CDI Report No. 07-11NP, Revision 0, Dynamics of BWR Steam Dryer Components

ML072130415
Person / Time
Site:	Browns Ferry
Issue date:	07/31/2007
From:	Boschitsch A, Danilov P, Kaufman A Continuum Dynamics
To:	Office of Nuclear Reactor Regulation, Tennessee Valley Authority
References
TVA-BFN-TS-418, TVA-BFN-TS-431 07-11NP, Rev 0
Download: ML072130415 (48)
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Text

ENCLOSURE 11 TENNESSEE VALLEY AUTHORITY BROWNS FERRY NUCLEAR PLANT (BFN)

UNITS 1, 2, AND 3 TECHNICAL SPECIFICATIONS (TS) CHANGES TS-431 AND TS-418 -

EXTENDED POWER UPRATE (EPU) - STEAM DRYER EVALUATIONS CDI REPORT NO. 07-11NP, "DYNAMICS OF BWR STEAM DRYER COMPONENTS" (NON-PROPRIETARY VERSION)

Attached is the Non-Proprietary Version of CDI Report No. 07-11, "Dynamics of BWR Steam Dryer Components."

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information C.D.I. Report No. 07-11NP Dynamics of BWR Steam Dryer Components Revision 0 Prepared for and by Pavel Danilov Alexander Boschitsch Andrew Kaufman Continuum Dynamics, Inc.

34 Lexington Avenue Ewing, NJ 08618 Approved by Alan J. Bilanin Reviewed by Milton E. Teske July 2007

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Executive Summary (3)]]

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Table of Contents Section Page Executive Summary ......................................................................................................................... i Table of Contents ............................................................................................................................ ii

1. Objective ..................................................................................................................................... 1

2. Theory ......................................................................................................................................... 2

3. Facility Description .............................................................................................................. 5

4. Instrumentation ......................................................................................................................... 10

5. Test M atrix ................................................................................................................................ 11

6. Test Procedure .......................................................................................................................... 12

7. Test Results ................................................................................................................................ 13

8. Data Analysis ............................................................................................................................ 22

9. Conclusions ............................................................................................................................... 31

10. References ............................................................................................................................... 32 Appendix A ................................................................................................................................... 33 ii

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information

1. Objective

[[I (3)]

Structural damping in the ANSYS finite element model is defined as 1% of critical damping for all frequencies, consistent with guidance given in NUREG-1.61 [1]. [[

(3)]]

I

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information

2. Theory

[[l 2

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information (3) 3

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Continuum Dynamics, Inc. Proprietary Information

3. Facility Description (3)]]

5

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information (3)]]1 Figure 3. Schematic of the test rig.

6

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Figure 4. 13)

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Figure 5. [[

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This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Figure 6. F3e

(3)]]

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4. Instrumentation (3) 10

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5. Test Matrix (3)]]

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6. Test Procedure For each test the instrumentation and test setup was first verified and recorded. [[

(3)]]

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This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information

7. Test Results

[[l 13

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[1 (3)1]]

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This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information (3)]]

Figure 7. [[

"3)]]

15

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Er (3)]]

Figure 8. [[

(3)j 16

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information

[1 (3)]]

Figure 9. [[

(3)]]

17

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[[

Figure 10. Continuum Dynamics, Inc. Proprietary Information gr (3)]]

Figure 10 (continued). [[

(3)]]

19

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Figure 11. [[

(3)]]

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( )]

Figure 11 (continued). [

(3)]]

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8. Data Analysis

[I 22

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information 11 (3)]]

23

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information 11 (3)11 24

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information (3)]]

Figure 12. [[

(3)]]

(3)]]

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Table 5. [[

(3)]]

Table 6. [[

(3)]]

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Figure 13. [[

(3)]]

27

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information (31]

(3)

F igure 14.

Er (3)]]

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This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information (3)]]

29

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Er (3)]]

Table 7. [[

(3)]]

30

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information

9. Conclusions

[(3 (3)]]

31

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information

10. References

1. U.S. Nuclear Regulatory Commission. 1973. Regulatory Guide 1.61. Damping Values for Seismic Design of Nuclear Power Plants. October 1973.

2. Idel'chik, I. E. and E. Fried. 1989. Flow Resistance, A Design Guide for Engineers. Taylor and Francis: Washington, D.C. p. 260.

3. DeSanto, D. F. 1981. Added Mass and Hydrodynamic Damping of Perforated Plates Vibrating in Water. Journalof Pressure Vessel Technology 103: 176-182.

4. Shapiro, A. 1953. The Dynamics and Thermodynamics of Compressible Fluid Flow. The Ronald Press Company: New York. Vol. 1, p. 85.

5. Continuum Dynamics, Inc. 2007. Finite Element Model for Stress Assessment of Browns Ferry Nuclear Unit I Steam Dryer to 250 Hz. C.D.I. Report No.07-05P (Proprietary).

6. Kayser, C.J. and R.L. Shambaugh. 1991. Discharge Coefficients for Compressible Flow Through Small-Diameter Orifices and Convergent Nozzles. Chemical Engineering Science 46:1697-1711.

32

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Appendix A Appendix A contains scanned copies of the certifications for the three instruments used in the perforated plate tests.

33

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Accelerometer Certification Continuum Dynamics, Inc. Accelerometer Calibration Reason for service: determine relation between voltage output and acceleration Type of cal: normal As fbund condition: in tolerance As left condition: in tolerance Instrument: EGA- 10-/Z2 Instrument Identification Number: 0265 Instrument Serial Number:98G98B 10-A 14 Calibration Date:6/13/07 Calibration Due: 6/13/2008 Note: Accelerometer was calibrated with AD627 instrumentation amplifier with 21.94 KQ gain resistor. Accelerometer and AD627 were powered by 4.900V supply. Earth's gravitational field was used as a reference.

Acceleration Voltage Output g_ volts I (arrow up) 3.054 0 (arrow right) 3.007

-I (arrow down) 2.959 0 (arrow left) 3.002 1 (arrow up) 3.053

-I (arrow down) 2.959 Instrument Assed in Col Date traceaty Cal Cert Multimeter 0379 7/11/06 17/11/07 E185 Insttrument used in the above calibration have traceability to NIST.

Performed by: Verified by:

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This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Pressure Transducer Certification

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This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Thermocouple Certification CER=!L-CATE Or CALIBRAnTON FOR Num~&,ica: OMOOGA0 ITWQT~.10I.Tr*oJ:eP-tNc:: )JORE 'L-rNa 0416 Iz 212-ST ZoD MEETS MAIU FACTUR ER'S VIEC3S CAUE RATED Z C-LEAKED F4:;cSo: oo:-3 RE 4 D-,:o D-zc~~f; Me; Axýc-Ju:

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_L*m c- c Certfica'.:e No. 3166776 electrouinc 212$S 23.-:- S.-E.ET ALLENTOWN. PAi 510$

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D-e.cription: OMEGA ENGINEERING, DP41-TC-A, Digital Thermometer S-eriaNo: 2210646 A-*esNo: 0101 Sim-co ID: 20136-87 DepT: NONE P0 No: 06-63 Calibra-ion Da.e: 07/24106 Calibrz'ion in:*val: 12 Months Kecaii Daze2: 07124107 Ani',:al Condition: Serri-ce:

MEETS MANUFACTURER"S SPEC"S. CALIBRATED & CLEANED ProoeditUe: 635-0071 REV 0 Temperature: 730 F Reiative FIunaidin-: 55%

Stanlddm. USed:

S'=co ID Due Date Moe Acc/Unc Trace N'o.

CALIBRATOR (SCOPE OPT) 17834"488 09.'05107 14 DCV +/-50ppn 269446-04 CalibraEionaData:

PaMmeter Nominal M..ez -ared Before MeEaznred After Tolerance TEMP ACCY. 32.0 F. 31.9 31.9 +1-0.3 F.

TEMP ACCY. 212.0 F. 212.0 212.0 +.-0.3 F.

TEMP ACCY. 500.0 F. 500.0 500.0 +/-0.3 F.

TEMP ACCY. 1000.0 F. 1000.2 1000.2 +/-0.3 F.

TEMP ACCY. 1400.0 F. 1399.9 1399.9 +1-0.3 F.

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Demription: CYBER RESEARCH INC, CMF 3202DA, DATA AOUISITiON BOARD Serial No: SR0430000539 Asset No: 0604 SinTio ITD: 20138-151 Dcpt: NONE PO No: 06-803 Calibration Date: 10/12/06 Calibration ITv rval: 12 Months Recall Date: 10/12/07 Airiyal Condition: Service:

MEETS MANUFACTURER'S SPEC'S. CALIBRATED & CLEANED Procedure: 635-0082 REV 5 Tl'emperature: 73':F Rclalivt Humnidity' 38%

St ndaixis Used: Intvl Tv Simco ID Due Date Mos Ace]Unc Trace No.

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ContinUeL fraom Page. 1 Calibratiro Da;c:

Parantj*r* Nominal Measured Before Measm-ed After Tolaance AID ACCY: STD APPLI ED

• 5.0 to 5.0 VOLTAGE Channel 0 -5.0000 -4.9991 -4.9991 +1-1I..2208rnV

+/-I..2208mV Channel 0 -2.5000 -2.5001 -2.5001 +I-1..2208rnV Channel 0 0.0000 0.0000 0.0000 Channel 0 2.5000 2.5000 2.5000 ./-1..2208mV Channel 0 5.0000 4.9990 4.9990 +1-1.2208mV Channel I -5.0000 -4.9991 -4,9991 41-1 .,220SmV Channel 1 -2.5000 -2.5001 -2.5001 4/-1o..2208mV Channel 1 0.0000 0.0000 0.0000 +/-1..2208mV Channel 1 2.5000 2.5000 2.5000 +/-1..2208mV Channel 1 6.0000 4.9990 4.9990 +/-1..2208mV Channel 2 -5.0000 -4.9992 -4.9992 h1-..2208mV Channel 2 -2.5000 4999 -2.4999 +4-1..2208mV Channel 2 0.0000 010000 0.0000 +1-1 ..2208mV Channel 2 2.5000 2.5000 2.5000 +/-1..2209mV Channel 2 5.0000 4.9993 4.9993 +/-..2208mV Channel 3 -5.0000 -4.9993 -4,9993 ./-1..220UmV Channel 3 -2.5000 -2.5001 -2.5001 ./-1..2208mV Channel 3 0.0000 0.0000 0.000 +/-1 ..2208mV Channel 3 2.5000 2.5001 2.5001 thI- ..2209lmV Channel 3 5.0000 4.9991 4.9991 +1-1 ..2208mV Channel 4 -5.0000 -4.9992 -4.9992 +i-i..2208mV Channel 4 -2.5000 -2.5000 -2.5000 l-i ..2208mV Channel 4 0.0000 0.0001 0.0001 4/-I ..2208mnV Channel 4 2.5000 2.5001 2.5001

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Continutd front Page 2 Calibraliogi Da(a:

Paraneter Nominlal Measured B3cbrIm Mensured A fter Thlcrancec Channel a -5.0000 -4.9990 -4,9990 +/-1..2208mV Channel B -2.5000 -2.5000 -2.5000 +-1i.-2208mV Channel 8 0.0000 0.Q0000 0.0000 +/-1..2208mV Channel B 2.5000 2.4999 2.4999 +/-1 .,2208mV Channel 8 5.0000 4.9991 4.9991 +/-1 ..2208mV Channel 9 -5.0000 -4.9992 -4.9992 +1-1..2208mV Channel 9 -2.5000 -2.4999 -2.4999 4-1 ..2208mV Channel 9 0.0000 0.0000 0.0000 +/-I ..2208mV Channel 9 2.5000 2.5000 2.5000 +/-I ..2208mV Channel 9 5.0000 4.9992 4.9992 +/-1..2208mV Channel 10 -5.0000 -4,9993 -4.9993 +/-I..2208mV Channel 10 -2.5000 -2.5001 -2.5001 +/-1..2208mV Channel 10 0.0000 0.0000 0.0000 +1-1..2208mV Channel 10 2.5000 2.5000 2.5000 +/-1..2208mV Channel 10 5,0000 4,9992 4.9992 +1-1 ..2208mV Channel 11 -5.0000 -4.9994 -4.9994 4-1 ..2208mV Channel 11 -2.6000 -2.5001 -2.5001 +1-1 ..2208mV Channel 11 0.0000 0.000 0.0000 +/-1 ..2208mV Channel 11 2.6000 2.5000 2.5000 +/-1..2208mV Channel 1 5.0000 4.9993 4.9993 +/-1..2208mV Channel 12 ,5.0000 .4.9990 -4.9990 +1-1 ..2208mV Channel 12 -2.5000 -2.5001 -2.6001 +/-1 ..2208mV Channel 12 0.0000 0.0000 0.0000 +t-1 ..2208mV Channel 12 .2.5000 2.4999 2.4999 o-1-..2208rnV Channel 12 5.0000 4.9991 4.9991 */-1..2208mV Channel 13 -5.0000 -4.9992 -4.9992 +1-1.2208mV Channel 13 -2.5000 5001 -2.5001 +/-1 .,220BmV Channel 13 0.0000 0.0000 0.0000 +/-1 .. 220BmV Channel 13 2.6000 2.5000 2.5000 +/-1 .. 2208mV Channel 13 5.0000 4.9991 4.9991 ./-1..2208mV Channel 14 -5.0000 -4.9994 -4.9994 +J-1..2208mV Channel 14 *2.500O -2.5001 -2.5001 +/-1 .. 2208mV Channel 14 0.000 0.000 0.0000 -+/-1..2208mV Channel 14 2.5000 2.6000 2,5000 +1-1..2208mV Channel 14 5.0000 4.9992 4.9992 +/-1 ..2208mV Channel 15 -5.0000 -4.9993 -4.9993 +I-1 ..2208mV Channel 15 -2.50DO -2.6004 -2.5001 +/-1..2208mV Channel 15 0.0000 0.0000 0.0000 +/-I..2208mV Channel 15 2.5000 2.5000 2.5000 +I-1 ..2208mV Channel 15 560000 4.9991 4.9991 */-I..2208mV Channel 16 -5.0000 -4.9992 -4.9992 +/-1..2208mV Channel 16 -2.5090 -2.5001 -2.5001 +/-1.-2208mV Continued on nexr Page MW Page 3 of 6 11111111111111 41

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Continued from Page 3 Calibration Data:

Parameter Nominal Measured Befoie Measured After "Tolerance 0,0000 0.0000 0.0000 +/-1..2208mV Channel 16 2.5000 2.4999 2,4999 +/-1..2208mV Channel 16 5.0000 4.9991 4.9991 +/-1 .. 2208mV Channel 19

-5.0000 -4.9990 -4.9990 i-1i ..2208mV Channel 17

-2,5000 5000 -2.5000 +1-1 .. 2208mV Channel 17 Channel 17 0.0000 0.0000 0.0000 +1-1 .. 2208mV Channel 17 2.5000 2.5000 2.5000 +1-1..2208mV Channel 17 5.0000 4.9991 4.9991 4-1..2208mV

-5.0060 -4.9990 -4.9990 +/-1..2208mV Channel 18 Channel 18 -2.5000 -2.5000 -2.5000 +-1. ,2208mV Channel 18 0.0000 0.0000 0.0000 */-1..2208mV Channel 18 2.5000 2.5001 2.5001 +/-1..2208mV Channel 16 5.0000 4.9992 4.9992 4/-1 .,2208mV

-5.0000 -4.9994 -4.9994 +1-1 ..2208mV Channel 19 Channel 19 -2,5000 -2.4999 -2.4999 +/-1 .. 2208mV Channel 19 0,0000 0,0900 0.00O0 +s/-1.2208mV Channel 19 2.5000 2.000 2.5000 +1-1..2208mV 5.0000 4.9992 4.9992 i-1 ..2208rnV Channel 19

-5.0000 -4.9993 -4.9993 4/-1..2208mV Channel 20

-2.5000 -25001 -2,5001 +i-1 ..2208mV Channel 20 Channel 20 0.0000 -4.9993 -4.9993 +/- ..2208mV Channel 20 2.5000 2.5000 2.5000 +1- ..2208mV Channel 20 5.0000 4.9993 4.9993 +/-I ..2208mV Channel 21 -5.0000 -4.9992 -4.9992 +/-i..2208mV Channel 21 -2.5000 -2.4999 -2.4999 +/-1..2208mV Channel 21 0.0000 0.0000 0.0000 +/-l..2208mV 2.5000 2.5000 +/-1..2208mV Channel 21 2.5000 Channel 21 5.0000 4.9991 4.9991 +/-i..2208mV

-5.0000 -4.9993 -4.9993 +/-1 ..2208mV Channel 22

-2.5000 -2.5001 -2.5001 +/-1 ..2208mV Channel 22 Channel 22 0.0000 0.0000 0.0000 +/1- .. 2208rV Channel 22 2.5000 2.5000 2.5000 +/-1i 2205mV 5.0000 4.9990 4;9990 +/-1..2208mV Channel 22

-5.0000 -4.9994 -4,9994 /-1 ..2208MrV Channel 23 Channel 23 -2.5000 -2.5001 -2.5001 +-1..2298mV Channel 23 0.0000 0.0000 ,0.0000 +1-1..2209mV 2.5000 2.4999 :2.4999 +4-1..22D08mV Channel 23 5.0000 4.9992 4.9992 i-1 ..2208mV Channel 23

-5.0000 -4.9994 -4.9994 +/-1..2208mV Channel 24 Channel 24 -2.5000 -2.4999 -2.4999 +/-1..2208mV 0.0000 ,0.0000 +4-1..2208mV Channel 24 0.0000 2.5000 2.4999 2.4999 +/-1..2208mV Channel 24 Comulitied on next Page Page 4 of 6 110l10lllmlUR 1111111, 42

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.A.LENITOWN,PA 19103 ON SITE CEI'IiF [CATE OF CALIBRATION FOR CONTINUUM DYNAMITCS, INC.

Cboniinued fmrn Page 4 C.l ibra Lion Data:

Patr,'trn cr Nominal Measued Before Mfeasured After TFolerance Channel 24 5.0000 4.9"90 4.9990 +1-1 ..2208mV Channel 25 -5,0000 -4.9994 -4.9994 +4-1..2208mV Channal 25 -2.5000 -2.5001 -2.5001 4-1..2208mV Channel 25 0.0000 0.0000 0.0000 +1-1. .2208niV Channel 25 2.5000 2.5000 2,5000 +/-1-.2209mV Channel 2.5 5.0000 4.9993 4.9993 4-1-.2208nV Channel 26 -5.0000 -4.9991 -4.9991 +/-1..2208mV t/-I ,.2208lmV Channel 26 -2.5000 -2.4999 -2.4999 +f-1 ,,2208rnV Channel 26 0.0000 0.0000 0.0000 +/-1 ..2208mV Channel 26 2.5000 2.5001 2.5001 4/-1..2208mV Channel 26 5.0000 4,9992 4.9992 +/-1 .2208mV Channel 27 -5.0000 -4.9991 -4.9991 +/-1..2208mV Channel 27 -2.5000 -2.4999 -2.4999 +1-1 ..22OrmV Channel 27 0.0000 0.0000 0.0000 +/-1..2208mV Channel 27 2.5000 2,4999 2.4999 +1-1 .220GmV Channel 27 5.0000 4.9991 4.9991 +/-1 .,2208mV Channel 28 -5.0000 -4.9992 -4.9992 +/-1 ..2208mV Channel 28 -2.5000 -2.4999 -2.4999 /-1i,2208mV Channel 28 0.0000 0.0000 0.0000 4-1-.2208mV Channel 28 2.5000 2.5000 2.5000 i-i ..2208mV Channel 20 5.0000 4.9991 4.9991 +/-1..2208mV Channel 29 -5.0000 -4.9992 -4.9992 +1-1 ..2208mV Channel 29 -2.5000 -2.4999 -2.4999 +/- ..2208mV Channel 29 0.0000 0.0000 0.0000 +/-1..2208mV Channel 29 2.5000 2.5000 2.5000 +/-1 ..2208mV Channel 29 5.0000 4.9991 4.9991 +/- ..2208mV Channel 30 -5.0000 -4.9992 -4.9992 +-I ..2208rmV Channel 30 -2.5000 -2.5002 -2.6002 +/-1 ..2208mV Channel 30 0.0000 0.0000 0.0000 +1- ..2208mV Continued or) nexl Page Page 5 of 6 11 111 ll11191111 Pi 43

This Document Does Not Contain Continuum Dynamics, Inc. Proprietary Information Certificate No- 3275966' F

2125 SW 2.f1-1 STHb-j" ULLNI'OWIN, PA 19103 ON SITE CElRTIFICATE OF CALIBRATION FOR C-ONTINUUM DYNAMICS, INC.

Continued froin Page 5 Calibrtuion Data:

Paraineleur Nonuiial Mfeasured Before Mcasurcd After Toltt-rnce 2.4999 +/1-1.2208rnV Channel 30 2.5000 2.4999 +t-1..2208mV Channel 30 5.0000 4.9994 4.9994 Channel 31 -5.0000 -4.9991 -4.9991 +1-1 ..2208mV Channel 31 -2.5000 -2.5000 -2.5000 +4-1..2208mV Channel 31 0.0000 0.0000 0.0000 +1-1 ..2208mV Channel 31 2-5000 2,5002 2.4002 +4-1..2208mV Channel 31 5.0000 4.9992 4.9992 +I-1..2208mV Worýk pertomed by: Reviewed by:!

Martin LaG range Annelle Singer ,/ri

.Ek*lronic Techfician Mechanical Technician B

• lMCO Ecrrok' qu'aliiy.,(nrag,,,ern'eni ystetn conmlto.150 9001:20H',ISO/LFW 1702-S1.9*, ivi.ANSI/NCSL Z.'0.!-1994. All calibrations Dx prforrond n.sirg interatiotally recwgniicd .wlakdi trae.able to kheIntaratiaoal Sys(em of Units (SIUnilt. Traceability is achieed tluough by the National Institute osltandrAls sortllodaology (NST), oltker Nationl Me.ie 'mrncni etu.bretiou', ts0atduns (NMNs'), or by using Haral physical.

onstants, io'sinaic .starlids or rnrfin mItralibrion nxrrn.r.rr. hrslirararwrtsatremlib.ted with .atcst crac y ratio of4

A or greater, OthrL'wiSc mro rerrit urea:'irrtyanxtsLi al'or guard bands are applied ntrrg thre ,rasrormmat pro*ss. Thu ir mnsmajion shownon thi3 ctlrifiwale apjpies only to the ituranmiat idntifit'd

• iov'ry fill rbeiepmduoed. xceupt

• r*i 4rfull,"vilbomt..rior,an onooscrt finr STMCO Electrnics. Thcrc ii no riplia ea.a-raritv 'l due w possble drift, eairvnrenut, or other Factors that tire inSlninent 'sill m~ain,,d it sr'ilracl osleta~rt.'s daring the r.*.alibmjr irrrerva beryo( o'urcomteot.

Dated: 1O/J12106 correCtion isred msof 111)20/06 Page 6 of 6 11111911111111111111 44