Design Analysis QDC-6700-E-0939, Loss of Voltage Relay Set Point for Buses 13-1, 14-1, 23-1, and 24-1, Revision 001

ML16258A152
Person / Time
Site:	Quad Cities
Issue date:	11/20/2015
From:	Kolodziej J Exelon Generation Co
To:	Document Control Desk, Office of Nuclear Reactor Regulation
Shared Package
ML16258A146	List: ML16258A150 ML16258A152 RS-16-162, Request for License Amendment to Revise Loss of Voltage Relay Settings
References
QDC-6700-E-0939
Download: ML16258A152 (54)
v • d • e

Text

ATTACHMENT 4 Design Analysis QDC-6700-E-0939, "Loss of Voltage Relay Setpoint for Buses 13-1, 14-1, 23-1, and 24-1," Revision 001

---*--*--*-- *-****- ------~ **--------

CC-AA-309-1001 Revision 8 ATTACHMENT 1 Design Analysis Cover Sheet Page 1 a f 1 Design Analysis I Last Page No.* Attachment C, Page C16 Analysis No.:* QDC-6700-E-0939 Revision:' 001 Major 181 MinorD

Title:

' Loss of Voltage Relay Setpoint for Buses 13-1, 14-1, 23-1, and 24-1 EC/ECR No.:

• 400610 & 400611 Revision:' 000 & 000 Statlon(s): ' Quad Cities Component(s): "

Unit No.:* 01 & 02 1-6703-13-127-1 2-6704-24-127-1 Discipline: 0 ELDC 1-6703-13-127-2 2-6704-24-127-2 Descrip. Code/Keyword: 10 E07 1-6704-14-127-1 Safely/QA Class: " Safely Related 1-6704-14-127-2 System Code: " 867 (6700) 2-6703-23-127-1 Structure: ,, NIA 2-6703-23-127-2 CONTROLLED DOCUMENT REFERENCES" Document No.: From/To Document No.: From/To QDC-6700-1-0848 From MA-QC-773-524 From QDC-6700-E-1498 From QDC-6700-E-2173 From MA-QC-773-523 From Is this Design Analysis Safeguards Information? " YesD No [8] If yes, see SY-AA-101-106 Does this Design Analysis contain Unverified Assumptions? " YesO No [8] If yes, ATl/AR#: N/A This Design Analysis SUPERCEDES: " N/A In Its entirety.

Description of Revision (list changed pages when all pages of original analysis were not changed}: **

See Page 2 Preparer:,. J. Kolodziej -faLll.tb_!~r~J.fii7 l/-20-/.)

Method of Review: "

Revfewer: ,, S. Saha Prinl.Noma Detailed Review [8] Alternate c7:;;;_. ,,./

Siat>:l'l.lnn\A (atta~ed) O

~t._o.._.

Testing D Dalo 1[-20 **-IS-PrlnlNnmo - "/ Sign Noma Oola Review Notes: " Independent review 181 Peer review 0 (For El!.1010211 Anal\'!CS lXlly) ~

M A""ff\<\'CW5 Q1. '(h J --, \I /;.>,,oj'1D \<;

External Approver: "

• __.. Pd11t Namo

~

s7

~

__ 0010 Exelon Reviewer: " 5 . -.Jc,,..5Jt:r-l1rlnlN:1mo

/7

/

""S lo11N11mo t</-z't/fs Dale Independent 3'd Party Review Reqd?" YesO No (8J Exelon Approver:" ___?,,._~. ~ 'v.l{l_gT rriol Name J?Cc-

,/ /

Siqn Nnmo 9 - I J2lr/;.J.

Dnl11 I

CC-AA-103-1003 Revision 12 Page 1A of 1C ATTACHMENT 2 Owner's Acceptance Review Checklist for External Design Analyses Page 1of3 Design Analysis No.: QDC-6700-E-0939 Rev: 001 Contract #: 00511302 Release #: 00234 No Question Instructions and Guidance Yes I No I NIA 1 Do assumptions have All Assumptions should be stated in clear terms with enough sufficient documented justification to confirm that the assumption is conservative.

rationale?

For example, 1) the exact value of a particular parameter may not be known or that parameter may be known to vary over the range of conditions covered by the Calculation. It is appropriate to represent or. bound the parameter with an assumed value. 2) The predicted performance of a specific piece of equipment in lieu of actual test data. It is appropriate to use the documented opinion/position of a recognized expert on that equipment to represent predicted equipment performance.

Consideration should also be given as to any qualification testing that may be needed to validate the Assumptions. Ask yourself, would you provide more justification if you were performing this analysis? If yes, the rationale is likely incom lete.

Are assumptions Ensure the documentation for source and rationale for the 2 compatible with the assumption supports the way the plant is currently or will be way the plant is operated post change and they are nqt in conflict with any operated and with the design parameters. If the Analysis purpose is to establish a licensing basis? new licensing basis, this question can be answered yes, if the assum tion su orts that new basis.

3 Do all unverified If there are unverified assumptions without a tracking assumptions have a mechanism indicated, then create the tracking item either tracking and closure through an ATI or a work order attached to the implementing mechanism in place? WO. Due dates for these actions need to support verification prior to the analysis becoming operational or the resultant lant chan e bein o authorized.

4 Do the design inputs The origin of the input, or the source should be identified and have sufficient be readily retrievable within Exelon's documentation system.

rationale? If not, then the source should be attached to the analysis. Ask yourself, would you provide more justification if you were performing this analysis? If yes, the rationale is likely incom lete.

5 Are design inputs The expectation is that an Exelon Engineer should be able to correct and reasonable clearly understand which input parameters are critical to the with critical parameters outcome of the analysis. That is, what is the impact of a identified, if change in the parameter to the results of the analysis? If the a ro riate? im act is lar e, then that arameter is critical.

6 Are design inputs Ensure the documentation for source and rationale for the compatible with the inputs supports the way the plant is currently or will be way the plant is operated post change and they are not in conflict with any operated and with the design parameters.

licensin basis?

CC*AA-103-1003 Revision 12 Page 8 of 11 ATTACHMENT 2 Owner's Acceptance Review Checklist for External Design Analyses Page 2of3 Design Analysis No.: QDC*6700*E*0939 Rev: 001 No Question Instructions and Guidance Yes/ No IN/A 7 Are Engineering See Section 2.13 in CC-AA-309 for the attributes that are Judgments clearly sufficient to justify Engineering Judgment. Ask yourself, documented and would you provide more justification if you were performing

'ustified? this anal sis? If es, the rationale is likel incom lete.

8 Are Engineering Ensure the justification for the engineering judgment Judgments compatible supports the way the plant is currently or will be operated with the way the plant is post change and is not in conflict with any design operated and with the parameters. If the Analysis purpose is to establish a new licensing basis? licensing basis, then this question can be answered yes, if the "ud ment su orts that new basis.

9 Do the results and Why was the analysis being performed? Does the stated conclusions satisfy the purpose match the expectation from Exelon on the proposed purpose and objective of application of the results? If yes, then the analysis meets the Desi n Anal sis? the needs of the contract.

10 Are the results and Make sure that the results support the UFSAR defined conclusions compatible system design and operating conditions, or they support a with the way the plant is proposed change to those conditions. If the analysis operated and with the supports a change, are all of the other changing documents licensin basis? included on the cover sheet as im acted documents?

11 Have any limitations on Does the analysis support a temporary condition or the use of the results procedure change? Make sure that any other documents been identified and needing to be updated are included and clearly delineated in transmitted to the the design analysis. Make sure that the cover sheet appropriate includes the other documents where the results of this or anizations? anal sis rovide the in ut.

12 Have margin impacts Make sure that the impacts to margin are clearly shown been identified and within the body of the analysis. If the analysis results in documented reduced margins ensure that this has been appropriately appropriately for any dispositioned in the EC being used to issue the analysis.

negative impacts (Reference ER-AA-2007?

13 Does the Design Are there sufficient documents included to support the Analysis include the sources of input, and other reference material that is not applicable design basis readily retrievable in Exelon controlled Documents?

documentation?

14 Have all affected design Determine if sufficient searches have been performed to analyses been identify any related analyses that need to be revised along documented on the with the base analysis. It may be necessary to perform Affected Documents List some basic searches to validate this.

(AOL) for the associated Confi uration Chan e?

15 Do the sources of inputs Compare any referenced codes and standards to the current and analysis design basis and ensure that any differences are reconciled.

methodology used meet If the input sources or analysis methodology are based on committed technical and an out-of-date methodology or code, additional reconciliation regulatory may be required if the site has since committed to a more re uirements? recent code

CC-AA-103-1003 Revision 12 Page 9 of 11 ATTACHMENT 2 Owner's Acceptance Review Checklist for External Design Analyses Page3 of 3 Design Analysis No.: QOC-6700-E-0939 Rev: 001 No Question Instructions and Guidance Yes I No I NIA 16 Have vendor supporting Based on the risk assessment performed during the pre-job technical documents brief for the analysis (per HU-AA-1212), ensure that and references sufficient reviews of any supporting documents not provided (including GE DRFs) with the final analysis are performed.

been reviewed when necessar ?

17 Do operational limits Ensure the Tech Specs, Operating Procedures, etc. contain support assumptions operational limits that support the analysis assumptions and and in uts? in uts.

Create an SFMS entry as required by CC-AA-4008. SFMS Number: 52724

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 2 of20 I Revision Summary Revision 000:

Initial Issue The purpose of this calculation is to evaluate relay setpoint errors associated with an extended 24 month calibration interval, to ensure adequate margin between the Analytical Limit (AL) and the setpoint. A calculation is performed to determine the allowable values and expanded tolerances. The relay reset time is evaluated.

Revision 001:

The calculation was revised to evaluate the loss of voltage relay setpoint due to new analytical limits established by Calculation QDC-6700-E-2173. The new analytical limits supersede the previous analytical limits in TODI QDC-00-039-01, which were previously used in revision 0 of the calculation. This calculation recommends a new loss of voltage relay setpoint and re-evaluates the setpoint errors, allowable values, and expanded tolerances. This revision also incorporates "OCR 990725, which modified the EPN's for the loss of voltage relays that are referenced in the calculation. Portions of the calculation text that have been revised are identified with a revision bar in the right margin. Pages 1-4, 9-13, and 16-20 have been revised. Pages 1A-1C have been added. Attachment C has been replaced in its entirety, and Attachment D has been deleted.

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 3of20 I DESIGN ANALYSIS TABLE OF CONTENTS SUB-PAGE SECTION PAGE NO.

NO.

Design Analysis Coversheet 1 Owner's Acceptance Review Checklist for External Design Analyses 1A-1C I

Revision Summary 2 Table of Contents 3 1.0 Purpose 4 2.0 Methodology and Acceptance*Criteria 5 3.0 Assumptions 8 4.0 Design Input 9 5.0 References 11 6.0 Calculations 13 7.0 Summary and Conclusions 19 8.0 Attachments 20 Attachment A - GE Catalog Cut for IAV69 Relay (6 pgs) A1-A6 Attachment B - GE Instrument Manual GEl-908100 (8 pgs) 81-88 Attachment C - Passport Data - LOV Relay Settings (16 pgs} C1 -C16 I

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 4 of 20 I 1.0 PURPOSE The purpose of this calculation is to evaluate relay setpoint errors associated with an extended 24 month calibration interval, to ensure adequate margin between the Analytical Limit (AL) and the setpoint.

In addition, a calculation is performed to determine the allowable values and expanded tolerances.

Lastly, the relay reset time will be evaluated.

The analytical limits (i.e. the analytical limits associated with the loss of voltage relay) are based on Calculation QDC-6700-E-2173 (Ref. 5.6.3).

This calculation is applicable for both normal and accident operating conditions. This calculation is applicable for the following undervoltage relays that perform the Loss of Voltage identification function at the Emergency Safe shutdown (ESS) buses 13-1, 14-1, 23-1, and 24-1 and initiate load shedding at these buses:

1(2)-6703-1 (2)3-127-1 1(2)-6703-1 (2)3-127-2 1(2)-6704-1 (2)4-127-1 1(2)-6704-1 (2)4-127-2 Based on the component classification for the subject equipment (Ref. 5.6.1 ), this calculation is classified as safety-related.

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 5of20 I 2.0 METHODOLOGY AND ACCEPTANCE CRITERIA 2.1 Basic Methodology This calculation is performed in accordance with NES-EIC-20.04 (Ref. 5.1.2) and the main body of Reference 5.1.3 with the clarifications and additions identified below. Appendix 1 of Reference 5.1.3 does not apply to this calculation because the Appendix is a documentation of guidelines for the ComEd calculations prepared under a different scope of work. However, where the setting tolerance (ST) is greater that the drift tolerance interval (DTlc), the methodology identified on page 23 of Reference 5.1.3 (part of Appendix 1) is used to determine loop random errors.

2.2 Classification Level A Level 1 evaluation is performed which provides the highest level of confidence as defined in Appendix D of NES-EIC-20.04 (Ref. 5.1.2). As a Level 1 evaluation, the random errors (a) are converted to a 2cr value and added to the non-random errors (2:e). Thus, the total error (Z) is z = 2a +re 2.3 Vendor Specifications Published instrument vendor specifications are considered to be based on sufficiently large samples so that the probability and confidence level meets the 2a criteria, unless stated otherwise by the vendor.

2.4 Negligible Uncertainties Per Appendix I of NES-EIC-20.04 (Ref. 5.1.2), the effects of radiation (eR),

humidity (eH), power supply (eV), calibration standard equipment (STD), and seismic (eS) under normal operating conditions may typically be considered negligible. For the evaluation of nonnal operating conditions, these errors are considered negligible unless otherwise noted.

2.5 Other Environmental Effects For environmental effects not considered negligible (Section 2.4), if the vendor does not provide a separate specification but the environmental limits are bounded by the vendor operating limits, then the effect is considered included in the reference accuracy.

2.6 Drift Specifications The calculated drift specification (Drift Tolerance Interval - DTlc) based on As-Left I As-Found data is used in place of the specifications for reference accuracy (RA),

calibration error (CAL), setting tolerance (ST) and drift (DR).

2.7 Seismic Seismic effects associated with instrumentation at or below those classified as an

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 6of20 I OBE are considered negligible. Where the seismic event, which itself is considered the single eventfrom a Licensing viewpoint, is greater than an OBE, then the instrumentation shall be re-calibrated prior to Station operation and therefore not required to be evaluated in this uncertainty calculation.

2.8 Calculated Setpoint A calculated setpoint will be determined utilizing the following equations from Appendix C of Reference 5.1.2 where applicable:

SPc ~AL+ z+ +MAR [lower limit]

SPc s AL - 1z MAR [upper limit]

where, SPc: is the calculated setpoint AL: is the Analytical Limit z+, z*: is the total error (positive, negative) for the device including all estimated effects MAR: is a selected margin used to provide additional conservatism Note: The names of the terms in the generic equations shown above may be modified in accordance with specific loop designations.

The errors (Z) included in the determination of the calculated setpoint are all applicable instrument errors and environmental effects.

The calculated setpoint is determined using DTlc (See Section 2.6).

2.9 Allowable Value An allowable value will be determined utilizing the following equations from Appendix C of Reference 5.1.2 as applicable:

AV ~ SPc- IZav+I AV s SPc + IZAv-1 where, AV: is the allowable values SPc: is the calculated setpoint Zav+, Zav*: is the total error (positive, negative) for the device including all estimated effects Note: The names of the terms in the generic equations shown above may be modified in accordance with specific loop designations.

The errors that are included for the determination of the allowable values (Zav) are only those applicable during calibration. Thus only reference accuracy (RA),

calibration errors (CAL), setting tolerance (ST), drift (DR) and if applicable, the input error {oin) are included. If DTlc is available, RA, CAL, ST, and DR errors are replaced by the calculated drift (DTlc). '

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE7of20 I 2.10 Expanded Tolerances (ET)

Expanded tolerances are determined for the devices as follows, in keeping with the intent of Reference 5.1.2, Appendix C, and ER-AA-520 (Reference 5.1.4)

Attachment 1.

=

a. ET +/- [O. 7 * (Zav - ST) + ST

b. If any of the tolerances determined using the equations above results in an expanded tolerance (ET) value that is less than the setting tolerance (ST},

then ET = ST is specified.

The expanded tolerance is specified as an acceptable tolerance for as-found values. It is expected that the calibration setting tolerance is still utilized as the as-left tolerance.

2.11 Relay Reset Time This calculation will determine the nominal relay reset time using the vendor's curves. The Relay Reset Time is calculated for information only.

2.12 Acceptance Criteria The acceptance criteria for this calculation is such that the field calibration setpoints (SPf) associated with the subject instrument loops are set such that they are bounded by the calculated setpoint (SPc).

There are no acceptance criteria for the allowable value determination. The allowable value is calculated in accordance with the methodology and the results are provided for use.

The expanded tolerances are determined in accordance with Section 2.10 and are acceptable if the result is greater than or equal to the applicable setting tolerance and do not result in a violation of an applicable limit.

There are no acceptance criteria for the relay reset time as it is calculated for information only.

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 8of20 I 3.0 ASSUMPTIONS 3.1 When considering the relay reset time, the higher the voltage during reset, the faster the relay reset time (Ref. 5. 7.2). Thus, to be conservative, a reset bus voltage of 105% of bus rated voltage will be used. This is conservative and does not require verification.

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 9of20 I 4.0 DESIGN INPUT 4.1 Instrument Channel Configuration Per References 5.3.1, 5.3.2, and 5.3.3, the undervoltage relay is used to detect a loss of voltage at 4 kV ESS buses (13-1, 14-1, 23-1, and 24-1). Hence, the undervoltage relay is considered the first and only module in the loop making this a single module bistable loop.

Loss of Voltage at 4 kV ~------------, Initiate ESS Buses Under Voltage Relay Load Shedding 1(2)-6703-1 (2)3-127-1

_ _ ___,-~ 1{2)-6703-1 (2)3-127-2 1(2)-6704-1 (2)4-127-1 1(2)-6704-1 (2)4-127-2 4.2 Loop Element Data Voltaae Relav Reference EPN 1(2)-6703-1 (2)3-127-1 Ref. 5.3 1(2)-6703-1 (2)3-127-2 1(2)-6704-1 (2)4-127-1 1(2)-6704-1 (2)4-127-2 Manufacturer General Electric Ref. 5.6.1 Model No. 121AV69A1A Ref. 5.6.1 Tap RanQe 55-140V Ref. 5.7.1 Available Taps for Overvoltage 55,64, 70,82,93, 105, Ref. 5.7.1 (OV) Settin!:I 120 140V Undervoltage (UV) Setting as a 60, 70, 80, 90, 95% Ref. 5.7.2

% of Overvoltage Setting Reference Accuracy +/- 5% of OV tap setting Ref. 5.7.2 times UV setting Potential Transfonner Reference EPN Not assigned EPNs Ref. 5.6.2 Manufacturer General Electric Ref. 5.6.2 Model No. JVM-3; Catalog #643X94 Ref. 5.6.2 Voltage Ratio 4200-120 Ref. 5.6.2 Accuracy Class 0.3W,X, M, Y Ref.5.6.2 Freauencv 50 Hz 60 Hz Ref. 5.6.2 Reference Accuracy 750VA@ 55°C above 30°C ambient Ref. 5.6.2 500VA@ 30°C above 55°C ambient BIL (Basic Impulse 60kV Ref. 5.6.2 Insulation Level) 4.3 Local Service Environments Per Reference 5.3, the Loss of Voltage Relays 1(2)-6703-1 (2)3-127-1, 1(2)-6703-1(2)3-127-2, 1(2)-6704-1(2)4-127-1, and 1(2)-6704-1(2)4-127-2 are located in Buses 13-1, 14-1, 23-1, and 24-1. Per references 5.3.5 & 5.4.2, these buses are located on Elevation 647'-6" of the Unit 1 and 2 Turbine Buildings. Both normal

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 10 of 20 I and accident operating conditions are evaluated.

The conditions that are evaluated are summarized below based on References 5.4.1, 5.4.2, & 5.4.3 for normal and worst case environmental conditions.

Panel Bus 13-1 /Bus 14-1 Bus 23-1 / 24-1 Location (Row-Column) H-14/ H-16 H-10 I H-12 Elevation 647'-6" EQ Zone EQ Zone 35 Normal Operating Conditions LOCA Conditions Ambient Temoerature 65-120°F 120°F Ambient Pressure 14.7 osia 14.7 psia Humidity 20 to 90% RH 100%{NC) RH Radiation <1.0E04 RADS (40 Yrs.) 1.0E04 RADS (30-day) 4.4 Calibration Procedure Data Per the most recent Passport data (Ref. 5.5.1 ), the current, existing settings for the Loss of Voltage relays are provided below. In addition, the surveillance interval is provided.

Setooint Settina 83.7 v

• Ref. 5.5.1 Settino Tolerance +/- 1.7V Ref. 5.5.1 Surveillance Interval (SI) 24 months Ref. 5.1.3

• Note that this value is based on an overvoltage tap setting of 93V and an undervoltage setting of 90% of the OV tap setting (93V x 90% = 83. 7V) 4.5 Analytical Limit (AL)

Per Reference 5.6.3, the Loss of Voltage relay Analytical Limit (AL) is 2938 V :s AL s 3246 V at the bus. These voltages are transformed to a control voltage through a PT with a turns ratio of 35:1 (Ref. 5.5.1 ).

=

Control Voltage Bus Voltage I 35 Control Voltage (lower limit) = 2938 I 35 =83.95

=

Control Voltage (upper limit) 3246 I 35 = 92.74 Thus, the transformed control voltage AL band is 83.95 Vs AL s 92.74 V.

4.6 Calculated Drift Specifications Per Calculation QDC-6700-1-0848 (Ref. 5.6.1 ), the 2a drift for 24 months surveillance interval (30 months with late factor) is a random +/- 1.889 V with negligible bias.

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 11of20 I

5.0 REFERENCES

5. 1 METHODOLOGY 5.1.1 ANSl/ISA-S67.04-1994, "Setpoints for Nuclear Safety Related Instrumentation."

5.1.2 NES-EIC-20.04, Rev. 2, "Analysis of Instrument Channel Setpoint Error and Loop Accuracy."

5.1.3 "Improved Technical Specifications (ITS) and 24-Month Technical Specifications Project Technical Plan.", Revision 2 dated 04/28/2000 5.1.4 ER-AA-520, Rev. 4, "Instrument Performance Trending" 5.2 PROCEDURES 5.2.1 CC-AA-309-1001, Rev. 8, "Guidelines for Preparation a('ld Processing of Design Analyses" 5.2.2 MA-QC-773-523, Rev. 10, "Quad Cities NOAD Unit 1 Tech Spec Undervoltage Relay and Degraded Voltage Relay Calibration" 5.2.3 MA-QC-773-524, Rev. 7, "Quad Cities NOAD Unit 2 Tech Spec Undervoltage Relay and Degraded Voltage Relay Calibration" 5.3 DRAWINGS 5.3.1 Quad Cities Schematic Drawings 4E-1345, Sheet 2, Rev. BA, "4160V Bus 13-1 Standby Diesel 1/2 Feed Breakers" 4E-1346, Sheet 2, Rev. AT, "4160V Bus 14-1 Standby Diesel 1 Feed &

24-1 Tie Breaker" 4E-2345, Sheet2, Rev. AP, "4160V Bus 23-1 4kV Standby Diesel 112 Feed Breaker" 4E-2346, Sheet 2, Rev. AL, "4160V Bus 24-1 Standby Diesel 2 Feed &

24-1 Tie Breaker" 5.3.2 Quad Cities Single Line Drawings 4E-1301, Sheet3, Rev. AG 4E-2301, Sheet 3, Rev. AA 5.3.3 Quad Cities Relaying and Metering Diagram 4E-1334, Rev. AA, "4160V Switchgear Buses 13-1 and 14-1" 4E-2334, Rev. AA, "4160V Switchgear Buses 23-1 and 24-1" 5.3.4 Quad Cities Internal Schematic and Device Location Diagram 4E-1655D, Rev. D, "4160V Switchgear Bus 13-1, Cubicle 2"

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 12 of 20 I 4E-1656G, Rev. R, "4160V Switchgear Bus 14-1, Cubicle 9" 4E-2655K, Rev. K, "4160V SWGR Bus 23-1, Cubicle 9" 4E-2656D, Rev. J, "4160V Switchgear Bus 24-1, Cubicle 2" 5.3.5 Quad Cities Internal Other Drawings M-3, Rev. J, "General Arrangement - Main Floor Plan" 5.4 ENVIRONMENTAL PARAMETERS 5.4.1 Drawing M-4A, Sht. 1, Rev. D, "Environmental Zone Map (Basement Floor Plan) Elevation 554'-0" Figure 1" 5.4.2 Drawing M-4A, Sht. 4, Rev. C, "Environmental Zone Map (Main Floor Plan) Elevation 647'-6" Figure 4" 5.4.3 Quad Cities UFSAR, Rev. 5, dated June 1999, Section 9.4.4, "Turbine Building Area Ventilation System" 5.5 OTHER STATION DOCUMENTS 5.5.1 Passport Database - Loss of Voltage Relay Settings (Attachment C) 5.6 CALCULATIONS 5.6.1 QDC-6700-1-0848, Rev. O, "Instrument Drift Analysis of General Electric Model 121AV69A1A Voltage Relays for 4.16 kV Emergency Bus (Loss of Voltage)"

5.6.2 QDC-6700-E-1498, Rev. 1, "Second Undervoltage Relay Setpoint" 5.6.3 QDC-6700-E-2173, Rev. 0, "Evaluation of Degraded Voltage 5 Minute Timer on Normally Running Safety-Related Loads" 5.7 VENDOR DOCUMENTS 5.7.1 General Electric Protection and Control Catalog, Catalog GEZ-7723A, Pages 11-3 to 11-6 (Attachment A).

5.7.2 General Electric Instructions for Voltage Relay Type IAV69A & IAV69B, GEl-9081 OD (Attachment 8).

5.8 Miscellaneous References None.

I Analysis No. QDC-6700*E-0939 Revision 001 PAGE 13 of 20 I 6.0 CALCULATIONS 6.1 Process/ Input Error Evaluation The potential transformer (PT} has a standard published error of+/- 0.3% (Ref.

5.6.2).

The burden on the PT is within the standard test burden of the PT. Therefore, the maximum error of 0.3% will be considered in this calculation.

Therefore, e1p = 120 V

• 0.003

= 0.36 v 6.2 Loss of Voltage Relay (Module 1) Errors 6.2.1 Module 1 - Random Errors 6.2.1.1 Standard Specifications (RA, CAL, ST, DR}

The Loss of Voltage relay's standard specifications of reference accuracy (RA}, calibration errors (CAL}, setting tolerances (ST}, and drift (DR} are considered included in the calculated drift (DTlc) per Section 2.6. Thus, these errors are not included in the errors evaluated by this calculation.

6.2.1.2 As*Left I As-Found Drift Data (DTI 1c}

Per Section 4.6, the 2o calculated drift is +/- 1.889 V. Thus,

=

DTl1c +/- 1.889 V / 2 DTl1c = +/- 0.945 V [1o]

6.2.1.3 Random Input Errors (o1 in}

There are no random input errors for this instrument (Ref. 5.1.2). Thus,

!1in = 0 sec 6.2.1.4 Total Random Errors (o1}

Per Section 2.8, all potential errors are used in calculating the setpoint. Per Section 6.2.1.2, the calculated drift DTl1c is used in place of RA, CAL, ST, and DR. Therefore the total random errors for the calculation of the setpoint are o1 = +/- [ DTl1c2 + o1in 2 ]y, o1 = +/- [ (0.945 V} 2 + (0 V) 2 Jy, cr1 = +/- 0.945 V [1crJ

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 14 of 20 I Per Section 2.9, DTl1c is used for the allowable value random errors for single module loops. Thus, o1av = DTl1c o1av = +/- 0.945 V [1 cr]

6.2.2 Module 1 - Random Errors 6.2.2.1 Temperature Effects {e1T)

There are no specific temperature errors described in the vendor's specification for the undervoltage relay. From Section 4.3 and Reference 5.4.1, the environmental temperature at the relay location is 65°F to 120°F under normal operating conditions, and 120°F maximum during a LOCA. As stated above, the vendor provides no information regarding the operating temperature range and any associated impact on the reference accuracy of the relay. Therefore the error is considered to be included in the reference accuracy specification.

e1T = OV 6.2.2.2 Ambient Pressure Effects (e1 P)

The voltage relay is an electrical device and as such is not affected by ambient pressure changes (Ref. 5.1.2). Therefore, e1P =OV 6.2.2.3 Humidity Effects (e1 H)

For LOCA conditions or for a LOCA in the opposite unit, the humidity levels outside the drywell are specified as 100% (NC) or lower (Ref. 5.4.1 & 5.4.2).

Appendix I of NES-EIC-20.04 (Ref. 5.1.2) recommends consideration of humidity effects in a condensing environment. Therefore, since the environment is non-condensing in this situation, humidity effects are still considered negligible unless specifications by the vendor indicate otherwise.

There are no humidity errors described in the vendor's specification for the devices. As discussed above, the humidity effects are considered to be negligible. Therefore, e1H =av 6.2.2.4 Power Supply Effects (e1V)

There are no power supply errors specified in the vendor specification for the voltage relay. Per Section 2.4, these errors are considered negligible with respect to other error terms. Therefore, e1V = OV

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 15 of 20 I 6.2.2.5 Radiation Effects (e1 R)

Per Section 2.4, radiation effects are considered included in the reference accuracy or capable of being calibrated out for normal conditions. Per Section 4.3, there are no changes in radiation level from normal to post-LOCA conditions. Thus, e1R =0V 6.2.2.6 Seismic Effects (e1 S)

Per Section 2.7, seismic effects are not included in this calculation. Thus, e1S = OV 6.2.2.7 Insulation Resistance Effects (e11R)

This is a single module bistable loop per Section 4.1 and IR leakage errors are not applicable (Ref. 5.1.2). Therefore, e11R =OV 6.2.2.8 Process Error Effects (e1p)

Per Section 6.1, the process error effects are:

e1p = 0.36 V 6.2.2.9 As-Found I As-Left Drift Bias Effects (e1 DTlc)

Per Section 4.6, the bias drift effect is +0.000 1-0.000 V. Thus, e1 DTlc= +0.000 VI -0.000 V 6.2.2.1 O Non-Random Input Errors (e1 in)

There are no input errors associated with the voltage relays, Thus, e1in =OV 6.2.2.11 Total Non-Random Errors (I:e1)

I:e1+ = e1T + e1P + e1H + e1V + e1R + e1S + e11R + e1p+ + e1DTlc+ + e1in re1+ = + (O v + ov + ov + ov + ov + ov + ov + 0.36 v + ov + oV) re1+ = +0.36 v re1* =e1T + e1P +e1H + e1V + e1R + e1S + e11R + e1p* + e1DTtc* + e1in rer =- (O v + ov + ov + ov + ov + ov + ov + o.36 v + ov + oV) rer = -0.36 v

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 16 of 20 I In accordance with Section 2.9, only the drift bias effect is included as non-random error applicable for the determination of the allowable value. Thus, I:e1av = e1 DTlc I:e1av = +0.000 V / -0.000 V 6.3 Total Errors In accordance with Section 2.2, the total errors for determining the calculated setpoint are z+ =2*cr1 + I:e1 +

z+ = 2

• o.945 v + o.36 v z+ = + 2.25 v z* = 2*cr1 + re1*

z* = 2 * (-0.945 V) + (-0.36 V) z- = -2.25 v In accordance with Section 2.9, the total errors for determining the Allowable Value are Zav+ =2*cr1 av + I:e1 av*

Zav* =2

• 0.945 V + 0.000 V Zav* = + 1.89 V Zav* = 2*cr1av + I:e1av*

Zav* = 2 * (-0.945 V) + (-0.000 V)

Zav* = - 1.89 V 6.4 Calculated Setpoint The values calculated for the parameters associated with the calculated setpoint are AL s 92.74 v AL ~ 83.95 v [Section 4.5]

z = + 2.25 v I -2.25 v [Section 6.3]

Per Reference 5.6.1, The DTl1c is calculated based on sufficiently large historical data, and per Reference 5.1.2, additional margin may be omitted in calculating the setpoint. Thus, MAR =0 V

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 17 of 20 I Therefore, in accordance with Section 2.8, the calculated setpoint for an upper limit is SPc(UL) s AL(Ul) - 1z MAR [upper limit]

SPc(UL) s 92.74 V-2.25 V-0 V SPc(UL) s 90.49 v SPc(LL) ~ AL(LL) + z+ + MAR [lower limit]

SPc(LL) v G: 83.95 + 2.25 + 0 v v SPc(LL) ~ 86.20 v Per Section 4.4, the field calibration setpoint (SPf) for this loop is 83. 7 V. The existing field calibration setpoint value is not within the calculated setpoint limits of

~ 86.20 V (83.95 V+2.25 V) ands 90.49 V (92.74 V-2.25 V).

Using the next available undervoltage setting from Section 4.2, the new recommended field calibration setpoint is 88.35 V (93 V overvoltage tap

• 95 %

undervoltage setting). This new field calibration setpoint is bounded by the calculated setpoint and is therefore acceptable.

6.5 Allowable Value The values calculated for the parameters associated with the allowable value are SPc(UL) s 90.49 V SPc(LL) ~ 86.20 V [Section 6.4]

Zav = + 1.89V I - 1.89 V [Section 6.3]

Therefore, in accordance with Section 2.9, the calculated allowable value is AV(UL) s SPc + IZav-1 [upper limit]

AV(UL) s 90.49 v +1.89 v AV(UL) s 92.38 v AV(LL) ~ SPc - IZav+I [lower limit]

AV(LL)  ::!: 86.20 v- 1.89 v AV(LL)  ::!: 84.31 v 6.6 Expanded Tolerances The values for the parameters of interest associated with expanded tolerances are Zav = + 1.89 VI - 1.89 V {Section 6. 3]

ST = +/- 1.7 [Section 4.4}

The following equation will be used to calculate the expanded tolerance. The Zav value used to calculate the allowable value (AV) will also be the Zav value used to calculate the expanded tolerance (ET).

ET =+/- [O. 7 * (IZavj - ST) + ST]

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 18 of 20 I ET(UL)= + (0.7 * (IZavl -ST)+ sn [upper limit]

ET(UL)= + (0.7 * (1.89-1.7) + 1.7) V ET(UL)= + 1.83 V ET(LL}= - [O. 7 * (IZavl - ST} + ST] [lower limit]

ET(LL}= -[0.7 * (1.89-1.7) + 1.7] V ET(LL)= - 1.83 V The selected expanded tolerance is now checked to ensure that the applicable limits are not violated.

Check 1: ET  :::: ST?

ET(UL)  :::: ST

+ 1.83 v  :::: + 1.7 v Pass ET s ST?

ST(LL) s ST

- 1.83 v s -1.7 v Pass Check2: SPf +ET s AV? [upper limit]

SPf + ET(UL} = 88.35 v + 1.83 v SPf + ET(UL} = 90.18 v AV(UL) = 92.38 v Pass SPf- ET 2: AV? [lower limit]

SPf - ET(LL) = 88.35V + (-1.83 V)

SPf - ET(LL) = 86.52 AV(LL} = . 84.31 Pass

6. 7 Relay Reset Time Before the reset time can be read from the time-voltage characteristic curve, the reset voltage value as a.percent of tap value is required. The tap setting is 93 V (Section 6.4). The rated voltage of the 4kV bus is 4160V (Ref. 5.5.4). From Assumption 3.1, the voltage reset value will be 105% of the bus rated voltage.

Lastly, the PT ratio is 4200-120 V {Section 4.2). Thus, the reset voltage value as a percent of tap value can be calculated as follows:

% of tap value = 4160V

• 1.05 (120/4200} * (1/93 V)

• 100%

= 134%

The undervoltage setting as a % of overvoltage tap setting is 95% {Section 6.4)

Using the above two pieces of information and the time-voltage characteristic curve from the vendor data (Ref. 5. 7.2), a relay reset time of 1.35 seconds is derived.

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 19 of 20 I 7.0

SUMMARY

AND CONCLUSIONS The results summarized below are applicable for normal and accident operating conditions. This calculation revises the setting tolerances for the loss of voltage relays.

7.1 Calculated Values Summary Calculated Setpoint: ~ 86.20 V and s 90.49 V

3017 Vand s 3167 V Allowable Value

~ 84.31 V and s 92.38 V

2951Vands3233 V Analytical Limit

~ 83.95 V and s 92. 74 V

~ 2938 V and s 3246 V Relay Reset Time = 1. 35 seconds 7.2 Calibration Summary The calibration information used to support the results of this calculation is defined below. In addition, the field calibration setpoint and expanded tolerances are identified.

Calibration Setpoint I Allowable Value:

EPN Parameter Process Units 1(2)-6703*1 (2)3-127-1 Recommended Field 88.35 v 1(2)-6703-1 (2)3-127-2 Calibration Setpoint 1(2)-6704-1 (2)4-127-1 Allowable Value ~ 84.31 V and 1(2)-6704-1 (2)4-127-2 S92.38 V Analytical Limit ~83.95 V and s 92.74 v Calibration Frequency, Setting Tolerances, and Expanded Tolerances:

Surveillance Setting Expanded Interval Tolerance Tolerance Channel Calibration 24 months +/- 1.7 v +/- 1.83 v

I Analysis No. QDC-6700-E-0939 Revision 001 PAGE 20 of 20 I 7.3 Acceptance Criteria The acceptance criteria (Section 2.12) for this calculation is such that the field calibration setpoints (SPf) associated with the subject instrument loop is set such that it is bounded by the calculated setpoint (SPc). The new recommended field calibrated setpoint (SPf) is bounded by the calculated setpoint (SPc), and therefore, does meet the acceptance criteria.

There are no acceptance criteria for the allowable value determination or for the relay reset time. The relay reset time is provided for information only.

The expanded tolerances are determined in accordance with Section 2.1 O and are acceptable if the result is greater than or equal to the applicable setting tolerance and do not result in a violation of an applicable limit. The expanded tolerances (upper and lower) were calculated using the setpoint tolerance of 1.7 V. The expanded tolerances passed both acceptance tests. These values are reflected in the table in Section 7.2 and are acceptable.

7.4 Required Actions Implement the revised relay field calibration setpoint.

8.0 ATTACHMENTS Attachment A: General Electric Protection and Control Catalog, Catalog GEZ-7723A, Pages 11-3 to 11-6 Attachment B: General Electric Instructions for Voltage Relay Type IAV69A & IAV69B, GEl-908100 Attachment C: Passport Data - LOV Relay Settings

Calculation QDC-6700-E-0939 Revision 1 Attachment A Page A. I

Calculation QOC-6700-E-0939 Revision 1 BEST Attachment A COPY AVAILABLE Page AZ.

IAV Time Delay Voltage Relays GE Ptotectlve Relays DESCRIPTION For protection against overvohal!c in a three-phase system, use the IA V5 IA relay The Type JAV relays arc single phase (Fig. 2). For ins1anteneous pro1ec1ion as induction disk r~lays designed 10 respond, well as time delay, use the IA V7 ID.

with 1ime delay, 10 either en increasing or a decreasing voltage, or both. Some models arc frequency compensated, and some in* For lhc deteclion of [!rounds on un-elude an instenlancous unit (hinlled anna* grounded three*phasc sysiems, 1wo methods lure type). Mos1 models listed in the are in general use. One measures lhe zero Selection Guide include a largct seal-in unit sequence: po1en1ial (Fig. 4), end the other on ell contacts. measures the aclUal vollage bel ween 1he sys*

&em neulral and ground (Fig. 6).

The basic mechanism or ail inodels is en induction-disk unit with eilhcr a tapped coil For 1he circuil or Figure 4, use Type or a tapped resistor for selling pickup. IAV5JD, a low pickup reley which has its

[In !he overvohage models, the relay is opere1ing circuil tuned to the rated frequen*

calibrated on increasing voltage to close lhe cy. The poten1ial 1ransformers used in this circuit are connected grounded-'V primary, (Phata 80*32181 normally open contact at Lap setting. The Fig. I, Typ* IAV71A time dial adjusts the angle through which broken- delta secondary. The primaries should have ratings equal to the line*lo-line overvoltoge r*loy rhe disk rotates end, hence, the time delay.) (out of case) vohagc: of the system, end the secondaries In the undervoltegc models, the rtlay is can have ratings or ei1hi:r 67 or 115 volts. iliary relay. The shon-time raling ror both calibrated on decreasing voltage to close the JAV51D and 1AV51K i& 360 vollS ror 10 normally closed contact at tap selling. The Select a relay model wilh a continuous seconds.

rime dial adjusts the angle through which raling or lhree limes the potcnli.al lranS* The JA V5 IM relay may be us.id for a 1he disk rotates al voltages above tap M:lling. former secondary voltage. This is necessary ddinile time delay and the lime is adjustable because, when a ground occurs, the zero from J 10 30 seconds by means of a-time dial.

In 1he combined overvoltage and under* sequence voltage may be up 10 1hree times Operaling lime is defined as the time to voltage models, the relay is calibraled on lhe normal transformer secondary voltage. close lhe coniacts wilh voltage suddenly mcrc:asing voltages 10 close the normally Thus, with a potential 1ransrormcr second* raised from zero to lhc rated value.

orcn contacts al tap selling and on decrees* ary rated 67 volts, use a 199-volt relay coil.

mg voltages 10 close the normally closed For ground fault protection of ac rOlaling cnnte~ at various P,Crccntages of tap seJ- machines, use a circuit similar to that shown

• UNDERVOL1AGE RELAYS 1ing. in Figure 6 applying Type JAV5JD *or for simple undervoltage prolection, se.

IA VS 1K relays. These arc low-pickup lcct the IA V relay according to 1he time For the undervoltagc and combined Un* relays whose coil circuits arc 1uned by volcagc characteristic required.

dcrvoltegc end overvoltage relays, the two capeci1ors 10 their ra1ed frequencies. The rnnnecting plug 52 CBSe is used to prevent circuits are 1hus rendered only one-eighth as In .a typical au1omatic-preferred emer*

Msc tripping when the relay is removed or scnsi1ive to lhe third harmonic as they are to gency lhrowovcr scheme, the undervoltage icrilaced. Either plug completes the coil cir* the rated frequency. co111ac1s of the IA V54E relay ere used to

• • uil and thus opens lhc normally closed uip the circuit breaker in 1he normal source rnntact used with undervolcagc operation. circuit, and lhc aulliliary switch (52b) of this lln1h plugs an needed 10 complete the con* Jn Figure 6, a dis1ribu1ion "iransfonni:r is nonnal source breaker permits the voltage

* **cl circuits. connected between the machine neutral or closing contacts of an IAV51A relay in chc the generator and ground. Normally there is emergency source to close its circuit break-

"* APPLICATION no voltage on lhe 1ransformer but during a er.

'~* OVIRYOL TAGE RELA Y5 fault, there is a voltage wilh a worst-case Type IA V ovcrvohage relays arc used for magnitude equal to the phase-to-ground

• . flrntection against simple ovcrvollage, bul value. COMBINED UNDERYOLTAGE

1

.-olher applications arc also common. They AND OVERYOLTAGE RELAYS i-:*llr applied to ground detcclion, both on Greaier sensitivily can be obtained by Types JA V5), IA V69, IAV70, end

":jiftrders and on ac generators, and lhey arc choosing a disuibulion transformer with IA V73 relays are time-delay, over- and un-

• -*bn used in timed swilching arrangements, higher secondary voltage. In such a case, the dervollage relays having two contaclS, one l,.**herc 1heir dependability and accuracy relay will nol carry the fault voltage con* of which closes on ovcrvohagc and the other

':111ah them preferable lo purely mechanical tinuously, and provision musl be made to on. undcrvoltagc.

~ 1111ing relays. de-energize the operating coil using an aux*

REHRENCH:

Dimensions ...*.....*.**..** Section 16 Calculation QDC-6700-E-0939 How to Order **.....**.*..** Section I Revision 1 Instruction Books .*....*..*.* Section 17 Target and Con1ac1 Data ..*.... Section 16 Attachment A Relay Standards ........*..... Section 16 Page A3 Votlage and Frequency Relay&

- subject ro lilBnf1B wflllOUt nOlice

IAV Time Delay Voltage Relays BE Protect/1111 Relays FREQUENCY COMPENSATION minimum and mBllimum laps shown in the The combined under* and overvohagr The following Type IAV n:la)'5 are fre* list below, the following intermediate taps relays are made both with and without timr-quency compensated: are available: delay adjustment. *Models IA V.53, -69, and Overvoltagc relays-JA V71, JAV72 .73 have time delays which are functions nf Undervoltage relays-JAV74A the setting of the undc:rvoltagc contacts.

Tap Range Taps Available Model JAV70 has a time dial which ~nni1s Undervoltage and Overvoltage relays-JA V73A, JAV73B 5.4*20 5.4, 7.5, I 2.5, 20 adjustment *or time delay independently or 10-40 JO, IS, 25, 40 the voltage se11ings.

These relays have unifonn characleristics 16-64 I6, 24, 40, 64 over a frequency range or 30.90 Henz. A 28-112 28, 42, 70, 112 TRIPPING CIRCUITS AND lypical applice1ion is on sysiems supplied by 5.5-140 5.5, 64, 70, 82, 93, 105, CONTACT RA TINGS hydro-genera1ors, where lhe frequency 120, 140 lends to increase when faults occur. Fre- The current carrying rating of the-con*

110.280 110, 128, 140, 164, 186, quency compensation is provided by an R*C lact circuit is de1ermined by whether the

. 210, 240. 280 relay has a seal*!n unit and.by the lap usw circui1 acro~s the wound shadinl! coils oflhe 220.560 220, 256, i8o, 328, 372, induc1ion disk operating coil and core unit. on the seal-in coil. Without a seal*in uni1 420, 480, 560 . rhe relay contacts will clo5e and cany JO CHARACTERISTICS amperes for tripping duty and 2 amperes Type IAV relays will conlinuously wi1h- The ovcrvohal!t relays and lhe under* con1inuously al control voltages of 250 s1and rated voltage on all taps, and lap voll* vollagc relays arc provided with 1ime dials volls de or less. Refer to Section 16 for date age on all taps above rated voltage. For lhe for adjuslmenl or lime delay. on 1arse1 se.al-in units.

SELECTION GUIDE-Type IAV Rated Tap Range G1111rol Volta Mod*I Nunob.ro Cow Apprao Wt, lb tkg) 011crlpllen Volta Can1acl1 _ _ 60,,...,.,.H1_rl_1-.....---.50~H1-rti--1 Slao Ac Min Moo Ntt 51\lp OVERVOL1AGI (DEVICE No. 59)

Gene<al du'1, o.-.naltag1 and control 115 5.5 140 121AV51A lA 121,lY5IA4il 1..i1chhlg. Tinw delop 1 ro 10 208 10 140 1.N.Q, A7A A9A Mtcndt al 1.6 llmt1 230 110 780 0.212 lap Hfting, SolM a1 IAY51A 460 11.5 220 5.5

~

IAO 121AV.52A1A A2A A)jl A11A 121AY57A4A 51 12 (5.4) 1.5 (6.8) ncept 2*N.O. Contacb 199 70 140 0.2/2 2*N.0. A7A A9A Motllfl Seat.In. 230 110 280 C1l A2A low Plc*-vp "'"

n.sa>

1y1teM1 Cll1ll on

""::1.1. Time 5'"'"'

~ dotecllofi .., 3-plias*

1talar 0,7.5 10 7..5 1990>

3450>

.u 10 16 28 40 6o4 112 1.N.O.

121AV.5102A OJA D9A 121AV51D.5,l IMA DIOA 51 12

......, 15 C6.BI

.:.~°!.,.N.o~fo ;g~

1 67Q) 20 0.2/2 121AV.511C1A 121AY.511C2A 51121 13 16

'4 1'-9) (7.3)

S..- 01 IAV.510 or IAV51l eoc.pt 19'11V 16 64 2*N.O. 121,lV.52D1A ...... Sl 12(.5.4) UCO.Ill 2N.o.c ...- 67111 .5.4 20 121ilV57KJA 121AV.521C2A SI~ 13 16 IUI 17.31 Timing AppRcotlon1 S!np dmAt dote1 with litM. !lftcrr.

Jblid .,;dup .o11ogo. Tlmt 3 IO JO -.....ts al roted

• "'7*

waits.

11.5 208 230

.5.5 100 110 0.212 l*N.0, 121AV.51MIA M4il M3A 121AVS1M2A SI 12 15.4) 15 16.&)

f19qwllK)' Co111penaotH Jnqw;:t Mnalrr.. oppl'1talil>ft1. Olhttwbe 11.5 .5.5 140 121AV71A1A 12l,lV7lj\3A

- a1 AV51A COll!peftlGIM 30.90 Her!1 .. 1 frtq:::."!t ,_,..., ..."", ln1hmtcnw0Vs """

oddld, a ao lniquency *-i-naoted1 lor hydro llll 55 140 l*N,0. l21AV7112AG> 121AY71113°AQI 0-"""""' .,..,.o11og1 geM11110r appGcatioll11 pMral dulJ lot Ill p1otectlOll aiid rolrago 230 230 110 110 280 280 BSA:GI 86"@

rogulcsrar bac*up. I to 10 MCand lirnt de"'1. 13 16 0.212 51 17.31 5111111at lo IAV71A 11.5 140 ...... 15.91 HClpl 2 N.O. COftfOc!~

Shnlla7 lo IAY72A 115

.5.5 140 121AV72A lA 121AV7281A~ 121AV72UAQI Heep! Include* i111t.

uni! With 1 N.O. Contcct 230 110 280 2*N.O.

...... 83AQ)

~i~..:~~t~~~.t>.lt'~n~~*.':"' ......

11.5

<D IAVSID, SIK, 520, and 52K-10 Second Rating at 360 volis.

" 140 121AV720AQI Cl> Includes t:lltemal capacitor.

Ql lnsl. unit adjustable 120-200 vollS.

©Inst. unil adjusiablt: 180-300 volts. Calculation QDC-6700-E-0939 Revision 1 Attachment A -~

Page A+

Voltage and Frequency Relays Page 11-4

IAV Time Delay Voltage Relays GE Protective Relays

!\ELECTION GUIDE-Type IAV

.' lap R0ngw Ganr1ot Rated Vol11 lore** Model Number ca.. Applaa WI, lb (lgj Or1criprion Valt1 5eo~ Conroct* 5111 Ac Min Moa in 60 H1r11 .50 Htrll Net Ship UNDIRYOllAGl (Device No. 27)

... 5 SH Time Otlo7 DI JtrO vclh 67 115 32 5S BO l.tO 121AY5*El.tA llA 121,.v~:.i:.;.

II ,., on No. 10 10 208 110 280 El3A .. *i:~A I

Time Rans* I lo 13 m al 80°.li of lap.

230

• eo IU 1J.O 220.

280

.560 uo E2A E3A E6A 30 Sec limt Deloy .55 12tAV.5AflA uro 230 110 280 0.712 '2A 121Av~4F4i.

GI ii Ill on No. 10 ID t'OOJ

• 60 220 *60 f3A ......

!~ z~~! !:11~ ~:*~o. I 0 lD 115 .5.5 l*O 560 I N.C. 121AV.54HIA ......

• 60 220 H2A ****** 52 12 16

~amt 01 IAV5*E 115 230.

.55 1*0 121AV.5.eJIA ...... (5.*) (7.3) oupl f)O Stat.in 110 280 Nont J2A

.*6!>. 220 .560 J3A "'"v~:.j*i.

SSec Tim* Ooloy 115 230 55 1.tO 121,.V55CIA 121AV55C4A

• oM at IAV54f 110 280 C2A C5A oarcpl :1 N.C. *60 220 560 C3A C~A

So Sec n..,. Deloy 11.5 230

.55 110 1.tO 280 0.2/2 2N,C. 121AV55f IA

'2A 11.5 75 Sea Timt Otloy 55 140 121.IW55HIA ******

freque"cy Compe111oled 5 S.1 Tlmt Delay a1 1<10 *Offt 115 Q.2/2 I N.C. S2 13 17

~? No. 10 TOS. Camprn.011d 30.!IO H1 IUJ (7.71 OVIA- AND UNDllYOl1AGI CDevlce No. 27159)

,. (#1 r1erol dvty. elOC'ltkoRy iapo1011 ltllft*

II'"" ta191t MOMn vn\I wrio1 115 55 l*O 121AV53KIA 121AY53K4A

~... IQ(

wl lh 1ach contact; UY adju>toble ham 50 230 110 280 0.212 K2A K5A IQ Q511!> al ov top Mttlng. lim* dolay I. I ** cl 1aro vohi: O.* MC.. 460 220 560 (2) 13A KllA qi 2

• 1op. ,.n1ng.

Au 1omolic ,o,,tro11chrmtt; aam1 01 IAVJJK 115 . 55 140 121AV53llA 121AV531AA t*P* rargtl 1.ot-in urUt1 ~# omftrtd 230 llO 280 l2A 1.JA

't;

• 60 220 560 None l3A ......

~illMlor

• ID IAV53K *><':f.I lorgel 11) 55 lAO l N,(. 121AV53N1A ...... S2 13 17

• .:. ~in unlit "" ........

• li.... dolat

o. S 1e1, Of lltO *otJI.

• 60 220 560 I N.O. N3A

• • • • • • 15.9) 17.7) i*

...."""' *ol:~

tom;

• lnltll:U'.V

,...,,,_*-left betwftft

• i:t:: lndtplftdenl of UY ob>>h...,e0ta95~

120 55 140 0.212 ....

121AY69AIA 121AY69A3A ordjvil cd OY lap 0 target and

'"'let with eoc <DlllllCI. , *

...,a.in unit 208 llO tio 280 (2) 240 280 A2A

'""'alic control W..met1 "'"" 01 '" V69A 120 55 1*0 121AV698lA 121AV6983A Hpl targ1I ,.aJ,;n wiill are otnin9d 2*0 110 280 NOM 82A

....*~.ral dutrs roc111 UUNMlft

.. ning fi"d lQ"""';o" bttwttll ul OV la~ ullinvr 1or111t eol-in uoit In r., 95% at - 120 2*0 110 55 140 280 0:212 (2) 121AV70A1A A2A

......1ita wit .act. conlact1 cufiu11abM rUM lap 30 aocondt _,., on ,..,..._ loat al Y*

1amalic cc"'tr11f Kho""1; iam* 01 IAV70A

• ~111 rorget MDMn ~** 011 Ollli11ftf 120 240 110 55 140 280 N-121AV70BIA B2A l21AV1083A

...... I frequency Compen1oted

....qveMY ...

1 ..

neral du~1 ..,_ iAV531t ""P' Ds

-nlGl.d. 30.90 H1 0.212 121 I H.C. 121AV73,.1A ......

.......*I'!.;;...,,ic 115 13 17 conrrol 1ehtm111 1om* OJ IAV53L fr*qu*ncr Caniptn101od. 30.\IO H1 55

° Nont 1 N.O.

l21A\17381A ******

S2 15.\1) (:1.7)

'~*

Calculation QDC-6700-E-0939 Revision 1 Attachment A Page AS Voltage and Frequency Relays 1'~

." 1111111 SI~ /ti r.lurnma wif/vurl ""'""'

IAV *:-\'~

\~J.~:.

• • ~~::****.

Time Delay Voltage Relays Calculation QDC-6700-E-0939 t~=

• Revision 1 l>

0:*:* I SE. Protective Relays DIAGRAMS AND CHARACTERISTICS Attachment A Page ACs, aF' Af..p/ tit-JAL r ~

5011\\\-+f-+:1-.1.-L~..._.........,u...J._.__H

---

.~~A_c;....;;;b_u_a_________ 1 D 45

--~~----------------2 40ttt\lt++T;.;;:.~~;.;;..;;.~~+-I 1*

Generator

' I .

Flp. 3. Typlcat Tim,* Vollag* cur,,.

Fig. 2. Typical 0111lernal for Type IAV51A 101 Type1 IAV51A, 71 and 72 u*ecl tor ov*rvolloge prol..llan. 8

~---.--~A~c~b~ua=-~--..---~I .I 7

~ ......-+--~......~t--~-2 ,\

-....+-+--_..;-+-t---- 3 .. 6

'a

\,

c:

8 5 \ \.'...

.: 4 \.

"' ~-

I'

~

--~

r--

,.... 10

,_ 9 E3 -

i=

2 ~"

~- 78 Time 56 H111nt dial

-"""""" 34

,2 OO 200 400 600 800 IOOOl2001.ia> la:JC)

Per cent at top value Gene rotor I . . .-.. . .

fig. 5. Typlcal Tl*H Voltage curv*

C*lr far Type1 IAV51D and 511C Fig. 4. Typlcoi ealornol for ground fault p1oteclian 3ph. .~*

Ungrounded 1y1tem Type IAV51D when wlla9e is red11ced~.d*

I I Acb., . 6 to the

r. . . . . . . -.

indicated value from left r.~

I 4 I *I contact pickup wllave or above

~

5~~

L-------.J 2 iii pi .

59 2

- I/

j

. I j

when votlag1 Is auddenlJ lncreased*from zero to Hit

~ ~* Indicated pickup mulllple I~ I" -1AY~IK..-, , 8 ""' ' I I I I I

~ I. Q,591 T~p I

r~ .L~ olorm 6

I I

\ '

'\.

'\.

OA,

~gs closure RIR"'

cun act 86 a

,15*~

________ Tc'JI l-J4 r ~-., 'When used

~ba l for alarm 4

2--

0

-- ~

" ... \I'

!ett

~=

II 1~-

... ..._ ..... ~

i...-

1~

70 (In 'fo Of lett contact pickup) 0 20 40 EiO 80 100 1?0 140 IEiO ISO 200 2?0 240260 D~_._j

• Per cent ot tap valut Iranaformer Fig. 7, Typlcnl Time Vallage curv*

Fig. 6*.Typical e*temal for ground fault fo11ypn* IAV53K, 53L, 73A Dnd 731 p1alHllon of on oc retollng machine Type IAV51D or 511<

Voltage and Frequency Relays Page11~ Data subjed lo change willrOUI nolice

INSTRUCTIONS GEI-908100 VOLTAGE RELAY TYPE IAV69A and IAV69B GENERAL fj ELECTRIC Calculation QDC-6700-E-0939 Revision 1 Attachment B Page .f) i

GEI-90810 Voltage Relay Type IAV69A And B

• TAP BLOCIC TOP PIVOT TAP PLUG TIME DIAL OVERVO..'TAGE TARGET ANO STATIONARY UNDER*

VOLTAGE CONTACT ASN SEAL* IN S1lTIONARY ovt:R*

VOL.TAG£ CONtllCT ASM UN)ERYOLTAGE WIG£T 6 SEAL*IN

~~~;~~i= aMAIH CARRIER MOVING CONTACT SPRING ADJUSTING RING DRAG MAGNET Fig. l (8o31861) Front Viev of Relay Type IAv69A 'Withdravn From Case.

DISK JIHD SHAFT LOWER JEW Et SCREW Fig. l.A (8031862)' :Back View of Relay Type IAV69A 'W1th4ravn From Case.

Calculation QOC-6700-E-0939 Revision 1 Attachment B Page 52-

Calculation QDC-6700-E-0939 VOLTAGE RELAY Revision 1 Attachment 8 TYPE IAV69A & B Page f>3 DESGR'IPTJON When not limited by the target and seal-In unlt, the contacts of the lA V69 relay will continuously The lA V69 relay la a time delay undervoltage carry and Interrupt 0,3 non-tnducttve amps at 125 and overvoltage relay destgned to be used wherever volts DC and 0.15 non-lnducttve amperes at 260 protection agalnst an abnormal voltage condtuon ts volts DC, required. The relay consists of an tnductlon dlsk operating element whlch closes lts left hand con-tacts when the voltage lncreaees to a predetermined TABLE "A" value and tts right hand contacts when the voltages decreased to another predetermined value. The TARGET AND SEAL-IN UNlT undervoltage adjustment ts independent of the over*

voltage setttng. A ttJDe dial ls provided to permlt 2AMP TAP 0.2 AMP TAP easy adJustment of the operating Ume or the under-voltale setting which are interdependent. The DC Resistance 0.13 Ohms '1 Ohm&

lAV8 A relay has two target and seal-ln devices, as indicated ln Flg, 2, while the lA V69B relay has Minlmum Operating 2.0 Amps 0.2 Amps none; otherwtse these two models are tdentlcal. Carry Conttnuously 3.0 Amps 0.30Amps The 1AV69 relay components are housed in an 82 dO\lble ended case wtth each conlact connected Carry 30 Amps For 4 Secs.

between the upper and lower blocks whlle the op- Carry 10 Amps For 30 secs. 0.2 Secs.

eratlng coll ls connected to both blocks. Thts permits the connection plugs to be removed or lnserled with the operating coll always energized before the contacts are cormected into their ctr- CHARACTERlSTlCS cutta. The normally open and normally closed contacts have a common potnt due to the use of a Operating Prtnctplea stngle control spring. The number of rela1s re-quired to protect a circuit ls determined bJ the The lnductton disk operating unlt conslsts of appllcatton. an aluminum disk whtch rotates between the pole faces of an electromagnet usually called a U-magnet.

The operating coll produces the U-magnet's nu APPLlCA TlON wbtcb tends to rotate the disk with a force pro-portional to the connected voltage. The disk ts These relays are used for protection and/or restralned by a spiral sprlng whose aetttng deter-control of a-c clrcutta in response to over and mlnea the relay pick up. The disk's motton ts undenoltage condlttons. A typtcal wiring dlagram restrained by a permanent magnet drag magnet whose ts shown in Ftg. '1. restraint Is proportional to the disk speed. The disk ta fastened to a shaft to which lhe contacts are connected. The time delay ts adjusted by RATlNG changing the distance the disk must travel to close lts contacts and the tlme-voltage relay character-The IAV89 relays covered by these lnstructtons lstlcs are shown In Ftg. 4. Adjustment of lhe tlme are avallable with 120 and 240 volt operating co\ls

• delay ts made by rotating the time dial upon whtcb 50 or 80 cycles. The relay pickup and drop01Jt can the normally closed voltage stattonary contact ts be adJusted tC) operate between 45 and 115 percent mounted, Ftg. 4A shows tile percent of tap value to of rated voltage. The coll will stand rated voltage close the undervoltage contact at the dWerent ttme continuously on any tap and tap voltage on tape above dial settings. The overvoltage contact ts calibrated rated voltage. to close at tap value and Its adJust.ment le independent of the Wldervoltage adjustmenL The normally closed The current closing ratlng of the contacts ts undervoltage contact can be adjusted to close from 30 amperes at 250 volts or below, The current 80 to 90% of tap voltage by varying the dial setting.

carrying rating of the contacts ts ltmlted by the When operatlng coll voltage ta between pickup and target and seal-in unit where used as lndtcated ID dropout values both con~cts are open.

Table A. .

These JnstrucrJons do not purpart to col'llr oll detoiJs or varJatJans Jn equJ,PlllSnt nor to provJde for el/Ory possible contJn11enc:y to be met Jn connection 11Jr:h JnstaJlotlan, operation or mlllntsnanco, Should further Jnfor11111tJan be desired or should*porticulor problems arise "'hlch are not covered sullJcJentlll for the purchoser*a pu1poses, tho matter should be referred to r:he General E'JectrJc COlllPOllll*

To the e1tent rr1<1uired the prod11ets dsscrSbad herein moet appJicoble ANSZ, ZEBE amt NEIUI standards/

but no such assuranca Js given wJth respttct to local codes and ordJnances because the11 vazy graatJy.

3

GEl-90810 Voltage Relay Type IAV89A AND 8 I 16 Ix 20 I.

20 SI l I.

TT "

2

~

IC_,

~8 OVlAYOLTAOE OV!AVOLTAOi ONDlRVOL TAOi ILEFTI S1 ILIFTl IAIOMTI

.1 8

• '"SHOAT FINGER *"SHOAT FINGER

0165A7570*l) Inte

'llel CoMectionu For F1g. 3 (0.\65A1559-l l lntemel CoMectione For Rel11,3* fype IAV69A (Front V1ev) Relay 'l'ypt> IAv69B (Fror.t Viev)

I Burden completes the electrical connections between the case block and the cradle block. To test the relay The burden imposed on a potential transformer tn Us case this connection blc:-ck can be replaced by a 120 voll 1AV89 relay operating at rated voltage by a test plug. The cover, wbtch ts attached to and frequency ts gtven in Table B. Burdens are the front of the relay case{ contains the target reset eesenttally the same for the 240 volt relay *. mechanism and an Inter ock arm which prevents the eover from being replaced until the connect\on TABLE "B" plugs have been lneeryed, TAP 60 CYCLE 50 CYCLE The relay case* ts suitable for either semt-VU.Ii.I. VULol' flueh or surface mounting on all panels up to 2 RATING WATrS AMP. WATTS AMP. Inches thick and appropriate hardware is available.

However, panel thickness must be Indicated on the 55 11.l 28.9 7.3 22.0 relay order to Insure that proper hardware wW be 64 7.3 20.1 5.3 16.0 Included.

70 5.8 16,8 4.2 13. l Every clrcult tn the drawout case has an auxt-82 3.9 12.2 2.9 9.3 ltary brush as shown In Flg. 5 to provide adequate 93 2.9 9,4 2.2 7.2 overlap when the connecting plug ts withdrawn or 105 2.1 7.2 1.6 5.6 lnserled. It ta important that the auxtltary brush 120 1.6 5.3 1.2 4.3 makes contact ae tndtcated tn Fig. 5 with adequate 140 1.3 4.0 0.9 3.1 pressure.

CONSTRUCTION RECElVlNG, HANDLING AND STORAGE The components of the lAV69 relay are mounted These relays when not* included as part of a tn a S2 case whose outline and drlllingplan ts shown control panel, wni be shipped in cartons designed ln Flg. 8. to protect them against damage. Immediately upon receipt of a relayJ examine It for any damage sus-The relay components are mou11ted ln a cradle tained tn transit. lf injury or damage resulting assembly which ts latched tnto a drawout case when from rough handling ts evident, me a damage clahn

~he relay ls in operation but tt can be eastly re- al once wtth the transportation company and prompt-moved w.hen desired. To do this, the relay ts nret ly notify the nearest General Electric Apparatus disconnected by removing the connection plug which Sales Office.

4 Calculation QDCa6700-E-0939 Revision 1 Attachment B Page 5't

BEST COPY AVAJlABLE Voltage Relay Type lAV69A And B GEI*90810

~!~ ~ .RIGHT. UNDERVOLTAGE CONTACT. CLOsuiii ..

0 0

~ ~.

...... ..... . **-t-** .... ,:.**1

, ..:1 ;15: it:! *i~ * ~:u*r~;;_;G:

• §ii;l.t; IN I OF TAP VALU[

- *.. ~ ;*J f.t: t!* :m+/- i;t 1: *** .: tI

• ** *** ., .1.:.J *: -.* ,..... rl ~i"I ~:t f.;;-1. . .:.foH1 ;J* rtH l:!j ** 'L~L... 1:u-:: .:-::

...,_ -* .....-. .,_ ...-tit_., ****

.. *,, ..  :*:*r

~~.:.

t.~ 14 ..... ... *~

• T-

~ L:1 TllJE TO CLOSE RICllT UN0£RvoLTAGE CONTACTS l~EN VOLT AGE IS SUOOENLY t:_j

~=.: t.::.i r:-;

Ir: . - ... ,., . *

• REDUCED F'ROM RATED VOLTS TO INDICATED -*

• ~

-* - 60i - 'j-PEP.CENT OF TAP VALUE

.~.

t:..:.::

~ 12 EH+/-f+/-! .. ~...-µ;;;;;i;*:;i*

. r.. ...- . t ~

. '.......J!l" T1 **,......,...

'"~7-ff!;*  ;,;.M'(T'" '""""t I~~~= i~ .l::: ~::: :* .u:-~ *;.rl .rti.

... :..: . : .!~:; *!:I!" . 70Z , T II.IE VOLTAG~~:~n:t:~-11~£*~~'.:-'~~

,.:*.:.:.; L!.M~ ;*f,~J ... ' I

!.IODE:L 121 A\1699(-1 A P'! -1.. *.

t.\.W.~'*'i**'J* .*fl~.tt*~~:t:J.~~::.~.;.:E-.;.i:.~~.:

~

.**** .,.. i:::** - -

• t

[~;:; *~;

11***--

. . ..:.J 11.t" L!2 1"' - .; -*-

• 4

• • • Ll!::s *. ;~~t.:1 ... . ._, _. . . . . * "'~*

-* T~*~~O~~*"~;;~ERVOLT~E ~

!.:-'..::  ::::: 80'-

'tl * ~'l - r ! I *

'Z r""'* ...... * * *- _.

• ~ ...,. TlllE 8 ~:~ *U:i t:*:; ":f.!7  ::-:i  ::i+.:' CONTACTS WHEN VOLTAGE rs SUDDENLY ~

. ~ .:6. ~=* j:!l : ** ~ '-*

z1.. ~ r.!:!~::*!!:.;

h"' .....

.. INCRtASEO FllOI: ZEllO TO INOICATED PERCENT OF TAP VALUE

. - :1::*

. !~.*;~~* ;** *: ,. J }.

~:~

9M

. ., I

.~*=-=*- ......

... :- '11. ..

• 951

. - 60S}

70I SOI RIGHT UNDER- l VOLTAGE CONTACT CLOSURE IN

~

... .. -H

~

LEFT CONTACTS -*

] I:; ...

9CIS i OF CLOSED  :~* 4'J1.7 . ... 951 TAP VALUE , .

t= 0

i ... 3 0  : lSoj 200 L: -*

t ..

F1S* ?1 (Ol65A7566-2) !1'1me Voltll(!e Cha.*:.cter1At1c:s For Relay 'fype IAv69

~ ~00

~ .

J 80 a.

I.I.

0 60

...lit I-40

~

., 20 0

0 1 4 s 6* 7 t:

TIME ~IAL StTTING II * ,fo. , ,II*

Percent Of *i*ap Value 'l'o Close Right Hand Contact vs Time Diel Setting Jlelay Type IAV69B Calculation QDC-6700-E-0939 5 Revision 1 Attachment B Page 55

Calculation QDC-6700-E-0939 Revision 1 GEI-90810 Voltage Relay Type 1AV89A And B Attachment B

• Reasonable care should be exercis'ecl in UD* Page f)(o

.. packing the relay. 1f the relays are not to be in-11' stalled immediately t they should be stored tn their tONNEtTING PLUG MAIN BRUSH i ortglnal cartons tn a place that ts free from mois-ture, dust and metalltc chips. Foreign matter collected on the outside oJ the case may ftnd Its way Inside when the cover ts removed and cause .I. ..

trouble tn the operation ol the relay.

• ACCEPTANCE TEST Immediately upon receipt o( the relay, an

\nspectton and acceptance test should be made to insure that no damage has been sustained In ship-ment and that the relay calibrations have not been 'llOTE. AFTER (NGAGING AUXILIARY BRUSH, CONNECTING PLUG disturbed. fRAVELS 1/4 INCH BEFORE ENGAGING THE MAIN &RUSH ON THE TERMINAL BLOCk Visual lnspectton Check the ,nameplate stamping to Insure that the model number t rating and calibration range of the relay received agree wttb the requisition. Fis. 5 (8o2$o39) Cross Section Of Dra110ut Case Shoving Position Of Auxiliary 'Brush And Shorting liar Remove the relay from Its case and check by visual Inspection that there are no broken or cracked the pickup and dropout times agree approximately molded parts or other signs ol physical .damage, with times given ln Ftg. 4 for the settings used.

and that all screws are tight. The drag magnet Relay pickup settings between tap voltages can be should be fastened securely in posttton on its mount- made by control spring adjustment U desired by ing sheU. There must not be any metallic particles moving the spring adjusting rlng. Check that the or other foreign matter ln the air gap of either the relay operates* with one test plug removed,

• drive magnet or the drag magnet.

When testing an IAV69A relay coMect a DC Mechanical Tests source of power as shown tn Fig. ~ and check that the target seal-ln units opera.le at or beiow the tap Manually operate the relay and check that both rating used.

contacts have approxhnately 1/32 tnch wipe.

U adjustments are necessary, check the sectton

z. Rotate the time dlal to the No. '1 setting and on SERVlCING. .

check that disk rotates without btndtng or touching the drag magnet or u-magnet. PERIODIC CHECKS AND ROUTINE Operate the target seal-tn units and check that MAINTENANCE 3.

they operate without binding.

In view of the vital role of protective relays In Electrical Tests the operation of a power system tt ts Important that a periodic test program be followed. It ta recognized Connect a variable source of power al rated that the Interval between perludlc checks will vary frequency to studs 5 and 6 or 15 and 16, and check upon envlronmentt type of relay, and the user's that the relay picks up at tap value +/-5% on at least experience with periodic testing. Until the user has two taps. accumulated enough experience to select the test interval best sulled to his individual requirements nilSTALLATION PROCEDURE 1.l ts suggested that the lollowtng potnts be checked at an interval of from one to two years.

If after the acceptance tests the relay Is held In storage be(ore shipment to the Job sttet lt ls 1. Repeat the visual and mechanical Inspection recommended that the visual and mechanical in- described under section on ACCEPTANCE spection described under the section on ACCEPT- TESTS.

ANCE TESTS be repeated before Installation.

2. Repeat the electrical testa described under the Electrical Tests sectlon on INSTALLATION PROCEDURE.

The relay should be mounted in Its final Joca- 3. Check that the contacts are untarnished and tn tton U possible and should be allowed to warm up good r.ondttlon.

for 15 mtnutes wtth rated voltage coMecled to the operating coU. SERVICING CoMect the relay as shown In Fig. 6 and set the relay to pick up at the desired voltage. Set the lf tt ls found that the relay caltbratlons are

• dropout voltage at the desired value and check that out or adjustment then proceed aB follows:-

6

Voltage Relay Type IAVHA And. B GEl-90810 Set the tap plug In the 9S volt tap for the 120 be in both taps at the same time as pickup for volt relay or 188 volt tap tor the 240 volt relay. d-c will be the higher tap value and a-c plclt Set the ttme dial at zero and check that the up wlll be Increased.

• relay plcka up at tap voltage 1"5 percent.

Rotate the control spring adjuster untll correct 4. For cleaning ftne silver contacts a fiexlble pick up Is obtained. burnishing tool should be used. This consists of an etched roughened strip of flexible metal

2. The relay operattng time can be adjusted by resembling a surerttne Ille whtch remove&

moving the drag magnet on its mounting aheU corroded niaterta quickly without scratchtng In towards the back of the case to decreaae the the surface. The flexlblltty of the tool Insures time and out to Increase tt, Tile outer edge the cleaning o1 the actual potnta ot contact.

of the drag ttiasnet must always be at least Never use knives, files, abrasive paper or 1/8" from the edge o1 the dtak. U relay ttme cloth to clean ftne stlver contacts. A burntshtng ls out of ad)ustment by a considerable amountt tool as described above can be obtained from check for frlctlon causes such as particles tn the facto.ry.

the air gaps or cracked Jewel bearings.

3. To change target seaJ.tn tap settings, proceed RENEWAL PARTS*

as follows: ..

It ts recommended that sumctent quantttiee The tap plug ls the screw holding the right* of renewal parts be carried \n stock to enable the

• hand stationary contact of the seaHn unit. prompt replacement of any that are wornt broken or To change the lap setting, first remove the damaged.

connecting plug. *Then, take a screw from the left-hand stationary contact and place tt tn When ordering renewal partat addre88 the the desired tap. Next remove the screw from nearest Sales Offtee of the Generill EJectJ:lc Compllllf.,

the other tap, and place lt ln the left-hand specur quanttty requlred, name of the part wanted; contact. This procedure ls necessary to pre- and g\ve complete nameplate data. l! possible, vent the right-hand stationary contact from give the General Electric requlettlon number an,

• getting out of adj~stment. Screws should not whtcb the relay was furnlehed. .

/

---

1--t--'

f01PTIAI.

trQS.

M~#X r

CLCISCS *

~

n TO 1m1uui.

lllUYS Oii llDICATlllG ll(VfCl 10 F1g. 6 (Ol6SA67l4-o) Field Test connectsons For Fig. 7 (Ol6SA7639-2) 'l')'pic&l ElcteM\al Connections Relay Type IAV69 Diagram :ro:r Relay ~e 'I.AV69 Calculation QDC-6700-E-0939 Revision 1 Attachment B Page f)?

Calculation QDC*6700*E-0939 Revision 1 GEl*90810 Voltage Relay Type IA V69A And B Attachment B Page BSoF" ~8/ Ff I-JAL PANEL LOCATION <2> 5116-18 STUDS SEMI-FLUSH SURFACE roR SURrACE MTG .

.,._G.625 I

l68MM

~MTG. ~I

,- t58~8~*

00000 9 875 20 i a 16 14 12 250MM 1 0.312 (4) 10-32 x 3/8 STUD 2 61MM MTG. SCR£VS NUMBERING 9 7 5 3 I GLASS 00000 f6~ "~ ~

l 1 . 125 - - I . 15 .._:..1*i---4---+----.....__- BACK v1EW I

[:=_'

114 DRILL 29MM---, . "-.187

° _1_9MM 3. 0 CUTOUTS.MAY REPLAC(

4 HOLES 157MM 76MM ~ "DRILLED HOLES

&MM~ I 1*

I I ~ 5 4.875

l. ?S 123MM I

2.791 71MM l

.1

-<t- -

I

]

f 46MH t S.562T CUTbUT 10.000 142MM I 254MM .

I

' I I

_2.843 I-*\**

_J_ .718

---II I

l8MM

.216 - 1 72MM \.-- .cJB .500 5MH I - 5MM II 12MM 5.607 PAN(L...li I <TYPICAL>

144MM 3/4 DRILL 20 HOLES PANEL DR I LLl NG 19MM PANEL DRILLING raR SEMI-rLUSH MOUNTING fOR. SURFACE MOUNTING F'RONT V[E\I F"RONT VIE\/

CA TYP [CAL DIM .

INCHES MM F1g. B (K6l09Z72171_ Outline end Panel Or1111ng for Relay Type [AV69A alid lAV69B

• Indicates revision ISl-9/931 111001 GENERAL ELECTRIC METER ANO CONTROL BUSI HESS DEPT., MALVERN, PA 19355

Calculation QDC-6700-E-0939 ReVlslon 1 Attachment C PageC1 ofC16

'i!J TIM0030

• EQUIPMENT/COMPONENT HEADER * ( Nuc!earProduction(PN4P)]

F~~l'im~El

. un1=i9f'..:...i..-.J Op~m-j!, <<**~;**. J'

~ron-l=~~:*,,:,:~"G'.'.~...:.:::-::1

• SYll!1111P(~...::_,J:.'.] .

fllu1p11111ni..(~.:!.:~::l *'")!7"".~93'-'f-

__ ""~--3'.'"':J'""L,....;....""'~'l:.,..,\"'"l..*"""':"'-.:"""'~

"Equ"*~~:li!P:i::J' . RavTrt: Ri Eriufl).Tall"JkM~..m& ~- ;__~,,'. ~_..,;.,;,;~ ..:;.,::_1 L.:; i:7 :~,,_.;~L,',,'.~, :;'..'..;;.'.~! ..:d

'Name:(llilJ~J.B.::1:.~~.9.fo\l!l_i;~~Pf!b~giQN~~i:~,.:. " * ~~~*.,.;--.;*.,..: .. *l Lqc,=~~~~~~~~:::j~~~:.G~'~;~~~~~~:-~-~j I

Cin_ntD4 I

t I

I lft I

L. ..::::-.. 4

' I

. ~ :','..:,:o;-o-;-:.......* ~::

• I I I

., *_.r

• ::.~ :>>*j I * * '

Calculation QDC-6700-E-0939 Revision 1 Attachment C Page C2 of C16 f!J l1M0071 - EQUlPMENT/COMPONENT/UTC PARAMETERS - [ Nuclea1Production(PN4P) I

.~~;ilit:1~!1$~~-* ~iw~'if..~~~~*i@iil:

• 2;::_/ .. .......,...... .. ,"*'

~

I Enter parameter name and value data.

JI "fi:: ...

.faci!llf.~. *Unll:f!tl..:'::::::::J urc:f\...::Ll.::.~ status:li\.fil!llii~'..Jif-Dp Sya/D!YIAreo*f j} f" ' * * ,** .. ' .. ***1 l'-* .. "22) Sya/CIS:f~.:;.:. :.~L. ..,.....,.:;..-.-:,..,...*:2illJ,,..*":,..,I, .

. ~~~,~~,-,~~~;';~::'!;~~_L\_;~ Eq~Rw.(!!~ ..-

Tempmte:L~~_:...:._;:_:_:_~*_::_:.£:.:~:--~~'.~-;j

'I ~ADMNlllMrTS!* .-i.:.:~* .,*, *_ .. ; \ ;.... ~* +#.;_1.lis,/: :. _~:.:.:~ ... *! ~: ...,, .... W,;-10t.i?t200o~*}~r:.:..

. '. *: ', ~oc1f . . . :.. :.. * ." . ** N:. * :.. ... * :. . ';. 1 .. ~* '.'* If. o4hii.l2qiif!. 'B .

. -~

• ~*,  :**_*. -::*.

', ', ~ *' ,':i *. *. r*" '. **

• .*.: ** f1.i *:.'.-. . ....~........

Calculation QDC-6700-E-0939 Revision 1 Attachment C Page C3 of C16 ffJ 11M0030 *EQUIPMENT/COMPONENT HEADER* [ NudeerProduction(PN4P) J Fecll!y~~ S!atuiiM.m.i.;~.;.;.lil f:l.li!tmii.oJij +MM una.:t!i.0.JJ Opstetus:(~'i)tl}i~~ H~~.iJBMilE l9.Q:iid~

Op ~I~~ ~ Sllitull:li§s'~.L::;;;::iill *l~@gQJl:!ii Division-I::.:_;;:_: ..,::.:_:.-.._:~~.:_::_:'._,,~J*

• Area-I...,,:_ *.i::::...2~ .

Syale11Ff!!fl.l.~...::::.;* ClesPb.:.;. .._:._,~]j.

E~ment*I* '.;* -1 (6703,13' :;:,;::u ~::::::11 i:omponeni-l.!lw**=3 '"'l:i""~""~"";.""*:*-""***-.""';:_"":;--'""_:_""'.:"".~"'"*l""":""J equ~Rov:Ji:'i::r* -*-;*;11c: ~ --- 1.oca11a.-.1--1 EqulpTag.(:l§..~'!~f~Z~ ..;,.::,_:_;' ..::..:*,.~ ..... :.'... ..:A*:....:::.:,,_.,,_',,.,,~: :.-~:-.':--::.;"_:_.;. <<'.*j Neme:J!l.li$J!:1:!,_:g§~_;g.f;\(Q~~'i!i@E.f!IQL~:::_:'._:,.:...~* _".: .'.'._.:..~ .... _t.....::_::.:.2 ~:j LGc,Desq:[__~ .:c_.,;~~~- ~-:_**-~_._;,::.'.i.:-!. __ .-.:.:..:.:.:._:_-. :~ .. ~*~*-_::~ ~:- :.:.__ .:.~u:: ~ . 1.~:.:.L::.:_:.:. :-.~..: _::~_!..:_._._:J

~-~ l~*~ll.C~.-.::2.:_:...J Eq.Suli-Type;-1:*_ °""_j Cbn!D=

.~

I ********

• • I ' ' *1*

• I , I '

'I ' ~ I ' ' I I I ,

' 'I

• I * '

f q

• I * '

Calculation QDC-6700-E-0939 Revision 1 Attachment C PageC4ofC16 i!J 11M0071

• EQUIPMENT/COMPONENT/UTC PARAMETERS* [ NuclearProduction(PN4P) I

.Fac!lily:iim.C3 . un1tl~_1:;.:i:..:.:!.:.2:.J urc:I~~ J ste.tus:la~".,;.~..::l:fil dp.Syaiolv/Mo:b_:__i:._..::::_:filJ.::..:;_,..!".....:._:_,*"'_:_,_ :._.;.:_~ :Jj L*~:.::£::...'..:J Sys/Cl!.:(.~i.E:.:J 1.-_:'"',:-*~.-~"'"';*,....~"""fil

..., .... mantlSWGA'~

"""4~. * - ... ~ l"'Dl!t13':*" .. :-* *'. "" -~ i IR11i*!

~1-.~,...--J-,......~~--.. ., ...... .~; ..... ; 112l.!.2

~..-J 1* * ' ..... ..i-----:.:* *:.*

... ~L.......:'~--:-" .... ~ *ft*.

._... 1PRaY:.. loiJ1.***n

rer,.,11ite:L.:..i::.... :~:,.~,_~ *_*._; .. .....:....:::._*:...o::...::..::.i..il

. ~. . . ~* : .*' ~* ". . " -.. ,. '.:fl : ::*.:. *.:* : . *.

Calculation QDC-6700-E-0939 Revision 1 AttachmentC Page C5 of C16

'EiJ TIM0030 *EQUIPMENT/COMPONENT HEADER* [ NuclearProducticn(PN4PJ l

'~" ! ' *.**~  : . J,. ~ L /

• • ... ' . *.~ ~.

Fac!/AY"~ stama:IA,..ru,,;* * .'.."iii

... ~...~~-~ltl. l11:iNOi21foil.;

---

J~

1"" MM*

~~.:ml un1~lft::.,.:..'...~J Op Slatus:IQ~i.:#:!!i . ~ill bl!Li.~il!i 19.9;.qpiJ Op System-1:.:i.. J:::.L;J _RVStatua:[~~..fil liMMiJif.9lifTui .

Dlvisinnal::" :..:_:::::;,;_:;_~_:_:c:::;_,~ Area-f:_i'.;~_::::.:...:_:J Syate11PIJl§t~t *:.:::.:J ciua..i.:~.; .'.::..:L.]

• Equlpmani*l~J:.:J *""l~-~-...,.-,..".1'4'"".!"'":.:...:."""*

.-""".~..-*,-'"'.-,,"".'""~:......,.,.!! eompnn*nt~IR.1i!~**:*=i1""w- ... ~- 1"'": ,.,. ,.:. . .o. :" :~""..::___"":*,...."*...,.,.,.,,:.....-,:......,....,,.__.,

Equqi ~ov:l~j' *.J Rlrv Tric ~ .tocatiin.:r---1] . I EqulpT*ll"l1:!tM;1~1'i!~L .:**J* .*.::~ ".'...:': "...:::*_, __ : ;_\ L _:, . _-_*_.:, .: ..,.;.~; ... :..! '** .:~~:. *"-' *,.d Nerrm:hfigtt.f:i:!i~*Qt~Q..l~ffl!.'IJi£!!1Rl:'!.!~~~'(.:_,,* ...;,:_:;::;.'..:..C:;;_:**: ...;.1:*::.::...f:...:.:...::..:.:..;;..:.::.,'.J

~lt::.::.j;~~~~-~.~*..::*_:J CVantDO

• , o 111 I ft I  ;

f I I

• I ' I I * *

• Calculation QDC-6700-E-0939 Revision 1

'- Attachment C Page C6 of C16 t iU TIM0071- EQUIPMENT/COMPONElllT/IJTC PARAMETERS - [ NuclearProduction(PN4P) I

.P:'i'le:::;~i*j . ~#j\:g~~* ~~P.~r!!ij;..:.ne":;~1li;:.-:*~ > *:*:: .' ;. :""*'*** _,*. . .; .............,,..

• *~

.. \

~_.w.

• .~. . *l .*

i Enter parameter name anll value data.

11 1\f;~~Piiil~~~l~J:'ltJrif *.

~.

~liCIKIY:laoc*J Unltf01 ~ .,* '.J UTC:b*.;;'.~~-;~~ Stat?,:ft-.t!Mi' ; . .: :~.0-0p*Sya/Dlv/~il:C~-2: ~::!§l'L~ *1~:~.:::i::-.: _:.-:*~H:..:.::;;.! L:.....:~:~ :*.__ j. Sy&teis:JWG'....;J L..:..:. __:jl

~men~l~:L..:::J l!IJ!~1f ~2!..S~ l!U~3~.::::.il l:li1.t-:f**;. ~*-***. **~.2.:1:I EqiilpRaV:IPP.'.Li*.J TempfateJ::.*_,:::*:~~L  ;.,:-:: _:_:_,_~:.: __::_;;:!.:.:]

.. *:~*~ ~?Qim;* ., ~ . .-.* _:) **...-..~ "t* * -,* *? .... ~~~A*. . ,\: 1

• * **** ** * --:?<'.. ~ -~---: *:.. r-. '_:1:~::.

1 l'1.: -~'~- ':;_~:.*

'; > F!Jllcm)lr... -.... * ' .  :** ~ciYATIQi(QfEC¢S:<* ,* .. *.* ... " (1jEcfl.-*.. _:.,: l?Hoi1iillo~: **d-"

• " ' i MiSCe'i:IANfoiJs:r.  :* ,; *.' 'roRJlE$ri*T*2.4st~;. '*' ': :' *:* .. ' futtt* .*".'_: >: fl.i iloi:iuriiiOo'.* * ~i)~

• ' i': ?f:Ri\tp~ \* ,** . 't";.:. ,.',".* ~!~:J~i_; . : :* 1-:* . ~,.*

1 . *'* 0 ':.,,::.**:*.~.~1*:*.;;.*>**.""f1J'.1'111~i.'~

, <*r::, ~;~~'._.*:::::.~~:*.~-T~-~~*~\:t~:.::~ ;~;~:*::*e:.~=:'.'.'*'..>,r.~;~~~;:t~{ :*~

I * *** *'i~L(111STR;f1: -* t .: ' .:. **.11;1;7,</'-'1.'7,v*.-*.:* **.-.-, "",: !"*.. *:;;:~'*mer**;,.._ ... :'./ f1i 1oriliQOOii** *.-:::,:*

.... ,.~!if.... !~.:~. :*<: '.' ... :9EC...:. .. ; ..-* ;;:",' * ....,.- .:.:'*::,~,.._ *.1if00.:/"' :* . . **::-! w.; ,1tiliMalio: ~::=?

. .;* .:: **, ... *. ,;'\ '.:.:*.-* ....... ***~:'..;." rr,*.,:;- **;-...,,

• " * * *' 1 1 :i ~ , * , * .

• _. 1 p;; 0 ,." j*' '  :"I

• .; ). ;_,: .* : . .: ;

Calculation QOC-6700-E-0939 Revision 1 Attachment C PageC7ofC16 SIS TIMD030

• EQUIPMENT/COMPONENT HEADER - [ Nucl*arProduction(PN4P) I

' * ' * ** I o

• "*. * .*i .....

..?:.'* *~2*****:..i_.*.-:*'*

FaclilySj'CllC:*~* st~M!fiffe.l'.!:..:..::.:.::!fil *1111rt~~1!i M§M una~I~;:~ " ;.J

---~

Op$1atus!l~1J!L.:.{.\!j b!!/9~ilj§j l!IQ~Ll Op Sylitvmal!~J . RV stmus:ji§;iJl.E.it.:;.:5_2fil l.~i~..!iliiJ oms1un-L ~:.::* :,.:.::_::: :. ~:':..:.-="*:..: ...::".::: :J Areaal.'(.'..:._~~:..:_'.:;J

• Syateppl~:'..':.'....'..J Cla~l~::Jf.1

• Eq~me~I~~ .;..;:"'li1ID4-'1"".~.--.",...:.-~~,..,.-;""::.:._""~*""*-"".,""~*""'.*""*::.:.:-:*~! " . eoiiiponen1.f1t1Q~3 l"';ttt:""_""~,,...,~,...*-"-,..._":-""*':__.,.,.

.. ,,.._~...,.*:*"'"

...,- *.:J=*

Equip Rev:~ RllYTriC Ri i.uca1111~r--1J EqidpTarlJ£7.ll4!:1f~ru ... ": . ,** ~ ...~ ..~::*,:-:.::I .'...:.*~::.*~':.-..,!~_,:.:..:.::..:.<~:.. ,:_: . :J Neme:fo~.$J'i:i:-~Jlf:~~~f!i~qig!H!~.X;;*.L:r*-~*..:;._:~:..:_~~~-- 2 ..::.;,::...n:J P.EG-c:::'ID l....:d:i:~Lz~:J

• • • = .... .*..*.

CllantD=

J I~ t I I I I I I o I

• I 1

' I o I

• Calculation QDC-6700-E-0939 Revision 1 AttechmentC PageC8ofC16 ifS TIMD071 - EQUIPMENT/COMPONENT/UTC PARAMETERS - [ NuclearProdudiol1(PN4P) I hc:1l*.§Joll¥if:ri!I' E'iii!.i*}:di~;~,N~Yitiii~~:- ~ii'c..i;P_,~. ~~*: *. ~* *~c. *.'.:.-*~ ..'* *, >!* ..': *:~C:  :*~- .* ~~*: *. . *:' ~ :. * ~*.'.. . ~;;

I Enter parameter name and value data Ii* m f.::==='~"~'::!

'".*',*.:'.* ' " *a.

~-~'ti'l~-"i*~."!1hf"""",,;'4'i1i\\':*; *~'.\!i,.~~F;,-.,:j!i,.,.:: 'i*'"'i1:r.'**~f::*~*""'~""'*ii::.~l~W.'.~"';i;'"Jt'l."-.'i'"'"".a11.'lr<!'*<'k!f.".:"ll~'.i',-k~"'i'"~*\"'"~

. -'W.Llil'r~i~hii:Ut".l!'!H;fl~i_1.:~*t~w .,.... ,.l) ..:t,JJij:-;~.::.,~~ .:. :.* .~** .f;~i-':'.~'!>~~a;:,.:~:1'-... ~":tl!'/1!1 *~ /i:r.. 1--.:'!!*w11*.A* *z..:*,><R'~~:;gt..olf~.:t,\,tz:; *~".:..4!'::-!P.'l~~ll-&::.'..rfiiliiU Fedify:~ . U.ntl!l'.!~:::2.t:J UTc:l~J;;;~:..:...:S.:..:.Ll status:lti.~~fil*

Qp.Sya/Div/Aree:L * .'~..! ..~@ L.:__:__ :. . .:. :.:.: : .: * .:_ ,:'... _:_: . ,:,_,) t::*_, .:. :, , -~ SyaJCts:IW.-:..:::... *.'j ..L-.-..""'*~-""._ill"'* *

• ~ljlmantl~121'l~.MJ:1!:~~1;:..:.i4! lH1~?::d foi!~.2:* ' **.* ~!11.

• EqiJf!l Rev:(~~

Tempizlte:L.:' . ......::~*~.;;" **':. "_:~:..._ ~.::... .Z........:J.

• . ~

A~ASSWf;;.*.*, .* * . *,  ;*~.* .. '.A,ClJVE*;.,* :t 1~*...:.,;;.*!* 1.'."

"/**.**.V.,*-./-~~18iioo1;<...._~.. 't

.. AD!iiol:l!!Mlts*i, . *: ". *:** *: :~' '. *'*."::". o1-1:sSv."' *:*:* .. ' .... .: ... '**. rntr:*,: .* ..... ffl ~oi~*i12iioo;. *-~;" ~

.:":"'**~~'ij* . *.~: : 0N; . :* ., .. '* , - ." :*:. . **. ~- llfi .li4i1~t ~"

0

.. :.:.: . ~t:fCiiii:At.'.CtAsS' ... . .'/ .. : ... \> 1£:.- .. " .-*, ... . . *..:*.; ;' q .... **,  :.' .. . 17.i iw.ilV.!OOf. .. ~~*

~ 7~~~:~.:.:< :*-:.<*:*_.*:_-.. : *: :**.:.*;:"~:-.:=i~!:~\/ ~.; .,. ,*. :i~.~. ~;?.:: ~;~f, ::~::

• p.r:~w*. ~* *:'.** *":>.>"::~!{*: .. *::..: . :: *."..... ~ ." . -"'.~t,:*.:..,::.*'.!'1ij **e'*'

.**:-* *:; ~:i!ir*'.PA-~*~* -.~ ~,*., ~: .i.:2.'r...~. *~ ~* ~ '_,. ~.*/. *~:.:.1 .-: \;:.,,.~ .o'P-:**.li_.<~:. i~* ~,. .;....**/,'.;)' .;~i:**!*:* . . . _)1~-.::;:" ~ ~--

! ......... *,:  : .... i!o"ti

• • <~: ;:*. ~an::~.TY.P.i: .. ..>'>:,:**:.::.iii ;->P!loreeme:iiftAvi: :.. ' * :,:*** *'."* ...;mrr:<'*.*,,.."* WJ 1oiil't -~

.;: ':.*~~&rJi(~L~.;\i)*.* ** 1*. :*'i::* ~* a,1)1:0#-,".IQY.:**:: ~:* ;: . :'~'.'{' ;. .** *.: ...:..* : furr:-*. ':*~:'.:.: ft :1Piri.

• T* \."'-*' ~.>." ~~*,: . .":* :. **.*:,'~i .' , *: ,.*~*;j.~ :~~*. -;",* ..*':. f& ;.:'*_' *. *:~,';;

Calculation QDC-6700-E-0939 Revision 1 AttachmantC Page C9 ofC16 r ifJ TIMD030 - EQUIPMENT/COMPONENT HEADER - I NuclearProduction(PN4P) I Fac:IL1y9~ ~.=l~:r...::::.t.:.:ID l1e!ti~.!l~.3i . EMMI una~l~:..:,__:;j.j Op Statua:l~TI!f:.:._.::_jfi lie/.t~~.J§i l!!IJ~KJ Op*Sya~t~ RVsm1ua:l~i::::,.:.:.::.:fil*llM/1m~~

AresuL*_-* .:__.:.:..:'i .

-*-~-=- '"Jr

. *g~m-.(1187';*

S""'* - >it

~(_.*..*..-* _..J>.1 Equ~ment*l~.2..'.:l l.§t.~~:i.i...'.2.4 Cnmponenl~l~~:_:...:i '"l!i,...~--~""L:- . .,..~...,;_"'"':._"'*-.::...,J."'~:'"'~~--,""J EqupRev:~ RevTrii:*h1i LoC.:tian.i.i---.fJ l

• equlpT*IP'l~~~i2i=-1:...1*. *-~";,,.,.;:.,.....,:.. _...,. _:_:_.,1 L~:.*;*;. *;:;.d.-.s:._ . ..,._.;;,;.. ;_:..,,,, .. ; ,~ ~~,J Name:l!i!~2~:fbl!~9.f:,VQJ:ift<:~!>~~X.:..:..::.: .::._::..::__ ~ '..: . ~* _ .j:~.:__i;.;::; !...~..:!

.LOc Deac:L. ,~ ::____ _::*-'*-:_::.L*-*..C.i,_-~ *:_,_,__ _,_,:w* ~:.,:,,*_, . .:...~*:.,:: ~~*- .::.~*::.:::,,~ .:~.::.'~..::.-.::....J;,..::-..:!

PEG*~ l~~..1.:.i.*,.,,~:._,,;___ ~,j.

. EqSub-Typear::::D .

Cl!ent~ l::..:z*.'\'..,._j,,' ~':,2.:_:,l.:;_, -."".*;: ;'"*....~"'~

• f I r I

• I I I * * *'

Calculation QDC-6700-E-0939 Revision 1 AttachmentC PageC10ofC16 r ;f~ TIM0071- EQUIPMENT/COMPONENTNTC PARAMETERS - [ NudearProduction(PN4P)]

FoCi"":janc:J

':"7* * - -

• Unll:j02*.

-*-~

'.':7-1. UTC:I~'

~~~

• • ..-;-.' .:* *'). Slo1tsa:**rTM'1'.*"."

• 1?1'

~~!.!.,?.o:;..~ ..."'"""1:.1 Op~IAreti:L._~:dfil l ..::.,___::"_:..;_::_:_'__.:.~~:~.,::,,jt:,_,L,._:~ ~::::"], Sysll;B'f~l, cJ 1--...-.-,,-,--.*m-,*:

Equ~munt;f~;:._;S] f!!t!J3':23~.-*.-.:'" \', * ! '. lB!Yi.'.:d.J l.t:tt-lli:i~*,;j* - *e;lp*~j.@.~J ...

T~~i.t..:I:::*.; .:"":..:.ii.LI:.._:;;_:*::.~~:..:.:.:.:..:. [: ;_;]

... .*'AciiiitiP.ASSM:.*.:~ * :;.:** * ......" *.. ** .. ;.;;~*.*, :* * "".""*:: ... ,....... * * .. *;*.: ,, ... m1'4iUil2001~<<;:c:1: -t

• ADMiN:Wits ... *. *=' .- .*,. *. * .* -.J::. * *+,1:riv*:* * . *  ; .*:.me:r:* ***,.~ .~ w. .11101112Qoo* r,r~

• • .. ~<<:.::.:**.*:,.. *' .,tr.: '** .....,........... '***;*l'liW!iii:zm'"e'

• • .***  !'.Ilium*:~* *:-~: -.** .... , .*.: :,..... ,;~,;TI:>li.pf~c;~:.....-*:.. :---:*:**.TE#'-*,-: .r.Jh1~0Jc::

. .-.:w~tis:;t =.  ;: **- : ... -: ":':fi>Ri~:~*.2;($~\:.,,,. ..,:. :. ... :=.jtjj-*; *.*. :* . i?.:1.1~oo::*'d.*

.:**...... ;., .:.-... : ..*.. .,.. :*.:. *i ';';  :".> .. ,... *ff,.,_::,* .

. -*.. . ."/.. . "*. ... . .. .

. .... ~

Calculation QDC-6700-E-0939 Revision 1 Attachment C PageC11 ofC16

'!!J 1JMD030

• EQUIPMENT/COMPONENT HEADER* [ NucleorProductian(PN4P) I

.........,.* .. ,\

'.!.J:.....:...~;:;...... ~~*-.*l_,;~.-...-*J stalll&:f~**::.._.:...*.!fil fl<<iiiP~jj,EI M@i#

Untt=l!tl~:; *J Op Stabss:fp_~'IJtl;_~ :;;.EJ f:i!fJ.~@l f@~!d Op Syetsm-1'-::: .. .' :.'*,~.i* RVS!Uius:l~~'\ij Im~

. *--*":"-~

Olvisllm*b~-~.:.,;.~-:_.,::.,:~~-:.. ____ ::;1 A ..... L\'.i'..'.:.'.:.:.2 SyahlRPli!!it:t::.:J ~b.:,;_~Jfj Equlpment*f ~ ~ f!fi'..!l.~~::;-0;:.3 ~c:.:;:. A Companent-f !'{1,!i_t;:~:.;; "'!~""~""'~""-*:_""~:"'-~""',;*""::_"'*:_"'":;:___.""--:-__ :J"":*

Equip Re:!:IJiQEJJ: Rev Tric Rl locat1o,.;ll] _ I Equ!pT*ll"f~~~1~  : ,;, : ~.. *: _ . .. ) _;:,; -.. ~-,1 L,,._ '_._ .... ~-.o~*;; _:,...._.~ '. ... :',j Name:f~l!.!!'.~t@i$Pf-V.Q.~PF!i:ii.QPg£1M.:i:~ :, 2.:~c-*-~~..:. ...L~.:~*:..,.:~:..::.. ~ .:.:.. ... :..!..::: .J Loc.Desc:LL. *-!.:L.- ..;_*:~~"..:-.."** :.~~~ x- *-*=- *:..: *~-:~.:.:..:..;_ ~--**.*.: :..,**: .:..~*.::.:~ _*.::..:~ ~.:.\.:. *-L~*~...;_ . ~Ll PEG-~ LL:~..L~;:,:~.:~:- ~ ,_:_..j Eq.SUl)..TY~c=:J* . .

CRsnt [Is I. :..: :-'-...:-:..i...::.::....:.::...::"'-.,:;.'.:..:.:.;-::...::.:0..'.'........:J

• I I. I  :

I I *. ** fl I ,

• I I* 1 I

• I

• I

Calculation QDC-6700-E-0939 Revision 1 AttachmentC PageC12ofC16 i:J TIMD071

• EQUIPMENT/COMPONENTNTC PAMMETERS * ( NuclearProduction(PN4P)]

'ti'l.t!<: Edt-i.dl!~o.~. **Jp,~~ii,.::=y~1;~: .;.ikiiii '. .* *:.~

I Enter parameter name and value data.

II Faciity:[Q_Q[J Untt:!~.:. .;.J:.:I:J urc:Jli'..2 k:, :C:...,J sta1115:j~!;'!M:~ ::..: !J OpSy~/Anla:[..:_,j"'_.:.*:iill l.i.__,, "~.:..:.:,.. :'_,:____:_**__: ,, ; J f::,_*: .:_..:_.:J. SyslC!s:I~:,,-,;~ .."'"I ,-,,_-_-.*_- .. -:_-\£]'

~1pmentl~L:'.::.l l!!1.9~~:'...:~C::..:'..'.:1.~" tR~:~.~;:,.*~; b:z.t~~J..;:,::~,~:;:,J Equf1!Ra'(.f!l.!!ir..J.:~f Ternpl!ltef :: _ *~\_:*:._-_;_.:_;:~'.o.*_* .~ _*.: ~ :. *_:*_:-~,..:,,_j

.. . E~'CiAsS".: . * .:,£:~~:  ::* : ..... ~.* .* 17.i o4n8ra00{ ..;~~!*

..::.*~t~ZQfi.£(-..-*.-*:*-: * -. .-~-.-*:.*:.- .. ; . ~~~a~a *, . . **** *.**~*:.**,PF:&i1~:1:.::~-:'

... *' .'.' ..:*.~.' .. ~ ..-.*;:* :* *...  : l'1.i :-*,... , :-... : -::

• , ' *:' * >:' * *~ .~\ fil' 1 1 t.

I',, *', '*.. , ' , * ' l.

'. ...... *'. >.,. ). . _ . .;. {*: *,.:* , ..........: . . *. *, \: ..... **.:**

~  :-*~ ~ **-~;**. '....:f

,* **;*::***., .~: ,11'*1,"':.* *~*; *. ,.**... :.*... ,;ffi ~.*:.*.*****;****~~

...... "** .....* .,....;,_ . : .:.':1'1i ... *...

. \,. **,;-."" l'1.' ..

• ... 5  !?; ' ;... '* : -.':.;"

Calculation QDC-6700-E-0939 Revision 1 Attachment C PageC13ofC16

':!5 TIMD030 *EQUIPMENT/COMPONENT HEADER - [ NuclearProduction(PN4P)]

• • ."~. ;, ....... *. .* -**.*1 .** *.* !O:" **........... *: ;. :; -. *'

Facmiy.~* stallla:le;!11M.~*k...j£! h~~Jj .i§ijtM Uni!:f~_.._i,::;J Op Status:j~~>_;_ij l:@L..lifiP.bi>:i'§i l@~1J Op~t__;__:,.::J ~statua;l~.£,:2::.::W 1.Q!l.1~opflj .

Divbion-L, ::."::*.~!-*~--**:~ .. .::..:~::.";,] Are..L_:__ ,:...,_:- *~..:.::J SyatenPf i!fl:'..:_: ':~) Cl*-t:::::.::..::~ JiJ .

Equlpmont-(*~*i:.1 '"!~..,.-~-.:"'~--.-u,_:..-'.:......_-*

""*~.,..*:..,..............

.1 comnonont-.JR11i'""

• ~*,.

• .. :<ii '"14.,..27-_,,1"".r"':....:.:.""';,"'~'"";:-."'*;.,,.**.-

___ ,,___.,_"t.:.::J *. --~-~...__- ----......~

,... -.. .1,

• Equip Rov:l~L ... .J Rev Tile fi!l* Lllcallan..r-1J' ....

Nimm:(!JjJ~11'~.:9F:~Q~tA.i'ffP:re_t;m1111M)t..~ ::.::.. .l . '.:_.:.. j.::..:. _L:.- .___ ;: ~-:.:..::..:_.._*_ :L '.J Locoes~l-. -:~*- -:. . . -~*:L.:_:.... -~*;.:*:-..:.:.,..'.....~ ..-*...-.:.*~:~*.-..:.** :..~ ~---~. -~ ~~;_.;. . -:!._'*.._.:!;..: : .. _*_~*:.) ..... ;. :,j PEG-~ f;_:'.._:.:_ :S.:.',.:..:.:*~.-:.~..::.,.:.: ....::.]* Eq.Sul)..Typo*-1":_.:..:_;_.j caen10s . L ...-.=--..:_....-~-...-.-..*-.,.,-_"'"**"';__~~:.:_-*:'"".::.'""::._-~*~.....~-:...-*_~... -.:-*L2J-

.......,....-.~-.

I I 1

1

• . =

'11 f

ti I

.. l 1

• t

• t I

• 1

• 1 I 1 . I I';

Calculation QDC-6700-E-0939 Revision 1 AttachmentC Page C14 of C16

'm 11MD07l - EQUIPMENT/COMPONENTNTC PARAMETERS - [ NudearProductian(PN4P) J k=ul*@Hiiii&JiiiJ'

~ti'*li~~jfy;~ri~:*V1e)I' :l!!'~xi'.*:.:** ...  ;; ..  :~.  :*:, :."*:*. *:. '<~~- <;;:r *. ,. *:*, ::. * ' .....  ;~:,. '* "',.;;.. *.",,'*:* -;..; *;;;;

l Enter parameter name and value data. liim11 II 1}*i,0;*&>.1l.A~(lMli~l.tt.!F'i'*$~"='*-Jimc,i!l:.'!1****~.'.*)fJ,..,j,.,..,,,

i:. , ~*in:* *'-~~*1 . _ * .. U*~;~*~.r.:c. . ,_ , . 'tf.!I!:: ""'l!'r*.*~1t,(ll'.:1R..1~ ... ~&l'*'lf<1~:;,v~;,'61:. 1*~;*£1.J,;.,*\'*'4\o:,~.:*klt-'i;'l:'.':,1r;o'.-t,>;'*'*~fi-:f,P.;<*ir'~~!*l;l'f~.,,,~;*:::t.*:i-*1t~~'*'h~;.i;~*"1i'0-**1

• i: , "*'*""-- :,~ l:._'."i!~i.'irl'.M.:/ 1,.i'\VJi~.:.>i!:~

~ -~*it*{* \l!"'~t'.:C ..... *{II:..:;;*' ... :*,. :"'r't***,*~\'r~:ll>"~~~~' . . 1£~tl:r * * *~*:i-..:;J:;L~_.~,r..:01.,~~*i.;;d~

Facrnfy:l9.J *Uni!:l~*.:......:;;:J urc:l;.:.:h.::__,:~:-,_;.'.d . sta111.s:iAQ:M'.'.....:::..

Op Syallllv/Araa:L_ . .::._:.'.:.-:ill I..:.:_:;_:.:_: . . _.:_::___. ,-~ _*~. :_ ~. ** ._'!.::: _~-* '..._J Sysll:is:f~~~.. ~.j '""L-...--:_-L-.'l""'GJ'

• Equlpman~l~'.~;J j~~J.: ~~.i: ~ !R1e:: .,:_J b.:{t~t._:.::_ ::..:~;'*; A_,i Equip ReY:jjig~:..iJ

. T~mp!otcf:~ ..:..:_:...:_..:__:-*... '. .:-~'..~ '_._;__.'.:., ::.:.' ,:~_;]

ADMilr°lllMITS!* ~-  :*...., ~: * *, .'*.*:*~** . ..,_.:;. as*.v"*. :*. ~*--~.** *.. ~**:r:- .~;.~.- ._!*::*. P1i.1.1t0ari.oq;<r .-.'=,. r!.

• • . ,': APliE!jti~R .* *: ..

• ' '* ' . . ri; *,. . . : ' . : :... *,. .*. l'1i 04i~jiiiobf; '>'r,Oi

~~ ***  : ' .. *..... ' " " * ' ***. '::: * : ,; ; .* :* < ff; o.ii18ii00t ,' ~i'.

I . \!G,1.l;iriCAT * **- , :: *:..;. * *.-:, < **:(..:ti.* . * ., , ::*,. .:.. '* :~*:*" * *::*":. ..: .' '(- ,., '":'..." .. -}*.:;":*: "- ~8iioQ( .",e-(

1~*~*~*-:---r"':'-.,,..,....,.~,.....,,.-~~....,.~._,.~,....,..-,--,,.;1""1'_,.,"""'_.,..""""""'~.......,...,,~~,_,_~;,..,,,.,.,"""'..,....,...,.:r::::+.-,._.,~""'+.-..,;o,i I **: ~.*:: $~~~ ' ; *,i .'*_,,_>~.*-~r:~-;..~: ;~r. *.. \- ::*. fflo1J;~:~~:~1". *1~'"-~.:> ~ '/ ( '. *~.i:'..! ~lq,* ~ ~:-*. ! ~ '1:1J08i'iQOO~ i 1!~~:.:

Ii . ;;*' << 18'SETPl!~t;~1):',:.1 ..... _.. :"*'.,_ 83:7:.J.:;~;°iv':., :,*'.: .. '.:*:: .. *::-.".:::;:<<>:;* ;~.<:*** "<. "'. f,,; .f.1Ji!8l:i0oo: ,-;::;

.. ,....

:11Mcr.0HiNC.oa*~c1"*: *.*:'- ....,,, etc'..::.,*,.=:*;* ... ~**' ...  :.:*~*yfflcf..: :*:-::*~b~u;:.,,;f:

. '1

• ~

~ ..* ;

.." ..... .,, .. ~* -~ .;; ;.:*I f. *~! r.1.J: .: .. ;-:::.. *:!';

. .\r,':.' .:** .; ... *:: ~-* .. ' < *. ~ .. *.fl!. \.  !"'

.. : *: ' . Wj I.

' ~ .. :*.. . . *~*** ,.,

I * * * , ,.. f* ,',::**'"~**.: .. *...... ~...... ,*,;*=:*/.. *','~:;*::re:.*~*,:. ~~)*'*:,*,*

..... **: "" :;'. .'* ... l'l'l .:-.

!.' * *-~*. :*:

0

. :, .. ;.- '~-= ' ~I' .. ~ * *:.::.1* ,"*."\ ~  :' *,: *.- ..:.: .* ...

Calculation QDC-6700-E-0939 Revision 1 AttachmentC Page C15 of C16 i!J 11MD030

• EQUIPMENT/COMPONENT HEADER* [ NuclearProduction(PN4P) I

......, ~.' .'*./* ...... :. **.. ~: .. *. ,. ..,,. .'.: ~

Stama:IA.m.;,, I . . . . " ' l4nHn""nn'*,r;a

~IJ~~i.:-.... ~.~ ;.~..J...~~~J~ as---

Unft=f!!;'l...'.;._: .iJ Op stntuS:f!!~lJ!~_ffi l:tg1:1~~f§j H>ii:.l<!_i opsY&1S~!~:.::J !IV ~a:la§~:*. ..iJil lll'd~mil!

• Dlvbiln*L:.:.:.......:.=:......::......~ ,_;~:::__- :'.:.d Area*L_~ __ ~-~~

• SysterrF[§§Z~..:J ClasaaU.~.~~.;_._[J

• Equlp11111nt-l~;~~/t!R!l£.~4l_:*; .. ~. *:;:.:;..~~j Component*J!l1!1.'..:.:o'.J l...*.1-'l;l-..,_~-i-:...-.1-~'...---*-_::_-:"-.~--:-~...,:'*

Equi;iRev:~ RevTiic RF *Localkinar-1) *I

.El!UlpTall"f;\~~J~~~-.>.:.., **. ._i,~*., \'.~,;;; .. :~!J*.*. .':*~:- i.:.:...:....:.... *. '.::,:;.*: **** ,.,;._;J Nmno:f llJl.~&f.:t...~*of'il(Q~!A..~.i'.:i"E~!l~X:: .i:...;~ -* .:.:.~* .:....:~ - ...*. *::~ -~-*. >. .:. ~ !-.~:..::.* J

~~ fL;;.:.:,_-._,_::.;:t*::.::~.-~...:..:_,__ ;J t

Cll!nt f

°"

I

• I t

I I

o 1

I I

I o

I l

I

Calculation QDC-6700-E-0939 Revision 1 AttachmentC Page C16 ofC16

, ffp TIMD071

• EQUIPMENT/COMPONENTl\ITC PARAMETERS* [ NudearProduction(PN4P))

-;:;;~~=:~~;~~:::~~~~~ill"~1r.:.\'  :* ,. :. . *".~:>: ........;v.*:-. ........ :...... ... : ,.. "":: :_;.* .. L:___, . . ,..* **.~~~ *:~ ......:- : ** ,.:*"~i!r II l~'.*;~;*~~I :...;., ::' ,: .:llil~l.~l):!:'!mi1~\Yl:~l0mltl'~~:~"':*~~f;;;*1..;*'.i)~;.~~::*~1ri:?Jt.;:<l;"~,i!~'ti~?*if~W2~~'~im'?1~~:*;:'11~;~;x;\*1>-:-:i~,~;i~~~~~"'..1'1S~:~

....... Ai:iM:iPASSiVE>';: .,, ..:*;*. ,-.. ,;.;.crn,E* .' "~*;.:-, .. ,.. '"** , ** ,.,.,. ::,;:  :***fl ~iealii>f!*:.t:;~* :1:

.'.AoMN.1.:am~~** .. ** . .., ... , . ._..,...1.ssv: ... _ !~ . .,.* * ;.:: ..~*r* ... m(T::

1

.~-:~~**f'?i;t1~00. i::"-'***

11 " .* ~R'. ....:..* :..

• Ni "" . .. "* \, . .'. _,, ffi 1!4'1&i2a,&1; **~

. rucmiiw. Ct:AsS. * . *: .. : .*if; : . ..... .. . . . :: ... ..... : *.. - ... * ... *

• 17.i 001aaoot; ~1=":*.

• ~ *:. ::': FiiEri.!iiE*. " ..*...-~ *. . *.**..~. :," . . . :.....*.' .*.*.:**. *.. '. *. .' s.2AA., f.: ~ :-* :_... :*c. -,:* ....... :.. . _-.*:~ .: *. -. :**.I". D.411~*: \f.*.

-~* : ,,;. _., ... ~ .... : . ,.. _, .... . '~.:: .... . ffi *..;... *. .

~

• ' -.,:',,( * :**, .. *.~**~:: ~~.'": '~:"-.:*:, '* ." :1 I ~I,;, ffi **:',* *,*"' ': ".*:=

• " * \1'. ** *:.  :. *' * *.\.

""'-.***