NUDOCS 8503190386 | |
Download: ML17309A353 (54) | |
Text
REGULATO NFORHATION DISTR BUNION TEH {RIDS)
ACCESSION'BR ~ 8503 1'90386 DOC ~ DATE e NOTA RI ED; NO DOCKET FAC IL:t 50 244 Rober t Emmet. Ginna Nuclear .Plant~ Uni:t ii ,
Rochester G 05000244 AUTHOR AFFILIATION
'AUTH'AME'ARLONiT'~A+
Rochester Gas 8, El ectr) c Cor p ~
CURTISi A ~ E e, Rochester Gas 8 Electric Corp.
KOBE R i R ~
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~ Rochester Gas 8 Electric "REC IP ~ NAMEi AFFILIATION Corp'ECIPIENT MURLEYiT~ Ee, Regjon li Office~ of Director
SUBJECT:
"1984 Steam Generator- Eddy Current Exam Summary Rept-,",
'/850306 ltr+
D'I'STRIBUTION CODE: 470 O IES "RECE'IVED;LTR ENCL SIZE'e T'ITLE:: OR Submitta: Inservice Inspection/Testin9 NOTES;NRR/DL/SEP 1cy, 05000244 OL e 09/19/69-RECIPIENT .:COPIES RECIPIENT, COPIES ID CODE/NAME< LTTR ENCL ID CODE/NAME LTTR ENCL NRR ORBS BC 01 "7 7 INTERNALS ACRS 16 10 10 ADM/LFMB 1 0 ELD/HDS4 1 0 NRR/DE/HEB 15 1 1 NRR/DE/HTEB- 14 1- 1 NRR/DL/TAPMG 1 1 04 1 1 RGN1 1 l.
EXTERNALS LPDR 1 1 NRC PDR'2 1 1 NOTES'3 NSIC 05. '1 1 1 TOTAL NUMBER>> OF COPIES REQUIRED: LTTR 28 ENCL" 26
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I ZZZuZ ROCHESTER GAS AND ELECTRIC CORPORATION o 89 EAST AVENUE, ROCHESTER, N.K 14649-0001 ROGER W. KOBER VICE PRESIDENT TEI.EPNONE ELECTRIC & STEAM PIIODVCTION AREA coDE Tls 546 2700 March 6, 1985 Dr. Thomas E. Murley Regional Administrator U.S. Nuclear Regulatory Commission Region I 631 Park Avenue King of Prussia, Pennsylvania 19406
Subject:
1984 Steam Generator Tube Inservice Inspection Special Report
Dear Dr. Murley:
In accordance with Section 6.9.3.4 of the Ginna Station Technical Specifications and Appendix B step 5.7.2 of the Ginna Station Quality Assurance Manual, we are submitting the 1984 R.E. Ginna Nuclear Station Steam Generator Eddy Current-Examination Summary Report.
This summary report includes:
- 1) The number and extent of tubes inspected.
- 2) Location and percent of wall-thickness penetration for each indication of an imperfection.
- 3) Identification of tubes plugged or sleeved.
4)) Steam Generator tube inspection and corrective action history.
n erely, er $ U. Kober xc: Director, Inspection and Enforcement
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Rochester Gas 6 Electric Corporation General Maintenance Department Materials Engineering Division EXAHINATlON REPORT R.E. Ginna Nuclear Station 1984 Steam Generator Eddy Current Examination Summary Report August 15, 1984 Prepared by: Materials Engineering Personnel Reviewed by: Date: 3 "
up rvisor, Technzca Prospects Ginna Station Approved by:
Ma ager, Materia s Engineering Date: I QI-BS03l90SSS 8508SS PDR ADOCK 05000244 6 PDR
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1984 Steam Generator Eddy Current Examination Summary Report Table of Contents A. Introduction B. 'rogram C. Procedure D. Results E. Observations F. Corrective Action Figure 1 A S/G Inlet Program Figure 2 A S/G Outlet Program Figure 3 - B S/G Inlet Program Figure 4 B S/G Outlet Program Figure 5 1984 Corrective Action Summary Figure 6 - Steam Generator Tube Inspection and Corrective Action History Figure 6A- Steam Generator Tube Inspection and Corrective Action History Comments
. Figure 7 - A S/G Defect Log.
Figure 8 B S/G Defect Log.
Attachment 1 Strip Chart Data Review Page 1 of 8
1984 STEAM GENERATOR EDDY CURRENT EXAMINATIONS
SUMMARY
REPORT A. Introduction During the Spring 1984 Annual Refueling and Maintenance Outage at Ginna Station, a multifrequency eddy current examination was performed on tubes in both A and B steam generators. The purpose of these examinations was to access any corrosion or mechanical damage that may have occurred during the operating cycle since April 1983. Particular attention was given in detecting intergranular attack (IGA) in the tube sheet crevices; pitting, stress corrosion cracking (SCC) and wastage between the tube sheet and the first support plate, denting and fretting wear at the antivibration bar to tube intersections in the U-bend region.
The examination was performed by R.G.R E. personnel that have been trained and qualified in the eddy current method to at least a Level I Examiners Certification. Initial data analysis was performed by two personnel from Zetec, Inc. of Issaquah, Washington. Data analysis and review was also performed by R.G.R E. and Babcock R Wilcox personnel subsequent to the Zetec personnel analysis. The data analysis was performed by both teams utilizing Zetec DDA-4 Digital Data Analysis System.
Results of this examination highlights, once again, the major area of concern for future steam generator tube degradation being tube sheet crevice intergranular attack (IGA) and stress corrosion cracking (SCC). Attachment 1 gives the Steam Generator Tube Inspection and Corrective Action History from 1972 through the April 1984 Outage.
B. Program At each inspection of the steam generators an eddy current examination program is generated for each leg (inlet and outlet) of both A and B steam generators. The philosophy in generating this program is to examine every tube in the inlets to at least the first tube support plate, as well as doing at, least three percent (3%) over the U-bends to the primary face of the outlet. Then as a random sample an examination of a select group of tubes up through the sixth tube support plate. The program for the outlets varies somewhat each year and includes the three percent (3%) sample up to the U-bend to complete the full length inspection of those tubes. Other tubes are also looked at up through the sixth tube support plate. An assesment of the sludge pile zone of the outlet is performed by examining tubes up through the first tube support plate.
The specific program for this year included 100% of all the tubes in the inlets of both steam generators examined to at least the first tube support plate. The following is a breakdown by steam generator of all tubes examined and to the extent tested.
Page 2 of 8
B. Program (Continued)
A S/G Inlet Number of Tube Su orts Number of Tubes Percentage 1st 2926 89. 7~o 2nd 44 1. O~o 3rd 2 c 1 P 4th 0 5th 0 6th 165 5. 0'o Tubes Permanently Plugged 123 3~7 0 A S/G Outlet Number of Tube Su orts Number of Tubes Percenta 1st 495 15. 1'o 2nd 3 l. O~o 3rd 0 4th 0 5th 0 6th 1 1 . 0'o 7th 209 6.4 ~o 8th 5 ( 1.0io Sleeved 4 100.0~o B S/G Inlet Number of Tube Su orts Number of Tubes Percenta 1st 2818 86. 4'o 2nd 80 2. 0'o 3rd 3 ( 1.0~
4th 2 ( 1,0~o 5th 12 (1.0&o 6th 178 S. O~o Tubes Permanently Plugged 167 S. 1~o B S/G Outlet Number of Tube Su orts Number of Tubes Percenta 1st 665 20. 3~o 2nd 7 4 1.0~o 3rd 0 4th 0 5th 0 6th 2 < 1.0~o 7th 217 6. 6'o 8th 4 C, 1 ~ P~o Tube Sheet to Tube Sheet 1 Cl P~o Sleeved Tubes 67 63.65'o Page 3 of 8
B. Program (Continued)
In addition to the scheduled eddy current examination a profilometry examination was I
performed on the nine new sleeves. This examination was performed by Babcock 4 Wilcox personnel.
Figures I through 4 are tube sheet maps which define the actual program that was followed for each leg of both steam generators.
C. Procedure The procedure utilized for the examination of steam generator tubes was NDE-500-4 Rev.6, "Multifrequency Eddy Current Examination of Inconel 600 Steam Generator Tubing".
For the sleeve examination NDE-500-5 Rev.3, "Eddy Current Examination of Sleeved Inconel 600 Steam Generator Tubing".
Procedure NDE-500-4 provides for the examination of steam generator tubing utilizing 400KHZ and 200KHZ differential method and 210KHZ and 100KHZ absolute method. These frequencies give the ability for direct comparison with all steam generator inspection data since 1972, as well as allow for a more sensitive examination for small volume defects and intergranular attack (IGA). The detection of IGA utilizing the absolute frequencies has been performed since the Spring 1980 examination. IGA is the most difficult type of degradation to detect with the eddy current method of examination because the total loss of conductivity is so minute as compared to complete wall loss.
Procedure NDE-500-5 provides for the examination of sleeved steam generator tubing addressing the sleeve which forms the new primary boundary and the original tube in the area of the expanded/braze region as well as the "free spand" region. Both of these procedures are available in the NDE Procedures Manual.
' Page 4 of 8
D. Results The results of this examination are as follows: (Further information is given on the defect logs, Figures 7 and 8 of the report.)
A Inlet Number of Tubes 0-20'D 263 21-30~o OD 48 31 40o OD 5 41-50~o OD 1 Crevice IGA 27~o Dents 872 A Outlet 0-20 o 5 Dents 225 B Inlet 0-20 o OD 95 21-30~o OD 3 31-40'o OD 1 51-60 o OD 1 8 1 90~o OD 1 81-90~o ID 1 91-100'~ OD 1 Crevice IGA Not Sizable 51-60'o 81-90'0 91-100'0 Dents 576
~Bul es B Outlet 0-20~o OD 31-40'o OD 41-50~D OD Dents 178
- Inside Diameter Defect Page 5 of 8
1 STEAM GENERATOR IGA INDICATION IIISTORY Not A-S/G B-S/G Sizeable 0-25% 26-50% 51-75% 76-100% TOTAL TOTAL r
March 1979 0 (0) 2 December 1979 0 0 (0) 11 April 1980
- 19 (0) 31 November 1980 2 r 0 (0)
April 1981 0 (0) 14 February 1982 0 (0) 13 October 1982 27 7(1) 59'4rg April 1983 38(3) 3(1) 15 15 (4) 51 March 1984 92(3) 13(1) 0(1) 33(1) 41(1)'6 2 40 (6) 192
~ ~ ~
Crevice flushing implemented (31) tubes plugged at this outage (28) remained inservice and were sleeved during April 1983 Outage with 50 other indications, (1) indication was removed by pulling.
( ) denotes A-S/G tube indications These results are consistent with past examinations of the A steam generator. However, the B steam -generator has shown a much lower number of IGA and possible IGA indications in comparison to the previous years examination.
The 8 IGA indications identified in the B steam generator breakdown into the following two categories:
- 1. Tubes above plugging criteria greater than 40% 3 Tubes
- a. All 3 tubes were new indications
- 2. Tubes below plugging criteria less than 40% 5 tubes
- a. All 5 tubes were new indications.
- b. All 5 tubes wer e identified as not sizeable.
Out of the 8 indications, all 8 were'ew indications. There were no recorded indications in e tubes during the Spring 1983 examination.
Page 6 of 8
1 0
E. Observations As was noted last year, the IGA continues to be developing deeper in the crevice. Along with the IGA being deeper in the crevice, most of the tubes requiring corrective action had stress corrosion crack (SCC) indications near the rolled transition zone. There were no indications of pitting, wastage or SCC above the top of the secondary face of the tube sheet.
A comparison of the dent indications between this inspection and past inspections revealed that there were no noticable changes in number of tube intersections or size of dents. All sleeves continue to perform well with no indications of any degradation.
One tube had an 85% Inside Diameter (ID) defect in the rolled transition area of the tube. Comparison with the previous years data 'showed some change. In reviewing the data no other tubes with similar indication were found. Also one cold leg tube had an apparent wastage indication at the first tube support plate intersection that exceeded the plugging criteria. This tube was sized utilizing the differential mix which allowed for more accurate sizing than in the past. Several of these type of indications have been seen in the past in the periphery zone of the cold leg and are probably the result of old phosphate chemistry control resulting in wastage. These phenomenas will continue to be monitored in future inspections.
There were no indications of any problems associated with the antivibration bar to tube intersection points during this inspection. This is a very important area of the steam generator due to problems that have been found at other plants, especially those with Model 51 steam generators.
At the end of the outage a meeting was held to discuss the net positive reduction in number of IGA indications at this inspection as compared to last year', (8 to 78). One of the most significant observations during the meeting was that last years inspection was after two outages in 1982 where there was an abnormal number of days with the B steam generator in dry lay-up. In dry lay-up the tube sheet crevices could be affected by both oxygen and carbon dioxide potentially raising the crevice environment's aggressiveness.
In order to allay this concern and continue to try improving our IGA attack rate, the following items have been addressed by the plant for the 84-85 operating cycle:
a) Continue excellent operating secondary water chemistry.
b) Crevice flushing.
c) Water lancing of sludge.
d) Minimize dry layup time.
e) Maintain excellent wet layup chemistry.
f) Consider N> or Argon blanket of steam generator secondary for sleeving or when not in wet layup.
g) Continued plant operation support.
Page 7 of 8
F. Corrective Action Corrective Action for the one tube in the A steam generator that had an area of IGA approximately 19.6 inches above the tube end required that the tube be plugged. A Combustion Engineering Mechanical Plug was used for removing the tube from service.
Corrective action for ten (10) tubes in the B steam generator included plugging one (1) tube and sleeving nine (9) tubes with tube sheet sleeves. These sleeved tubes are listed in the 1984 Corrective Action Summary (Figure 5), along with the tubes that were plugged in both steam generators.
Also included in this year's maintenance activity was the repair of three (3) leaking explosive plugs in the A steam generator. The following tubes were repaired by Gas Tungsten Arc Welding in bare hole plugs: R12 C70, R17 C60, and R27 C48.
In previous years leaking explosive plugs have been repaired in the B steam generator, the following are those tubes that were repaired in May 1983: R24 C44 and in October 1982 R39 C68, R39 C69 and R39 C70.
Figure 6 of this report "Steam Generator Tube Inspection and Corrective Action History" gives an overview of inspections, results, and actions taken for all inspections since 1977.
Page 8 of 8
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GINNA ATION 1984 CORRECTIVE ACTION
SUMMARY
A Steam Generator ROW COLUMN LEG FLAM LOCATION SLEEVE SIZE 17 47 Hot 27% OD IGA 19.6" Above Tube End Combustion Mech. Plug.
B Steam Generator 20 47 Hot Abs Indication IGA 6-11" Above Tube End 22 tl 42 50 Hot 85% OD SCC 4" Above Tube End 22 32 53 Hot 54% OD SCC 4" Above Tube End 22" 32 54 Hot Abs Indication IGA 4-8" Above Tube End 22 II 11 55 Hot Abs Indication IGA 4-8" Above Tube End 22 II 36 59 Hot Abs Indication IGA 4-8" Above Tube End 22" 36 63 Hot Abs Indication IGA 4-10" Above Tube End 22 tl 28 76 Hot 85% ID SCC 3.2" Above- Tube End 22" 26 79 Hot 95% OD SCC 3" Above Tube End 22" 18 87 Cold 53% OD Mastage ffl Tube Support Plate 'BRW Explosive Plug FIGURE 5
STEAM GENERATOR TUBE INSPECTION AND CORRECTIVE ACTION HISTORY Primary to No.Defects Secondary Total Type of Requiring No. Tubes No.Tubes No.Tubes DATE No. Tubes Inspected Leaka e pm Defects Deterioration Reaa I r Pl uqled -'Ieeved PuIIed Comm A B A A/B A A A B B B A B A B Hot Col d Hot Col d In Factory 1 1 April 1972 1050 0 0 0 0 0 0
'March 1974 3259 516 1098 516 19 0 Wastage 19 0 19 0 Nov. 1974 1701 430 672 39 2 0 Wastage 2 0 2 0 Ma rch 1975 2174 442 0.0050 Jan. 1976 1931 442 A S/G 46 11 Cracking/Wastage 46 11 46 II 53 0.09I B S/G 0 2 Wastage 0 2 0 2 Feb. 1976 3192 3192 3247 3247 39 2 Wastage 2 39 39 2 April 1976 100 1025 75 0.099 B S/G 0 15 Cracking 0 15 0 15 Apri I 1977 2003 268 1525 268 13 1 Wastage 13 1 13 1 July 1977 300 0.012 B S/G 5 ID Cracking 5 5 Jan. 1978 350 0.060 B S/G 8 Cracking/Wastage 8 8 April 1978 2049 325 I714 375 1 15 ID Cracking 1 15 1 15 Feb. 1979 2049 325 1714 375 6 Cracking, Wastage,21 GA 6 6 Dec. 1979 1200 0.007 B S/G 13 IIIGA, 2 Wastage 13 13 April 1980 3139 325 3182 375 1 31 "A" Pitting/"B"IGA 1 13 1 31 (1 Nov. 1980 3138 325 3151 375 3 IGA 2 0 5 --(2 May 1981 Feb 1982 3138 325 3141 400 15 IGA, Wastage 6 16 (3 3'137 526 3140 526 620/ B S/G 16 IGA, Mech. Dam 16 18 --(4 Sep. 1982 3138 382 3129 893 1 32 IGA 1 28 33' Apri I 1983 March 1984 3137 633 3096 832 4 78 IGA, SCC 23 74 (5 3137 717 3093 963 1 10 IGA, SCC 5 1 9 12 2 3 123 171 12 1 10 Or Or Or Or Or Or Or Or 3.94 8.01 3 7e 5.24 3.84 5. I 4 0. I 4 3. 1C FIGURE 6 8/13/84 Albert E. Curtis III
Steam Generator Tube Ins ection and Correct@ye Action Hzstor Comments (1) Pulled R15 C55 and R17 C41 from hot leg and R17 C40 from the cold leg to determine IGA conditions in "B" steam generator.
R17 C41 had ECT indications at all frequencies, R15 C44 had just 100kH2 Absolute ECT indication and R17 C40 had not ECT indication. Both hot leg tubes had approximately 50% IGA, R17 C41 had a 60% SCC indication associated with the IGA.
(2) Manually sleeved five (5) tubes with Nickel plated inconel 600 T.T. sleeves. Three tubes had IGA indications, two others were preventatively sleeved.
(3) Sleeved 16 tubes with co-extruded sleeves, 13 with defects and 3 preventatively. Pulled R21 C46 with a 100kH2 ECT indication, R7 C45 and R28 C45 which were clean. All tubes pulled were from the hot leg.
(4) Recovery from the January 25, 1982 included removing 26 tube sections by EDM and ID Cutters along with one tube pulled from the secondary side.
(5) The four tubes identified with IGA in the A steam generator were sleeved with 22" tube sheet sleeves. The 78 tubes identified in the "B" steam generator with IGA and/or SCC in the crevice were repaired as follows:
41 tubes were sleeved with 36" brazed sleeves 9 tubes were sleeved with 28" brazed sleeves 24 tubes were sleeved with 22" tube sheet sleeves 1 tube and 2 sleeves were plugged 1 tube R34 C54 was pulled for metallurgical analysis 8/13/84 Albert E. Curtis III FIGURE 6A
A S/G DEFECT LOG 1984 March 1984 Inspection INLET OUTLET Dents: Dents:
Below Tube Sheet 8 Below Tube Sheet 7 At Tube Sheet 521 At Tube Sheet 101 Above Tube Sheet 12 Above Tube Sheet 8 gl Tube Support 304 j/1 Tube Support 47 Above jul Tube Support 3 Above jjl Tube Support 1 Jj2 Tube Support 7 g2 Tube Support 13 g3 Tube Support 1 g3 Tube Support 5 fj4 Tube Support 2 Above jj3 Tube Support g5 Tube Support 1 g4 Tube Support 12 g6 Tube Support 13 g5 Tube Support TOTAL 872 jf6 Tube Support AVB ll 3
3 Bulge 13 (10&ossible TOTAL 225 Defects: Defects:
0-20% 263 0-20% 5 21-30% 48 21-30% 0 31-40% 5 31-40% 0 41-50% 1 41-50% 0 51-60% 0 51-60% 0 61-70% 0 61-70% 0 71-80% 0 71-80% 0 81-90% 0 81-90% 0 90-100% 0 90-100% 0 TOTAL 317 TOTAL FIGURE 7
B S/G DEFECT LOG March 1984 Inspection INLET OUTLET Dents: Dents:
Below Tube Sheet 8 Below Tube Sheet 8 At Tube Sheet 483 At Tube Sheet 103 Above Tube Sheet 6 Above Tube Sheet 2 jjl Tube Support 37 jjl Tube Support 17 Above jjl Tube Support 3 Above jjl Tube Support 1 jj2 Tube Support 2 jj2 Tube Support 3 Tube Supports 3-5 0 jj3 Tube Support 2 jj6 Tube Support 33 Above jj3 Tube Support 1 jj4 AVB 4 jj4 Tube Support 0 jj5 Tube Support 2 TOTAL 576 jj6 Tube Support 37 Below jj6 Tube Support 2 TOTAL 178 De fects: De fects:
0-20% 95 0-20% 1 21-30% 3 21-30% 0 31-40% 1 31-40/. 1 41-50% 0 41-50% 1 51-60% 1 5 1-60% 0 61-70% 0 61-70% 0 71-80% 0 71-80% 0 81-90% 1 81-90% 0 91-100% 1 91-100% 0 TOTAL 102 TOTAL FIGURE 8
ATTACHhFNT 1 STRIP CHART DATA REVIEW NOTE: Steam Generator Identification as Follows:
Ex. S.G. 2.1 = B S/G = 2 Inlet = 1 S.G. 1.2 = A S/G = 1 Outlet = 2
CH 5 VERT CH 6 VERT CHANEL HO "- 1 G 11 NN 17 COL 47
CHAHHEL 1 FREQ 488 kHz SPAH Ã4
ROTATIOH
CHAHHEL 2 FREQ SPAH DIFF 8 DEG 288 kHz 1824
-
CHANHEL FREQ SPAH
ROTATIOH 3 ABS 8 DEG 218 kHz 1824 ROTATIOH 8 DEG 8.72 HTS VOLTS
-2. 4 Q%t%EL 4 FREQ SPAH
ROTATION ABS 188 kHz 1824 8 DEG HIX 1 (5) 1824 CHAHNELS 12 Q-'AH ROTATION - 13 DEG HI X 2
(6)
CHANHEL5 SPAH 1824 34 ZETEC Inc. - 1%8 Edition 12.8 Rev 1 CH 5 VERT + I CH 6 VERT + 11 ROW 1 7 COL 47 FREQ SPA H
-
CHAHNEL 1 DIFF 488 kHz 354 8 DEG
ROTATIOH CHAHNEL 2 Qgji FREQ 288 kHz 264 FREQ SPAH
ROTATIOH
CHAf+tEL 3 ABS 8 DEG 218 kHz 1824 ROTATIOH - 8 DEG 8.54 VOLTS 122 DEG 8 z FREQ SPAH
CHAHtKL 4
ABS 188 kH 1824 HTS 4 ROTATIOH 8 DEG HIX 1 (5)
-
CHAHHELS SPAN 1824 12 ROTATIOH 13 DEG C~~S SPAH HIX 2 (6)
ROTATIOH -
34 1824, 8 DEG
~C Inc.
Edition 12.8 Rev l~
CH 5 VERT ~ CH 6 VERT 11 RON 17 COL 47 CHAOS 1 DIFF FREQ- 488 kHz SPRH 354 ROTATIOH- 8 DEG CHAtbKL 2 DIFF FREQ- 288 kHz SPAH 264 ROTATION- 8 DEG CHAHfKL 3 ERR FREQ- 218 kH-SPAH 374 ROTATIOH- 8 DEG CIiNEL 4 MRS 23 VOLTS 339 8 FREQ- 188 kHz HTS 1 ~
-2. 4 DEG SPAH1824 ROTATIOH- 8 DEG NIX 1 <5>
CHANHELS 12
~WW- 1824 ROTRTIOH 13 DEG NIX 2 <6>
CHAPELS 34 SPAH- 1824 ROTATIOH 8 ZETEC Inc.
12.8 Rev 19'dition 1
CH 6 VFRT + 11 RON 17 COL 47 CKNNNEL FREQ SPAH-1
-
DIFF 488 kHz ROTATIOH CHAHHEL FREQ QKN
2 DIFF 8 DEG 288 kHz 264
- 8 DEG
ROTATION
CHAHNEL 3 ABS FREQ 218 kH-SPAH 374 ROTATIOH - 8 DEG 8.66 VOLTS 318 DEG 8 I FREQ "
CHANHEL 4 ggg 188 kHz HTS -2. 4 SPAN 334 ROTRTIOH 8 DEG NIX 1
<5>
CHAHHELS SPAH ROTATIOH -
1824 12 13 DEG SPAH NIX 2 <6>
Ct%NNELS ROTRTIOH -
34 1824 8 DEG ETEC Inc. - 1983 Edition 12.8 Rev 1
CH 5 VERT CH 6 VERT CHAHHEL HO 1 ~ 21 ROW 20 COL 4E'HAHHFJ 1
FREQ 480 kHz cVN 1024 CHAHHEL FREQ SR%
ROTATIOH 2 DIFF 0 DEG 288 kHz 1824
-
FREQ SPAH
ROTATIOH CHAN)KL 3
.
ABS 0 DEG 210 kHz 1024 ROTATION - 0 DEG HTS 0.88 VOLTS
-11 3
~
210 FREQ Q%H
CkFNHEL 4 ROTATIOH
Abc 188 kHz 1824 8 DEG IIX 1 SPAN CHAHHELS ROTATIOH
<5)
-
12 1024 8 DEG SPAN HIX 2 <6)
CHAHHELS ROTATIOH -
34 1824 0 DEG ETEC Inc. 1983 Edition 12.8 Rev 1 CR; VERT CH 6 VERT + CHAHHEL NO 21 RON 20 COL 4r CHAHHEL 1 DIFF FREQ- 408 kHz SPAH1024 ROTATIOH- 8 DEG CHAHHEL 2 EEQ FREQ - 280 kHz SPAN1024 ROTATIOH- 0 DEG CHAHNEL 3 ABS FREQ- 210 kHz SPAH1824 ROTATION- 8 DEG CHAHNEL 4 ABS e.ze voLTs e e r.
FREQ- 188 kHz HTS -11. 3 DEG SPAHIe24 ROTATIOH- 0 DEG I1IX 1 <5)
CHAHHELS SPAH 12 1024 ROTATIOH- 8 DEG iiIX 2 <6) 0%t4KLS 34 SPRt- 1024 ROTATIOH- 8 DEG Inc. 1303 'ETEC Edition 12.0 Rev 1
28 47
CH 5 VERT + + 21 RON COL QSHHEL FREQ Q%H 1 DIFF 488 kHz 1824 CHAHHEL FREQ SR%
ROTATIOH 2 DIFF 8 DEG 288 kHz 1824 ROTATION
8 DEG ggg
CHANEL 3 FREQ 218 kHz SPAN 114
-
HTS 8.43 VOLTS
-11.3 165 OEG 8 <
FREQ SPAN
ROTATIOH
CHANHEL 4 ABS 1824 8
188 kHz DEG ROTATIOH - 8 DEG HIX 1 (5>
SPAH --
CHAHNELS CHARNELS ROTATIOH 1824 12 8 DEG SPAN HIX 2 (6)
ROTATIOH -
1824 34 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT CHAHHEL NO 4 G 21 RON 28 COL CHAHNEL 1 DIFF i FREQ- 488 kHz f SPAH 1824 ROTATIOH- 8 OEG CHAHHEL 2 DIFF FREQ- 288 kHz SPAH 1824 ROTATIOH- 8 OEG CHANHEL 3 ABS FREQ- 218 kHz SPAN 114 ROTATIOH- 8 DEG CH%%EL 4 RES FREQ-8.49 HTS VOLTS
-11. 3 96 DEG 8 <
SPAH . 188 kHz 244 ROTATION- 8 DEG HIX 1 (5)
CHANHELS Q%H 1824 12 ROTATIOH 8 DEG l11X 2 (6>
DRttKLS 34 SPCN- 1824 ROTATIOH 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1
5 VERT ~ CH 6 VERT 0%HNEL NO 1 QSRKL FREQ SPAH
1 QKHi 488 kHz 584
ROTATIOH
CHAIT 2 DIFF FREQ SPAN 8 DEG 208 kHz 1824 FREQ SR%
ROTATIOH
CHAHtKL 3 FRS 8 DEG 218 kHz 114
-
HTS 1.06 VOLTS
-17. 8 FREQ SPAH
ROTATION
CHAt&EL 4 %8 244 8 DEG 100 kHz ROTATIOH - 8 DEG SPAN HIX 1 (5>
CHAHHELS ROTATION -
12 1824 0 DEG SPAH HIX 2 (6>
C)%HNELS ROTATION -
34 1824 8 DEG ZETEC I nc. 1983 Edition 12.8 Rev CH 5 VERT + Ch 6 VERT + BQNHEa. HO 2 Rl ROfl 42~~~I CHAHHEL FREQ SPAH
. 1 DIFF 480 kHz 584 ROTATIOH- 0 DEC i 2
CHANHEL FREQ M kHz SPAH1024 ROTATION- 8 DEG CHAHtKL 3 ABS FREQ- 218 kHz SPAH 114 ROTATION- 0 DEG AS 8.84 79 DEG 0 r FREQ CHAHHEL 4 188 kHz HTS VOLTS
-17. 8 SPAH 244 ROTATIOH- 8 DEG HIX 1 (5>
SPAH -
CHAHHELS ROTATIOH 12 1024 8 DEG HIX 2 (6>
CHASES 34 SPfW- 1824 ROTATI(N- 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 I
~,
CHAL%EL 1 DIFF FREQ- 488 kHz SPAH 584 ROTATIOH- e DEG 0%NHEL 2 DIFF FREQ- 288 kHz SPAH 1824 ROTATIOH-CHAHfKL 3 FREQ-II 8 DEG 218 kH-SPAN 324 ROTATIOH- 8 DEG CHA%KL 4 ABS 1.41 YOLTS 71 DEG 8 Z FREQ- 188 kHz HTS -17 8 SPAH 244 ROTATIOH- 8 DEG HIX 1 (5) 12 1824 8 DEG 34 SPAH- 1824 ROTATIOH- 8 DEGJ ZETEC Inc. - 1933 Edition 12.8 Rev 1 CH 5 VERT +I CH 6 YERT PG 21 RON 42 COL 58(
CHAHHEL 1 DIFF FREQ- 488 kHz Q%H 584 ROTATIOH- 8 DEG DIFF FREQ CHANHEL 2 288 I:Hz SPAH1824 ROTATION- 8 DEG C~%EL 3 ABS FREQ 218 kHz SPAN 324 ROTATION- 8 DEG 8.92 VOLTS 72 8 Z FREQ CHAHNEL 4 IRK'88 kHz HTS -17.3 OEG SPAH 244 ROTATIOH- 8 DEG HIX 1 (5>
CHAHNELS 12 Q%N 1824 ROTATIOH- 8 DEG HIX 2 (6) 0%NELS 34 SPfH- 1824 ROTATIOH- 8 DEG ZETEC Inc. - 1933 Edition 12.8 Rev 1
CH 5 VERT + CH 6 VERT + 21 RON:c
COL 53/
CHAHHEL FREQ SPAH 1 488 kHz 1824
ROTATI OH 8 DEG CHANHEL FREQ SR% 2 DIFF 288 kHz 1824 CHAt4KL 3 FREQ SPIC
ROTATIOH ABS 8 DEG 218 kHz 324 ROTATION - 8 DEG HTS 1.63 VOLTS
-17. 3 CHANHEL 4 FREQ SPAN
ROTATION ABS 188 kHz 244 8 DEG
~
NIX 1 (5)
Q%N CHAHNELS ROTATIOH 1824 12 8 DEG SPAH NIX 2 <6)
CI%HNELS ROTATION -
34 1824 8 DEG ZETEC Inc. - 1933 Edi t Ion 12. 8 Rev 1 CH 5 VERT 6 VF.RT CHANNEL NO 2 ~i 32 COL
21 RON CHAHNEL DIFF
1 FREQ 488 kHz SPAH 1824 CHAHHEL 2 FREQ SPAH
ROTATIOH
8 DEG 288 kHz 1824 CHAHNEL FREQ SPAN
ROTATION 3 ABS 8 DEG 218 kHz 324 ROTATION 8 DEG 8.78 VOLTS 94 DEG 8 %
CHAf+KL 4 FREQ
ABS 188 kHz HTS -17. 3 SPAH 244 ROTATIOH - 8 DEG NIX 1
(5)
CHAHHELS SPAN ROTATIOH -
1824 12 8 DEG NIX 2 <6)
C~fKLS SAR ROTATIOH
-
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1
CH 5 VERT 6 VERT 21 RON 32 COL 53
CH CHANEL FREQ SPAN 1
-
DIFF 488 kHz 1824 CHANEL 2 FREQ SPW
ROTATION DIFF 8 DEG 288 kHz 1824
-
CHAWEL 3 FREQ SPIC
ROTATIOH ggg 8
218 kHz 324 DEG ROTATIOH 8 DEG HTS 1.18 VOLTS
-17. 3 259 DEG 8 <
FREQ SPAH CHAHHEL 4
" 188 ROTATIOH A8S 244 8
kHz DEG SPAH IIX 1 (5)
CHAHHELS ROTATIOH 1824 12 8 DEG HIX 2 (6)
CHAHHELS SPAN ROTATION 34 1824 8 DEG 2ETEC Inc. 1933 Edition 12.8 Rev I CH 5 VERT + CH 6 VERT CHAHHF.L HO 4 8G r1 RON 92 COL 53(
CHANEL DIF F 1
488 kKz FREQ SPAN 1824 ROTATIOH- 8 DEG CHAHHEL 2 DIFF FREQ- 288 kHz SPAH1824 ROTATION- 8 DEG FREQ SPAN
"
CHAHtKL 3 QK 218 324 I<H ROTATION- 8 DEG
CHAHHEL 4 RKR 8.78 HTS VOLTS
-17. 3 256 OEG 8 z FREQ SPAH -
IOH-188 kHz 244 ROTAT 8 DEG HIX 1 (5>
CHAPELS 12 SPAH- 1824 ROTATION- 8 DEG SIX 2 (6>
~LS SPFN-34 1824 ROTATIOH 8 DEG I ZETEC Inc. - 1933 Edition 12.8 Rev 1
CH 5 VERT ~ CH 6 VERT CHAt4tEL HO 1 21 R04 32 COL 54
488 CHAPEL 1 FREQ kHz SPAH 754
-
ROTATIOH CHA!+EL 2 FREQ SR%
DIFF 8 DEG 288 kHz 1824 CHARNEL FREQ SPAH
ROTATIOH 3 ABS 8
218 kHz 324 DEG
-
HTS 8.41 VOLTS
-14. 8 214 < 8 CHQ4KL 4 FREQ SPAN
ROTATION ABS 244 8 DEG 188 kHz ROTAT IOH 8 DEG HIX 1 <5)
CHAHHELS SPAN ROTATIOH 12 1824 8 DECi HIX 2 <6)
CHAHHELS SPAN ROTATIOH 1824 34 8 DEG ZETEC Inc. 1983 Edi t i on 12. 8 Rev 1
~CH EVERT
'
6 VERT CHAHHEL HO 2 PO 21 ROH 32 m.
CHANHEL 1 DIFF FREQ- 488 kHz SPAH 754 ROTATIOH- 8 DEG I CHAHHEL 2 FREQ - 288 kHz SPAH 324 ROTATIOH- 8 DEG CHAHHEL 3 FREQ SPAH
" AK 218 kHz 324 ROTATIOH- DEG e.36 VOLTS 341 DEG 8 z CHANHEL 4 FREQ 188 ABS kHz HTS -14. 8 SPAH 244 ROTAT IOH- 8 DEG HIX 1 iS)
CHAHHELS 12 SPAH- 1824 ROTATIOH- 8 DEG HIX 2 <6)
CINNtKLS 34 SRW- 1824 ROTATIOH- 8 DEG ZETEC Inc. 193-Edition 12.8 Rev 1
CH 6 YERT ~ 21 ROW 32 COL CHISEL 1 DIFF FREQ- 488 kHz SPAH 754 ROTATIOH- 8 DEG CHAHNEL 2 DIFF FREQ 288 kHz 324 ROTATIOH- 8 DEG CHARKL 3 EE!5 FREQ- 218 kHz SPAH 324 ROTATIOH- 8 DEG CHAi%EL 4 (AS 8.58 VQ.TS 15? 8 I FREQ- 188 kHz NTS -14. 8 OEG SPAH 244 ROTATIOH- 8 DEG MIX 1 (5)
CHAHHELS 12 SPAH- 1824 ROTATIOH 8 DEG MIX 2 <6)
CHAHHELS 34 SPAN- 1824 ROTATIOH 8 OEG ZETEC Inc. 1983 Edition 12.8 Rev 1 CH 5 YERT CH 6 VERT CNANHEL NO 4 21 RON 32 COL
+I +
CHAHNEL 1 DIFF FREQ 488 kHz SPAH 7M ROTATIOH 8 DEG FREQ CHAHtKL 2
.
DIFF 288 kHz SPAH 324
-
FREQ SPAH
R07ATIOH
Cl%HtKL 3 FSS 8 OEG 218 kHz 324 ROTATIOH 8 DEG 8.31 HTS VOLTS
-14. 8 138 DEG 8 /
CHISEL 4 FREQ SPAH
- ggg ROTATIOH -
188 244 8
kNz OEG MIX 1
CHAHNELS SPAH
<5)
ROTATIOH 12 1824 8 DEG MIX 2 CHWtKLS SPIN (6)
ROTATIOH -
34 1824 8 OEG ZE7EC Inc. 1983 Edition 12.8 Rev 1
e CH 5 VERT + CH 6 VERT 0%t&EL HO 1 21 RCN 11 COL CHAPEL 1 FREQ- 488 kHz SPAH 274 ROTATIOH- 8 DEG CHANNEL 2 DIFF FREQ 288 kHz 324 ROTATIOH- 8 DEG CHA%KL 3 Q%
FREQ- 218 kHz SPAN 324 ROTATIOH- e DEG CHANNEL 4
- 8. 37 VOLTS 225 FREQ ABS 188 kHz HTS -14. 4 SPAN 244 ROTATIOH- 8 DEG NIX 1 (5>
CHAHNELS 12 SPAH- 1824 ROTATIOH- 8 DEG NIX 2 (6>
CHAHHELS 34 SPAH- 1824 ROTATIOH 8 DEG~
cXTEC Inc. 1933 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT G 21 RN 11 COL 55 CHAHHEL FREQ - 1 DIFF 488 kHz SPAH 274 ROTATIOH- 8 DEG CHAHHEL 2 pgg FREQ- 288 kH=
SPAN 324 ROTATIOH- 8 DEG CHANNEL 3 Q3S FREQ- 218 kHz SPAH 324 ROTATIOH- e DEG
CHAHkKL 4 ABS 8.28 HTS VOLTS
-14.4 194 DEG 8 Z FRF.Q SPAH -
IOH-188 kHz 244 ROTAT 8 DEG NIX 1 (5>
CHAHHELS 12 SPAH- 1824 ROTATIOH- 8 DEG NIX 2 (6>
CHWtKLS 34 SRW- 1824 ROTATIOH 8 DEG ZETEC Inc. - 1933 Edition 12.8 Rev 1
CH 5 VERT CH 6 VERT 21 NN ll COL 55l GUNNEL 1 DIFF FREQ- 488 kHz SPAN 274 ROTATIOH- 8 DEG Q%%KL 2 DIFF FREQ- 288 kli=
SPAf 324 ROTATIOH- 8 OEG C~EL 3 IRRS FREQ- 218 kHz SPAH 324 ROTATIOH- 8 DEG CHAHHEL 4 ABS 8.68 VOLTS 61 DEG 8 i FREQ- 188 kHz NTS -14. 4 SPAH 244 ROTAT IOH- 8 DEG HIX 1 (5)
CHAHNELS 12 SPAi( 824 1 ROTATIOH- 8 OEG HIX 2 (6)
CHAINS 34 SPAH- 1824 ROTATIOH 8 OEG ZETEC Inc. 1933 Edition 12.8 Rev CH 5 VERT 6 VERT i 21 ROI4 11 i'5 CHANNEL FREQ
1 DIFF 488 kH SPAN 274
-
ROTATIOH CHAHfKL 2 FREQ SPAN
DIFF 8 DEG 288 kHz 324 ROTATIOH 8 OEG CHAHHEL FREQ SPAH
ROTATION 3
218 ABS 324 8
kHz OEG HTS 8.44 VOLTS
-14.4 66 OEG 8 >
CHANNEL 4 FREQ SPAH
-
ggg 188 kHz 244 ROTATIOH - 8 DEG HIX 1 (5)
CHAHHELS SPAH - 1824 12 ROTATIOH 0 OEG HIX 2 <6) 0%HHELS SAW ROTATIOH 34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1
CH 5 VERT CH 6 VERT CHAHHEL HO 1 21 RON 36 COL 59 CHAItKL 1 FREQ- 488 kHz SPAH 264 ROTATIOH- 8 DEG CHAHHEL 2 DIFF FREQ- 288 kHz SR% 3P4 ROTATIOH- 8 DEG CHQtKL 3 QK FREQ- 218 kHz SPFH 324 ROTATIOH- 8 DEG CHAHHEL 4 ABS 8.3?
FREQ- 188 kHz HTS VOLTS
-16. 8 234 Q%H 244 ROTATION- 8 DEG HIX 1 (5)
CHANNELS 12 SPAH- 1824 ROTATIOH- 8 DEG HIX 2 (6)
CHANHELS SPAH- 1824 ROTAT IOH- 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 CH 5 VERT,~ CH 6 VERT $ G 2! RON 36 COL 59)
CHANHEL FREQ SPAH
1 DIFF
- 264 488 kHz ROTATION - 8 DEG CH~EL 2 FREQ SPAN 288 324 kHz
ROTATION
CHAHHEL 3 FREQ SPAH QN 8 DEG 218 kNz 324 ROTATIOH - 8 DEG 8.28 VOLTS 225 HTS'16. 8 DEG 8 4 CHANEL 4 FREQ SPAH
ROTATION
-
ABS 188 kHz 244 8 DEG PIIX 1
(5)
CHAHHELS SPAN ROTATION -
1824 12 8 DEG SR%
NIX 2 (6>
Cl+tt%LS ROTATIOH -
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1
CH 5 VERT 21 NN 36 COL 59I CHAHKL FREQ SPAH
1 DIFF 488 kHz 264
ROTATIOH
CHAOS 2 DIFF FREQ SAW 8 DEG 288 kHz 324
-
ROTATIOH
CHQAEL 3 ggg FREQ SPAN 8 DEG 218 kHz 324
-
HTS 8.85 VOLTS
-16. 8 91 DEG 8 Z ROTATIOH CHANNEL 4 FREQ SPAH
ABS 244 8 DEG 188 kHz ROTATIOH 8 DEG HIX 1 (5)
CHANNELS SPAN ROTATIOH
-
1824 12 8 DEG aeWRLS SPAN tlIX 2 (6)
ROTATIOH 34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev CH 5 VERT + CH 6 VERT + CHAHNEL NO 4 5G 21 NN 36 COL 59 QQNHEL FREQ SPAN
1
-
DIFF 488 kH" 264 ROTATIOH -
CHAHHEL 2 FREQ SPAN
DIFF 8 DEG 288 kNz 324 CHAHHEL 3 FREQ SPAH
ROTATIOH ABS 8 DEG 218 kHz 324 ROTATIOH - 8 DEG 8.46 VOLTS Z6 DEG 8 Z CHANHEL 4 FREQ "
/gal 188 kHz HTS -16. 8 SPAH 244 ROTATIOH - 8 DEG HIX SPAN 1
CHANHELS ROTATION (5)
-
1824 12 8 DEG HIX 2 CHAOKLS SPW ROTATIOH (6)
-
1824 34 8 DEG ZETEC Inc. - 1933 Edi t i on 12. 8 Rev
5 6 VERT ll
CH VERT ~ CH ROM 36 COL 63 CHAHHEL FREQ SPAN I 488 kHz 734 CHAWEL 2 FREQ SPAN
ROTATIOH DIFF 8 DEG 288 kH-324 CHARNEL 3 FREQ SPIC
ROTATION QK 8 DEG 218 kHz 324 ROTATIOH - 8 DEG HTS 8.76 VOLTS
-16. 1 221 ~ 8 CHAHNEL 4 FREQ SPAH
ABS 188 kHz 244 ROTATIOH 8 DEG
(
HIX 1 CHAHHELS SPAN (5)
ROTATION 1824 12 8 DEG HIX 2 CHAHHELS SPAH (6)
ROTATIOH 34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT 36 COL 63
11 ROM CHAHkKL FREQ SPAH 1 DIFF 488 kHz 734 CHAHHEL 2 FREQ SPAH
ROTATIOH ggg 8 DEG 288 kHz 324
-
ROTATIOH CHAHNEL FREQ
%%N
3 QK 8 DEG 218 kHz 324
"
HTS 8.93 VOLTS
-16. 1 153 DEG 8 Z ROTATIOH BRHHEi. 4 FREQ SPAH-ABS 8 DEG 188 kHz ROTATIOH - 8 DEG HIX 1 CHANNELS SPAH ROTATIOH
(5)
-
1824 12 8 DEG HIX 2
~OKLS SR%
~
ROTATIOH
(6)
-
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1
CH 5 VERT ~ CH 6 VERT Q%HHEL HO 3 11 RON 36 COL 63 CHANEL 1 DIFF FREQ- 488 kHz SPAH 734 ROTATION- 8 DEG CHAtdKL 2 DIFF FREQ- 288 kHz SRW 324 ROTATION- 8 DEG CHARKL 3 RES FREQ- 218 kHz SPAH 324 ROTATIOH- 8 DEG CHAHHEL 4 QK FREQ- 188 kHz HTS 8.38 VOLTS
-16. 1 62 DEG 8 Lc SPAN 244 ROTATION- 8 DEG HIX 1 (5>
CHAHHELS 12 SPAH- 1824 ROTATIOH- 8 DEG HIX 2 (6>
CHAHHELS 34 SPAH , 1824 ROTATION- 8 DEG ZETEC Inc. 1933 Edition 12.8 Rev 1 CH 5 VERT + 6 VERT + 4 RSl
CH CHAHHEL HO G 11 36 COL 63 CHANNEL FREQ SPAN ROTATIOH 1
-
DIFF 488 kHz 734 8 DEG CHAHHEL FREQ SPAH
2
-
DIFF 288 kHz Sc?4 ROTATIOH -
FREQ CHANHEL 3 ABS 8 DEG 218 kHz 324 ROTATIOH - 8 DEG HTS 8.56 VOLTS
-16. 1 28c? DEG 8 i FREQ SPAH CHAHHEL 4
ROTATIOH
-
188 kHz 244 8 DEG NIX 1
(5>
CHAHHELS SPAH ROTATIOH 1824 12 8 DEG SPAH HIX 2 (6>
CHAHHELS ROTATIOH -
=4 1824 8 DEG ZETEC Inc. 1933 Fdition 12.8 Rev 1
CH 5 VERT + CH 6 VERT 21 RQi 28 COL 76 CHAitKL 1 FREQ- 488 kHz SPAH 152 ROTATION- 8 DEG CilNNEL 2 DIFF FREQ- 288 kHz SRW 324 ROTATIOH- 8 DEG CHR4'KL 3 MRS FREQ- 218 kHz SRW 324 ROTATIOH- 8 DEG CHAHIKL 4 ABS
- 8. 61 VOLTS FREQ- 188 kHz HTS -17. 5 SPAN 244 ROTATIOH- 8 OEG MIX 1 (5>
CHAHNELS 12 SPAH- 1824 ROTATIOH 8 DEG, MIX 2 <6)
C}N%KLS 34 SPAN- 1824 ROTAT ION 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT SG 21 ROH 28 COL 76 CHAHHEL FREQ
$ %H
1 DIFF 488 kHz 152
-
CHANHEL FREQ SPAH
ROTATIOH 2 Qgj 8 DEG 288 kHz 324 CHANNEL 3 FREQ Q%H
ROTATION ABS 8 DEG 218 kHz 324 ROTATIOH - 8 DEG HTS 8.33 VOLTS
-17. 5 3 DEG 8 X CHURL FREQ SPAH ROTATIOH
4 188
-
ABS P44 8
kH" OEG MIX 1 <5>
CHAHHELS 12 SPAH - 1824 ROTATIOH - 8 DEG MIX 2 (6)
CHURL S SR%
ROTATIOH 34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1
CH 5 VERT ~ CH 6 VERT CHANEL NO 3 21 RON 28 COL 76 QRHKL FREQ SPAH
1 DIFF 488 kHz 152 CHANNEL FREQ SR%
ROTATION 2 DIFF 8 DEG 288 kHz 324
-
ROTATION CHARNEL FREQ SPAN
3 ggg 8 DEG 218 kHz 324
-
HTS 8.51 VOLTS
-17. 5 183 DEG 8 x ROTATIOH CHAHf%1 FREQ SPAH
4 ABS P44 8 DEG 188 kHz ROTATIOH 8 DEG HIX SPAH 1
CHAHHELS
ROTATIOH
<5) 1824 12 8 DEG MIX 2 <6)
CHAHHELS SPAH ROTATIOH
-
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1 CH 5 VERT + CH 6 VERT 9@HHEL HO . 4 21 ROI4 28 COL 76 CHAHHEL FREQ SPAN
1 DIFF 488 kH-152
-
ROTATIOH CHAHNEL FREQ SPAH
2 DIFF 8 DEG 288 kHz 324
-
ROTATIOH CHAHHEL FREQ SPAN
3 ASS 8
218 kHz 324 DEG ROTATIOH - 8 DEG 8.24 VOLTS 84 DEG 8 z FREQ
ggg5 188 kHz HTS -17. 5 SPAH 244 ROTATIOH - 8 DEG HIX SPAH 1
CHANNELS ROTATIOH
<5)
-
1824 12 8 DEG HIX 2 <6)
C~LS SAW ROTATION
-
1824 34 8 DEG ZETEC Inc. - 1983 Edit i on 12. 8 Rev 1
CH 5 VERT + CH 6 VERT CHURL HO 1 CHAiAEL 1 EHXi FREQ- 488 kHz SPAH 1824 ROTATION- 8 DEG CHAfHEL 2 DIFF FREQ- 288 kHz SPfS 324 ROTATION- 8 DEG CHAI+KL 3 FSS FREQ- 218 kHz SRW 324 ROTATIOH- 8 DEG CHAt&EL 4 %K 1.94 39 97 FREQ- 188 kHz HTS VOLTS
-18. 5
<
SPAH 244 ROTATIOH- 8 DEG HIX 1 (5)
CHAHHELS 12 SPAN- 1824 ROTATIOH 8 DEG t11X 2 (6)
CHAHHELS 34 SRW- 1824 ROTATIOH- 8 DEG (
ZETEC Inc. - 1933 Edition 12.8 Rev 1 CH 5 VERT CH 6 VERT + CHAHHEL HO 2 21 RON 26 COL CHAP%EL RKQ
1 DIFF 488 kH=
SPAH 1824 CHISEL 2 FREQ SPAH
ROTATIOH
8 DEG 288 kHz 324 FREQ SPAN
ROTATION CHAHHEL 3
ABS 8 DEG 218 kHz 324
-
1.42 HTS VOLTS
-18. 5 78 DEG 8 z QCHHEL 4 FREQ Q%H
ROTATIOH ABS 244 8 DEG 188 kHz ROTATIOH 8 DEG HIX 1 (5)
SPAH -
CHAHfKLS ROTATIOH 1824 12 8 DEG CHASES SR%
HIX 2 (6)
ROTATIOH 1824 34 8 DEG ZETEC Inc. 1933 Edition 12 8 Rev 1
CH 5 VERT CH 6 VERT 21 RON 26 COL Cf&t4KL 1 DIFF FREQ- 488 kHz SPAH 1824 ROTATIOH- 8 DEG CHROKL 2 DIFF FREQ- 288 kHz SR% 324 ROTATIOH- 8 DEG
~KL 3 RH FREQ- 218 kHz SP&t 324 ROTATIOH- 8 DEG 0%RKL 4 MRS 235 8 FREQ- 188 kHz HTS VOLTS
-18. 5 DEG SPAH 244 ROTATIOH- 8 DEG HIX 1 (5>
CHAPELS 12 SPAH- 1824 ROTATIOH 8 DEG HIX 2 (6)
CHANNELS 34 SPAH- 1824 ROTATION 8 'DEG ZETEC Inc. 1933 Edition 12.8 Rev 1
. CH 5 VERT + CH 6 VERT G 21 NN 26 COL CHfHtiEL FREQ .
1 DIFF 488 kNz SPAN 1824 CHANHEL FREQ SPAH
ROTATIOH 2 DIFF c~
324 8 DEG kHz CHAHHEL FREQ SPAN
ROTATIOH 3 ABS 8 DEG 218 kHz 324 8.88 HTS VOLTS
-18. 5 61 DEG 8 SPAH
ROTATIOH
QiAHHEL 4 FREQ ggg 244 8 DEG 188 kHz ROTATIOH 8 DEG HIX 1 (5>
CHAHHELS SPAN 12 1824 ROTATIOH 8 DEG C~LS SR%
l1IX 2 (6)
ROTATIOH -
34 1824 8 DEG ZETEC Inc. 1983 Edition 12.8 Rev 1
87
CH 5 VERT + CHANNEL HO 1 G 22 RON 18 COL GUNNEL FREQ SPAH 1
-
Qgj 488 kHz 1824
ROTATIOH
CHANEL 2 FREQ SR%
DIFF 8 DEG 288 kHz 324
ROTATIOH
CHAHHEL 3 FREQ SR%
QK 8 DEG 218 kNz 324 3 63 VOLTS FREQ SPAH
ROTATION CHAHHEL 4 188 244 8 DEG kHz ROTATIOH 8 DEG HIX 1 (5)
SPAH CHANHELS ROTATIOH
-
12 1824 8 DEG HIX 2 CH~ELS SPAH (6)
ROTATION 34 1824 8 DEG ZETEC Inc. - 193-Edition 12.8 Rev 1 87
CH 5 VERT ~ CH 6 VERT 22 PCN 18 COL CHAHNEL FREQ SPAN ROTATIOH I DIFF 488 kH 1824
8 DEG
CHANHEL 2 FREQ 288 kHz
'PAH 454 CHAHHEL FREQ SPAH
ROTATIOH 3 ASS 8 DEG 218 kHz 324 ROTATIOH 8 DEG 2.32 YQ.TS 113 DEG 8 z FREQ SPAH
CNAI+iEL 4 ROTATION CRS 188 244 8
kHz DEG HIX 1 (5>
CHAHHELS SPAN ROTATION -
12 1824 8 DEG
MIX 2 (6>
CHAHHELS SR%
ROTATIOH -
34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Rev 1
CH 5 VERT CH 6 VERT 22 RON 18 COL QCtHEL FREQ SPAI ROTATIOH 1 DIFF 488 kH 1824
8 DEG CHAOS 2 DIFF FREQ SAW - 288 kHz 454 8 DEG
ROTATIOH CHA~ ggg
3 FREQ 218 kHz SR% 524
-
1.25 VOLTS 228 DEG 8 i FPEQ SPAN
ROTATIOH
CHAI&EL 4 $ R..
8 DEG 188 kHz 244 ROTATIOH - 8 DEG HIX SPAH 1
CA%NELS ROTATIOH (5)
-
1824 12 8 DEG CHAPELS SR%
HIX 2 (6>
ROTATIOH -
34 1824 8 DEG ZETEC Inc. - 1983 Edition 12.8 Re@ 1 5 VERT + 22 RN 18 COL 87
CHAHNEL FREQ SPAH ROTATIOH 1
-
DIFF 488 kHz 1824 8 DEG CHANEL 2 FREQ SPAH
-
DIFF 288 kHz 454
-
ROTATIOH 8 DEG
CHANEL 3 ABS FREQ 218 kHz SPAH 524 ROTATIOH - 8 DEG 3.18 VOLTS 319 DEG 8 k FREQ
CNAHNEL 4
ABS 188 kHz SPAN Qgg ROTQTIOH - 8 DEG HIX SPAN 1
CHAHHELS ROTATIOH (5)
-
1824 12 8 DEG
~KLS SR%
iiIX 2 (6>
ROTATIOH -
1824 34 8 DEG ZETEC Inc. - 1%@
Edition 12.8 Rev 1
CH 5 VERT + CH 6 VERT + 22 RON 18 COL 87 CHR443 FREQ SPAH 1
-
DIFF 488 kHz 1824
ROTATIOH 8 DEG
CHAWEL 2 DIFF FREQ 288 kHz SPfH 454 ROTATIOH
8 DEG
CHANEL 3 FREQ 218 kHz SR% 524 ROTATIOH - 8 DEG CHAttKL 4 4.43 VOLTS 133 DEG 8 k FREQ SPAN
ROTATION .
188 kHz 484 8 DEG MIX 1
<5)
CHANNELS SPAM ROTATION gg 1824 12 8 DEG SPAH MIX 2 <6)
CHAPELS ROTATIOH -
34 1824 8 DEG "ETEC Inc. 1933 Edition 12.8 Rev 1 CH 5 VERT + CH 6 VERT + 22 RON 18 COL 87 CHANNEL 1 DIFF FREQ- 488 kNz SPAH 1824 ROTATIOH- 8 DEG CHAHHEL 2 DIFF FREQ- 288 kHz SPAH 454 ROTATIOH- 8 DEG CHAHHEL 3 ABS FREQ- 218 kHz SPAH 524 ROTATIOH- 8 DEG 1 ~ 46 VOLTS 72 DEG 8 Z FREQ -
CHANNEL 4
ASS 188 kHz SF% 484 ROTAT IOH . 8 DEG I MIX 1 <5)
CHAf+tELS 12 SPAH 1824 ROTATIOH 8 DEG MIX 2 (6> RR CHURL S 34 SPAH- 1824 ROTATIOH- 8 DEG ZETEC Ine. - 1933 Edition 12.8 Rev 1
l l
I l lt xt I ~
J 1l h
f
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