ML20094G601
| ML20094G601 | |
| Person / Time | |
|---|---|
| Site: | Hatch  |
| Issue date: | 08/07/1984 |
| From: | Gucwa L GEORGIA POWER CO. |
| To: | Stolz J Office of Nuclear Reactor Regulation |
| References | |
| NED-84-397, NUDOCS 8408130379 | |
| Download: ML20094G601 (3) | |
Text
- 333 Piedmont Av' nue
e
. Atlarita, Georgia 30308 Telephone 404 5264526
. Mailing Address:
. Post O'f:ce Box 4545 -
ANanta. Georgia 30302
- i Georgia Power L T. Gucwa the southem electic system
' Manager Nuclear Eng:neering and Chief Noctear Engineer Algust 7,' 1984 NED-84-397 Director of N.1 clear Reactor Regulation Attention:
Mr.~ John F. Stolz, Chief Operating Reactors Branch No. 4
' Division of Licensing-U. S. Itaclear' Regulatory Oxanission
- Washington, D. -C.
20555.
s NRC DOGETS 50-321, 50-366-OPERATING LIGNSES DPR-57, NPF-5
~
4 EIMIN I. HATCH NUCIEAR PIANT INITS 1, 2 SUPPLEMENT TO SUBMITTAL OF SPDS INFORMATION Gentlemen:
' This ~ letter is in response to a telephone reglest on Jaly 17, 1984, from
..L Prasad Kadambi and Joe Joyce of the NRC to Mr. Pall Springer of my staff.
She -following is a alpplement to our letter of June 7,1984, as reglested daring' that telecon.
The following reglests for information were noted daring the telecon:
~
01estion: The letter of aine 7 states that the maximim. voltage in cable
- trays used by SPDS is 50 volts.
What about electrical cabinets, etc.,
that cables are routed through?
- Response:
Electrical cabinets have 120 VAC power alpply for electronic egaipment, etc.. The location of the power cables makes it unlikely that they will contact any instrument cables.
Q2estion: Where are Paragraphs 6.4.2.1, 2 and 3 of Attachment 1 to the
.'GPC letter of J2ne 77 They are referenced in the letter, hit missing in
. the Attachnent.
. Response: There was a typographical error in the letter of aine 7.
The correct reference is to paragraphs 5.4.2.1, 2 and 3.
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GeorgiaPower d Director of N2 clear Reactor Reg 11ation
' Attention: Mr. John F. Stolz, Chief Operating Reactors Branch No. 4
. A1 gust 7,1984 Page 2 02estion:
What is the pass / fail acceptance criteria for tests on the SPDS isolation devices?
This information was,reglested in gaestion 2.3.d of the NRC reglest for information dated April 23, 1984.
Response
Pass / foil acceptance criteria and reallts of gaalification testing of the SPDS isolation devices are contained in Foxboro doalments QQWO4 (Attachnent 1), and QOAAB44 (Attachnent 2).
We have obtained permission from Foxboro to transmit these documents to the NRC for the p2rpom of licensing the SPDS/ERF information system.
Acceptance criteria for gialification testing are listed on page 4 of test report QQ W O4.
There are no explicit accec+ance criteria provided for performance of the isolation devices in response to fallts applied to the altpits.
However, the isolation devices were determined to be adeglate for isolating Class lE instrument loops based on the followig:
Reallts of -testing in which fallts were applied to the outputs of the isolation device are contained in Foxboro test report QQAAB44. Refer to page 14, Figure 1 for the test configuration.
Applied fallts and the correspondirg eglipment responses are listed on pages 11 and 12.
Test reallts show no significant disturbance at the input in response to grounding of both outputs (refere1ce Fig 2re 2), and no significant disturbarre at the input in response to application of' 600 VAC across the outputs of the isolation device (reference Fig 1re 4).
Noise eg11 valent to 8% of full scale was observed on one channel when 600 VAC was applied from ground to both outputs of the isolation device
_(reference Figure 3).
Note from the test configuration that the noise was meaatred at the output of the device's alrrent-to-voltage converter, a ciralit which also functions as an isolation device.
The converter would prevent noise from propagating into the class IE instrument loop.
Based on these test reallts, and the fact that the worst credible fallt in the SPDS reallts in 50 volts at the output of the isolation device, we conclude that Class 1E instrument loops are adegaately~ isolated from the SPDS.
01estion:
What is the Military Specification (Mil Spec) for EMI emissions from the SPDS eglipnent?
Response
The standards for EMI characteristics of the SPDS eg2ipment are MIL-STDs 461A and 461B (computers and monitors, respectively),
" Electromagnetic Interfere 1re Characteristics Reglirements for Eglipment."
L.
' 700775
3 LGeorgiaPower d Director of M1 clear Reactor Regulation Attention:. Mr. John F. Stolz, Chief Operating Reactors Branch No. 4-higust 7,.1%4 Page 3 Please contact this office if you have any g.nestions or consnents, f
Very truly yours, 5 -
/T Q ' m L. T. G1 cwa T
PIS/
Attachments: as noted.
xc -(w/o attachment) :
H. C. Nix, Jr.
J. P. O'Reilly (NRC-Region II)
Senior Besident Inspector f
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Atiachment i
00A &&O4 PART-1 SEISHIC TIBRATION TEST PB3CEDURE for N-2ES STYLE B R ACK and CURREME PRODUCTION HODEL RACK HOUNTED NODULES for CLASS 1B QU ALIFICATION PER IEEE 344-1975-i REY D 16 JAN 78
.c H E L'E Y
~
CHILDS
- SUP ERVIS3 R STAFF ENGINEER I.
QUALITY ASS URANCE LABORATORIES NUCLEAR POWER PRODUCTS AND STANDARDS This document, the specifications, procedures, and descriptions contained herein, are the property of the Foxboro Company, and shall not be reproduced in whole or in part, nor transmitted to others, without written permission of The Foxboro Company.
This document is a working paper for review purposes only and as such does not represent any contractual intent by Foxborc.
Foxboro reserves the right to revise this document without prior notice.
4 l
.3.
-QOAAA04-Part-1
- 1 PAGE O E Ef D '
I IIELAR&II9N QZ_LAIEEI_R3YISIOEJ 3]I_ji First Issue R31 B
. Deleted section 2.2~ - Naturally-aged Units; vill be included in 00A A A04, Part II.
Specified Beguired Response Spectra for Class 1E Qualification of sod ules, Figures 11, 1B,.21 6 28.
Revised Section's 3.3 and 3.4 per user consents; included acceptance criteria.
Added items 31 and 32 to Section 2.1.
Added additional Notes to Figures 5 thru 30, where applicable, to clarif y instrument
^
testing during seisaic.
.~ REIaS Bevised Figures 11, 1B, 1D, 21, 2B, and 2D based on results of eq tests pe r QO A A A19.
Correction second paragraph, Section 3.2. ; iten as 11, page 1; and Figure 3, page 15.
c5 Jggy;p C3 l Clarified Section 2.1 by correcting quantity of item 6,20 and 36; I removed 12 ANU-5 (was Item 7) ' and 2AT+SBD (was Itea 40) ; renumbered j Items 7 - 37; added clarification to Section 3.2 'to ref er to l
l QOA A A19; added notes to Figures 3 and 4 to clarify; revised 4th
- l. paragraph of Section 3.2 to clarify rack orientations during test.
i.
'O j Added N-2ES R ack in second paragra ph, Section.1.
Added vertical
.j9 l RRS 's to Figures 1 A, 18, 2A, 2B.
.v rs.
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RIII219E_HISI9EI EII R&25 XRIIIIIZEE.YIRER_BI REIIEEED_BI l
a 19 DEC 77 L. HEWEY J. CHILDS C
16 JAN 78 J.
CHIL DS L.
HEWEY D
HAR 80 L. HENEY J.
CHILDS y
i
Q0&& A04-Part 1 PAGE i HEY D
%&H LSLG252EEIE
, g 2KZ18 USCBLE119E U9B-1 Test ' bjective O
1.
1 2.
Test Items 2
3.
Test Procedure
~
4.
Test Documentation 4
4 5.
Raw Data i
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00A A A04-Part 1 ~
PAGE 11 BET D L12I_9f._LLL91IE.A.I[Q15, 2199R2 RKEGLLRZL91 RAGE 1
Generic Required Response Spectra at OBE Level 5
1r Generic Bequired Response Spectra for Class 1E (Front to Back, Back to Front, and Yertical) - OBE 6
-1B Generic Required Response Spectra for class 1B (Side to Side and Vertical)
- OBE 7
j l
1C Estimated Table Response Levels (Front to Back, Back to Front, and Vertical)
- OBE 8
v 1D Estimated Table Resp;ase Levels (Side to cb Side and Vertical) - OBE 9
CE 2
Generic Hequired Response Spectra at SSE Level 10 2A Generic Required Response Spectra for Class 1E (Front to Back, Back to Front, and Vertical) - SSE 11
'O 2B Generic Required Response Spectra for Class 1E (Side to Side and Yertical) 9
- SSE 12
~
v 2C Estimated Table Response Levels (Front
.gg Ps to Back, Back to Frcat, and Vertical) c
- SSE 13 O
'2D Estimated Table Response Levels (Side to side and Vertical) - SSE 14 3
Nest Loading Configurations 15 4
N-2ES Rack Configurations 16 l-5-30 Instrument Seismic Test Setup 17-42 31 N-2ES Rack-Accelerometer Placement 43
00AA A04-Pa rt 1 PAGE 1 REY D 1.
IAEI_QEdEGIIII Ih Demonstrate that the instruments listed under Section 2. Iggt 11333 vill perform their required Class 1E functions, as sounted in the N-2ES Style B Rack, under generic OBE and SSE seismic environments specified herein.
1 To establish the structural integrity of the N-2ES Style B Rack l
and rack-mounted modules under generic OBE and SSE seismic environments specified herein.
2.
,233T 1I33)
(
2.1 331gg.gf_gggsg31_EE943E112S_21!iEE JIEE QII B99EL GE_S921 IIILE IIRI 1
'1 2AI-C2L CS-N/SRC
,A Contact Input Isolator 2
1 2AI-T2V+E-CS-N/SRC'": B EHF to Voltage Converter (n.
3~
1 2&I-I27 CS-N/SRC B
Current to Voltage Converter CN 4
1 2AI-I3V CS-N/SRC A
Current to Voltage Converter 5
1 2AI-I2Y*
CS-N/SRC B
Current to Voltage Converter i
- C3 l-6 3
2 A NU-D CS-N/SBC A
Nests J
7 1
2AND-P CS-N/S3D A
Nest I
8 1
210-IPD-R++
CS-M/SRD A
Integrator Power Driver j
9 1
2AO-L 2C-R CS-N/SRC Contact Output Isolator l
10 1
' 2 A O-L2 C-R*
- CS-N/SBC Contact Output Isolator l
- j 11 1
2&O-V2C CS-N/SRC Toltage-to-Contact Converter l
12 1
2AO-VAI CS-N/S RC A
Voltage-to-Current Converter i
13 1
2AO-V3I CS-N/SRC A
Voltage-to-Current Converter l
l 14 1
2A RPS-16 + BB2 CS-N/SRC D
Multi-nest P ower Supply
'n J
vith Battery Backup my l 15 1
2AT-SBU++
CS-N/SBC A
Standby Unit j.
16 1
2AC-52+15 CS-N/SRC B
Auto Manual Balance Card Bs-l 17
.1 2AP+ ALM-AR CS-N/SRC B
Alara (Relay Output) i
. I.
18 1
2& P+1LN-A S CS-N/SRC B
Alara (Solid State Output)
C3 J.19 1
2AC-D+A5+BN CS-N/SRC C
Controller and Renovable 1
l Banual Cards j
20 2
2&I+DP13 C S-N/SRC C
Power Distribution Hodule l
21 1
2&I+DS1 CS-N/SRC A
Signal Distribution Hodule l
22 1
2AI+DSR CS-N/SBC B
Relay Logic. Card l
23 1
2AI+ DSS CS-N/SBC Solid State Logic Card 1
24 1
2AC+DYC CS-N/SRC Dynamic Compensation l
25 1
2AP+ INT-S CS-N/SRC Square Root Integrator 1
26 1
2&c+50 CS-N/SBC A
Manual Output Card 1
l 27 1
2AI+P CS-N/SRC By Pass Module L
i 28 1
2&I+PS9A CS-N/SBC B
Single Nest Power Supply 1
29 1
2AI+DSC CS-N/SRC C
Distribution Hodule l
30 1
2AI+DSP C S-N/SRC D
Distribution Hodule
(
- Unit modified per ECEP 9531-becomes a 48 Y de power supply l
- Unit modified per ECEP 10273 - changes output relays to DPDT
++ Units to be qualified for class II (structural integrity) and i
therefore are not operational during seismic tests.
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.s Q0A A A04-Part 1 PAGE 2 REY D JIER QII 59EEk gS CoDI sIILE IIgg l
31 1
2A P+ SGC CS-N/SRC.
A Signal Characterizer l
32 1
2AP+ TIM C S-N/S RC A
Timer l
33 1
2AP+50L CS-N/SRC A
Hultiplier/ Divider 1
34 1
2&P+5SL CS-N/SRC Hedian Selector 1
l 35 1
2AX+LS CS-N/SRC Blind Set Plug l
36 2
N-2ES C S-N/SRC B
Rack l
37 1
2AO-VAI+++.
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Voltage-to-Current Converter l
+++0 nit modified per ECEP 9206-places a 500 ohn resistor across the output.
i l
- 3.,JISI_Pgggj.Dggg j
D l
3.1 Iggi_Hgggling l
The instrument modules vill be mounted in one 2ANU-P and three 2ANU-D nests which in turn will be mounted at the top level (one
.n i
on each side) of two N-2ES racks.
(Refer im Figure 4.)
Each l
Os rack will be tested separately.
The arrautement of the modules
. to be qualified within the nests in which they are to be tested cr.
vill be as illustrated in Figure 3 of this test procedure.
C 3.2 gagsgs_Iggt-The Required Response Spectra (RB S) at the OBE and SS E l'evel to l
vhich the modules are to be qualified are Foxboro Generic curves (Figure 1A, 1B, 21.and 2B) which envelope normalized test response spectra (TRS's) obtained at nest mounting locations
'O during Class II (structural integrity) testing of,the N-2ES rack i
,l and were later refined based upon additional response data l
yp obtained per Test QOAAA19.
The control acceleros,eter f or the test will be at the top nest location to assure f 44t the TRS's t
Ps will envelope the Foxboro Generic Curves.
TRS's at nest mounting locations were obtained in testing of f ully - loaded balanced and C3 unbalanced loading configurations of the N-2ES Style B Rack, and then were normalized to the Foxboro Generic Required (Floor)
Response Spectra, Figure 2.
-The TRS's were normalized at each f requency by the f actor by which the table TRS exceeded the generic B equired (Floor) Response Spectra during the Class II te sts.
In addition the Required Response Spectra (RRS) f or Cla ss 1E qualification of the modules incorporates response peaks which have been broadened towards higher frequencies than obtained in testing of the f ully-loaded racks to account for the higher resonant frequencies (of the primary response mode of the rack) to be obtained with lighter rack loadings.
To achieve the required response at the equipment mounting locations will require table response scoelerations well in y
excess of the Foxboro Required (Floor) Response Spectra, particularly in the ranse of 10 to 20 Hz.
The required table
- TRS's at the OBE and SFd levela have been estimated to be as shown in Eigures 1C (OBE - Front-to-Back) and 1D (OBE - Side-to-Side and 2C (SSE - Front-to-Back) and 2D (SSE - Side-to-Side).
\\
~.
Q0&A104-Part 1 PAGE 3
\\
REY D Triarial accelerometer arrays will be mounted at functional gg equipment aounting locations (i.e., the top nest level and top Power Supply).
TRS's produced from these accelerometet outputs vill be used to assure that the RRS levels for qualification have been achieved. or exceeded.
Placement of accelerometers is as shoun on Figure 31.
The table input vill be band-limited white noise (rando n).
At each test level the excitation vill be simultaneous biarial, achieved by driving the test table at a 45 degree angle..The I
racks will be tested in each of four orientations, such that the ij input is applied in the horizontal lef t-to-right and vertical I
a xes, the horizontal f ront-to-back and vertical axes, the horizontal right-to-lef t and vertical axes, and the horizontal t
I back-to-f ront and vertical axes. The test will be performed five I
times in each of the above orientations with the horizontal in-axis TRS's enveloping the 15 damping RRS of Figures 11 and 18 for rack-mounted modules.
The amplitude vill be controlled in one-third ' octave bandwidths.
One SSE will be performed in each of ps the four orientations with the horizontal in-axis TRS's enveloping the full level of the 15 damping RBS of Figures 2A and 0%
2B for rack-nounted modules.
t In order to achieve the specified module horizontal response C3 levels of Figures 11, 1 B, 21, a nd 2B, it is expected that the table TRS's, both horizontal and vertical, will exceed the floor-l level RRS's of Figures 1 and 2 by 30% or more in the frequency range abo ve 2.5 Hz (Refer to Figures IC, 1 D, 2C, and 2D).
Since vertical amplification factors at module locations of the N-2ES 7
rack are expected to be within the range of 0.9 to 1.2, the
,'A resultant vertical TRS's obtained in testing the functioning l
l~
nests are expected to envelope vertical response spectra obtained in operation of the N-2ES rack at the generic floor-level BRS's n7 of Figures 1 and 2.
Ps Horizontal in-axis, horizontal cross-a xis, and vertical TRS 's C3 vill be generated and plotted for 15, 2 1/25 and 55 damping at one-third octave intervals during one of each series of OBE's and 4
each SSE test for all accelerometers during both rack tests.
The,
test duration of each OBE and SSE will be 30 seconds.
3.3 Jggi_12Ph9.dDE The functional nests and power supplies to be qualified will be energized and the functioning modules will be monitored during the test, as required to demonstrate satisfactory performance of Class 1E functions during the specifiei generic OBE and SSE t
l seismic events.
The test setups and input and output signal levels for each k
I individual instrument will be as diagramed in Figures 5 thru 30.
Where electromechanical relay-type outputs are to be monitored for spurious openings or closures, and where logic functions are to be operated during the test, such operation is also indicated on these Figures.
l
00&& A04-Part 1
~
~
PAGE 4 REY D All nests will be energized and de-energized 45 times through 'the 2 A B PS Power Supply before seismic tests.
Target Acceptance criteria during seismic are as follows:
Output shif ts of analog outputs will not exceed published accuracy specification.
Spurious outputs of alarm module's of duration greater than 100 microseconds will not occur with set points and input values set within 5% of each other.
Logic functions will be demonstrated to be operable.
Isolation devices will be testei for isolation capability.
)
4.
JESI DOCgjENTAllQJ The test shall be documented in the following manner:
M List of devices tested including model numbec.
Description of installation details with any resultant limitations on equipment installation.
O Weight and center of gravity of modules tested.
Test facility identification and location.
Identification of test eouipment with reference to" v3 calibration status.
tn Test data on all devices as taken before, during and after testing will be compared with Target Acceptance Criteria.
T~
Refer to Section 3.3.
3 Analysis of test results and conclusions.
C3 An independent report by the independent test laboratory at which the seismic test was conducted documenting equipment tested, test procedures, acceleration le vels, and observations by test laboratory personnel.
jag _gAIA 5.
All raw data obtained in the form of tabulated data and chart records will be made available for review at The Foxboro Company, Fo xbo ro, Passachusetts, upon request.
I
Q01AA04-Part 1 PAGE 5 REY D Figure 1
[h Generic Required Response Spectra (RRS) at OBE Level for Qualification of Floor-sounted Control Boon Equipent
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P AG E 16 RET D Figure 4 N-2ES Rack Configurations y
Two Backs will be Tested in this configuration s
Nest
- Nest
- I Nest Nest Nest Nest Nest Nest e'
l Nest Nest Power **
Power l
Supply Supply c
Power Power Supply Supply I
c
- Functfonal Nests
- 0
- Power Supply was tested for performance functions during seismic in one rack only.
N
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QOAA A04-Part 1 PAGE 17 REY D Figure 5 Seismic Test Setup
(
21I-C2L Contact Input Isolator 4
W-l INPUT A DW PUT A (R
Logic Output C
INPUT B DW PUT B (R
Position M
O
~
0
- n v
l N
i C
i
~
f Test Conditions:
Input Switches, A = Closed, B = Open; both A and B inputs will be switched during one OBE and SSE test; recorders calibrated for full scale traverse of (h
0 to 15 V dc.
...m
-_-,.o...-
00& A&O4-Part 1
-PAGE 18 EEY D Figure 6 Seismic Test Setup
')
2AI-I2V ECEP 9531 48 Y dc Power Supply DVM 1
i 2AI-I2V M
ECEP 9531 QCELL a
250 4; R
A C
l 1
c sp T
.N O
IM1_S914111SHI D/P Cell zeroed to 12 n&; Recorder calibrated for full scale traverse of 12io.8 al or 50*51 of span.
4i
00&&&O4-Part 1 PAGE 19 REY D Figure 7 Seismic Test Setup h
F 2AI+ DSS Solid State Logic Card and 2 AI+DS1 Signal Distribution Module I'
Cable with 30 Pin Connector kul I
'f t_
"N V' l
.:N) J'2
- j~
3 )U"3 LM
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Y 2AX+ DSS 2AX+DS1 Gate 4 INPUT 1 C
- NPUT 2
. N:)UT 3 l
- N!)tJT 4 g
E E
O
'f1 O
A v
N O
f Test Conditions:
Gate 1 setup for_ OB configuration, Gate 4 for AND configuration; Gates 1 and 4 will be switched during one OBE and SSE test;
. (h output recorders calibrated for full scale traverse of 0 to 15 V dc.
~
00&& A04-Pert 1
. PAGE 20 BEY D
~
Figure 8 Seismic Test Setup
'g 2&C+NO Manual Output Card Cable with 30 Pin Connector D
2AX i42N
)
DVM 2AC+MO
?
OUTPUT R
O s'.)
in v
N O
)
IS.11_E2BS111Sl!al The 2&I+M2N is used to f unctionally check the 2AI+HO before and after each test; output set to 5 Y de and recorder calibrated for a f ull scale traverse of 5 Y dc A5%
()
00&A&O4-Port 1
~
~
PAGE 21 REY D Figure 9 Seismic Test Setup Ih 21C-E2+1H Auto /Hanual Balance Unit 2AK Cable with 30' Pin Connector 2AX+M2N
]
~~
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Voltage INPUT OUTPUT (R
~
Source o
tn w
O 1,
e ZSB% G9Aik%ASRRi 2AC+AM AUT0/ MANUAL card to be tested in the auto positicn with 5 Y de inputs h
output recorder calibrated for full scale g
traverse of 5 Y dc *5%
e D
00A A A04-Par t 1 P AGE 22 REV D Figure 10 Seismic Test Setup 2AC+ DYC Dynamic Compensator
,I
)
DVM e
2AC+DYC OUTPUT h'R f
l INPUT o
I o
to i
o
)
Tsal_G9Bditis221 Input at 5 Y dc; output recorder calibrated for full scale traverse of 5 Y de iS%
()
00AA A04-Part 1 PAGE 23 REY D Figure 11 seismic Test Setup (h
210-V 2C Toltage-to-Contact Converter 60 W Bulb O
I V
Voltage INPUT Source 2A0-V2C 3
FEEDBACK 115 V ac O U
60 W Bulb 4
so
'. o v
l N
l
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i
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l l
i SSE%.G92LL%L9Bai h
l
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Input at 0 Y det lockup at 15 Gap at 15 and feedback jumper in i
the feedback position
-e
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00& A &O4-Part 1 PAGE 24 E EY ' D Figure 12 Seismic Test Setup
)
213-VAI Voltage-to-Current Converter 2AX+P T
2500hs (R
t INPUT A I
f, Voltage 2AO-VAI
~,
S urce N,.
DVM p
INPtR B 2500 1 '
{R N
4
.O o
.,q.
.N O
t 1221_G9151.111SI21 Input at 5 Y det output recorders
()
calibrated for full scale traverse of 12 mA *S1
~
00&&A04-Part 1 PAGE 25 REY D Figure 13 Seismic Test Setup Il 2AO-Y3I Toltage-to-current converter 4
(
2500
{[
(R INPUT A b
] y#,0yM Voltage y*
Source 1NPUT B 2500 {
(R C
.n
'n
.N C.
t ISA1_G9Blili2281 lh Inpet at 5 Y dc; output recorders calibrated for full scale traverse of 12 an *51
00&&&O4-Port 1 P AG E 26 -
REF D Figure 14 Seismic Test Setup 2&C-D+A5+RH
,I controller and Removable Manual Cards 2AC-D+A5+RM
@I DVM Voltage y-Source SET POINT INPUT 6
m
)
O R
MEASUREPENT c
!O I
v O
1 122i_G9Bd111SI21 l
Set point at 5 Y dc; controller closed loop, output recorders calibrated for full scale
()
traverse of 5 Y dc.*S4 l
I 1
i
0011104-Part 1 PAGE 27 ERY D Figure 15 seismic Test Setup
--gaF 2AP4 5GC Signal Characterizar d
e DVM i
2AP+50C Voltage (R
INPW OUTFW M
N O
0 in 7
.N o
1 i
3331_ Conditions 1 Impet at 5 V Act output recorder calibrated for full scale traverse of 7.07 7 de A511 2AP+SGC calibrated for square root functicut i.e, output (*) = 10 Vinput (5)
(h
00AAA04-Pcrt 1 PAGE 28 EEV D Figure 16 Seismic Test Setup
,I 2AP+50L Eultiplier/ Divider DVM J
Voltage Source INPUT A I
INPUTE(SHORTED)
~'
r g
2AP4NUL OUTPLf!
R j
l' voltage Source (INPUTB
~
o
(
INPUT C O
t.n T%
C Ethk 99Esk%19221 Input A at 5 Y de, input B 6 C at 10 V dc; output recorder calibrated for full scale traverse d
of 5 Y dc *5%; INPUT /0UIPUT Relationship 1
equals @ sD
+.
00&&A04-Part 1 PAGE 29 REY D Figure 17 seismic Test setup Im F
2AP+5SL Bedian Selector i
Voltage INPUT A i
Supply in Voltage 2AP+MSL s
f R Supply INPUT B 1
)
ej o
INPUT C so
'n N
P IIIA-SEISAISEEII h
Input A at'10 V de; input B at 5 Y dc;
~
input C shorted (0 Y de); output recorder calibrated for 5 Y de *51
---.--...m...
00A A A04-Pcr t 1
~
P AGE ' 30 REY D Figure 18 Seismic Test Setup
'y 2A P+ TIE Timer Electronic Counter s
s I ( (0UTPUT R
/
/
AO N
2AP+ TIM OUTPUT ( R o
so
- n v
N O
5 I221_.992d1119221 I
Tiser's in clock position
00AA A04-Part 1 PAGE 31 REY D Figure 19 Seismic rest setup (g
2&P+ INT-S Square Root Integrator
+15 V de i-Voltage Source INPUT 2AP+ INT-S i(
R l
)
N N
Electronic O
Counter o
fd 7
N o
1281 G9Eik$19221 Input at 5 Y det output monitored I h on a recorder calibrated for full scale traverse of 0 to 15 Y dc
00A A A04-Pcrt 1 PAGE 32-RAF D Figure 20 Seismic Test Setup I
2AP+DP10 Power Distribution Hodule I
+15 V dc e
Input Frtm C
I C
2 APPS 2AX+DP10
-15 V de Pmer
,4 Supply o
- +15 '
C-To Nest Bus
=r -15 so Ln v
N C3 I
Itsk GendL%19D21 The 2AX+DP10 will not be monitored during test.
Since it is the supply l
to the other nest instruments, any failure vill be reflected in the performance of the other modules within that nest.
l}
l
Q0&&A04-Part 1 PAGE 33 REY D Figure 21 Seismic Test Setup (g
2&I-T2V EEF Converter
^M
~
t M111tvelt source IN M A f(
(A OUT M A 2A!.TIV
(
OUT M S N
IN M B 2AI4 O
o
! ft v
ah o
I211 G2Dii11.922.1 Both channels of the 2AI-T27 are calitrated for 0 to 5 mV dc; it out A 6 8 set at 2.5 aV; output recorder calibrated for a full scale traverse of 5 Y dc *51
~( b 8
-,e,,
.m,-.
,r-
+ -..
t 00A A A04-Pert 1 PAGE 34 REY D Figure 22 Seismic Test Setup
)
2&I-I3V Current-to-Yoltage Converter InPur A OurPUT A
(
(R
)
L Current h
5ource 2Al-I3V h
DVM I-l InPur a ourrur n (R
o
!O O
i i
0
'n l
l k
a l
t i
(
122% G$lD$k%ASD2L l
l Input set at 12 mA; output recorder l
calibrated for full scale traverse of 5 V dc *51 l
00AAA04-Part 1 PAGE 35 REY D Figure 23 Seismic Test Setup 4g 2&I-I27 Current-to-Yoltage Converter 4
Current
+
3'U"C'
) INPUT A OUTPUT A
['R b8 4
2AI-12V I % DVM Current.. + _,
i p
Source
, INPUT B OUTPUT B (R
M I
v o
I o
en-l N
O i
Is11_Gend1119331 Input A 8 B at 12 mA; output recorders calibrated for f..' scale traverse of l
5 Y dc 55; switches used for isolatica i
test - to be closed 10 seconds during cne SSE.
l-
,,_,--,____,.~-.m__---+..-
r-Q0&AA04-PCrt 1 PAGE 36 REV D Figure 24 Seismic Test Setup 2AP+1LE-AR Alara o
o o
- nam, Genera *
~
C0P
.e fontact D,.
INMfr A e
purpyy A ((
f Diatter W.itor M
y' 2Ap e -An voltage E
Contact I"
O g
DUTPUT B
[
'P o
l ln l
T N
l O
l Test Conditions:
Alarm A programmed as a HI alarm and B as a LO a,larm; setpoint A at 51% and B at 494, input at 50% or 5 V des outputs are monitored with contact chatter monitor capable of detecting 100 us opening or closure; the input will be l
stepped during one OBE and SSE test to ensure i
output operability during such tests; the ramp generator is used for calibration runs b'efore and after OBE and SSE tests.
I e
1 L
QOAA A04-Pa rt 1 PAGE 37 BEV D Figure 25 (g
Seismic Test Setup 2AP+ ALE-AS Alara f
ano TO Genere.
c ntact o
IN A M PUT A l'
y f
3A N us.AS O
cm contact Impur a u rut n
[
gjj'y so
'A 7
N O
I Test Conditions:
Alarm A programmed as a HI alarm and Alarm B' as a LO alarm; setpoint A set for 51% and B set for 494 input at 50% or 5 V des outputs are monitored with contact chatter monitor cap-able of detecting 100 us opening or closures the input will be stepped during one OBE and h
SSE test to ensure output operability during I
such test; the ramp generator is used for cali-bration runs before and after OBE and SSE tests; logic output.
00&&&O4-Part 1 PAGE 38 EEY.D Pigure 26 I
Seismic Test setup i
2&O-L2C-E Contact Output Isolator
^
/_
00 V ac 1
V U4 0 "
OUTPUT B Contact OUTPUT A Chatter Y
INPUT A SW
+
"onitor M
0o Contact SW)j INPlff D OlfrPUT D n or
+
i l
l ro in v
N O
l I131_G9Adi119121 Input & shorted; input D open; outputs & 8 D monitored with contact chatter monitors capable of detecting 100 us opening or closure; both ASD outputs switched during OBE and SSE test; 600 Y ac applied to cutput B for 10 seconds during cne SSE test 4i t
6 r-r.
.~
J
,,r 00AA A04-Part 1 PAGE 39 REY D Figure 27 seismic Test setup
('P 2 Ao-YAr scne 92os vott.ge-to-cure.nt converter hb m.one pr
$weely 8
C
- is
,i,
+
l-1 (INMA y
T
~
Current T
Cource 2AI.12V R
+
V ac M
IN M 8 V Ag o
i 4
l 5
o 1s&L G9341112n Three tests are to be performed:
- 1) Ground both outputs of channel A f or 10 seconds during 1 SSE.
- 2) Apply 600 Y ac between both output leads tied together and ground for 10 seconds during ancther SSE.
- 3) Apply 600 Y ac across the output leads during a l
third SSP. fer 10 seconds; current source input at 12 an, recorders calitrated for full scale traverse of 5 Y de 154.
,s 00&&&M-Part 1 PAGE 40
=
BBY D Pigure 28 Seismic Test Setup
)
2&I+PS91 Power Supply.
+15 V dc I
150(
R C
2AX+PS9A R
15n
-15 V de
.n M
O so 3
T N
o 1 SAL GQB01%A92RL Recceders calibrated for f 611 scale traverse of 15 Y ac *55 l)
-m v-
e e.
001AA04-Part 1 PAGE 41 REY D Figure 29 Seismic Test Setup
( )F 2&EPS+ BB2 Eulti Nest Power Supply with Battery Backup I^
o o t,
+15 V de
],
2AX+BB2.,
2ARPS C
3a 1
N f
R 30 M
-15 V de
~
o
.so 125 V de 3
Source V
N O
Test Conditions:
(
The Recorders monitoring the dc output are calibrated for full scale traverse of 15 V dc
+5%; the operation of 2AX+BB2 will be checked during one SSE.
The 24 V ac Recorder is cali-brated for a full scale traverse of 24 V ac.
i
.n, _ _ _, _ _ _, _ _,,, _ - _, _. -., -,., _,,,.,
,,,.---.n.-,_s,,n.- -.,
..v..
00A A A04-Part 1 PAGE 42' R ET. D -
l Pigure 30 Seismic Test Setup 2AI+LS Bypass Hoaale
=)
l l
l 2AX+LS l
I 2AC+A5 l
l l
l c
Measurement Output r
M 1
O s
^
D R
(
tn
!~
i v
l N-l 1
(
- )
1sst GenALLissal output recorder calibrated for 5 y ac is?
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0 r
.e 00AAA04-Part 1 PAGE 43 RET D Figure 31,
(y Balanced Back (Equipment - Front and Rear)
Right Side View of N-2ES Style B Rack Location of Triarial Accelerometers NOTE:
The placement of Accelerometers in the same location on the Balanced and Unbalanced Backs.
Middle Back of
~
Top Nes xx
/
%N *
\\
Middle of Top Middle of Top k
Nest Mounting Nest Mounting Location Location A
y; (RightBeam)
(Right Beam) o so tn v
N O
Middle Back of n Second Power Supply from Bottom Middle of Second Power Supply from w
Bottom Mounting M Location CRight Beam) e
\\
/
i
- 'E A Itac.h ment 2.
l The Foxboro Company Corporate Quality Assurance Laboratory goAAsag Type Test Report REY A 2AO-VAI CUSTCH (ECEP 9206)
STYLE A CS-N/SBC
. VOLTAGE-TO-CURRENT CONVERTEBS
,_m..
O l
l
,. -, -,,,.,. r, % m m, l
y..
y.c c l
- a m.
4 4
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u. *w i ~.. -,~.% g, n
ap,
. gs,. i i'v.,
L
%A This report, the procedures, data and conclusions contained herein are the property of The Foxboro Company and shall not be loaned or otherwise transferred to a third party or reproduced, copied or used'for any purpose, without written consent of The Foxboro Company.
Pre-Seismic Seismic DATE OF TEST:
SEP 77 JAN 76 TEST ENG./ TECH. :
G.H.
Karol R.L. Andress E.D. Wardyga, Jr R L. Andrews APPDOVED:
- - - - - Da e1 I
t_
L. W. Hevey, Supervisor, Corp. Cual. AssurgncVLab.
POXBORO cam Trademort prineed in u.s.A.
MWab"J
p.. s THE FOIBORO COMPANY 00&&B44 CORPORATE QUALITY ASSURANCE LABORATORY PAGE O TYPE TEST REPORT REY &
RKEkADIZ91 9E_kkIRDI_ERH 219E
)
First Issue EREDLQK_EIkTUS OF PAGRE DGE MO.
EH Title A
1 - 17 A
O ERQDUCT TEjZJR 32211 DATE..QZ_BAXgIAGIERJ IIILJ 2AO-VAI (ECEP 9206)
Week 34, 1977 A
PRODUCT OUALIfjf@
E9251 STYLE CERTIFIC ATION CODE 2AO-YAI-(ECEP 9206)
A CS-N/SRC CS-N/SRD EfBIEER_EGREENTS 1.
00AAB01, Demonstration / Analysis of Qualified Life 2.
00AAA20, Part 1, Seismic Test Report 3.
IEEES 323-1974 and IEEE 344-1975 4.
IS&a-SSI.1-1976, Process Instrumentation Terminology 5.
-Q0AAA02, Performance Tests and Operating Influence Tests
[]
V for Back-Hounted Bodules BEYISION R1119B1 EXI DAIA 14 HAR 79
)
- Institute of Electrical and Electronic Engineers, Incorporated aInstrument Society of America n-
i THE FOIBORO COEPANY 00AAB44 CORPORATE QU ALITY ASSURANCE LABOR ATORY PAGE 1 TYPE TEST REPORT REY A I.
23ST_05JECTIYE To determine the isolation characteristics on this custon 2AO-YAI Toltage-to-current Converter during seismic tests.
Also, to verify the performance characteristics and the operating influences before seismic tests.
II.
EggAgLAD G91GHSIONS This module, when tested in a 2ANU-D nest, was found to be within specification during pre-seismic tests.
O
- nai:i
- ia**i 2*i
- i2i*i
- <=<
- '=*i-III.F. 6. )7 ahd its. structural : integrity during i all' seismic L tests..
For demonstration and analysis of estimated Qualified Life, refer to Document QOAAB01.
III.
HugAEL9LIDLEIERLII seasurement equipment accuracy during pre-seismic tests was 3.05%,
therefore, all data is reported to that tolerance.
J A.
Gali)ggligg_GigIngiggialigg Reference conditions:
Temperature 23 12*C Belative Humidity 40 *105 Supply Voltage + 15, -15 Y dc *0.15 Specification:
Accuracy 0.5%
Pre-Seismic GAARB21_A GARERRA E Heasured Accuracy, 5 }
(+0.25
+0.35 0.30
-0.15 Sero Error, 5
-0.30
-0.15 Span Error, 5
+0.20
+0.15 Repeatability, 5
<0.05
<0.05 Hysteresis, 5
<0.05
<0.05 Linearity (Independent), %
- 0.25
- 0.25 4
00AAB44 THE FOIBORO COMPANY PAGE 2 CORPORATE QUALITY ASSURANCE LABORATORY REY A TYPE TEST REPORT III.
JygjkgI_OF TEST RESULTS (Continued)
B.
pupply Yo11ggg_Iffgdg Reference Conditions:
Temperature 23 12*C Relative Humidity 40 110%
Supply Voltage + 15, -15 Y de i0.1%
Specification:
The output will shift less than 10.5% for a
55 change in the +15, -15 Y de supply.
222211_191%992 Outgyt Shift _L1_91_EgngL hh fl_flfl_
_EER-EtiEEic Ghanne_1_A Ghannak_H 05 1001 21 100)
+
15.00 15.00 Ref.
Ref.
Ref.
Ref.
15.75 15.75
-0.05
-0.05
-0.05
-0.05 14.25 14.25
+ 0.10
+0.10
+0.10
+0.10 15.75 14.25
<0.05
+0.10
<0.05
<0.05 14.25 15.75
<0.05
<0.05
<0.05
<0.05 C.
kaktggg_1 gang 5atstg_ggiects Reference Conditions:
Temperature 27 12*C Relative Humidity 40 110%
Supply Voltage + 15, -15 Y dc 10.1%
Specification:
The maximum error for a change in ambient temperature of 280C within the normal operating limits of 5 and 500C will not exceed iO.5%.
995E9% 3 kill _11_9L_2RinL
_EEE-22iEEiC.
Ambient Ghannel.A Ghanagl_]
ItsesIaksER_l!GL 21 100 %
al 1021 27-Ref.
R e f, Ref.
Ref.
4
+0.10
+0.10
+0.05
+0.10 27
<0.05
<0.05
<0.05
<0.05 50
- 0.10
+0.10
<0.05
+0.10 60
-0.15
+0.15
<0.05
+0.20 27
<0.05
+0.05
<0.05
<0.05
THE FOIBORO COMPANY 00AAB44 CORPORATE QUALITY ASSURANCE LABORATORY PAGE 3 REY A TYPE TEST REPORT III.
ERAHARI_9E_IIEI_II!! LIE (Continued)
D.
.Eglglive Humiji11_]((3gt3 Reference Conditions:
Temperature 31 20C Relative Humidity 50 155 Supply Voltage +15, -15 Y de 10.1%
Specification:
The output shift due to an exposure to 95% relative humidity at 300C wet bulb, will be no greater than 20.5%.
__921231_2h111_1% of Span)__
PIS-501251C Rela tive
__ghaRRgl_1__
_ Changgl B HMEidity_15L
_21 1001_
Os 100%
50 Ref.
Ref.
Ref.
Ref.
95
<0.05
<0.05
<0.05
<0.05 50
<0.05
<0.05
<0.05
<0.05 E.
RSERonse Ting Reference Conditions:
Temperaturc 23 120C Relative Humidity 40 1105 Supply Voltage + 15, -15 V dc *0.1%
Specification:
When excited by_ an 80% input step (10 to 90% change), the maximum time required for the output to reach 90%
of the final steady-state value is 160 milliseconds.
O Ere-3eismic
_gj!annel A Channel,B,_
Step Step Step S tep
_HI_
R2XR Up Down 90% Responsc Time For an 80%
input step (10 to 90%), as 90 85 90 85
,~-
,.-w,,
, -, ~, - - -. -,.
,w
-m--
.,c
-,,,,,,-n,n
--e
00AAB44 THE FOIBORO COMPANY PAGE 4 CORPORATE CUALITY ASSURANCE LABORATORY RET &
TYPE TEST REPORT III.
SHgglEY OF TE11_R))RLI2 (Continued)
,)
F.
ggig.gic Vibggtion Effects 1.
Test Facility Acton Environmental Testing Laboratory, Acton, MA 2.
Test Obiective
~
To demonstrate that the module maintains its isolation capabilities when mounted in an N-2ES Rack which is loaded in accordance with established rack-loading guidelines and is
(
subjected to floor-level inputs of magnitude egual to or exceeded by those defined by the Foxboro3 Generic Response Spectra for Floor-Rounted Equipment, shown in the following.
'~
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. =
i OPER ATING EASIS EA3THQUAKE (OBE)
SAFE SHUTDOEM EARTHQUAKE (SSE)
GENERIC REQUIRED RESPONSE SPECTRA (RRS) FOR QUALIFICATION OF FLOOR-BOUNTED CONTBOL ROOH EQUIPMENT - HORIZONTAL AND YERTICAL l
f L
OThe Foxboro Company
~
~
l THE FOIBORO COMPANY 00AAB44 CORPORATE QU ALITY ASSURANCE LABORATORY PAGE 5
-TYPE TEST REPORT REY A LIII.
SURRARY OF TEST BESULTS (Continued)
F.
Seismic Vibration Effeg13 (Continued) 3.
Test Procedure The module was nounted in a 21NU-D nest at Level 1 (top level) of an N-2ES Rack.
The nest was subjected to a series of tests with band-limited white noise (randon) inputs applied at the base of the rack for a duration of 30 seconds.
Inputs as determined by the Test Response Spectra (TRS) of the test table exceeded the CBE and SSE levels for floor mounted equipment defined in Section III.F.2., with the objective of producing TRS's at the module mounting location which 5
enveloped the target GENERIC REQUIRED RESPONSE SPECTRA FOR QUALIFICATION 0F RACK-HOUNTED 50DULIs.
Five tests at the OBE level and one at the SSE level were performed in each of four planes, front-to-back and vertical, back-to-front and vertical, left-to-right and vertical, and right-to-left and vertical with horizontal and vertical inputs applied simultaneously and in phase.
TRS's were generated from accelerometers on the table and at the' module mounting location for 1, 2.5, and 55 damping during OBE and SSE tests.
The module was energized and functioning during all tests, and its primary performance functions were monitored during and immediately af ter each SSE and each series of OBE tests.
O l
l l
l 1
Q0AiB44 THE FOIBORO COMPANY PAGE 6 CORPORATE QUALITY ASSURANCE LABORATORY RET A TYPE TEST REPORT III-EREHARI_9f_II!I_RIERLIs (Continued)
F.
131331g_Ii)Ia1&oR_Ilftg1g (Cotninued) 4.
221EEig4_233ESII_ggj_gonclugigng The 2AO-VAI Custon Module was tested in Nest No.
4*.
The one-third octave response points achieved in testing generally enveloped the target REQUIRED RESPONSE SPECTRA FOR QUALIFICATION OF RACK HOUNTED NEST EODULIS (Refer to response plots,Section III.F.5.).
Relative to the target RRS's, undertesting occurred at several points in the frequency range of 1.25 to 6.3 Hz due primarily l(
to test table velocity limitations.
At the most significant response frequencies of the target RRS's, thqse which define the response peaks in the horizontal axes, the one-third octave response points of the TRS's enveloped the RRS's in every case.
Some undertesting occurred insediately above and below the response peaks of the horizontal RBS's, at 10 and 20 Hz.
However, these response points were only marginally low (Refer to TRS - Front-to-Back and Vertical, and TRS - Back-to-Front and Vertical).
A single point of undertesting occurred in the vertical response at 16 Hz (TRS - front-to-Back and Vertical) and at 10 Hz (TRS - Back-to-Front and Vertical).
Peak response ' levels of the vertical RRS's are considerably lower than those of the horizontal BRS's, and are regarded.to be of such less significance relative to module performance under seismic testing.
Overall, the TRS's achieved are considered to provide the required basis for demonstrating the successful performance of the 2AO-VAI Custon Bodule at the response levels of the target -
RRS's.
I l
l l
- Reference QOAAB20, Parts 1 and 2, Seismic Test Reports
THE FOIBORO CORPANY Q011E44 CORPORATE QUALITY ASSURANCE LABORATORY PAGE 7 REY &
TYPE TEST BEPORT III.
SUERARI.0F TEST BESULTS (Continued)
F.
Seismic VibraMgg_Effectg (Continued) 5.
Test.Besults (Seismic Response) 15 damped Test Response Spectra are plotted below at one-third octave intervals for each of the four SSE tests, as obtained at the sodule mounting location (see dots).
Target GENERIC REQUIRED RESPONSE SPECTRA FOR QUALIFICATION OF BACK-ROUNTED RODULES are also shown on the same plots. (solid line) to permit a direct comparison of the two plots.
m
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00 &&B44 THE F3XBLRO COMPANY PAGE 8 CORPORATE QUALITY ASSURANCE LABORATORY REY &
TYPE TEST BEPORT III.
2315 EAR Y OF TEST _BESULTS (Continued)
F.
Agismic_ Yibration Effects (Continued) 5.
Test Results (Seismic Besponse) (Continued)
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THE FOIBORO COMPANY 00AAB44 CORPORATE QU ALITY ASSURANCE LABORATORY PAGE 9 TYPE TEST REPORT REV A III.
ERHHjgI__OF. TESI_EEjpME (Continued) f F.
Egiggig_likEntion Effegjig (Continued) 5.
Igg t_Re s ul t s_,(Egiggig_EggEo. aggl, (C ont inu ed )
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Right-to-Lef t Response Vertical Response O
sTES data on Nest No. 4 not obtained during SSE level test in Right-to-Lef t and Vertical plane because accelerometers fell off during test.
Data can be inferred from TRS's shown, taken at same rack level (Level 1) at rear of rack, since rack itself is syssetrical, front and rear, and rack loading during test was also syssetrical.
00AAB44 THE FOIBOBO COBPANY CORPORATE QU ALITY ASSURANCE LAB 0BATORY PAGE 10 TYPE TEST BEPORT REY A III.
EURM&BY 0F TEST PESULTS (Continued)
Egig.R c Vibggtion Effeg,t.g (Continued) i F.
5.
Test Besults (seismic Besponse) (Continued)
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r THE FOIBORO COMPANY QOAAB44 CORPORATE QUALITY ASSURANCE LABORATORY PAGE 11 TYPE TEST REPORT REV A y'IIIa' 1HHHABI_0Z_IJ!I_E32RLIE (Continued)
. (
[F4 Eti&gic Vibratigg Effects (Continued)
[ 6 '.*
Test Resglia__(39$31g Perforea'ncel;7 T
Three isolation tests were performed on the output of this custon 2AO-VAI Voltage-to-Current Converter.
All three tests were performed to ensure proper isolation during a seismic ev en t.
The three tests and results were as follows (also refer to Figure No. 1) :
a.
GroundThoth7 outputs 'of' Channel'L A for110 's'econds Tauring J
~
1 SSE./
R[gylTE:
Neither channel of the 2AI-I2V Current-to-Voltage Converter which fed the 2 AO-VAI Voltage-to- -
Current Converter shif ted more than 0.5% when one channel of the 210-V AI's output was grounded.
Also, both channels of the 2AO-VAI f unctioned properly af ter the test was completed.
Refer to Figure 72,for oscillograph recording of 2AI-I2V outputs.
b.
A pply 16001Y J ac ~ between ; both out pu tE. lead s1 tied Mog~et ief andlearth'?(ground)!:for!;101 seconds during_ another SSE.
RESULZg:
Both the 2AO-VAI and 2AO-V2I remained operational during this test.
There was some ac feedthrough to the 2AI-I2Y.
Refer to Figuref3 for recordings of outputs.
O l
i
l l
00AAB44 THE FOIBORO COMPANY PAGE 12 CORPORATE QU ALITY ASSURANCE LABORATORY R EY A TYPE TEST REPORT III.
gHggARI_OF TEST BESULTS (Continued)
F.
ggiguic Vibgation Effects (Continued)
)
6.
Test Rggults (Continued)
[ App 17 600TV 'ac~acrossTthe' output 1eads during a' third SSE c.
for 10Tseconds.
EISULTS:
The application of 600 V ac across the output terminals of Section A of this custon 2AO-VAI produced the following damage to the unit:
Circuit foil from the (+) output lead connection to J9 opened, Circuit foil from the (-) output lead connection to J14 opened.
Resistor Resistor R32 (4 02 ft, 13%, 6 N) opened.
Capacitor C17 (6.8 uF tantalus) opened.
Capacitor C11 (4. 0 uF polycarbonate) shorted.
Diodes CR19, 20, 21, and 22 (Type IN4447) opened.
Reference Drawings:
10102FY and 10201NZ No damage occurred to Section B or to the 2AI-I2V Voltage-to-Current Converter due to the application of the test voltage to Section A.
Refer to Figure 4 for the 2AI-I2Y output recordings.
7.
Rodule Mass and Center of_ Gravity
__ gass Height _
Wid th
_pe_pth Eggel ik g_
in.
cm in, cm ins c3
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2AO-VAI 1.27 578 4.4 11.0 0.8
- 2. 0
- 2. 6 6.5 No te:
Reference for height, width, and depth measurements was the lower lef t rear of the f ront plate.
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THE FOIBORO CORPANY QOAAB44 CORPOR ATE QU ALITY ASSURANCE LABOR ATORY PAGE 13 TYPE TEST REPORT REV A jjgglg]_OF TEST BESU111 (Continued)
III.
G.
Iggg_ggykynggt 1.
Ere-Stif.812 8
ga_librati2n Informatign 1821I352R1' BAR3fAEARESE E2$21 12Eigl Last Date Date Due D75 SDs 7000A 1122 5/77 11/77 Power Supply H-P7 60155C 1135A01589 3/77 9/78 Power Supply H-P 6227-B 1146A00880 8/77 2/78
-Voltage Source EDCe HY100N 3637 5/77 11/77
'(
Storage Oscilloscope H-P 1841 1316100705 1/77 10/77 Environmental TTUFR-Chamber Tenney' 40240 4709 2/77 11/77 Environmental T R-4 0-Chamber Tenney 100250 7397 5/77 2/78 2.
seismic galibra tion _In[orm ation 12A1I35921 BRDSIREIRIEE Model ESElal lagt Dalg Date_Due Power Supply H-P 60155C 1135A01391 11/77 5/79 Voltage Source EDC MV100N 1890 12/77 6/78 Recorder H-P 7414A 1244A00839 12/77 9/78 Current-to-Voltage Converter Foxboro10 2AI-I2V N/A N/A N/A
'O i'
- Systron Donner (Formerly Fairchild camera and Instrument Corporation) l 7gevlett-Packard Company l
- Electronic Development Corporation
'Tenney Engineering, Incorporated 10The Foxboro Company i
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00&&B44 THE FOIBORO CCEPANY l
PAGE 14 CORPORATE QUALITY ASSURANCE LABORATORY REY A TYPE TEST REPORT
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