Rev a to 2AO-VAI Custom (Ecep 922206) Style a CS-N/SRC Voltage-to-Current Converters

ML20113G357
Person / Time
Site:	Crane
Issue date:	03/14/1979
From:	Andrews R, Karol G, Wardyga E FOXBORO CORP.
To:
Shared Package
ML20113G351	List: ML20113G350 ML20113G357 ML20113G377 ML20113G387
References
QOAAB44, QOAAB44-RA, NUDOCS 8501240327
Download: ML20113G357 (20)
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{{#Wiki_filter:l APPENDIX 2 The Foxboro Company QO11B44 Corporate Quality Assurance Laboratory mEY & i Type Test Report i 2AO-VAI CUSTOH (ECEP 9206) STYLE A CS-N/SRC YOLTAGE-TO-CURRINT CONVERTIES l v .* ~ gr i i l /' ) l '. A '4 g \\ / {' t l the procedures, data and conclusions contained herein are This report, 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. EIg-Seismic Seismic l l DATE OF TEST: SEP 77 JAN 78 l TEST ENG./ TECH. : G.E. Karol B.L. Andrews E.D. Nardyga, Jr. R.L. Andrews 3 /!7f N. _____________R3131 APPROYED: 8501240327 850116 PDR ADOCK 05000289 l F PDR O

1. egistered Tem R

o 2011544-THE FOIBORO COEPANI PAGE 0 n CORPORATE QU ALITY ASSURANCE LABORATORY REV & TYPE TEST REPORT N. IIEkAIAIIQI_QZ_LAIIII_RHI HQ1 s First Issue REVISION SI&TDS. 0F PAGES PAGE E0. 131 Title A 1 - 17 A PRODUCT TE2Ij2 12251 DATE OF RAX2ZACTUBE IIIL1 210-VAI (ECEP 9206) Neek 34, 1977 A i PBQDQCT_QUALIFIJD RODEL STILE CERTIFIC ATION CODE f 2&O-VAI-(ECEP 9206) A CS-5/SRC CS-N/SRD RZfERENCE_R9.GRE ENTS l 1. Q011801, Demonstration / Analysis of Qualified Life 2. Q0AA120, Part 1, Seismic Test Report 3. IEEEE 323-1974 and IEEE 344-1975 4. IS&a-551.1-1976, Process Instrumentation Terminology 5. - Q01 A &O 2, Performance Tests and Operating Influence Tests i for Back-Hounted Hodules REVISION 1111911 111 RAIX 1 14 51R 79 l l

• Institute of Electrical and Electronic Engine'ers, Incorporated aInstrusent society of America

y ..r TER pozacao COEPANY 00AAB44 CORPORATE QUALITY ASSWERICE LABORATORY PAGE 1 j-TYPE TEST REPORT RET A 2. REST p p BCTIVE To determine the isolation characteristics on this custos 2AO-TAI Toltege-to-Carrent converter during seismic tests. Also, to verify the performance characteristics and the operating influences before seismic tests. II. SEREMI_AD_C91CHIIDES i This module, when tested in a 2130-D most, was foam 8 to be within .specificatien during pre-seismic tests. The module also maintained its inclation capabilities (Refer to section III. F. 6. ) and its structural integrity during all seismic tests. For demonstration and analysis of estimated Qualified Life, refer to Document 00AAB01. III. RE55 M I.RZ_2H 1_REpDLTS geasurement equipment accuracy during pre-seismic tests was 0.055, therefore, all dati is reported to that tolerance. A. GalDratieg_Qggscteristigg Reference conditions: Temperature 23 t2*C Belative Ennioity 40 *105 Supply Toltage + 15, -15 Y de 20.15 4 specification: Accuracy *0.55 i Pre-Seismic Changel_J, Cha.nnel_2 BeasuredAccuracy,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 - Epsteresir;, 5 <0.05 <0.05 L,nearity ; (Independent), 5

• 0.25 20.25 1

---,-,----e--, ,,,,m-m--,,m,,

00&&B44 TRE FOIBORO CORPARY PAGE 2 CORPOR ATR QUALITY ASSUR&BCE LABORATORY REY & G TYPE TEST REPORT III. ggggLgI_OF TEST RESULTS (Continued) s B. 332217 Yoltage_Iffects Reference Conditions: Temperature 23 22*C Relative Eunidity 40 t105 Supply Toltage +15, -15 Y de to.15 Specification: The output will shift less than 20.55 for a 255 change in the +15, -15 Y de supply. 112211_I2115SS 921251_3h1ft 15 of 33tal II_ist__ - un:Islamie GhananA_A O tnagl_3 __1.._ 21 Ital H 1225 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-ARhiSat_TesRSIaigE3_Eliggig j Reference Conditions: Temperature 27 12*C Relative Ensidity 40 t105 Supply Voltage + 15, -15 V dc *0.15 Specification: The maximum error for a change in ambient temperature of 28*C within the normal operating limits of 5 and L 50*C will not exceed 0.55. 231 eel _1A111 11_S1_12&BL __gg:Jeis mic Ambient Ehannel & Channel _] Insperaturg_1*gL M 12U M 1221 l 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 0.15 +0.15 <0.05 +0.20 60 27 <0.05 +0.05' <0.05 <0.05 ww e,m, r we-- w ,-ww--- -r,,-,,,,,..,-----m-,-~+n --,,,-----w--- -,----,-,------me.--,,,ev-e- , - - - - --- - - -w

TEE FOIBORD CORP &RY Q0AAB44 -CORPORATE QUALITY ASSUR&RCE L&BORATORY PAGE 3 TYPE TEST BEPORT REY & III. Eg33131_9E_1]EI RESULTS (Continued) D. Iglative..BusiditY Effects Reference Conditions: 7esperature 31 t2*C Relative Rumidity 50 255 Supply Yoltage +15, -15 Y dc 20.15 Specification: The output shift due to an exposure to 955 relative humidity at 30*C vet bulb, will be ao greater than 20.55. __951RE1_3Alil ff of Spani pit-EtiREic Rela tive __Ghanag1_1__ _ Changgl 3._ 1ami1112_11L .21_ 1001- _21_ 1005 50 Ref. Ref. Ref. Ref. 95 <0.05 <0.05 < 0. 0 5 <0.05 50 <0.05 <0.05 <0.05 <0.05 E. IRERER11_I1ES Beforence conditions: Temperature 23 *2*C Relative Humidity 40 1105 Supply Toltage + 15, -15 Y de 20.15 Specification: Rhen excited by an 805 input step l (10 to 905 change), the marinua time I required for the output to reach 905 l of the final steady-state value is l 160 milliseconds. i l Ere-521ssic _gkannel 1 _ Channel B Step Step Step Step _E.E_ Rata _RE_ Reza 905 Besponse Time For an 805 i input step l (10 to 905), as 90 85 90 85 i I

TBE F0180E0 COEFANY 00AAB44 CORPOR&TE QUALITY ASSUR&ECE L&B0BATORY FAGE 4 TYPE TEST REPORT REY & 1HERAE_ OF TRSZ_ RESULT 3 (continued) Y III. s AgigB c Yibration Effects i F. 1. Eg3LZgcili$Y &cton Environmental Testing Laboratory, Actos, 51 2. Test obiective To demonstrate that the module maintains its isolation capabilities when sounted 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 Foxboro8 Generic Response Spectra for Floor-Bounted Equipment, shown in the following. =. i t j .t t --._ u

1

-- t - + r -f

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== i 'a ,g,,,, OPER ATING BASIS EARTHQUAKE (OBB) SAFE SHUTDORE EARTHQU AKE (SSE) GENERIC REQUIRED RESPONSE SPECTRA (BRS) FOR QUALIFICATICE OF FLOOR-BOUNTED CONTBOL B005 EQUIPEENT - 80RIZONTAL AND TERTICAL l 1 l l [ CThe Foxboro company l l 'L

THE F01BDRO CCEPAEY 00A1844 CORPORATE QU ALITI RSSURANCE LABORATORY PAGE 5 TYPE TEST REPORT REY & III. SURRARJ OF TEST 5BSDLTS (Continued) F.- Seismic T4bration Effgets (Contiase8) 3. Test Prpcedure The module was monated in a 2150-D aest at Level 1 (top level) of an B-2ES Rack. The mest was subjected to a series of tests with band-limited white moise (randon) impets 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 enveloped the target GENERIC REQUIRED BESPONSE SPECTRA FOR QUALIFICATION OF BACK-ROUNTED EODU1I5. Five tests at the CBE level and one at the SSR 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-lef t 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 083 tests. t l l

00&&B44 TER FOIBORO CORP &EY PAGE 6 CORPORATE QUALITY ASSURANCE LABORATORT RBY & TYPE TEST REPORT III. Eggg&tI_9Z_IIII_333.gkII (Continued) F. Egiggis_IlhE1112R_1113g$g (Cotninued) 4. 331331ga 31333Iy, and ConclnE19&E The 210-VAI Custon Bodule was tested in Best No. 4+. The one-third octave response points achieved in testing generally enveloped the target REQUIRED RESPONSE SPECTRA FOR QUALIFICATION OF RACK 50DETED NEST 50DULES (Refer to response plots, Section III.F.5.). Relative to the target RES's, undertesting occurred at several points in the frequency range of 1.25 to 6.3 Hz due primarily to test table velocity limitations. At the most significant response frequencies of the target RBS's, those which define the respcnse peaks in the horizontal axes, the one-third octave response points of the TRS's enveloped the BRS's in every case. Some undertesting occurred immediately 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 Tertical, and TRS - Back-to-Front and Yertical). & single point of undertesting occurred in the vertical response at 16 Ex (TRS - Front-to-Back and Vertical) and at 10 Hz (TRS - Back-to-Front and Vertical). Peak response levels of the vertical BRS's are considerably lower than those of the horizontal RRS'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 210-Y&I Custon Rodul'e at the response levels of the target BRS's. otcforence Q0&&B20, Parts 1 and 2, Seismic Test Reports 1

e TER FOIBORO COMPANY 0011244 CORPORATE QUALITY ASSUWAECE LABORATORY PAGE 7 TYPE TEST BEPORT BET & III. EDEEAB Y OF TEST BESULTS (Continued) F. Mic Tibration Effects (Continue 6), 5. Inst Results ISei.saic_lesDonnel 15 damped Test Response Spectra are pictted below at one-third octave int' rvals for each of the four SSE tests, as obtained e at the sodule mounting location (see dots). Target GENERIC REQUIRED BESPONSE SPECTEA FOR QUALIFICATICE OF EACK-ROUNTED 50DULES are also shown on the same plots (solid line) to permit a direct comparison of the two plots. TRS - Front-to-Back/Tertical Plane !J_ i,c i r_S _ JF_ - r "; b J; m.. A ._n. .m I tw=i _13. n

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00&&B44 THE FOIBOE0 COMPABY PAGE 8 CORPORATE QUALITY ASSUEARCE LABORATOEY IBY & TIPE TEST REPOET s III. SURRABI QZ_ TEST BESULTS (Continued) F. Jgismic Tibration Effects (Continued) 5.. Imat..Results (seismic Easconse) (Continued) TBS - Back-to-Front /Yertical Plane s e i i g i ii i_-. i + 1.!' !t: i I ! I. , 6 t ri. g = 1; 5.- i, 1

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THE FOISORO C05 PARI c, 00&&B44 CORPORATR QUALITY ASSURARCB LADORATORY PAGE 9 TYPE TRST BRPORT RET A III. SEEE ARI_OF TRST RESULTS (Continued) jg133 c Yibggtion Effects (Continued) 1 F. 5. Ig33_3ggults f seig31s;_33spossel (Continued) TRS - Richt-to-Left/Tertical Planes

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===..i = = =.., > Right-to-Lef t Response Yertical Response 1 l l i .i cTRS data on Nest No. 4 act obtained during SSR level test in Right-to-Lef t and Yortical 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 symmetrical, front and rear, and rack loading during test was also synaetrical.

TEE FOIBORO COBPANY 00AAB44 . CORPORATE QUALITY ASS.URANCE 1ABORATORY PAGE 11 TYPE TEST BEPORT REV A III. H55AEI_9Z_ILET_RJJPLf2 (Continued) F. IS1AE1SLIAM331on Effec 13 (Continued) 6. Inst _Resn11a (Module Perforaggggl, Three isolation tests were perforsed on the output of this custon 2AO-YAI Toltage-to-Current Converter. All three tests were perf6rmed to ensure proper isolation during a seismic ev ent. The three tests and results were as follows (also refer to Figure 30. 1) : a. Ground both outputs of channel A for 10 seconds during 1 SSE. ((19111: Neither channel of the 2AI-22Y Current-to-Volta ge Converter which fed the 210-VAI Voltage-to-Current Converter shif ted more than 0.5% when one channel of the 2AO-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 2 for oscillograph recording of 2AI-I27 outputs. b. Apply 600 Y ac between both output leads tied together and earth (ground) for 10 seconds during another SSE. RIERLZ1: Both the 2AO-VAI and 2AO-Y2I remained operational during this test. There was some ac feedthrough to the 2AI-I27. Refer to Figure 3 for recordings of outputs. 6 v+ ~

Q011544 THE FOIBORO COEPANY PAGE 10 CORPORATE QUALITY ASSURANCE LABORATORY l 6 REY A TYPE TEST REPORT III. SURE&RY OF TEST EISULTS (Continued) 1 F. gg31c Yibution Effects (Continued) 5. Test Results fSeismic Resconse) (Continued) Z h Lgft-to-Rich 14Ygg11ggl_ Plane - b "..... h. b l I.i_ _: c_. ** _...P. d. 2_:t : :' -._. t: g i i,, 4. i' *m _c. f..- g :2==,e

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Q0&&B44 THE FOIBORO COMPANY PAGE ~ 1;2 CORPORATE QU ALITY ASSURANCE LABORATORY ERY A c, TYPE TEST REPORT III. 1HER&RLQLTEST_BIggE1 (continued) F. Egigaic YibE11123 Effeg13 (Continued) s 6. Test Egg 3lig (Continued) c. Apply 600 Y ac across the output leads during a third SSE for 10 seconds. R ES DLTS: The application of 600 Y ac across the output terminals of Section A of this custon 210-TAI produced the following damage to the unit: Circuit foil from the (+) output lead connection to J9 opened. Circuit foil from the (-) output 1ead connection to ~ J14 opened. Resistor Resistor R32 (402 at, t35, 6 W) opened. Capacitor C17 (6.8 uF tantalus) opened. Capacitor C11 (4.0 uF polycarbonate) shorted. Diodes CR 19, 20, 21, and 22 (Type 154447) opened. Reference Drawings: 10102FY and 10201NZ No damage occurred to Section B or to the 21I-I27 Yoltage-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. 12$2 e_ gags _and C3nter of GInvity 1 __Rass _ Height vid th _pggth_ Bodg1 lh g_ [g2 gg igz E3 ins g3 210-71I 1.27 578 4.4 11.0 0.8

2. 0

2. 6 6.S No ta:

Reference for height, width, and depth measurements was the lower lef t rear of the f ront plate. i ,,7,...,_ r.

TBE FOIBORO C05PANY 0011B44 CIRPORATE QU ALITY ASSp'RANCE LABORATORY PAGE 13 REY A TYPE TEST REPORT III. EDEMAR Y OF TEST RESULTS (Contianed) G. 1331_Eenica331 1. Pre-Salsais Calibrslign_In12 31112n Zaa123stai Baasia'sinIsr Badal 1stial Lam 1_R.ais Rate Due D75 SD* 7000A 1122 5/77 11/77 Power Supply E-P7 60155C 1135A01589 3/77 9/78 Power Supply E-P 6227-B 1146A00880 8/77 2/78 Voltage Source EDCe ET100N 3637 5/77 11/77 Storage Oscilloscope E-P 184A 1316A00705 1/77 10/77 Favironmental TTUFR-Chamber Tenney' 40240 4709 2/77 11/77 Environmental TR-4 0-Chamber Tenney 100250 7397 5/77 2/78 2. 111331E l Ealikratisn_Ininnalisa IRA 1XMstR1 EigufactBIRI Bodel 13I111 lagt_Datt 23.1g_p33 Power Supply H-P 60155C 1135A01391 11/77 5/79 Voltage Source EDC RY100N 1890 12/77 F/78 Recorder H-P 74141 1244A00839 12/77 9/78 Current-to-Yoltage Converter Foxboro18 2AI-I2Y N/A N/A N/A 1 l l L I

• Systros Dommer (Porserly Fairchild Camera mad Instrument Corporation)

'Bewlett-Packard Conraar esloctronic Development Corporation 'Teasey Eagineering, Jacorporate8 seThe Fosboro Company

00&&B44 THE POIB0B0 COEPANY PAGE 14 c CORPORATE QUALITY ASSURRICE LABORATORY BBY & TYPE TEST EBPCBT s ) Eups p M ' i pose seeis ) 1s c eis 1s c .is ^ 1 J

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,lerW & ggpWT Aj V 2AI IN h54I e= a v= Figure 1 Seismic Test Setup 2AO-VAI Custom ECEP 9206 Voltage-to-Current Converter

THE F0180B0 COMPANY c 00AABu CORPORATE QU ALITY ASSURANCE LABORATORY PAGE 15 TIPE REST REPORT REY A Figure 2 Graphs of High Voltage Test No. 1 .s a== g_ 3 - mM,mrun i.v. r. wu; a .h II ill 1;.l:!' 'f 1. 4U'64; =h e ir m, tinn,, ,1 fhgh! r.n, +. N t, -i n,." inn i. i g- = =E = , = = = = = _., = }{l .,f ia' l' 1 -1 6 g g N j l 4a o = -T 4 1=m. = h k i

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Pous r Supply 15 C +15 .ig g .15 A (INPitt A g ~ Cunent A Cource 2A!.!!V 2A0.yal 2 0 V oc ~ Impttr a v se 1111_S22di119U Three tests are to be performed:

1) Ground bcth outputs of Channel 1 f or 10 seconds during 1 SSE.

2) Apply 600 Y ac between both output leads tied together and ground for 10 sebonds during ancther SSE.

3) Apply 600 Y ac across the output leads during a third 557. fer 10 seconds; current source input at 12 an, recorders calitrated for full scale traverse of 5 Y de 25%.

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