Text

Email, License Amendment Request for Degraded Voltage Surveillance Frequency Extension; Revised Calculations and White Paper Which Discusses Methodology Used for Revision
	ML12291A763
Person / Time
Site:	River Bend
Issue date:	10/16/2012
From:	Williamson D; Entergy Operations
To:	Wang A; Plant Licensing Branch IV
	Wang A
References
	TAC ME7767
	Download: ML12291A763 (183)
	v • d • e

From: WILLIAMSON, DANNY H To: Wang, Alan

Subject:

RBS DV/LOP calculations Date: Tuesday, October 16, 2012 5:18:50 PM Attachments: G13.18.6.2-ENS_007_EC40339.pdf G13.18.3.1-005_ EC40339.pdf G13.18.6.2-ENS_002_EC40339.pdf G13.18.6.2-ENS_004_EC40339.pdf G13.18.6.2-ENS_006_EC40339.pdf G13.18.3.1-004_EC40339.pdf RBS methodology.pdf Alan Attached are the revised calculations we discussed on September 24 regarding the RAI on LAR 2011-

05. These calculations contain no proprietary information.

Also attached is a "white paper" which discusses the methodology used in this revision.

Please call if you have any questions.

Danny

ANO-1 ANO-2 GGNS IP-2 IP-3 PLP JAF PNPS RBS VY W3 NP-GGNS-3 NP-RBS-3 CALCULATION (1) (2)

EC # 40339 Page 1 of 32 COVER PAGE (3) (4)

Design Basis Calc. YES NO CALCULATION EC Markup (5) (6)

Calculation No: G13.18.6.2-ENS*002 Revision: 003 (7) (8)

Title:

Instrument Loop Uncertainty/Setpoint Determination for the ABB Model Editorial 27H Undervoltage Relay YES NO (9) (10)

System(s): 302 Review Org (Department): NSBE3 (I&C Design)

(11) (12)

Safety Class: Component/Equipment/Structure Type/Number:

Safety / Quality Related ENS-SWG1A-27-1A, 1B, 1C ENS-SWG1B-27-1A, 1B, 1C Augmented Quality Program Non-Safety Related ENS-SWG1A-PT-BUS ENS-SWG1B-PT-BUS (13)

Document Type: F43.02 (14)

Keywords (Description/Topical Codes):

relay, uncertainty, undervoltage REVIEWS (15) (16) (17)

Name/Signature/Date Name/Signature/Date Name/Signature/Date Mary Coffaro / See AS Robin Smith / See AS Paul Matzke / See AS Responsible Engineer Supervisor/Approval Design Verifier Reviewer Comments Attached Comments Attached

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002, Rev. 003 RIVER BEND STATION PAGE 2 OF 32 CALCULATION REFERENCE CALCULATION NO: G.13.18.6.2-ENS*002 SHEET REVISION: 003 I. EC Markups Incorporated (N/A to NP calculations): None II. Relationships: Sht Rev Input Output Impact Tracking No.

Doc Doc Y/N

1. EN-DC-126 -- 004 N

2. EN-IC-S-007-R 0 000 N

3. 7224.300-000-001B 0 300 N

4. 201.130-186 0 000 N

5. 215.150 0 006 N

6. B455-0139 0 000 N

7. 3242.521-102-001A 0 300 N

8. F137-0100 0 000 N

9. 0242.521-102-133 0 300 N

10. EE-001K 0 019 N

11. EE-001L 0 015 N

12. ESK-08ENS01 001 008 N

13. ESK-08EGS09 001 013 N

14. ESK-08EGS10 001 012 N

15. ESK-08EGS13 001 011 N

16. ESK-08EGS14 001 010 N

17. ESK-08EGS15 001 010 N

18. ESK-08EGS16 001 007 N

19. STP-302-1600 -- 020 Y A/R 00154225

20. STP-302-1601 -- 020 Y A/R 00154227

21. G13.18.6.3-006 0 000 N

22. LSK-24-09.05A 001 015 N

23. EDP-AN-02 -- 301 N

24. STP-302-0102 -- 017 N

25. G13.18.3.1-004 0 000 Y EC40339

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002, Rev. 003 RIVER BEND STATION PAGE 3 OF 32 III. CROSS

REFERENCES:

1. Asset Suite Equipment Data Base (EDB)

2. Technical Specifications Section B3.3.8.1

3. ANSI Standards C57.13 (1993)

4. Multi-Amp Instruction Book EPOCH-10

5. USAR Figures 3.11-1 through 5 IV. SOFTWARE USED:

N/A

Title:

Version/Release: Disk/CD No.

V. DISK/CDS INCLUDED:

N/A

Title:

Version/Release Disk/CD No.

VI. OTHER CHANGES:

References removed from the calculation: G13.18.3.1*001

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 4 of 32 Revision Record of Revision Initial issue to support determination of undervoltage rely setpoints by Electrical 000 Engineering.

Deleted Degraded Voltage Relay setpoints. With relay change per ER-RB-2001-0360-00, the 001 degraded voltage relay setpoints are moved to G13.18.3.6.2-ENS-005 Rev. 0. Revised procedural as-left band.

002 Incorporated new drift value and extended calibration period to 30 months per EC 11753.

EC 40339: Incorporated new setpoints as determined in calculation G13.18.3.1-004 into this 003 calculation and added computation of ALT and AFT.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 5 of 32 TABLE OF CONTENTS COVER SHEET CALCULATION REFERENCES RECORD OF REVISION SECTION PAGE 1.0 Purpose and Description 6 2.0 Results/Conclusions 8 3.0 References 9 4.0 Design Inputs 11 5.0 Nomenclature 15 6.0 Calculation Methodology 16 7.0 Assumptions 17 8.0 Calculation 20 9.0 Simplified Block Diagram 28 Attachments:

1 Design Verification Form and Comments .......................................................................... 5 pages

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 6 of 32 1.0 Purpose and Description 1.1. Purpose The purpose of this calculation is to determine the uncertainty associated with the existing Safety-Related 4.16 kV Loss of Voltage relays for Divisions I & II. Nominal trip Set points and Allowable values will be determined by the Electrical Engineering group in calculation G13.18.3.1-004.

1.2. Loop Descriptions Each 4.16 kV emergency bus has its own independent Loss of Power (LOP) instrumentation and associated trip logic. The voltage for the Division I and II buses is monitored at two levels, which can be considered as two different undervoltage functions; loss of voltage and sustained degraded voltage.

Each 4.16 kV bus monitored by three undervoltage relays whose outputs are arranged in a two-out-of-three logic configuration (Reference 3.12). The channels include electronic equipment (e.g., trip units) that compares measured input signals with pre-established setpoints. When the setpoint is exceeded, the channel output relay actuates, which then outputs a LOP trip signal to the trip logic.

1.3. Design Bases Event Per Technical Specification Bases B 3.3.8.1 (Reference 3.7.3), successful operation of the required safety functions of the Emergency Core Cooling Systems (ECCS) is dependent upon the availability of adequate power sources for energizing the various components such as pump motors, motor operated valves, and the associated control components. The LOP instrumentation monitors the 4.16 kV emergency buses. Offsite power is the preferred source of power for the 4.16 kV emergency buses. If the monitors determine that insufficient power is available, the buses are disconnected from the offsite power sources and connected to the onsite diesel generator (DG) power sources.

1.4. Degree of Accuracy/Limits of Applicability The results of this calculation are based on the statistical methods of at least 95%

probability of occurrence for a one sided probability distribution in accordance with General Electric Instrument Setpoint Methodology, (Reference 3.3) and EN-IC-S-007-R, Instrument Loop Uncertainty & Setpoint Calculations (Reference 3.2). One sided probability is used since the Loss of Voltage relay performs its safety function in the decreasing direction only.

The results of this calculation are valid under the Assumptions stated in Section 7.0 of this calculation.

The appropriate use of this calculation to support design or station activities, other than those specified in Section 1.1 of this calculation, is the responsibility of the user.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 7 of 32 1.5. Applicability A data analysis has been performed in order to determine which, if any, redundant instrument loops are bounded by the results of this calculation. This calculation is applicable to the Loops associated with the primary elements stated in Section 9.0. The results of this calculation are bounding for the applicable instrument loops, based on such factors as instrument manufacturer and model number, instrument location/environmental parameters, actual installation and use of the instrument in process measurements.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 8 of 32 2.0 Results/Conclusions 2.1. Results The Loop Uncertainty and Total Loop Uncertainty for the Loss of Voltage relays were calculated in Section 8.0. These values and other associated values such as loop drift are presented in Table 2.1-1.

Table 2.1-1 Loss of Voltage Relay Maximum Loop Total Loop M&TE Loop Channel Drift Loop Loop Uncertainty Uncertainty Accuracy System(s) (DL) Setting Tol.

Identification (LU) (TLU) Requirements VAC (ALTL)

VAC VAC VAC VAC See +/- 0.9067 +/- 1.07 302 +/- 0.392 +/- 0.161 +/- 0.21 Section 9.0 +/- 54.97* +/- 64.87*

Uncertainty indexed to the primary (bus) voltage of the potential transformers.

2.2. Conclusions The calculated Loop Uncertainty and Total Loop Uncertainty presented in Table 2.1-1 are bounding for the relays and circuits listed in Section 9.0.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 9 of 32 3.0 References 3.1 EN-DC-126, Engineering Calculation Process 3.2 EN-IC-S-007-R, Instrument Loop Uncertainty and Setpoint Calculations 3.3 7224.300-000-001B, NEDC-31336P-A, General Electric Instrument Setpoint Methodology 3.4 Asset Suite Equipment Data Base (EDB) 3.5 201.130-186, Peak Spreading of ARS Curves for the Control Building 3.6 Environmental Design Criteria, Spec 215.150, including USAR figures 3.11-1 through 5 as outlined in EDP-AN-02 section 6.3.1 3.7 RBS Operating License 3.7.1 Not used 3.7.2 Not used 3.7.3 Technical Specifications Bases Sections B3.3.8.1 3.7.4 Not used 3.8 RBS USAR None 3.9 Vendor Manuals 3.9.1 B455-0139, Single-Phase Voltage Relays 3.9.2 3242.521-102-001A, Instruction Manual-STNBY 4.16 kV Switchgear 3.9.3 F137-0100, Fluke Dual Display Multimeter Users Manual 3.9.4 Multi-Amp Instruction Book for the EPOCH-10, Microprocessor-Enhanced Protective Relay Test Set, (maintained by the Standards Laboratory) 3.9.5 0242.521-102-133, Bill of Material 1ENS-SWG1A & 1B 3.10 Electrical Schematics 3.10.1 EE-001K, 4160V One Line Diagram Standby Bus 1ENS*SWG1A 3.10.2 EE-001L, 4160V One Line Diagram Standby Bus 1ENS*SWG1B

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 10 of 32 3.10.3 ESK-08ENS01, AC Elementary Diagram Standby Bus 1A & 1B Protection & Metering 3.10.4 ESK-08EGS09, DC Elementary Diagram Standby Bus 1ENS*SWG1A Under Voltage Protection 3.10.5 ESK-08EGS10, DC Elementary Diagram Standby Bus 1ENS*SWG1B Under Voltage Protection 3.10.6 ESK-08EGS13, DC Elementary Diagram Standby Bus 1ENS*SWG1A Under Voltage Protection 3.10.7 ESK-08EGS14, DC Elementary Diagram Standby Bus 1ENS*SWG1B Under Voltage Protection 3.10.8 ESK-08EGS15, DC Elementary Diagram Standby Bus 1ENS*SWG1A Under Voltage Protection & Load Sequence 3.10.9 ESK-08EGS16, DC Elementary Diagram Standby Bus 1ENS*SWG1B Under Voltage Protection & Load Sequence 3.11 Surveillance Test Procedures:

3.11.1 Not used 3.11.2 Not used 3.11.3 Not used 3.11.4 Not used 3.11.5 STP-302-0102, Power Distribution System Operability Check 3.12 LSK-24-09.05A, Standby Diesel Generator Load Sequence, Logic Diagram 3.13 Standards 3.13.1 ANSI Standard C57.13, Requirements for Instrument Transformers 3.13.2 Not used 3.14 G13.18.6.3-006, ABB Model ITE-27H Relay Drift Analysis 3.15 G13.18.3.1-004, Degraded Voltage Relay Setpoints for ENS-SWG01A and ENS-SWG01B

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 11 of 32 4.0 Design Input The following are the design inputs used to determine uncertainty for the DIV I and II Loss of Voltage relays.

4.1 Loop Input 4.1.1 Loop Data:

Form 1: Loop/Process Data Sheet Description Data Reference ENS-SWG1A-PT Loop Sensor(s) 3.10 ENS-SWG1B-PT ENS-SWG1A Location 3.4 ENS-SWG1B Output Range 0-120 VAC 3.10 Input Range 0-4200 VAC 3.10 4.1.2 Special Considerations:

4.1.2.1 Calibration shall be performed using the following instruments:

Multi-Amp EPOCH-10 relay tester set to Oscillator Mode (Reference 3.9.4)

Fluke Model 45 Digital Multimeter set to Medium Resolution (Reference 3.9.3) 4.1.2.2 A minimum of 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months warm up time at the calibration location shall be allowed for the Fluke Model 45 Multimeter.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 12 of 32 4.2 Loop Instrumentation Form 2: Instrument Data Sheet Calc. Device Number 1 Description Data Reference Component Number(s) ENS-SWG1A-PT-BUS 3.4 ENS-SWG1B-PT-BUS Manufacturer Westinghouse 3.9.5 Model(s) VIY-60 3.9.5 Location(s) CB 98E1. /ENS-SWG1A 3.4 CB 98E1. /ENS-SWG1B Service Description Transformer 3.4 Instrument Range 0 - 4200 VAC 3.9.5 Output Range 0 - 120 VAC 3.9.5 Calibration Interval Evaluated N/A Note Device Setting Tolerance N/A Note Note: Potential transformers for instrument service cannot be calibrated or adjusted, therefore there is no device setting tolerance or calibration interval.

Form 2: Instrument Data Sheet Calc. Device Number 2 Description Data Reference Component Number(s) See Section 9.0 3.4, 3.10 Manufacturer Asea Brown Boveri 3.9.5, 3.9.1 Model 27H 3.9.5, 3.9.1 Location(s) CB 98EL/ENS-SWG1A 3.4 CB 98EL/ENS-SWG1B Service Description Relay 3.9.1, 3.10 Input Range 0 - 120 VAC 3.9.2 Output Contact Action 3.10, 3.12 30 Mo.

Calibration Interval Evaluated 3.2 (24 Mo. + 25%)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 13 of 32 4.3 Loop Device Data Form 3: Instrument Accuracy Sheet Calc. Device Number 1 Westinghouse VIY-60 Description Data Reference 0.3% of setting 3.9.2 Reference Accuracy (RAT) 2 7.1.2 Seismic Effects (SET) N/A 7.1.4 Temperature Effects (TET) N/A 7.1.12 Insulation Resistance Effects (IRT) N/A 7.1.10 Temperature Drift Effect (TDT) N/A 7.1.13 Drift (DRT) N/A 7.1.14 Form 3: Instrument Accuracy Sheet Calc. Device Number 2 Asea Brown Boveri 27H Description Data Reference 3.9.1

+/-0.25% of setting Reference Accuracy (RAR) 7.1.2 2

7.1.15 Seismic Effects (SER) 0 7.1.4 0.5 VAC/(68oF - 104oF) 7.1.12 Temperature Effects (TER) 2 7.1.2 Insulation Resistance Effects (IRR) N/A 7.1.10 Temperature Drift Effect (TDR) N/A 7.1.13

+/-0.392 VAC 3.14 Drift (DRR) 2 7.1.2 3% of Setting 3.9.1 Reset

+/-1.5% 3.9.5

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 14 of 32 4.4 Environmental Information Form 4: Environmental Conditions Data Sheet Zone: CB-98-1 Description Data Reference Location Building/Elevation CB-98 3.4 Room/Area Switchgear Room 3.4 Normal Temperature Range, oF 40 - 104 3.6 Humidity Range, %RH 20 - 90 3.6 Radiation 40 Year Total Integrated 800 3.6 Dose, Rads Pressure Range Atmos 3.6 Accident (Loss of Offsite Power)

Temperature Range, oF Same as Normal 3.6 Humidity Range, %RH Same as Normal 3.6 Radiation, Total Integrated Dose, Same as Normal 3.6 Rads Pressure Range Same as Normal 3.6 Seismic Accelerations, g <3 3.5

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 15 of 32 5.0 Nomenclature The terms and abbreviations that are not defined in this section are defined in Reference 3.3, Reference 3.2 or within the text of this calculation.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 16 of 32 6.0 Calculation Methodology This calculation is prepared in accordance with EN-IC-S-007-R, Instrument Loop Uncertainty &

Setpoint Calculations (Reference 3.2), EN-DC-126, Engineering Calculation Process (Reference 3.1) and 7224.300-000-001B, General Electric Instrument Setpoint Methodology (Reference 3.3).

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 17 of 32 7.0 Assumptions 7.1 Assumptions that do not require confirmation 7.1.1 Miscellaneous Allowance (ML)

A miscellaneous allowance has not been applied to uncertainty of the device evaluated by this calculation. By assuming all vendor supplied data is a 2 value and with intermediate rounding of values in the conservative direction, sufficient conservatism has been introduced.

7.1.2 Vendor 2 Data For conservatism, all uncertainties given in vendor data specifications are assumed to be 2 unless otherwise specified.

7.1.3 Zero Effect (ZE)

Not applicable 7.1.4 Seismic Effects (SE)

Reference 3.9.1 states that the undervoltage relays have been tested to 6 g ZPA without damage or malfunction. Reference 3.5 defines the expected level of seismic activity for the 98 ft elevation of the control building as less than 3g. Therefore, seismic effects are assumed to be 0.

Seismic effects are not applicable to potential transformers.

7.1.5 Radiation Effects (RE) & Radiation Drift Effect (RD)

Radiation effects and radiation drift effects are not applicable to the relays and transformers evaluated by this calculation, as they are located in a mild environment (Reference 3.6).

7.1.6 Power Supply Effects (PS)

Per Reference 3.9.1, control voltage variations may affect the setpoint of the relay by as much as +/- 0.2 volt for a 10 VDC change in the control voltage. This yields a possible variation of +/- 0.02 VAC/VDC of control voltage variation. Per Reference 3.11.5, the allowable voltage range is 130 to 140 VDC. Therefore, 15 VDC will conservatively be used to calculate the PS effects for the undervoltage relays in this calculation.

Power supply effects are not applicable to transformers.

7.1.7 Process Measurement Uncertainty (PM)

Not Applicable

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 18 of 32 7.1.8 Static Pressure Effects (SP)

Not Applicable 7.1.9 Humidity Effects (HE)

The relays were specified by the switchgear manufacturer and are assumed to be designed to withstand the environmental effects in the mounting location without introduction of additional uncertainty. Per Reference 3.6, the humidity range for environmental zone CB-98 is 20 to 90% RH. Therefore, it is assumed that Humidity effects are negligible.

Humidity effects are not applicable to potential transformers.

7.1.10 Insulation Resistance Effects (IR)

(IR) effects, which may result in degradation of circuit insulation, are not applicable to the devices and circuits addressed by this calculation.

7.1.11 Voltage Drop Voltage drop due to long wiring lengths between source and load are assumed to be negligible as the potential transformers and the undervoltage relays evaluated by this calculation are located in the same switch gear compartment.

7.1.12 Temperature Effects (TE)

Per Reference 3.9.1, the temperature effect is 0.5 VAC over a span of 68o - 104oF (20oC

- 40oC). Reference 3.6 states that the normal temperature range for this area is 40o -

104oF and that 1% of the calendar year (30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months ) the temperature could be 5oF higher.

The temperature change 1% of the calendar year is considered negligible. The 0.5 VAC value will be used to determine relay temperature effects. See section 8.1.3 Temperature effects are not applicable to transformers. Temperatures above the rated value would tend to produce total failure of the transformer, rather than an error in output.

7.1.13 Temperature Drift Effects (TD)

The drift analysis performed in Reference 3.14 is assumed to encompass all components of drift and drift effects except for temperature drift effects which are assumed to be included in the Reference Accuracy of the device.

Temperature drift effects are not applicable to transformers.

7.1.14 Instrument Drift (DR)

The drift analysis can be found in Reference 3.14.

Drift is not applicable to transformers.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 19 of 32 7.1.15 Relay Reference Accuracy (RAR)

The accuracy rating for the ABB model 27 undervoltage relay is dependent on M&TE accuracy and calibration methodology when following the calibration instruction in Reference 3.9.1. Per Reference 3.9.3, the reference accuracy for a Fluke Model 45 digital multimeter is 0.2% of setting + 10 mV (conservatively approximated as 0.01% of setting). This yields an approximate accuracy of 0.21%. For conservatism, a value of 0.25% of setting will be used for this calculation.

7.2 Assumptions that require confirmation None

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 20 of 32 8.0 Calculation This section includes the following subsections used in performance of this calculation:

8.1) Calculation of Miscellaneous Uncertainties 8.2) Calculation of Individual Device Reference Accuracy (RA) 8.3) Calculation of Individual Device Uncertainties 8.4) Calculation of Loop Calibration Accuracy (CL) 8.5) Calculation of Insulation Resistance Effects (IR) 8.6) Calculation of Loop Uncertainty (LU) 8.7) Calculation of Loop Drift (DL) 8.8) Calculation of Total Loop Uncertainty (TLU) 8.9) Calculation of Reset Differential 8.10) As Left Tolerance (ALT) 8.11) As Found Tolerance (AFT) 8.12) Loop Tolerances 8.1 Calculation of Miscellaneous Uncertainties 8.1.1 Calculation of Transformer Burden and Determination of Reference Accuracy Per References 3.9.2 and 3.13.1, the Reference Accuracy for instrument class potential transformers is +/- 0.3% W, X, and Y, and +/- 1.2% Z. This relates to the burden placed upon the transformer by its connected loads. A load less than 75 VA will yield an accuracy of +/- 0.3% where a load greater than 75 VA will produce a transformer accuracy of +/- 1.2%.

The loads for the metering transformer are:

6 Undervoltage Relays @ 1.2 VA each = 7.2 1 Synchronizing relay transformer @ 3 VA = 3.0 1 Model 60 Voltage Balance Relay @ 0.7 VA each = 0.7 2 Model 32 voltage Balance Relays @ 0.3 VA each = 0.6 1 Volt Meter, GE 180 @ 3.0 VA burden each = 3.0 1 Volt Transducer @ 3.0 VA burden = 3.0 Control Relays/Meters not listed, Assumed Value = 10.0 27.5 Therefore Transformer Accuracy = 0.3% of setting

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 21 of 32 8.1.2 Calculation of Under Voltage Relay Power Supply Effects (PSR)

PSR = +/- 0.2 VAC per 10 VDC control power variation

= +/- 0.02 VAC x 15 VDC

= +/- 0.3 VAC (2 Value)

Assumed control power voltage variation is 15 VDC per Assumption 7.1.6.

8.1.3 Calculation of Relay Temperature Effects (TER)

Per Assumption 7.1.12 and Reference 3.9.1, the relay may experience a temperature effect of +/- 0.5 VAC over a temperature range of 68oF - 104oF. Assuming linearity, this yields an effect of 0.014 VAC/oF. The relays are housed inside the DIV I and II switchgear which are assumed to maintain an internal temperature of 104oF to prevent condensation. However, the relay is calibrated in the electrical or relay shop which is assumed to be maintained at 70oF. Therefore:

TER = +/- (104oF - 70oF) x 0.014 VAC/oF

= +/- 0.476 VAC (2 Value) 8.2 Calculation of Individual Device Reference Accuracy (RA) 8.2.1 Transformer Reference Accuracy (RAT):

8.2.1.1 Transformer Reference Accuracy for Loss of Voltage (RATLV)

Note: Relay setpoint is determined in Reference 3.15.

RATLV = +/- 0.3% of Setpoint

= +/- 0.003

51.23 VAC

= +/- 0.1537 VAC (2 Value) 8.2.2 Undervoltage Relay Reference Accuracy (RAR):

8.2.2.1 Undervoltage Relay Accuracy for Loss of Voltage (RARLV)

RARLV = +/- 0.25% of Setting

= +/- 0.0025

51.23 VAC

= +/- 0.1281 VAC (2 Value) 8.2.3 Calculation of Loop Reference Accuracy (RAL) 8.2.3.1 Loop Reference Accuracy for Loss of Voltage (RALLV)

RALLV = +/- [(RATLV)2 + (RARLV)2]1/2

= +/- [(0.1537)2 + (0.1281)2]1/2

= +/-0.2001 VAC (2 Value)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 22 of 32 8.3 Calculation of Individual Device Uncertainties (Reference 3.2, Section 8.2 and Section 8.1) 8.3.1 Transformer Uncertainty (AT) 8.3.1.1 Transformer Uncertainty Loss of Voltage (ATLV)

ATLV = +/- [(RATLV)2]1/2

= +/- 0.1537 VAC (2 Value) 8.3.2 Undervoltage Relay Device Uncertainty (AR) 8.3.2.1 Undervoltage Relay Device Uncertainty for Loss of Voltage (ARLV)

ARLV = +/- [(RARLV)2 + (PSR)2 + (TER)2]1/2

= +/- [(0.1281)2 + (0.3)2 + (0.476)2]1/2

= +/- 0.5771 VAC (2 Value) 8.4 Calculation of Loop Calibration Accuracy (CL)

CL = +/- [(MTEL)2 + (CTL)2]1/2 8.4.1 Calculating measuring and test equipment effects. (MTEL)

Measurement & Test Equipment (MTEL) effects are defined from Reference 3.2 as:

MTELV = [(MTERA)2 + (MTERI)2 + (MTETE)2 + (MTECS)2]1/2 Where: MTERA = Reference accuracy of the Fluke Model 45 Digital Multimeter (DMM) after a one hour stabilization period at the calibration location = 0.2% of setting + 10 mV. MTERALV = 0.113 VAC.

MTETE = Effects of temperature changes on the Fluke Model 45 DMM between the calibration laboratory and the area where the M&TE is used. Assumed equal to the Reference Accuracy of the M&TE used. For the Loss of Voltage, setting MTETELV = 0.113 VAC.

MTERI = Readability of the M&TE used, assumed to be 0 as all M&TE used are digital with at least 2 digital with at least 2 digits of resolution.

(Reference 3.2)

MTECS = The accuracy of the calibration standard used to calibrate the M&TE, assumed equal to 1/4 the Reference accuracy of the DMM.

For the Loss of Voltage, setting MTECSLV = 0.029 VAC.

8.4.1.1 Calculation of loop M&TE Effects for Loss of Voltage (MTELLV)

MTELLV = +/- [(MTERALV)2 + (MTERI)2 + (MTETELV)2 + (MTECSLV)2]1/2

= +/- [(0.113)2 + (0.0)2 + (0.113)2 + (0.029)2 +]1/2

= +/- 0.163 VAC (2 Value)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 23 of 32 8.4.2 Calculation of Calibration Effects (CTL)

Calibration Effects (CTL) are defined from Reference 3.2 as:

CTL = Square Root Sum of the Squares (SRSS) of procedural inaccuracies such as procedural as left band and calibration procedural errors.

8.4.2.1 Calculation of Calibration Effects for Loss of Voltage (CTLLV)

CTLLV = +/- 0.21 VAC (2 value)

The ALTL value is 0.21 VAC from Section 8.12.

8.4.3 Calculation of Loop Calibration Accuracy for Loss of Voltage (CLLV)

CLLV= +/- [(MTELLV)2 + (CTLLV)2]1/2

= +/- [(0.163)2 + (0.21)2]1/2

= 0.266 VAC (2 Value) 8.5 Calculation of Insulation Resistance Effects (IR) 0 per Assumption 7.1.10 8.6 Calculation of Loop Uncertainty (LU)

Reference 3.2 defines loop uncertainty as:

LU = +/- (m/n)[(AT)2 + (AR)2 + (CL)2]1/2 Where: m = The number of standard deviations required to encompass 95% of the area under the curve for a normal distribution either one or two sided. 1.645 corresponds to a one sided confidence while 2.00 corresponds to a two sided confidence.

n = The number of standard deviations used in specifying the individual components of uncertainty.

8.6.1 Loop Uncertainty for Loss of Voltage (LULV)

LULV = +/- (m/n)[(ATLV)2 + (ARLV)2 + (CLLV)2]1/2 +/- M (Margin)

= +/- (1.645/2)[( 0.1537)2 + (0.5771)2 + (0.266)2]1/2 +/- 0.3689

= +/- 0.9067 VAC When applied to the PT primary voltage (LUPLV)

LUPLV = +/- LULV x PT Ratio * (3)1/2 (Primary voltage/Secondary voltage)

= +/- 0.9067 x 35 x 1.73205

= +/- 54.97 VAC 8.7 Calculation of Loop Drift (DL) 8.7.1 Transformer Temperature Drift Effects (TDT) 0 per Assumption 7.1.13

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 24 of 32 8.7.2 Relay Temperature Drift Effects (TDR) 0 per assumption 7.1.13 8.7.3 Relay Drift (DRR):

DRR = +/- 0.392 VAC per Reference 3.14 (2 Value)

As there are no other components of drift to be considered, DL = DRR Indexed to the PT primary voltage

= DRR x 35 x (3)1/2

= +/- 0.392 VAC x 35 x (3)1/2

= +/- 23.77 VAC 8.8 Calculation of Total Loop Uncertainty (TLU)

Reference 3.2 defines loop uncertainty as:

TLU = +/- (m/n)[(AT)2 + (AR)2 + (CL)2 + (DL)2]1/2 8.8.1 Total Loop Uncertainty - Loss of Voltage (TLULV)

TLULV = +/- (m/n)[(ATLV)2 + (ARLV)2 + (CLLV)2 + (DL)2]1/2 +/- M (Margin)

= +/- (1.645/2)[( 0.1537)2 + (0.5771)2 + (0. 266)2 + (0.392)2]1/2 +/- 0.4430

= +/- 1.07 VAC When applied to the PT primary voltage (TLUPLV)

TLUPLV = +/- TLULV x PT Ratio x (3)1/2 (Primary voltage/Secondary voltage)

= +/- 1.07 x 35 x 1.73205

= +/-64.87 VAC 8.9 Calculation of Reset Differential 8.9.1 Reset Differential for Loss of Voltage (RDLV)

(Reference 3.9.1 and 3.15)

RDLV = + (3.0% of Setting) nominal

= + 0.03 x 51.23

= + 1.54 VAC nominal Indexed to the PT primary voltage

= RDLV x 35 x (3)1/2

= 93.36 VAC nominal RDLV = + (3.0% + 1.5% of Setting) max

= + 0.045 x 51.23

= + 2.305 VAC max Indexed to the PT primary voltage

= RDLV x 35 x (3)1/2

= 139.73 VAC Max Calculated uncertainties (LU and TLU) are applicable to reset.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 25 of 32 Summary of Calculation Transformer Undervoltage Relay Terms Device 1 Device 2 Values Ref. Values Ref.

Input Range 0 - 4200 - 3.9.5 0 - 120 - 3.9.2 Process Units VAC - 3.9.5 VAC - 3.9.2 7.1.15 Reference Accuracy (RA) +/-0.3% of Setting 2 3.9.2 +/-0.25% of Setting 2 7.1.12 Temperature Effect (TE) 0 - 7.1.12 +/-0.476 2 8.1.3 Seismic Effects (SE) N/A - 7.1.4 0 - 7.1.4 Radiation Effect (RE) N/A - 7.1.5 N/A - 7.1.5 Instrument Drift (DR) N/A - 7.1.14 +/-0.392 2 3.14, 7.1.14 Temperature Drift (TD) N/A - 7.1.13 N/A - 7.1.13 Radiation Drift Effect N/A - 7.1.5 N/A - 7.1.5 (RD)

Power Supply Effect (PS) N/A - 7.1.6 +/- 0.3 2 7.1.6, 8.1.2 Static Pressure Effects (SP) N/A - 7.1.8 N/A - 7.1.8 Humidity Effects (HE) N/A - 7.1.9 N/A - 7.1.9 Process Measurement N/A - 7.1.7 N/A - 7.1.7 Effect (PM)

Insulation Resistance N/A - 7.1.10 N/A - 7.1.10 Effect (IR)

Zero Effect (ZE) N/A - 7.1.3 N/A - 7.1.3

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 26 of 32 8.10 As-Left Tolerance (ALT)

Note: For the purposes of calculating ALT, the actual MTE value, MTE LLV is used.

ALTR - Relay Calculation MTELLV = 0.163 VAC Section 8.4.1.1 ALTR = +/- SRSS (RARLV, MTELLV)

= +/- SRSS (0.1281, 0.163) VAC

= +/- 0.21 VAC 8.11 As-Found Tolerance (AFT)

AFTR- Relay Calculation Since drift (DRR) was determined using plant specific as-found/as-left calibration data:

AFTR = DRR

= +/-0.392 VAC 8.12 Loop Tolerances ALTL - As-Left Loop Tolerance ALTL = +/- SRSS (ALTR)

= +/- SRSS (0.21) VAC

= +/- 0.21 VAC AFTL - As-Found Loop Tolerance AFTL = +/-SRSS (AFTR)

= +/-SRSS (0.392) VAC

= +/- 0.392 VAC Summary of Calibration Tolerances Relay As-Left Tolerance (ALTR) +/- 0.21 VAC Relay As-Found Tolerance (AFTR) +/- 0.392 VAC As-Left Loop Tolerance (ALTL) +/- 0.21 VAC As-Found Loop Tolerance (AFTL) +/- 0.392 VAC

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 27 of 32 9.0 Simplified Block Diagram Potential Transformer Undervoltage Relay Westinghouse ABB Model 27H Model VIY-60 4200/120 VAC Relay Mark Numbers Div. I Div II ENS-SWG1A-27-1A SWG1B-27-1A Loss of Voltage ENS-SWG1A-27-1B SWG1B-27-1B Loss of Voltage ENS-SWG1A-27-1C SWG1B-27-1C Loss of Voltage Transformer Mark Number ENS-SWG1A-PT-BUS ENS-SWG1B-PT-BUS

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 28 of 32 ATTACHMENT 1 ATTACHMENT 9.1 DESIGN VERIFICATION COVER PAGE Sheet 1 of 1 DESIGN VERIFICATION COVER PAGE ANO-1 ANO-2 IP-2 IP-3 JAF PLP PNPS VY GGNS RBS W3 NP Revision No.

Document No. G13.18.6.2-ENS*002 Page 1 of 4 003

Title:

Instrument Loop Uncertainty/Setpoint Determination for the ABB Model 27H Undervoltage Relay Quality Related Augmented Quality Related DV Method: Design Review Alternate Calculation Qualification Testing VERIFICATION REQUIRED DISCIPLINE VERIFICATION COMPLETE AND COMMENTS RESOLVED (DV print, sign, and date)

Electrical Robin Smith / See AS for signature & date Mechanical Instrument and Control Civil/Structural Nuclear Originator:

Mary Coffaro / See AS for signature & date Print/Sign/Date After Comments Have Been Resolved

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 29 of 32 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 1 of 3 IDENTIFICATION: DISCIPLINE:

Document

Title:

Instrument Loop Uncertainty/Setpoint Determination for the ABB Model Civil/Structural 27H Undervoltage Relay Electrical Doc. No.: G13.18.6.2-ENS*002 Rev. 003 QA Cat.

I&C Robin Smith / See AS for signature & date Verifier: Print Sign Date Mechanical Nuclear Manager authorization Other for supervisor performing Verification.

N/A Print Sign Date METHOD OF VERIFICATION:

Design Review Alternate Calculations Qualification Test The following basic questions are addressed as applicable, during the performance of any design verification. These questions are based on the requirements of ANSI N45.2.11 - 1974.

NOTE The reviewer can use the Comments/Continuation sheet at the end for entering any comment/resolution along with the appropriate question number. Additional items with new question numbers can also be entered.

1. Design Inputs - Were the inputs correctly selected and incorporated into the design?

(Design inputs include design bases, plant operational conditions, performance requirements, regulatory requirements and commitments, codes, standards, field data, etc. All information used as design inputs should have been reviewed and approved by the responsible design organization, as applicable.

All inputs need to be retrievable or excerpts of documents used should be attached.

See site specific design input procedures for guidance in identifying inputs.)

Yes No N/A

2. Assumptions - Are assumptions necessary to perform the design activity adequately described and reasonable? Where necessary, are assumptions identified for subsequent re-verification when the detailed activities are completed? Are the latest applicable revisions of design documents utilized?

Yes No N/A

3. Quality Assurance - Are the appropriate quality and quality assurance requirements specified?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 30 of 32 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 2 of 3

4. Codes, Standards and Regulatory Requirements - Are the applicable codes, standards and regulatory requirements, including issue and addenda properly identified and are their requirements for design met?

Yes No N/A

5. Construction and Operating Experience - Have applicable construction and operating experience been considered?

Yes No N/A

6. Interfaces - Have the design interface requirements been satisfied and documented?

Yes No N/A

7. Methods - Was an appropriate design or analytical (for calculations) method used?

Yes No N/A

8. Design Outputs - Is the output reasonable compared to the inputs?

Yes No N/A

9. Parts, Equipment and Processes - Are the specified parts, equipment, and processes suitable for the required application?

Yes No N/A

10. Materials Compatibility - Are the specified materials compatible with each other and the design environmental conditions to which the material will be exposed?

Yes No N/A

11. Maintenance requirements - Have adequate maintenance features and requirements been specified?

Yes No N/A

12. Accessibility for Maintenance - Are accessibility and other design provisions adequate for performance of needed maintenance and repair?

Yes No N/A

13. Accessibility for In-service Inspection - Has adequate accessibility been provided to perform the in-service inspection expected to be required during the plant life?

Yes No N/A

14. Radiation Exposure - Has the design properly considered radiation exposure to the public and plant personnel?

Yes No N/A

15. Acceptance Criteria - Are the acceptance criteria incorporated in the design documents sufficient to allow verification that design requirements have been satisfactorily accomplished?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 31 of 32 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 3 of 3

16. Test Requirements - Have adequate pre-operational and subsequent periodic test requirements been appropriately specified?

Yes No N/A

17. Handling, Storage, Cleaning and Shipping - Are adequate handling, storage, cleaning and shipping requirements specified?

Yes No N/A

18. Identification Requirements - Are adequate identification requirements specified?

Yes No N/A

19. Records and Documentation - Are requirements for record preparation, review, approval, retention, etc.,

adequately specified? Are all documents prepared in a clear legible manner suitable for microfilming and/or other documentation storage method? Have all impacted documents been identified for update as necessary?

Yes No N/A

20. Software Quality Assurance- ENN sites: For a calculation that utilized software applications (e.g.,

GOTHIC, SYMCORD), was it properly verified and validated in accordance with EN- IT-104 or previous site SQA Program?

ENS sites: This is an EN-IT-104 task. However, per ENS-DC-126, for exempt software, was it verified in the calculation?

Yes No N/A

21. Has adverse impact on peripheral components and systems, outside the boundary of the document being verified, been considered?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*002 Rev. 003 RIVER BEND STATION Page 32 of 32 ATTACHMENT 1 ATTACHMENT 9.7 DESIGN VERIFICATION COMMENT SHEET Sheet 1 of 1 Comments / Continuation Sheet Question Comments Resolution Initial/Date 1 Comments provided by markup. Comments incorporated. RS 10-11-12

ANO-1 ANO-2 GGNS IP-2 IP-3 PLP JAF PNPS RBS VY W3 NP-GGNS-3 NP-RBS-3 CALCULATION (1) (2)

EC # 40339 Page 1 of 30 COVER PAGE (3) (4)

Design Basis Calc. YES NO CALCULATION EC Markup (5) (6)

Calculation No: G13.18.6.2-ENS*004 Revision: 002 (7) (8)

Title:

Loop Uncertainty Determination for DIV III Loss of Voltage Relays - Editorial GE Model NGV Undervoltage Relay YES NO (9) (10)

System(s): 302 Review Org (Department): NSBE3 (I&C Design)

(11) (12)

Safety Class: Component/Equipment/Structure Type/Number:

Safety / Quality Related E22-S004-27N1 E22-S004-27N2 Augmented Quality Program Non-Safety Related (13)

Document Type: F43.02 (14)

Keywords (Description/Topical Codes): uncertainty, calculation REVIEWS (15) (16) (17)

Name/Signature/Date Name/Signature/Date Name/Signature/Date Mary Coffaro / See AS Robin Smith / See AS Paul Matzke / See AS Responsible Engineer Supervisor/Approval Design Verifier Reviewer Comments Attached Comments Attached

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 2 OF 30 CALCULATION REFERENCE CALCULATION NO: G.13.18.6.2-ENS*004 SHEET REVISION: 002 I. EC Markups Incorporated (N/A to NP calculations) None II. Relationships: Sht Rev Input Output Impact Tracking No.

Doc Doc Y/N

1. EN-DC-126 -- 004 N

2. EN-IC-S-007-R 0 000 N

3. 7224.300-000-001B 0 300 N

4. 201.130-186 0 000 N

5. 215.150 0 006 N

6. G080-1344 0 000 N

7. 6221.418-000-001A 0 300 N

8. F137-0100 0 000 N

9. 0221.418-000-008 0 300 N

10. EE-001M 0 009 N

11. GE-828E537AA 003 028 N

12. GE-828E537AA 007 030 N

13. GE-828E537AA 008 028 N

14. GE-828E537AA 011 030 N

15. STP-302-1604 -- 021 Y A/R 00154228

16. GE-152D8167 005 004 N

17. G13.18.6.3-012 0 000 N

18. EDP-AN-02 -- 301 N

19. GE-152D8167 003 006 N

20. GE-152D8167 003A 006 N

21. GE-152D8167 004 007 N

22. BE-230D 0 011 N

23. 0221.418-000-049 0 300 N

25. G13.18.3.1-005 0 000 Y EC40339

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 3 OF 30 III. CROSS

REFERENCES:

1. Asset Suite Equipment Data Base (EDB)

2. Technical Specifications section B3.3.8.1

3. ANSI Standards C57.13 (1993), C37.90 (1989)

4. Multi-Amp Instruction Book EPOCH-10

5. USAR Figures 3.11-1 through 5 IV. SOFTWARE USED: N/A

Title:

Version/Release: Disk/CD No.

V. DISK/CDS INCLUDED: N/A

Title:

Version/Release Disk/CD No.

VI. OTHER CHANGES:

References removed from calculation: G13.18.3.1*002

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 4 OF 30 Revision Record of Revision Initial issue to support determination of loss of voltage relay setpoints by Electrical 0

Engineering 1 Incorporated new drift value and extended calibration period to 30 months per EC 11753.

EC 40339: Incorporated new setpoints as determined in calculation G13.18.3.1-005 into this 2

calculation and added computation of ALT and AFT.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 5 OF 30 TABLE OF CONTENTS COVER SHEET CALCULATION REFERENCES RECORD OF REVISION SECTION PAGE 1.0 Purpose and Description.................................................................................................................. 6 2.0 Results/Conclusion .......................................................................................................................... 7 3.0 References ....................................................................................................................................... 8 4.0 Design Input .................................................................................................................................. 10 5.0 Nomenclature ................................................................................................................................ 14 6.0 Calculation Methodology .............................................................................................................. 15 7.0 Assumptions .................................................................................................................................. 16 8.0 Calculation .................................................................................................................................... 18 9.0 Simplified Block Diagram ............................................................................................................ 24 Attachments:

1 E-mail message from General Electric Power Management to George Boles..................... 1 page 2 Design Verification Form and Comments ..........................................................................5 pages

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 6 OF 30 1.0 Purpose and Description 1.1. Purpose The purpose of this calculation is to determine the uncertainty associated with the existing Division III, Safety-Related, 4.16 kV Loss of Voltage relays E22-27N1 and 27N2. Nominal trip Setpoints and Allowable values will be determined by the Electrical Engineering group in calculation G13.18.3.1*002 and G13.18.3.1-005.

1.2. Loop Descriptions The DIV. III incoming Normal Supply power is monitored by two undervoltage relays (27N1 and 27N2) whose outputs are arranged in a one-out-of-two logic configuration (Reference 3.10.3). The channels include electronic equipment (e.g., trip units) that compare measured input signals with pre-established setpoints. When the setpoint is exceeded, the channel output relay actuates, opens the DIV III Normal Supply source breaker.

The Division III 4.16 kV emergency bus has its own independent Loss of Voltage instrumentation and associated trip logic. The DIV III emergency bus is monitored by undervoltage relays 27S1 through 27S4) whose outputs are arranged in a one-out-of-two, twice logic configuration (Reference 3.10.3).

1.3. Design Bases/Design Bases Event Per Bases B 3.3.8.1, Reference 3.7.3, successful operation of the required safety functions of the Emergency Core Cooling Systems (ECCS) is dependent upon the availability of adequate power sources for energizing the various components such as pump motors, motor operated valves, and the associated control components. The LOP instrumentation monitors the 4.16 kV emergency buses. Offsite power is the preferred source of power for the 4.16 kV emergency buses. If the monitors determine that insufficient power is available, the buses are disconnected from the offsite power sources and connected to the onsite diesel generator (DG) power sources.

1.4. Degree of Accuracy/Limits of Applicability The results of this calculation are based on the statistical methods of at least 95% probability of occurrence for a one sided probability of distribution in accordance with General Electric Instrument Setpoint Methodology, (Reference 3.3) and EN-IC-S-007-R, Instrument Loop Uncertainty & Setpoint Calculations, (Reference 3.2).

The results of this calculation are valid under the Assumptions stated in Section 7.0 of this calculation. The appropriate use of this calculation to support design or station activities, other than those specified in Section 1.1 of this calculation, is the responsibility of the user.

1.5. Applicability A data analysis has been performed in order to determine which, if any, redundant instrument loops are bounded by the results of this calculation. This calculation is applicable to the Loops associated with the primary elements stated in Section 2.1. The results of this calculation are bounding for the applicable instrument loops, based on such factors as instrument manufacturer and model number, instrument location/environmental parameters, actual installation and use of the instrument in process measurements.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 7 OF 30 2.0 Results/Conclusion 2.1. Results The Loop Uncertainty and Total Loop Uncertainty for the Loss of Voltage and Loss of Voltage relays were calculated in Section 8.0. These values and other associated values such as loop drift are presented in table 2.1-1.

Table 2.1-1 Model NGV Loss of Voltage Relay - Voltage Trip Maximum Loop Channel Total Loop M&TE Loop Loop Setting Uncertainty Drift Uncertainty Accuracy Loop Tol.

System(s) (LU) (DL) (TLU) Requirements Identification (ALTL)

(MTEL)

VAC VAC VAC VAC VAC E22-S004-27N1 +/- 2.37 +/- 5. 51 302 +/- 5.823 +/- 0. 390 +/- 0.99 E22-S004-27N2 *+/- 82.95 *+/- 192.85

Value adjusted to reflect uncertainty applied to the primary of the potential transformer.

2.2. Conclusions The calculated Loop Uncertainty and Total Loop Uncertainty presented in Table 2.1-1 are bounding for the relays and circuits listed in Section 2.1.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 8 OF 30 3.0 References 3.1. EN-DC-126, Engineering Calculation Process 3.2. EN-IC-S-007-R, Instrument Loop Uncertainty & Setpoint Calculations 3.3. 7224.300-000-001B, NEDC-31336P-A, General Electric Instrument Setpoint Methodology 3.4. Asset Suite Equipment Data Base (EDB) 3.5. 201.130-186, Peak Spreading of ARS Curves for the Control Building 3.6. Environmental Design Criteria, Spec 215.150, Rev. 006, including USAR figures 3.11-1 through 5 as outlined in EDP-AN-02 section 6.3.1 3.7. RBS Operating License 3.7.1. Not used 3.7.2. Not used 3.7.3. Technical Specifications Bases Sections B3.3.8.1 3.8. RBS USAR None 3.9. Vendor Manuals/Documents 3.9.1. G080-1344, General Electric Instructions Undervoltage Relays 3.9.2. F137-0100, Fluke 45 Dual Display Multimeter Users Manual 3.9.3. Multi-Amp Instructions for the EPOCH-10, Microprocessor-Enhanced Protective Relay Test Set, (maintained by the Standards Laboratory) 3.9.4. 6221.418-000-001A, High Pressure Core Spray System Power Supply Unit, NEDO-10905 3.9.5. 0221.418-000-008, Purchase Specification Data Sheet 21A9300AU, High Pressure Core Spray System 3.10. Electrical Schematics 3.10.1. EE-001M, 4160V One Line Diagram Standby Bus E22-S004 3.10.2. GE-828E537AA, Sheet 003, Elementary Diagram HPCS Power Supply System 3.10.3. GE-828E537AA, Sheet 007, Elementary Diagram HPCS Power Supply System 3.10.4. GE-828E537AA, Sheet 008, Elementary Diagram HPCS Power Supply System

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 9 OF 30 3.10.5. GE-828E537AA, Sheet 011, Elementary Diagram HPCS Power Supply System 3.11. Surveillance Test Procedures:

3.11.1. Not used 3.11.2. Not used 3.12. Logic Diagrams 3.12.1. GE-152D8167, Sheet 003, Functional Control Diagram, High Pressure Core Spray Power Supply 3.12.2. GE-152D8167, Sheet 003A, Functional Control Diagram, High Pressure Core Spray Power Supply 3.12.3. GE-152D8167, Sheet 004, Functional Control Diagram, High Pressure Core Spray Power Supply 3.12.4. GE-152D8167, Sheet 005, Functional Control Diagram, High Pressure Core Spray Power Supply 3.13. Standards 3.13.1. ANSI Standard C57.13, Requirements for Instrument Transformers 3.13.2. ANSI Standard C37.90, Relays and Relay Systems Associated with Electric Power Apparatus 3.14. E-mail message from General Electric Power Management to George Boles, Attachment 1 3.15. G13.18.6.3-012, General Electric Model NGV13B Relay Drift Analysis 3.16. BE-230D, 4.16kV Bus 1E22*S004 Relay Settings 3.17. 0221.418-000-049, 1E22-S004 Equipment Summary 3.18. G13.18.3.1-005, Degraded Voltage Relay Setpoints for E22-S004

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 10 OF 30 4.0 Design Input 4.1. Loop Input 4.1.1. Loop Data:

Form 1: Loop/Process Data Sheet Description Data Reference Loop Sensor(s) E22-S004 PT-Line 3.10.4 Location E22-S004 3.10.4 Output Range 0 - 120 VAC 3.10.4 Input Range 0 - 4200 VAC 3.10.4 4.1.2. Special Considerations:

4.1.2.1. Calibration shall be performed using the following instruments:

Multi-Amp EPOCH-10 relay tester set to Oscillator mode (Reference 3.9.3)

Fluke Model 45 Digital Multimeter set to medium resolution (Reference 3.9.2) 4.1.2.2. A minimum of 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months warm up time at the location where the M&TE will be used shall be allowed for the Fluke Model 45 Multimeter.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 11 OF 30 4.2. Loop Instrumentation Form 2: Instrument Data Sheet Calc. Device Number 1 Description Data Reference Component Number(s) E22-S004-PT-Bus 3.4 Manufacturer GE 3.17 Model(s) JVM 3.17 Location(s) CB. 116EL/E22-S004 3.4 Service Description Transformer 3.4 Instrument Range 0 - 4200 VAC 3.10.4 Instrument Span 120 VAC 3.10.4 Output Range 0 - 120 VAC 3.10.4 Calibration Interval Evaluated N/A Note Device Setting Tolerance N/A Note Note: Potential transformers for instrument service cannot be calibrated or adjusted.

Therefore there is no device setting tolerance or calibration interval.

Form 2: Instrument Data Sheet Calc. Device Number 2 Description Data Reference E22-S004-27N1 Component Number(s) 3.4 E22-S004-27N2 Manufacturer General Electric 3.16 Model 12NGV 3.16 Location(s) CB. 116EL/E22-S004 3.4 Service Description Relay 3.4 Input Range 0 - 120 VAC 3.9.1 Output Contact Action 3.10, 3.12 30 Mo.

Calibration Interval Evaluated 3.2 (24 Mo. + 25%)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 12 OF 30 4.3. Loop Device Data Form 3: Instrument Accuracy Data Sheet Calc. Device Number 1 General Electric JVM Description Data Reference 0.3% of setting 3.9.4, 8.2.1 Reference Accuracy (RAT) 2 7.1.2 Seismic Effects (SET) N/A 7.1.4 Temperature Effects (TET) N/A 7.1.12 Insulation Resistance Effects (IRT) N/A 7.1.10 Temperature Drift Effect (TDT) N/A 7.1.13 Drift (DRT) N/A 7.1.14 Form 3: Instrument Accuracy Data Sheet Calc. Device Number 2 General Electric NGV Description Data Reference

+/- 1% of setting 3.14, Attachment 1 Reference Accuracy (RAR) 2 7.1.2 Seismic Effects (SER) 0 7.1.4 2% of setting Temperature Effects (TER) 7.1.12 (68oF - 104oF)

Insulation Resistance Effects (IRR) N/A 7.1.10 Temperature Drift Effect (TDR) N/A 7.1.13

+/- 5.823 VAC Drift (DRR) 3.15 2

Power Supply Effect (PSR) N/A 7.1.6 10% of Setting 3.9.1 Reset Differential 2 7.1.2

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 13 OF 30 4.4. Environmental Information Form 4: Environmental Conditions Data Sheet Zone: CB-116-2 Description Data Reference Location Building/Elevation CB-116 3.4 Room/Area Switchgear Room 3.4 Normal Temperature Range, oF 40 - 104 3.6, 7.1.12 Humidity Range, %RH 20 - 90 3.6, 7.1.9 Radiation 40 Year Total Integrated Dose, 800 3.6 Rads Pressure Range Atmos 3.6 Accident (Loss of Offsite Power)

Temperature Range, oF Same as Normal 3.6 Humidity Range, %RH Same as Normal 3.6 Radiation, Total Integrated Dose, Rads Same as Normal 3.6 Pressure Range Same as Normal 3.6 Seismic Accelerations, g <3 3.5

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 14 OF 30 5.0 Nomenclature The terms and abbreviations that are not defined in this section are defined in Reference 3.3, Reference 3.2 or within the text of this calculation.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 15 OF 30 6.0 Calculation Methodology This calculation is prepared in accordance with the EN-IC-S-007-R, Instrument Loop Uncertainty & Setpoint Calculations (Reference 3.2), EN-DC-126, Engineering Calculation Process (Reference 3.1) and 7224.300-000-001B, General Electric Instrument Setpoint Methodology (Reference 3.3).

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 16 OF 30 7.0 Assumptions 7.1. Assumptions that do not require confirmation 7.1.1. Miscellaneous Allowance (ML)

A miscellaneous allowance has not been applied to the uncertainty of the devices evaluated by this calculation. By assuming all vendor supplied data is a 2 value and with intermediate rounding of values, sufficient conservatism has been introduced.

7.1.2. Vendor 2 Data For conservatism, all uncertainties given in vendor data specifications are assumed to be 2 unless otherwise specified.

7.1.3. Zero Effect Not applicable 7.1.4. Seismic Effects (SE)

Seismic effects are assumed to be negligible for the NGV relay, per Reference 3.9.5.

Seismic effects are not applicable to potential transformers.

7.1.5. Radiation Effects (RE) & Radiation Drift Effect (RD)

Radiation effects and radiation drift effects are not applicable to the relays and transformers evaluated by this calculation, as they are located in a mild environment (Reference 3.6).

7.1.6. Power Supply Effects (PS)

Power supply effects are not applicable to type NGV relays as the relay does not utilize a control power source separate from the sensed voltage.

Power supply effects are not applicable to transformers.

7.1.7. Process Measurement Uncertainty (PM)

Not Applicable 7.1.8. Static Pressure Effects (SP)

Not Applicable 7.1.9. Humidity Effects (HE)

The relays were specified by the HPCS manufacturer and are assumed to be designed to with stand the environmental effects in the mounting location. The HPCS Design Specification, Section 4.6.1 (reference 3.9.5) states that the design conditions for the switchgear and its sub-components are 20-90% Relative Humidity. Per Reference 3.6, the humidity range for environmental zone CB-116-2 is 20 to 90% RH. Reference 3.6 also

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 17 OF 30 identifies that 1% of the calendar year (30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months ) the humidity could be 5 % higher. This is considered negligible. Therefore, it is assumed that Humidity Effects are negligible.

7.1.10. Insulation Resistance Effects (IR)

(IR) effects, which may result in degradation of circuit insulation, are not applicable to the devices and circuits addressed by this calculation.

7.1.11. Voltage Drop Voltage drop due to long wiring lengths between source and load are assumed to be negligible as the potential transformers and the under-voltage relays evaluated by this calculation are located in the same switch gear compartment.

7.1.12. Temperature Effects (TE)

There is no temperature effect data available from the manufacturer for the Type NGV relay. Therefore for conservatism, temperature effects are assumed to be equal to the repeatability value (+/- 1% of setting) given in Attachment 1. Reference 3.6 also identifies that 1% of the calendar year (30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months ) the temperature could be 5oF higher. This is considered negligible.

Temperature effects are not applicable to transformers. Temperatures above the rated value would tend to produce total failure of the transformer, rather than an error in output.

7.1.13. Temperature Drift Effects (TD)

The drift analysis performed in Reference 3.15 is assumed to encompass all components of drift and drift effects except for temperature drift effects which are assumed to be included in the Reference Accuracy of the device.

Temperature drift effects are not applicable to transformers.

7.1.14. Instrument Drift The drift analysis can be found in Reference 3.15.

Drift is not applicable to transformers.

7.2. Assumptions that require confirmation None

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 18 OF 30 8.0 Calculation This section includes the following subsections used in performance of this calculation:

8.1) Calculation of Miscellaneous Uncertainties 8.2) Calculation of Individual Device Reference Accuracy (RA) and Determination of Appropriate Device Uncertainty 8.3) Calculation of Individual Device Uncertainties 8.4) Calculation of Loop Calibration Accuracy (CL) 8.5) Calculation of Insulation Resistance Effects (IR) 8.6) Calculation of Loop Uncertainty (LU) 8.7) Calculation of the Loop Drift (DL) 8.8) Calculation of Total Loop Uncertainty (TLU) 8.9) Calculation of Reset Differential (RD) 8.10) As-Left Tolerance (ALT) 8.11) As-Found Tolerance (AFT) 8.12) Loop Tolerances 8.1. Calculation of Miscellaneous Uncertainties 8.1.1. Calculation of Transformer Burden and Determination of Reference Accuracy Per Reference 3.9.4, page 5-10, section 5.3, the Type JVM potential transformer has a 1.2% ratio error for a combined relaying and metering burden of greater than 75 VA.

However, a burden below 75VA yields a transformer accuracy of +/- 0.3% of setting. As shown below, the devices fed by the PT Line transformer do not meet the 75 VA burden threshold.

2 Model NGV Undervoltage Relays @ 4.2 VA each = 8.4 2 Model 27N Undervoltage Relays @ 0.5 VA each = 1.0 1 Synchronizing Relay @ 2.0 VA = 2.0 2 Volt Meter, GE AB40 @ 0.32 VA each = 0.64 1 Synchronizing Scope @ 5.2 VA = 5.2 Control Relays/Meters not listed, Assumed Value = 10.0 27.24 VA Therefore, PT Reference Accuracy shall be 0.3% of setting (90.24 VAC per Ref. 3.18) or 0.261 VAC for this calculation.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 19 OF 30 8.1.2. Calculation of Relay Temperature Effects (TER) (Assumption 7.1.12)

TER = +/- 1% Setting

= +/- 0.01 x 90.24 VAC

= +/- 0.903 VAC 8.2. Calculation of Individual Device Reference Accuracy (RA) & Determination of Appropriate Device Uncertainty 8.2.1. Transformer Reference Accuracy (RAT)

RAT = +/- 0.3% of Setting

= +/- 0.003

90.24 VAC

= +/- 0.271 VAC (2 Value) 8.2.2. Undervoltage Relay Reference Accuracy for Voltage Setting (RAR)

RAR = +/- 1% of Setting

= +/- 0.01

90.24 VAC

= +/- 0.903 VAC (2 Value) 8.2.3. Loop Reference Accuracy (RAL)

(Reference 3.2)

RAL = +/- [(RAT)2 + (RAR)2]1/2

= +/- [(0.271)2 + (0.903)2]1/2

= +/- 0.943 VAC (2 Value) 8.3. Calculation of Individual Device Uncertainties (Reference 3.2) 8.3.1. Device Uncertainty Transformer (AT) (Sections 4.3 and 8.2.1)

AT = +/- [(RAT)2]1/2

= +/- [(0.271)2]1/2

= + 0.271 VAC (2 Value) 8.3.2. Device Uncertainty Relay Voltage Setting (AR)

AR = +/- [(RAR)2 + (PSR)2 + (TER)2]1/2

= +/- [(0.903)2 + (0)2 + (0.903)2]1/2

= +/- 1.278 VAC (2 Value) 8.4. Calculation of Loop Calibration Accuracy (CL)

Per reference 3.2 and 3.3 Loop Calibration uncertainty (CL) is defined as:

CL = +/- [(MTEL)2 + (CTL)2]1/2

= +/- [0.3902 + 0.992]1/2 VAC Reference sections 8.4.1 and 8.4.2

= +/- 1.07 VAC (2 Value)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 20 OF 30 8.4.1. Measuring and Test Equipment Effects - Relay (MTEL)

Measurement & Test Equipment (MTEL) effects are defined from Reference 3.2 as:

MTEL = +/- [(MTERAT)2 + (MTERIT)2 + (MTETET)2 + (MTECST)2]1/2 Where:

MTERAT = Reference accuracy of the M&TE used for calibration. Assumed equal to the Reference Accuracy of the primary element in the loop, 0.271 VAC (Reference 3.2).

MTERIT = Readability of the M&TE used, assumed to be 0 as all M&TE used are digital with at least 2 digits of resolution. (Reference 3.2)

MTETET = Effects of temperature changes on the M&TE between the calibration laboratory and the area where the M&TE is used. Assumed equal to the Reference accuracy of the primary element in the loop, 0.271 VAC (Reference 3.2).

MTECST = The accuracy of the calibration standard used to calibrate the M&TE, assumed equal to 1/4 the Reference accuracy of the primary element in the loop, 0.068 VAC (Reference 3.2).

MTEL = +/- [(MTERAT)2 + (MTERIT)2 + (MTETET)2 + (MTECST)2]1/2

= +/- [(0.271)2 + (0)2 + (0.271)2 + (0.068)2]1/2

= +/- 0.390 VAC (2 Value) 8.4.2. Calculation of Calibration Effects (CT)

Calibration Effects (CTL) are defined from Reference 3.2 as:

CTL = Square Root Sum of the Squares (SRSS) of the calibration effects which are uncertainties due to as Left loop accuracy. Per section 8.12, the as left loop tolerance (ALTL) is 0.99 VAC.

CTL = +/- 0.99 VAC (2 value) 8.5. Calculation of Insulation Resistance Effects (IR) 0 per Assumption 7.1.10 8.6. Calculation of Loop Uncertainty (LU)

LU = +/- (m/n)[(AT)2 + (AR)2 + (CL)2]1/2 +/- M (margin)

= +/- (1.645/2)[(0.271)2 + (1.278)2 + (1.07)2]1/2 +/- 0.981

= +/- 2.37 VAC Adjusted to reflect primary voltage to the PT

= +/- 2.37 x PT Ratio (Primary Voltage/Secondary Voltage)

= +/- 2.37 x 35 VAC

= +/- 82.95 VAC

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 21 OF 30 8.7. Calculation of Loop Drift (DL) 8.7.1. Transformer Temperature Drift Effects (TDT) 0 for per Assumption 7.1.13 8.7.2. Relay Temperature Drift Effects (TDR) 0 per assumption 7.1.13 8.7.3. Relay Drift (DRR):

Assumption 7.1.14 DRR = +/- 5.823 VAC (2 Value)

As the only component of loop drift is the relay drift determined in reference 3.15, Loop Drift (DRL) is equal to Relay Drift (DRR).

DL = +/- 5.823 VAC (2 Value) 8.8. Calculation of Total Loop Uncertainty (TLU) Calculation:

TLU = +/- (m/n)[(AT)2 + (AR)2 + (CL)2 + (DRL)2]1/2 +/- M (margin)

= +/- (1.645/2)[(0.271)2 + (1.278)2 + (1.07) + (5.823)2]1/2 +/- 0.523

= +/- 5.51VAC Adjusted to reflect primary voltage to the PT:

= +/- 5.51 x PT Ratio (Primary Voltage/Secondary Voltage)

= +/- 5.51 x 35 VAC

= +/- 192.85 VAC 8.9. Calculation of Reset Differential The reset differential is applied to the voltage setting and is specified to be +/- 10% of setting per References 3.9.1. This value will be used in the calculation.

RR = +/- 0.1

setting VAC

= +/- 0.1*90.24

= +/- 9.02 VAC Adjusted to reflected primary (bus) voltage at the PT:

= RR x PT Ratio (primary voltage/secondary voltage)

= +/- 9.02 x 35 VAC

= +/- 315.7 VAC Calculated uncertainties are applicable to reset.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 22 OF 30 Summary of Calculation Data Transformer Undervoltage Relay Device 1 Device 2 Values Ref Values Ref Input Range 0 - 42 kV - 3.13 0 - 120 - 3.13 Process Units VAC - 3.13 VAC - 3.13 Reference Accuracy (RA) 0.3% of Setting 2 8.2.1 1% of Setting 2 8.2.2 Temperature Effect (TE) N/A - 7.1.12 +/- 0.903 2 7.1.12 Seismic Effects (SE) N/A - 7.1.4 N/A - 7.1.4 Radiation Effect (RE) N/A - 7.1.5 N/A - 7.1.5 Instrument Drift (DR) N/A - 7.1.14 +/- 5.823 2 3.15 Temperature Drift Effect (TD) N/A - 7.1.13 N/A - 7.1.13 Radiation Drift Effect (RD) N/A - 7.1.5 N/A - 7.1.5 Power Supply Effect (PS) N/A - 7.1.6 N/A - 7.1.6 Humidity Effects (HE) N/A - 7.1.9 N/A - 7.1.9 Static Pressure Effect (SP) N/A - 7.1.8 N/A - 7.1.8 Process Measurement Effect N/A - 7.1.7 N/A - 7.1.7 (PM)

Insulation Resistance Effect (IR) N/A - 7.1.10 N/A - 7.1.10 Zero Effect (ZE) N/A - 7.1.3 N/A - 7.1.3

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 23 OF 30 8.10. As-Left Tolerance (ALT)

Note: For the purposes of calculating ALT, the actual MTE value, MTE L is used.

ALTR - Relay Calculation MTEL = 0.390 VAC Section 8.4.1 ALTR = +/- SRSS (RAR, MTEL)

= +/- SRSS (0.903, 0.390) VAC

= +/- 0.99 VAC 8.11. As-Found Tolerance (AFT)

AFTR- Relay Calculation Since drift (DRR) was determined using plant specific as-found/as-left calibration data:

AFTR = DRR

= +/-5.82 VAC 8.12. Loop Tolerances ALTL - As-Left Loop Tolerance ALTL = +/- SRSS (ALTR)

= +/- SRSS (0.99) VAC

= +/- 0.99 VAC AFTL - As-Found Loop Tolerance AFTL = +/-SRSS (AFTR)

= +/-SRSS (5.82) VAC

= +/- 5.82 VAC Summary of Calibration Tolerances Relay As-Left Tolerance (ALTR) +/- 0.99 VAC Relay As-Found Tolerance (AFTR) +/- 5.82 VAC As-Left Loop Tolerance (ALTL) +/- 0.99 VAC As-Found Loop Tolerance (AFTL) +/- 5.82 VAC

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 24 OF 30 9.0 Simplified Block Diagram

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 25 OF 30 ATTACHMENT 1

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 26 OF 30 ATTACHMENT 2 ATTACHMENT 9.1 DESIGN VERIFICATION COVER PAGE Sheet 1 of 1 DESIGN VERIFICATION COVER PAGE ANO-1 ANO-2 IP-2 IP-3 JAF PLP PNPS VY GGNS RBS W3 NP Revision No.

Document No. G13.18.6.2-ENS*004 Page 1 of 4 002

Title:

Loop Uncertainty Determination for DIV III Loss of Voltage Relays - GE Model NGV Undervoltage Relay Quality Related Augmented Quality Related DV Method: Design Review Alternate Calculation Qualification Testing VERIFICATION REQUIRED DISCIPLINE VERIFICATION COMPLETE AND COMMENTS RESOLVED (DV print, sign, and date)

Electrical Robin Smith / See AS for signature & date Mechanical Instrument and Control Civil/Structural Nuclear Originator:

Mary Coffaro/ See AS for signature & date Print/Sign/Date After Comments Have Been Resolved

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 27 OF 30 ATTACHMENT 2 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 1 of 3 IDENTIFICATION: DISCIPLINE:

Document

Title:

Loop Uncertainty Determination for DIV III Loss of Voltage Relays - Civil/Structural GE Model NGV Undervoltage Relay Electrical Doc. No.: G13.18.6.2-ENS*004 Rev. 002 QA Cat.

I&C Robin Smith / See AS for signature & date Verifier: Mechanical Print Sign Date Nuclear Manager authorization Other for supervisor performing Verification.

N/A Print Sign Date METHOD OF VERIFICATION:

Design Review Alternate Calculations Qualification Test The following basic questions are addressed as applicable, during the performance of any design verification. These questions are based on the requirements of ANSI N45.2.11 - 1974.

NOTE The reviewer can use the Comments/Continuation sheet at the end for entering any comment/resolution along with the appropriate question number. Additional items with new question numbers can also be entered.

1. Design Inputs - Were the inputs correctly selected and incorporated into the design?

(Design inputs include design bases, plant operational conditions, performance requirements, regulatory requirements and commitments, codes, standards, field data, etc. All information used as design inputs should have been reviewed and approved by the responsible design organization, as applicable.

All inputs need to be retrievable or excerpts of documents used should be attached.

See site specific design input procedures for guidance in identifying inputs.)

Yes No N/A

2. Assumptions - Are assumptions necessary to perform the design activity adequately described and reasonable?

Where necessary, are assumptions identified for subsequent re-verification when the detailed activities are completed? Are the latest applicable revisions of design documents utilized?

Yes No N/A

3. Quality Assurance - Are the appropriate quality and quality assurance requirements specified?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 28 OF 30 ATTACHMENT 2 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 2 of 3

4. Codes, Standards and Regulatory Requirements - Are the applicable codes, standards and regulatory requirements, including issue and addenda properly identified and are their requirements for design met?

Yes No N/A

5. Construction and Operating Experience - Have applicable construction and operating experience been considered?

Yes No N/A

6. Interfaces - Have the design interface requirements been satisfied and documented?

Yes No N/A

7. Methods - Was an appropriate design or analytical (for calculations) method used?

Yes No N/A

8. Design Outputs - Is the output reasonable compared to the inputs?

Yes No N/A

9. Parts, Equipment and Processes - Are the specified parts, equipment, and processes suitable for the required application?

Yes No N/A

10. Materials Compatibility - Are the specified materials compatible with each other and the design environmental conditions to which the material will be exposed?

Yes No N/A

11. Maintenance requirements - Have adequate maintenance features and requirements been specified?

Yes No N/A

12. Accessibility for Maintenance - Are accessibility and other design provisions adequate for performance of needed maintenance and repair?

Yes No N/A

13. Accessibility for In-service Inspection - Has adequate accessibility been provided to perform the in-service inspection expected to be required during the plant life?

Yes No N/A

14. Radiation Exposure - Has the design properly considered radiation exposure to the public and plant personnel?

Yes No N/A

15. Acceptance Criteria - Are the acceptance criteria incorporated in the design documents sufficient to allow verification that design requirements have been satisfactorily accomplished?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 29 OF 30 ATTACHMENT 2 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 3 of 3

16. Test Requirements - Have adequate pre-operational and subsequent periodic test requirements been appropriately specified?

Yes No N/A

17. Handling, Storage, Cleaning and Shipping - Are adequate handling, storage, cleaning and shipping requirements specified?

Yes No N/A

18. Identification Requirements - Are adequate identification requirements specified?

Yes No N/A

19. Records and Documentation - Are requirements for record preparation, review, approval, retention, etc.,

adequately specified? Are all documents prepared in a clear legible manner suitable for microfilming and/or other documentation storage method? Have all impacted documents been identified for update as necessary?

Yes No N/A

20. Software Quality Assurance- ENN sites: For a calculation that utilized software applications (e.g., GOTHIC, SYMCORD), was it properly verified and validated in accordance with EN- IT-104 or previous site SQA Program?

ENS sites: This is an EN-IT-104 task. However, per ENS-DC-126, for exempt software, was it verified in the calculation?

Yes No N/A

21. Has adverse impact on peripheral components and systems, outside the boundary of the document being verified, been considered?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*004, Rev. 002 RIVER BEND STATION PAGE 30 OF 30 ATTACHMENT 2 ATTACHMENT 9.7 DESIGN VERIFICATION COMMENT SHEET Sheet 1 of 1 Comments / Continuation Sheet Question Comments Resolution Initial/Date 1 Comments provided by markup All comments resolved. RS 10/12/12

ANO-1 ANO-2 GGNS IP-2 IP-3 PLP JAF PNPS RBS VY W3 NP-GGNS-3 NP-RBS-3 CALCULATION (1) (2)

EC # 40339 Page 1 of 34 COVER PAGE (3) (4)

Design Basis Calc. YES NO CALCULATION EC Markup (5) (6)

Calculation No: G13.18.6.2-ENS*006 Revision: 002 (7) (8)

Title:

Loop Uncertainty Determination for Div I and II Under Voltage Time Editorial Delay Relays - ABB Model 62K and 62L Time Delay Relays YES NO (9) (10)

System(s): 302 Review Org (Department): NSBE3 (I&C Design)

(11) (12)

Safety Class: Component/Equipment/Structure Type/Number:

Safety / Quality Related ENS-SWG1A-62-1 ENS-SWG1B-62-1 Augmented Quality Program Non-Safety Related ENS-SWG1A-62-2 ENS-SWG1B-62-2 ENS-SWG1A-62-5 ENS-SWG1B-62-5 (13)

Document Type: F43.02 ENS-SWG1A-62-6 ENS-SWG1B-62-6 (14)

Keywords (Description/Topical Codes): uncertainty, time delay REVIEWS (15) (16) (17)

Name/Signature/Date Name/Signature/Date Name/Signature/Date Mary Coffaro / See AS Robin Smith / See AS Paul Matzke / See AS Responsible Engineer Supervisor/Approval Design Verifier Reviewer Comments Attached Comments Attached

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 2 OF 34 CALCULATION REFERENCE SHEET I. EC Markups Incorporated (N/A to NP calculations):

II. Relationships: Sht Rev Input Output Impact Tracking No.

Doc Doc Y/N

1. EN-DC-126 -- 004 N

2. EN-IC-S-007-R 0 000 N

3. 7224.300-000-001B 0 300 N

4. 201.130-186 0 000 N

5. 215.150 0 006 N

6. B455-0147 0 000 N

7. 3242.521-102-001A 0 300 N

8. 0242.521-102-133 0 300 N

9. B455-0157 0 000 N

10. EE-001K 0 019 N

11. EE-001L 0 015 N

12. ESK-08ENS01 001 008 N

13. ESK-08EGS09 001 013 N

14. ESK-08EGS10 001 012 N

15. ESK-08EGS13 001 011 N

16. ESK-08EGS14 001 010 N

17. ESK-08EGS15 001 010 N

18. ESK-08EGS16 001 007 N

19. STP-302-1600 -- 020 N

20. STP-302-1601 -- 020 N

21. G13.18.6.3-009 0 000 N

22. LSK-24-09.05A 001 015 N

23. EDP-AN-02 -- 301 N

24. 0242.521-102-129 0 300 N

25. G13.18.3.1*001 0 003 Y EC37097

26. STP-302-1602 -- 023 Y A/R 00154232

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 3 OF 34 II. Relationships: Sht Rev Input Output Impact Tracking No.

Doc Doc Y/N

27. STP-302-1603 -- 024 Y A/R 00154233

28. BE-230A 0 009 N

29. BE-230B 0 011 N

30. EE-420G 0 011 N

31. EE-420H 0 008 N

32. STP-302-0102 -- 017 N

33. G13.18.3.1-004 0 000 Y EC40339 III. CROSS

REFERENCES:

1. Asset Suite Equipment Data Base (EDB)

2. Technical Specifications Section B3.3.8.1

3. Multi-Amp Instruction Book EPOCH-40

4. USAR Figures 3.11-1 through 5.

5. EQTAP IV. SOFTWARE USED:

Title:

N/A Version/Release: Disk/CD No.

V. DISK/CDS INCLUDED:

Title:

N/A Version/Release Disk/CD No.

VI. OTHER CHANGES:

References removed from calculation: G13.18.6.2-ENS*005, G13.18.3.1*002

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 4 OF 34 Revision Record of Revision Initial issue to support determination of degraded voltage relay setpoints and LAR by ER-RB-0 2001-0360-000.

1 Incorporated new drift value for 62K and 62L relay per EC 11753.

EC40339: Revised to provide the Degraded Voltage Relay NO-LOCA time delay Loop Uncertainty and Total Loop Uncertainty based on the revised setpoint provided in calculation 2

G13.18.3.1-004. Added ALT and AFT (sections 8.9 through 8.11) for Time Delay Relay 62-2 as required by License Amendment Request (LAR) 2011-05.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 5 OF 34 TABLE OF CONTENTS COVER SHEET CALCULATION REFERENCES RECORD OF REVISION SECTION SHEET 1.0 PURPOSE AND DESCRIPTION 6 2.0 RESULTS/CONCLUSION 8

3.0 REFERENCES

9 4.0 DESIGN INPUT 12 5.0 NOMENCLATURE 15 6.0 CALCULATION METHODOLOGY 16 7.0 ASSUMPTIONS 17 8.0 CALCULATION 19 9.0 APPLICABLE MARK NUMBERS 29 Attachments:

1 Design Verification Record and Comments ....................................................................... 5 pages

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 6 OF 34 1.0 PURPOSE AND DESCRIPTION 1.1 Purpose The purpose of this calculation is to determine the uncertainty associated with the Division I

& II, Safety-Related, 4.16 kV undervoltage time delay relays. Nominal trip Set points and Allowable values will be determined by the Electrical Engineering group in calculation G13.18.3.1*001 and G13.18.3.1-004.

1.2 Loop Descriptions Each 4.16 kV emergency bus has its own independent Loss Of Power (LOP) instrumentation and associated trip logic. The voltage for the Division I and II buses is monitored at two levels, which can be considered as two different undervoltage functions; loss of voltage and sustained degraded voltage.

Each 4.16 kV bus is monitored by three degraded voltage relays whose outputs are arranged in a two-out-of-three logic configuration (Reference 3.12). The channels include electronic equipment (e.g., trip units) that compares measured input signals with pre-established setpoints. When the setpoint is exceeded, the channel output relay actuates a time delay relay, which then outputs a LOP trip signal to the trip logic. Two different time delays are applied depending on whether a LOCA signal is present at the time of the degraded voltage.

The LOCA and Non-LOCA time delay is provided by the combination of the 27N relay and the 62K relays.

1.3 Design Bases/Design Bases Event Per Bases B 3.3.8.1, Reference 3.7.3, successful operation of the required safety functions of the Emergency Core Cooling Systems (ECCS) is dependent upon the availability of adequate power sources for energizing the various components such as pump motors, motor operated valves, and the associated control components. The LOP instrumentation monitors the 4.16 kV emergency buses. Offsite power is the preferred source of power for the 4.16 kV emergency buses. If the monitors determine that insufficient power is available, the buses are disconnected from the offsite power sources and connected to the onsite diesel generator (DG) power sources.

1.4 Degree of Accuracy/Limits of Applicability The results of this calculation are based on the statistical methods of at least 95% probability of occurrence for a two sided probability distribution in accordance with 7224.300-100-001B, General Electric Instrument Setpoint Methodology, (Reference 3.3) and EN-IC-S-007-R, Instrument Loop Uncertainty & Setpoint Calculations, (Reference 3.2). One-sided probability could be used since the time delay relay performs its safety function in the decreasing direction only. However a two sided probability is used for added conservatism.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 7 OF 34 The results of this calculation are valid under the Assumptions stated in Section 7.0 of this calculation. The appropriate use of this calculation to support design or station activities, other than those specified in Section 1.1 of this calculation, is the responsibility of the user.

1.5 Applicability A data analysis has been performed in order to determine which, if any, redundant instrument loops are bounded by the results of this calculation. This calculation is applicable to the Loops associated with the primary elements stated in Section 2.1. The results of this calculation are bounding for the applicable instrument loops, based on such factors as instrument manufacturer and model number, instrument location/environmental parameters, actual installation and use of the instrument in process measurements.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 8 OF 34 2.0 RESULTS/CONCLUSION 2.1 Results The Loop Uncertainty and Total Loop Uncertainty for the Time Delay Voltage relays were calculated in Section 8.0. These values and other associated values such as loop drift are presented in Table 2.1-1.

Table 2.1-1 Model 62K and 62L Relay - Time Delay Function M&TE Loop Maximum Loop Channel Total Loop Accuracy Loop Loop Uncertainty Drift Uncertainty System Model Requirements Setting Tol.

Identification (LU) (DL) (TLU)

(MTEL) (CTL)

Seconds Seconds Seconds Seconds Seconds ENS-SWG1A-62-1 302 62K +/-0.209 +/-0.07 +/-0.221 +/- 4.15x10-3 +/- 0.2 ENS-SWG1B-62-1 ENS-SWG1A-62-2 302 62K +/-2.915 +/-1.05 +/-3.438 +/- 4.15x10-3 +/- 0.51 ENS-SWG1B-62-2 ENS-SWG1A-62-5 302 62K +/-0.306 +/-0.07 +/-0.314 +/- 4.15x10-3 +/- 0.3 ENS-SWG1B-62-5 ENS-SWG1A-62-6 302 62L +/-0.313 +/-0.07 +/-0.321 +/- 4.15x10-3 +/- 0.3 ENS-SWG1B-62-6 2.2 Conclusions The calculated Loop Uncertainty and Total Loop Uncertainty are presented in Table 2.1-1.

These values are bounding for the relays and circuits listed in Section 2.1.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 9 OF 34

3.0 REFERENCES

3.1 EN-DC-126, Engineering Calculation Process 3.2 EN-IC-S-007-R, Instrument Loop Uncertainty & Setpoint Calculation 3.3 7224.300-000-001B, NEDC-31336P-A, General Electric Instrument Setpoint Methodology 3.4 Asset Suite Equipment Data Base (EDB) 3.5 201.130-186, Peak Spreading of ARS Curves for the Control Building 3.6 Environmental Design Criteria, Spec 215.150, including USAR figures 3.11-1 through 5 as outlined in EDP-AN-02 section 6.3.1 3.7 RBS Operating License 3.7.1 Not Used 3.7.2 Not Used 3.7.3 Technical Specification Bases Sections B3.3.8.1 3.7.4 Not Used 3.8 RBS USAR None 3.9 Vendor Manuals 3.9.1 B455-0147, ITE Solid-State Timing Relay Relays (62K) 3.9.2 B455-0157, ITE Solid-State Time Delay Relay ITE-62L 3.9.3 3242.521-102-001A, Instruction Manual-Stdby 4.16 kV Switchgear 3.9.4 Not Used 3.9.5 Multi-Amp Instruction Book for the EPOCH-40, Microprocessor-Enhanced Protective Relay Test Set, (maintained by the Standards Laboratory) 3.10 Electrical Schematics 3.10.1 EE-001K, 4160V One Line Diagram Standby Bus 1ENS*SWG1A 3.10.2 EE-001L, 4160V One Line Diagram Standby Bus 1ENS*SWG1B

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 10 OF 34 3.10.3 ESK-08ENS01, AC Elementary Diagram Standby Bus 1A & 1B Protection &

Metering 3.10.4 ESK-08EGS09, DC Elementary Diagram Standby Bus 1ENS

SWG1A Under Voltage Protection 3.10.5 ESK-08EGS10, DC Elementary Diagram Standby Bus 1ENS

SWG1B Under Voltage Protection 3.10.6 ESK-08EGS13, DC Elementary Diagram Standby Bus 1ENS

SWG1A Under Voltage Protection 3.10.7 ESK-08EGS14, DC Elementary Diagram Standby Bus 1ENS

SWG1B Under Voltage Protection 3.10.8 ESK-08EGS15, DC Elementary Diagram Standby Bus 1ENS

SWG1A Under Voltage Protection & Load Sequence 3.10.9 ESK-08EGS16, DC Elementary Diagram Standby Bus 1ENS

SWG1B Under Voltage Protection & Load Sequence 3.11 Surveillance Test Procedures:

3.11.1 STP-302-1600, ENS-SWG1A Loss of Voltage Channel Calibration and Logic System Functional Test 3.11.2 STP-302-1601, ENS-SWG1B Loss of Voltage Channel Calibration and Logic System Functional Test 3.11.3 STP-302-1602, ENS-SWG1A Degraded Voltage Channel Calibration and Logic System Functional Test 3.11.4 STP-302-1603, ENS-SWG1B Degraded Voltage Channel Calibration and Logic System Functional Test 3.11.5 STP-302-0102, Power Distribution System Operability Check 3.12 LSK-24-09.05A, Standby Diesel Generator Load Sequence, Logic Diagram 3.13 Standards None 3.14 Calculations:

3.14.1 Not Used 3.14.2 Not Used

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 11 OF 34 3.14.3 G13.18.6.3-009, ABB Model ITE-62 Relay Drift Analysis 3.14.4 G13.18.3.1-004, Degraded Voltage Relay Setpoints for ENS-SWG01A and ENS-SWG01B 3.15 Equipment Qualification Trending and Thermal Aging Program (EQTAP) 3.16 Relay Setting Drawings 3.16.1 BE-230A, 4kV Bus 1ENS*SWG1A Relay Settings 3.16.2 BE-230B, 4kV Bus 1ENS*SWG1B Relay Settings 3.17 0242.521-102-133, Bill of Material 1ENS*SWG1A, 1B 3.18 0242.521-102-129, Bill of Material 1ENS*SWG1A & 1B 3.19 EE-420G, Seismic Conduit Installation Plan EL 98 3.20 EE-420H, Seismic Conduit Installation Plan EL 98

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 12 OF 34 4.0 DESIGN INPUT The following are the design inputs used to determine the uncertainty for the Division I and Division II degraded voltage timing relays.

4.1 Loop Input 4.1.1 Loop Data:

Form 1: Loop/Process Data Sheet Description Data Reference Loop Sensor(s) Relay contacts 3.10.4-9 ENS-SWG1A Location 3.4 ENS-SWG1B Output Contact Closure 3.10.4-9 4.1.2 Special Considerations:

4.1.2.1 Calibration shall be performed using the following instruments:

Multi-Amp EPOCH-40 DC/Timer Test set (References 3.9.5, 3.11) 4.2 Loop Instrumentation Form 2: Instrument Data Sheet Calc. Device Number 1& 2 Description Data Device 1 Reference Data Device 2 Reference Component Number(s) ENS-SWG1A ENS-SWG1A 62-1, 62-2, 62-5 3.4 62-6 3.4 ENS-SWG1B 3.10 ENS-SWG1B 3.10 62-1, 62-2, 62-5 62-6 Type(s) Relay 3.4 Relay 3.4 Manufacturer Asea Brown Boveri 3.17, 3.18 Asea Brown Boveri 3.18 Model 62K 3.17, 3.18 62L 3.18 Location(s) CB. 98 3.19, 3.20 CB. 98 3.19, 3.20 Service Description Relay 3.4 Relay 3.4 Quality Class Safety Related 3.4 Safety Related 3.4 Environmental N 3.4 N 3.4 Qualification Input Range 0.2-4 sec 3.10 1-30 sec. 3.10 0-100 sec Output Contact Action 3.10 Contact Action 3.10 Calibration Interval 30.0 Mo. 30.0 Mo.

3.2 3.2 Evaluated (24 Mo. + 25%) (24 Mo. + 25%)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 13 OF 34 4.3 Loop Device Data Form 3: Instrument Accuracy Data Sheet Calc. Device Number 1 ITE 62K Data References Description Time Delay Reference Accuracy (RAR) +/-1% of Setting 3.9.1 Seismic Effects (SER) 0 7.1.4

+/-6% of setting or +/-30 ms, which ever is greater 3.9.1 Temperature Effects (TER) (-15oC - 55oC) 7.1.12 2

Insulation Resistance Effects (IRR) N/A 7.1.10 Temperature Drift Effect (TDR) N/A 7.1.13 Drift (DRR) +/-2.072% Setpoint 3.14.3

+/-1% of setting or +/-5 ms, which ever is greater 3.9.1 Power Supply Effect (PSR) 2 7.1.2 Form 3: Instrument Accuracy Data Sheet Calc. Device Number 2 ITE 62L Data References Description Time Delay

+/-2% of Setting or +/-5 ms, Reference Accuracy (RAR) 3.9.2 whichever is greater Seismic Effects (SER) 0 7.1.4

+/-4% of setting 3.9.2 Temperature Effects (TER)

(-20oC - 55oC) 7.1.12 Insulation Resistance Effects (IRR) N/A 7.1.10 Temperature Drift Effect (TDR) N/A 7.1.13 Drift (DRR) +/-2.072% Setpoint 3.14.3

+/-2% of Setting or +/-5 ms, 3.9.2 Power Supply Effect (PSR) whichever is greater

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 14 OF 34 4.4 Environmental Information Form 4: Environmental Conditions Data Sheet Zone: CB-98-1 Description Data Reference Location Building/Elevation CB-98 3.4 Room/Area Switchgear Room 3.4 Normal Temperature Range, ºF 40 - 109 3.6 (68-96 act.) 3.15 Humidity Range, %RH 20-90 3.6 Radiation 40 Year Total Integrated Dose, 800 3.6 Rads Pressure Range Atmos 3.6 Accident (Loss of Offsite Power)

Temperature Range, ºF Same as Normal 3.6 Humidity Range, % RH Same as Normal 3.6 Radiation, Total Integrated Dose, Rads Same as Normal 3.6 Pressure Range Same as Normal 3.6 Seismic Accelerations, g <3 3.5

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 15 OF 34 5.0 NOMENCLATURE The terms and abbreviations that are not defined in this section are defined in Reference 3.3, Reference 3.2 or within the text of this calculation.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 16 OF 34 6.0 CALCULATION METHODOLOGY This calculation is prepared in accordance with the EN-IC-S-007-R, Instrument Loop Uncertainty &

Setpoint Calculations (Reference 3.2), EN-DC-126, Engineering Calculation Process (Reference 3.1) and 7224.300-000-001B, General Electric Instrument Setpoint Methodology (Reference 3.3).

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 17 OF 34 7.0 ASSUMPTIONS 7.1 Assumptions that do not require confirmation 7.1.1 Miscellaneous Allowance (ML)

A miscellaneous allowance has not been applied to the uncertainty of the devices evaluated by this calculation. By assuming all vendor supplied data is a 2 value and with intermediate rounding of values in the conservative direction, sufficient conservatism has been introduced.

7.1.2 Vendor 2 Data For conservatism, all uncertainties given in vendor data specifications are assumed to be 2 unless otherwise specified.

7.1.3 Zero Effect (ZE)

Not applicable 7.1.4 Seismic Effects (SE)

Reference 3.9.2 states that the undervoltage relays have been tested to 6 g ZPA without damage, malfunction or failure. Reference 3.5 defines the expected level of seismic activity for the 98 ft elevation of the control building as less than 3g.

Therefore, seismic effects are assumed to be 0.

7.1.5 Radiation Effects (RE) & Radiation Drift Effect (RD)

Radiation effects and radiation drift effects are not applicable to the relays and transformers evaluated by this calculation as they are located in a mild environment (Reference 3.6).

7.1.6 Power Supply Effects (PS)

Per Reference 3.9.1, the model 62K relay has a power supply effect of +/- 1% over the allowable DC control power range of 100 to 137.5 VDC (-20,+10% variation). Per Reference 3.9.2, the model 62L1 relay has a power supply effect of +/- 2% over the allowable DC control power range of 100 to 137.5 VDC (-20,+10% variation). Per Reference 3.11.5, the allowable voltage range is 130 to 140 VDC (104 to 112%).

Since the relay will only see an 8% voltage variation, +/-1% and +/-2% deviations will be used to calculate the PS effects for the respective time delay relays in this calculation.

7.1.7 Process Measurement Uncertainty (PM)

Not applicable 7.1.8 Static Pressure Effects (SP)

Not applicable

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 18 OF 34 7.1.9 Humidity Effects (HE)

The relays were specified by the switchgear manufacturer and are assumed to be designed to withstand the environmental effects in the mounting location without effect. Per Reference 3.6, the humidity range for environmental zone CB-98 is 20 to 90% RH. Therefore, it is assumed that Humidity effects are negligible.

7.1.10 Insulation Resistance Effects (IR)

(IR) effects, which may result in degradation of circuit insulation, are not applicable to the devices and circuits addressed by this calculation. The timers evaluated are not low-current DC devices affected by current leakage due to insulation resistance degradation.

7.1.11 Voltage Drop Voltage drop due to long wiring lengths between source and load are not applicable because the timing relays evaluated are located in the same switchgear as their power source.

7.1.12 Temperature Effects (TE)

Per ABB Descriptive Bulletin IB 18.7.7-1G, Ref. 3.9.1, the temperature effect for an ITE 62K relay is 6% of setting over a span of 5o - 131ºF (-15oC - +55oC) or 0.0476%

per ºF. This value will be used to determine relay temperature effects.

Per ABB Descriptive Bulletin IB 18.7.7-4B, Ref. 3.9.2, the temperature effect for an ITE 62L relay is 4% of setting over a span of -4o - 131ºF (-20oC - +55oC) or 0.0296% per ºF. This value will be used to determine relay temperature effects.

7.1.13 Temperature Drift Effects (TD)

The drift analysis performed in Reference 3.14.3 is assumed to encompass all components of drift and drift effects, including drift due to temperature variations.

7.1.14 Instrument Drift Timing relay drift analysis is located in Reference 3.14.3. Expected relay drift is listed in Section 4.3 of this calculation.

7.2 Assumptions that require confirmation None

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 19 OF 34 8.0 CALCULATION This section includes the following subsections used in performance of this calculation:

8.1) Calculation of Miscellaneous Uncertainties 8.2) Calculation of Individual Device Reference Accuracy (RA) and Determination of Appropriate Device Uncertainty to Use 8.3) Calculation of Individual Device Uncertainties 8.4) Calculation of Loop Calibration Accuracy (CL) 8.5) Calculation of Insulation Resistance Effects (IR) 8.6) Calculation of Loop Uncertainty (LU) 8.7) Calculation of Loop Drift (DL) 8.8) Calculation of Total Loop Uncertainty (TLU) 8.9) As-Left Tolerance 8.10) As-Found Tolerance (AFT) 8.11) Loop Tolerances 8.1 Calculation of Miscellaneous Uncertainties 8.1.1 Calculation of Power Supply Effects on 62-1 Time delay setting (PSRT)

(Reference 3.9.1, Assumption 7.1.6)

PSRT = +/- 1% of Time Delay setting or +/- 5 ms

= +/- (0.010

3.0) seconds (Reference 3.16.1, 3.16.2)

= +/- 0.03 seconds (2 Value) 8.1.2 Calculation of Power Supply Effects on 62-2 Time delay setting (PSRT)

(Reference 3.9.1, Assumption 7.1.6)

Note: Relay setpoint is determined in Reference 3.14.4.

PSRT = +/- 1% of Time Delay setting or +/- 5 ms

= +/- (0.010 *50.50) seconds

= +/- 0.505 seconds (2 Value) 8.1.3 Calculation of Power Supply Effects on 62-5 Time delay setting (PSRT)

(Reference 3.9.2, Assumption 7.1.6)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 20 OF 34 PSRT = +/- 1% of Time Delay setting or +/- 5 ms

= +/- (0.010

3) seconds (Reference 3.16.1, 3.16.2)

= +/- 0.03 seconds (2 Value) 8.1.4 Calculation of Power Supply Effects on 62-6 Time delay setting (PSRT)

(Reference 3.9.2, Assumption 7.1.6)

PSRT = +/- 2% of Time Delay setting or +/- 5 ms

= +/- (0.020

3) seconds (Reference 3.16.1, 3.16.2)

= +/- 0.06 seconds (2 Value) 8.1.5 Calculation of Relay 62-1 Temperature Effects (TER)

Per Assumption 7.1.12 and Reference 3.9.1, the relay may experience a temperature effect of +/-6% (or +/-30 ms which ever is greater) over a temperature range of -15oC -

55oC (5oF - 131oF). Assuming linearity, this yields an effect of 0.0476 %/ºF. The relays are housed inside the DIV I and II switchgear which are assumed to maintain an internal temperature of 104oF to prevent condensation. Reference 3.6 also states that for 1% of the calendar year (30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months ), the temperature could be 5oF higher.

This is considered negligible. However, the relay is calibrated in the electrical or relay shop which is assumed to be maintained at 73oF. Therefore:

TER = +/- (104oF - 73oF)/ x 0.0476% /ºF

3.0 seconds

= +/- 1.48%

3.0 sec.

= +/- 0.0444 sec 8.1.6 Calculation of Relay 62-2 Temperature Effects (TER)

TER = +/- (31oF) x 0.0476%/oF

50.50 seconds

= +/- 1.48%

50.50 sec.

= +/- 0.747 sec 8.1.7 Calculation of Relay 62-5 Temperature Effects (TER)

TER = +/- (31oF) x 0.0303%/oF

3.0 seconds

= +/- 1.48%

3.0 sec.

= +/- 0.0444 sec 8.1.8 Calculation of Relay 62-6 Temperature Effects (TER)

Per Assumption 7.1.12 and Reference 3.9.2, the relay may experience a temperature effect of +/-4% over a temperature range of -20oC - 55oC (-4oF - 131oF). Assuming linearity, this yields an effect of 0.0296%/oF. The relays are housed inside the DIV I and II switchgear which are assumed to maintain an internal temperature of 104oF to prevent condensation. Reference 3.6 also states that for 1% of the calendar year (30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months ), the temperature could be 5oF higher. This is considered negligible. However, the relay is calibrated in the electrical or relay shop which is assumed to be maintained at 73oF. Therefore:

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 21 OF 34 TER = +/- (31oF) x 0.0296% /ºF

3.0 seconds

= +/- 0.919%

3.0 sec.

= +/- 0.02757 sec 8.2 Calculation of Individual Device Reference Accuracy (RA) & Determination of Appropriate Device Uncertainty 8.2.1 Time Delay Relay 62-1 Reference Accuracy for Time Delay Setting (RART)

RART = +/- 1% of Time Delay setting

= +/- 0.01

3.0 seconds

= +/- 0.03 seconds (2 Value) 8.2.2 Time Delay Relay 62-2 Reference Accuracy for Time Delay Setting (RART)

RART = +/- 1% of Time Delay setting

= +/- 0.01

50.50 seconds

= +/- 0.505 seconds (2 Value) 8.2.3 Time Delay Relay 62-5 Reference Accuracy for Time Delay Setting (RART)

RART = +/- 1% of Time Delay setting

= +/- 0.01

3.0 seconds

= +/- 0.030 seconds (2 Value) 8.2.4 Time Delay Relay 62-6 Reference Accuracy for Time Delay Setting (RART)

RART = +/- 2% of Time Delay setting

= +/- 0.02

3.0 seconds

= +/- 0.06 seconds (2 Value) 8.3 Calculation of Individual Device Uncertainties (Reference 3.2) 8.3.1 Device Uncertainty Relay 62-1 Time Delay Setting (ART)

(Sections 8.2.3, 8.1.3, 8.1.5)

ART = +/- [(RART)2 + (PSRT)2 + (TERT)2]1/2

= +/- [(0.03)2 + (0.03)2 + (0.0444)2]1/2 seconds

= +/- 0.0614 seconds (2 value) 8.3.2 Device Uncertainty Relay 62-2 Time Delay Setting (ART)

(Sections 8.2.3, 8.1.3, 8.1.5)

ART = +/- [(RART)2 + (PSRT)2 + (TERT)2]1/2

= +/- [(0.505)2 + (0.505)2 + (0.747)2]1/2 seconds

= +/- 1.033 seconds (2 value)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 22 OF 34 8.3.3 Device Uncertainty Relay 62-5 Time Delay Setting (ART)

(Sections 8.2.3, 8.1.3, 8.1.5)

ART = +/- [(RART)2 + (PSRT)2 + (TERT)2]1/2

= +/- [(0.03)2 + (0.03)2 + (0.0444)2]1/2 seconds

= +/- 0.0614 seconds (2 value) 8.3.4 Device Uncertainty Relay 62-6 Time Delay Setting (ART)

(Sections 8.2.3, 8.1.3, 8.1.5)

ART = +/- [(RART)2 + (PSRT)2 + (TERT)2]1/2

= +/- [(0.06)2 + (0.06)2 + (0.02757)2]1/2 seconds

= +/- 0.0892 seconds (2 value) 8.4 Calculation of Loop Calibration Accuracy (CL)

Per references 3.2 and 3.3, loop calibration effects are defined as:

CL = +/- [(MTEL)2 + (CTL)2]1/2 The CTL for 62-2 Time Delay Setting is set to the loop as left tolerance (ALTL) in section 8.11.1 as required by License Amendment Request (LAR) 2011-05. For the remaining loops the CTL is set to the procedural as-left band (PALB).

8.4.1 Calculation of Loop Calibration Effects for the 62-1 Time Delay Setting (CLT)

(Sections 3.9.2, 3.9.3, 8.4.1.1, 3.11.1, 3.11.2, 3.11.3, 3.11.4)

CLT = +/- [(MTEL)2 + (CTL)2]1/2 CTL = PALB selected = 0.2

= +/- [(4.15 x 10-3)2 + 0.22]1/2 VAC

= +/- 0.2 seconds 8.4.1.1 Measuring and Test Equipment Effects - Relay Time Setting (MTEL)

Measurement & Test Equipment (MTEL) effects are defined from Reference 3.2 as:

MTELV = +/- [(MTERAT)2 + (MTERIT)2 + (MTETET)2 + (MTECST)2]1/2 Where:

MTERAT = The reference accuracy of the M&TE being utilized. Epoch 40 Aux.

Timer and DC voltage/current unit has a timer accuracy of 0.005% or one digit on the min. 99.9999 range. Using 57.8 x 0.00005 =2.89x10-3 seconds.

MTETET = Temperature effect on the M&TE being utilized. The Epoch 40 operating range is 0o to 50oC with no temperature coefficient given. The total timer accuracy of 0.005% is conservatively assumed or 2.89x10-3 seconds (Reference 3.2).

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 23 OF 34 MTERIT = Assumed to be 0 as all M&TE used are digital with at least 2 digits of resolution. (Reference 3.2)

MTECST = Assumed equal to 1/4 the Reference Accuracy of the time delay function of the relay time delay function = 0.005%/4 seconds (per Reference 3.2).

MTEL = +/- [(MTERART)2 + (MTERIRT)2 + (MTETERT)2 + (MTECSRT)2]1/2

= +/- [(2.89x10-3)2 + (0)2 + (2.89x10-3)2 + (7.23 x10-4)2]1/2

= +/- 4.15 x 10-3 seconds with worse case time delay, (2 Value)

This value will be conservatively used for all the relays.

8.4.2 Calculation of Loop Calibration Effects for the 62-2 Time Delay Setting (CLT)

CLT = +/- [(MTEL)2 + (CTL)2]1/2 CTL = ALTL = 0.51

= +/- [(4.15 x 10-3)2 + 0.512]1/2 seconds

= +/- 0.51 seconds 8.4.3 Calculation of Loop Calibration Effects for the 62-5 Time Delay Setting (CLT)

CLT = +/- [(MTEL)2 + (CTL)2]1/2 CTL = PALB = 0.3

= +/- [(4.15 x 10-3)2 + 0.32]1/2 seconds

= +/- 0.3 seconds 8.4.4 Calculation of Loop Calibration Effects for the 62-6 Time Delay Setting (CLT)

CLT = +/- [(MTEL)2 + (CTL)2]1/2 2 CTL = PALB = 0.3

= +/- [(4.15 x 10-3)2 + 0.32]1//2 seconds

= +/- 0.3 seconds 8.5 Calculation of insulation Resistance Effects (IR) 0 per Assumption 7.1.10 8.6 Calculation of Loop Uncertainty (LU) 8.6.1 Loop Uncertainty for Time Delay 62-1 Setting (LUT)

Per references 3.2 and 3.3 Loop Uncertainty is defined as:

LUT = +/- (m/n)[(ART)2 + (CLT)2]1/2 Where: m = The number of standard deviations required to encompass 95%

of the area under the curve for a normal distribution either one or two sided. 1.645 corresponds to a one sided confidence while 2.00 corresponds to a two sided confidence.

n = The number of standard deviations used in specifying the individual components of uncertainty

= +/- (2.0/2) [(0.06)2 + (0.2)2]1/2

= +/- 0.209 seconds While a one sided distribution may be used, a two sided is used in this calculation for added conservatism.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 24 OF 34 8.6.2 Loop Uncertainty for Time Delay 62-2 Setting (LUT)

Per references 3.2 and 3.3 Loop Uncertainty is defined as:

LUT = +/- (m/n)[(ART)2 + (CLT)2]1/2 +/- M (Margin)

= +/- (2.0/2)[(1.033)2 + (0.51)2]1/2 +/- 1.763

= +/- 2.915 seconds Note: The transformer uncertainty is not applicable to the time delay function of the relay.

8.6.3 Loop Uncertainty for Time Delay 62-5 Setting (LUT)

Per references 3.2 and 3.3 Loop Uncertainty is defined as:

LUT = +/- (m/n)[(ART)2 + (CLT)2]1/2

= +/- (2.0/2)[(0.06)2 + (0.3)2]1/2

= +/- 0.306 seconds 8.6.4 Loop Uncertainty for Time Delay 62-6 Setting (LUT)

Per references 3.2 and 3.3 Loop Uncertainty is defined as:

LUT = +/- (m/n)[(ART)2 + (CLT)2]1/2

= +/- (2.0/2)[(0.089)2 + (0.3)2]1/2

= +/- 0.313 seconds 8.7 Calculation of Loop Drift (DL) 8.7.1 Transformer Temperature Drift Effects (TDT) 0 for the time delay function.

8.7.2 Relay Temperature Drift Effects (TDR) 0 for the time delay function.

8.7.3 Relay Drift (DRRV) 8.7.3.1 Relay 62-1 Drift for Time Delay Setting (DRRT) (Assumption 7.1.14).

DRRT = +/-2.072% Setpoint

= +/-2.072% (3.0 sec.)

= +/-0.07 seconds (+/-0.062 conservatively rounded up to +/-0.07)

As there are no other components of drift to be considered for the relay time delay setting, Loop drift for the time delay setting (DRLT) = DRRT.

8.7.3.2 Relay 62-2 Drift for Time Delay Setting (DRRT) (Assumption 7.1.14).

DRRT = +/-2.072% Setpoint

= +/-2.072% (50.50 sec.)

= +/-1.05 seconds

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 25 OF 34 As there are no other components of drift to be considered for the relay time delay setting, Loop drift for the time delay setting (DRLT) = DRRT.

8.7.3.3 Relay 62-5 Drift for Time Delay Setting (DRRT) (Assumption 7.1.14).

DRRT = +/-2.072% Setpoint

= +/-2.072% (3.0 sec.)

= +/-0.07 seconds (+/-0.062 conservatively rounded up to +/-0.07)

As there are no other components of drift to be considered for the relay time delay setting, Loop drift for the time delay setting (DRLT) = DRRT.

8.7.3.4 Relay 62-6 Drift for Time Delay Setting (DRRT) (Assumption 7.1.14).

DRRT = +/-2.072% Setpoint

= +/-2.072% (3.0 sec.)

= +/-0.07 seconds (+/-0.062 conservatively rounded up to +/-0.07)

As there are no other components of drift to be considered for the relay time delay setting, Loop drift for the time delay setting (DRLT) = DRRT.

8.8 Calculation of Total Loop Uncertainty (TLU) 8.8.1 Total Loop Uncertainty 1 Time Delay Setting (TLUT)

Per references 3.2 and 3.3 Total Loop Uncertainty is defined as:

TLUT = +/- (m/n) [(ART)2 + (CLT)2 + (DRLT)2]1/2

= +/- (2.0/2) [(0.06)2 + (0.2)2+ (0.07)2]1/2

= +/- 0.221 seconds (+/-0.2202 conservatively rounded up to +/-0.221) 8.8.2 Total Loop Uncertainty 2 Time Delay Setting (TLUT)

Per references 3.2 and 3.3 Total Loop Uncertainty is defined as:

TLUT = +/- (m/n) [(ART)2 + (CLT)2 + (DRLT)2]1/2 +/- M (Margin)

= +/- (2.0/2) [(1.033)2 + (0.51)2+ (1.05)2]1/2 +/- 1.879

= +/- 3.438 seconds 8.8.3 Total Loop Uncertainty 5 Time Delay Setting (TLUT)

Per references 3.2 and 3.3 Total Loop Uncertainty is defined as:

TLUT = +/- (m/n) [(ART)2 + (CLT)2 + (DRLT)2]1/2

= +/- (2.0/2) [(0.06)2 + (0.3)2+ (0.07)2]1/2

= +/- 0.314 seconds 8.8.4 Total Loop Uncertainty 6 Time Delay Setting (TLUT)

Per references 3.2 and 3.3 Total Loop Uncertainty is defined as:

TLUT = +/- (m/n) [(ART)2 + (CLT)2 + (DRLT)2]1/2

= +/- (2.0/2) [(0.089)2 + (0.3)2+ (0.07)2]1/2

= +/- 0.321 seconds

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 26 OF 34 Note: The transformer uncertainty is not applicable to the time delay function of the undervoltage relay.

Summary of Calculation Data Time Delay Time Delay Terms Device 1 Device 2 Values Ref Values Ref Model ITE 62K N/A ITE 62L N/A 3.10.6 0.2 to 4.0 sec 3.10.7 3.10.8 Input Range 1 to 30 sec -

0 to 100 sec 3.10.8 3.10.9 3.10.9 Process Units Seconds - N/A Seconds N/A Voltage Input Range -20% to +10% - 3.9.1 -20% to +10% - 3.9.2 Input Range N/A - N/A N/A - N/A Process Units Seconds - 3.9.1 Seconds - 3.9.2 Reference Accuracy (RA) +/-1% of Setting. - 3.9.1 +/- 2% of Setting. 2 3.9.2 Greater of +/- 6% of Temperature Effect (TE) 2 3.9.1 +/- 4% of Setting 2 3.9.2 Setting or +/- 30ms.

Seismic Effects (SE) N/A 2 7.1.4 N/A - 7.1.4 Radiation Effect (RE) N/A - 7.1.5 N/A - 7.1.5

+/-0.07 8.7.3.1 Timing Relay Drift (DR) 2 +/-0.07 2

+/-1.05 8.7.3.2 8.7.3.4 Temperature Drift Effect (TD) N/A 2 7.1.13 N/A - 7.1.13 Radiation Drift Effect (RD) N/A - 7.1.5 N/A - 7.1.5

+/ Greater of +/-2%

+/ Greater of +/-1% of Power Supply Effect (PS) - 3.9.1 of Setting or +/- 2 3.9.2 Setting or +/- 5ms.

5ms.

Humidity Effects (HE) N/A 2 7.1.9 N/A - 7.1.9 Static Pressure Effect (SP) N/A - 7.1.8 N/A - 7.1.8 Process Measurement Effect N/A - 7.1.7 N/A - 7.1.7 (PM)

Insulation Resistance Effect (IR) N/A - 7.1.10 N/A - 7.1.10 Zero Effect (ZE) N/A - 7.1.3 N/A - 7.1.3

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 27 OF 34 8.9 As-Left Tolerance Note: For the purposes of calculating ALT, the actual MTE value, MTE L is used.

ALTRT - Time Delay Relay Calculation 8.9.1 Time Delay Relay 62-2 As Left Tolerance for Time Delay Setting (ALTRT)

MTEL = +/- 4.15 x 10-3 seconds ALTRT = +/- SRSS (RART, MTEL)

= +/- SRSS (0.505, 0. 00415) seconds

= +/- 0.51 seconds 8.10 As-Found Tolerance (AFT)

AFTRT- Time Delay Relay Calculation For calculating AFTR, the actual MTE value is used:

8.10.1 Time Delay Relay 62-2 As Found Tolerance for Time Delay Setting (AFTRT)

Since drift (DRRT) was determined using plant specific as-found/as-left calibration data:

AFTRT = DRRT

= +/-1.05 seconds 8.11 Loop Tolerances 8.11.1 Time Delay Relay 62-2 Loop Tolerance for Time Delay Setting ALTL - As-Left Loop Tolerance ALTL = +/- SRSS (ALTRT)

= +/- SRSS (0.51) seconds

= +/- 0.51 seconds AFTL - As-Found Loop Tolerance AFTL = +/-SRSS (AFTRT)

= +/-SRSS (1.05) seconds

= +/- 1.05 seconds

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 28 OF 34 Summary of Calibration Tolerances Time Delay Relay 62-2 As Left Tolerance (ALTRT) +/- 0.51 seconds Time Delay Relay 62-2 As Found Tolerance (AFTRT) +/- 1.05 seconds Time Delay Relay 62-2 As Left Loop Tolerance (ALTL) +/- 0.51 seconds Time Delay Relay 62-2 As Found Loop Tolerance (AFTL) +/- 1.05 seconds

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 29 OF 34 9.0 APPLICABLE MARK NUMBERS Model Relay Mark Numbers Div. I Div. II ITE 62K ENS-SWG1A-62-1 ENS-SWG1B-62-1 Sustained Undervoltage Short Time Delay ITE 62K ENS-SWG1A-62-2 ENS-SWG1B-62-2 Degraded Voltage Long Time Delay ITE 62K ENS-SWG1A-62-5 ENS-SWG1B-62-5 LOCA 3 second Time Retention ITE 62L ENS-SWG1A-62-6 ENS-SWG1B-62-6 Degraded Undervoltage Short Time Delay

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 30 OF 34 ATTACHMENT 1 ATTACHMENT 9.1 DESIGN VERIFICATION COVER PAGE Sheet 1 of 1 DESIGN VERIFICATION COVER PAGE ANO-1 ANO-2 IP-2 IP-3 JAF PLP PNPS VY GGNS RBS W3 NP Revision No.

Document No. G13.18.6.2-ENS*006 Page 1 of 4 002

Title:

Loop Uncertainty Determination for Div I and II Under Voltage Time Delay Relays - ABB Model 62K and 62L Time Delay Relays Quality Related Augmented Quality Related DV Method: Design Review Alternate Calculation Qualification Testing VERIFICATION REQUIRED DISCIPLINE VERIFICATION COMPLETE AND COMMENTS RESOLVED (DV print, sign, and date)

Electrical Robin Smith / See AS for signature & date Mechanical Instrument and Control Civil/Structural Nuclear Originator: Mary Coffaro / See AS for signature & date Print/Sign/Date After Comments Have Been Resolved

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 31 OF 34 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 1 of 3 IDENTIFICATION: DISCIPLINE:

Document

Title:

Loop Uncertainty Determination for Div I and II Under Voltage Time Civil/Structural Delay Relays - ABB Model 62K and 62L Time Delay Relays Electrical Doc. No.: G13.18.6.2-ENS*006 Rev. 002 QA Cat.

Robin Smith / See AS for signature & date I&C Verifier: Print Sign Date Mechanical Manager authorization Nuclear for supervisor Other performing Verification.

N/A Print Sign Date METHOD OF VERIFICATION:

Design Review Alternate Calculations Qualification Test The following basic questions are addressed as applicable, during the performance of any design verification. These questions are based on the requirements of ANSI N45.2.11 - 1974.

NOTE The reviewer can use the Comments/Continuation sheet at the end for entering any comment/resolution along with the appropriate question number. Additional items with new question numbers can also be entered.

1. Design Inputs - Were the inputs correctly selected and incorporated into the design?

(Design inputs include design bases, plant operational conditions, performance requirements, regulatory requirements and commitments, codes, standards, field data, etc. All information used as design inputs should have been reviewed and approved by the responsible design organization, as applicable.

All inputs need to be retrievable or excerpts of documents used should be attached.

See site specific design input procedures for guidance in identifying inputs.)

Yes No N/A

2. Assumptions - Are assumptions necessary to perform the design activity adequately described and reasonable?

Where necessary, are assumptions identified for subsequent re-verification when the detailed activities are completed? Are the latest applicable revisions of design documents utilized?

Yes No N/A

3. Quality Assurance - Are the appropriate quality and quality assurance requirements specified?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 32 OF 34 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 2 of 3

4. Codes, Standards and Regulatory Requirements - Are the applicable codes, standards and regulatory requirements, including issue and addenda properly identified and are their requirements for design met?

Yes No N/A

5. Construction and Operating Experience - Have applicable construction and operating experience been considered?

Yes No N/A

6. Interfaces - Have the design interface requirements been satisfied and documented?

Yes No N/A

7. Methods - Was an appropriate design or analytical (for calculations) method used?

Yes No N/A

8. Design Outputs - Is the output reasonable compared to the inputs?

Yes No N/A

9. Parts, Equipment and Processes - Are the specified parts, equipment, and processes suitable for the required application?

Yes No N/A

10. Materials Compatibility - Are the specified materials compatible with each other and the design environmental conditions to which the material will be exposed?

Yes No N/A

11. Maintenance requirements - Have adequate maintenance features and requirements been specified?

Yes No N/A

12. Accessibility for Maintenance - Are accessibility and other design provisions adequate for performance of needed maintenance and repair?

Yes No N/A

13. Accessibility for In-service Inspection - Has adequate accessibility been provided to perform the in-service inspection expected to be required during the plant life?

Yes No N/A

14. Radiation Exposure - Has the design properly considered radiation exposure to the public and plant personnel?

Yes No N/A

15. Acceptance Criteria - Are the acceptance criteria incorporated in the design documents sufficient to allow verification that design requirements have been satisfactorily accomplished?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 33 OF 34 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 3 of 3

16. Test Requirements - Have adequate pre-operational and subsequent periodic test requirements been appropriately specified?

Yes No N/A

17. Handling, Storage, Cleaning and Shipping - Are adequate handling, storage, cleaning and shipping requirements specified?

Yes No N/A

18. Identification Requirements - Are adequate identification requirements specified?

Yes No N/A

19. Records and Documentation - Are requirements for record preparation, review, approval, retention, etc.,

adequately specified? Are all documents prepared in a clear legible manner suitable for microfilming and/or other documentation storage method? Have all impacted documents been identified for update as necessary?

Yes No N/A

20. Software Quality Assurance- ENN sites: For a calculation that utilized software applications (e.g., GOTHIC, SYMCORD), was it properly verified and validated in accordance with EN- IT-104 or previous site SQA Program?

ENS sites: This is an EN-IT-104 task. However, per ENS-DC-126, for exempt software, was it verified in the calculation?

Yes No N/A

21. Has adverse impact on peripheral components and systems, outside the boundary of the document being verified, been considered?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*006, Rev. 002 RIVER BEND STATION PAGE 34 OF 34 ATTACHMENT 1 ATTACHMENT 9.7 DESIGN VERIFICATION COMMENT SHEET Sheet 1 of 1 Comments / Continuation Sheet Question Comments Resolution Initial/Date 1 Comments provided by markup Comments addressed RS 10-11-12

ANO-1 ANO-2 GGNS IP-2 IP-3 PLP JAF PNPS RBS VY W3 NP-GGNS-3 NP-RBS-3 CALCULATION (1) (2)

EC # 40339 Page 1 of 29 COVER PAGE (3) (4)

Design Basis Calc. YES NO CALCULATION EC Markup (5) (6)

Calculation No: G13.18.6.2-ENS*007 Revision: 002 (7) (8)

Title:

Loop Uncertainty Determination for DIV III Undervoltage Time Delays - Editorial Agastat ETR14 Time Delay Relay YES NO (9) (10)

System(s): 302 Review Org (Department): NSBE3 (I&C Design)

(11) (12)

Safety Class: Component/Equipment/Structure Type/Number:

Safety / Quality Related E22-S004-ACB4-62S3 E22-S004-ACB1-62S4 Augmented Quality Program Non-Safety Related E22-S004-ACB4-62S5 E22-S004-ACB1-62S6 (13)

Document Type: F43.02 (14)

Keywords (Description/Topical Codes): uncertainty, calculation, relay, time delay REVIEWS (15) (16) (17)

Name/Signature/Date Name/Signature/Date Name/Signature/Date Mary Coffaro / See AS Robin Smith / See AS Paul Matzke / See AS Responsible Engineer Supervisor/Approval Design Verifier Reviewer Comments Attached Comments Attached

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 2 OF 29 CALCULATION REFERENCE CALCULATION NO: G.13.18.6.2-ENS*007 SHEET REVISION: 002 I. EC Markups Incorporated (N/A to NP calculations) None II. Relationships: Sht Rev Input Output Impact Tracking No.

Doc Doc Y/N

1. EN-DC-126 -- 004 N

2. EN-IC-S-007-R 0 000 N

3. 7224.300-000-001B 0 300 N

4. 201.130-186 0 000 N

5. 215.150 0 006 N

6. A348-0116 0 000 N

7. 6221.418-000-001A 0 300 N

8. GE-DL828E537AA 0 018 N

9. 0221.418-000-008 0 300 N

10. EE-001M 0 009 N

11. A348-0111 0 000 N

12. GE-828E537AA 003 028 N

13. GE-828E537AA 007 030 N

14. GE-828E537AA 008 028 N

15. GE-828E537AA 011 030 N

16. STP-302-1604 -- 021 N

17. BE-230D 0 011 N

18. G13.18.6.3-014 0 000 N

19. EDP-AN-02 -- 301 N

20. STP-302-1605 -- 025 Y A/R00154234

21. G13.18.3.1-005 0 000 Y EC40339 III. CROSS

REFERENCES:

1. Indus Asset Suite Equipment Data Base (EDB)

2. Technical Specifications section B3.3.8.1

3. USAR Figures 3.11-1 through 5

4. EQTAP

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 3 OF 29 IV. SOFTWARE USED: N/A

Title:

Version/Release: Disk/CD No.

V. DISK/CDS INCLUDED: N/A

Title:

Version/Release Disk/CD No.

VI. OTHER CHANGES:

References that have been removed from this calculation: G13.18.3.1*002

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 4 OF 29 Revision Record of Revision Initial issue to support determination of degraded voltage relay setpoints by Electrical Engineering 0

1 Incorporated new drift value and extended calibration period to 30 months per EC 11753.

EC40339: Revised to provide the Degraded Voltage Relay NO-LOCA time delay Loop Uncertainty and Total Loop Uncertainty for relays E22-S004-ACB4-62S5 and E22-S004-2 ACB1-62S6 based on the revised setpoint provided in calculation G13.18.3.1-005. Added ALT and AFT (sections 8.9 through 8.11) for relays E22-S004-ACB4-62S5 and E22-S004-ACB1-62S6 as required by License Amendment Request (LAR) 2011-05.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 5 OF 29 TABLE OF CONTENTS COVER SHEET CALCULATION REFERENCES RECORD OF REVISION SECTION PAGE 1.0 Purpose and Description ............................................................................................................... 6 2.0 Results/Conclusions ...................................................................................................................... 8 3.0 References ..................................................................................................................................... 9 4.0 Design Input ................................................................................................................................ 11 5.0 Nomenclature .............................................................................................................................. 13 6.0 Calculation Methodology............................................................................................................ 14 7.0 Assumptions................................................................................................................................ 15 8.0 Calculation .................................................................................................................................. 17 Attachments:

1 Design Verification Form and Comments .......................................................................... 5 pages

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 6 OF 29 1.0 Purpose and Description 1.1. Purpose The purpose of this calculation is to determine the uncertainty associated with the existing Division III, Safety-Related, 4.16 kV undervoltage time delay relays. Nominal trip Set point and Allowable values will be determined by the Electrical Engineering group in calculation G13.18.3.1*002 and G13.18.3.1-005.

1.2. Loop Descriptions The Division III 4.16 kV emergency bus has its own independent sustained Degraded Voltage instrumentation and associated trip logic. The Division III bus is monitored by two undervoltage relays whose outputs are arranged in a two-out-of-two logic configuration (Reference 3.10.3). The channels include electronic equipment (e.g., trip units) that compare measured input signals with pre-established setpoints. When the setpoint is exceeded, the channel output relay actuates, which starts the time delay relays to open the DIV III Normal Supply source breaker and illuminates a Main Control Room annunciator alarm. Two different time delays are applied depending on whether a LOCA signal is present at the time of the degraded voltage. The LOCA time delay is provided by the 27N relay. The Non-LOCA time delay is provided by the combination of the 27N relay and the ETR14 relays.

1.3. Design Bases/Design Bases Event Per Bases B 3.3.8.1, Reference 3.7.3, successful operation of the required safety functions of the Emergency Core Cooling Systems (ECCS) is dependent upon the availability of adequate power sources for energizing the various components such as pump motors, motor operated valves, and the associated control components. The LOP instrumentation monitors the 4.16 kV emergency buses. Offsite power is the preferred source of power for the 4.16 kV emergency buses. If the monitors determine that insufficient power is available, the buses are disconnected from the offsite power sources and connected to the onsite diesel generator (DG) power sources. The Time Delay Allowable Values are long enough to provide time for the offsite power supply to recover to normal voltages, but short enough to ensure that power is available to the required equipment.

1.4. Degree of Accuracy/Limits of Applicability The results of this calculation are based on the statistical methods of at least 95% probability of occurrence for a one sided probability distribution in accordance with 7224.300-100-001B, General Electric Instrument Setpoint Methodology, (Reference 3.3) and EN-IC-S-007-R, Instrument Loop Uncertainty & Setpoint Calculations, (Reference 3.2). One-sided probability is used since the time delay relay performs its safety function in the decreasing direction only.

The results of this calculation are valid under the Assumptions stated in Section 7.0 of this calculation. The appropriate use of this calculation to support design or station activities, other than those specified in Section 1.1 of this calculation, is the responsibility of the user.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 7 OF 29 1.5. Applicability A data analysis has been performed in order to determine which, if any, redundant instrument loops are bounded by the results of this calculation. This calculation is applicable to the Loops associated with the devices stated in Section 2.1. The results of this calculation are bounding for the applicable instrument loops, based on such factors as instrument manufacturer and model number, instrument location/environmental parameters, actual installation and use of the instrument in process measurements.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 8 OF 29 2.0 Results/Conclusions 2.1. Results The Loop Uncertainty and Total Loop Uncertainty for the Agastat time delay relays were calculated in Section 8.0. These values and other associated values such as loop drift are presented in Table 2.1-1.

Table 2.1-1 Model ETR14 Time Delay Relay M&TE Loop Maximum Loop Channel Total Loop Accuracy Loop Loop Uncertainty Drift Uncertainty Systems Requirements Setting Identification (LU) (DL) (TLU)

(MTEL) Tol. (CTL)

Seconds Seconds Seconds Seconds Seconds E22-S004-ACB4-62S3 203/302 +/- 0.316 +/- 0.112 +/- 0.322 +/- 1.55 x10-4 +/- 0.18 E22-S004-ACB1-62S4 E22-S004-ACB4-62S5 203/302 +/- 5.148 +/- 1.685 +/- 5.480 +/-2.33 x10-3 +/-1.35 E22-S004-ACB1-62S6 2.2. Conclusions The calculated Loop Uncertainty and Total Loop Uncertainty are presented in Table 2.1-1.

These values apply to the relays and circuits listed in Section 2.1.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 9 OF 29 3.0 References 3.1. EN-DC-126, Engineering Calculation Process 3.2. EN-IC-S-007-R, Instrument Loop Uncertainty & Setpoint Calculations 3.3. 7224.300-000-001B, NEDC-31336P-A, General Electric Instrument Setpoint Methodology 3.4. Asset Suite Equipment Data Base (EDB) 3.5. 201.130-186, Peak Spreading of ARS Curves for the Control Building 3.6. Environmental Design Criteria, Spec 215.150, including USAR figures 3.11-1 through 5 as outlined in EDP-AN-02 section 6.3.1 3.7. RBS Operating License 3.7.1. Not used 3.7.2. Not used 3.7.3. Technical Specifications Bases Sections B3.3.8.1 3.8. RBS USAR None 3.9. Vendor Manuals/Documents 3.9.1. A348-0116, Amerace - Agastat Nuclear Qualified Control Relays 3.9.2. Not used 3.9.3. Not used 3.9.4. 6221.418-000-001A, High Pressure Core Spray System Power Supply Unit, NEDO10905 3.9.5. 0221.418-000-008, Purchase Specification Data Sheet 21A9300AU, High Pressure Core Spray System 3.9.6. A348-0111, Amerace Electronic Components Catalog - Agastat Electromechanical Relays 3.10. Electrical Schematics 3.10.1. EE-001M, 4160V One Line Diagram Standby Bus E22-S004 3.10.2. GE-828E537AA, Sheet 003, Elementary Diagram HPCS Power Supply System

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 10 OF 29 3.10.3. GE-828E537AA, Sheet 007, Elementary Diagram HPCS Power Supply System 3.10.4. GE-828E537AA, Sheet 008, Elementary Diagram HPCS Power Supply System 3.10.5. GE-828E537AA, Sheet 011, Elementary Diagram HPCS Power Supply System 3.11. Surveillance Test Procedures:

3.11.1. STP-302-1605, HPCS Degraded Voltage Channel Calibration and Logic System Functional Test 3.11.2. STP-302-1604, HPCS Loss of Voltage Channel Calibration and Logic System Functional Test 3.11.3. Not used 3.12. Logic Diagrams None 3.13. Standards None 3.14. Equipment Qualification Trending and Thermal Aging Program (EQTAP) 3.15. BE-230D, 4.16 Kv Bus E22*S004 Relay Settings 3.16. Calculations 3.16.1. G13.18.3.1-005, Degraded Voltage Relay Setpoints for E22-S004 3.16.2. Not Used 3.16.3. G13.18.6.3-014, Drift Study for Agastat ETR Series Time Delay Relays 3.17 GE-DL828E537AA, Elementary Diagram-Device List

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 11 OF 29 4.0 Design Input The following are the design inputs used to determine the uncertainty for the Division III Agastat time delay relays.

4.1. Loop Input 4.1.1. Loop Data:

Form 1: Loop/Process Data Sheet Description Data Reference Loop Sensor(s) Auxiliary Relays 3.10.4 Location E22-S004 3.10.4 Output Contact closure 3.10.4 4.1.2. Special Considerations:

4.1.2.1 Calibration shall be performed using the following instruments:

Multi-Amp EPOCH-40 DC/Timer Test set.

4.2. Loop Instrumentation Form 2: Instrument Data Sheet Calc. Device Number 1 Description Data Reference Component Number(s) E22-S004-ACB4-62S3 3.4 E22-S004-ACB1-62S4 3.10 E22-S004-ACB4-62S5 E22-S004-ACB1-62S6 Manufacturer Amerace/Agastat 3.17 Model ETR14 3.17 Location(s) CB.116/E33-S004 3.4 Service Description Relay 3.4 Quality Class Safety Related 3.4 Environmental Qualification N 3.4 Input Range 0-125 VDC 3.10 Output Contact Action 3.10 Calibration Interval Evaluated 30 Mo (24 Mo. + 25%). 3.2

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 12 OF 29 4.3. Loop Device Data Form 3: Instrument Accuracy Data Sheet Calc. Device Number 1 Agastat ETR14 Data References Description Time Delay Reference Accuracy (RAR) 10% of Setting (2) 3.9.1 5% of Setting (TR) (2) 3.9.6 Seismic Effects (SER) 0 7.1.4 Temperature Effects (TER) 3.9.6 5% of setting 3.14 (40oF - 122oF) 2 7.1.12 Insulation Resistance Effects (IRR) N/A 7.1.10 Temperature Drift Effect (TDR) N/A 7.1.13 Drift (DRR) 3.725% Setpoint 3.16.3 2

Power Supply Effect (PSR) 5% of setting (includes TER) 3.9.6 2 3.14 4.4. Environmental Information Form 4: Environmental Conditions Data Sheet Zone: CB-116-2 Description Data Reference Location Building/Elevation CB-116 3.4 Room/Area Switchgear Room 3.4 Normal Temperature Range, oF 40 - 109 3.6 (68oF to 83oF act.) 3.14 Humidity Range, %RH 20-95 3.6 Radiation 40 Year Total Integrated 800 3.6 Dose, Rads Pressure Range Atmos 3.6 Accident (Loss of Offsite Power)

Temperature Range, oF Same as Normal 3.6 Humidity Range, %RH Same as Normal 3.6 Radiation, Total Integrated Dose, Rads Same as Normal 3.6 Pressure Range Same as Normal 3.6 Seismic Accelerations, g <3 3.5

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 13 OF 29 5.0 Nomenclature The terms and abbreviations that are not defined in this section are defined in Reference 3.3, Reference 3.2 or within the text of this calculation.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 14 OF 29 6.0 Calculation Methodology This calculation is prepared in accordance with the EN-IC-S-007-R, Instrument Loop Uncertainty

& Setpoint Calculations (Reference 3.2), EN-DC-126, Engineering Calculation Process (Reference 3.1) and 7224.300-000-001B, General Electric Instrument Setpoint Methodology (Reference 3.3).

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 15 OF 29 7.0 Assumptions 7.1. Assumptions that do not require confirmation 7.1.1. Miscellaneous Allowance (ML)

A miscellaneous allowance has not been applied to the uncertainty of the devices evaluated by this calculation. By assuming all vendor supplied data is a 2 value and with intermediate rounding of values in the conservative direction, sufficient conservatism has been introduced.

7.1.2. Vendor 2 Data For conservatism, all uncertainties given in vendor data specifications are assumed to be 2 unless otherwise specified.

7.1.3. Zero Effect (ZE)

Not applicable 7.1.4. Seismic Effects (SE)

Reference 3.9.1 states that the timing delays have been tested to 6 g ZPA without damage, malfunction or failure. Reference 3.5 defines the expected level of seismic activity for the 116 ft elevation of the control building as less than 3g. Therefore, seismic effects are assumed to be 0.

7.1.5. Radiation Effects (RE) & Radiation Drift Effect (RD)

Radiation effects and radiation drift effects are not applicable to the relays evaluated by this calculation as they are located in a mild environment (Reference 3.6).

7.1.6. Power Supply Effects (PS)

Per reference 3.9.6, Power Supply Effects for the model TR time delay function is assumed to be well under 5% of setting under all control voltage conditions. Therefore, for conservatism the power supply effects on the time delay function will be assumed to equal +/-5% of setting.

7.1.7. Process Measurement Uncertainty (PM)

Not Applicable 7.1.8. Static Pressure Effects (SP)

Not Applicable

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 16 OF 29 7.1.9. Humidity Effects (HE)

The relays were specified by the HPCS manufacturer and are assumed to be designed to withstand the environmental effects in the mounting location. The HPCS Design Specification, Section 4.6.1 (reference 3.9.5) states that the design conditions for the switchgear and its sub-components are 20 to 90% relative Humidity. Per Reference 3.6, the humidity range for environmental zone CB-116-2 is 20 to 90% RH. Reference 3.6 also identifies that 1% of the days/calendar year (30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months ) the humidity could be 5 %

higher. This is considered negligible. Therefore, it is assumed that Humidity effects are negligible.

7.1.10. Insulation Resistance Effects (IR)

(IR) effects, which may result from degradation of circuit insulation, are not applicable to the devices and circuits addressed by this calculation. The timers evaluated are not low-current DC devices affected by current leakage due to insulation resistance degradation.

7.1.11. Voltage Drop Voltage drop due to long wiring lengths between source and load are assumed to be negligible as the timing relays evaluated by this calculation are located in the same switchgear compartment. The voltage effects are included in the temperature effects per Ref. 3.9.1 and 3.9.6.

7.1.12. Temperature Effects (TE)

Per Reference 3.9.1, the temperature effect for the ETR relay is 10% of setting over a span of 40o - 156oF. Per Reference 3.9.6, the temperature effect for the TR relay is 5% of setting over a span of 32o - 122oF (the non-safety version of the same relay). Since the historical temperature in the area only varies 14oF the 5% value is assumed. The non-safety relay is built to the same specifications but substitute material may be used. This value will be used to determine relay temperature effect. The 5% tolerance is combined with voltage effects in Ref. 3.9.6 but will be conservatively used as an independent effect.

7.1.13. Temperature Drift Effects (TD)

The drift analysis performed in Reference 3.16.3 is assumed to encompass all components of drift and drift effects except for temperature drift effects which are assumed to be included in the Reference Accuracy of the device.

Temperature drift effects are not applicable to transformers.

7.1.14. Instrument Drift Deleted 7.2. Assumptions that require confirmation None

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 17 OF 29 8.0 Calculation This section includes the following subsections used in performance of this calculation:

8.1) Calculation of Miscellaneous Uncertainties 8.2) Calculation of Individual Device Reference Accuracy (RA) and Determination of Appropriate Device Uncertainty to Use 8.3) Calculation of Individual Device Uncertainties 8.4) Calculation of Loop Calibration Accuracy (CL) 8.5) Calculation of Insulation Resistance Effects (IR) 8.6) Calculation of Loop Uncertainty (LU) 8.7) Calculation of Loop Drift (DL) 8.8) Calculation of Total Loop Uncertainty (TLU) 8.9) As-Left Tolerance 8.10) As-Found Tolerance 8.11) Loop Tolerances 8.1. Calculation of Miscellaneous Uncertainties 8.1.1. Calculation of Power Supply Effects on 62S3 and 62S4 Time delay setting (PSRT)

(Reference 3.9.1, Assumption 7.1.6)

PSRT1 = +/- 5% of Time Delay setting, Setting is 3.0 seconds from Ref. 3.15

= +/- (0.050*3.0) seconds

= +/- 0.15 seconds (2 value) 8.1.2. Calculation of Power Supply Effects on 62S5 and 62S6 Time delay setting (PSRT)

(Reference 3.9.1, Assumption 7.1.6)

Reference Accuracy, Power Supply Effects and Temperature Effects as well as M&TE Reference Accuracy are specified as a percentage of time delay setting. The setting of relays 62S5 and 62S6 is specified in Reference 3.16.1 as 45.24 seconds.

PSRT2 = +/- 5% of Time Delay setting,

= +/- (0.050

45.24) seconds

= +/- 2.262 seconds (2 value) 8.1.3. Calculation of Temperature Effects on 62S3 and 62S4 Relay Time Delay Settings (TERT)

(Reference 3.9.1, Assumption 7.1.12)

TERT1 = +/- 5% of Time Delay setting under Adverse Conditions

= +/- (0.05 x 3) seconds

= +/- 0.15 seconds (2 value)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 18 OF 29 8.1.4. Calculation of Temperature Effects on 62S5 and 62S6 Relay Time Delay Settings (TERT)

(Reference 3.9.1, Assumption 7.1.12)

TERT2 = +/- 5% of Time Delay setting under Adverse Conditions

= +/- (0.05 x 45.24) seconds

= +/- 2.262 seconds (2 value) 8.2. Calculation of Individual Device Reference Accuracy (RA) & Determination of Appropriate Device Uncertainty 8.2.1. Undervoltage Relay 62S3 and 62S4 Reference Accuracy for Time Delay Setting (RART)

RART1 = +/- 5% of Setting, Setting is 3.0 seconds per Ref. 3.15

= +/- 0.05

3.0 seconds

= +/- 0.15 seconds (2 value) 8.2.2. Undervoltage Relay 62S5 and 62S6 Reference Accuracy for Time Delay Setting (RART)

RART2 = +/- 0.5% of Setting

= +/- 0.05

45.24 seconds

= +/- 2.262 seconds (2 Value) 8.3. Calculation of Individual Device Uncertainties (Reference 3.2) 8.3.1. Device Uncertainty Relay 62S3 and 62S4 Time Delay Setting (ART)

(Sections 8.2.1, 8.1.3, 8.1.1)

ART1 = +/- [(RART)2 + (PSRT)2 + (TERT)2]1/2

= +/- [(0.15)2 + (0.15)2 + (0.15)2]1/2 seconds

= +/- 0.2598 seconds (2 value)

This is conservative because the impacts of RART, PSRT and TERT are all combined in the manufacturers specified RART.

8.3.2. Device Uncertainty Relay 62S5 and 62S6 Time Delay Setting (ART)

(Sections 8.2.2, 8.1.2, 8.1.4)

ART2 = +/- [(RART)2 + (PSRT)2 + (TERT)2]1/2

= +/- [(2.262)2 + (2.262)2 + (2.262)2]1/2 seconds

= +/- 3.918 seconds 8.4. Calculation of Loop Calibration Accuracy (CL)

Per references 3.2 and 3.3, loop calibration effects are defined as:

CL = +/- [(MTEL)2 + (CTL)2]1/2

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 19 OF 29 The CTL for 62S5 and 62S6 Time Delay Settings are set to the loop as left tolerance (ALTL) in section 8.11.1 as required by License Amendment Request (LAR) 2011-05. For the remaining loops the CTL is set to the procedural as-left band (PALB), reference 3.11.2.

8.4.1. Calculation of Loop Calibration Effects for the Time Delay Setting (CLT)

CLT1 = +/- [(MTELT1)2 + (CTLT1)2]1/2

= +/- [(1.55 x 10-4)2 + (0.18)2]1/2 seconds

= +/- 0.18 seconds CLT2 = +/- [(MTELT2)2 + (CTLT2)2]1/2

= +/- [(2.33 x 10-3)2 + (1.35)2]1/2 seconds

= +/- 1.35 seconds 8.4.1.1 Measurement & Test Equipment (MTEL) effects are defined from Reference 3.2 as:

MTELV = +/- [(MTERAT)2 + (MTERIT)2 + (MTETET)2 + (MTECST)2]1/2 Where:

MTERAT = The reference accuracy of the M&TE being utilized. Epoch 40 Aux.

Timer and DC voltage/current unit has a timer accuracy of 0.005% or one digit on the min. 99.9999 range. Using 3.0 x 0.00005 = 1.5 x 10-4 seconds or using 45.24 x 0.00005 = 2.262 x 10-3 seconds.

MTETET = Temperature effect on the M&TE being utilized. Zero is assumed since the Epoch 40 operating range is 0o to 50oC with no temperature coefficient given. (Reference 3.9.4).

MTERIT = Assumed to be 0 as all M&TE used are digital with at least 2 digits of resolution. (Reference 3.2)

MTECST = Assumed equal to 1/4 the Reference Accuracy of the test equipment being utilized = 0.005%/4 seconds (per Reference 3.2).

MTEL1 = +/- [(MTERART1)2 + (MTERIRT1)2 + (MTETERT1)2 + (MTECSRT1)2]1/2

= +/- [(1.5 X 10-4)2 + (0)2 + (0)2 + (3.75 X 10-5)2]1/2

= +/- 1.55 X 10-4 seconds. (2 Value)

MTEL2 = +/- [(MTERART2)2 + (MTERIRT2)2 + (MTETERT2)2 + (MTECSRT2)2]1/2

= +/- [(2.262x10-3)2 + (0)2 + (0)2 + (5.655 x 10-4)2]1/2

= +/- 2.33 x10-3 seconds. (2 Value) 8.5. Calculation of Insulation Resistance Effects (IR) 0 per Assumption 7.1.10

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 20 OF 29 8.6. Calculation of Loop Uncertainty (LU) 8.6.1. Loop Uncertainty for Time Delay Setting (LUT)

Per references 3.2 and 3.3, Loop Uncertainty is defined as:

LUT1 = +/- (m/n)[(ART1)2 + (CLT1)2]1/2 +/- M (Margin)

Where: m = The number of standard deviations required to encompass 95% of the area under the curve for a normal distribution either one or two sided. 1.645 corresponds to a one sided confidence while 2.00 corresponds to a two sided confidence.

N = The number of standard deviations used in specifying the individual components of uncertainty.

M (Margin) = Margin is added for additional conservatism.

= +/- (1.645/2)[(0.2598)2 + (0.18)2]1/2 +/- 0.056

= +/- 0.316 seconds 8.6.2. Loop Uncertainty for Time Delay Setting (LUT)

Per references 3.2 and 3.3 Loop Uncertainty is defined as:

LUT2 = +/- (m/n)[(ART2)2 + (CLT2)2]1/2 +/- M (Margin)

= +/- (1.645/2)[(3.918)2 + (1.35)2]1/2 +/- 1.740

= +/- 5.148 seconds 8.7. Calculation of Loop Drift (DL) 8.7.1. Transformer Temperature Drift Effects (TDT)

N/A for both the voltage and time delay function per Assumption 7.1.13 8.7.2. Relay Temperature Drift Effects (TDR)

N/A for both the voltage and time delay function per assumption 7.1.13 8.7.3. Relay Drift (DRRV) 8.7.3.1 Relay Drift for Time Delay Setting (DRRT) (Assumption 7.1.14)

DRRT1 = +/- 3.725% Setpoint

= +/- (0.03725 x 3) seconds

= +/- 0.112 seconds (2 Value)

As there are no other components of drift to be considered for the relay time delay setting, Loop drift for the time delay setting (DRLT) = DRRT 8.7.3.2 Relay Drift for Time Delay Setting (DRRT) (Assumption 7.1.14)

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 21 OF 29 DRRT2 = +/- 3.725% Setpoint

= +/- (0.03725 x 45.24) seconds

= +/- 1.685 seconds (2 Value)

As there are no other components of drift to be considered for the relay time delay setting, Loop drift for the time delay setting (DRLT) = DRRT 8.8. Calculation of Total Loop Uncertainty (TLU) 8.8.1. Total Loop Uncertainty - Time Delay Setting (TLUT)

Per references 3.2 and 3.3 Total Loop Uncertainty is defined as:

TLUT1 = +/- (m/n) [(ART1)2 + (CLT1)2 + (DRLT1)2]1/2 +/- M (margin)

= +/- (1.645/2)(((0.2598)2 + (0.18)2 + (0.112)2]1/2 +/- 0.046

= +/- 0.322 seconds 8.8.2. Total Loop Uncertainty - Time Delay Setting (TLUT)

Per references 3.2 and 3.3 Total Loop Uncertainty is defined as:

TLUT2 = +/- (m/n) [(ART2)2 + (CLT2)2 + (DRTL2)2]1/2 +/- M (Margin)

= +/- (1.645/2)((3.918)2 + (1.35)2 + (1.685)2]1/2 +/- 1.801

= +/- 5.480 seconds.

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 22 OF 29 Summary of Calculation Data Time Delay Relay Device 1 Time Delay Normal Conditions Time Delay Adverse Conditions (TR data) (ETR data)

Terms Values Ref Values Ref Input Range 62S3, 62S4 .55 to 15 .55 to 15

_ 3.9.6 _ 3.9.1 62S5, 62S6 4 to 120 4 to 120 Process Units Seconds - 3.9.6 Seconds - 3.9.1 Voltage Range 85-110%V 3.9.6 80% Min V. 3.9.1 Humidity 40-60% 3.9.6 10-95% 3.9.1 Temperature Range oF 70-104 - 3.9.6 40-145 - 3.9.1

+/- 10% of Reference Accuracy (RA) 5% of Setting 2 3.9.6 2 3.9.1 Setting 7.1.12 7.1.12 Temperature Effect (TE) Included in RA 2 Included in RA 2 8.1.3 8.1.4 8.1.4 Seismic Effects (SE) Included in RA - 7.1.4 Included in RA - 7.1.4 Radiation Effect (RE) Included in RA - 7.1.5 Included in RA - 7.1.5

+/- 0.112 sec. 2 7.1.14 +/- 0.112 sec. 2 7.1.14 Instrument Drift (DR)

+/- 1.685 sec. 2 8.7.3 +/- 1.685 sec. 2 8.7.3 Temperature Drift Effect (TD) N/A - 7.1.13 N/A - 7.1.13 Radiation Drift Effect (RD) N/A - 7.1.5 N/A - 7.1.5 7.1.6 7.1.6 Power Supply Effect (PS) Included in RA 2 Included in RA 2 8.1.1 8.1.2 Humidity Effects (HE) Included in RA - 7.1.9 Included in RA - 7.1.9 Static Pressure Effect (SP) N/A - 7.1.8 N/A - 7.1.8 Process Measurement Effect N/A - 7.1.7 N/A - 7.1.7 (PM)

Insulation Resistance Effect (IR) N/A - 7.1.10 N/A - 7.1.10 Zero Effect (ZE) N/A - 7.1.3 N/A - 7.1.3

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 23 OF 29 8.9. As-Left Tolerance (ALT)

Note: For the purposes of calculating ALT, the actual MTE value, MTE L is used.

ALTRT - Time Delay Relay Calculation 8.9.1. Time Delay Relay 62S5/62S6 As Left Tolerance for Time Delay Setting (ALTRT2)

MTEL2 = +/- 2.33 x 10-3 seconds ALTRT2 = +/- SRSS (RART2, MTEL2)

= +/- SRSS (2.262, 0.00233) seconds

= +/- 2.26 seconds Because ALTRT2 is greater than the AFTRT2 value calculated in section 8.10.1, ALTRT2 will be set to 80% of AFTRT2, therefore:

ALTRT2 = +/- 80%* AFTRT2

= +/- 0.80

1.685 seconds

= +/- 1.35 seconds 8.10. As-Found Tolerance (AFT)

AFTRT- Time Delay Relay Calculation For calculating AFTRT, the actual MTE value is used:

8.10.1. Time Delay Relay 62S5/62S6 As Found Tolerance for Time Delay Setting (AFTRT2)

Since drift (DRRT2) was determined using plant specific as-found/as-left calibration data:

AFTRT2 = DRRT2

= +/-1.685 seconds 8.11. Loop Tolerances 8.11.1. Time Delay Relay 62S5/62S6 Loop Tolerance for Time Delay Setting ALTL2 - As-Left Loop Tolerance ALTL2 = +/- SRSS (ALTRT2)

= +/- SRSS (1.35) seconds

= +/- 1.35 seconds AFTL2 - As-Found Loop Tolerance AFTL2 = +/-SRSS (AFTRT2)

= +/-SRSS (1.685) seconds

= +/- 1.685 seconds

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 24 OF 29 Summary of Calibration Tolerances Time Delay Relay 62S5/62S6 As Left Tolerance (ALTRT2) +/- 1.35 seconds Time Delay Relay 62S5/62S6 As Found Tolerance (AFTRT2) +/- 1.685 seconds Time Delay Relay 62S5/62S6 As Left Loop Tolerance (ALTL2) +/- 1.35 seconds Time Delay Relay 62S5/62S6 As Found Loop Tolerance (AFTL2) +/- 1.685 seconds

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 25 OF 29 ATTACHMENT 1 ATTACHMENT 9.1 DESIGN VERIFICATION COVER PAGE Sheet 1 of 1 DESIGN VERIFICATION COVER PAGE ANO-1 ANO-2 IP-2 IP-3 JAF PLP PNPS VY GGNS RBS W3 NP Revision No.

Document No. G13.18.6.2-ENS*007 Page 1 of 4 002

Title:

Loop Uncertainty Determination for DIV III Undervoltage Time Delays - Agastat ETR14 Time Delay Relay Quality Related Augmented Quality Related DV Method: Design Review Alternate Calculation Qualification Testing VERIFICATION REQUIRED DISCIPLINE VERIFICATION COMPLETE AND COMMENTS RESOLVED (DV print, sign, and date)

Electrical Robin Smith/ See AS for signature & date Mechanical Instrument and Control Civil/Structural Nuclear Originator:

Mary Coffaro / See AS for signature & date Print/Sign/Date After Comments Have Been Resolved

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 26 OF 29 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 1 of 3 IDENTIFICATION: DISCIPLINE:

Document

Title:

Loop Uncertainty Determination for DIV III Undervoltage Time Delays - Civil/Structural Agastat ETR14 Time Delay Relay Electrical Doc. No.: G13.18.6.2-ENS*007 Rev. 002 QA Cat. I I&C Robin Smith / See AS for signature & date Mechanical Verifier:

Print Sign Date Nuclear Manager authorization for Other supervisor performing Verification.

N/A Print Sign Date METHOD OF VERIFICATION:

Design Review Alternate Calculations Qualification Test The following basic questions are addressed as applicable, during the performance of any design verification. These questions are based on the requirements of ANSI N45.2.11 - 1974.

NOTE The reviewer can use the Comments/Continuation sheet at the end for entering any comment/resolution along with the appropriate question number. Additional items with new question numbers can also be entered.

1. Design Inputs - Were the inputs correctly selected and incorporated into the design?

(Design inputs include design bases, plant operational conditions, performance requirements, regulatory requirements and commitments, codes, standards, field data, etc. All information used as design inputs should have been reviewed and approved by the responsible design organization, as applicable.

All inputs need to be retrievable or excerpts of documents used should be attached.

See site specific design input procedures for guidance in identifying inputs.)

Yes No N/A

2. Assumptions - Are assumptions necessary to perform the design activity adequately described and reasonable?

Where necessary, are assumptions identified for subsequent re-verification when the detailed activities are completed? Are the latest applicable revisions of design documents utilized?

Yes No N/A

3. Quality Assurance - Are the appropriate quality and quality assurance requirements specified?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 27 OF 29 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 2 of 3

4. Codes, Standards and Regulatory Requirements - Are the applicable codes, standards and regulatory requirements, including issue and addenda properly identified and are their requirements for design met?

Yes No N/A

5. Construction and Operating Experience - Have applicable construction and operating experience been considered?

Yes No N/A

6. Interfaces - Have the design interface requirements been satisfied and documented?

Yes No N/A

7. Methods - Was an appropriate design or analytical (for calculations) method used?

Yes No N/A

8. Design Outputs - Is the output reasonable compared to the inputs?

Yes No N/A

9. Parts, Equipment and Processes - Are the specified parts, equipment, and processes suitable for the required application?

Yes No N/A

10. Materials Compatibility - Are the specified materials compatible with each other and the design environmental conditions to which the material will be exposed?

Yes No N/A

11. Maintenance requirements - Have adequate maintenance features and requirements been specified?

Yes No N/A

12. Accessibility for Maintenance - Are accessibility and other design provisions adequate for performance of needed maintenance and repair?

Yes No N/A

13. Accessibility for In-service Inspection - Has adequate accessibility been provided to perform the in-service inspection expected to be required during the plant life?

Yes No N/A

14. Radiation Exposure - Has the design properly considered radiation exposure to the public and plant personnel?

Yes No N/A

15. Acceptance Criteria - Are the acceptance criteria incorporated in the design documents sufficient to allow verification that design requirements have been satisfactorily accomplished?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 28 OF 29 ATTACHMENT 1 ATTACHMENT 9.6 DESIGN VERIFICATION CHECKLIST Sheet 3 of 3

16. Test Requirements - Have adequate pre-operational and subsequent periodic test requirements been appropriately specified?

Yes No N/A

17. Handling, Storage, Cleaning and Shipping - Are adequate handling, storage, cleaning and shipping requirements specified?

Yes No N/A

18. Identification Requirements - Are adequate identification requirements specified?

Yes No N/A

19. Records and Documentation - Are requirements for record preparation, review, approval, retention, etc.,

adequately specified? Are all documents prepared in a clear legible manner suitable for microfilming and/or other documentation storage method? Have all impacted documents been identified for update as necessary?

Yes No N/A

20. Software Quality Assurance- ENN sites: For a calculation that utilized software applications (e.g., GOTHIC, SYMCORD), was it properly verified and validated in accordance with EN- IT-104 or previous site SQA Program?

ENS sites: This is an EN-IT-104 task. However, per ENS-DC-126, for exempt software, was it verified in the calculation?

Yes No N/A

21. Has adverse impact on peripheral components and systems, outside the boundary of the document being verified, been considered?

Yes No N/A

SETPOINT CALCULATION CALC. NO. - REV. ADDENDUM ENGINEERING DEPARTMENT G13.18.6.2-ENS*007, Rev. 002 RIVER BEND STATION PAGE 29 OF 29 ATTACHMENT 1 ATTACHMENT 9.7 DESIGN VERIFICATION COMMENT SHEET Sheet 1 of 1 Comments / Continuation Sheet Question # Comments Resolution Initial/Date 1 Comments provided by markup Incorporated RS 10/13/12