dod standard determination of electronic test equipment...
TRANSCRIPT
e DOD-STD-2121 (NAW)1 March 1964
. DOD STANDARD
DETERMINATION OF ELECTRONICTEST EQUIPMENT PARAMETERS
!‘o I AMSC N3239 FSC 6625
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DOD-STD-2121 (NAVY)1 March 198L
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DEPARTMENT OF TI-IF,NAVY
NAvAL ELECTRONIC SYSTEMS COMklAND
WASHINGTON, D.C . 20363
Determination of Electronic Test Equipment Parameters.
DoD-sTD-2121 (NAW) .
1. This DOD Standard is approved for use by the Naval Electronic SystemsCommand, Department of the Navy, and is available for all departments andagent ies of the Department of Defense.
2. Beneficial comments (recommendations, additions, deletions ) and anypertinent data which may be of use in improving this document should beaddressed to: Commander, Naval Electronic Systems Command, Attn: ELEX 8111,Washington, D.C. 20363, by using the self-addressed Standardization DocumentImprovement Proposal (DD Form 1426) appearing at the end of this document or byletter.
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FOREWORD
This standard indicates the parameters to be identified
Electronic Test Equipment (ETE). It provides measurementassociated units to be specified when describing test equipment
DoD-sTD-2121 (NAVY)1 March 1984
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when specifyingparameters andcapabilities.
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DoD-sTD-2121 (NAVY)1 March 1984
CONTEN&
Paragraph Page
1. SCOPE . . . . . . . . . . . . . . ..1REFERENCED DOCUMENTS(Not applicable). 1
:: DEFINITIONS . . . . . . . . . . ,..14. GENERAL REQUIREMENTS . . . . . . . 2
DETAILED REQUIREMENTS . . . . . . . . 32: NC’IES . . . . . . . . . . . . . . ..3
APPENDICES
A Electronic Test Equipment Noun Names . . 5B Weapon System Electronic Test Equip-
ment Parameters . . . . . . , . . . 13C Weapon System Electronic Test Equip-
ment Support Item Parameters . . . . 111D Weapon System Digital Electronic Test
Equipment Parameters . . . . . . . 155
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DoD-s’fD-2121 (NAVY1 March 1984
1. SCOPE
1.1 = This standard establishes the Electronic Test Equipment (ETE)standard noun names, parameters, and units to be used for documenting the ETErequirements of a weapon system.
2. REFERENCED DOCUMENTS Not applicable.
3. DEFINITIONS
3.1 General Purpose Electronic Test Equipment (GPE~). Electronic testequipment containing the capability of generating, modifying, or measuring arange of electronic functions to test two or more systems or equipments ofbasically different design.
3.2 GPETE Support Item (GSI). The complement of equipment, supplemental toGPETE, which is necessary to facilitate a complete test measurement capability.GSI includes GPETE auxiliary items, GPETE accessories, GPETE plug-ins, and GpETE
ancillary equipment.
3.2.1 GPETS Auxiliary Item (GAI). A general purpose component or device usedin support of a test measurement setup employing GPETE (examples: ratiotram formers, portable directional couplers, and dc power supplies) .
3.2.2 GPETE Accessory (GA). An individual support item used to complete oraugment the operational capability of a specific item of GPETS or group of GPETE
(examples: oscilloscope probes, multimeter test probes, and noise sources) .
3.2.3 GPETE Plug-ins (GP-1). A removable assembly intended to complete oraugment the operational capability of a specific item of GPETE (examples:oscilloscope preamplifier plug- ins, heterodyne frequency extender plug-ins, anddigital word generator plug- ins).
3.2.b GPETE Ancillary Equipment (GAE). A self-contained unit intended toaugment the operational capability of a specific item of GPETE or group of GPETE(examples: self-contained transfer oscillators, self-contained modulators, andself-contained tracking generators) .
3.3 Special Purpose Electronic Test Equipment (SPETE). Electronic test
equipment of a specific or peculiar nature designed to generate, modify, ormeasure a range of electronic functions, to test a single system or equipment.
3.h Automatic Test Equipment (ATE). Equipment which is designed to conductanalysis of functional or static parameters, to evaluate the degree ofperformance degradation, and which may be designed to perform fault isolation ofunit malfunctions. The decision-making, central, or evaluation functions are
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DOD-STD-2121 (NAVY)1 March 198~
●conducted with minimum reliance on human intervention.
3.5 Digital Test Equipment (DTE). For the purposes of this document, the term“digital test equipment” refers to ETE used to maintain digital printed circuitboards.
3.6 Built-in Test (BIT) and Built-in-Test Equipment (BITE). Any device whichis part of or permanently mounted in the weapon system and used for the expresspurpose of testing that weapon system either independently or in associationwith external test equipment.
3.7 Electronic Test Equipment (ETE). For the purposes of this document, theterm “electronic test equipment” refers to GpETE. GSI . GAI. GA. Gp-I . GM.SPETS, ATE, DTE, BIT, and-B~TE,
3.8 Weapon System. For the purposes ofrefers to the system under procurement.
. --- ,
this document, the term “weapon system”
3.9 Generic Code. For the purposes of this document, the term “Generic Code”is a three-character code used to reference a particular ETE noun name.
4; GENERAL REQUIREMENTS
4.1 Weapon system maintenance requirements . The measurements necessary for themaintenance of a weapon system shall be identified. (see 6.1) ●4.2 Weapon system parameter requirements. The technical requirements of aweapon system out1ining the measurement ranges, parameters, accuracyrequirements, and recommended ETE and ETE parameter values shall be identified.(see 6.1)
4.3 Weapon system maintenance. Maintenance of the weapon system shall includeperformance monitoring the system, aligning the system, fault locating thesystem to an assembly and subassembly, fault isolating a system failure to acomponent part, and calibrating any BIT or BITE in the weapon system.
4.4 Maintenance levels. A separate package of the data items (see 6.1) shallbe prepared for each of the following maintenance levels:
a. Organizational ‘.,b. Inteniediatec. Depot
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DoD-sTtP2121 (NAVY)1 March 1984
4.5 ETE requirements, The ETE required to support the weapon systems at eachmaintenance level shall be grouped as follows: GPETE, GSI, GP-1, GA, GAE,SPETE, ATE, DTE.
5. DETAILED REQUIREMENTS
5.1 Noun name. The standard noun names to be used when specifying ETE shall beselected from Appendix A.
5.2usedD.
5.3(for
Parameters end units. hen specifying ETE, the parameters and units to befor each standard noun name shall be as identified in Appendices B, C, and
Weapon system measurement requirements . The weapon system source documentexample, Technical Manuals ) shall be used to determine the weapon system
maintenance measurement values required. All measurement values,- accuracyrequirements, input and output requirements, and any other functionalreqUireIIIentsor values relevant to each standard noun name shall be detailed CInNAVELEX 9491/1(5-83) (see 6.1) .
5.4 Measurement parameter values. The minimum and maximum values (as
applicable) Of the measurement data researched in 5.3 shall be entered onNAVSLEX 9491/2(5-83) (see 6.I) .
6, NOTES
6.1 Contract data requirements. The following Data Item Description (DID)shall be utilized if the procuring activity desires to order data that aregenerated from having invoked pertinent work tasks that are established withinthis standard. These data shall be specified in the Contract Data RequirementsList (CDRL) (DD Form 1423).
PARAGRAPH DATA REQUIREMENT DID—
4.1 Weapon system parameter work sheet DI-s-2191
(NAVELEX 9491/1(5-83))
4.2 Weapon system parameter requirements DI-S-2192for Electronic Test Equipment (ETE)(NAVELEX 9491/2(5-83))
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DoD-sTD-2121 (NAVY)1 March 19811
6.2 Footnotes. The footnotes in Appendices B, C, and D are numberedwith the line number(s) of the parameters) to which the footnote(s)apply.
Review Activities: Preparing Activity:Navy-SH Navy-ECUser activities: (Project 6625-N794)Navy OS, AS
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APPFNOIX A
ELECTRONIC~BsIEQU1PMENT No!!N NAMES
This Appendix contains information related m DOD-SD-2121 [NAVYI.
APPendix A is a mandatory’ part of this standard.
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nOD-2Tn-2121 [NAvy)1 March 1984
ELECTRONIC ‘IE51 EQU1PMBW NOUN NAMES
NOUN NAME
Adapter, coaxial, Set
Adapter, Uaveguide to Coaxial
Adapter, Waves. ide to lJaveguide
A.meter, Electronic, DC
Amplifier
Analyzer, Distortion
Analyzer, Distort ion, TN
Analyzer, Line Fault, Telecom
Afialyzer, Logic(1.eludes Test Set, Digital Data)
Analyzer, N.t..rk
Analyzer, Specw.m
Analyzer, Spectrum, Real Tine
tinalyz.r, Transmission, ‘Telemm
Analyze, , wave
Attenuator, Fixed, coaxial
Attenuator, Fixed, coaxial, Set
Attenuator, Fiwd, IJaveguide
Attenuator , SteD
Atle!Nator, Variable, Coaxial
Attenuator, Variable, IJaveguide
Bridge, capacitance
Bridge, Complex Ratio
Bridee, Impedance, Radio Frequency
Bridge, RLC
Br irige, Sy”chro/Resolver, Decade
Calibr.t or , Range, Radar
Camera, Oscilloscope
Capacitor, Decade
Converter, Frequency, AC
Con.erter, Logarithmic
OWERIC CODE
AD1
AD3
AD4
AMO
A.40
ANO
TSF
TSR
AN4
bN2
AN1
AK!
‘rsA
AN5
AT1
AT2
AT3
AT4
AT6
AT?
BRC
BR1
BR3
BRO
i!R2
TS9
CS1
CP1
CF1
Cvo
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DOD-SID-2121 (NAVY11 Harch 1984
ELECTRONIC TEST EQU1PNENT NOUN NAMES [C.nc inuedl
~~ - IWJE
Counter, Electronic
counter, Noise Impulse, lelecon
coupler, Directional, coaxial
coupler, Direct ioml, Waveguide
coupler, Hybrid, CNadr.ture
Curve Tracer( 1nclude’a bmh SCR and Semicon-ductor Tyws]
Detector, RF, Directional
Detector, w’, Fixed, coaxial
Detector, RF, Fixed, IJaveg. ide
Detector, RF, Tunable, Coaxial
Detecr or, RF, Tunable, Uweguide
Divider, Power
●Divider, Voltage, Decade
Gummy Load, coaxial ( >50!J1
Dummy Load, Wweg. ide ( z50U )
Echo BOX
Filter, B.ndpas9
Filter, Low..3s
Filter, Notch
Filter, Variable
Generator, Data, 1.1..0.
Generator, Die Lortion, TTY
Generator, Electronic countermeasure.(See Generator, Signal, w GEO orGenerator, signal, Microwave GEA, or,Ge”erator, Signal, R.d i. Frewe!l.y GEB1
Generator, F.net ion(1 ncl.des sDecial types sucha. sawtooth, Sine IJave, and RarIP1
Generamr, N,, ise
Generator, P. I.e
Generator, Pulsed Calrier
Generator, Signal, CIJ [Includes .scil-Iacors, and electronic .o.nler measures
ee!~er.r.r.l
coo
1S 1
Dc1
DC2
Col
TE5
DE1
DE2
DE3
DE’1
DE5
DP1
DR3
DL1
DL2
EBo
FL1
FL2
FL3
fL*
TSH
TSG
GE7
GE.
GE2
GE8
GEO
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DOD-5TD-2121 (NAWJ1 March 1904
ELE13RON1C TEST EQUIPMENT NOUN NAMES (continued)
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Generator, Signal, Microwave ( includes
..ciilat.re and generator, electronicCO”” L., “em,,. )
Generator, Si”gnal, Radio Frequency( includes oscillators and generator,electronic counter measures]
Generator, simulator, Radio FreQ.ency
Generator, squat. Wave
Gener.aror, Weep
Generator, Time Mark
Generator, Tone B“rit
Oe”erator, Two Tone
Generator/Analyzer, Distortion, TTY
Her”, Standard Gain
1nd,,ct.r, Decade
1..lator, Coaxial
I.olator, Llaveguide
Meter, Admittance
Meter, FM Devi.; ion [See Mete.,Modulation flDO)
Meter , Frequency
Heter, G. i ./Phase
Meter, Grid Dip
Met er, Impe<ance, Radio Frequency
Meter , 1. PedanCe, Vector
I!eter’, ilod”l.t i..[1 ncl.des FM Devia Lion ‘Meter. ]
Meter, Noise Figure
Meter, Phase Jitter
Meter, RF Power [see Test Set,Pleasuring, Po.er WA1, and TestSet ileas.ring, POWI’, ElectronicLJAOI
Meter> RIF1 [S,, Test Sat,Mess.rinE, RIF1 F1o]
GENERIC CODE
GEA
GEB
0E9
GSQ
GE1
GE4
GE5
GE6
TSC
HN1
LN1
SS1
SR2
BR4
FRO
GPO
GDo
Nzo
Voz
PIDO
NFO
PJM
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ELELTRONIC TESI EQU1PMENI NOUN NAMES (Continued]
N~ NM GENERIC NJDE
?lixer, Balanced, Double
Modulator
Modulator, Uaveguide
Multi. eter, Analog, Electronic(1 ncl.dee V’Nil or Tran9i. t.rizedl
Mulri.eter, Analog, Volmhmetex
ffultimeter, Digital(1 “eludes Peak, Peak to Peak,Average, and Rffil
Pfult iplier, Frequency, Doubler
Otmmeter, Wega
oscillator, (see Generator,Si’mal CW GEO, or Generator, signal,Microwave GEA, or Generator, Sigml,Radio Frequency GEB)
oscilloscope
Oscilloscope, sampling
Power supply, Direct Voltaee
Recorder, Str iQ Chart, tfultiple channel
Re..rder, X-Y
Reflectometer, Time Domain
Resistor, Decade
simulator, SYnchro/Resolver
Slotted Line
Stabilizer, Radio Frequency
synthesizer, Frequency
‘rer.imtio”, coaxial
Ter. inal ion, W,eguide
Test Set, Digital Data (See AnalYz.r,Lqic AIM)
Test Set, Electron Tube
Test Set, Envelope DelaY, ‘lelecon
Test Set, Frequency Re#ponse
ml
HLO
MLI
ml
mlo
MU2
Doo
OHO
0s0
0s1
PSI
RDO
RXO
TDR
RE1
GES
SLO
SYO
F5N
‘ml
TM2
TEO
TSD
T%
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DOD-STD-2121 [NAVYI1 march 1984
ELECTRONIC TESI EQUI PNENT NOUN NAMES (Cent inwd )
~ N~ GmtRIC CODE
Test Set, 1.plse/Noise, Telecm
Test Set, Inmlat ion(Includes High Voltage Test sets)
Test Set, fieas.ring, Power, Ele. Lro.ic
Test Set, Logic(1 ncludes Test Set, Logic Probe ..6Test Set , Logic Probe Kit ]
Test Set, Loran
Test Set, Heasuring, Power
( 1ncludes IJat meter and RF Power meter)
Test Set, measuring, Radiation Hazard[Includes meter, Radiation Hazardif GPETE)
Test set, Measuring, RIFI(Includes RIF1 Meters)
Test Set, measuring, 2LlR ( 1.cl.deeVSIJR Meters]
Test Set, Pul.e signalin~, Telecon
Test Set, Radar
Test Set, Radio
Test Set> Recorder, TaDe
Test Set, semiconductor
Test Set , Sonar
Test Set, ‘rrane.issio., Tele.o.
Test Set, Llhite Noise, Telecom
Tester, Bit Error Rate, ‘releco.
Tester, Digital
Tester , Relay> Teleco”
Tra”s forme, , Auto
Transformer, Isolation
Transformer, Ratio
Vol L.erer, Analo~, Electronic[1..l”d,. AC, DC, R?, and T,ue ki-SVoltneter]
TSB
TE4
WAO
1s3
TS7
LIA1
RHO
F1O
TS2
‘rsP
Ts5
mm
no
TE1
TS6
TsT
TSN
TSP
ml
1s4
TR1
TR3
TR4
VO1
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ELECTRONIC TESI EQUIPMENT NOUN NAMES (continued]
N= ~ GENERIC CODE
voltmeter, Differ enri.1 V02(Includes ACJDC, IX, and TrI,e rotsDifferential voltmeter)
Voltmeter, Frequency Select ive V06
Valtneter , Phase AnE1e V08
voltmeter, vector V04
IJattmrer [See Test Set, Measuring,Power WA1 .Ild Test Set, Meacaj, in~>Power, E1eclronic wAOI
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DOo-srn- 2121 [NAvK)1 March 1984
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● 00 D-5TD- 2121 (NAVY)1 t!arch 1984
APPENDIX B
WEAPON2YSKM ELECIRONIC TE51 EQUIPMENT PARAMETERS
‘I’his Appendix contains in form.t ion relat.d to DOD-SrD-2121 (NAVY)
APP..dix B is . mandatory Part of this standard.
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COD-SID-2121 [NAVYI1 Harch 1’384
wEAPON SKSmi ELEIXRONIC TESI EQUIPMENT PARAMETERS
ETE NwN NAME: AMTHER, ELEmRONI c, DCETE GHiERIC CODE: AMO
~ U* ~
1,li4X1MJflDCCIJF!R3N’I AMPERES 5. PRoBE lSOLATI ON-AC2, FllN1illJH DC WBRWI AMPERES3. BESI DC c!JRRFNT ACLVRACY PERCH+’( 6. lWXIIIIJM lNDUrED VOLTAGE4, PROBE lSOLATI ON-DC VOLTS
A CLAMP-ON TYPE F, 60 HZ POWERB. RECORDEROUTPUT G. 400 HZ POIAERC, DIGITAL R2ADOUT H, 115V ACD. INTERNAL OAITERY POtJER 1. 230V ACE, 50 HZ POWR
2,
A.
Mini... d. current is the full-scale value required of the ..s1 Een.itive range.
4. ,x shall be entered if a clm!D-on function i. required.
PEAKVOLTSVOLTS
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WAPON 3YLT~ ELECTRDN1C ‘IESI EQUIPMQJT P.4RANEIERS
ZIE NOUN NAME, AMPLIFIERE2E GZNERIC CODE: .4A0
PARANEIER
1. MINIPUJM FREQUENCYAT -3 dB2, K4X1MJil FREQUENCYAT -3 dB3, MINIMIJM GAIN4, MAX1W7’I G41N5. GAIN STEPS6, BELT GAIN ,WCURAcTf7. MINIMUM GAIN RESOLUTIOM
8. DYNAMIC RANGE9, INPUT IMPEDANCE
10, INPUT SWR11 MAxIMJfi FEAK INPUT12. MAXltNH DC INPUT13. MAXIPWN lNPUI ISOLATION14, NOISE 8EFER2t4ctD TO INm15. NOISE FIWRE
HERIZHE~ZDECISELSDEC1BELSDEC1BELSDECIBELSPERCENT OF
FULL O~PUTDEC1BELSOHMSNUMSERVOLTSVOLTSVOLTSVOLTSDEC1BELS
16.17,1s19.20.
BESI RISE TIMEBEZI FALL TIMEMINIMuM RESPONSE TIMERESPONSE FLATNESSBEZI RATED D1ZIOSTIONPULSE ABBERATIONSPULSE DUI?-ATION ( 10% DROOPIPULSE DELAYPHASE SHIFIMAXIi-ill OUTPUTOVERL(JADRECOVERYMI NIMuH EXTERNAL MODUL4_i1ON FREOUEWYMAXn4JtI E~ERNAL HODULATION FREQUFNeINTERNAL HIGH VOLTAGE TIME DELAYCURRENT L1141TOUTPUT IMPEDANCE
Q. 230V AC
SECONDSSECONDSSECCW!SDECIBELSPERCENTPERCFNI’SECONDSSECONDSDEGREEsWATISSECONDSHERIZHERIZsEc&wlsAfiPERESORME
4. l’he maximum ~ai. or amplification required of the DE
10, The maxi... VSLIR that the ETE shall be allowed to have at it. inDut.
14, The .ani... noise that The EIE shall be allo.ed to introduce onto the anplif ied signal.
15. ‘me quality of . . anplifier is expressed as a figure of merit, or noise figure. Noise figure is the ratioof the ?ct.al output n.i.e Doer of the amplifier compared to the noise Power which would be available ifthe aaplifier were perfect ana .erely armlifi.d Xhe thermal noise of the iup.t termination rather than.oncrib”ti”E any noise of its 0..,
1!3. Response f 1.1 m?.. is the total .arial ion of ar!plitude across the frequency band, exrmee.ed aE a rat i.between the n inimum and maxim.. level. For example, a requirement for ./-5 dS flatness from a referencelevel shall be recorded as IQ dB.
2Q, Ths perce.race of distur cion allowed to be introduced into the amplified aie!lal by I he 2TE.
22. The p“l.e d.rat i.” Lh. t the EIE .“s1be capable of accept i“e uitho”t introducing .01. than lUL droop.
25, me rmxi.,m mtp.t required of the ETE,
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DOD-sm-2121 (NAvy )1 March 1984
UUPON SYSTEM ELECIRON1C TE= EQu1PMEN7 PARAtlEIERS
m NOUN NAME: iNALYZER, DI=ORIION~E GENERIC CODE: ANO
~
1, MAXIMJH FUNDAMENTALFREQUENCY2, ffl NIM7Jm~NDAtin41AL FREQUENCT3. BE= FUNDAMENTALFREQUENCYACCUR.4CP4, t!dXIMIJM RF CARRIER IREWEN’Ti5, MI NIMJM RF CARR1ER FREQQENCY6. HINIMJl VOL’CMECERFULL SCALE7. Mxtmun VOLTM~ER FULL SCALE8. BESI VCJLTHETERACCURM:Y9, MINIwJN RANGE D[scOsTION FULL
10. BEST D15TORTION ACI?JS,4CT
A AWIOM4TIC NULLB. CONTINOUS FILTER TUNINGC. VOLTMETER MODED, Afl DETECTORE, H1-PAs3 fILTERF, LO-PASS F] LTERc. [ EEE/488
SCALE
W
HERTZHEET7.F’ERC~HERTZHESTZVOLTSVOLTSPERC~PERCENTPERCENT
11, fllNIPUIN INPUT FOR 100% D15TORI1ON12, M4X1PWM INPUT ISET LEVE1.)13. INPUT ISOLATION14. ~NDAMENi”AL FREQuENCYREJECTION15, wXIMUM INDUCED DISTORTION16. M4X1MJM INPUT LIITROUT DM40E17. INPUT RES1SIWCE18, lNPUI CAPACITANCE19. MoNITOR oUTPUT IMPEDANCE20. M3N1TOR OUTPUT
H. INTEWAL 6A=ER% POWER1. 54 HZ POWERJ 60 HZ. POWERK. 400 HZ POIJERL. 115V ALM. 230V AC
VOLTSVOLTSVOLTSDECIBELSPERCENTVOLTS0sr19FARADSOsnsVOLTS
11. The .ini.u. input voltage at !thich the EIE shall be capable of reaching a set level of 100%,
12. The .a.ni... input voltage .? uhich the ETE shall be capable of reachine a set level of 100%.
15, The amount of distortion .lloMed to be introduced by the ETE,
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Uumi SYszm ELELTRON1c TE= EQU1PMEW pARANmERS
EIE NCIJN NAME: ANALYZER, D1flORHDN, 3N=E GENERIC CUDE: TSF
BAUDSBAUDSSAUDSBAUDSPERCENTPERCENIPERCENT
b. EVEN PARITYS. ODD PARITYc. NEUIRALD. POLARE. HIQf LEVELF. LOW LEVELG. 3YNCHR0N0USH. AXYNCRRONOUS1. lNTEFNAL LIMP 3UPPLYJ. lTA NO-2K. ASCII
8. MAX1~ PEAK BIAS DIS1’ORl’10N9. D1210RIION RESOLU-HCIU PERCENT
10. BEST 61AS D1srOffrl DN ACCURACY PERC~11, END D1~OSTION PERcENI12. MAX1tllM BIT ERROR COUNT NUMBER13. CODE BITS NUMBER
POWER
5, 6,7, S, 10. Bias distortion i. the unifor. shifting .af positive-going transitions from their proper poeil ion inrelatiorwhip to the start pulse.
11. A shifting of the ends of .11 marking pulses of start-stop TN signals from their proper positions relativeto the beginning of the *tart pulse,
K. American Stan6ard Code for Information Interchange
P. Applies t. source POWI’, not loop supply,
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DOo-srD-2121 [NAW]1 March 198+
UEAPON SYSTEr! ELE~RON I C TELT EQU1PMENT PARAMETERS
m NW NANE: ANALYZER, LINE FAULT, TELECOM~E G~ERIC CODE: TSR
6, OUTPUT PULSE AMPL1’IUDE7, OUTPUT PULSE Ml DTH8, MINIMUM WEEP RANGE9. MAXIMUM sWEEP RANGE
10, 2L!EEP RANGES11. CUTPUT IMPEDANCE
VOLTSSECONDSi7EIERSMETERSNUMBEROHMS
J. liENTIFY TRANSFORMERBANKX. RECORDEROUTPUTL. INTERNAL BAWERY POWERM. 50 HZ POLIEBN. 60 HZ POWER0, 400 HZ PowERP, 115V ACQ, 230V AC
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● COt+flD-2121 (NAVYI1 N?.rch 1984
u2AP0N swm ELEffRCUIC TEL-I EQUIPMENT PMANEIERS
ETE NOUN NAME: ANALYZER, LDGIC (INCLUDES TEST SET, DLOITAL DATA)‘EIE GENERIC CODE: AN+
1. MIN1tSM CLOCK RATE2. ?L4Xlmun CLDCK SATE3. fllN1fNtl CLOCK PULSE UIUIH4, t14X1MGMCLOCK PULSE UIDTH5. NAXII’SJI EXTEW&L CLOCK FL4TE6. tuxIfuuI INpD-I THREEliOLD7. tllNIFfUM lNPUI THRE3HDLD8. INPUT DYNAMrC RANGE9, HAXrMUM MBIOSY DEPTH
HESTZSECONDSSECONDSHERTZVDLTSVOLTSVDL1’SNDIIEES OF
UDRDSNUMBEROF
UDRDSSECUNDSNUM3ER
13, NUMBEROF TSIGGER WMLIFIERS14. M4X1HUCIPRFTRIG3ER DELAY
15. flAX1t$Jff DIGITAL DELAY16. MAXIMJM DATk INPUT cHANNEIS17, DATA M4X1MJM TR1ffiSR ilORD LEN(GH18. ti4xmmil TIMING INPUT O+ANNELs19. IIMING MAXIM.JMTRIGGER wrw LwiII+20, MINIFTWI DAT4 PULSE !J1UTH21. MINIMUII TS1(J2EB PULSE LIIDTN22. PMXIMUH lNPW !JIT’HDUT DMIAGP.23. MAXIMUM INPUT BIAS24. INFUI RESISIANCE25. lNPGI CAPACITANCE
10. nw mm REFEsmc7E ffniow m-m
11. GLITL’H CA~RE12. NGMSES OF CLOCX WALIFIERS
L. BINARY F0Rf14TK, DECIMAL YORWTN, ~AL FORtiATo. HEXADECIMAL FOSMATP. 1EEE/4&8Q, INTERNAL SAITERY PUGERR. 50 HZ PDWERS. 60 HZ POLIERT, 400 HZ POWERU. 115V ACV. 230V AC
1, The slowest rate at which the model shall S.tis factori lY operate.
2, Ihe fatmesx rare ac .hich the .odel shall s.ti$factorily operate,
9. The capacity rewired of the ~E, e.g. , 32,000,
NU17BERCmx
PER1ODSEVENTSNUM3EREl TSNGMBERBITSSECONDSSECfJNU3VOLTSANPERESDRMsFARADS
1’I
●19
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DOD-2r0- 2121 INAVY11 March 1984
u&4P0N SYSTEM ELEcTRON1C TESI EQU1PHENT PARAMETERS
EIE NOW NAME: ANALYZER, NETWORKEIE GEIERIC CODE: AN2
I, MINIWM FREQUFJJCYRANGE2, ~XIMUM FREQUENCY 8ANGE3. llINIwil TEST cHANNEL INPUT4. MAXliWfl TEST CHANNEL INPUT5, MI NltlUPl REFERENCE CHANNEL lNPUI8, M4X1tlJM REFER2NCE CHANNEL lNW1’7. BE= TEST OfANNEL AMPLITUDE ACCURA~8. RE31 REFERENCE CHANNEL AMPLITUDE
ACCIJFL4CY9. INPuT ATTENUATORRANGE
10. M4X1KUII CU~MTIVE ATTENUATORERROR11. WNNEL 1SOLATION12. HINIMJN PHAsE tlEASUR13WiT RANGE13. M4X1!PJM PHASE NEWUR~~ RANGE14. INPuT IMPEDANCE15. MbXIMUM WUR16, M4X1MWY INPUT !Jl13f0UT DANAGE17. MAXIM.JN AMPLITUDE DISPLAY18. BF~ AWLITUDE DISPMY ACCURACY
19. HAXINUM PHASE DISPLAY20. BEST PW.SE DIsPLAY ACCURALTY
mui
HERTZHLUIZdB”ml!mmdBmDEC1BELSuEC1BELS
DEC1BELSDECIBELS”DEC1BELSDEOREESDEGREESOHW’iNUMBERLIA’crsDEC1BELSDEC1BELS/
DEC1BELDEGREESDEGREES/
DEGREE
TE51 uNIT
21, POUR PNASE CALIBRATION lNcBEMNT22, POMR PHASE ACCURACi23. MINIMJH PHASE INPUT
24, wXIMJN PW% INPUT
25, BE$!S,PHASE ACCUPACY
26. Mk.ilMUM PHASE OFFSET27, BE2T PHASE OFFSET ACCURACY28., MAxIWI PHASE OU’CPUC29. NINImUM OUTPUT LtVEL30, mXIMJM OUTPUT LEVEL31. 8E= OUTPUT LEVEL ACCURACY
U. BNC CONNECTORSv, Wcl CONNECTORSU, SELF CALIBRATIDNX, X-Y PLUITERY. X-Y PR1tWOUTZ. STORAGECAPABILITY
6A. INTERNAL ,!c+SS. EXTERNAL AHCC, INTERNAL FMDD, EXTERNAL FMEE. VIDEO FILTERFF. CRYLTAL M4RXERW. AUXILIARY POLIERSUPPLY FOR
1,2 3 4 5 6 7 B 9 10,11,12,13,14,15,16. Applies to the receiver ,dnit of the ETE,>, ,,, ,,
=
DECREESCG+T1ilETERSDEGREES
FULL SCALEDEGREES
IULL SCALEPERCETI OF
FULL SCALEDEGREESDEGREESVOLTS/DEGREEdBmoB.dBnd6mdB.dB.HEETZdBCHERTZHERTZPERCENT OF
SETTING
17,1 S,19,20, Applies to the phase-magnitude displaY unit of the ETE
20
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●I
o DOD-SD-2121 (NAVY)1 March 1984
L!F.APoN SYSTEM ELECTRONIC IESI ECUIPMEW PA3AM21ER3
ETE NOUN NAME: ANALYZER, NLTWORKETE GD4ER1C CODE, AN2
21,22. Applies to the polar displwUnit0[the‘21E.
23,2+,25,26,27,28, Applies to the Phase gain indicator unit of the ~E.
29,30,31,32,33,34,35,36,37,38,39,A,B,C,D. Applies to the Zem=at0rfSJeePe7 unit of t~ ~E.
15, The maxi... V3WR to be allowed of the 21E at its input
21
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DOD-SIT-2121 (NWY)1 Narch 1984
uMPON SRTEM ELEaRONIC TEST EQUIPMENT PAWERS
EIE NOUN NAME, ANALYZER, $PECTRGMETE G~ERIC CODE: ANl
PARAMEIER
14, BEST LINEAR HODE AMPLITGDE DISPLAYACCURACY
15. BEST REFERENcE LEVEL ACL’U8ACi LDG MODE16, BEST REFER2NCE LEVEL kCCGBACYLINEAR
HDDE
HERTZHERTZPERCENTHE~ZHERTZ/HOURd6md2mVDLTSVOLTSDEC1BELSDEC1BELSDECIBELSOEC1BELS
PERCENT
DEC1BEL3PERCGiT
17. ttAX1lllJ!l DYN#.MIC RANGE DEC1RELS18. HAXIMUPI DISPLAY DYNAillC BANGE DECIBELS19, MINIMUM DISPf,AY UIUTH HERTZ
A, DISPLAY sIORAOEB, VARIABLE PERSISTENCEC. WLTIF’LE MfiYDRY DIGITAL =ORAGED. INTERNAL PRESELECIORE, lNZERNAL PHASE LOCKF. VE~l CAL SCALEG. ADAPIlVE WEEPH, VIDEO FILTER1. UAVEWIDE MIXERS
~
20. M4XIMJM DISPLAY WIDTH21, mNItnJM RESOLUTION BANDLIIDTH22. RE3OLDTION BANDUIDIH ACCURACY23, RES0LUTZL3h3HAPE FAcTOR24. ilAXI14JM LINEAR FREGUEWY SPAN25, lfl NIMJM LINEAR FREQuENCY SPAN26, NAXIPRJMLDC FREQUENCYSPAN27. iWNIMUM LOG FSEG’JENCYSPAN28, U4X1MJN LIN2AR SWEEP TIME29, N1N114JM LINEAR RWEEP‘TIME30. LoG 3WEEP TIMY31, NINIMUN 3UEEP RATE
32. MAXIMUM 3UEEP RAIE
33. WTPUT LE’vEL FLATNESS34. M4X1FNJC!N01SE SIDEBANDS35. iwlmm spuRIDLIs RESPONSES36, llAXIMJti 1NTEF’HODULATIOND15TORTION37, MAXIMGH DC INPUT UITHOUI DAFL4GE3B, N4X1MUM RtLS INPUT WITHOUT DAMAGE39. INPUT IMPEDANCE
J, INPUT AMPLIFIER OVERLOADINDICATORK. TRACKING GENERATORL. X-Y OUTPUTH. lEEE/@3N. 1NTER?4ALBATIERY PC3AER0. 50 HZ POWERP, 60 HZ POIJERQ. 400 uz ~UERR. 115V ACS. 230V AC
HERTZHERTZPERCENTNUMBERHERIZHERTZHERTZHERTZSECONDSSECONDSSECONDSSECONDS/
C2NT111ETERSECONDS/
CEN’C114ETERDEc1BELSdBc6B.d’dcVOLTSVOLTSW153
-
6,7. Input referenced to 10 kHz bandwidth,
17, The difference between the maxi..” input signal level &nd the average noise level or distortion products,uhichever ie greater,
31, The slowest required eueep speed in seconds per centimeter.
32. 331e faste.t required seep speed in eeconds per centimeter.
G, Adapti.e sweep increases scan qeed 20 to 25 times faster than iwrnal over the area of the ‘?... where nosignal greater than 6 dB above threshold exists. If this requirement exists, ?.. ,x,, shall be entered.
K, An ,X shall be entered if a tracking generator is required as a“ integral pare of tn. ETE.
22
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●
●
W.APON WSl~ ELEcTRONIC TE5T EQUIPMENT PARAMETERS
FXE NDUN NAi’lS: ANALYZER> SPELTRUM, REAL T1M2HE GENERIC CODE: AN3
1. HINIUUM OPERATING FRECUEUCX2. MAXIhVn. OPERATING EREQU2NCY3. REAL-TIHE FREQLNZ.K!YM$xmufj4, FREQU2NCf ACCURACY
5, i% X1l’Wii INPUT RANGE
6, MIN1~M lNPUI SANGE
7. DwAHIc RANGE8, DISPL,iY RANGE9. AMPLITUDE LINEARITY
10. RESOLUTION11, BANDL!l~
A, Cm D1SPL4YB, 1/3-OCIAVE FILTERSc. DISpL.4Y 5T0WGED. CGRSDR SELELT DISPLAYE. ill COPROCESSOR CONTROLF. A-UEIG+L LEVELSc, BAR-GRAPH msmYH, SELF CALIBRATE CHECK1, FLAT RESPONSE LEVELJ. MICROPHONE lNPmK. TRANSDUCER INPUTL, TAPE lNP~H. OVERLOAD 1ND1CATION
HE~HEmzHESTZPERCWI lTJLL
SCALEVOLTS NLL
5CALEVOLTS 3ULLSCALE
DECIBELSDEcr8EL5+/- PERCWI
EGLL SCALENunBER LINEsPERCZNT OF
NAXIMGMFREQUE3WY
12. FRE13UFNL!YRESPONSE13, M.4X1iWM SEQUENTIAL TIUE PER1ODS14. SAMPLING RATE
15. l/3-~AvE FILTER ROLLOFE
16,17.18.19.20.21.
N. TRANSlENT C.4FTUREo. AUTOMATIC 1/3- OCXAVE F1LTERP. ANT1-ALIASING FILTERSQ. X-Y RECORDERR, 1EEE/488S. VIDEO OUTPUTT. INTERNAL BATTERY POWERU. 50 HZ POWERV, 60 HZ POEIJRU. 400 HZ PDWERX. 115V ACY. 230V AC
DoO-srO-2121 (NAVY)1 March 1984
SELECTJON
DEC1BELSNUMBERNUMRERx
fTJLL-SCALEFREQUENCYSELELTED
D2cI 8ELs!OCTAVE
HEFOZDEcl BELSm.OxmFARADsVOLTS RH3
NgELJ
7. ‘L’he difference betwen the maximum input signal level and the average noise level or distortion products,whichever is greater,
11. l’he reQ. ired banduidth of the nE expressed as a percentage of maximum frequency
F. An X’, Sh.l? be entered if the ~E is xeQuirwd to have an ,6 ueighting, settin~. ~is provide. a correctionfactor for var Iws frequencies.
I
23
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DoD-SID- 2121 (NAVY)1 Harch 1984
lJF.APONEYSiTLl ELEcTRONIC ‘TESI EQUIPMENT PARAMETERS
SIE NCON NAME: ANALYZER, T3ANSM1SS1ON,nE G~ERIC CODE: TSA
~
1. REcEIVER illNIWH FREQUE?JCi2. REcEIVES MAXIPUJM’FREQUENCY3. RECEIVEB FREQUENCYACCURACY4, RECEIVER FREQUENCYRESOLUTION5. RECElVER nlN1mun SIGNAL LWEL6, RECEIVtR MxImum SIGXAL LEVEL7. RECEIVER SIGXAL L~EL RESOLUTION8. TRANSMITTER MINIM.N4 FSEQUENCY9, TRAN3M]nER mxlwM FREQUt3NCy
10, TRAN3M1TCER FSEIWENCY ACCUSACY
A. AWO RANGINGB. DIGITAL READOUTC, ‘DJo-UIRE SALANCEDMEASUREMENTD, FOUR-WIRE BALANCEDMF.A3UREMENTE. 135 DIM lNPUT/OUTPDT IMPEDANCEF. 600 OHU lNPLT/OUTFVT IMPEDANCEG, 900 UHll lNPUWOUTPUT IMPEDANCEH. C-tlESSAGE FILTER1. PROGRAMFILTERJ, 3 KHz FILTERX, 15 KHz IL+lT FILTERL, NOTCR F1 LTERM. UECO 310 JACKN. BANANA lNPUT/OUTPUT CONNECTORS
TELECUtl
as
HERTZHERTZCOUNTSHERTZdhmmDEC1BELSHERIZHERTZCOUNTS
PAMPETES
11. TRAN3M1TTER FREQUW2Y RESOLUTION12; TSANSMITTER NINltlUil sIWAL LEVEL13. TRAN3M1TTER KAKIEUH SICNAL L2VEL14, TRAN5f11TTER SIGXAL LEVEL ACLVR.4CY15. TBANEMITTER S1&NAL LEvEL SESOLUTION16, TRAN3M1TIER TOTAL R#.i140N1C D1LTOSTION17. MSSSAGE CIRCUIT FIINIMJH NOISE LEvEL18, NOISE-IJITI-TONE MI NILtlM NOISE LEVEL13, NOISE-TO-GROUND fllN1~fl NOISE L2VEL20. NOISE MEAEURENENChCCURACY
0. HANDSET CL1PP, INPUT HESSAOE CISCU1’C NOISEQ. NOISE-UITH-TONER NOISE-TO-GROJND
mgN
HERTZdm,dsmDEC1BELSDECIRELSPERCE+TflBRNdSRNdBFN
24
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●
o
tm-srD- 2121 (NAVY)1 HC.rch 1984
WAPON SVSTEM ELECTRONIC TEBT EIJUIPNENT PARAMEIEFs
ETE NOUN NAME: ANALYZER, LIAVEETE GENERIC CODE: AN5
pARAMETEB
1. MINIMUM FREQUENCY2, tutK1t$JN FREQUENCY3. BESI FREWE34CY ACWFWCY4. FREQUENCY RESOLIJTIDN5, HAX1tlJTI FREQUENCYDR1~6, f.imtmn WLL-SCALE LINEAR smsmvm7. MINIMJil FULL-SCALE LINEAR SENSITIVITY8. MAxInure k7JLL-SCALE L13GARITH711C
bmwITIvITY9, MINIMUM FULL-SCALE LOG4RITHHIC
SLW$lTIVITY10. BESI VOLTAOE ACCURACY11. INPUT AmETtJATOR STEPS12. INPUT ARENIJATDR ACCURACY
A, AUTO 2UEEP AVAILABLEB. TRACKING GFNERAToR WCWTC. CALIBRATORD, DIGITAL DISPJ.AYE. ANALOG DIspLAyF, EXPANDED SCALEO. OVERLOAD INDICATORH, UNBALANCEDlNPu’c1, BALANCEDBRIDGINQ INPUTJ, BALANCED‘TERMINATED lNPuI
HERTzHERTZHERTZHEETZHERTZfiOURVOLTSVOLTSdsm
dBm
PERCENTNUMBERPERCENT
13. MAX1hVM INPUT RESIST&NCE14. tilN1llUM INPUT CAPACITANCE15. )lAX1tWM Rli’) lNFUT LJITHDUC DAP!AGE16. NARRCOESCBANDUIDIH17. U1DE5T BANDJIGTs18. BE5c 6ANDWim 2H.4PE FAmOR RATIO19. is4xImrI NOlsE $IDEB.WD
K, RECORDEROUTPUTL. SELECTABLE BANDU1MNM. AFC LOCK lNDICATDRN. RGEEP EBRDR INDIcATOR0, INTERNAL 6ARERY PDWERP. 50 HZ POLIERQ. 60 HZ PWERR. +00 HZ PuJER$. 115V ACT, 230V AC
6, ‘me full-scale indication required of the most sensitive ranee in the linear node.
7, The full-scale indication required of the least semitive range in the linear node.
8. The full-scale indication reQ. i red of :he most sensitive range in the loear itt’mic mode.
9. The full-scale indication required of rhe least sensitive ranee in the logarithmic mode.
Qm9FARADSVOLTSHERTZHERT2WEBdB.DECIBELSHERTZNEETzHEXTZSECONLMSECDNDS
20. The dB ratio of the largest and smallest signals to be sl..ltaneouely .Ccon.odated by the ETE withoutcausing an error in the measurement,
24. The slowest sweep time required.
25, The fastest sweep tine required.
o 25
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DOD-srD- 2121 INAVY)1 March 1984
LIEAPONRYS2E15 ELECTRONIC TEST EQuIPMENT PABANFiER$
EIE NWN NAHE, BRIDGE, COMPLEX FL4TIOETE G2NER1C CODE, BR1
~
1. MAXIMJM DPERATING FREQUENCY.2, NINIMJH OPERATING FREL!UE?WY3, 6EST FREQUENCf ACCURACY4, f.mxrf.f.hi slaAL rNPUT5, 141N11WPl SIGNAL INPUT6. MAXIMJM REFERENCE lNWT7. MI NIMJM REFERENCE INPUT8. BEfl REFERENCE lNFIJT ACCURACY9. VAXIMJPI IN-PHASE RATIO
10. MAXIMJM IN-QUADRATURE W,TIO
A AUT0M4T1C NQDE OPERAT1wB, ii4NUAL !IODE OPERAT1ONC. REMOTENODE OPEBATIQND, DIGITAL OUTPUTE. NUIIERICAL DISPLAY BEADOUTF. ANALOG DISPLAY READOUTc. 1EEE/488
HERTzHERTZPERCENTVOLTSVOLTSVOLTSVOLTSPERCENTNUMBERNUMBER
11,12,13,14,15,
16.1’7.18,19,
H.[,J,K,L.M,
MAKIMUM lN-PHASS ACCLIRACi PERCENTfW.XIMIJMQuadrature ACCURACY PERCENTAN(IJLAR POS1TION ACCURACY PERCENTrwlmm INITIAL HmmREIIENT Tm SECONDSM.4X1PUJMTRACKING RATE DEGREES/
SECONDIN-PHASE RESOLWTION NUMBER12UADRATURERESOLUTION NUMBERSIGNAL INPUT IMPEDANcE OlmREFERENCE INPUT lMPEIIANCE 0Ht15
INTERNAL BATTERY POWER50 HZ POWER60 HZ POLIER400 HZ POIJER115V Ac230V AC
2. A minimum freguency of d. shall be indicated by a zero
26
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●
●
I
●
WAPUN SYSZEM ELECIRON1C TESC EQU1PM~ PARAMETERS
EIE NWN NAME: SRIDGE, CAPACITANCEEZE G~ERIC CODE: SSC
FARADSFARADSPESCEN’ZFARADSHERTZHERTZPESCENTHERTZHERTZmm
J.SUIL’T-lN DETECTORK. SUILT-lN G2NERATORL. ESTERNAL D~E~ORM. ESTERNAL GFNERATOR
19. M1NIflU14 BIAS20. l14X1~ BIAS
i’. 115 VACZ, 230 VAC
27
ZOD-srD-2121 (NAWI1 march 1984
mmPERcDiTNUMRERNUMSERPERCENTVOLTSV0L7SVOLTSAUPERES
Downloaded from http://www.everyspec.com
DOD-SD-2121 (NAVY11 March 1984
IJEAPON SYSTEH ELECIRON1C TESC EQU1PNENT PARAMETERS
ETE NOUN NA~: ORI DGE, IMPEDANCE, RADIO FREQUENCiL’TE GE?4ER1CCODE: BR3
::3.4,5,6.
A.B.c.
mxmm REslt3At+cEMINIMIJfl RES1STANCEBEST RESISTANCE ACCURACYw+xxrm REhaANcEm1Nn4JH REA~ANCEBESI REAnANCE ACCURALY
l~ERNAL OAI_IERY POIJER50 HZ PoWER60 HZ POWER
0Hi12 7.OHM 8.PERCENT 9.OHMS 10,DHM5 11,PERcENT 12,
D.E.F,
MxImwn INTERNAL maummMINIMUm lNTERNAL FREQUENCPi3Ax1mumEmERNAL rREOumriHINIHUrn EXTERNAL FREQUENCiM4X114JMOPEN CIRWI’I VDLTS OUTtL4X1MJU SHORT CIRCUIT CURW14T
400 .HZ POLIER115V Ac230V AC
N=
8,10. A minimum frequency of d. shall be indicated by’ a zero.
11. The maxim.. acceptable voltage between the output terminals of the EIE,
HERTZHEXIZHERTZHERIZVOLTSAMPERES
12. The maxim.. required current to be a.ailtble at the output terminals of the ,E2E.
28
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oWEAPON2YSTEM ELECTRONIC TELT EW1 PNFNT PARAMmEFIS
I .
ETE NOUN NAME, BRIDGE, RLCEIE G2NER1C CODE, BRO
.,. . . . . . . . .WGE BE= BESOLUT1ON
I CAPACITANCEI CAPACITANCEPAC1lANCE ACCURALW
8, CAPACITANCE RANGE BE5c RESOLUTION9. i+AXIMIJM lNDUCIANCE
10. MI N1l’lJM lNDUCJANCEII. BESC IndUCtanCe ACCVRAcy12. INDUCTANCE RANGE BE= RESOLUTICN
A TIJO-TERNINAL RES1S7ANCE0. FWR-TERIfrNAL ResistanceC. TE22 LEAD TERMINALS GROUNDEDD. SER1ES CAPACITANCEE. PARALLEL CAPACITANCE1’. MEAZURES D FACIORG, SER1ES INDUCTANCEH PARALLEL INDUCTANCE1. MEASURESII
m
OlflmDmsFmcm
FARADSFARADSPERCENTFARAOsHENRYSH2NRYSPERCENTHENRYS
PARAMETER
COD-SCD-2 121 (NAW 11 F!arch 1984
20.~NIWtIACmom cl RmJIT LIJRRFXT21,HAXIll!llOPEN CIRCNIT DC VDLTS WI22, MAXII’NJMDC WIDST CIRCUIT CURRENT23. FIAXIF!JH DISS1 PATION FACCO%24, HINIMUM DISSIPATIDN FACIDR
X. READS IMPEDANCE MA6i11’uDEL, READS ANGLEM, LEAKAGE CURRENTN. 1NTENNAL SA~ERY PoWER0. 50 HZ PWERP. 60 HZ POWERQ. 400 HZ POWERR.115VACS,23oVAC
J. READS R.J FACIOR
14,16. A minimum frequency O( dc shall be indicated by a zero
19,21. The .axi..n acceptable voirage between the Cutpur terminals of the ‘iTE.
20,22. The maxi... required current to be availableat[heCutp.tterminals of the ETE,
23,24, Dissipation factar is the rat i. of the enerzy dissipated to the energy stored in a capacitor.
b. An ,X,, shail be entered if a two- terminal resistance measurement capability is required of fhe ErE.
B. h. ,X, shali bs entered if a four- terminal resistance measurement capability is required of the ETE,
_
HER2ZHEST2HERTZHERTZVDLTSVOLTSVOLTSAhTESESVOLTSAMPER23NUMBERNUMBER
●29
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DOD-STD-2121 lNA~ )1 March 1984
WEAPQNRYSEM ELECTRON1c TESI EQUIPmm pARAMmERS
EIE NIYJN NAHE, BRIDGE, S’fNCiRO/RESOLVER, DECADEETE GENERIC CODE: BR2
1. tmmum FBEQUFNCY2. MINII$.IM FREQUENCY3, NffllNAL FREQUENCY4, !L4X11WMANGLE RANGE5. ANQ.ILAR ACCU3ACY6. ANWMR REsOL~l ON7. 2YNCHR0 FICIJRE OF MERIT8. REsOLVER FIQJRE OF MERIT9. MAXIMJM INPUT
10. ERRORVOLTAOE r2RAD1LlT
11. INPm lmEU4NCE or =NCHRO
HERTZ 11. rNPUT tiIpEDANCE or sYNcHRo aimHERTZ 12, INPUT IMPEDANCE OF RESOLVER Oiii+sHERTZ 13. TRANSFORWTION RATIO NUifBEBDEGREES 14, TRANSFORM4TION RATIO ACCURACY PERcENTSECDNDS 15. TRACKING RATE DEGREES/DEGREEs SECONDNUHBER 16. MAXIHUM 3YNC T1ilE SECONDSNUMBER 17, 1SOLATION lNPuT FROH OUTPUT VOLTSVOLTS ;8. 1SOLATION OF lNPUT FROM CNASSIS GROUND VOLTSVOLTS/ 19, 1SOLATION OF OIJTPIJTFROM CHASSIS VoLrs
SECOND GROUND0HM3
A. NumER OF DEGREE DIALS NUHBER D. ISOLATED SINE OUTPUTB. AUTOMATIC NULL E. ISOLATED COSINE OUTPUTC. NUMERICAL DIGIT RFADOUT F. ELELTR051ATIC SH1ELDING
2. A mini... frequency of d. shall be indicated by a zero
30
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o ND-51 D-2121 (NAVY)1 tlarch 1984
u2AP0s swcm ELECrRGNrC TESI mw PMENT pASAMETEXS
EIE NCIJN NAtlX: CALIBRATOR, SANOE, RADARETE OENERIC CODE: ‘lS9
PhR.AIQ?ER D
1. IIINIMUM SEPhTITION SATE PULSES/SECGND
2. MAXIIVJM REPEIITICN &4TE PuLEEs/
3. MINIWJN M4RKER INTERVAL4, tlAXIWfl i%!RKER lhTERVAL5. BEST &+RXER lNIENVAL ACCIJRALY6. MINIMUM M4RKER AIiPLITGDE7. li&X119JM HARKER AB2L1TUDE8. illN1llJll HJ.RKERPULSE UIGTH
A. POSITIVE RANGE MARXERB. NECNJTVE RANGE MARXERC. ADJUSTABLE RANGEHARKER LWELD. ADJuSTABLE PAWS liARWR IJlmllE, POSITIVE TR1ffiERF. NVJMTIVE TR1ffiERG. AGJGSIA8LE TR1ffiER LEVEL
SWC64D~ERSHEIERSPERCENTVOLTSVOLTSSE03NDS
pARAhECE8
9, )!AX1!VJM MARKERPULSE U1D3’H10. RANGE MARKERJITTER11, OGTWI IWEDANCE12. t11N1MJt4TRI@ER INPuT LWEL13. mxrm TRIffiER INPW LEVEL14. tilN1tWU TRIGGER DEIAY15, MAX1tDJPITRIGGER DELAY16. fllN1!llJH TR1rlER OUTPUT LEVEL1’/. MAXIIVJPI TR1133ER OVTPGT L2VEL18. t14X1ilUH TRIGGER PULSE UIDTN
H. OSCILLOSCOPE WTPUCI. lNTENAL SimERY POWERJ. 50 HZ POIAESK. 60 HZ P3UESL, 400 HZ PDUERN. 115V ACN. 230V AC
SECCWSSECDNDS
:~TSVOLTSSECCNDESECGNDSVOLTSSECGNDSSECGNGE
31
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DOD-STD-2121 (NAVY)1 t’larch 1964
IJEAPON S’fSCEM ELECTRONIC TE5T EL!U1PMWT PARAt121ER$
~E NOUN NAHS: CONVERTER>L13GAR1TSM1CSTE G2NERIC CODE: CVO
1, MAXIMUM SC lNPuI LEVEL2, HINIMJM DC INPUT LEvEL3, DYNAM1C RANGE4. MAxIMUM AC INPUT LEVEL-R!L95. HINIMJM AC INPUT LEVEL-RUR6. MAXII’NII DC OUTPUT LEVEL7. MINIMUM DC OUTPUT LEVEL8, BEST GC VOLTS ACCURACY9. BEsT AC VOLTS ACCURACY
10, IJORSC AC VOLTS ACCNRACY11. MAxIMUM FREQUENCY
4. ‘IRUE RMSB, D1FFER2NT1AL [PCITENTIOHETR1C) NODEC, D1oITAL OUTPUTD. dB RANGEe, INPUT ISOLATED FROH GROUNDF. lEEE/488
VOLTSVOLTSDEC1BELSVOLTSVOLTSVOLTSVOLTSPERCENTDECIBELSDEc1BELSHERTZ
~
12. MINIMUM FREOUE+CY13. CREST FAcIOR14, COilllON NODE REJECT PATIO15, MAXIMUII DC INPUT lJ/0 DAMAGE16. mxllfm! Ac INPUT U/o DAMAGE-RMS17. lNPUI DC RESISTANCE1S, OUTPNT DC RESILTANCE19. INPUT DC CAPACITANCE20, MAXlMJ15AC INPUT RESISTANCE21. MINIMUM AC INPUT CAPACITANCE
G. IN7E8NAL B,41-rERY pOUERH 50 HZ POIdER1, 60 HZ P04JERJ 400 HZ POWERK. 115V ACL, 230V kC
mlm
HESTZNUlfBERDECIBELSVOLTSVOLTSGfNisOHMSFARADSOHMSFARADS
12. A mininu. frequency of dc shall be indicated by a zero.
13. A ratio of peak to RMS volts at full scale, De.gradim* .f the crest factor is inversely proportional to theo
meter deflection. The crest factor value required of the ETE shall be entered.
32
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●
I
●
D73C-2CD-2121 (NAVY]1 Flarch 1984
WEAPONSYLTSM ELECTRONIC TEZI EQUIPMENT PARAMETERS
ETE NOVN NAHE: COUNTEB, ELELTRDN1CEXE G~ERIC CODE: CCO
~
1, MINIMJM FRE12Uf3WY2. MAXINUM lREWEWf3, NIJP!8EROF DIGITS4. 6E2z FREQUCNa RESOLI.I-IION5. 3N0RI-TERM 51ABILITY
6, LONG-TERM 21’AB1LITY
7, T1flE BASE ERROR-YEAR
8. MAX1l$JM SFXSITIVITY9. DYNAM1C RANGE
10. Mmirnm iNpur AmwAT1ON11, MIN1flUll INPUT A’TTENUATION12, i+AX1l’NM OPERATING lNPNT13, M.wmum INPUr M/o DAFi4GE
A BUR% MEASUREMENTB, PULSED FREQULYCY AVERAGINGC. TIME INTERVAL AVERAGINGD. REC1PROCAL COUNTERCAPABILITiE, TRIGGER LEvEL AUJUZIF. NEGATIVE TRIGGER SLOPE0. POSITIVE ‘TRICGER SLOPEH, VARIABLE SAMPLE RATE1. !14RXER OUTPVTJ. 1 FmZ Ob-IPuIx, 10 Pniz OlrTPmL, EXTERNAL 1 fNiZ TIME BASEm, EmERNAL 10 i-mz TItiE OASEN GATE ‘3U’SPUI
HESIZHEKTZNLJM6ERHERTZPARTSI
H1LL1ONPASTSI
N1LL1ONPARTs/M1LL1ON
VOLTSDECIBELSDEcIBELSDECIBELSVOLTSVOLTS
pARAMTTER
14. VZUR15. MINIMUM PULSE UIQIH16. MIN1tNM &4TE T1M217. NAXIMM G4TE ‘T1)z?18. tllN1hUM PER1OD19, F14X1MJN PER1OD20. MINIMUM TIME INTERVAL21. KAXIhl.Qf TINE INTERVAL22. f’lAXIMUK TRIGGER LP/EL23. MINIPV.N4 TSIGGER LEVEL24. mAxndJn rm DWIATION TOLERATED25. MAKIMJN FM RATE TOLERATED
26. M4.X1tNJMAll FREG4JENCYTOLERATEO27. MAX1llJM ACW1S1TION T1M228. INPUC ReSiStanCe29. lNPUC CAPACITANCE
O, 50% AN TOLER4NCEP, 90% AM TOLERANCEQ, 50 QHM INPUTs. RACK rnoum pROVISIONS. AC CCUPLINGT. DC COUPLINGu. I EEE1488V. INTERNAL BAITERY PQUERU. 50 HZ POUERX. 60 HZ POWERY. 400 HZ POWERZ. 115V AC
A).. 230V AC
NvMRERSECDND3SECDND2SECCNDSsECQNDSsECONDSSECDNGSsecDNlz3VOLTSVOLTSHERTZHERTZHERTZsECONDS
FAFMJ)R
I 1, A minim.. frequency of d. shell be indicated by a zero,
3. The mber of digits required in the readout of the ETE.
5. The short- term stability required of the ETE internal oscillator for a period of 1 second
~“ 6. Long-?erm stability refers to the required S1OL! but Dred ictable variation in the EIES internal oscillatoraverage frequency with time,
I 8, The 10uest siEnal level uith which the STE is required to give a correct indication.
14, The maxim. ‘WAR allowed of the ETE at its input,
18, 19. The .inim.n ati manimum periods that the ETE is rea.ired to measure.
●33
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DOD-SID-2121 [NAVY)1 Plarch 1984
UEAPON SY-EM ELEcTRONIC TESI EQU1PMENT PARIIITtTERS
~E NOUN NAPIE: COUNTER, ELELTRON1CEIE GENERIC CODE: COO
24. The maxi... ill deviation of the sig%l that the ~E shall be required to tolerate and .Eill correctlyindicate the carrier frequecey.
25. The maximum FM rate of the sigml at which the WE shall be required to indicate the carrierfrequency correctly.
26. The maxim. AM frequency of the sigml at which the LTE shall be required to indicate thecarrier frequency correctly.
A. An X’ shall be entered if the .apability to measure the carrier frequency of an RF pulse ie required
B. An W shall be entered if the capability to allow high reeol”t ion measurement on repetitive pulses isrequired of the EIE.
D. An ,x,, shall be entered if the capability to .11ou increased resolution uichcut a corresponding increase ingate tines is required of the EIE.
0. An ,,X,< shall be entered if the EIE is required to indicate ths carrier f,eq”ency of the inputsig”z.1 correctly when that signal is modulated at up to 5077 AM.
P, h ,X,, shall be entered if the UE is reQ”ired t. indicate the carrier frequency of theinput signal correctly when that signal is modulated at UP to 9077 AM.
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●
I
o
CW-SCD-2121 [NWY)1 Narch 1984
IJ3APGN 5Ysrm ELECTSUNIC TEST EWIPPENT pAR,4M2TERS
FZE NGUN NAME: CGVNTER, NO1SE UIPULSE, TELECGMECE GENERIC CODE: TS1
PARAtlmER u-
1. !’L4X1MJil CCtRJTING RA’ZE PuLE’Es/SECGND
2. MAXIMM SENSITIVITY OVERALL RANGE dSPN3. nAA~ smsIT1vlm ~ ~&+)/~L dBRN
q. ~xlm ADJGsIt!ENrRANGE: LOM- dBRNLEVEL REG1=ER
5, MAXIMUM ADJU- RANGE: HI~- dBRNLmEL REGILTER
6. ~XI~N ADJGSlllEUT RANGE: i7EDlGN- dBWLSVEL RE131STER
7. MAXIMUM ADJGSIMLW STEPS PER REGIsIER NGMRER
A. NGtfBER OF IMPULSE REG1STERSS. DIGITs PER RSG15TERC. T1lfERD, HOLD CIRCUITE, l’t3NlT0B JACXF. C-MESSAGE [VOICE) UE1@i_flNOG. 1’6.2 -51 XHz lJEIGHTINGH. EXTERNAL WEIGHTING1. BUILT-IN 1010 Hz NOKsi FILTERJ. NOISE-TO-GRGGND FIEASURGIEiTX, INTERNAL TSFtllliAT1 ONL, BALANCED INPUT TRANSFORMERH, UNBALANCEDhwur TRANRrORUER
2,3. 31ie most sensitive input,
NGM6ERNUMBER
P?+RAMEIER
s. nAxlMJu DEclRELs PER ‘~EP9. BESC BEGISTES A3TENUATDB ACO.IRACi
10. MAXIPIIM BR1Ci21NGLGSS11, lNFVT lf@EDANCE NOISE-TO-GROUND
ACROSS LINE12, lNWT lHPEDANCE NOISE-TG-GROVND
To GROUND13, ill NIMJM FREQUENCVOF FLAT uEIQITING14, MAXliTLM FREQUEWV OF FLATWHG?+~lNO15.mx[mfiCOUNTTIm16.WXIM-MDCINPVTLJITHGG’ZDAMAGE
N. 135 DRM lNpur lWEDANCE0, 15D GNil INPUT TMF’EDANCEp. 600 DHtI rNwT IWEDANCEQ. 900 GM INPUT IMPFLIANCER. TERN1NATION CAPABILITYS. BRIDGING CAP.4B1L1TYT. lEEE/4R8U INTERNAL BA’TrERY PoLIERV, 50 HZ POWERW, 60 HZ PGUERX. 400 HZ PowERY. 115V ACZ. 230V AC
DEC1BEISDEC1BELsDEc1BELS
Oms
HERTZHE~ZHI NUTESVOLTS
●35
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nOn-srD- 2121 (NAvyl1 !larch 1984
W.APON SY5TSM ELECIRONIC ‘TELT EOUIPNEVT PARAtl~ERS
EIE NOUN NAME: cURVE TRACER [ INCLUDES BM’R SCFI AND SEMICONDJCIOR TYPES)ETE GENERIC CODE: TE5
~
1, MI NIMJN VEKTI CAL DEFLECI1ON FALTOR
2, MAXIMVH VESTIC.IL DeFLELT1ON FACTOR
3, VESTICAL ACCURACY4. NINIFIUN HORIZONTAL DEFLECTION FAnOR
5, MAXIi’QJll HORIZONTAL DEFLECIlON FACTOR
10. VOL’TAGESTEP AMPLITUDE HINIMUM11, VOLTAG2 =EP AMPL1T130e t!AX1ll!tl
A, INTEGRAL DISPLAYS. SIOSAOE DISPLAYc, Hlrw VOLTAGE sAFmiD. REPETITIVE SIEPE, SINGLE STEPF, TESTS BIPOLAR TRANSISTORS0, TESTS FIELD EFEECT TRANsI%ORsH, TESI SI@lAL/RECTIFIER Dl ODES1. TESS ZENER DIODESJ. TESTS TUNNEL DIODESK, TESIS SCR/THYR12T0SSL, 5TEP REVERSAL
,UIPERES/D1v1s1oN
Al’fPERES/D1VIS1ON
PEsCSNIVOLTS/
D1V1S1ONVOLT$/
DIVISIONPEsCFNTAMPERES/SIEPAflPERES/STEPNUiYBERVOLTSVOLTS
12.13,14,15.16,17,18,19.20.21,22,23,24.25,26.
VOLTAGE 51EPSVOLTAGE STEP ACCUSACYMINIMUM SERIES BES1’SIANCEi-14X1)NJM SERIES RES1%ANCESERIES RESISTANCE LTEPSsERIES RESIRTANCE WCTJRACYMINIMUM VARIABLE BIASMAXINUH VARIABLE SIASMINIFBJM SCR TUW-OFF TIMEMAXIMUM SCR TURN-OPF TIMEMINIMJM SCR TURN-OFF CURRENTMAXIMUM SCR ‘NRN-OFF CURSENTMIN1,YUM SCR TURN-OFF VOLTAGEMAXIMUM SCR TURN-OFF VOLTAGEMM ItQ.J14COLLELTOR 3UPPLY VOLTP,GE
M. ./- COLLECTOS/t,NODe/DRAINN, DEVICE LINDERTEST pR~EmION0, DEVICE UNDER TESI LEADS SELECTABLEP, F I XED CAPACITOR CWPSNSATt ON0. SCR TURN-OFF TINE ‘TESIR INTERNAL BATTERY POWERS. 50 HZ POLIERT, bO HZ POLIERU. 400 HZ POWERv. 115V AcLt. 230V AC
us
NUt4BERPERCENTOHMSOHNENUMBERPERCENTVOLTSVOLTSSECONDSSECONDSAMPERESAfiPEi?EEVOLTSVOLTSVOLTS
●
.36
●
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I
●
II
W3D-SI’D-2121 INAVY )1 MWCh 1984
L!EAPON sY~EM ELECFRONIC TEST EQUIPMLNT PASAMEZERS
EIE NDUN NAME: ECHO BOXEZE GENERIC CODE: EBO
PARAMETER
1. HINIMVH FREQULNCi2. NAXIMJM FREQUENff3, FREQU~CY Accur+4m+. DIAL REsoLUTION
A WNED INPUTB, UNTUNED INPUTc. CRY5ZAL DIODE tHECKERD, RE50NANc5 rNDrcATION M~ERE. SENSITIVITY CC4+TRDLF. tlOZOR DR1Vt3i
wHEKIZHESZZHERFZHEK?Z
6. The Q required of the Em under working conditions.
7, lhe .,wi... VSWR to be ?.11o!u.6 of the EzE .x its input.
●37
~
5. INPUI l~EDANCE6, MINIi-mm LOADED Q‘7. VOW
G, 50 HZ PDUERH. 60 HZ PGWER1, 400 HZ POLIERJ. 115V ACK. 230V AC
C+MNUl!lERhlJMRER
Downloaded from http://www.everyspec.com
DOD-SD-2121 (NAVY)1 March 1984
WAPON L’Y21SM ELECTRONIC TELT EQUIPMS?W Parameters
BTE NOUN NAM7: 05NERATOR, DATb, TELECOMEIE GENERIC CGDE,: T%
~
I, I. 2K BPS DI FFES~ I ALLY rNcODmDIFFERENTIAL OUTPUT
2. 1. 2K BPS DIFFESENNALLY ENCODEDPDLARCUTm
3, n4xlhun VARIABLE DiFFsR~16LLY2?WODEDPOLAR ‘W’IWI
+. i-fmrhurn VARIABLE DrFFER~lALLyENCODEDPOLAR O!UTPGT
5, FREGGL’NLWEHIFTXEYED AUD1O PREQUBWYMAXIMUM GUTPGT LEVEL
6, FREQUE3Jl%Zli1m-X2YED AUD1O FRECVJ~~MINIHUM OUTPUT LEVEL
7, FSEQUENCY-SHIFT-KNED AUD1O FSEQUENCYOUTPUT LzvEL ACCURACY
8. FRE0UEN17-51i1EP K~ED 850 HZ CSNTERFREQuENCY
9, FREQUENCY-%1 FI-KSYED 20o HZ CWTERFmWJmcY
A. PRDGRAi-flABLERFAD DNJ,Y MEMC@Y(PROM)B, STEADY SPACEC, sTFADY Fc4RKD. REVERSALE. CLEAR FOX MESSAGEF. ENCRYPTED FOX MESSAGEG. L+4cRYFTEDCYCLEH, POS1lIVE SENSE KZY1. NEGATIVE sm6E KEYJ. HI DC DRY KEYX. LOU DC LIEI XEYL, DIsIO~lON Z.4MPil. ANALOGN. DIGITAL0, PGmflBLE? ’45.5 BPS VARIABLE DIFFERENTIALLY
ENCODEDpOMR OuTPuTQ, 75 BPs VARIABLE DIFFERENTIALLY
ENCODEDPDLAR UGIPUTR. 150 BPS VARIABLE D1FiERFjiT I ALLY
ENCODEDPDLAR OUTPUT
N-
yg
VOLTSP3AX-PEAK
d3m
d6m
dFm
dsn
dsm
dzm
HERTZ
HERIZ
10 fREGVtl!12-%lfl-X ffED 05 HZ LDWCHANNEL FREGUENCY
11, FREQUENCY-SHIFT-KEYED 85 HZ HIGiCHANNEL FREQUENCY
12. FREC?JENCf-3HlFT-KEYED 85 HZ NUMBEROF CHANNELS
13. DC LOU L2vEL DRY KEY OUTPWC
1~. ~WT BIT RATE SPEED ACCURACY15. MAXIIQJM VARIABLE TIMING D1sTOETION16. MINIMUM VAR[AtiLE TIMING OILTO~ION17, 1.2K sps DIFFERENTIALLY ~CODED
DIFFERENTIAL OUTPlfI lilPEDANCE1S 1, 2K BPS D1FFEREN’CI ALLY ENCODED
POLAR OUTPUT IMPEDANCE19. VABIASLE DIFFERENTIALLY SNCODEG
PGLAR DUTPUT IMPEQANCE20, FREGUEiCY-SHIFF XSYED OUTPUT
lNPEDANcl
FNCODEDPOLA‘1. 600 BPS VARIA
FNCODIu. 1260 SI
mcomV. 2400 S1
ZVCOD1U, 4800 BI
ENCODEDPOLAR OUTP(L’
s. 300 BPS VARIABLE DIFFEREVTI ALLYAR OUTPUTABLE DIFFERENTIALLY
)ED POLAR OUTPUT!PS VARIABLE oIFFERSNTI ALLYlED PGLAR OUTPUTIPS VARIABLE DIFFERENTIALLYlED POLAR DUTPUT)PS VAR1&SLE DIFFERENTIALLY
X. 9600 BPS VARIABLE OIFFERENTI ALLYEXCODED POLAR OUTPUT
‘f. IEEE{ 488z. l~ERNAL SATIERY POIJER
AA, 50 HZ POIJERBB. 60 HZ POWERCC. 400 HZ POIJERDD. 115V ACEE. 230V AC
~s
HEKCZ
HERTZ
NUHBER
VOLTSPERCENTPF.SC2NTPERCENTOHUS
OHME
oHMS
OHMZ
38
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● DOD-SID-2121 (NAVT)1 i-larch 1984
LIFAPONSYSIELI ELECTRONIC TELT EQGIPNENT PARAM~ERS
ETE NWN NAffS: G~ERATOR, D151GR11DN, TIY~E G3NER1C CGDE: 1S0
●
PARAMEIER =
6AULISBAUDSBAUGESAUD5PERCEWPERCENT
PARAMEIER
7. D1STOSTION RESOLGTION8. BEST BIAS D15TORTION ACCURACY9. ENG D1STOKI1ON
10. CODE BITS11. ‘IESI MESSAGE MRACTERS
m
PERCENIPERC2NTPEFS~NGMSERNGtlSER
A. EVEN PARITYB. ODD PARITY;: NWTRALD. POLARE. HICdi LEVELF. LW LWELG. GYNCNRDNGGSH. A5YNCNRDNMIS1. INTERNAL LCJ3P2GPPLYJ. FOx M2SSAGEX. PRCGWBLE MESSAGEL. ffOS5E CDDE UGRD
Il. lTA NO-2N, US ASCII0. F1 ELDATAP. lTA NO-5Q. E1& RS-232R. 1EEE/488S. INTERNAL SAITEBY‘f. 50 HZ POWERU. 60 HZ POWERV. 400 HZ PGWERU. 115V ACX. 230V AC
POWER
5,6. Sias distortion i.q the uniform shif r ing of Posir?: e-going Transitions from their proper posit ions inrelation to the start pulee.
9. A fhif ting of the ends of !11 marking pulses of a star t-stop teletmewiter .ig.al fm. their yoperPOSI11OW relative to the Qewmins of the start pulse.
N. American Standard Code of 1nfornat ion Interchange
s. Applies to source power, not 100P 6UPP1Y.
39
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GUD-STD-2121 (NAVY]1 March 1984
WEAPONSYSTEM ELECTRONIC TESC EQU1PM?2iT PARAMETERS
EIE NOUN NAME: GENERATOR, FuNCIIDN [ INCLUDES SPECIAL TYPES SWIH AS SAUTOIYIS, SINE NAVE, AND RAMP)ETE GFNERIC CODE: GE7
PARAMEIEB
;:3.4.
5.6,1,8,
1::
A.B.c.D.E,f’,
$1.
L4X1FIUM SINE-WAVE OUTPUI LEVELMINIM-IN SINE-UAVE UJTPUTLEVELOUCPUT LEVEL dCCUSACYBESI RATED D1STORTIONOUTPUI IMPEDANCE!!AXIMJH SQUARE-UAVE QUTPUT
CONTINVOUS FREQUENCY1EEE/4ssCONTINUOUS LEVEL ADJUSCSWARE-WAVE DWTPUTTRIANGLE OUTPUTsYNC-PULSE OUTPUTSYNC-LOCK INPUTSY~EIRY CONTROLSEP ATTLVUATOR
HERTZHESTZPERCENTPARw
MILLION/HOUR
VOLTSVOLTSPERCE4CPERCENTonnsVOLTS PEAK-
PEAK
2. A minimum f req.ency of dc shall be indicated by a zero,
~ u-
11, MI NIMJM SQUA!4L-W4VEOUTPUT VOLTS PEAK-PEAK
12. !LAXIMJH RAMP OUTPUT vOLTS PEAK-PE.4K
13. MINIMJM RAMP wTFUT VOLTS PEAK-PEAK
14. M4X1MUMTRIANGLE oUTPUT VOLTS PEAK-PE.4K
15, MI NIMJM TRIANGLE OUTPUT VOLTS PEAK-PF.AK
16. M4X1MUFI PULSE OUTPUT VOLTS PEAX-PEAK
A. A generator is considered to have a cent im+o.s output frequency if it covers .11 frequencies beth!een theminimum and ma~imum s?ecif ied output freq.encles. when a co”tirmously variable frequency is rewired, a. “x”is entered, A synthesized generator is generally not considered to have a COnt in.o. s 0.tPUt.
40
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●
PARA~ER
WD-SD-2121 (NAVY)1 UIrch 1984
WEAPONSYLTEM ELECIRDNIC TEST EQU1PM51W PABAM~E8S
LTE NWN NAME: GENERATOR, NOISEEIE G~ERIC CODE: GE3
1, MINIlfJM YRE@JENCi2, MAXIMUM FREQUENCY3. MAXIM.IM FREQu5NCY DRIF1’
4. OVTPUT LE#EL5. OUTPUT FLATNESS6, POfJER DENSITY
F, DELAYED BINARY OUTPUTG. VARIABLE AITWJATORH. STEP ITLTENUATOR
HERTzHERTzP4Frrs/
HILLIDNVOLTSDEC1SELSVOLTS
SQUARED/HERTZ
7.8,
1. lEEE/488J, INTERNAL BATTERY p~ERK. 50 HZ pOIJERL. W HZ PO!JERM. 400 HZ PWAERN. 115V AC0. 230V AC
DSCIBELSHENRNUI’I%ER
Utfils
SECDNQSNUMRERNVlfSES
●5. The total var iat iofl of the ZTE wdtput Iev’al . . ..ss the frequency band expeeeed w a ratio between minimumand Iin Himumoutput levels. For eX&2p1e2 a requirement for ./-5 dS flatnees from a reference level shall berecorded as 10 dB.
7. In reference to a roise generator, the retio of its noise pouer output to thermal power it? called the excessmise ratio (ENRI in 6R,
~ 15. The W.ximun VZIJR 10 be allowed of the ‘FIT at ita output ehall be indicated.
I “
‘o41
Downloaded from http://www.everyspec.com
DOD-SfO-2121 [NAVY]1 March 1984
W.4PON SYSTF,i ELECISONIC TEsT EWIWENT PARAMETERS
ETE NDUt4NAME: GE4ERATOR, PuLSE~E G~ERIC CODE: 0E2
1. MINIlllM PULSE RATE2. H.4X1~ PULSE RATE3, BESI PULSE RATE ACCURACY4. MINIDUM FIILSE OU’TFW
5. MAXIMll WLSE OWPUI
6. BEST OUIPUT PULSE LEVEL ACCURACY7, OUTPUT IMPEDANCE8. MINIMJli RISE TIME9. MIN1~ FALL TFM2
10. i11N114Jl! PULSE UIUIH
A. POSITIVE PULSE ~PU’CB. NEGATIVE PULSE O+JTPU’CC. SINGLE PULSE CAPABILITID, DUUBLE PULSE CAPABILITYE. NUMSER OF PULSE OWPUTSF. GATED OPERATIONG, ADJUSTABLE RISE TIHEH. AD3u.$TABLE FALL TIME1. ADJUSTABLE PULSE DURA’TIONJ. PULSE sYNC FROM EXTERNAL Sl~AL
HERTZHESTZPERCENTVOLTS PE.4K-
“FAKVOLTS PEAK-
PEAKPEscEmOmsSECONDSSECONDSSECONDS
17. ~xIMUM PULSE ABERRATION18. U4X1MJM SYNC OUTPUT SIQ+AL
19, WXIMUM PoSITIVE OFFSn20. M4X114JII NEGATIVE OFFSET
NUMBER
S, 115V ACT. 230V AC
UNITS
SECUNDSPERcENIPERCENTSECONDSSECWDSPERCENTPERcEt+TVOLTS PEAK-
PEAKVOLTSVOLTS
7. Uhen both the output imDedance and a .inin.. acceptable load resistance are required, the highervalue ehall be entered,
42
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o
I
DOD-SID-2121 [NAVY)1 March 1984
LIEAPDNSY~51f ELELTRON1C TEST EQU1Pm PAWMsrEBS
STE NWf4 N~: GE+ER?+TOR,PULSED CARRIER
flE G~ERIC CODE: GE8
PARAM!3ER m= pASA~ER
1. tiAXI~ CARRIER FRErWENCf2. MIN1f’R31 CARRIER FRECUFZ4LY
HC~Z 8. W-OFF RATIo
3. SE= E’RP.wWU AmRACyHE~z 9. iZ4XlhUM PULSE RATE
4. MAX1!9JFIRF mmPERCENT 10, M1Nlf9Jfl PULSE Mm
5. RF DWZPW ACCWWYVOLTS 11. BEST RISE T1f13
6. tiAXIHUl! ATTENUATICNPEsC~ 12. BEsZ FALL TIMF
7. RF OUTPUT ImEDANCEDECIEELS 13. M4XiMUN PULSE u1~OHffs 14. tllN1lRJM PULSE u1fmli
A. cu OPER.4T10NB. SYNC OUTPU H. ADJUSTABLE PULSE u1crm
c. EXTEFMAL TRIGGER INPUT1. INTERNAL WITERY POWER
D. ESTEFWAL PULSE MODUL.&T1ONJ. 50 HZ PCiJERK, 6’2 HZ pOUER
E. SEP .4nmAT0R L. 400 HZ POUESF, VIDEO PULSS SUTG. ADJUST.48LE PULSE ~TE
M. 115v ACN. 230V AC
DECIBELSHEmzHE~zsECU!W3SECUNOSSECilW3sEWN
2. A minimum frequency of Oc shall be indicated by a zero
8. The ratio required betueen the levels of the carrier “hen it is pulsed UN and vhen it is pulsed OFF.
o
For the ‘,Parameter Value Required by System,, value, lhe mini.un ratio required of the EIE shall be entered. POIthe ,,Reco,qmended Maintenance FCE P&rameter,, value , the maKi.um capability of tbe FTE shal 1 be entered,
,,
●43
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DOD-STD-2121 (NAVY)1 March 1984
WEAPONSYSTEM ELEcIBONIC TEST EQUIPM~ PARAK2TERR
~E NDUN NAM% GZWERATLIR,S1GNAL, W21E GmERIc cODE: GEO
~
1, tfAXIMJH OUTPUT EREQULWi2. MINIMUM CHJTPUTFRWJENCY3, BESI RATED FREoUZNCY ACCIJRA~4. BEST RATED FREQUENCYDIAL ACCURACY5. BEST RATED FREQUENCYSTABILIIY
6, BEST FREWFNLY RESOLUTION7, FREQUENCY RANGES8. MINIPRJM FREQUENCYOVERRANCE9. MAXIMUM OUTPUT LEVEL-RIG
10, HINIMJ,Y OUTPUT LEVEL-RMS11. BE31 RATED AMPLITUDE ACCURACY
A. CONTINUOUS FREQUENCYB, CONTINUOUS LEvFL ADJU51C. RYNTREsIZERD. SYNC LOCK INPUTE, STEP ATTDWA’CORF. OUTPUT MONITOR0. SYNC PULSE OUTPUTH LO WL2VEL OUTPUT1, REFERENcE OUTPUT
N-
W
HERTZHERTZPERcENTPERCENTPARTs/
IftLLtoN/HOUR
HERTZNUHBERPERCENTVOLTSVOLTSDEC1BELS
PARAMETER
12, OUTPUT LEPEL FLATNESS13. BEST AMPLITUDE RESCILUTION-SMS14. WXII’IJM DUTPGT A’LTENGATDRSSTf’lNG15. tlJNJMUM CUTPUT ATENUATOR SETTING16. BEsT RATED ATT2NUAT0R ACCURACY17. ATTENUATION PER STEP18. BEST RATED D13ToKTION19. FLAX1!NJMH4RNoNIc DISTORTION20. WXIMUM $PuR1oU$ OUTPUTS21, MAXIMUM OVTPUT RIM22. MAXIMUM OUTPUT NOISE23, aTpUT lMpEDANcE
J TRACK[NG OmPu’rK. DIGITAL READOUTL. lEEE/488N, INTERNAL BATTERY POWERN. 50 HZ POWER0, 60 HZ POUERP. +00 HZ POLIERQ. 115V ACR. 230V AC
1. A minimum frequency of d. shall be indicated by a zero
2, Appliee to those ErE usinz a dieital or numerical frequency readout device, The valuerequired of the ETE shall be indicated.
3, Applies to those EIE “sins a single-band or .“lt iband fma.uency tuning device, 1ndicate thevalue required of the ETE.
18, Appl i.. to .Onsynlheeized eQ. iDmi?nt.
19, a, Applies to bytheeized equipment.
A. A generator i. considered to ha.. a conti..o”s output freQ”ency if IX covers all frequenciesbettieen the .inimum and maxi... specified o.CP. t freq.ef?cie~. tihen a Co.tinuo.ely variablefrequency is reQ”ired$ an ,x’ is entered. A synthesized generator is eenerally not considered tohave a continuous output,
B. An X shall be entered if the ETE O.tD”t level is required to be continuously adjustable. h stepattenuator is “.1 considered to be coru i“uo,, sly ad j“etable,
@
PERCENTVOLTSDECIBELSDEC1BELSDECIBELSDEC1BELSPERCENTdBcdBcPERCENTPERCENTDHM2
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GGD-Sf D-2121 [NAVYI1 )L3,Cil 1984
LIEAPONmm-i ELECZRONIC TESI EQUI PME3+TPARMIETERS
ETE NOUN NAME: GE4ERATOR, SIGiAL, MICROWIVEETE GENER1C CODE: GEA
1. ?IAXIM.IM OUTPUT FREQUDWTY2. MINIM.IM OUTPUT FREQUENCY3, BEST RATED FREIWENCY ACCURACY4. BERT SATED FREQUEINZi lNDIcATOfl
ACCURACY5, BE5T RATED FREQU53PCYSTAB] LITY
6. MA.XIWM 0uTPD7 LEVEL7, illNIMJM OUTPUT LEVELB. ~XltTdll UNCALIBRATED OUTPUT LEVEL9. BEST OUTPUT LEVEL FLA’TNE5S
10. PktX1tflJMOUTPUT A’ITENUATOR SEI’TING
11. fllNIMJM OUTPUT ?alTENUATORSSTIING12. BELT RATED OUTPUI LEVEL ACCUXWV13, OUTPUT IMPEDANCE14. M4XIFI.IM PULSE REPEI1’flON RATE
15. tllNIM.Nl PULSE REPETITIUN RATE
a
HE~ZHERTZPERCET2pERCm
SLTfINGP.4KTs/
lil LL1ON/HoUR
dBmdBmdBnDEC1BELSDEc1BELSDEC1BELSPERCENTOHMBpULSES/
BECONDPU1.SES/
SECOND16, MAXIHQil PULSE bll DIH SECONDS1’7, MI NIMJM PULSE IJIDIH SECONGS18, P14X1ilJM INTERNAL HUDULATION FREQUENCY HExTZ19. ulN1~N lNIERNAL MUDULATIDN FREQUENCY HE~Z20. MAXIMUM ON-OFF RA’11O DECIBELS
A, lN’TEPWAL PULSE MUDULATIONB. INTERNAL SQUARE-LMVE NODULATIONc, lNTERNAL mD. INTERNAL AHE. EXTERNAL WLSE MoDULAT1ON2’. EXTERNAL SQUARE-WAVENODULATIONG. EXTERNAL mH. ESTERNAL AM1. STNC OUTPUT SIGiALJ, DELAYED STNC OUTPUT SIINALK. EXTERNAL SYNC INL, UNCAL1BRATED RF OUTPUTil. AUXILIARY MODULATORN, MODULATORlNTEXNAL SQUARE-WAVE
MDDUT.6T1S?40. MODULATOR1NTERNAL PULSE MuDULATION
p. M13DULAT0RlNTEWAL mQ. MODULATORl~ERNAL AMR. MODULhTOREXTERN&L SQUARE-lJAVE
llODULAT1ON
PARAmER
INTERNAL M02WLATICN FREGUFN335. EXTESNAL MODULATORMIN1~M
INTERNAL MODULAT1UN FREWENff36. EXTERNAL tlODULATORMAXIWJtl PULSE
UIDTN37, EXTERNAL P103ULAT0R MINIMJN PULSE
WIDTN38. EXTERNAL MODULATOR!14X1MJTI lNTEFNAL
PULSE DELAY39. EXTERNAL MODULATORMIN1!UUI lNTEFJJAL
PULSE DELAY
S, HODULATORE.TERNAL PULSE HODULATION
T, MUCULATUREXTERNAL FMU MUGULATOREXTERNAL fillV. CONTINUOUS FRE12uE)uXV WNTHESIZED OUTPUTX, CONTINUOUS LEVEL ADJUZTY. CONTINUOUS NODULATION LEVEL ADJUSl
Z. STEP A3TDNJATORM, DIGITALINUNERICAI. FREQUENCYDISPLAY
68, DIOITAL/!WNERICAL AflPLITGDE DISPLAY
cc, lEEE/4s8DD INTERN#IL BATTERY PULIEREE, 50 HZ POLIERTF. 60 HZ POWERW, 400 HZ POLfERHH. 115V AC11, 230v AC
G
PERCFNTHERTZHERTZSECONGSVOLTS mSECOND2TYPEPERCEN8dkdBcHERTZHERTZHEIWZHERTZ
HEIWZ
SECUNDR
SECONDS
SECONDS
SECDNDS
3. Apulie, to ‘iTE using a digital or numerical frequency readout device. The value required of the ETEshall be indicated.
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DOD-3rD-2121 [NAVY)1 ffarch 198’4
WEAPON3YST~ ELECTRONIC TEs EQUIPNENT PA8AMDERS
EIE NCUJNNAME: GfllERATOR, SIGNAL, MICROWAVEE?E GR4EI?1C CODE: GE4
4. Applies to ~E wing a single-band or mulriband frequency tuning device, The value required of the E7Estill be indicated.
6,7. Output level is rhe calibrated ourput signal level from the ETE. The lmeest and snalleet values requ imfof the EtE shall be entered in thb appropriate epa.es,
1+,15,16,17, Applies to ETE with internal pulse modulation, 1f internal pulse mod.lat ion capabilities arerequired of the Em, the value required shall be entered.
20. kppliee to FIE uith inwrnal square-wave .od”lation. 1 f thi. CapaDili Ly is required of the nE, therequired values shall be entered.
29,30. Applies to eynLhesized 3rE. If a synthesized ETE item is required, the values required mall be entered
32,3+?,34,35,36,37,38,39,N,0;p,Q,R,5,T,u. lf the EE is j-eq”ired m tive m external modulator, therea.”menents of the e.ter”al .Od”lator shall be entered.
V. A ee”erator is considered to have a continuous output frequency if it cover’s ?.11 frequenciesbetween the .i”in.,q and maxia.m epecif ied m,tpt frequemiee. Llhen a Omtinuowly variablefrequmcy is required, a“ ,X,, i. entered, A eyntheeized generator is generally !?.[ considered[0 have a cent invow outmt,
‘i. An X shall be entered if a cent itnm”sly ad justahl.? output level i~ required of the CIE, A stqattenuator is not considered to be continuously adjmtab l.,
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● GUD-ZTD-2 L21 [N,$VY)1 n?.rch 1984
WEAPONSYSIFii ELECTRONIC T2SI EQUIPNENT PASAMFIERS
EIE NGGN NAME: GFNERAToR, SIWAL, RADIO FREGUENL!YE2E GENER1C CODE: GEB
PAS4MEIER
A. DIGITAL FREQUENCY DISPLAYB. NUilER1CAL FREQUENC?DISPLAYc. mOtmPM+EL KEY80ARD FREQUENCY
TIININGD. CGNTINUCHJSFREQUENWE, STEP FREQUENCYF, ZTEP ATTENUATORG, CDNTINUWS LWEL ADJUSTH. DIGITAL ZWEEP1. AUTOM4T1C WEEP
S. EXTERNAL FMT. l~EWAL pULSE MODULATION
HERTZHESIZPERCR+TPERCENTHERTZHERTZ
HERTZVOLTSVOLTSPERCENTDEC1BELSdBnd6m~BERDEC1BELSOHMSNWIBERHERTZHERTZHERTZHERTZPERCENT
23. BESC AM ACCURACY24. i14XlMJM AM DIZTOKC1ON25. n4xim EXTERNAL m FRE12W3WY26. MINIMG?l ESTERNAL FM FSECUENCY27. i-uxlmII m DEvlATIGN28. M1N1MJ71FM DEV1ATION29. BEZI m DEVIATION ACCURACY30. MAXIMUTI ‘fU D1STORTION31. MAX1MU14RESIDUAL TM32. PL4X111JHRESIDUAL API33, P!AXIMJM SPUR1OUS SIGNALS OGTPUI34, M4X1MJI lN’TERNAL PULSE MODULATIGN
FRH2GWCY35. mfNlfm iiTERNAL PULSE MODULATION
FSEGWNCY36. IIAXIFNJM EXTERNAL PULSE MDGGLATION
FSEQIJENCY37. MIN1ff.lM EXTEHNAL PULSE HODULATION
FREQUEWY38. MAXIMJM RISE TIME39. M4X114JMoNIC;F SATIO40. MAXIPIJM REVERSE POUER PROTECTION
U EXTERNAL PULSE MODULAT1ONV FREQUENCYPHASE LOCKW lN’IERNAL FREQUENCYCOUNTERX lNTEFWAL VARIABLE AUDID oSCILLATOR
“,m.!m. . . . . .Y INTERNAL FM DEV[ATION METERZ. LYNTHES1ZED OUTPW
AA. AUTOMATIC LEVET. COhTRlll.BB lNIERNAL PHAS;E MODULATIONCC. EXTERNAL PHASE NODULATIGNDD. 121G1TAL OGTPUT LEVEL INDICATOREE. sfNc puLsE ODTPGTFF. SEFERENCE OUTPUT(7G. TRA?KING OUTPUTHH 1EEE/4SS11, INTERNAL BATCERY PGWERJs. 50 Hz pOUERKK. 60 HZ POIJESLL.4D0HZPoWERm. 115VACNN.230VAC
=
PERCENTPERCWHEKIZHES2ZHESTZHERTZPERCENTPERCWTHESTZdBcdscPULSES/
SECDNDPuL2Es/
SECDNDPULSES/
SECONDPULSES/
SECONDSECONDSDEC1SELSVOLTS RMS
3. Applies to ZTE wing a digital or numerical frequency reado”l device. The value required of the ErE hallbe entered.
4, Applies 10 EIE using a single-band or m“ltiband frequency tuning device, The value required of the EIEshall be entered.
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DoD-STD-2121 [NAVYI1 March 1984
WEAPONSYSIEM ELECIRON1c TE51 EQU1PNENT PARAMETERS
ETE NOUN NAME: O~ERATOR, slWAL, RADI0 FBEQUEiCiETE GENERIc CODE: GEB
8,9. Gutpur level is the calibrated output eig.al level from the Em. The smallest and largest values requiredof the EIE shall be entered in the appropriate spaces.
11, The total variation of the EIE output level acroes the freq”en.y band expressed ,%3 a ratio betueen minim..and maxim”. o.tp”t levels. For example, a req”ire$ient for ,/- 5 dB flatness from a reference level shall be re-corded w 10 dB.
17. The worst-case VSLIR that can be tolerated from the ErE sNall be enterea.
B. An X shall be entered if “s. of thumbuheel tuning is required of the EIE
D, A generator is considered to have . . ..? inuous output frequency if it co.ers all frequenciesbetween the minim! and maximum specified output frequencies. when a co”tin.ously variablefrequency is required, an ,X, is entered, A sy”theeized generator is generally “ot cortaideredto ha.. a continuous output.
G. An X,, shall be entered if a continwaely adjustable output level is required of the EIE.A step attenuator is not considered to be contitmusly adjustable.
H, 1, J, K. An X shall be entered for the appropriate sweep. if digital sweep capability is required of the ETE.
L ,M,N lo. 1f frequency stepping capability is required of Ihe EIE, an ,x eh.all be entered for the a221icab1efun. t inns,
u. 1f the EIE is required to ha”. an internal frequency counter that c.” read internal and extermlfrequencies, an ,X,, shall be entered,
o
Y, 1f the ErE i. required to ha”. a“ internal deviation meter that m“ read ezter”al FM deviation, an‘ x shall be entered.
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cOO-srD-2121 [NAvy)1 March 19S4
WEAPONSYSfEM ELECTRON1C TE~ EQU1PMEil PABANETERS
ETE NOUN NAHE: GEWERATOR, SIMJLATOR, RAD1O FREQUENCYEIE GENERIC CODE: GE9
A. DIGITAL FRECUmCY DISPLAYS. LE-MF-HF VARIABLE FREQUENCYC. NlJ7%ER OF uHF FREQUENCIESD. DUAL RF OQTPUTE. DOUSLE SIDEBAND 3UPPRESSED RF
CARRIER OUTPUTF. CONZINUOUSLY VARIASLE OUTPUTO. ’75 BITS PER SECOND DIFFERENTIAL
POLAR lNPLTlH, 1200 BITS PER SECOND DIFFERRWIAL
POLAR lNPIJT1. SLQW FADEJ. FAS FADE
UIJ
HESTZHESTZHERTZHERIZ‘mmdimDECISELSdBmdBmDECISELSHESTZ
NUMSER
PARAMLTER
20. AF INPUT l~EDANCE21. lNTEFliAL STANDARDFREQUW7Y22. INTERNAL SANDASQ rREwmm AcmRAff
K. M.NIJAL FADEL, DIVERSlTY FADEM. EXTEW4L AUDID FREWFNIX INPUTN. EXTERNAL AuD1O MODULATING smRcE lNpm0. AuD1O FBEQUSNCY INDICATORP. EXTESNAL FREQUENCi 51ANDASDQ. lNTEmAL 6AITESY PQUERR, 50 HZ POIAERS. 60 HZ POUEST. +00 HZ POIJESu. 117A 6CV. 230V AC
e
HERTZdsndSndhoDECISELSHESTZHERTZah0Hi13HESTZPERixNT
1,2,5,6,7, ,,LF-~-HF output, refers to an output covering the frequencies generally classified as belongingtothese bands.
3, +,8,9, 10. UHF outpu t,, refers to . . output Imving frequencies generally classified as belonging to this b8nA
1,3,17, A mini... frequency of d. shall be indicated by a zero,
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DOD-=D-2121 [NAVY11 March 1984
!JE,4PDNSYS211 ELE~RDN[C TZ= EQUIP~T P.ARANETERS
EIE N@JN NAME: GENERATOR, SQUARE WAVEEIE GENERIC CODE: GSIJ
1. NIN1~N ERECdJ~~ HESTZ 10. FL4xlm OUTPUT2. MMII’NN FREoUENCY HESTZ 11, DU’TPIJTACCIJRACY3. FREQUENff ACWRAW PERCErW 12, DUTPUT lHPEDANCE4. RISE TIME SECONDS 13, lil NIMIJM SYNC INPUT5. F4LL TIME SECDNDS6. ASERSATIONS PERcENT 14. NAXIMUM SYNC INPUT7. MINII’MI DUIY CYCLE PESCEW8. MAXIMJFI DUTY CYCLE PERCENT 15. TRIGGER OIJTPUT9.MINII’V.UIDUTPUT VOLTS
W
VOLTSPERCENTOHMEVOLTS PEAK-
PF.#.KVOLTSPEAK-P~K
VOLTS PEAK
A CONTINUOUS FRE12U&WYB. FASl RISE OUTPUTC. HI AMPLITUDE OUTPUTD. 2Y~RY ADJUSCE. VAR1A8LE oimmF. TRIGGER OUTPUTG. sWC INPUT
H. lEEE/4881. 50 Hz POIJERJ, 60 Hz PDWERK. 400 HZ POWERL. 115 VACM. 230 VAC
NDIES:
1. A .inim.n frequency of de shall be indicsted by a zero,
A. A E. Wr.t.r i. considered to have . contitmaus o.tD.t f req.e.CY if it cover. all freQ.e!>c ies between theminimum and maximum specified output frequencies, LIhe” a COnt inuo. sly variable frequency is req” ired, an ‘,X’,is entered. A synthesized generator is generally not Considered to have a cent in . . . . output.
,—— ‘—-/___
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1
● UE4FON 5Y5Ts!4 ELELTR@NIC TESZ EQUIPtfENZ PA=ERS
o
2TE NIWN NAilE: GD4ERATOR, S14EEPFTE GENERIC CODE, GE1
PANAf4EZER
1. lblxIWfl ~~ FBEwF2+c’f2. M1N114JMCWZP.SCFREwE4u3. B~ FREGIJFNCYDIAL RESOLUTIDN4. ~ MODE FREUUENCY DIAL ACCURACY5, lb4XIMJ!i DISPMY LINFARITl6, LU MODE LTABILITY7, mx1!WM WEEP LIIUIH8. MINIMJM 9JEEP UIDIN9, M1N11W4 EWEEP T1lfS
10. t@XI,WM ~EEP TIME11. P14X1PllM COTPUT LEVEL12. MINIWM DUTFIJ’CLNEL13, oUTPUI AT12NUATOR SIEPS14, BESZ OWPUT ATZ53WATOR ACCURACf
A. CONTINUOUS FREWLNCfB. SCAST-STOP OPERATl@!C. INTERNAL MARXERSD. 1EEE/488E. ~ w3DEF. Pm LIFI’O, IFWERNAL 3YNC OUTPUTH. EXZEF#AL 5fNC INPUT1. EXTERNAL AU INPUTJ. EXZERNAL FM INPUT
HES12HERZZHERTzPERC~PERCWCPERC2ti_z/liOURHERTZHESTZSECONDSSECUND2VOLTSVOLTSNUMSERPERCEt41
15.16,17,18.19,20,21,22.23,24,25,26,27.28,
x,L,M,N,0,P.Q,R.s,
u3D-zzD-2121 lNAvYl1 March 1984
INTERNAL MARKERACOJR4WCU BDDE MAXIFDJMAMCU NODE M4X1WM FMM4X11’OJMDISCRSZE AM FR2uU2NCfMIN1fQJM DISCRSZE AM FREQUENCYN4X1M.IM D13CRS7E 1% FREQU~~MI NIIWM D1SCS2TE FM FREQUENCYMAXIMJM VARIABLE MDDULA11ONFRE@JmcYmIN1mf VARIABLE M00uL4T10N mmuswciK4XIMUM SFUR1OUS SILWALSHAXIM.lM RES1DUAL EMIfAX1f4JN RES1DUAL At!O~PUZ IMPEDANCEovzPuz FLATNE32
RF BLANKINGfiOBIZONTAL WTPUCEX’ZERNALPIARXER INPUTINTERNAL SAITERY FUMER50 HZ POLIER60 HZ POWER400 HZ POIJER115V AC230V AC
PEiv2~PERcENTHE~z-PEAXHE~zHEszzHE~zHE~zHEF(?zHE~zd@cHERzzdBcORMEDECISELS
—2. A minimum frequency of de shall be indicated by a zero.
6. The algebraic sum of allou%ble frequency instabilities during operation in the Cil node uirh:
a. ‘kmperatu:e variation from 15 C m 35 C,b, ./- 10% lme volta~e change.c. 10 L5Bpower a tpu t change.d. Tim drift per hour after 1 hour warm-up,
11. The highest output anplitude required of the ETE
12. me lowest output amplitude required of the ETE
28. ma total allowable variation of output mplitude during sweep, expressed as a ratio betwen minim.. andmaximum output levels. For example, a Z’equiremenr of ./- 5 dB flatness frm a reference level fdwll berecorded as 10 m.
A. A generator is considered to have a continuous output frequency if it covers all frequencies between theminimum and maximum specified wtp.Jt freq.e!wks. men a mntimmwly variable frequency ie required, an ,xis entered. A synthesized generator is generally not considered to have a cmt inuo.s output.
S. An ,x, shall be mtered if indi.id.a]ly adjustable eueep start and stop are required,
51
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D3D-SCD-2121 (NAVY]1 March 1984
W..4poN Lwrm ELEmlfONIC TEST EriWPfiE.rr pAR~ERS
SIE NOUN NAME: GENERATGR, TIME !!ARKEIE GENERIC CODE: GE4
PARAMZTER W
1. MINIMUM TIME INTERVAL2, llAX1lfJM TIMS INTERVAL3. TINE lnERVAL ACCURA~4. MINI M.111F!ARKERLSVEL
SECONDSSECONDSPERcE+IVOLTS PEAK-
PEAK5. MAXIMJM PIARKERLEVEL VOLTS PEAK-
PEAK6, HINIMJM TSIGGER SANOE SECDNDS
!+. EXTEP.NAL REFERENCE INPUTB, ERROR READOUT INDICATORc. 1EEE/488D, INTERNAL BATTERY POUERE. 50 HZ PDWER
52
13. GUTPIJI rMPEDANCE
F, 60 HZ PDkIERG, 400 HZ P@uERH. 115V AC1, 230V AC
D
SECONDSVOLTSHERTZHERTZVOLTSpA~SiMl L-
L10N/MONTHCHM3
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EOD-=D-2121 [NAVY)1 March 1984
WAPON 2Y5TEll ELELTRONIC TEST EQU1PlffNT PARANECERS
~E NOUN NAME: OENERATOR, TDNE BUR5TETE GSXERIC CODE, GE5
1. MI N1illJH OUTPUT FREQuDJr7f2. MAXIMUM OUTPGT FREQU2NIX3. BELT FREQUENCYDIAL ACCURACY4. MIN1lflM sI13JAL lNFVT
5. MAXIWJM SIWAL INPUT
6, INPUT IMPEDANCE7, m4x1nTJMOuTPm L~EL
8. OUTPUT IMPEDANCE9, BEST RATED D1STORTION
A, INTERNAL GENEM,TORB, SYNC DIY7PUTC, SINGLE CYCLED. 1EEE/488E, DC OFFS~F, DIRECI ExTERNAL LKCLE COUNT MODE
= PARAMETER D
HERTZ 10, BE21 SATED FEEMNSCNGi D3CIBELSHERIZ 11. f’14X1FllJliTIMING FREQUENCf HERTZPERCEW 12, UAXIM.JN TIMING PULSE RATE PULSES/VOLTS PE-4K- SEL’O?JD
PEAK 13, !IAXIMJM lli-itNG INW VOLTS PEAK-VOL’TS PFAK- PEAK
PEAK 14. TIMING INPUT IMPEDANCE OHME0HM2 15. C-fCLE CCUNT MODE POSITIONS NUWBERVOLTS PEAK- 16. M;Nllf#LE C13UNCMODE ON-OFF CYCLES
PEAXDHm 17. MAXIMUM CYcLE cmrc HODE Gt-orr CYCLESpERC2NT INTERVAL
G. lNTEFNAL SAITESY POLIERH. 50 HZ PDUER1. 60 HZ POUERJ. 400 HZ POUESK. 115V ACL. 230V AC
1,~ mini...frequency of d. shall be indicated by a zero.
3. An N, ehall be entered if there is no requirement for ETE uith an internal zererator,
10. The louest ratio of output during OFF interval to output during DN interval,
.4. An ,,V shall be entered if the ETE is required to have an internally generated output signal. Saw co-calledtone burst generator are really gated amplifier. with no internal means of [email protected] e eignal,
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mD-2rD-2i21 (NAVY]1 Narch 1984
LIEAPONWSTEN ELEcIRONIC TEST EQU1PMH4T PARAMETERs
EIE NOUN NAME: G~ERATOR , TWO TGNEFIE G~ERIC CODE: GE6
~ W ~ =
1, l’lAX1iWli OUTPGT FREWE34W HERTZ2, MI NIMJM OUTPUT FREIIU~LT HERTZ ;:3, BEST RATED FREWEWY ACCURACY PERCENT 8,4, BESI RATED FREQUENIX STABILITY PARTSI 9.
MI LL’10N/ 10:HOUR 11.
5, MAX1ifJII SINE-WAVE OUTPUT LEvEL VOLTS 12.
A. CONTINVOUS FREQU~CY0. 1EEE1488C. CONTINUOUSLEVELADJU~D. 2TEP ATTENUATORE, 2YNC LOCK INPUTF. SYNC PuLSE OUTPUT
G.H.1.J.K,L.
_
2. A minimum frequency of d. shall be indicated by a zero.
HINIMJM SINE-LIAVE OUTPUT LEVEL VOLTSOUTPUT ACCURACY PERCENTGIJTPUT ATTENUATOR~EPS NUMBEROUTPUT IMPEDANCE 0HM28ES1’ RATED INTERMDDULATION D15TORIIDN PERCEVIBEST RATED HARMONIC D1SIORTION PERCENTi14X1MUil HUM dBc
INTERNAL BATCERY POWER50 HZ PUIJER60 HZ POI.IER400 HZ PoWER115V Ac230V AC
A. A generator i. considered to have a continuous output frequency if it covers all frequencies between theminimum and maximun epecif ied output frequencies. Llhen a continuously variable freq,,ency is required, . . ,x,,is entered, A synthesized ee.erator is generslly not considered to hwe a cont. irucw cutput.
C. ).. ,x,, shall be enterad if a continuously adjustable output level is rewired of the ETE,A step attenuator is not considered to be continuously adjustable.
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0
DOD-srO-2121 (NAvY]1 March :’284
uwmN w21F21 ELECTRONI c TEfl EW pMt311 PARA~ERS
ETE NUJN NABS: OENERATOR/ANALYZER, DI L-KISTIDN, *ETEGENERIC CODE: ‘2SC
1. HINIMJM 1NTEF$4ALSAUD RATE2. MAXIMJN lNTEFWAL BAUD RATE3. If IN1fsm EmEWAL SAUD RATE4. MAXIMUM EXTERNAL BAUD SATE5. MIN1f’JJN AVERAGE BIAS DILTOSTION6. !fAXIIE.lM AVERAGE BIAS DISCORCICN7. MINIMUM PUK BIAs DISTORTION
A. EVSN PASI’IYB. ODD pARIIYc. NEUTRALD, POLARs, HIQI L2VELF. LDu LEVEL0. wctiRDNcik7H ASWClfRC!UCHJS1. lNIERVAL LOOP SUPPLYJ FOX M3SSAGEx. pRDGR.AFE-14BLEMESSAGEL. MSSSE CODE WORD
mussSAUDSBAUDSSAWSPERCENTPERCEVTPERcENT
8. MAXIFSJMPEAX BIAS D1St0R21GN9, DISIOUTIDN RWSCN.lIT1nN
10, BE~~1 ----
1213, CODE SITS14, TE2C WBSAOE CtiARACIERS
T SIAS D1s0R210N AC13JRAL31, RID D1=DKIIDN2. Mxmum BIT ERROR cOuNT
l’!. lTA ND-2N, W ASCII0, F1ELDATAP 1’IA NO-5Q. EIA RS-232R, lEEE/488S INTERNAL BATCESYT. 50 HZ POLIERU 60 HZ POLIERV. 400 HZ POUERU, 115V ACX 230V AC
PERCENTPESCE.VIPESCENTPERC~NUMBERNVMBERNUMBER
5,6. Bias distort ion is the uniform shiftinx of posit ive-goine transit ioms from their proper POSi t ion inrelation to the start pulse.
12, ~e shiftine of the ends Qf all maruing pulses of start-stop teletypewriter sig.als from their properpositrons relative lo the beginning of the start p.lee.
N. American standard Code for Information [nrerchanee.
S, Applies to source power, not loop supply,
o 55
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DOD-SZD-2121 (NAVY)1 March 198q
WEAPONRYSZEM ELECTRONIC ‘IERZ EQUIPMENT PARAMETERS
ETE NOUN NAME: METER, AOiWTZANCEEIE G~ERIC cODE: BR4
e$RAIfE7ER
1. MAXlMUN INTERNAL FREQU~CY2. NINII’IJN INTERNAL FREQUENCY3. MAXII-WM EXTERNAL FREQUEWt4, MI NIcQ.JKEXTERNAL FREQUWITf5. tlAX1?lJPf RESISIANCE6, MINIMJM RESISIANCE7, BESI RES1STANCE ACCURACY8. M4X111UMCAPACITANCE9, HINllQJM CAPACITANCE
10. BESI CAPACITANCE ACCQF?ACY11, i-lQXIMJil INDUCTANCE
1. READS R+J FALTOSJ READS IMPEDANcE P14GNITUDEK, RUDS REFLE~l ON COEFFIC1 f34Z MACNITUDE
HERTZlfESTZHERTZHESTZOHMSOsnsPERCENTEABADSFkRABPERCKNTHENRYS
PARAMFIER
12.13,14,15.16.17,18.19.20,21.
HINIPIJM lNQUCZANCEBESI lNDUCZANCE ACCURACYM4X1MJN CONDUCTANCEMINIMUM CONDUCTANCEBE= CONDUCTANCEACCURACYM4XJI’IJN SUSCEFZANCEMINIMUM RUSCEYIANCEBESI 2USCEPTANCE ACL3JRA~MAXIMUN OPEN CIRCUIT VOLTS oUTli4x1MuM RSOSI CIRCUIT CURRENT
HMRYsPERCENTFllosmosPSRCmTi-mosi-wasPERC2NTVDLTSAMPERES
2,4. A minim.” frequency of dc shall be indicated by a zero.
20, l’he maximum acceptable voltage allowed to exist between the output terminals of the EIE.
21. The maximum current required to be available at the Q.cput terminals of Lhe ETE
A, IJhe” the EIE ie to be used to perform a tufo- Cermin.1 mesa.rement of a resistor, an ‘,X, shall be entered
B, An ,x’, shall be entered if a four- terminal resistance .easuremmt cambility is rewired,
56
-.
4
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● cr3D-sD-2i21 (NAVY)1 tfuch 1984
W.APON SYSTEM ELECIRONIC TEST EQUIPMEiT PARAMETERS
ETE NCUN NAME: MnER, F@EQ!JPNCYETE GENERIC CODE: FRO
,PARAM~ES
A, ACTIVES. PASSIVEC. HEIERDDYNED. A8SORPTION CAVITYE, NEcER INDICATORF. CRYSIAL CALISR.4T0RG. CONVER2.lCN CHASTSH. DIRECI READING IN FREQU~CY1. COAXIAL CONNE~ORSJ. UAVEQJ1DE CONNECTORS
HEsIZHERTZPERCEhTHERTZPERC~CDO1~ERSNuMRERDECIBELSNUMBERVOLTSVOLTS
PAEWWIER
12, MINIMuN GAIN (AUDIO AMP)13. HF2ERODYNE OSCILJATOS wxnnm
FSEQUEVLTY14. HE’IEROUYNE OSCILLATOR EINIMJM
3’REQU2NW15, AUO1O AI’PLIFIER P14X1tNll FREQUENCY16. AUD1O AMPLIFIER MINIMJM FRE12USNIX11. BESI DFTELTOR Ml XER SGWITIV1’IY18. M4X1hlJil HUM LEVEL19. ”lflNIM.IN DIP AT RESONANCE20. mxrmvn INPUI wlm0u_2 0Ati4GE
S. 230V AC
m>
DECIBELSHERIZ
HERIZUAT2SDECI SELRDECI 8ELSVOLTS
—~. An ,X, sbll be entered if, rather than indicating directly in frequer,cy, the HE it~ USe# a .~rt, uhichIS supplied, 10 interpret the correct frequency.
H, An ,V ,enall be e!tered if the SIE is to indicate the ~nput frequency directly’ i. term of freq.emyand not .Ith a dml mere.ent referenced to an interpolatmn chart.
<t
57
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DOD-SD-2121 (NAvYI1 March 1984
W.APON SY8TEM ELECIRONIC TE51 EWIPMENI PA_ERS
EIZ NOUN NAME: M~ER, GAIN/PlL4SEETE GENER1C CODE: GPO
PARAHEIER
1, MI NIMJN FREQUEVCf2. i4f,X111UMFREQuENCY3. MINIMJM LOO A INPUT LEVEL4. MAXIMJM LOG A INPU? LEvSL5. BESC LCG A AMPLITuDE ACCdWCi6. NINIWJM LOG B INPUT lEVEL7. MAX1M3M LOG B INPUT LEPEL8, SESi” LUG B AMPLITUDE ACCURACi9. MIN1tlNl LOG S/A lNPUI LEVEL
10. M4x1i.mn ma s/A INm2 LWEL11, iIE8r LOO 0/h m4PLrrunE RESOLUTION12. SE5T AMPLITUDE 6ESOLU21ON13. DYNAMIC RANGE
h. LOO A FUN~l ONS. LOG 8 FUNCI1ONC. L02 S/A IVNCHOND, 1EEE/488E. D101TAL READOUTF. VELTOR VOLTME?ERG. AU70M4TIC PHASE CONTROL LOCKH. SCD OUTPUT
m
HERTZHERTZdBVdBV.5BVdsvdSVdsvVOLTS RMSVOLTS RM2DEC1BSLSDEC18EL8DECIBELS
PARAMETER
14,15.16,17.18.19,20,21.22,23,
24,25.
1,J,x,L,M,N.0,
pHASE 8ANGEBE= PHAsE ACCURACYBERl PHASE RESOLUT10NPHASE OFFSEILIMNNEL 1SOLA’L10NNOISE TOLERANCE ERRORn.ixlm-l INpuT wlTHOuT OAmGEWORSTREsPONSE TIMEPHASE ANALOG OUTPUTANPLITUDS ANALOG OUTPUT
INpuT li5PEDANCElNPuT Capacitance
DIGITAL oUTPUTINTERNAL BArITERY pOIJER50 HZ pDMER60 IIZ POIJER400 !lZ POUER115v AC230v AC
DEGREEsDEGREESDEGRE!8DEGREEsDECIBELSDEGREESVOLTSSECONDSVOL1’S/DEGREEVOL’CS/
DECIBELOHMS
1, A. .inimm frequency of dc shall .be indicated by’ a zero.
13. The maxim.. ratio of Wo eignals simultaneously present at the input of the ETE. ‘l’he ETE shallReasure to the @pecif ied accuracy,
.
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●
.
mo-srD-2121 (NAVY]1 March 1984
UEAFW4 RY5TEll ELELTRON1C TESC EW21PM04T PARAtlEIERS
HE NwN NAHX: tIE-CER, GR10 DIPETE GENERIC CODE: GDO
PASAMSZER W PARAMEIER
1. MIN1~ FREQUSHCY HERTz 7. llINIMJM MODULNIQN2. U4XlfQJM .WEGGSNCY HERR S. E4X11’IJM I4ODULATION3. BESZ FREQUENCYACCURACI PERCFNI 9. tilNIIIUtl INPUT4, ,tllN1tlGtl RANGE WERLAP PERCCIT 10. MAXIMUT! lNFWI5. HIN1tvJM MGCUL4TION FREWJ~W HEK’Iz 11, MAXIilUM lNPWf UITHGUT DA)L4GE6. l14X1MJH UCIDULATION FREQUENCY HERTZ 12. MAXIMJM HUM LEVEL
A. ANdiOO MEIES 1ND1CATION H. INTERNAL BATTERY PWERB. SU S1(liAL 1, 50 HZ’ POIJESC. NODULATED W SIGNAL J. 60 HZ POWERn. E~ERNAL MODULATION K. 400 HZ PoWERE. SENSITIVITY ADJG5TMFNT L. 115V ACF. PLUG-IN COILS H. 230V ACG, PHONE JACK
1. A minimum frequency of d. shall be indicated by a zero,
59
=
PERCFNTPERCFNTVOLTSVOLTSVOLTSPERCfNT
Downloaded from http://www.everyspec.com
DoD-=D- 2121. [NAVYI1 March 1984
Ll~PON SYSTEM ELELTRONIC TEST EQU1PMENT PARAMETERS
ETE NCIJN NAHE: MEIER, IMPEDANCE, RAD1O FREQU2NCYETE GEIERIC CODE: H20
1. MINIMJM FREwmH2, M.4xl~N iREQU~W3. BEEI FREOUENCi ACCURACY4, l’MX1hlJP! RF EXCITATIQN LEVEL5. MININuM RESISTANCE6. )b4X1WM RES1mANCE7. BEST REs13TAiiCE ACCURAW8, HINIIIVM RES121ANCE SCALE IN(9. MINIMUM CAP.4C1T&NCE
10. !lAXIMJM CAPACITANCE11, BE32 CAPACITANCE ACD.lRiv2Y
HERTZHERTZPERCENl
-VOLTS
.&%PERCENTPERCENTFARAUSFARADSPERCENT
12.13,14.15,16.17.18.19, MI NIFWll DELTA Q20, FAXIMUM DELTA Q21. BE3T Q ACCURACY22, BE= Q RESOLWI13i
A, D1131TAL DISPLAY F,B. ANALOG DISPLAY G.c, lEEE/$88 H,D. 1NTERNAL BA~ERY POLIER 1,E. 50 HZ POIJER
60 HZ POWER400 HZ POWER115V AC230V AC
W
FARADSFARADSHENRYSHEXRYSPERC2NTNUMBERNUllBERNUM3ERNIMRERPERCENTNUMBER
1. A minimum frequency of ac ehall be indicated by a zero,
.60
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●
I
DOD-flD-2121 [NAVY)1 March 1904
ilE.APONSY5TEH ELELTRONIC TEST EW1 PM5NT PARIIMEIERS
ETE NGUN NAME: ~ER, lt@EDANCE, VECTORflE GflJER1C CODE: VOZ
PARAM~ER
A. SELF CHECKR, INTERNAL PHAsE M~ERC, GROUND1sOLATIOND. FREQU2NCY RECOROEROUTPUTE. ANGLE REcORDEROUTPUTF R? MONITOR OLTPUT0, lWEDANCE MAGNITUDE RECORDER
UNITS——
HERIzHERTzPERCEVTOHMSQHMsPERCENTUEGREESDEGBEES
PARANEIER
9. BESC PlfASE ACCURACI10. ANGLE CALIBR4T10N lNCRSME.NI11. MINIWJK CAPACITANCE12. MAX1W7i CAPACITANCE13. BELT CAPACITP.UCE ACWPACY1+. MINIMUM INDUCTANCE15. MASIMUM lNDU~ANCE16. BELT lNDUflANCE Ac~RAm
N. INTERNAL B.4TIERY POIJER1. 50 HZ POWSJ 60 HZ PoWSK. 400 HZ PoUERL. 115v ACM. 230V Ac
DEGREESDEGREEsFARADSFARAD2PERcENTHENRYSHENRYSPERcEXI
N-
1. A minimum frequency of dc shall be indicated by a zero
oD, E, ?,G, An ,X, shall be entered ifa V?COPSWou@utWCTOHionalt. the indicated paraneter i9 re~.ired,
F.
●61
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DOD-5TD- 2121 (NAVYI1 March 1984
WEAPONSYSTSM ELEcTRONl C TEST EQUIPMENT PARAtlETERS
ETE NflJN NAllE: tlEIER, l’KIYJLATIDN ( INCLUDES PM DEVIATION METIERS)ETE GENERIC CODE: MDO
A. CDNIINUOUS FREQUENCY8. AF OUTPUTc. IF OUTPUTn, IEEE/488E. INTERNAL SATCERY pOtdER
HERTZHERTZHESI’ZHESTZPESCENTPERCENTPERCENTHERTZHERIZHcsTZ- PEAK
~
11. M4X1hUM FM DEV1ATION12, BE21 m liccuRAcY13. MI NIIQJM INPUT LEVEL14, tlAX1hUM INPUT LEVEL15. i% XIMJM DC INPUT LllTHOWI16, F!AX1hlJMRI NOISE17. MAXIMUM AP DISTORI1ON
1S INPUT IMPEDANCE
F. 50 HZ POWER0, 60 HZ pOuERH. 400 HZ pOIJER1, 115V ACJ 230V AC
DAMAGE
W
HERTZ-PEAKPERCENTVOLTSVOLTSVOLTSd8cPERCENT OF
INPUTOHMS
A, A generator is considered to have a contimmus output frequency if it covers all frequencies betvee. the.inirumi and n.animun specified o.tD.t frequencies, We. a conlinuw sly variablefmwenc~isrewired,a.“X’ii!entered.A qmth9eizedgeneratorisZenerally..1c.widmd tohavea centimm..output,
62
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●DOD-SCD-2121 I NAVY)1 March 1984
LWAPONRY5T~ ELE~RONIC TERI EGiJ1PME4T PARAMETERS
ETENCIJNNAM2: ilETER, NOISE FIQJRESfE OSNESIC CODE: NFO
1.2.3.4.5.6.7.8.9.
10.11.
2ND 13’ FRECUSNCY3RD IF FREQUSNCY
A. DIGIT&L READONTB. ANALffi READCIJTC. RECORDEROUTPUTD. RECORDERCALIBRATIW OWPWE. INTERNAL BATTERY PGWER
d6uVDLTSVOLTSDECISELSHESIZHERTZHERTZ
1.4,me .sximmnoisefigureneterindicationrewired.
12. 4TH IF FSEW2NCY13. ~ IF FSEC!USNCY14. PfAXIMJM NOISE rlmRE MF.AL3JR~
RANGE15. MINIFWMNDISE F113JRE t’CiASVREllENT
SANGE16. M4X1MUU SOURCE EXCESS NOISE17. BE5T MEIES ACCURACY1S, MINIWM WNGW1OI3I19, IF lNPW IMPEDANCE20, OUTPUT IMPEDANCE
F. 50 HZ POWESG. 60 HZ POIdERH. 400 HZ PWES1, 115V ACJ. 230v AC
HERTZHERTZDEC1RELS
DECIBELS
DEC1BELSHERTZHERTZOHMSOKr!s
I63
10
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DOD-sru-2121 (NAW]1 March 1984
U2AP0N 5WT2N ELECTRONIC IE= EQUIPMENT PABAME2ERS
ZTE NCRJNNAtE HETEB, PHASE J11T215ZE GD4ER1C CODE: PJM
PARAMETER
1. MINIMUM INPUT FREQUD+Ci2. MAXIMJM INPUT FREQUENCl3, MINIMJll lNPUT LEVEL4, hL4x1t$JM INPUT LEVEL5. OUTPUT FREQUENCY6. OUTPUT FREQWWY ACCURACY7. MINIMJM WCPUT LEVEL8, MAXIMJM OUTPUT LEVEL9. OUTPUT LEVEL ACCURACi
10. PHASE JITTER N21ER flLLSCALE MINIMUM11. PNASE JITTER HEIER EULL SCALE F!AX1f$JM12. PHASE JITIER METER ACCURACY13. tllNIMJil LEVEL METER 1ND1CATION
A. 135 oHM INPUT IMPEDANCEB, 600 OHM INPUT IMPEDANCEC. 900 OHM INPUT IMPEDANCED. BRIDGE INPUT IMPEDANCEE. 135 OHM INPuT LINE HOLOF. 600 OHN INPUT LINE HOLDG. 900 OHM INPUT LINE HOLDH. 600 OHM OUTPUT IMPEDANCE1. BALANCEDOUTPUT IMPEDANCEJ. NOISE FSEE TONEK. CAUTION LAMPL. PHASE HIr ‘TOTALIZERM. AMPLITUDE H[T TUTALIZERN. COINCIDE’JT HIT TOTALIZER
mgl
HEM’zHERTZdhdsmHERTzHERTZdEmdb./- DECISELSDEGREESDEGREESDEGREESmm
0. DSOPOUTTOIALIZESP, HIT DELAYC!, CARRIER OUTPUTR. TUTALIZES OUTPUTS. PHASE J1T2ER OUTPUTT. BELL UE1(RITING FILTERU. BELL & LOU FREQUENCYWEIQITING FILTERV, IEEE/4SSW, INTERNAL BA’ITERY POWERX, 50 HZ POWERY. 60 HZ POWERZ. 400 HZ POIJER
AA. 115V ACSB, 230V AC
alit!DEC1BELSDEGREESDEGREESPERCD4TDEGREESDEC1BELSDEC1BELSPERCEl?ISECONDS-DEC1BELSsecDNOs
64
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●
F1’E NOUN NAME, MODULATORErE GENERIC CODE: i710
DoD-srD-2121 [t4AwJ1 arch 1984
UE.4PON SYLTCM ELEcTRONIC TSSC EQU1PN2NI PARAN2TERS
1. MbX1ilUil R2’ FREQUENCY2, MIN1~ RF FREQU2NCY3, MAY.li+Jil EYNAN1C RANGE4. fllNIwM EXTERNAL AN FREC!UW?Y5. K4X11f.lM EXTERNAL AM FREQUGKY6. MINIWM INTERNAL SQUARE-WAVEFREQU2FiCY7. mhxIwM INTERNAL sQ1]ARE-wAvE FREQUENC7i8. fllNIMJM INTERNAL PULSE FREQU2NCY9, w4x1i-9,21 l~ERN/+L WLSE FREQum~
10. MINIwM INTERNAL PULSE UIDli+
A. IN2ERNAL 6AI_2ERy POLIERB. 50 HZ POIJERC. 60 HZ POWER
HERTZHERTZDEC1BELSHE~ZHEU”ZHERTZHERTZHERTZHERTZSECONDS
11. fmxrtwn I~ERNAL vuLsE wImn SECOW212, w,xu-m EXTERNAL pULSE PRF HERZZ13. EmERNAL AM sms171vIm DEC1BELS/
VOLT14. TRIGGER mm ANPLITUDE VOLTS15. MINItm 6XTERNAL swc .4nvLnws VOLTS16. i_L4X1MJMEXTERNAL 51’NC AMPLINDE VOLTS17. mxImm lNm.m uImum DAK4GE WrFs18. !14x1tWM INSERTION LOS2 DECI SELS
1. A mini... frequency of d. shall ‘0. indicated by a zero.
3, The total usable range of the model,
D. 400 HZ POIdERE. 115X ACF. 230V AC
●65
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DOD-SD-2121 lNAVY)1 March 1954
IJEAPoN 5YLTfZl ELECTRONIC TESC EQUIPNLNT PARAMETERS
EIE NSUN NAME: !ITJLTIMEIER, AN.4LOG, ELEcTf?ONIC ( iNCLUDES VIVM OR T.VANS12TDR1ZED)EIE GFNERIC CODE: hll
~
1. MAXIMUM CC VOLTS2, MINIMUM DC VOLTS3. EESI DC VOLTS ACCURACY4. INPUT RES15TANCE5, DC SE’VSTT]VITY6. MAXIMUM AC VOLTS7, NINJMuM AC VOLTS8, BEST AC VOLTS ACCURACf9. INPUT CAPACITANCE
10. AC sE?iSITIV1~11, FW,X111U71IREWENCY12. tIINI~mwnumw13.BE= CRESI FAcTOR14. M4x1MJfl DC CURREIT
/!, FIXED lNPuT SEs15TANcEB. NutfBEs OF DIGITSC. ANALOOMETERD. DIGITAL MEIER WITH ANALOGE, a% RANGEi, CLAMP-ON A~ER
10 ,A. An ,X,, shall be enteredenrered i. line 10,
MS
VOLTSVOLTSPERc2NTCoimR0HM3/VOLTVOLTSVOLTSPERc~TFARADSUHMRjVOLTHEKTzHERTZNUM3ER
NUMBES
~ *
15. MINIMJM DC CUSSENT AHPERES16. BEST DC ACCURACY PERCENT17. M4x1mlJil Ac CURRENT AMPERES18. MINIMUM AC CUSRENT19, BEST AC ACCURACY20. P14X1MlJMRESISTANCE21, MINIMUPI RESISIANCE22, BEST RES1STANCE ACCURACY23. BESC RESISTANCE ACCURACY
hue24. OHMIETER OPEN Cl RCUIT OUTPUT VOLTS25, W+XIMTJMCURRENT KEASUREP!E,WHETER AMPERES
NOISE
AHPERESPERCETTOHnsOHMSPERCENTDEGREE OF
26. fi4X1 MUM 0’2 INPUT IJ1’SHOUTD.4?+AGE VOLTS
G, INTERNAL BATTERY PLWERH 50 HZ POLIER1. 80 HZ PWJERJ ; 400 HZ POIJER{. 115v ACL 230V AC
lNDIcATOR
ifa CiXedw in~ucmsis~ancei.required of the ECE and the value of resistance
66
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● DOD-srD-2121 [NAW )i Narch 1984
usmuti swmf ELECIRONI c TEL-2 EQUIPHm2 parameterS
~E NW NAM: 16JLT1MEIER, ANALD2, VOLTOHflMETERETE GENERIC CODE: MJO
●
pARAtfETER = PARAMETER
1, MAX119JMSC VOLTS2. MIN1~M E VOLTS3. BELT DC VOLTS ACCl!RA~
4. DC lNPW RES1S2ANCE5, DC S~SITIV1~6. MAXII$JM AC VOLTS1. MINIMJU AC VOLTS8. BEfl AC VOLTS ACCURACf
9, AC rNPUT CAPACITANCE10, AC S~SITIVI~ii. mxmm FREQUENCY12. MIN1f!U?l FREQU~CY13. ~XIMJlf DC WRRENI14. M1N1Pd14 DC CUBRW’f
H. ANALOG METER1. DIGITAL METER UITN ANALDO INDICATOR
VOLTSVOLTSPERC~ DFFULLSCALEOhlls0~/vOLTVOLTSVDLTSPERCENTOF
FULL SC.4LEFARADS0HM3/VOLTHERTZHE~zAMPERESANPEREs
15,
16,17,18,
23,24,25.26.
J.K.L,M.N.0.P.a.R.
sEm DC mSRENT AcWRACt
MAXIMUM AC CURRWMIN1!l.ltf AC CURR2NTBESI AC CURRENT AC~RKY
MAXIIWM SES15TANCEMIN1ilJM RESISTANCEBEST RES[ STANCE ACCURACYBEST RESISTANCE ACCUFiACY
PERCENT DFruLL SCALE
AWER33AMPEREBPERCENI 0P
FULL SCALELIIWKOHMSPERCENTDEGREE DF
ARCVDLTSAUPERESVOLTSAW’ESES
92A ,B, C, D, E, F, 1f the . . meter input impedance req.irenent is specified in ohms per volt, as in passive .e!erca,the ohms per volt value shall b. estered in iten 10 in otms. 1< the at i.pdt inpedance of The ..1.. iB require6to be fixed, an ,X,, shall be recorded in A, a“d the input capacitance ehall be entered in 9. ‘l% appropriatew input resis tarme [B, C, D, E,F) ehall be marked ,x,,,
G.Thenunber of digimrequired in the mater readout for digital meters
1, 1f the ..lt imeter is required to have an analog indicator in addition to the digital readout, an Y shal 1 beentered,
●67
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mD-sn- 2121 INAVY)1 March 1984
wwpON 2Y5-rEM ELECTRONIC TE5T EQuI PHENT PABAN~ERs
EfE NOUN NAME: nuLTImmR, DIGITAL [lNcLUDES p2AK, PEAK TO PFAXj AVERAGE, AND RU5)ETE GENERIC CODE, tl12
pARAHnER
1,2,3.4,5,6,7,8.9.
10.11,12.13.14.15,
:1ONAC VOLTAGE INPUT PROTECIMAXIWM FREQUENCYMINIMJM FREQUENCYMAXIMUM DC CURRENTMINIFQJM DC CURRENI
A. FIXED INPUT RESISTANCEB. NIIHBER OF DIGITSC, I!NALOG METERD. DIGITAL METER uITH ANALOG lNDICATDRE. LCD U1SPL4YF. LED DISPI,AY0, AUTOMATIC POLARITY lNDICATIDNH. AUTOMATIC ZEROING1, AUTOMATIC DECIMAL RANGINGJ. EXCESS INPUT 1ND1CATIONK. CUSRENT INPUT PROTECTIONL. RF PROBEil. RF PROBE VOLTAGE DIVIDERN. DC HIQI-VOLTAOE PROBE
VDLTSVOLTSpERCENTDHWOH~/vOLTVDLTSVOLTSPERCENTFARADSOHM2/VOLTVOLTs/HE~2HESTZHESTZAHPERESAMPERES
PARAF31TER
22.23.
24.25,26.27,28.
0,
::
$T.u.v.u.x,‘f,z.
Ah.BB
PERCENTAMPERESANPERESPERCENTDHi-sOHHSPERCENTVOLTS
VOLTSVOLTSDEC1BELSDECIBELSPERCENI
10, A. A fixed . . input resistance requirement shall be indicated by’ an ‘,x,, in item A and the value listed in 10,
B. The number of digits required in the meter readout for digital meters,
D, If the .Ulti.eter i. required m have an analog indicator in addition m the Oigital readout, a. ,x,’shall be entered,
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● 000-srn-2121 (NAvY)1 Harch 1984
WEAPONRY=EM ELECTRON1C TER3 EQU1PIIENT PARAMETERS
ETE NCUN NAHE: !!lJLTIPLI ER, FREQUSNH, DOUBLERSIE GENERIC CODE: DOO
1. HINIM.IM FREQUENCYOUT2, MAXIIQJM FREOULWY OUT3, CONVERSION LOSS WITH 0.01 WATT INPUT4. M4X1MLJUOUTPUI5, MP.XIMiJl’lATTENUATICN6, ATIENU.4TOR ACCUBAH
A. LEvEL flEIERB. OUTPWI POIJER HETERC. INTERNAL BAITERY POUERD, 50 HZ POUER
HEFffZHERTZDEC1BELSWAITSDECIBELSPERCENT
E. 60 HZ P~ERF 400 HZ POIJSRG, 115V ACH, 230V AC
5. l’he maxim.. attenuation value of the internal atrenuatoz
69
COEFFICIWl
u-
NUMBERUA3TSWATTSNUTITERNUMBERDEC1BELS
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DOD-STD-2121 [NAVY)1 March 1984
WAPON STXIEII ELECTRONIC TESI EQUIPMENT P.4RAH~ERS
~E NW?+ NANS: OIN’MEIER, ME(METE GENERIC CODE: CIHO
1. i14XIflUM RESISIANCE2. MIMIMJM BESISIANCE3, BE5T RESISTANCE ACCVRACY4. RESOLNTION5. BES15TANCE RANGES6, NAXIMJN IEST VOLTAGE
A. NETER PRCffECT1ONB, TWO-TERMINAL MEASUR~TS: GROUNDEDc. 3W0-TERMINAL NEAsuRmENTs: UNGROUNDEDD. THREE-TERMINAL HEA3UREWZNTS: GROUNDEDE, THREE-TERMINAL MEAXNREMENTS:
UNGROUNDELlF. vkRI.4sLE RESISTANCE pERCE14TAGE
msA3uBmT
OHNS 7. t41N1hlJMTESI VOLTAGEOHMS 8. SE21 TELT VOLTAGE ACCURACYPERCENl !3, TEST VOLTAGE RANWS0HM3 10, MEAN MEASURING FREQUENCYNUMSER 11. M4X1MJM SHOFC-CIRCUIT CURREWVOLTS
0. ANALOG MITPWCH. INTERNAL BATTERY PoIJER1, 50 HZ POIJERJ. 60 HZ PoI,IERK. ’400 HZ POWERL. 115V ACM, 230V AC
VOLTSPERCEWNUM8ERWSIZAMPERES
70
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●
~D-2TD-2121 [NAVY)1 March 1984
U3APON SfST~ ELECIRDNIC TE2T EQUIPMENT PARAMEZEW
ETENCUNNAKE:OSC1LL08CDPEEZE GDIERIC CODE: 0S0
1, VERTICAL H1-FRE13UEN~ R38PONSE -3 d6 HERZZ2. VERTICAL LO-FREQUENCY RESPONSE -3 dS HERTZ3. WX1i7dM VERTICAL S~SITIVITY VOLTS/
DIVISIDN4. MINIMJN VERTICML SENSITIVITY VOLTSI
DIVISlOfi5. VERTICAL DEFLELTIoN ACWJRACi PERcN6. fm.xlfm VERT1cAL INpuT w1mr3uz DAM4GE VOLTS DC7. MINIMUM ~ANNEL SEPARATION RATIO DEC1SELS8. MININuM m RATID NUMBER9. RISE TIME SECONDS
10. i%4X1M3MVERTICAL DEFLECTION DIV1S1ONS11. M&X1M3M UNCAL1BRATED VERTICAL VOLTS/
DEFLECT1DN12. OANDUI~ L1fflTING -3 .4S13. N,ix1M3Y HOR1ZONTAL sWEEP
18, UAXIMJM HORIZONTAL DEMY TIME19, SEn HDRIZONTAL IlEL4Y TIME ACCUSACY20. MAXIWM DELAY 8QEEP JITTER21. MINII’DJM TRIGCER VI ELIING SENSITIVITY
22. t14X11’lJ!l TR1G3ER VI~ING SENSITIVITY
23. INTERNAL TRICGER SE+SITIVITY
24. EXTERNAL TRIGGER SSNSITIVITY
25. i%4X111JflEXTERNAL TRIGGER lNPOZ
D1V1S10f4 26. M4X1MUMTRACE SIXATIONHE~z 27, X-Y DISPLAY X-AXIS 8ANDIJIDTHSECONDS/ 28. X-Y DIsPLAY Y-AXIS SANDIJIEQH
nlvrslm 29, X-Y PW.SE 01 FFERENCE30. 8TOPAGE uRITING RATE14. MINIwfi HORZONTAL %EEP SECONDS/
DIVISIDN15, HORIZONTAL DEFLFJsT1@NACCQRA~ PERC2NT16. N-4X1M0M HORIZONTAL DE2’LECTION D1V1S1ONS
IT. m;;~ ONCALIBRATED HORIZDNTAL SECDNDS/D1V1S1ON
A. FQ.ILT1S2AUCf?ZB. NLD’IBERDF TRACESC. CAL] 8RATED Ml XED 5WEEPD, VERTICAL MAGNIF1CATIONE, VERTICAL DELAYF. ALTERNATE MODEG. CHOPPED MDDEH. ALGEBRAIC XODE1, 3RD CHANNEL TSIGGER VIEUJ, DIGITAL R2AD0UTK. HDRIzO~AL MA~l FICATIONL, AUTOMATIC SCALE FAcTOR READOUTM, UNGROUNDEDINPUTN. DIFPERFNTIAL INPuT0. SlNOLE 8LIEEPP. DELAYED ELIEEPQ, HORIZONTAL AMPLIFIERR, X-Y oPERATION
NUMSER
31. INPUT RESISTANCE32. INPUT CAPACITANCE
S, Z AXIS INPUT‘I. AMPLITUDE CAL[ SRATORu. pORIASLEV. EXTERNAL TR1GGERU. AUTO TRIGGERX. BEAM FINDERY, INTERNAL GFG4T1CULEZ, CAtiERA NOQNT CAPASILITY
AA. STORAGE C,4PASIL1TY8B VARIABLE PERSISTENCECC. VERTICAL OUTPUTDD. lEEE/488EE. INTERNAL BATTERY POIJERFF. 50 HZ POWERCG. 60 HZ POWERHH 400 HZ PoUER11. 115V AcJJ. 230V AC
?. A minimum frequency of d. shall be indicated by a zero.
3. The most eersi rive calibrated position requirsd of the EIE vertical input.
4. ‘me le~t sensitive calibrated position required oftheEZEverticali.wt.
13,14,15,16,17. Refers to the nai” sweep req. ire.ents only, ..1 co delayed sweep,
_
sECDNG8PERCENTPERC~VOLTS/
DIVTSIOtlVOLTS/
DIV1S1ONCENTIPCJTERS
PFAK-PGixVDLTS P&lX-
PEAXvOLTS PE.AK-
PEAXDEGREESHERTZHERTZDE13REESCENTIMETERS/
SECONDGHn3FARADS
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00 D-srD- 2121 [NAvy )1 March 1984
WEAPON%=EM ELECTRONIC TESI EQU1PMENI PASAMEIERS
EIE NOUN NAHE: OSCILLOSCOPEEIE GENERIC CODE, 0S0
g:
B. The nu.ber of input signals to be diml.yed simultaneously shall be entered.
Cc. M ,X shall be entered if a vertical signal ourwt is required of the LTE.
72
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10 IOD-SZD-2121 INAVY)1 Marcn 1984
WAPON 3Y5TEM ELECZRONIC ‘ZESZ EQU1PilFNZ PARAIWZERS
2ZE NDUN N.4HE: D.SCILLOSCOPE, SAMPLINGEIE GZNERIC CODE: 0S1
1. VERZICAL HI-FREQUENCY SESPDNSE2, VERTICAL LO-FREQUENCY RESPONSE3. MAXIMII VE~l CAL SEZiS1’ZIVIZY
4. HINIMJM VESZI CAL SENSITIVIZY
5.6.7.8,9,
10,
11,
BESZ VESZI CAL DEFLELTION ACCURACYvE~lcAL INPU7 IWFD4JJCESE2Z VERTICAL INPUT VSWRlsOLATION BmIE2N NNELSDYNAN1C RANGE!iAX1lfJil TIME DIFFESSNCE BEZIJEE?4
CHANNELSMbXI I’BJMNDS1ZONTAL WEEP SPEED
12. MI NlfNM HOSIZDNZAL L’LIEEP
h.llJLT15EANCSZB, NUMBEROF TRACESC. SANDO!I SAMPLINGD, 2TnRAGE CAPAB1LITYE, VASIABLE PERS1ZZENCEr. PORZASLEG, UNGROUNDEDlNPUZH, DIFFERZNIZAL INPUT1. SINGLE SWEEPJ DELAYED SWEPK. VERTICAL DC OFFSZZL. VERTICAL ADD MODE
SPEED
HESZZHESZZVOLTS/
DIvISICNVOLTSI
D1v IS1ONPERc~TOHllsfWMSERDEC1BELSVOL’ZSSECDNDS
SECDNDS/D1V1S1ON
SECONDS/D1v1s1oN
NUilBES
PARAMETER
13. SESZ H@sIZOfiZAL DEFLECZIDN ACCWMCY14. l’t4XIMUll EXPANDEDHORIZDNTAL SUEEP
sPREn. ..-.15. szsl ZXPANDED HOBIZDN2AL OEFLSCZION
AccusAcf16. m4x1hum H0R12DNTAL DELAY TIME17. BEsZ HORIZONTAL OELAY TIME ACCURACY1S. HOSZIZONTfIL lNPW lNPEDANCE19. FL4X1M.IM2ZOSAGE SPEED
PERC2NCSECONQS/
OIVISIDNPERCENT
SECOND2PERCEW-ZOHmCENZ1ilETESS/
SECOND
2. & minimum frequency of de shall be indicated by 8 zero.
20. HINIMQM RISE TIME SECONDS21. I’MXIMJM TRANS1ZNT RESPCNSE ABERRATIDNS PESCENZ
PEAK-PEAK22. n4xrMJM VERTICAL DEELECZION DIVISIDNS23. M4XIFNJMHORIZDNTAL DEFLECZ1ON DIvISIDNS
M, S1@JAL AVESAGINGN. vE~rcAL MAGYIFIER0. HDRIZDNTAL MAL%41F1ES
3, The most .sen.sitive calibrated ramse required of the vertical input of the ErE,
4. ‘Ihe least sensitive calibrated ..oc. required of the veyiical input of the EZE,
13. Refers to main sweep only, ..? to delayed sueep.
B, ‘tie number of input signals to be sin.ltaneously viewed on the ErE ehall be entered. ifdltiple display of asingle in~t SiEnal shall be counted as one trace. An example is alternate display by delay SWeap and delayingsweep
F.AIIX shallQ.sntwedif~mmbili~~isrequired,
P. fin ,X,, sfmll De entered if a vertical signal output is required of the SZE
73
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GuD-2zD-2121 INAVY)1 March 1984
WAPON SY~2M ELECTRONIC ‘TES1 EQUIPMFIW PARAt12TERs
EIE NOUN NAME: RECORDER, StRIP CHART,MJLTIPLE CHANNEL5TE GENERIC CODE: RDO
PARAI’EIER
1, FllNIMdN FREIWENCY HERTZ2. NAXIMJM FREW2XY HERTZ3, woRsr CASE FREQUENm REsPONsE DECIBELS4. HIMIMJM INPUT LEVEL VOLTS/
cENT1NErE85. P14X1MJMINPUT LEvEL VOLTS/
CEN71ME2ER6. BELT VOLTAGE ACLXRACl PERCENT1, INPUT RANGES NUMBER8. M8X11’IJII 0VER2H00T PERCRiT9, mxrim 02.4DBAND PERCEVT
10. OEs-T NONLINEARITY PERC2NT11, F!dx1?lJil INPUT MITHGUT IW14GE VOLTS
H, EVENT MARKER1, ZERO VERNIER
12. INPUT IMPEDANCE13. COPG40NNODE VOLTAGE14. COPRfON!100E 17EJECT1GN15. MAXIMJM CHAKf SPEED
16. MINIMJM CHA!71 SPEED
17. CHAW SPEED ACCURACY18, CHARI IJJDTH19, CSART CAPACITY20. P!AXIMUH ZERO DRI~21. ZERO 2UPpRESS10N ACCURACY22, RESEITABILITY
s. 2ER0 suppREsst ONK, ~0-CHANNKL INPUTL, INTERNAL B.4TTERY PflIERIf. 50 Hz POWRN, 60 HZ PDIJER0. 400 HZ POIJERP. 115V ACQ; 230V AC
VOLTSDECIBELSCENT1ilETERS/
SECONDCENTIiiECERS/
SECONDPERCENTC2NTINETERSM2TERSpERcaTfiOURpERCENTPERCENT
1. A minimu. freql,ency of at shall be indicated by a zero,
8. The permitted Wplitude of the first maxim.. Wc.reion beyond the 100Z mplit.de :evel expressed as aPercentage of this 100X amplitude.
9, The smallest percentage of change in the inout signal that the ETE is required L. indicate,
11. The allomd percenta~e of devia lion by which the input-output (P.. de flee Lie.) relationship can failm beaStraightlie.
13. The maximum .olt&ge that c.” be appliedm both input lines of the ?amPlifier
15.The fastest ch.rt speed required,
16, The slowest chart sDeed req. ired.
A,8, C,D, E, An ,x shall indicate the typ of pdink @yet.. required. ,,Pressure Tpe’ refel. to . pen that mark.the chart paper by ~triking it under pre$sme, not ?. a Dree..rized ink system.
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WD-5TD-2121 (NAVY]1 March 1984●
WAPDN SYLTD4 ELEcIRCNIC TESI EQUIPHENT PARAMETERS
EIE NOW+ NAM: RECORDER, X-YLTE GIWERIC CDDE: RXO
PAR.4HSTER
1. MINIMJM INPIJ1’ VOLTS2. t!AX1tSJM INPUT VOLTS3. BEST VOLTAGE ACCURACY4. BESI NONLINFARITt5, INPUT lBPEOANCE6, klAX1?V.lffZERO DRIFT7. RESEIIABILIIY8. COiUDN MODE REJECI1ON9. MAXIMUM 1INPUT UITHGiJI DAMAGE
10. MAXIMJN TIME BASE BATE
11. ffIN1hwM TIME BASE RA2E
12. TIME SASE ACCURACY13, MnXIMJM SLEWING SPEED
b, TYPE OF PENSB. ELEL71R0EIATl C PAPER HOLDc. VAWDN pAPER HOLDD. iIEmANICAL pAPER HGLDE, REMOIE PEN L1~F. PLUG-IN AMPLIFIERSG, NEWT MARKERH. ZSRG 3uPPRESS1ONJ ZERO ADJULTJ, NUMBER OF K AKPLIFIERSK. INPUT RANOE VERNIER
VOLTS/lNCN 14. MAXIM.ltf X-,4S.lS ACCELERATIDNVOLTS/l NIXPERCENTPERCENT 15, iit,XIMJi’1 Y-AXIS ACCELESATIDN
PESCENVHOURPERCENT 16. REFERENCE STABILITYDEC1BELSVOLTSSECONDS/ 17. nA,xIMJ!l OVERSHOUT
CEWIIMLTES 1S. X-AXIS GRID SIZESECDNDS/ 19. Y-AXIS GRID SIZE
C2NTIMFIER 20, LINEARIiTPERCENTCENTIMETERS
SECOND
L. SERVD HDTOR PROTECI1ONH, LINE FILTERN, NULL DSTELTOR0. 1EEE/48Bp, INTERNAL B.4mERY POUSRQ. 50 Hz POldEBR 60 HZ P@UERS. 400 HZ PowER‘1’, 115V AC
NUMBER U. 230V AC
CEN?lKEIERS/SECOND/SECDND
C$mm’sl
SEC13NGPESC21W
DEGREECENTIGRADE
PERcENTCENTIMETERSCENT1iWIERSPERCEJT OFFULLSCALE
1. The most sensitive setting required of the input range switch,
2. TIE least sensitivesettingrequired of the input range switch,
3, The alloved percentage of deviar ion by which the input-output (pen deflection] relationship can failm beastraight1inc.
4. A measure of how well the ETE can ignore a signal appearine simultaneously and in phase at both inD. fterminal. of the ETE.
10. The slaue.et eueeg speed required.
11, The f aetest sweep speed required
13. The maximum speed at which the EIE pen shall be required to move along the X or Y axis.
●75
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OOD-Sn.2121 (NAvY )1 ilarch 1984
UEAPON SY5TEH ELECTRON1C TEST EQU1PM~ PARAMmERs
ETE NOUN NAME, RECORDER, X-YEIE 17A+ER1CCODE: RXO
14, The peak pen acceleration required when the pen is responding to a step input,
11. The permitted anplilude of the first maxi... excursion beyond the IOVL arwlic.de level expressed w apercentage of this 100% ampli Wale,
A. The followine code shall be used to indicate the t~e of pen syste. required:
1: inkT: the,”.]P: preseureE: electrochemical
F, An ,x,, shall be entered if plug-in amplifiers are required
J. This space shall indicate the number of wired-in de aITIpl if iere or the nu.ber of plug-in gpace.e required foraccepting amplifiers. If pl.g-ine are required, . . ,x shall be e,lrered i“ iten F.
76
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o
,.
c+3u-sru-2121 (NAWJ1 !farcti 1984
LTAPON SYSWM ELECTRONIC TEST EOVIPMENT PASAHETERS
~E NOUN NAME, REFLECTO?ETER, T1!IE DCUAINFTE OENERIC CODE: TOR
~
1. MINIFllJN VEIfrl CAL SCALE
2. Ndx1flJM VERII CAL SCALE
3, VES17 CAL ACCURACY4. MINIMJM HORIZO~AL RANGE
5, t!Ax1fd!N HORIZONTAL RANGE
6. DIsIANCE ACCURACY
h, SOLID POLYCABLE DIELEmRIC SCALE0, SOLI 0 PTFE CABLE DIELECTRIC SCALEC. VARIABLE D[ ELECIRIC C12NSIANT SCALED. NOISE FILTERE. MEIRIC ScALE CAI.IBRAT1 ONF, LTORAGED, 50 OHh IMPEDANCEH. BUILT-IN RECORDER1. RECORDER0WPLJ7
W
MI LLIRHO/D1V1S1ON
tfILLIp.No/DIVIS1dN
PERCS??IIf ETERS/
D1V!S1ONMEXERS{
D1V1S1ONPERCENT
PARAN~ER
7. M4X1CIJt4 $TAST DELAYS. SYSTfli REFLECTION RISE TIME9. PF.AX ABER3AT1W IN N0FM4L OPERA11ON
10. REPEI1TION RATE11, PULSE .4NPL1TUDE12. PULSE JIl_CER13. PEAX ABERRATIONS IN LO-NOISE OPERATIONI+, VAV.ll%3MNOISE IN N0Rlb4L OPESATlON15, M4X1HIJN NOISE IN Lo-NoISE OPERATION
Q. 230V AC
MITERSSECONOSPERt~HERIZVOLTSMEZER$PERcENTtil LLIRNOSMI LLIRHdS
A, AI T’ shall indicate a requirement for a solid polyethylene (P@) cable dielectric ece.le.
B, An ,x shall indicate a req. irenen? for a solid polytetrafl.oroe thylene [PIFE) cable dielectric scale
C. An ,x,, ehall indicate a requirement for a variable dielectric constant male.
E. An ,x, shall indicate a requirement {m netric measurement scales,
77
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DOD-SID-2121 (NAVYI1 March 1984
WAPON SYS12M ELECTRONIC ‘IESI EWIPflEN? PARAMETERS
WE NQON NAHE: SIHULATOR, 2YNLliR0/RES41LVERLTE G~ERIC CODE: GES
PARAHEIER
1. MAXIMJM FREQUENCY HERTZ 7,2, HINIMTJM FREQUENCY HESIZ3. HAXIWM ANGLE RANGE DEGREES 8,4, ANWLAR RESOLUTION DEGREES5. SYNCHBOANGLE GBJEBATOR ARC-SECONDS 9,
ACCVRACY: 60 HZ6. smcnso ANGLE GENERATOR ABC-SECQNDS 10.
ACC+JRhCY, 400 HZ
SYNL’HROANGLE 0ENERAT08ACCURACY: 10 KHZ
REsOLVER ANGLE GENERATORACCURACY: 60 HZ
RESOLVER ANGLE GENERATORACCURACY, ‘+00 HZ
RESOLVER ANGLE GENERATORACCURACY, 10 KHZ
as
ARC-SECDND3
ARC-3 ECUNDS
ARC-SECONDS
ARC-SECONOS
A. 60 HZ REFERENCE FREQUENCY 1. 26V GUT LINE-ID-LINEs, loo Hz REFeRENcE ERE9GENLX J. 9ov ouT LtNE-TO- LINEC. 1 KNZ REFERENCE FREQUENCY X, 115V OUT LINE-TO-LINED, 10 KHZ REFERENCEFREQUENCY L. TtiREE-ur RE WNCHROE. 1:1 VOLTAGE TAP M, FOUR-WIRE RESOLVERF, 26V REFERENCE EXCITATION N. IN-LINE DISPLAYG. 115V REFERENCE EXC1TATION O. NUMIIER OF DEOREE DIALSH. 11.8v wT LINe-TO-L]NE
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I
DOD-LTD-2121 [NAVY)1 l!drch 1984
WEAPONSWmff ELEnRONIC TF.SI EQUIFI-IEWT P.4RAi-IETERs
EIE Novl NAME: SLMTED LINEEIE GENER1C CODE: SLO
myN PARAmEs
HEFfTZ 6. UAVEW1 DE CONNECTDRHERIZNU?MERC~I~ERS 7. LINE [WEDMCEDECIBELS
EIA LIAVE.WIDENUHBER
DID’!s
b. INTERNAL CSY5TAL DETEmOR D. APC-7 CONNELTORSB. COAX[AL c134NE~0RS E, !JAVEW1 DE CONNECTORSc. ~pE N COnneCterS
A. An ,x,, shall indicate a requirement for a crystal detector probe either i,,stal led on or provided as partof the EIE.
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DOD-L7D-2121 [NAVY)1 March 1984
L12APONsYSTEM ELECTSON[C TEST SQU1PMfNT PARAKSIERS
~E NCIJN NAME: =AB1 L1ZEB, RAD1O FREQWtWfEIE GENERIC CODE: SYO
1. MINIWM FREQUfN~ HERTZ 6. MAXIMJM R> lNPv. LSVEL dsm2. m.4xIt4-tm FREQUZNCY HERTZ 7, SESI LOCK SENSITIVITY Osm3. FRD2UENLY 5TAB1LITY PAkTs/ 8. VARIABLE CSW7AL OSCILLATOR PERcEJ+T
MI LL1ON/DAY PULL RANGE4, SHOSI TERM STABILITY PAFTS/ 9. EXTEPNAL REFERE4cE INPuT FREQUENCY HERTz
Ml LL1ON/DAY 10. H1~ VOL’IAqE INSULATION VOLTS5,MINIMUMRF INPUT LEVEL flsm
A CONTINUOUS TUNINGB. EXTERNAL ~NINGC ESTERNAL TUNING VOLTAGED. INTERNAL 5 !llZ RCFERENCEE, ES7E8NAL REFERENCE lNp~F, PHAsE LOCK lNDICATI~0, PHASE ERROR 1NDICATIONH. FREQUENCYMONITOR OUTPDT
1, EXTERNAL MIXERJ, INTEMAL fIAnERY POWERK 50 HZ PO14ERL. 60 HZ PoWERM. 400 HZ POUERN. 115V ACO. 230V AC
A. The EIE is considered to have a cent in . . . . output frequency if it cover. .11 frequencies between theminimum and maxi... spe. if ied output frequencies, When . c.ntinumely varieble frequency is required, an ‘Xis entered. h synthesized generator is generally not considered to have a cmt inuo.e output,
B. b. ,x,, shall be entered if the ZTE is required to have an external input to control the i“ter”al .icrowaveoscillator.
C. An ,x shall be entered if the mmbility of wing m external tmim voltage 10 vary’ the repeller ofthe reflex klystron or the helix of a SWO is rewired of the 2TE,
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!30D-ZZD-2121 (NAVY)1 March 1984
UUpDN swzEM ELEnR~ic TEsz EQUIPHENT REQUIRENMTS
●EI’E NOUN NAME, SYNTHESIZER, FREritJLV~EZE GENERIC CODE: FZN
PARAMEZER
1. MINIMJM FRE13U2NCY2, M4X1M.NI FBEQUENCi3. FRE12UEVCYACCVSALY4. FRESUENCY RESOLUTIDN5, REFERENCE FREIWRJCV6. FREQUENCY=AFI1 L13’V/D.4Y
17, OUZPU’FLEVEL 3U1’ZCHING TIME18. SPUR1OUS NDP-HASMONICS19, SPUR1OUS LINE RELATED20, S1~AL-ZO-PlfASE NOISE FL4TIO
35, M, P, Refers to phase modulation.
U
HERTZHESZZpERCENFHESTZHERTZPART$/
NILLIGNSECDNDRHESZZHERZZ-DECISELS+DECI BELSDEcl BEL3DECIBELSDECIBELSOHMS~BERSECONDS-dBc-dBcDECIBELS
FREQOZNCVFREWEWY
29. FM MINIMJII RATE30. EM MAXlillJM BATE31, m mlN1mJM DEVIATION32. YM M#.XIFtlM DEVIATIDN33. FM D1SZDRTION34. m siIJsrTIvrri35, Am INCIDFN-ZAL PM36. AM INCIDENZAL m37. FM INCIDENTAL AM
38. M4XII’VJM REVERSE POUER PRUIECZIDN39. IIINIMJN LwEEP SPEED40. MAXIflJH SIJEEP SPEED
0. EXTERNAL FMP. EXTERNAL PHASE-M0. OUTPUT LIMITINGS. SEVERSE PIJR PROZECIS. REFESENCE OUTPUT‘Z. TTL OU’ZPUTU, RACK MOUNZ CAPABILIZlV. lEEE/488u. M4RKERSX 50 HZ PGIJEBY 60 HZ PDIJERZ. +00 HZ POER
AA. 115 VACBB, 23D VAC
-dBcHERTZ-weHERTZH3FTZPERCMFPERCENZPESCENT/
VDLTHESZZHESIZHERZZ PE4KNEfE&EAK
HESTZiVOLTRADIAN PEAKNXF!VW-dBcUATZSSESDNDSSECONDS
14, The total variation of the o“tp”t level across the frequency band expressed as a ratio betueen .i.in....6maximum..cp”~levels,Foremmpl.,a wspon$ee.pmssedasa r.<iobetween.inim.nandwa.imm.autpullevelsof,1-5 ~Bwouldberecordedas10dB.
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DoD-srO- 2121 (NAvY )1 March 1984
UFAPON RYSIEM ELECIRONIC ‘IESI EOU1PMENT PARAMtTEBS
EIE NDUN NAME: TEST SET, ELECIRON ~JBEEIE GENERIC CODE, TEO
PARAHEIER
1, HINIMJM FULL-SCALE TRAN5CDNGtlCTANCE2. KAXIMJM EWLL-SCALE TP.ANSCONDUCIANCE3. BESl TRANSCONDWMNCE ACCVRACY4, MAXIMUN TESI SIIWIL5. mINmuPf F] NNW VOLTAGE6, k14X1MJMFILAMENZ VOLTAGE7. w+xlim Flmmr mWER
b. LF.AKAGETELTR, SHORI TES2C. CM TEWD. CARD ALTDMA1lC TESI’EBE. ROLL CHARTF, FOUR-, FIVE-, SIX-, AND
S3VE3 -PIN SOCKEISG, OLTAL, LCCT,tL S@CKETSH. SSVEN- AND NINE-PIN
MINIA~RE sDcKns1. SEVFr-PIN IN-LINE SOCXEIJ. O~AL SUBMINIATURE SOCKETK NINE-PIN JUMBO SOCKETL, LINE-VOLTAGE SEI
Mios 8,i-mos 9,PERcENT 10,VDLTS 11.VOLTS 12.VOLTS 13,WATTS 14.
M.N.0.P.Q.R.s.
tv.u.x.Y.
NINIMJH BIAS VOLTAGEMAXIMUM BIAS VOLTAGEnlNImut4 PLATE VOLTAGEM4X111UMPLATE VOLTAGEMXrm PLATE CURRENrmNImuti SCREEN VOLTAGEH.4X1tWN SCREEN VOLTAGE
VOLTAGE RECAJLATORCHECKRESERVE LIFE CHECKHIM-vOLTAGE RECTIFIER TESITHYRATRONTESISELF-BIAS REsIsTORsCRT TE5TIEEE14S8INTERNAL BATTERY PWER50 HZ pOLIER60 HZ pOUER400 HZ POWER115V AC230V AC
vOLTSVOLTSVOLTSVOLTSAHPERESVOLTSVOLTS
D. An ,X,, shall ,be entered if the ETE is required to ,,se punch cards to wet up the Darameter fc,r the tubes under ●:,, t
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uOrI-5-rO-2121 (NAW)1 t!arch 1984
UEAFON SYSTEM ELECIRDNIC TEST EQU1PtlWl REOU1REMENTS
E3’E NW+ NAME: TE5T Sm, ENVELOPE DEL4Y , TELECDMSCE GENERIC CODE: TSD
PARA~ER
1. MINIMUM CARRIER FREWEN~2, WXIHU?! CARBIER FREQ!JE4CY3, B~ RF FREWENCY ACCURACY4, MINIMJil TRAN5T!1TIER ~PGT5. ~X1l$JM 1R,$NZf411TER ~PUf6. BESI DWFWI FLb’llJEss7, BESI GUTFUT METER ACCURACY8. M1N1i_N14i’10WL,4T1DN 2’REcJJENCY9, PMX1!WM MOWLA’I1ON FREQUEWY
10. wXIMJH AWL1llDE UODULATICN11. MINIMUM DELAY M3,WJREWNT12, M!+XIMQH DELAY NEASYJRE75NI13. BEST DELAY ACCURACT14, !fIN1i4JR MJTFWI IMP2DANCE15. t14X1~ 13.JTPG’fIMPEDANCE
A. D101TAL FRF.QU5XCYRSADDGTB. D101TAL DEIAY RZADDUTC, END-TO-2ND OPER,WIOND, LGDP-TO-BACK OPERATIONE. D4D-TO-END U117i RENFN
REFER2NCEF. BALANCEDOUTP~G. BALANCED INPUTH. 75 OHMS lNPUT/OUTPGI IMPEDANCE1. 135 CHMS INPUT/GVCFW lHPEDANCEJ, 600 0HM3 lNFTJT/CUTPUT IMPEDANCEK. 930 CW!3 lNFIJI/GUTPUT IMPEDANCEL. 25 HZ HODULATIGN FREQUENCY
HE~ZHERTZPERCEVCdBndSmDEC1SELSPERCE)4THERTZHERTZPERCD?IsEC~DSSECON03PEWENT
DHn2
PARAhEfER u=
16.17.18,19.20.21.
22.
23.24.25.26.27.2s
MINIMJM RECEIVER lNPUIM4X1MIM RECEIVER INPUTBESC INPUT lfiTER ACCURAIlMINIFIUil lNPW lFLPECMNCENAXIWM INPUT IMPEDANCEMI N1MU4 WEEP RATE
FMxIMJM BUEEP RATE
COUNTES MINIMUM FREQUENCYCDGNTERMbXIWJM FRFNCNCYCOUNTER ACWRACYCDUNTER INPUT S~SITIV1lYcOuNrER rNPLfT IMPEDANCECOUNTER lNPUI CAP&CIT&NCE
flF.A3UREMWCNW.%IR2MRJT
M, 83-1/3 HZ MODULATIGN FREQUEN~N. 250 HZ fiODUf,AT1ON FREOUDNX0. SWEEP oUTPUTP. OSCILLOSCOPE oU’CPUTQ. FREQUENCYCOUNTES HOOEs, x-Y QGTPUIS, lNTEWAL BA’RERY PoUER‘I. 50 HZ POWSU 64 HZ POUERi; 400 HZ POWERU. 115V ACX 230V AC
dBmd6mPERCENCOm-!s
SUEEPS/MINUTE
SUEEPS/M1NU7E
HERTZHERTZDIGITSDECIBELSOxnsFARADS
I 1,23. f! ninimun frequency of a. shall be indic.reObya zero
6. The total allwad variation of output a,mplit”de across the frequency band expressed a8 a ratio betweenminimum and .mimm output levels. For emwle, a requirement for ./- 5 dB fl.tne.S fro. . referen.e levelhall be wcorded ?s 10 ds.
I
I Q. An ,X,, shall be entered if the flE is required to have a frequencY counter DICde.
●83
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DoD-SD-2121 [NAvy )1 March 1984
WEAPONSYS~ ELEC!RONIC TESI EQUIPMENT RE0UIREMENT2
EIE NoW NANE: TESI S2T> FREGUENCI RESPONSE2TE GENERIC CODE: TS8
PAW+M2TER u=
1. i31N1MJM FREQUENCY HERTZ2, mx Itml FREOU2NCY HE~Z3. WORST CASE FREQU2NCY RESPONSE DEC1BELS4, MINIMUM INPUT ‘m”5. MAxlllJfl INPUT6, INPUT V5WB t%BER7. lNPEDANCE 0HM28. RATID fiEASUREM2NT RANGE DECIBELS9. R&T10 &CCURACi DEC1BELS
10. BEsI REsOLUTION DEC[EELS/D1V1S1ON
A. DUAL L’HANNELC&PABIL1lYB, TYPE N CONNECTORSC. MbRKER INPUTD. BLANKING INPUTE. INTERNAL BAITERY P0UE8
11.12,13.14,15.16,
17,
F.0.H.1.J.
1, .4 mininu. frequency of d. shall be indicated by a zero.
POIJERMEASUREMENTACCGRACY DEC1BELSDYNAHIC RANGE DEC1BELSMINIMUM DIsPLAY OFFSEI DECIBELSht4XIPiUM DISPLAY OFFSEI DEC1BELSDRIVE FREQD2NCY HERTZRECORDER0uTPU7 VOLTS/
D1v1S1ON
X-Y CKI DIsPLAY AREA IN SOUARE NUMBERD1v1s1oNS
50 HZ POUER60 HZ PDWR400 HZ P13JER115V &c230V AC
6. The maxi... VSWR allowsd at the input of the EI’E shall be entered,
17. For emmple, art 8 X 10 divi, ion display tm.ld contain 80 square di. isiorw
84
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●II
!J3D-SID-2121 [NAVY)1 Harch 1984
WSAPONsmrm ELECTRDNIc TESI EQUIpm pAME-IERS
ETE NGU7i NAME: TESI S~, lMPULSE/NOISE, ZELECOMEIE GENERIC CODE, TSS
PARAMETER
1. i14X11fJM COUNTING SATE
2, MINII’UNI COUNTING RATE
3. COGWIING RATE .4CCURACY4. MAXII’WH IMPULSE NOISE SENS1llVIZY5, MINI fllJM IMPULSE NOISE SEh’SITIVITY6. !L4X1MJM LO-LEVEL LIMIT7, MINIMJ!I HI-LEvEL LIMIT8. REG16TER LEVEL ADWSl
NOTES:
W
pULSES/SECCND
pULSES/SECCND
pERCZNIOBRNdBRNdBIL+dOsNDEC1BELS
NGnsm
PARANEER
M. 135 OHM INPUT lMQEDANCEN. 150 OHM INPUT IMPEDANCEO. 600 OSM INPUT IMPEDANCEP. 900 O!C4 lNPuT IMPEDANCEQ. lEEE/+88E INTERNAL BA’lTESY PCW,RS. 50 HZ POWERT. 60 HZ PCUERU. 400 HZ POIJERV 115V ACti. 230V AC
MINUTESDEC1SELSDP.CISELSHE~ZKERIZdBRNdBRNDEC1BELSNUHSEROHJ’19
4, The best [most sensit iv. ) input eenait iv ity required.
5. me least sensitive level of input required,
10. A .e~?e of hou well the ETE shall be required to ienore a signal appearing simultaneously ad in p-eon both Input terminals.
●85
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DOO-EZD-2121 [NAvy)1 March 1984
WAPON SYSZEM ELECTR0N1C TEST EQU1PM2NZ PARAHEZERS
=E N~ NAH2: TE2Z ssr, rNEULATION (INcLUi3Es HI13-vOLTAm TES2 s2rs)SIE GENERIC CODE, TE4
1. MAXIlllJfl DC TE2Z VOLTAGE VOLTS 7. VOLTAGE MtTES ACCURACY PERCSNZ2. IIINIMJM DC TESI VOLTAGE VOLTS 8, MINIWN CURRENT FULL-SCALE ANPERES3. MAXIMIJlf AC THf VOLTAGE VOLTS 9. M4XJMUM CURREtT FULL-SCALE AMPERES4, MI NIMJM AC TESZ VOLTAGE VOLTS 10, LIJRRLNT MEZER ACCURACY PERCENT5. FIAXI14.N4AC T~ P’WES VOLT-AHPERES 11. M4X1MUM oUTPUT T] MER S~lNO MINUTES6, kC TESZ FREGUENa HEsZZ
A. H113i-VOLiAGE WARNING 1#.MP8, LTEP ~w2c. C~TINUOUSLY ArIJJSIA8LE ompmD, IN7ERNAL BAzTERY POLIERE. 50 HZ POWER
f. 60 HZ POIdERG. 400 HZ POIJERH. 115V AC1, 230V AC
86
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●USAPON BYLT~ ELEcIRDNIC TESC EWI PMENC 2’W,Atl~ERS
wO-5rD-2121 INAW 11 March 19S4
flE NGUH NAME: TEST SEI, LGGIC (INCLUDES TESI SET, LOGIC PRoBE, AND TERc SET, LOOIC PROBE KIT)EIE G~ERIc CODE: TS3
●
pABAMSIER
1. COMPARATORlNPUT ~RE3H0LD2. COMPARATORMININUM INPUT PSUIECI1ON3. C~AR4T0R MAXIINII INPUT PRUIECT1 GN4. ~ARJTOR ERROR SENSITIVITY5. COMPARATORDZLAY lMW?llTY6. PROBE INPUT IMPEDANCE7, PROBE LGOIC I ‘ITL THRESHOLDS. PROBE LOGIC 1 CMOSTHRESSOLD9. PROBE LOGIC o I-IL ~SESHOLD
10. PROBE LOGIC 0 CMOSTHRESIIOLD11. PROBE MAXIMJPI INPUT PRF
A ITL CDMPATIBLEB, DIL CGMPAT1BLEC. CW3S CGMPATIBLED. ECL C~AT1 SLEE, PULSER R~ PROGRAMF. 1hTERNAL SAITERY POIdER
=
VDLTSVOLTSVOLTSSECONDSSECDNDSOHMSVOLTSVOLTSVOLTSVOLTSHERTZ
_
1,2,3,4,5. Applies to logic comparator only.
6,7,8,9,10,11,12,13, Applies to logic probe only.
14,15,16,17,18,19, Applies to logic puleer only.
20,21,22. Applies to logic clip only,
A, Tr.ansietor-Trans istor- Logic coITIDatible,
S. Diode-Trawistor-Logic compatible,
C, Complementary-Melal-Oxide-Se.icond.ctor compatible.
D. Fmitter-CouQ1ed-Loeic compatible
PASAIETER
12. PROBE CONTINUDUS INPUT PRGTEcI1ON13, PROBE MIN1?DJMPULSE LIIDTH14. PULSER OUTPUT HIQi15. FWLSER WTFWT LOU16. wLsER AmVE lfiPEDANCE17. PULSER OFF INPEDANCE1S. PULSER PULSE U1UTl19. PULSER INPUT OVERLOADPROIECIIDN20. CLIP INPUT THREsHDLD21, CLIP H1N114JM INPuT PROTELTIGN22. CLIP tl.iXIMJM lNPIJI PRDTECI1ON
G. 50 HZ pOJERH. 60 HZ POLiER1. 400 HZ POIJERJ. 115V ACK, 230V AC
VOLTSSECONDSVDLTSVOLTSOHPLSDlillBSECONDSV13LTSVOLTSVOLTSVOLTS
E. Fulser Read-Only- flemory program,
I
‘o 67
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DOn-srO- 2121 [NAvy )1 March 1984
UEbPON SYSTEE ELECTRONIC TESC EQUIPMENT PARAnEIERS
EIE NOUN NAME: TES SET, LOMH~E GENERIC CODE: TS7
PARAMECER =
1, CHANNEL FREQU5NCY ACCUS#.CY PERCENT2. M4XIPNJMLnJWIJT VOLTS3. NINIMUPI OUTPUT VOLTS4, OUTPUT AITENUATOR RANGE DEC1BELS5. OUTPUT AITENUATOR STEP NUMRER6. OUTPUT ATTE3WATORACCURACY PERCENT
A CAL1SRA’KEDRF DUTFWB, UNCALIBRATED RF OUTPUTC. TELESCOPING RF ANTE4NNA0. ANTENNA RADIATED RF OUTPUTE, 100 KHZ CHANNELF. 180 KHZ CHANNELG. 1750 KHZ cHANNELH, 1850 KHZ CSANNEL1. 1900 KHZ CHANNEL
7. MINIMUM DELAY MA5TER/SLAVE8. M4xII!UM DEMY M45TER/SLAVE9, BE= DELAY ACCURACY
10. MI NII’Nll REPFTITICN INTERVAL11. IL4x1MUM REPET1TION INTERVAL12. OUTPUT lI!PEDANCE
J, 1950 WZ MNELK, 303.03 HZL. lNTESNAL SA’TTERY POI.IERM. 50 HZ POLIERN 60 HZ POIJER0. 400 HZ POUERP, 115V heQ, 230V AC
e
sECONDSSECONDSSECONDSwrlOERNUMBEROHMS
7,8. The mini... (paraneter 7] /maxiIoun (parameter 8) delay that can be set berueen the meter and the slaveRF rmlee pairs,
E, F, G, H,l, J, in ,x,, shall indicate reQuired channel frequencies,
K. !+. ,x,, shall be entered if the CrE is req. i red to providethis symhmnizatim frequency
88
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coD-szD-2121 [NAWI1 flarch 1984
wEAPoN sfsm ELECIRONIC TEsr COUIPMENT parameterS
ErE NOUN NAME, Z’ELT SEZ, MEMRING, PuUEREZE GENERIC CODE: UA1
●
1. MAXIMUM EREQGEXCY 3ANGE2, tlIN1lfdfi TREIIJ2NCY RANGE3. NAXIMJH POWER4, MINI!PJM PCUER5. BESZ ~ER ACCURACY
6. BEST OVERALL MEA3UREMZNTACCURACY
7, 8ESI REFLEcIED POWERHEA2UREMEICZACCURACY
.4, nfRu LINEB. TERMINATINGC. ABSGRFTIDND, UUFITY LOADE. ZYPE N lNPUZ CONNECTORF NPE N Gu’ZPWI CDNNECCOB0. LIAVECVJIDE1NPU7 CCNNECIORH (?AVELIJ1DE CUTPUT CONNECTOR1. DIGITAL DISPLAY
HERTZ 8. BESZ PGuER DIREcZIVITYHERTZ 9, M4X1FVJII PGWERDISSIPATICNWAITS 10. i14X1fVJN INPuZ U1’CKWJTDAtfAGEWITS 11. VWRPERCENT OF 12. MINIMJM INPuT IMPEDANCE
FULL SCALE 13. PL4xmnnl lNpuz lMVEMNCEPEMIZ+Z OF 14. BEsT lNPOT lHPEGANCE ACCURAL”i
ZULL SCALEPERCENT OF
SEITING
3. AJJALDGDISPLAYK. CALIBRATED RWOU-I IN UATZSL. Calibrated RaUUUl IN VOLTSM, INTERNAL BATZERY POUERN. 50 HZ Pcu.4ER0. 60 HZ PGIJERP. 400 HZ POWERQ. 115V ACR, 230V AC
B. A minimum frequency of dc shall be indicated by a zero
11, The maxim.. allowable VSWR at the FZE input shall be entered,
89
wzroUAITS
IJATZSNVNSERClM3
PERc~ 0?SE2TING
L
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DOD-SID-2121 [NAVY)1 March 1984
UEAPON SYLT~ ELECIRON1C TEsT EcU1F?12NT PARAMETERS
ETE NEW NAME: TELT S~, HEA5VR1NG, POLIER, ELECIRONIC~E GEiERIC CODE: UAO
PASANEIER
1. M#.XIM.M FREC!UEFW2. tilN1~N FREWSNCY3. MAXIMUM POLIER FULL SCALE4, MIN1~il PIYdER FULL SCALE5. BE5T SENSITIVITYS, BESI t%%3UR= AmSAW
7. .5TAS1L1TI8, M4X1WN F!QDULATIDN RATE
9. MI N1llNl MODUl+lT1ON RATE
10. MAxllvm HoDuL.ATION PULSE WIDTH11, MINIMUM M3MJMTIoN PULRE LIIDIH
HEWZ RANGEdBm 13, i-mxltium cAL16RAT10N FAcrOR cONTROLdRm RANGEdBn 14, CALIBRATION FAcTOR CONTRUL 31EPpERc~ or INCREMENTSNJLLSCALE 15.NUMBEROfPOIJERHEADS OR SE3W0RS
PERCENT/D&Y 16, 140HINAL lMPEDANCEPULSES/ 17. NOISE
SECOND 1S. I’MXIMJM RESPONSE TIMEWLSES/ 19. VSUR FOR COAXIAL POIJER HEAD$
SECDND 20. VSUR FOR IJAVEW1 DE POWERHEADSSECONDS 21, !14X1hlJM [NPUT fJITTiOUT DAMAGE5EC0NDS
J RECORDEROUTPUTK. VI DEo ourPuTL. lEEE/488M. INTERNAL SATTERY POWERN 50 HZ POWER0. 60 HZ POI.IERP, 400 HZ POUERQ. 115V ACR. 230V AC
2. A minimum rreq.ency of d. shall be indicated bv a zero,
u~
PERCENT
PERCENT
PERCENT
NUMBEROHMSvOLTsSECONDSNUMBERNUMSERlJAnS
819,10,11, This parameter is of interest when the pouer nea$ure.ent is to be Derfor.ed on a pulsed sienal andu1ll have a bearing on determining the type of pow. neasur ing test set required.
19,20. The maxitiun allou.ble VSWR at the input of the mp.
90
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●UFAPCN SYEIEI ELE~RDNIC TE= EQU1PMEWI PMWEIERS
LTE NDUN NAME: TEEI SET, MBWRING, RADIATIDN HAZARD (INCLUDES Mn8B,EIE GRW!ilC CODE: RHO
PASAHEIER a PARAIIEIEB
RAD1ATION HAZARD,
1. MINIMJN FRECIUENIX HERTZ 8. POUER 1ND1CATION ACCUE’ACi
2. mxlm FREWENLY HESIZ 9. ft4X1tfJll PEAK OVERLOAD
3. DYNAPflC RANGE OF tlEASUR~ DEc1 BELS4. EREOUF24LXS~SITIVITY DEC1BELS 10. f14X1MJf4 AVERAGE OVERLOAD
5. BA3TERY OPERATION LIFE HoURS6, MINIWii POWER 1NDICATION UAITS/SQUARE 11. RESPONSE TIMS
CENTIMETER7. MAX1f9Jff PCUER lNDICAT1@N UAITS/SQUARE
CENTI MLTER
DJD-LT D-2121 (NAVY]1 t!arch 1984
IF GPETE)
_
DECIBELSUA3TS/SIIUASE
CE4T1METERUA’lTS/SWARE
CENTIMETERSECONDS
A. RECORDEROUTPUIS. DIREC1’lGNAL PSOBE
C. RA~ERY LEVEL INDICATORD. BATTERY SECHARGL4BLE
N-
5. The nunber of hours the ETE is required to operate on battery wirhou t recharging.
10
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DOD-SID-2121 [NAVYI1 March 1984
IJEAPON smm ELECIRONIC TES Em] Pmw PARAMETERS
ETE NOUN NAME: TEST SET, MEAsuRING, RIF1 ( INCLUDES BIF1 METERSIE1’E GENERIC CODE: F1’I
1. HINIMUil FREoUSNCY2. MAXIMJH FREQUENCY3. FREQuLNCY SCALE ACCUFMCY4. MAXIMdM SENSITIVITY5, MINIMUM SSNSITIV1~6. VOLTAGE MEASUR’SMEWISANGE7. VOLTAGE ACCURACY8, MAXIfllJM lNPUI SIGiAL9. INPUT V2WR
h 50 OHil INPUT RES1STANCEB. TYPE N CONNECTORC, IMPULSE CAL1BRATDRD. BEAT FREQUENCYOSCILLATORE, Fil DISCRIHINATDRF, AVERAGE DEIECIORG, PEAK DETECIOBH. C!U.4S1-PL4K DETECTOR1, AK SWITCHJ AUTO SCANK CALIBRATED ANTENNA
HERIZHERTZPERCfNTVOLTSVOLTSDEC1BELSDEC1SELSVOLTSNUMBER
PARANETES
10, M1N114JMBANDLIIDTHAT -6 dB11, HAXIIIUM BANWIUIM AT -6 dB12, BEST GAIN FLATNESS13, IF REJECTION14. 11i4GE BEJECTION15. SPUSIDUS SEJECTION16. MAXII’NM LOCAL OSCILLATOR RAD1ATION17. 5’NIELDING EFFECTIVENESS18. AUD1O OUTPUT LEVEL
L. lEEE/488M. OSC1LLOSCOPE OUTPUTN. 1F OUTPUT0. FREQUSNCf ANALOGOUTPUTP, AMPLITUDE ANALOGOUIPUTQ, INTERNAL IL4TIERY POLIERR 50 HZ POWERS. 60 HZ POWERT. 400 HZ POIJESU, 115V ACV 230V AC
m.
1. A minimum frequency of dc shall be indicated by zero.
4. T%. .OSE sensi rive inlmt level required of tt?e ETE. The smallest workable input voltage.
5, n. least sensitive inD.t level required of the SIE.
HSFW.DEcI BELSDEC1BELSDECI EELSDEC1BELSWATTSDEC1BELSdBm
4,5. If both maxi... (Darameter 41 a“d minim.. (parameter 5) sensitivities are entered, . change in sensitivityis required across the frequency band.
9, The maximum allowable VSUR of the 2TE at its input.
1S. TTIe audio output level required of the ETE.
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●
I
I
I
WD-SI’D-2121 [NAVYI1 March 1984
uF24voN SYsrm ELECTWNIC TELT EQUIPMENT PASAH5,TERS
nE NOUN NA~: TEST SET, fiEAS7JRING, WR ( INCLUDES VSLIS METERS]~E GE’JESIC CODE, TS2
PARAtlSIER
1, NINIFWM INPOT FREowNCY2. KAXIIWN lNPWC FREQUENCY3. BESI ACCURACY‘1, HINIPlhf dB RANGE5. M4XI14JM dB RANGE6. BE52 SENSITIVITY7, BRIDGE ACCURACYS, RESOLUTION
9, NOISE FIWRE10. uORSI C4SE COAXIAL VS.IR
A. RECORDEROUTPUTB. AMPLIFIES 00TPUTC, CRYSTAL DEZEL70RD. BOLOI!ETER DETECTORE. COAXIAL SLUITED LINEF. WVEQJIDE SLOTTED LINE
HERIzDEC1BELSDECIBELSDEC1BELSVOLTSPERcENTDEC1BELS/
DIVISIONDEC1BELSNNflBER
11. UOR5T CASE fJAVEQJIDE VSUR12, MI NIFVJM BANDUIDIU13. MAXIMUM BANDUIDIY14. SF INPUT CONNEHOR15. lERM1NATION CONNECIOB16. mTm CONNEaOR17, ALc ONTPUT CONNECTOR16. CAL1BRA’I’EDMISMATCHES19. NAXIMJM lNPUI LIITHOUT DAMAGE20. 1N2uT IMPEDANCE
G. lNTESNAL BAITERY PIIIERH. 53 HZ POUER1, 60 HZ POIJERJ. 400 HZ POIJESK. I15V ACL. 230v AC
1. A minimum frequency of d. shall be indicated by a zero
C, 0. An ,X shall be entered if the E’IE is required to have this function.
93
NWfBERHESTZHERIzlYPETYPETYPETYPE
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DOD-SO-2121 INAWI1 tlarch 1984
wiipw zwnm ELEcmof+lc TESC EQUIPMENT parameterS
~E N’JJN NA~. TE= S~, PULSE SILtW.LING> TELECOMDE GWEBIC CODE: ‘TSP
1, PEBCCNI BREAK W21ER MAXIEIJfi 1ND1CATION PESCENT2. PERcENT SR2AK ilmER NINIMJM 1ND1CATION PERCENT3, PERcE4T BREAK METER ACCURACY PERC2NT4, PERCENT BREAK !SSTER REsOLUCIGM pERt5NT5. SpEED METER ~LL-SCALE INDICATION PuLSES/
SECOND6. SPEED MEIER MIN1lTJM lNDIChTIDN PULSES/
SECOND7. SpEED METER AC~RAU PERCENT8. SPEED METER RESOLUTION PuLSES/
SECOND
9,10.11,12.
13.
14.15.16.17,
k:N,0,P.0,R.s,‘r,u.
M~ER CIRCUIT IMPEDANCE OHMSMETER RELAY IMPEDANCE OHMSSPEED MEASURING Cl RCUIT IMPEDANCE OHM3INTEWAL OstILLATOR MINIMUM FREQuEticY PULSES/
SECONDlWTESNAL OSCILLATOR MAXIMUM FREQUENCY PULSES/
SECONDSENO pERCENT BREAK MINIMUM RANGE PERc~TSEND PERcENT SREAX MAXIMUM RANGE PERCENTNOMINAL DC ~PPLY VOLTAGE vOLTSNoMINAL AC SUPPLY VOLTAGE VOITS
sPARK SUPPRESSIONRACK MOUNTpO~ABLE1EEE/$3SINTERNAL BATTERY POIAER50 HZ POIJER60 HZ POLIER400 HZ PoWER115V AC230V AC
D, On X shall be ente.-ed if the STE is required to have both an M lead O. .hich & battery .1 Ero..d .ig..l istranmi t ted to the Sigmli.g equipment and an E lead over which open or ground signals are received from thesignaling unit.
94
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o DOD-ZZD-2121 [NAVY)1 !iarch 1984
Wwts4 swrsn ELSc2R0NIC Tm Eoui Ptism PAFWMEZERE
HE N~ NAt13: 2ESZ sn, si4MREZP. G=iERIC CODE: 1S5
1’
I
●
PAFWIZZER
1. MINIMJM FRM+JDWY2. l’!AX1lldi FREWENCY3. BEZT FREDU53WY ACCURACY4. BESI FREQOZNCY RESOLUTION5. HINIFUJN ur CUZPUZ LEVEL8, Ft4XIMJM RF DWZPGZ LWEL7. RF OUTP~ ACCUSMY8. MINIWM FOLSE REpEIITIGN FRE13UENCY
HERTzHE~zHE~zHE~ZdsmdsmDECIBELSPULSES/
SZCG4+D9. FA3X1MUMwLSE REPEZ1TION FREQUEW3’ PULSES/
,Sm...-.,. .10. BE= PRF INDICATOR RESOLUTION HEnz11. fllNIWH WL3E UIUIS SECGNPS12, MAXIMJM PULSE UILiTH SECONDS13. BE= PUL3E UIDTH lNDIC&TOR RESOLISTl~ SEC~DS14, HIN1hlJM POWERiiZ.49JR~lWT WmTs
A, FREQUSNCi DIGITAL DISPMYE. pWER MZAGUR~SWI DIGITAL DISPLAYC. PRF DIGITA:D. MDS DIE. PULSEF. RANGE M&RKS
IL DISPLAYiGITtiL DISPLAYwtrzn OIGITAL DrsPf,.4Y
G. EXTERNAL NODUUTIDN CAPA211L1ZYH. TM CAPABILITY
~ m
15, M&XlW.Nl POldERlfSASUREl~ LMTZS16. SEST POLIERMEASUREMENT PERCENT17, BEEI POWERil~SGREfQIT REsOLUT1ON DEc1BELSlB. SPECTRUMANALYZER lNPVT S~SITIVIIY VOLTS19. SPECISUM ANALYZER SCAN VI DTH HERTZ20. SPEC2RUM ANALYZER MINIWM s5EEP SPEED SIJEEPW
SECOND21. SPECTINJN ANALYZER IIAXIMJM SWEEP SPEED SWEEPS/
SEC~D22. BEST ~S INDICATOR RESOLGTION DEC1BELS23, MAXIMUM OSCILLOSCOPE SENSIIIVITY VOLTS/
DIV1$l GN24. NAX1llUM OSCILLDSCOPE FREQU~CY HERTZ
RESPONSE25. SYNC SCOPE INPUT JilPEDANCE OH?!S26, MAXIMJM 2N SWEEP EWURSIW HEsTZ
1. SYNC CAPP.B!LITYJ, INTENAL BATTERY PGWEEK. 50 HZ PIWERL. 60 HZ pOUERM. 400 HZ PouERN. 115V AC0, 230V AC
1. The minimum frequency thal any part of the zzE is to be capable of neasuring analor genera fine
2. lme maxinum frequency tlu.t any part of the ~E is to be capable of measuring ..6/.. generating,
3. The least deviation .allmdable from the nominal or indicated value,
5. The I!intnun Wsble, calibrated output level required of the ECE
6. The maximum usable, calibrated output 10V.1 required of the ETE.
18, The nininum signal 1...1 required to produce 1 centimeter of deflection
23. The most sensitive position required for the vertical input.
G. Defines tha requireumnt for tn. signal generator part of Lbe ETE to respond to an e“ternal modulation signal.
H, Defines the requirement for the eicral @Wrator pxrl .> rhe 2TE to prod.ce a frequency-modulated signal.
●95
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DOD-STD-2121 (NAVY]1 March 1984
w.wON swm ELELTRONIC TEST E12UIPtIm PARAH~ERS
ETE NOUN NAM: TEST Sm, RADAREIE GENERIC CODE, TS5
1. Def i.e. m. requirement for the E’tE epectmm amlyzer frequency sweep circuit to be synchronized by anexternal siwep Synchronization signal,
96
●
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● DOD-SID-2121 INAVY]1 &rch 1984
W.bPON ZY= ELECTRDN1C TE31 EQUI F’”w F.AWffnERS
EIE NDVN NAfiE: TEST S~,zm GENERIc cuDE: T3N
PARAH=ER
1. MINIM,JM FREWENCY2, WX1l%l! FREGUENLl3, FREQuZNCY ACCURACY
wD1O
4. sE6r pRE04JENCYRE50LRI W5, BE5T RATED ER2W2t!~ ‘SCABIF,llY
HER?ZHE~ZPArrTs/
CULL1ONHERTZW.STSI
NILLIDN/YUR
HE~ZHEETZHE~ZHESIZHERTZdRmalibiDEL!]BELS
~
15, WT~ VfMR16. LEASAGE17. fklF2fw1 C OWP~ BELDU fUNDAffEVfAL18. NOwfifmIc oo-rrm-z BELIM ~D~AL19, M4X1hlll RERIDDAL AM20. M4X1WM SESIEUAL FN21. f&,x114.itf SSNSITIVIn22, INTERNAL WWWTl~ FBEGU2NCY23. MI NIMJM ExTERNAL Ail FREQUE4CY24. Pi4X11#lj EXTEWAL AH FREWE-im25. ti4X1tfJM AM PERCFNF26. AM ACWR-4CY2?. mNIfm EXTEPNAL m FREUU2NCY28. f41X1illtl EXTERNAL Ff! FREQuENcY29. M4X1~ FM DEVIATION30. fF3 OZV1ATION ACCllRA~31. Nr3DOLATlDtl D1~ORTIDN
NUMBERVOLTSDZCIEELSDECISELSdkHEsrzVOLTSHEFTZUER1’ZHENTZPEsCfl?ZPEscmzHERRHERZZHEWIZPERC2NCPERC~
A. DIGITAL READOIJCB, FREQuENcY VERNIESC, L2YEL VERNIESD, ZWEP FUN~Iti+E. SE.4RCN FUNCF1ONT O~WZ PR~E~lON
o
G, DSCI LLOSCDPE DISPLAYH. D12-10DLWTPUZ1. SNC cOtWE~ORSJ, N CONN~ORS
X. INTENAL 2YNcHRoN1zAT1CV4L. 2WK NWM, SPZAXERN. INTERNAL SA~ERY POWERO. 50 HZ POIdERP, 60 HZ POUERQ. 400 HZ PCUERR. 115V ACS. 230V AC
1,2. ‘CIIe minimum (parameter I ]/maximum (parameter 2] input and output frequency requixed of the 27E, excludi~atw modulation frequencies. A minimum frequency of d. shall be indicated by a zero.
16, ‘Tim maximum Wltaee allmned 10 be induced in a two- turn, l-inch-diameter coil 1 ittch diutant [..ss anysurface ‘of tne EIE,
17. The ratio in dB below which ?.11 intezral multiples of the 21E f“”damental freQ”ency shall be found.
A. An <X, shall be entered if the EZE is required to have a digital display format to indicate the output orinput freqw”cy. This display format can be .“ LED readout, thunbwheel switcnes, etc.
F. An ,x shall be entered if a reverse pouer protection circuit c.. device is required of the ~E.
0. An ,x, shall be entered if the srE i. rq”ired to have an oscilloscope f“”ctio” for displaying output orinwt .ignaw
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BOD-SZD-2121 [NAVY)1 March 198*
WAPUN 2YszFn ELEcZRONIC TE5C EQUIPMZNZ PABAt4mERs
ETE NWN NAMZ: TEST SET, BECORDER, ‘TAPEETE GENERIC CODE: PzO
glg
HERTZHEKZZHEFzZVOL’CSVOLTSVOLTSOHMSPERCWZPERcENTPERc~T
FLUTER
PARN43TER
11. PllNIfllJfl OUTPUT12. MAXIMJM OUTPUT13. BEZC RATED DILTORTION14.15.16,17.18.19,20.
vOLTSVOLTSPERcZNT0HH3NUMBERNUNBERNUMBERDECIBELSDEC1BELS+/-DECIBELS/
1000 HES7Z
A, @Cl LLOSCOPE OUTWTB. REcORDER OIJTPUZC. FILTER SU1’ZCHD. D1=ORTICN TE6’ZE. RESPONSE TEzZF. Sl@iAL-TO-NOt SE TEsIG. ANALG5 LEVEL INDI CA’ZORH. DIGITAL LSVEL lNDICATOS
1, NI CROPHONETESI OUTPUTJ. lEEE/488K, INTERNAL 3An~Y pOIJERL. 50 HZ POIJCRil. 60 HZ POIAERN. 400 HZ POUES0. 115V ACP. 230V AC
1, 1f nore t~ one carrier frequency is require?, the highest frequency shall be entered, Additional carrierfrequencies shall be entered under special SequlrEments,,
15. The mmber of percent full-scale flutter ran’gee required
48
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@WEAPONSY5TSM ELECIRONIC TEST EQIJIPUENT PARAMETERS
●
ETE NW?4 NM. TE21 SEX, SEitlC@WUCIOREIE GE+ERIC cODE: TE1
PARAUEIEB
A. EMIT1’ER-SASE BIAS lNDEiTIFIER
e
NUMSERNUHBERNUMBERAMPEREsAMPERESNunsEBbfiPEREsAHPEREsAHPERES
PARAMFIER
uoD-sru-2121 [NAW)1 March 1984
1’
I
99
AMPERESPESCENT
‘Wt’15PERC~ONMSmos
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DOD-SID-2121 [NAVY)1 March 1984
WEAPON3YSIEH ELECTRONIC TEST EQUIPMENT PARAM~ERS
EIE NCUN NAME: TELT SEI, SDNAR=E GE+ESIC CODE: TS6
~
1, NINIMJM FRE13UKNCY2, !!AX1!DJMWiEQUSNCi3. nlNIMJM INPUT
,=
HE~ZHE~Z, .VOLTSVOLTSDEC1BELSDEC1SELSVOLTSDEC1SELSNUMBERCENTIMEIERS
1. A minim.. frequency of dc ,shall be indicated by a zero,-,
E. An ,x,, shall in~ic.tethat. geni..ewir.d.
G.A.,x,,shallindicatethatrecorder paper i. required.
1, An ,X Bhall indicate Chat a headset is reQ. ired.
~
11, Y-AXIS PEN TRAVEL12. PEN DYNAMIC SANGE13. SESI RECORDINO ACCURACY14. M4X1MUMSLEU SPEED
15. SEARING RANGE16. BEARING ACCURACY17, TIME BASE18. INPuT CAPACITANCE19, INPUT SESISIANCE
CENTIM?IERSDECIBELSDECIBELSDECIBELS/
SECCNDDEGSEESDEGREESMINUTESFARADS0s?!s
PmEs
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wD-srD- 2121 (NAvy 11 l!arch 1984
.
●
!JF.APoNSYSTEM ELECTRONrC TEST EQU1Ptl~T PARAMFXERS
ETE NOUN NAME: TE5T s~, TRANSMISSICN , ‘CELECOMSIT GENERIC CODE, T5T
HERTZHEmzPERcR4TDECIBELSPERCENT
0HN5 VDLTSOKtlS VDLTS
DECISELSDECIBELSDEC1BELSDEC16ELSHERTZ
~ m-
13. RECEIVE tiAX1hUM FREWEWCY HERIZ14. RECEIVE FREWENiTi RESPDNSE DEc1BELS15. RECEIVE PL4X1MUilRMS lNPUT TO 6V0 ‘DlC4S VOLTS16. RECEIVE MINIMUM w NLL-SCALE VDLTS
VOLTAGS R&NGE17. RECEIVE MAXIFDJMRffs mLL-SCALE VOLTS
VOLTAGE RANGE18. ,REcEIvE ACCORAfTi PERCENT19. RECEIVE lNSEM’lDN LDSR DECISELS20. IMPEDANCE BALANCE DEC1BELS21. ll@EOANCE BALANCE ACCVUACY PSRCWT
1,12, A minimum fre$uency of dc shall be indicatedbya zero
4,14. The total variation of amD1itude across the frequency band expressed as a ratio between minimum and.a. imu. levels, For example, a requirement for ./- 5 dS flarness {r.. a reference level shall be recordedas 10 dB,
●101
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DOD-~ 0-2121 [NAW11 Karch 1984
IWAPON SYSIEt4 ELEcIRONIC TEST EQU1PHUil’ P,MAHEIERS
STE NOUN NAils: TEST S5T, IJHITE NOISE, TELECOfiSTE G~ERIC CODE: 7%
~ =
1. MINIMJM FREQUENCY HERTZ2. MAxli-f.nl iREG’dENCY HERTZ3. BEST FREOU~CY ACCURACf PERCENT4, MI NIMJM NOISE PDUER OUTPUT db?5. )NIXIHUM NOISE PM.IER OUTPUT mm6, NOISE OUTPWI L~EL ACCURkW PERCENT7. OUTPUT FLATNESS vEcl EELS8, oUTPUT 41_Z’ENUATORRANGE DECIBELS‘2. OUTPUT ATTENUATORSTEPS NUMBER
10, sEST OUTPUT ATTNJATOR ACCURACY PERCENT11. GENERATORPf,AK/RHR RA’C1O DEC1BELS12. oUTPUT IMPEDANCE13. MINIMJM RECEIVER FREGUKW %Ez14, NAXIMJN RECEIVER FREQUEVCY HERTZ
pkRAMFZER
15, SEST RECEIVER FREQUENCYACCURACY16. RECEIVER 8ANDUIm17. RECEIVER SENSITIVITY18, MAXIMUM INPUT LEVEL19. MINIMUM INPuT LEVEL20, INPUT ATTENUATOR R.4NGE21. INPUT ATImJATOR SIEPS22. BEST INPUT ATTENUATORAC13JRACY23, NOISE FIQJRE MEASURING RANGE24, M2ASURENENThCCUR.41Tf25. STANDARDNO1SE SOURCE SOURCE LEvE126. NOISE SOURCE EXCESS NOISE27, R2TuRN LOSS28. 1NPuT I NPEDANCE
J 1EEEI+88K, ESTERNAL OSCILLATOR INPUTL. 1N7ERN,4L BATTERY POWERH, 50 HZ POWERN 60 HZ POLIER0, qOO HZ PCWERP, 1151’ .4CQ. 230V AC
1,13, A minimum frequency of d. shall be indicated by a zero
PERCENIHERIZd6md%odSmDECIBELSNUMBERDEC1BEISDEC1EELSDECIBELSUATTSDECIBELSDEC1BELSOHMS
7. The total alloued variation of output ruxpl it.de across the f reQuency bti expressed as a ~ario belueen.inim..sndmaximun level., For example, a requirement for ,/- 5 f10 flatness from a reference level shallbe recorded as 10 dB,
102
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o cn3D-srD-21z1 (NATYI1 March 1984
WAPC# RYSIEI! ELECIRDNIC TEST EQUIPNENT PASAHEXERS
nE N~ NAME: TESTER, 81T ERROR RATE, TELECCM~E GENERIC CUDE: TSE
‘
I
I,.
●
PASAMETER u= PARAMETER mum
1. MINIMJli SPEED BAUDS 7. M4X1MIJ71OPERATINO INPuT2. MAXIMJM SPEED
VOLTSSAutrs 8. BEW lNPIJT VOLTAGE ACCUF&iCx’
3. BELT SAUD SPEED ACWJRACYPERC5NT
PERcENT 9. MAX114.N4INPuT U117iDUT DAtlAGE4. KAXIIUIJI ERsOR PATSEEN
VOLTSSITS 10. SECDRDERCUJTPU_2lUPEOANCE 061t3
5. tU,XIWJM BIT ERWR BATE NGNBER 11, NUMBEROF READOUT D101TS6. UINIMJM lNPOT VOLTAGE VOLTS
NUIIBER
A. cBYsf.4L cONfROLLEOB. P$EGDGRA14Df3t4C. 2ULLDUPLEXD. 1:1 DGT CTCLEE, SIEADY M4RXF. STEAGY SPACEG. 2YNC LOSS lNDICATGRH. S~D ERROR lNJELTION1. SECEIVE ERRoS lNJE~l ONJ, AUTO SANGE T. 230V AC
C. bn ,,X, shall be entered if the ETE is required to operate simultaneously in both sending arm receivingfunctions’.
H, 1. m ,x shall be entered if the SL”E is required to permit insertion of single bit errors into either thetransmit or receive patti.
K, RWuest-to-eend sigml.
L. Oat?.- ter.ina l-ready signal.
103
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DOD-STD-2121 (NAVY]1 March 1984
LIEAPONSYLTEl ELECIRONIC TESZ EQUIPM~T PARAMETERS
FrE NOW NAME: TEsTER, RELAY, TELECOMETE GENERIC CODE: TS4
PAR.4MEIER m PAm~EB ~s
1. !UIXII!UM OPERATING CURRFt4T AMPEREs2, M4X114JM BIAS TESC
a. MAXIMUM Dc fi~ER SCALE AMPERES
3. MAXImJn CONTAn BREAK TESTPERCENT ‘2. BE5T OC ML?ER ACCURACY PERCRJIPERCENT 10. MI NIMJM AC METER SCALE
4. lNSGl,ATJON RESISI’ANCE lESI: HIPGI Ai17EREs
5. MI NIMuH OSCILLOSCOPE OUTPUTVOLTS 11, MAKIWJN AC MECER SCALEVOLTS 12, BEsC AC MFTER hCCIJRA~
AMPERES
6. MAXIMUM 05 C1LL0sc0pE OUTPUT VOLTSPERCEXT
7, filNIhlJH cc MCrER SCALE13, WHBER OF sOuRcE DRIVE VOLTAGES NUMBER
Ar’iPeRcs
h. S1C2i4 72 ADAPTERS. S1rl!A 72Y ADAPTER
J.SINGLE-COIL TE511NGK. EX’CESNALDRIVE
C, SIGI% 722 ADAPTER L. OLTAL SOCKElD. Sl@lA 7’/ AUfiPTERE. IJESIERN ELECIRIC 255A ADAPTER
H. INTERN6L BATTERY PWER
F. LJE51ERN ELECTRJC 215 ADAPTERN. 50 HZ POtdER
G. UESTEFN WN1ON 202 ADAPTER0, 60 H7. pOwERP, 400 HZ POIAER
H. LIESTESN UN1ON 203 ADAPTER Q, 115v AC1. CW4L-COILTEbTING R. 230v AC
A, B, C, D, E, F,G, H, An K,, shall indicate the required adapter,
104
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cutI-srn-2121 (NAVY)1 !larch 1’384
IWAPON 8YsID4 ELECmONIC TE81 U2LJIPME+T PARAlfETERS
kTE NOUN N,4ff2: VOLTNEIER, ML4MG, ELEC2RCMIC [INCLUDES AC, DC, Rr, Mu TRuE sffs vOL~ERlETE GENERIC CODE: VO1
PARAM5TER
~.w VOL~nER0,TRUERIISVOLTIIDERC.DIrFFRENT1.4L(PDTENTIoMEM1C) MODED. DIGITkL RSAC04JTE. dB R2ADOUTF, INTERNAL AHF’LIFIER OUTPUTQ, AC-DC CONVERTERCWTPUTH. lNPUT 1SOLATED FROM GROUND
E
VOLTSVOLTSPERCEV2
VOLTSVOLTSPERCENT
F&NADS
~
10. M4X1iWJMFREQUENCY11. MINIMJN FREDNENcX12. CREST FACL’OR13. li4X1MJI V3WR14. CDPMONf’92DE REJPCHON15. MAXIMUM lNPW WIIlfO!JT16. M?IXIMON INPUT wlmom
RATIODAfiAGEDAM4GE
17. M4X1!DJM DC RECORDERWTPUT
1. EXTEWAL DC PDWERJ, lEEE/488K. INTEYJ4AL BAT2ERY PChlESL. 50 HZ PDLIERM. 60 HZ PGLJESN. 400 HZ P@JJERD. 115V ACP. 230V AC
_
HERIzHERTZNUM8ERWmERDEC18EL8VDLTS CCVOLTS PF.4K-
P2AKVOLTB
●4. The higtwt input resistance value required.
12. A rstio of Desk x. rns volte .1 full scale. Deerading of me crest factor is inversely prowrtional to theReter deflection. The crest factor value required of the Em slmll be entered.
14. me mpability o< me STE to reject a signal applied Sim.lraneously and in phase to both input terninalB,
C. This applies to FIE uitb potentiometri. operation where a“ internal known voltage is applied in opposition 10the i“p”t .oltaee and is adj”e ted until a null or zero difference is obtained, This does not desigrmte that thviwut ie to he isolated fro. and balanced to ground. 1 f differential node is required, an Y s)mll be entered.
D, Digital readout is? a method .f indicating the measured voltage and nay be in the font of an electronicdigital indicator or knob indications such as those used on certain differential voltmeters. An ,X, shalli“d icate a requirement for digital readout,
H, An Y stiall be entered if the 2TE input ie required to be isolated f mm ground. Breaking of a ground srrapbetween e 10U terminal and ground does not alIJays isolate the input.
●
I
105
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vOv-sru-2121 [NAWI1 March 1984
u3ApoN 3Ysrm ELELTTRONICTEW mUIPMENT PAiTANETERS
ETE NOUN NAM2: VOLTMETER, D1FFER5NT1AL ( INCWDES AC/DC, DS> AND TRUE RM3 D1EFERWT I AL VOLTMEIER)EZE OEVERIC CODE: V132
1. KAXrm! DC VOLTS2, MINIMUM CC VOLTS3. BE51 DC VOLTAGE &CCGRAIX4. HIa-vOLTAoE pROBE MAXIMUM5, BEST DC VOLTAGE RESOLUT1ON6. MAXIMUM AC VOLTS7, MIN1iWH AC VOLTS8. BEST AC VOLTAGE &CCURAC’f9. BEST AC VOLTAGE RESOLUTION
DC
10. li4X1FfJM DC NULL RANGE11. HIN lMUM DC NULL RANGE12, BE52 DC NULL RkNOE ACCNSACY13. BEST DC NULL RANGE RESOLUTION
14, BERT DC NULL RANGE RESOL!JTIGN
INPUT
A. TRUE S!13B. DIFFERENTIAL (P02~IDM~R1c) FIooec, OIGIIAL READGUTD. dS READDUTe, lNmT lsOLATED FRCM CSDUNDF. lEEEI.18B
m
VDLTSVOLTSPERCENTVOLTSVOLISVolrsVOLTSPERCENTVOLTSvOLTSVOLTSpERCEN-TPARTS/
,YILLIGNVOLTS
~
15, P!AXIMJH AC NULL RANGE16. iilNIMJM AC NIJLL RANGE17. SELT AC NULL FL4NGEACCURACY
1s. BEsT AC NULL EAN6E RESOLbTION
19. BEsr AC NuLL RANGE RESOLUTION20. MUIMJH FREOUENW21, MININU!I FREQuENcY22. INPUT DC RES152ANcE23. FWVIMTJMAC INPUT RES13TANCE24. NININIJM AC INPUT CAPACITANCE25. CRE51 FA~OR26, COillIN MODE REJECTION RA’TID27. MAXIMJM UC RECORDEROUTPUT
G. lNIEANAL 8AT1ER% PowERH 50 HZ POWER1. 60 HZ PDUERJ 400 HZ POWERK, 115V ACL, 230v AC
VOLTSvOLTSPERCCNT OF
lNPGTPASTS/
M1LL1oNVOLTSHWTZHESTZOHF!SOHMSFARADSNUMBERDECltELSVOLTS
1,2,3,6,7,8. This pa?aqeter ap$lies to the ETE when ueed w . conventional voltmeter and rot when usei in thepotentionetric mode.
10,11,12,13,14,15,16,17,1B,19. This Dararwter applies to the ErE uh.n used in the Potertrionetric mode
22,23. The higheet input reeistame required,
25. Crest factor is ?, rat i. of peak to rms vol ?. at full scale. Desrading of the crest factor is invereelyPwwzio.al to the neter d. fl.cc ion. TIE crest factor value required of the ET? shall be entered.
26. ‘The capability of the EIE to reject a signal aQplied sin.ltaneously and in phase to both i“p. t terminals
B. This applie, to ETE with potent ionet ric operation where a“ internal know” voltage is applied in opposition 1.the inD”t voltage and is ad j.sted “nt il a null or zero difference is obtained, Thie does not desienate that theinput is to be isolated from a“d b.la”.ed to gro. ”d, If diff.?ent ial mode is !’eq. ired, an ‘,X’ shall be entered.
C: ?igital ~eado.r is a method of indicating the measured voltage and .ay be in the form ofm elecmonicOlgltalindicator or knob i“dicar ions such as these on certa i,? dir fere”t ial ..1 t.erere. AD ,X shall i.dicate arequirement for digital readout.
E, An ,X,, shall be entered if the ETE input is required to be isolated from ground. Breaxing of a grouna etrapber.een a 10U terminal a“d ground does not aluaye isolate the input.
106
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●
I
I
●
●
EoD-3rD- 2121 (NAVY11 Farch 1984
l#SAPUNSYSIBl6LELTRDNICTEST EQUIPULNT PARAHLTERS
EIE NOUN NAKS: V0L3’METE8, FREWEWY SELEC1’IVEEIE GEWRIC CODE: V06
PARA15EIER
1. MINIINJM FREQWNCi OF SELE~lVEMJDE: UIDE B.4NEI
2. MINIMJM FREIYJENCi DF SELECTIVEW3DE: UIDE SAND
3. tllNIM.Jil FREDVt74Ct OF SELEIXIVENODE: NARRDU BAND
4. ,YAX1flJM FREQIJ5WY OF SELELT1 VEMODE, NARROU SAND
5. MINIMJM FREQUENCYOF FLAT MDDE6. t14X1MJM FREQURICi OF FLAT MODE7, BEST FREWEWY ACWBACi8. BESl FREWENCY DISPLAY RESOLWIDN9. BANDPASS OF UIDE-SAND NODE
A, DIG1’IAL FREQUENCYDISPLAYB. DIGITAL AMPLITUDE DISPLAYC. RECORDERDU’IPUTD. PHASE-LOCK CAPABILITYE. ANTCiiATIC FREWENCY CONTRDLF, CARRIER RE1NSEKI1ONG. 1EEE/488
U
HERTZ
VOLTS
HERTZ
HERTZ
HESIZHE~ZHESTZHERTZHESIZ
PASAKE’fER
IQ,11.12.13.14.15.16.17.1s.19,20,21.
illNIMJN lNPGT IMPEDANCEM4XIMGM INPUT IMPEDANCE
H lNTEENAL BAITERY PDUER1. 50 HZ POWERJ. 6D HZ POWERK. 400 HZ PoUESL. llSJ ACH. 230V AC
107
HEF?IZVDLTSVOLTSVOLTSVOLTSDEC1BELsdh?dBcdBcaB.DHMRQHms
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DOD-2TD-2121 [NAVY]1 March 1984
WEAPONsYsr2n ELECIRONIC TEi7 EQuI pi-row pARAMnERS
E2E NCUN NAME: VOLJ’MECE8, PHASE ANGLEHE GEiERIC CODE: V08
PARAMnER
12. PHAsE-s~sITlvE MODE ptwE MnERJWVRALT
A, REFERENCE ISOLATEDB. NUMBEROF FfiEQUL’NCYSELECTIONS
AVAIUBLEc, SUrTCHABLE lNpwr CHANNELD. SIJEEP4BLE FRE12UENCiE, suITaABLE FREQUENCYr. OVERLOAD INDICATOR0, EXTERNAL FILTERS
VOLTSVOLTSVOLTSVOLTSpERCWTVOLTSHE~zHERTZHERTZHEKTZPERcfi+T
pERCENT
NQ?IBER
13, PHASE-SENSITIVE MODEPHASE DIAL ACCURACY
14. PHASE RESOLUTION15. i31ASE-S~SITIVE BANDJl~16. HARMONIC REJECTION17. SIWAL INPUT REsl%ANcE18, M4X1)BJMDC INPUT LllTHOLi_l DA~GE19, MXIMJM RMs INPQ7 IJITSOUT DAIU,GE20. slaAL INPUT Capacitance21. REFER~CE lNPLJT RES1STANCE22, REFERENCE INpUI CapaCitanCe23. i%4X1fllJNALLOWASLEDC lNPQT
H X-Y ORTPUT1. lEEE/488J INTERNAL BATTERY POWERK, 50 HZ pOUERL. 60 HZ POWERm, 400 Hz pOuERN, 115V AC0. 230V AC
DEGREESPERCWCDECIBELSOHMSVOLTSVOLTSFARADSOmFARADSVOLTS
5,7,8. An ETE ice. has total mode capability if it can be used as a normal voltmeter. If applicable, the totalmode values required of the ETE shall be entered,
9,10, 11,12,13,14,15. An ErE item is phase sensitive if it can be used w % phase measuring meter. If applica-ble, the phase sensitivity values required of the ETE shall be entered.
B. The total number of fixed f reQuencie$ required in the phase sensit i.e rood. .f the ETE shall be entered.
108
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oIII
DOD-SD-2121 (NAW]1 March 1984
W.4PON SYs~ ELECi”RON1C TEZI EQU1PMWI PAR,tMEIERS
EI’E NOUN NAHE: VOLTN?iTER, VELTORETE GENERIc CODE, VO.1
PARAnnER
0, RECORDEROUTPUT
RANGERANGE
HERTZHERTZVOLTSVOLTSVOLTSVOLTSVOLTSVOLTSPERCENTDEGREES
pARbNETER
11,12.13,14.15,16.1’/18,19.20.
BE= PWISE RESDLUTIDNpHASE ~ER OFFSEIPHASE ACCURACYSANDI$lDINmxlWtl *EL ISOLATIONi14X1MJM REsIDOAL NOISEtiwnml Ac rNPuT urmcm OAWGEMAXII’IJM DC INPUT LIITHOUT DAJb4GEINPUT RESIZIANCElNPW CAPACITANCE
H. 1P SIFNAL oUCPUTr. l~ERNAL SATTERY powERJ. 50 HZ POWERK. 60 HZ POWERL. 400 HZ PCHJERM, 115v ACN 23OV AC
2. A minimum frequency of dc shall be indicated by .9 zero.
●
o109
myN
DEGREESDEGREESDEGREESHEWZDEC1BELSVOLTSVOLTS-P&lKVOLTSCunsFARADS
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wD-srD- 2121 (NAvY11 March 1984
THIS PAGE 1S 1NTE4TI ONALLY BLANK.
110
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● wD-srD-2121 (NAvYl1 March 1984
APPENDIX C
●
I
. . .
●
WAPON SYSTEM ELECIRONIC ‘IE2T EQUIPMENT 2UPPORT ITEll PARAMETERS
This Appendix contains information related to DOD-SD-2121 [NAVY]Appendix C is a mandatory part of this standard.
. ,
111,.
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Ib2D-sID-2121 (NAVY]1 March 1984
.
W.4PON ss~ ELECTRON1C TEST EG!U1Pm ~PPO~ lT~ PARANEIERSETE NCAJNNAME: ADAPTER, cOAxlAL, SmETE GWEBIC CODE, AD1
PARAHmER
1. NOMINAL IMPEDANCE2. COPflON END CONNECTOR
A, cf2i7i30N ~D TO TYPE BNC IMALE)9. C@llMOtlE?4DTO TYPE BNC (FF.!l&LB)C.COl_RlONEND TO TYPE C [F14LE]D, cOmON mD TO TYPE c iFEHALE]E. CDP!140NEND TO TYPE HN (MALE)F. comm END To nPE m IFFM4LE)G. COPRIONEWDTO TYPE N [M4LE]H. CDMM~ END TO TYPE N [FEfi41.E]
1, Co!t-m muJ. CWMGN FNDK. COM3N E?+DL. COIMDN ENDH, COM’10NENDN. COPMON~D0. COI’MDN KNDp. CONTAINEB
ETOTO‘mToTO
S% OWE)m IFF,IALE)TNC (HALE)mc IFEM4LE)UHF IM4LEIuHr [FEMALE)BANANA
3. ‘fEE CDNNECTOR4. 20 DEGREE R1Ofl ANGLE LINE SECI’1ON
~PETYPETYPETYPETYPETYPETYPE
1. ‘l’he nominal inpedance required of the adapters under normal C.miitioms
2, me end connector to be commonly shared by all adapters in the sets,
3, If a tee connector is required in the kit, an ,x eh?.11 be entered.
4, If the kit is required m have a 90’degree right-angle lim section, ,md ,K, shall be entered
P. If an enclosure for the adapter. i. to be included with the set. a“ ,x, shall be .“tered
112
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o CQD-GTD-2121 (NAWI1 March 1984
WEAPONRWIEM ELEmRONIC TES3 EQUIPMENT SUPPDi73
EI’E NOUN NAIIE: ADAFTER, UAVE13J1DETO COAXIALFTE GDWRIC CODE: AD3
ITEM PARAMETERS
1, fllNIMJM FREQUENLTi2. MAXIMJM FERQULW73. V2LIR
A. N CONNECTORB, BNC cONNE~ORC. APC-1 CONNECTOR0. ,wc-3,5 COmECTORE. W CONNECTOR
LINJ& PARAMETER
HERTz 4, EIA LmalfERTz 5. mANoE UG( ]/uNUTQIER
F. MALE COtJNECTORG. F2ii4LE CdNNEmORH. SEXLESS1. CHOKEJ. COVER
u=
NuMBERNUM3ER
e
3. ‘J%, worst-case VWR to be allowed 01 the EIE shall be enlered.
4, Electronics Industries Association Ltaveguide Rieid Number.
5. The waveguide flange JAN designation nuaber. Only the number encloeed in the parentheses shall beentered (For example, ’585 would be entered to indicate WG-585 /U.,’)
●H, A eexless coaxial connector, which Uill mate uith any connector of the sane tree.
l,J. The rne of hm.eguide flange reQuired shall be entered.
●113
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Mo-srn-zlzl (NAVY)1 tlarch 1904
WAPON SY=~ ELECCSONIC TE5T EQUIPME4T 9.JPPORT ITEM PARAMETERS
2TE N(UN NAME: ADAETER,EIE GENERIC CODE: AD4
PARAMEIER
1, MINIMdM FSEMIENCY2. M8X1MlJil FREGUEWY
LIAVEWIDE TO UAVEQJIDE
mLN ~
HERTZ 5. IARGE FLANGE W-( )/UHERTZ
3. VSJR6. S)!ALL FLANGE EIA”WR$
NUMSER 7. %LL FMGE UG-[I/u4.LARGE FLdNGE EIA UU# NUMBER
NUMIIERNuMBERNUMBES
A, TAPERED UAVEWIDE E. LARGE COVERB, ETEP TRANSITrON WAVEWIDE F. %LL CHOKEC. CISCULAR TO RECTANGLEUAVEWIDE G. S-MLLCOVERD. LARGE CHOKE
U
1. The worst-case V51JR to be allowed of the ETE still be entered.
4. The Electronic Industries Association IJavesuide Rigid Number required for the large end of the adapter.
5. The waveguide JAN designation number required for the Iaree end of the adapter. O“lY the number enclosedin the parentheses shall be entered. (For exemple, ‘585’ would be entered to indicate ‘WG-585/U.,)
6. The Electronics Industries Association Uaveiuide Rigid number required for the small end of the adapter,
7. The uaveguide Jtdl designat”re number required for the small ..6 of the adapter, Only the “umber enclosedin the parentheses shall be entered. [For example, ,,5S5 shall be entered to indicate ,UG-585/U,)
A, If the adaprer i. to be . tapered WWeguide, a“ X,, shall be entered,
S, If the a6apter is to be of tbe step transition type, an W’ shall be entered.
C. If the adapter is to be of the t-e that adapts a circular flange to a rectangular one, an ‘x shall beentered.
D,E. An X,, shall indicate whether the l&rEe end of the adapter is Iequired to be a choke or’ a cover.
F,G. An ,X shall indicate whether the small end of the adaDter is required to be a choke o!’ a cover.
114
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I
● D0HTk2121 (NAW): March 1984
UEAFQN RYSIFM ELECTRONIC TEST EQU1m SUPPORT lT~ PARAM~ERS
●
●
✌✎
EIE NWNNMIZ: AT2SNUATOR, FIXED, COAXIALE2E GE4ER1C CODE: AT1
1. NDMNAL ATTWJATICN2. ATTMATIDN ACCUSACY3. MINI W.lfl FREGIJBim4. MAXIMJN PREQOFNIX
A. N U3HNEC10RB, BNC CONNECTORC. A~-7 CDNNECTOBD. Sl#I CONNEiXORE. GR$74 CONNECIOR
DEC1BELS 5, w-m tN.VfSERDECIBELS 6. NOtflNAL IMPEDANcE OsmHERTz 7. MAXIMUM AVERAGE INPUT PCUER WATISHERTZ 8. MAXltllJM PEAK lNPUI POIJES UATK
r. m WEmORG, M-M CONNECIORH. n-F CONNECXOR1. F-F CONNECIOSJ SEXLESS CONNEffOR
m
3. A minimum frequency of .ic shall be itiicared by a zero,
5. The worst-case VSWR to be allowed of the ETE shall be entered.
G. tile- to-male connector,
H. Male-m-female connector,
1, Female- rO-female connector,
J. A sexless connector is a rfle That mates with any comctor of the same typ
115
.
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DOD-SCD-2121 (NAVY)1 March 1984
WEAPONSYSIt3f ELECTRONIC TEST E13U1PMKNTSUPPOSI lTDI PARAMETERS
flE NoW NAME: ATTENUATOR, FIXED, COAXIAL, S~ETE GENESIC CODE: AT2
~ _ PAPAllSIES M
1. SMALLEST ATTWJATION VALUE DECIBELS 7, M4X1MUII AVEWOE PowER WAITS
2. LARGESI AT12WAT1 ON VALUE DEC1BELS 8. M4X1MUM PEAK POWER LIA’JTS
3. TOTAL AITENUAT1 ON OF SEI oEC1BELS 9. NGWNAL IIIPED4NCE Cdim4. AT1’ENUAT1ON ACCURACY DECIBELS 10, WAR NUMBER5. i-llNIllUti FREQu~CY HERTZ 11. NUMBERW ATI%WJATOSS IN SEf NUNBES6. ~XIMUM FREQUENCf HEETZ
J.APC-7 cOWE~OR
K, APC-3. 5 CONNEfTORL. BNC CONNEC’CORM. WA CONNELTORN, T?4CCONNECTOR0. GR874 CONNELTORP. M-N CONNECIORQ. M-E CONNECTORR F-F CONNECTORS, SEXLESS CONNEL70RT. CASE TO BE INCLUDED
1. The .alue of the lo.es t-decibel-value atten.. for required in the set.
2. The value of the highest-decibel-value attenuator required i“ the set
3. The required value of all attenuation decibel valuee in the set added toeecher
5. A mini.”m frequency of d. shall be indicated by a zero
10. ‘I%. worst-case VSWR to be allo.ed of the 2TE shall be entered
A, B,c, D, E, F,G, H, If an individual attenuator .itn the indicated decibel value is required i“ the set, . . ‘X,shall be mtered.
P. Hale-to-male connector.
Q. Nale:to- female connector,
R. Fe.ale- to- female connector.
S. A sexless connector is one that will mate with any connector of the same W9..
T. 1f the .1 tenuators are to be housed in a carrying or storage case, an ‘x, shall be entered.
116
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● GUD-SID-2121 (NAVYI1 Parch 1984
IJFAPON 2Y5TEM ELECTRONIC TESC EQU1PMWC SUPPORT ITEM PARAKEIERS
~E NOUN NAtiE: ATCFNUATOR,FIXED, UAVEWIDEECE GE3+ERIC CODE: AT3
~ e PAR4MEIER u.
1. NOMINAL AITE?WATIGX DEC1BELS 6. MAXIMJM FREWJEN~ SENSITIVIV DEC1BELS2. A3TENUAT1ON ACCURACY DEC1EELS 7. t14X1PfdMAVERAGE POUER LWrrs3. MINIMUM FREW21Wi HERTZ 8. FLANGE E,l. A. LI, R.* NU?13ER4. MAXIMUM FREWENCf HESIZ 9. FLANGE WI( )ilJ W?IBER5, V3WR NU?lSER
D, COVERE. CURBEIX1ON CHARTS
8, Electronics Industries Ass.. iation uaveguide Rldgid N..ber.
9, The @Jeg.ide flange JAN designation number. Only the number shall be entered. (For example, ,,58Vwould be entered to indicate ‘WG-585/L,,, 1
C, , D, A. X shall be entered for the type of uaveg. ide f lane. required on the ETE.
●1r!
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DoD-= D-2121 [NAVY)1 W2,Ch 1984
UUWN sfsmi ELEaRONIC TEST EWIPMENT zuppom IT~ PARAMETERS
FIE NW?l NAME: AIT~ATOR, LTEP~E GENERIC cODE: AT4
1, !flNIM.iM A’ITENUATION S2Ji1NG DEC1BELS2, MAX1P9XI AIT~AT1ON S~lNG DEC1BELS3, ATE?WATION AC~RACY DECIBELS4, lNSESIICN LOSS AT ZERO DECIBELS5, tilNriwH FRECWENLY HERTZ6, FIAXIMUM FREGU2NCf HERTZ7, l’14X1MJMAVERAGE lNPUI PWER LIA’ITS
A. 0.1 DEC1BELS LTEPSS. 1,0 DECIBELS SIEPSC. 10 DEC1BEL STEPSD. N CONNECTORE. BNC CONNECZORF. APC-7 CWECIOSO. APC- 3 CDNNELTORH. 21’M CONNELTOS1. GS874 CONNECTORJ, SINDING FWTK, M-M CONNECTOSL, M-F CONNECIOS
8, U4X114JM PEAK INPUT POIJES9. NOMINAL IMPEDANcE
M, F-F CONNE~ORU. SEXLESS CONNE~OR0. WNUAL 3W1TCHP. NmOR DRIVENQ. PROGRAh3’lABLER. INTERNAL SAITERY POIJERs. 50 Hz POWERT. 60 HZ pOUERU. 400 HZ POUERV. 115V ACW. 230V AC
WAITSOHMSNUMBERDEC1BELSNUMBERNUMBER
1. The minimum atterm. ation value to be set on the EIE excluding the zero setting.
2. The manimum attenue.lion value to be eel on the ErE,
4. The permitted insertion loss of the EIE when all sections are set 10 .ero,
5. A .inim.. frequency .1dcshallw i.~ic.cedLw’a zero.
10, The WOrsr- case V2LIS to be 81 lowed of the 2TE shall be entered
11. The capability of the ErE to repeat the same value of actual attenuation when etepped to another settingand returned to tt,e orisinal setting.
12, The number of switching operations allo.ed before failure
13, The number of seQarate switched, turrets, dial, etc. required. mis is not the number of individualattenuators i“ a turret.
A,B, C. 1 f the STE is required to be varied by this amount in individual steps, an ‘K, shall b. entere6
K, Male-to-ale connector
1 lB
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~E N@bN NAlfE: AITENUAlOR, ~EPRE GENERIC CODE: AT6
m
L. Hale-to-female c.nrec tor.
GQD-sTD-2121 (NAVY)1 March 1984
M. Female-to-female connsctor.
N. These are connectors that uill mate with any connector of the wqe type.
0. If the SIC is required to step mamally, m ,,P shall be entered.
P. 1f the 2TE is to be driven by a motor to change settings, an ,<X,< shall be entered,
Q. Remotely controlled stepping of th@ SW by voltage, BCO, lEEE Gus, et.,
●119
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OOD-SID- 2121 [NAVY)1 Harch 1984
WEAPONSYSEN ELEITRONIC TESI EQU1fflE?41 SUPPORT 1TE?4 PARA!EIERS
STE NoUN NAME: ATTENUATOR, VARIABLE, COAXIALETE G~ERIC CODE AT6
1. iflN1llUM AITDWATION SSITINO DECIBELS 6, NAXIMJM FREQUENCY HEW2, F1.4XIMJHAITENLMTIuN S21T1NG DEC1BELR 7. V2WR NU13BER3. lNSERIION LOSS AT ZERO DEC1BELS 6. MiX1F6JM AVERAGE INPUT POUER WI-I’S4. AITt?WATlON ACCVFMff DEC1BEL2 9. MAXI17JTI PEAK lNPUl POIJER IJATIS5. NINIMJil FSE@JEWl HERTZ
E, 5PM CONNE~ORF. ti-?t CONNECIOR
0, F-F CONNECTORH. M-F CONNECTOR1, DIRECT READINGJ. SCSEk!DRIVER ADJU5T14ENTK CORRECI1ON CHASl
1.l%.ninim”.attenuali.n.31..required excluding the zero setting,
2, The rmirm attenuation vaLue required.
5.A mini.,,.~.eque.w.1d.ohaL1 be indicatedbYa 2.,..
7. The worst-case V2WR to be allowed of the ETE shall be entered.
F. Male- to-male mnnwtcm
G, Female- to-female connector.
H. Male- to-female connectors,
1. 1f a direct-reading diel ie required, B. W, shall be entered
J, 1f a screwdriver ad jus?tme”t on the attenuator is I’eq” ired, an ‘,X, shall be entered
X. If a correction chart is required for the .aCrenuator, an ,,X shall be entered.
120
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tOD-sTD-2121 [NAW]1 March 1984
UFAPON SYSTEM ELECTRDNIC ‘CELT ECUIPilENT SUPP06T ITEM PARAMETERS
slE Nmm NAn2: A2TNAT0R, VARIASLE, UAVEWIDEETE GENERIC CODE, AT7
~ WLN P&RAMETER
1, HINIMJI AIT~UATION SEITING DECIBELS 6, M4XIW.IM FREDUCNW2. MAXIMUM ATTFNL!ATION SITTING DECl BELS 7. VLWR3, INSESTION Loss m ZERD SmING DECIBELS 8, !14X~M.Df INPUT POWER4. AT2E3UATION ACCUSACY DECt BELS 9. EIA mu5. MINIMUM FREGlJ5Wi HE6TZ 10. FLANGE UG-( )fl
A, CHOKE C. DIRELT READINGB, CDVER D, CORRELTIDN CHARTS
m
HEWZWfiSERUAITSNUMBERNUMBER
1. The minimum attenuation value required
2. l’he maxin.m inserl ion loco allowed when all .ection@ are set r. zero,
3. The naxi.u. insertion 1.s9 allowed “hen .11 sections are set co zero
7. The uorst-c&se V$IJR to be allowed of the STE shall W entered.
● 9, Electronic Industries Association LIaveguide Rigid Number,
10. The uaveguide [Ianee JAN desie.at ion number, Only the mx!ber is to be entered. [For example, ,UG-585/Dwould be indicated by ,585,,, )
A,B, The t~e of Wveguide flange m~.imd
C, If the FIE is to have a readout dial marked to indicated the attenuation value, an ,X, shall bs enterecl.
D. If a correction chart ia to be 6upp1 ied with those 2cE that we not direct TearIi”g, an W shall be entered.
●121
L--....
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D3D-27D-2121 [NAVYI1 March 1904
WAPW S’fSIEil ELECTRONIC TE5T EQU1PM2NT GuPPORT ITEM PARAfi21ERS
ETE NWN NAM: CAMERA, 0SC1LL02CDPE~E GE?JERICCODE: CS1
PARAMETER
1, LFdS SPEED2, sNUTTEB SPEED [FASTEST)3. 2HlJlTER SPEED (SLOVE2114, MA@l PICAT1ON5. L~S SIZE6. U1DE2T ,,Y STOP
_
NUMBERSECONDSSECONDSNUMBERM] ILIMETERSNWIRER
PARAMETER
7. NARROUESI ‘F’ STOP8. LENS COVERAGE (W DTlf)9. LENS COVERAGE (HEIWT)
10. FI IM SPEED bsA RATING IFACIESTIII. FILM SPEED .45A RkTINO ISLOIJE5T1
E, Li fl-OFF HOUNTINGE, RIJING-AWIY HINGINGG, SELP DLVELOPINO
1, .4 measure of the amunt of light a lew will paw. Meaeured in F stop., it i. equal to the focallength divided by the diameter of the lens,
2,3. TIIe minimum [ item 2) /.axin.m [ item 31 eyed, measured in seconds, required of the camera shut Cer,
A. 1f the shutter i. require6 to be mechanically operated, an , X shall be entered
B, 1f the shutter is required to be electronically operated, a“ ,’X shall be entered,
F. 1f s.ing-a!day hinging is required with the camt’a, a“ ,X, shall be entered.
U=
NUflBERCHXTIIIETERRCENTIMETERSNUffilERNUMBER
G. If the film is required to have se] f-devel.ping (instant] capability, . . ,x,, shall be ?“tered
122
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o coD-srn-2121 (NAVY]1 March 1984
W?AFQNSYbTEi4 ELECTRONIC TE3T EQJIPHENT PASAKEIERS
~E NDUN NAM!?: CAPACITOR, DECADEEIE ~ERIC CGDE: CP1
PARAMEIER
1, MINIM.IM CAPACITANCE SETIING2. MAXIPQJMCAPAC1T#J4CESEITING3. CApAcIT.kNCE Accimcf4. CAPACITANCE AT ZERO SETNNG5, T2MPERAIVRE COEFFIC1~ GF
CAPACITANCE6. STASILI~
A. BINDINO POSTS0. GRN74 c0i4NEL-TORC. RGTARY LWTL’HD, TOGGLE SW1TG4
FAMESF#.RAD3PERCEXTFAR.4CSPPWDEGREE
CENTIGRADE?FRCW/WAR
E, SILvERED tfrcAF. P0LY32YRE.JEG. PAPERii, OIL
NUMBERHE~ZHERIZVOLTSVOLTSNGflBER
1. The .ininun capacitance value required,
2, The .animun Capacitmce value rewired,
4. Tim value of capacitmwe to be allowed between fhe terminals uhen all decades are set m zero.
5. The allowable change in capacitance when the ambient temperature changes by 1 degree Centismde.
6. The ability of capaciror, neat?ured in percentage per year, to maintain its nominal operat ins charac-teristics afw.being mbjected to changes in temperature, environment, current, and Time,
7, me rati.a of emergy dissipated 10 energy stored in a capacitor for one cycle, kr,otm as D, ,,
8. A .inin.r, frequewy of d. snail be indicated by zero
C,D. ,fn ,x shall indicate the I@. of switch required.
E, F, G, Ii, &n ,V shall indicate the t~e of dielectrics required in the capacitor.
10123
I
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000-sm2121 [NAvY)1 tlarch 1984
u3AmN s-mm ELEmRONIC TE5-T EmIIPi-imf 3uPF02a ITE14 pARAtfETERS
~E NOUN NAME: CONVERTER, FREGUENCY, ACEIE O~ERIC CODE: CF1
1. MI NIMJM lNPuI PREOUENCi2, MAxIFIJFI lNPuT FREQUENCY3, F14x1WM lNPIJI POIJERq HIN1t$JM OUTPWI’ fREQU~CY .5. !!AXIMINl OUTPUT FREQULWTi6. HINIMUM OUTPUT VOLTAGE7. NIN1ilUH FULL-WALE OUTPUT VOLTAGE
HESTZHERTZVOLT-ANYERESHERTZHERFZVOLTSvOLTs
~
8. ~X1ilUM FULL-RCALE OIJTPUT VOLTAGE9, !L4xIMJ74,0UTPUT CURRENT
10. LINE REIWLATION11. LOADREGL!LATION12, ?POUER.FAcIOR13. NoISE LEVEL14. GAIN STABILITY
A, SlNGLE PHASEB, TL10 PHASE
G. PRUGRAI’EL4BLEH, 50 HZ PUIJER
C. TlfREE PHASE 1. 60 HZ POWERD, INTERCHANGEABLEOSC1LL#TOR J. 400 HZ POUERE, V4R1.4BLE FREQUENCY K, 11% ACF F1Y.ED FREQUENCY L. 230V At
g
7. TW full-scale value of the lowest output range required,
8, me full-scale value of the highest output range required.
10, The allouable change, measured as a. Percent age,. in outQut of full load for a ./-10% chsng. in input1 ine vollaze.
.,
11. The allowable change, m&ure$ ~ & Perwritage, in the iteiiy,st ate ;alue” of the output vol tag.’.from nc load to full lo&d.
14, The extent 1. uhich the sensitivity is to re~ain constant ui th time, .eaeured as Derce.tageover a 24-ho. r time period,
.
A ,R, C. An ,X shall indicate the phase power required of the 2TE.
D, 1f the ETE is to have interchangeable oscillators, an ,x shal 1 be entered,
U
VOLTSVOLT-AMPERESPERcW’IPERcB$INUMBERDECIBELSPERcUiT/
24 HOURS
124
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I
I
●UFAPON SYLT211 ELEmRON I C TESf EW I PMENT SUPPOST lT~ PARAtlEIE2S
EIE NWN NAME: COUPLER, D1RECTIDNAL, CDAXIALETE GENERIc CODE: DC1
o
PARANEIEB
1, NONINhL COUPLING2. MAXIMUM COUPLING VAR1ATION3. MINIMUM FREQUENCY4, MAXIMJM HiEW~CY5. nlNr14JN OIREflIVITi6, lNSESTIDN LUSS
A. SINGLEB. DUALc. N CONNECTORD. SNC CONNELTORE. APC-7 CONNECTDR
mO-sm-2121 INAWI1 March 1984
W ~ g
DECl SELS 7, PR1ilb,SY VSWR NUllBEROEcl BELS 8. SECONDARYVShIR NUMBERHERTZ 9. M4X1MM AVERAGE 1NC1D2NT PC!UER W1-2sHERIZ 10, MAXIMJII AVEFWGE REFLECIED PIWER UATISnEcl BELS 11. MAXIMUM PEAK PWER UAI’2SDECIBELS 12. TRACKING DECIBELS
F. APc-3. 5 CDNNEmORG. SMA CONN2CTORH, GR874 CDNNE~OB1. SEXLESS CONNECIDR
1, The ratio in .5B of the incident power fed into me main port to the coupled port power when .11porte are rerninated by reflect io”less ler. inations,
2. The .axinum .Ilouable peak- to-peak variation in coupling coefficient over’ a specified frequercy band.
5. The minim.. ratio in deciDels of the POW. output at an auxiliary port IS transmitted in the preferreddirection to the Dover output at the sane auxiliary port when the same amcunt of power is tramitred intrafmmit ted in the opposite direction.
7, The mximm allowable standing kr.a.e ratio of the ETE when measured thrweh main (primary] line shallbe entered.
8, ‘I%. maxim.. allo. able standing wave ratio of the EIE when measured through the auxiliary (secondary]liw 13W11 be enterefl,
12. The .axinu. change allowed in the difference of the coupling coefficient ratio of two co.plero
1. sexless connectors are connectors that will ate Uith any connector of the sam type.
125
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WD--D-2I21 [NAVY11 Harch 1984
UEAPON SY5TIT5 SLEL?RONIC TEST EQUIPMENI SUPPOSl lTEll PARAMETERS
&ZE NDUN NAMS: COUPLER, DIRELTI ONAL, UAVEQJIDEETE GBJERIC CODE: Dc2
PARAMSIER UNITS
1, [email protected] CDUPLINO DEC1BELS2. MWN COUPLING ACCURALW DEc1BELS3, MAXIMUM COUPLING VARI.4TION DEC1BELS4. MINIWM DIP,EL71V1T! DEc1SELS5. v30R PRII!AW LINE NUMBER6, VEIE AuXILIARY LINE NUi+BER
A. COVER
1. ‘The ratio in decibels of the incident power fed intoPorte are terminated by reflectionless temimtiom.
‘7, P!AXIIIUM POWERPSIMARY LINE8. MINltNM FREQUENCY9. ~XIMUfl FREQU2NCY
10. FLANGE UG-( l/U11. EIA IJR412, TRACKING
B. LIIOKE
WAITSHEKIZHEiW2NUMBERNUMBERDEC1BELS
the main port to the coupled port pouer when all
3, The .Wi.um allo. able peak-to-peak variatim i“ Coupling coefficimt over a specified fre$.ency band
4, The minimum ratio i“ decibels of the power output at an auxiliary port uhen Douer is transnit ted in the
Preferred direction to the power out9ut at the saw auxiliary port when the mm moum of power ietransmitted in the opposite direction.
5, The maximum allowable standing wave ratio of the SIE uhen me-red through the main [primaryi line,
6. TW maxim.. .llouable standing wave ratio of the LTE uhen measured through the auxiliary (L+eco.Oary) line.
10, The wa.eguide input f lmge JAN deeignat ion number. O“lY the number shall be entered. [ for exanD1e ,,,585 Wauld be entered to i“di. ate ,UG- 585/U,,, )
11. Electronic Industries Association Llaveguide Ri8id Number
A, B, An S’ shall indicate the t~e of uaveguide f l.nge required
126
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● UEAPDN SYSIEM ELEC2RGN1C TESC EGVIPNFNT BUPPOR2 ITEM PARAMETERS
flENMN NAME: CWPLER , NYBR1D, CUAWAllJREE2E G~ERIC CODE: CQ1
1. CEITTER FREWPNI?i2, BANIk!l DIN3. 0UTPU2 EWAL1l’Y4. CCIJPLING5. 12OUTION6, lNSERIIGN LW9
+A. N CONNECMRB. APC-7 CONNEnORC. BNC CGNNECTORO. S1’14CONNELTORE, 0Sf4 CQNNECIOR
m PARAMETER
DOD-SID-2121 [NAVY)1 narch 1984
HEkTZ 7. FHASE WAORATVRE DEOREESPERCWC 8. FHASE IMADRATIJRE ACCURACY DEGREESDEC1SELS 9. li4XItlJM PGWES LWrTsDEc1BELS 10, VSWR tJJfBERDECIBELS 11. NOMINAL l!fPEDANCEDEC1SELS
F. r C0NNEC20RG. M CDNNELTORH. SEXLESS CGNNE(TOR1. INTERNAL TEW1NATION
N=
3. The peak-to-peak difference .alloued between output signals.
5. The leakage level alloued betueen the input port pair uith the output ports terminated in matched losds.
7. The phase mgle relationship of one signal leavimg a“ output port to .notNer eignal leaving the other outwtport.
● 10. I’k-a worst-case VSWR to be alloued of the ETE shall be entered.
F. Female come. tor.
0. Male connector
H, sexless connectors are those that will mate uith any connector of the %ame type,
1. 1f the EIE is to have internal terminations, an ,,Y shall be entered.
,.,
.
.
127
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DDD-5TD- 2121 (NAVY]1 March 1984
WEAPONSYSTEM ELECIRONIC TESf EQUIPMENT SUPPOSI ITEM PARAWCTERS
~E NCUN N.WS: DETECTOR, W’, D[ RECI1ONA1ETE GENERIC COEE: DE1
PARAMEXER = PARA!WCER U
::34,5,
A,B.c.D,E.i.
MINIMUM FREWENCYHAxIMUM FREQWNCYLOU-LEVEL SENSITIVITYwxmun c0uPLIN13 vAR1AT10t4MINIMJM DIREczIVIIY
N PRIIWRY CONNE~ORAPC-7 PRIMARY CONNECTORAPC-3, 5 PRIMARY CCJJNECTORW PR!MARY cONNECTORBNc O~EcTOR CONNELTORAPC-7 D51ECIOR CONNECIOR
HEETZ 6,HERTZ 7,VOLTsmAT 8,DECI BeLS 9,DECIBELS
::1.J,K.
DEC1BELSNUM3ER
WATTS
4, The ma. i.um al lovable peak-to-peak variation in coupling COef f icient cwer a specified frequency bared.
5. ‘l’he mini... ratio i“ decibels of the power output at an auxiliary port when power is transmitted in thepreferred direction to the power output at the sane auxiliary port “he” the sane amount of power is transmittedi“ the oppoeite direction.
7. The “ors1-c8se VSLIR SO.be allowed of the kTE shall be entered,
J. An ‘X, shall be entered ifa low-barrier Schottky diode is re~.imd,
K.+1.X, ehallbee“temdif.poin~-contactdete.m. isrequired,
.
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1“
●
●
DGD-51 D-2121 (NAW )1 Ila,ch 1964
WEAPONSYSIE?I ELECIBONIC TEST EQU1PME341sUPPOSI ITEM PARAMETERS
EXE NDUN NAME: DE2E~0R, RF, FIXED, CDAXIALme, G~ERIC CODE: DE2
~ us ~ =
1. MINI PV.IMFREQUENCY HESIZ 6. MAX1flJM PEAK 1NFU_2POWER UAITS2. mAXIrdJM FREW~ff HERTZ 7, sHosr-TEsn MAxmtf INPUT PCUER WITS3. FREQUENCYRESPONSE DECI SELS (1 M1fVJTE4. LDI-LEVEL SSNSITIVITY VOLTS/’WATT 8, NOfflNAL 1MFEDM14CE Grins5. M4X1M.IM AVERAGE lNPUI POWER UATIS 9. V5dR NU?IRER
A. Po1NT CDNTAnB. SCW3JTKY ( LBSD) DIDDEc. NEGATIVE m-remD. POSITIVE DUTPUTE, N INPUT CONNELTORF, BNC INPUT CONNECTORG, APC- 7 rN~ CONNECTOSH, APC-3. 5 lNPUT CO~ECIOR
1. RMA INPUT CONNECIORJ. N OUIPUI CDNNECIORK. APC-7 131JTPuTCONNEC20RL. APC-3. 5 OUTPUT CDNNECTORM, SflA GUTPUT C13NNPJXORN, SQUARE-LAW LOAD0. ?IATCSED PAIR
1. A minimum frequency of 4C shall be indicated by a zero.
3, The rea.ired flatness of the EIE output across a band of frew,encies applied to the input. A specificationof +/- 0.5 W from a reference, for exanple, would be reccrded as 1 dR.
7. The short-term [for less than 1 .inule) power.
9. The worst-case VSIR to be allowed ?f the ETE Shall be entered,
h, 1f the HE ie re.q” ired to have a point contact diode installed, an ,x shall be entered,
B, 1f the ETE is required to have a low-barrier Scbottky diode installed, an <X’ sfmll be entered.
N, 1f the ETE is required to include a square- law load either internally or as .3” acceeeory, an ,x shall beentered.
O. 1f the ErE is required m cmsist of a pair of matched detectors, an ,x,, sbll be entered,
129
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m3D-51 D-2121 [NAVY)1 March 1984
WAPON SFSI~ EL6~R0N1C TES1’ EQUIPMENT SUPPORJ ITEM PARAUEIERS
EIE NCBJNNAME: DSIECTOR, RF, F1 XZD, UAVEWIDE~E OENERIC CODE: DE3
PARAMETER _ pA8AiiZTER
1. MINIMdM FREQU~132, u4X1MJM FREQV~CY3. FRECI.JEWF RESPONSE4. LOV-L2VEL SE4S1T1VITY5. VRUR
A, NEGATIVE OUTPUTS. POSITIVE OU1’PUTC. N OUTPUT CCNNE~ORD. BNC WTPUI CCNNECIORE. APC-7 OUTPUT COtNJECIORF, APC-3. 5 OGTPUT CONNECIOR
HERIZ 6. MAXIMUM PEAK lNWl POWERHERTZ 7, MAXIMUM AVERAGE INPUT POIJERDECIBELS 8. NOfilNAL lHPEDANCEVOLTS/WATT 9. EIA UR#NUMBER m, FLWGE w ( ) m
O. SMA OUTPU” CONNECTORH. MLE OuTPuT cONNEmOB1. FE!lALE OUTPUT CONNECIOR3. SEXLES5 OuTPuT CIl+NEmORK SQUARE-LWI LOADL. MATcHED PAIR
WITSLMTTSOmsNUMSERWJMBER
3. The required flatness of the ErE output . . ..ss a band of f req.encies applied to the input, A specificationof ./-0.5 dS fro” a reference, for example, would be recorded as 1 dS.
4. me output response required of the EFE for a given low-level signal input,
5. The UOISt-case VSLIR to be allOuIed of the ~E shall be entered
9. Electronic Industries Association Uaveguide Rigid tlumber
10, The Ua.e#Jide flange JAN designation number. Only Lhe md.ber shall be sntered, [For example, ’585 wouldbe entered to indicate WG-585/L., )
K. If & load is required either internally or as an accessory, an Y shall be entered
L. If two matching detectors W. required, an ‘X,, shall be entered,
130
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●
I
●
mtxrD-2i21[NAW)1March 1984
UEW2N SY51Zf! ELECFRONIC TE5F EIIU1PtlEW SUPPORT lTRf PASAEEIERS
srE NC3JNNAtf2: nmcros, RF, ~ABLE, COAXIALE2E GE4ERIC CODE: DE4
PAMMETF.R m- PhRMfEIES
1. MINIMUff FREOUKWY HESTZ 3. Vsw2. !’lbxIMuM FSEQUE?JCY H21fl’Z ‘4. TUNING CONTSO15
A. N u2NNEC2DRB. BNC C04NECIORc. TNc CoNmmos
D. FMA CDNNECCORE. FEH4LE CONNECTORF. MALE CONNECTOR
I. h .inimuu frequency of dc mall be indicated by . zero.
3. me umsl-cwe VSJR to be allowed of theE2E ehall be entered,
4. lme number of tuning controls to be provided on the ETS.
A 8 c D s F. An W smll indicate the connectors required on the ~C.,,, ,,
131
NUNSESNUMSEB
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DOD-SD-2121 (NAVY]1 march 1984
UEAPON SYsIEm ELEcrRON1c TEsr EQUIPMZNI suPPOm ITEM PARAMETERS
EIE NOUN NAIIE: DETEmOR, RF, TUNABLE, UAVEWDE~E GENERIC CODE: DE5
pARAMSER
1. MIN1~M FREQUENCY2. MAXIMUM FREQUENCY3. FLANGE UO. [ ]/u
A, WNINO scRwsB, CDVER
w pARAMETER
HE~z 4, EIA UR*HERIz 5. VSIJRNWBER
C, CNOKE
utills
w~ERWMRER
3. The nm.eguide flange JAN desig.ari.n number. Only the number ehall be entered. [For example, ‘,585, ehall beentered to indicate VJG-585/lJ,,, )
4, Electronic Itiustr i.. Association Ua.eguide Ri~i6 N..ber,
5, The wor$c-case V$’htr+to be allowed of che Em shall be e,, w’ed,
B, C. An ,X shall indicate the tme of uaveguide flmze required,
132
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● mn-srD- 2121 (NAW I1 March 1984
USAPON SY5TEM ELEL1’RDNIC TESI EQUIPMENT 2UPPOM’ lTSM PARAMETERS
~E NGIJNNAME: DIV1 DER, POUERETE GENER1C CODE: DP1
m pARAMETER
1, MINIMJM FREWENCY HESTZ 6. MAXIMJM (PEAK] lNPUI POWER2. MAXIMUM FREDUE3iCY HEKTZ
LVirrs7. CONNELTORREPEATABILITY
3. 1NSERTION LOSSDEc1BELS
DECIBELS 8, ‘WTPU’I PHASE DIFFER~cE4, NOMINAL IMPEDANCE OHMS
DEGREES9. Vsm
5, mxnm (AvEh4 GE) INm wuER WmrsNUMIER
10. NVMBER OF PORTS NNfYBER
A. N CONNECNJRSB. MALE CONNECTORC. F~LE CONNECTORD, INTERCHANGEABLEPDSTS
E. RESISTIVE DIVIDERF, R2ACHVE DIVIDES0, HYBRID DIVIDER
m
1, A minimum frequency of dc shall be indicated by a zero.
7. The required capability of the con!>ecror to repeat the same insertion 10ss and VRWR.eawlredin decibels,
8. ‘me noninal output pm. difference acceptable bet . . . . output ports.
● !2. I%e worst-case Vsus ?. be alloued of the ETE shall be entered.
h, B,C. An ,,S’ shall be entered for the applicable connectors
D. An ,1,, shall be entered if ports that permit any port 1. be ueed as an input are required
E, F,G, A. ‘x, shall be entered for the t~e of divider required.
I
I..
●133
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DDD-5TD- 2121 [NAVY)1 March 1984
WEAPONGYSHI ELECTRONIC TESI EW1 PMEtiT EGPPOFC
2TE NWX NAM2: VI VI DER, VOLTAGE, DECADE~E GENERIC CODE: DR3
IT~ ?ARAHETERS
1. ABSOLUTE LINEARITY: 10NG-TERtl
2. TERMINAL l,lNEhRITY’: REIATIVE TO
3. ‘RESOLUTION
4. MAxlm N’ls OPERATING VOLTAGE5. PEAK BR2AK00W VOLTAGE TO CASE6. lNPGT RE$l~ANCE7. lNPLIT RESIS7ZANCEACCURACY8. mfiKn3uM oumvr RESISTANCE
A. BINDING POSTSB. CDAXIAL TEFtllNA1lDNS
lNPWT
PAR-WM1LL1ON
PARTS!M1LL1oN
PAKTs/NILL1ONVOLTSVOLTS
%&wOHMS
13.
14.25,
c,D,
W
4, Tne safe operating limit required,
12. The change in linearity caused by the variation in inWl
EmEcrw8 OurPuT CapacitanceKAKIPUIM INPUT PoWER (CONTINL!OUS)mxImM INPUT POWER (lmEf7Pf1mENT)POWERCOEFFIC1 E??l
T2MPERATVRE COEITIC1 ENT
MAXII’NM INPUT FREQUENCYWITCH CONTACI RESISTANCE V.ARIATION
lNLINE READOUTmBER OF DIALS
pow
u~
FARADSWAITSWATTSPARTS/MI L-
L1DN/LM-lPAms/
BILLIGN/DEGREE C
HEKTZP#wiw
M1LL1ON
NUi’lBER
13. The allowable change in voltage when the ambient temperature changes by 1 degree Centigrade,
134
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●unpin sfs-m ELECIRCNIC TEsr EQUI nm.m sueeora ITEM PARAUEIESS
~E NGCJNNAffE: DUtRh’ LOAD, COAXIAL ( ,50UI2?E GENERIC CODE: DL1
PARAfEIER MS PARMETER
1. NOUINAL IMPEDANCE OHMs 5. MINIMUM FREQUE?CY2. VSJR WMSER 6. MAXI14JM FREQUENCl3. tL4X1tWll AVESAGE IN~ POUER UA’JTS 7. TFlfPESAllJRE COEFF1C1F3JT4. MAXIPdl?l PEAK INPUT FWER LWrIs
A. N CRNNECFOS INPUT G. W CONNECrORB, TNC cONNECTOR INPUT H. GC-LC cCNNECTORC. SC CONNECTORINPUT 1, UATtR COOLANTD. SNd CONNECTOR J. AIR COOLANTE. il&LE CONNECL’ORlNWI K. OIL COOLANIF. FENALE cONNEmOR INPUT L MOVING LOAD
DoD-5TD- 2121 [NAVY)1 i-arch 1984
=
HE~ZHERIZPASTSI
MI LL1ON/DEGREE C
&o’@
2. The worst-case VSWR to be alloued of th-? ECE ehall be entered.
5. A ninimun frequency of de shall be indicated by a zero.
‘7. The change in resistance allowed when the ambient Wmperature chances bY 1 degree Centigrade.
● A, B, C, O, E, F,G, H. An ,X, stroll be entered for the t~els) of input connector required.
1,J ,K. A. x ehall be entered for the required tne [.9] of coolant to be used for the d.mTY load.
.
●125
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DOD-SID-2121 [NAVYI1 March 1984
lJE,iPON SY2TEM ELECIT70N1C TEST EQU1PMENT SUPPOM’ ITEM PARAMETERS
FXE NODN NAME: DU!S3Y LOAD, UAVEW IDE { >50U1EIE GENERIC CODE: DL2
P.4RAMEIER
1, NDMINAL lNPEDANCE2, v~R3, MINIMJM FREQUENCY4. fM1hlJM FREQUENCY
A. F1 XED LOADB. ADJUSTABLEC. AIR CONVECXlOND, FORCED A] R
= PARAMEIER =
0H)L2 5, M4X1MUM PUK INPUT POWER LMTISmER 6, ilAXIMJM AVERAGE INPUT PWER WATTSHERTZ 7. EIA UR# NUMBERHERFZ 8. FLANGE UG- ( )/U mER
E. LIQUID COOLANZF. COVERG. cHOKE
N=
2, ‘l’he worst-case VSTJR to be allowed of the EIE shall be entered
7. Electronics Ind.striee Association Uaveguide Rigid Number,
8. I’he umveg. ide flange JAN designation nunber. Only the “umber shall be entered. [For exanple, ‘ 585,, wouldbe entered to indicate lJO-585/U. ~~]
C, D,E. An X shall be entered for the tp2e of load cooling required
F, 0, .4. K, .h.11 be enlered for the t~e (s1 of .aveguide flanges required
136
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● ML *TO 2121 (NAVY)1 P!arch 1~84
U5APON 2Y=G5 ELEnRCNIC TEST EGG1PMEN7 SUPPORI 1T2fl PbS.4tfEIERS
EJE NDGN NAME: FILTER, BANDPASSETE GENERIC CODE: PL1
~ G
1. ffl N1iWN BAND-PA$S FREQGEWY HESTZ2, MAXIWJN BAND-PASS FSEQUFNCi HERTZ3, BAND-PASS lNSERI1 ON LOSS DEC1BELS4. Ml DBAND lNSERIIGN LOSS DEC1SELS5. LGw-EriD LTOP-SAND BEJECIVON DECI SEB6, HIGi-SND S$OP-BAND REJE~lGN DEC1BELS
l.. COAXIALS, UAVEW1 DEC, N CONNECIORD. SW CONNEIXORE. APC-1 CGNNECIORF, APC-3, 5 CONNECTORG, 2M4 CONNECTOR
e
PAsAMErEs
7. NOff[NAL lNPEDANCEB. BAND-pAss v2wR9, M4X1MJM INPUT POWER
10. EIA LIR#11. FLAHGE UG-I )/u
H. GR874 CONNECTOR1. COVERJ, C?!OKEK, M-M CONNECZORL. M-F CONNECfORM. F-F CONNECZORN, SEXLESS CONNECTOR
=
DHn2WERVA’2TSNU?MERNUtlSER
8. ‘me UO?St-Cce VSIAR to be allowed Of the ETE shall be entered,
10, Electronics Industries Assoc iat ton Uaveguide Rigia Number.
11. The wa.eguide flange JAN designation Immb.r. Only the mmber shall be entered. [For example, ,,5SY wouldbe entered to indicate ,,UG-585/U, ~~)
1, J. An ,X,, shall be entered for uaveguide f I.nge tne required.
K Male- to-male connectors.
L. Male- to- female connectors.
M. Female-to-female connectors.
M. Sexlees connectors are those connectors that will mate with any connector of the same tne.
137
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DOD-STD-2121 (NAVY]1 March 1%4
UEAPON SYL’lE?l ELECIRCINIC ‘TESI EQU1PMUiT SUPPORT ITEM PAP.AIIEIERS
2TE NCJN NAHE: F1LTER, LOIJPASS~E GENERIC CODE, FL2
1. ~-01’F2’REGUENCY2. RAJ4D-PA2S INSESI1ON LOSS3, REJECIICN AT 1.25 FC4, RETURN JJ2SS5. NOMINAL IMPEDANCE
HERTZ 6, B&ND-PASS VRURDEC1BELS 7. MAXIMUM INPUT P041ERDEC1BELS 8. EIA URHDEC1EELS 9, FLANGE UC-[ )/U0Nm9
A. COAXIAL H. OSC 074 CONNECTORB, UAVEWIDE 1, COVERC. N CONNECTOR J. CHOKED. BNC CONNECTOR S. M-M CCNNELTORE. APC-7 CONNECTOR L. M-F CONNECTORF. APC-3,5 CONNECTOR M, F-F CONNEllORG, WA CONNECTOR N. SEXLESS r13NNECT0R
m
3. The Sigtbal rejection required at 1.25 time the cut-off frequency
6. The worst-case v2UR to be allowed of the 2TE shall be entered.
8. Electronics Industries Association U..eguideRigidN..’Der.
9. The .aveguide flange JAN designation number. Only the nunber shall be entered.entered to indicate WG-585/U,,l
l,J. An ,X,, shall be entered for the tn.(s) of maveguide flange required.
K, Hale-to-male co””ectors
L. M3.le-tn-fe.ale co”.ectors
n, Feme.le-co-fem.le connector.
UN1IS
Wi-fdERWATTSNUHBERNUMBEB
[For eNamP1e, ’585 would be ●
N, Sexleee connector. are those that mate with any connector of the same t“e
138
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● cIOD-8rD-2121 [NAVY)1 MIrch 1984
WEAPONBY5TEil ELECTRONIC TEs1’ EQ”’p~ BLIpPO~ IT~ PA=ERS
~E NMN NABE: FILTER, NOTCHETE QEWRIC CODE: FL3
PARAMEIER
1, MINI I$JII FREWENCI HERIZ 5. EIA URe2. i-14x1m FREwmci HESIZ 6, ELANGE UG-( ]/u3. fwm.mn m.4K INFVT pWER UA3TS4. 1’19X1MJ!IAVERAGE lNFWC PDWER
7, SFOP-BAND ATI2NUATIONUATTS
NUMBERNUPIBERDEC1BELS
A, N CONNECIORB, BNC MNNE~ORC, APC-7 CONNECIOR0. Sl14 CONNECIORE. TNC CGNNECIORF. CHOKE
Q. COVERH. N-M CDNNECTOR1. F-F CONNELTORJ. M-F CONNECTORK. SEXLESS CONNECIOR
~
5. Electronics Industries Association Uaveguide Sigid Number,
6. The uweguide flange JAN deeignatio” number. Only the number shall be entered. (For example, ,,585uo.ld be entered to indicated ,W&585 /U.,,)
F,G. An ,X,, shall be entered for the t~e of trweguide flange required
H. male-to-male connector,
1. f’ecmle-t.-fermlec.nneczor
J. male-to-female connector.
K. Sexless Connectors are those that mill mate uith my connector of the mm tree.
I
●139
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DOD-STD-2121 (NAVYI1 March 1984
U2.4PON SYSTEM ELECTRONIC TESZ EQUIPPEVZ 2UPPORZ lTti PARAi7~ERS
~E NOUN NAME: FILIER, VARIABLE=E GENERIC CODE: FL4
PARAMETER
1. MINIMUM FREQUENCY2, MAXIMUM FREQUENCY3, MINIMUM A~ENUATION SLOPE4. HAXIMJ?I AZTENUATIDN SLOPE5. MAXIMUM ATTF2WATICN6. 1NSERI1ON LOSS7. CU’-OFF FREQUKNCYCAL1BRATION ACCURACY8. NOMINAL INPuT IMPEDANcE9, MAXIMUM PEAK AC lNPN1’ VOLTAGE
10. MWIMUH lNPUI PEAK DC C~ONENZ
A, BANDPASSB. BAND REIE~C. LOU-PASS MODED. H1~-PASS HODEE. SINGLE CHANNELF, DUAL CHANNELG. BUZTERUOSTlH. RC RESPONSE
NUiES :
HEsizHEWZDEC1BELSDEc1BELSDEC1BELSDECIBELSPERCENT0HM2VolrsVOLTS
_
11. MrN1m3 pASS- BAND GAIN12. fb4xrwM pASS-BAND WIN13, PASS-BANO @AIN ACCURACY14. NOfllNAL OnPlm lNSERNAL IMPEDANCE15. fi4X1~ PEAK AC OUTPUT VOLTAGE16. I’LIXIIIUM P~K OUTPUZ CURRENT17. OuTpuT E flABILITY18, OUTPUZ DC 2TAB1L1~
1. FLOATING OPZRArl ONJ. INTERNAL BATrERY POLIERX. 50 HZ PDLIERL. 60 HZ PDUERM. 400 HZ POLIERN, 115V AC0, 230V AC
1, .4 minimum frequency of dc shall be indicated by a .ero,
A, B,C, D, A mode of filtwqmalion.h.X’ shallbe entered for the aDplicable mode(s)
E,F. An X ehall be enrereti if this caDability is req. ired,
G,H, b. ,X shall be entered if s response curve is required,
DECIBELSDEC1BELSDEC1BELSOlfmsVOLTSAMPERESVOLTS/HOURVOL’fS/DEGREE
CENTIGRADE
1. An ,,X,, shall be entered if a method to disconnect Lhe signal ero.nd from chaeeis is required,
J.~.X’ shallbee“umd ifbat~e.yo~erati.”isrequired.
140
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●W.APGN m-wm ELtnRONIC TESI EQUIPMENT
EIE NWN NoW; HORN, STANDARDGAINEIE GENERIC CODE: HN1
5, CALI6RATION ACCURACY6. BF,AHUIDTH
SUPPORT lTE?I PARAMETER
A, COVER C. GAIN CURVE CHARIB, CHOKE
m
4. Tim .orst-cwe VSW to be allowed of rhe 2rE shall be entered.
5. The required accuracy of the antenna gain curve chart.
11, The input wavewide f Ian$e JAN design.st ion mmber. only ths cv.mber shall be entered!uculd be entered 1. indicate ,WG-585/U, ,, ]
●12, Electronics Industries ASsoc iat ion Lhveguide Rigid N.nber.
k,O. &n ,,W shall be enrered ifthis type of wavegui6eflan~eismq.ire,j,
C,An,X,ehall be entered ifa gaintunechartisre~uired.
I
I
I
●141
m30-srO-21:1 iNAVYl1 March 1984
[forexample,,“58V
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L%D-2TD-2121 (NAVP)1 March 1984
WSAPONSYSIH-I ELECIRONIC rEsr EQUIPMENI suppom
EIE N@UNNAME: INDUCTOR, DECADEETE GENEFIIc CODE: LN1
i m parameterS
PARAMETER _ ~
1, nrtiImum 1NCIIZ4NCE s2i-rING H~RYS 7, MAXIMJM SAFE CURRENI2. MAX1tlJM lNDU~ANCE SE71T1NG HR!RYS 8. NINIMUH FREQUENCY3. lNDU~ANCE ACCURACY PERCENT 9. MAXIFUIM FREQUENCY4, ZERO lNDUCIANCE H~RYs 10. DC RES1~ANCE5. T~ERA1’URE CDEFFIC1Ei2 . PARTSI 11, ~ORAGE FACTOR
MI LLIOW 12. NUMBEROF DIALSDffiREE c
6, PLWIMUN Ri12 VOLTS VOLTS
AMPERESHERTZHERTZDHMS{HSNRYNUMBERNUMBER
A. BINDING POSTS C, RACK MOUNTS, 2H1EL0 D. SENCH
m
1. The minima value of inductance required.
2, The maximum value of inductance rewired.
4, The acceptable value of inductance added in the circuit hen .11 dials of the inductor are ml t. zero,
5, The acceptable change in inductance hen the ambient temperature ch.nees by 1 degree centigrade. 1t can bestated as a necative value ( for example, -25 ppm),
8, A minin.n frequency of dc shall be indicated by a .ero.
142
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I
o
I
‘o
o.3rI-srO-2121 (NAVY]1 tirch 1984
UEAWN 3YS’fEii ELECIRCNIC ‘2EsI WUIPMENT SUPPOST lTEU PARAMETERS
m Nm twis: lsoImOR, COAxlALEIE GE+ERIC CODE: SRI
pARAMnER m PARAMETER
1, MINIMUM FREQUEFW t4ERIZ 4, V3WR2. FL4X1M.IMFREQUENCY HERTZ3. 1SOLATION
5, ffAX1iWM 1NSEKI1ON LOSSDEC1SELS
A. tmwTIc SNIELDINGS. N 03NNEC2’OR
C, FEMALE CONNECIORD, MALE CONNE~OR
1. A minimum frequency of dc shall be indicated by’ a zero.
4. The warst-case VSwR to be alloued of tbe bTE ehall be entered,
A. An ,X” shall be entered if magnetic shielding is required.
143
U*
NG?IBERDEC1BELS
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DOD-SID-2121 lNAW 11 March 1984
WAPON SY5TEM ELECTRONIC TES7 EQUIPMENT SUPPOET ITEM PARAMEIEBS
EIE NOUN NAHE: 1SOLATOR, UAVEQ.11DEETE G~EBIC CODE: SR2
1. MINIMJM FREOU~ff2, !IAXIM.IM FREQUENC73, lSDLATIGN4. INSERTION LOSS5. INPUT 2WR
HERIZ 6. PE4K INPUT POWERHERTZ 7. AVERAGE lNPUI POUERDEC1BELS 8, FLANGE UG- ( )/UDEC1BELS 9. E,l, A. LIR*NUMBER
IJATTSUA~SNUP13ERNUi7BER
A. COVER FLANGE B, CHOKE FLANGE
8, The uaveguide f I.anga JAN designation nunber, Only the number shall be entered. (For example, ,585,would be entered to indicate ,WG-585/U., )
9. Electronics 1nd.stries Assoc i at i....veguideridgidmmber,
A., B. An ,x, shall be entered for the tee of .aveguide flange rewired on the ~E,
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● DOD-SID-2121 (NAVY]1 Narch 1984
WEAPONSiWm ELEmRONIC TESC EQUIPH~ SUPPOF(I 1T514 PARAMETERS
ErE NOUN NAME: MI xER, BALANCED, DOUBLEflE G~ERIC CODE: UX1
!
1, MI NIMJII FREQUENCY HEsI’Z 5. IMPEDANCE2. ~XIMUN FREWENCY HERTZ3. MAXIMUM INPUT LEVEL
6. ~NFIJT EIA UR#AMPERES
4. !!AXIMJM INPUT POUER L-POR27. lNPUI FLANGE uG-( )/u
WAITS
A, COAXIAL lNPUIB, uAVEQJ1DE INPUTC. N INPUTD, BNC OUTPUIE, APC-7 lNWTF. WA INPUTG. COVER INPUT
H. CHOKE INPUT1. COAXIAL GUTPGTJ N OuTPulX BNC CJJTPUTL. APC-7 OUTPUTM. m OU-rPU-l
m
DsmNUNBERHUhBES
6, Electronics Industries Association Uaveg.ide Rigid Number.
7. ‘me uaveguide input f 1..s. JAN designation nu.ber,OnlY t~ ~ber shall b. entered. [For example, ,,585Ino.ld be entered to indicate YJG-585/U,,, ]
o G,H. An X, shall be enterea for the tme of vaveguide flange required on the input of the mixer
●145
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DOD-SKI-2121 (NAwJ1 March 1984
wEAPON SWZEM ELECZRONIC TESZ EQU1PMEFT SUPPOSZ ITEM PARANECERS
EZE NOIJN NAME: MODULATOR, UAVEW 1DEEZE G~ERIC CODE: IIL1
1. MINIFT-U! FREG+JENU HERTZ 6. MODULATION SPEED2, MAXIMUM FREQUENCY HERZZ 7. VWB3, t14X1MJil lNPUZ RF POWER UAZTS 8. PHYSICAL LENGZH4. MINIMUM AIT~UAT1ON RANGE DEC1BELS 9, FLANGE UC-( ~~5. M?+XII’WI INSERI1ON LOSS DEC1BELS to, EIA LwM
A, COVER B, CHOKE
u=
HERZZNUMBERCENTIllETERSwtfBERNUMBER
6. zhe maxim.. switching speed at .hich modulation can occur,
7. ‘me .oret-case VSVR to b-e allowed of the EZE shall be entered
9, The .wewide flange JAN desiemtion ?wnber. only the n,,.ber shall be entered, [For exzmple, ~~585,uould be entered to indicate WG-585/U.,, )
10. Electronics Industries Association Uaveeuide Rigid Number.
A, B. An ,X,, shall be entered for the type of .aveeuide f Iange rewired,
146
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o COD-SID-2121 (NAVY)1 March IQS4
UEAP13NSYSm ELECIRDNI c TEL-C EQUIPm-r SUPPDSI ITEM PAS4~ERS
ETE NUJN NAME: P+3UERSUPPLY, D1REi71 VOLTAGEECE GWERIC CODE: PSI
PARAMEIER
1. tllNIMJ?I DC 13JTPUT VOLTAGE2. )14X11’WMw OurPuT VOLTAGE3. tflNIW?l OUTP~ CURRSNT4. ffAxImI curpu-r CtRREW5. LDAD EFFEcI VOLTAGE6. LOAD EFFEC3 2URREVI7. LOAD EFFEcI TRANSIEMT RECOVERY8. $WRC.E EFFECT VDLTAGE9, S13URCEEFFECI CURREhT
10. PARD VOLTAGE
‘IIiif
e
VOLTSVOLTSAM7EREsAMPERESVOLTSAMPERESSECONGSVOLTSAMPEREsVOLTS
I1 “’
pARA~ER
11. PARD CUSR5N312. DR1fT (STASILITY) VOLTAGE/813. DRIFI (S2AB1L11Y] CURRSNT/814. TEM7ERA’IuSE COEFICIENT
15. RESOLLrrION IVOLTAGE]16, RESOLU7’1ON [LURRSNT)17. NCi_ilNAL OUWUT lMF’ED.4NCE18. VOLTPISIER ACCURACY19. mEIER ACCURACY
L, RmERSE VOLTAGEH, AUTOSERIESN. AUTOPARALLEL0. AUTUTRACX1N13P, 54 HZ POUERQ, 60 HZ POUERR. 400 HZ POIJERS; 115V ACT. 230V ACu WOV Ac
PROIECIIDN
HOURSHDURS
AHPERESVOLTSAMPERESPERcEN1’/
DEOREE CVOLTSAMPERESOsnsPERCENTPERcENc
5. me allowable change in the steady-state value of the stabilized output voltage re6ultiw from a full-loadchangeintheloadcurrentofa c.nsta!w-voltazesupply,
6. ‘me allwdable change in the sleady-state of lhe current resulting from a full-loadchangeintheloadvoltageof. conat.nl-c.rrent5uP*1Y,
7. Tme .Llow.ble tine interval between a specified step change i. the load current of a COn, tanc voltace
=PPl~ or i. the load voltage o! a constant current supp~y . ..5 the instant he” the stabilized outputW8!ItltY return-s to and stays ulthin the specified transient recovery bred.
S. The cha”ce i“ the steedy-etate value of the stabilized o“tp”t voltaee res.lti”g from .“y change in thesource voltage Within its specified ran’i!e,
9. The allow.ble chamge in the steady-state value of the stabilized output current reeul t i“e fm.any change in the source voltage within its specified range,
10, The allouable period i. a“d random devi?.t ion [PARD) (ripple and mise] of Lhe d. output we!’ . specifiedkmduidth.
11. The allowable periodic and random deviation (PARD] of current from its average value over a
-cif ied WYJdidth,
I
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DQD-SID-2121 (NAVY)1 March 1984
U&4P0N SYSIEM ELECTRONIC TEST EQUIPilENl ~PPORl 11E21 PARAMETERS
EIE NWX N~E: PDWR 5WPPLY, D1REC2 VOLTAGEEIE GENERIC CODE: PSI
12, me maximum allowable charge of the output voltage during an 8-hour period. Drift includes trothwrer, and rand~ deviations over the bandwidth from zero frequerw (d. ) to a specified upper frequency
13. The maximum allowable chance of the output current during an 8:hour period. Drift include. bath 9eriodicand randon deviations over the bandwidth from zero frequency [d. ) to a specified upper frequency limit.
15. The smallest change in the output voltaee that shall be obtained bY use of the frOnt-Pa.el cOntl.16.
16. The smallest change i“ the output current that ehall be obtained bY use of the frOnt-Panel controls.
H. This refers to an isolated output circuit not connec red to ground at any point. 1n a f lost ing outPutcircuit j both positive and negative conductors are equally free from a reference potential. 1f floatingopefali”g capability is reQ”ired, . . ,X,, ehall be entered.
1. 1f rear termi”.ls are required, a“ ,X sfmll be entered, If an ,x, is not entered it ,is assumedthat front terminals are required.
L. 1f protection againsr reverse voltage being applied at the 4UtDUt terminal. is rerwi red, a“ ‘,X shall beentered.
M. If a“toserie$ Operation is rewired, an W ,l%all be i“tered.
N. 1f a“top.rallel oper.t ion is required, m ,X,, shall be entered.
0. If a“totracking operation is rewired, an ‘X’ shall be entezed.
148
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o
*
WD-SCD-2121 I NAVY)1 t%rch 1984
W.APCN ‘SYSTEM ELECCRONIC TESC EL!UIPMFNI S’JPPORl llFM PlfM%CERS
mE NOUN NAME: RESISTOR, DECADEEI’E GENERIC cODE: RE1
~
1. NIN1f’f.Nl RESISTANCE sEITING2. MAXIMUM RESISTANCE S~lNG3. RES12TANCE OVERALL ACCURACY4. ZERO RES121ANCE5. FIAXIIIUM CURRENT6. MAXIMUM POWER7. TEMPERATURECOEEF1C12NT
A TWO-TERMINAL8, THREE-TERMINALC. FOUR-TERMINALD, BINDING POSTS
OHMSOHMSPERCENTOtii-lsAMPEREsUA’CI’SPAR-W
MILLION/DEGREE C
PARAMEIER
8. tfAXIMJM VOLTS TO CASE9. ZERO lNWCCANCE
10. 51NJNI CAPACITANCE11. NUMSER OF DECADES
E, !IANUAL SWITCHF. [email protected]. RACK MOUNTH. BENCH CASE
1. The minimum resistance sett ine required on the aecaae resistor excluding the zero set tins.
2. The maxirium resistance m?tt ing required on the decaae resistor,
4, ‘rhe maxi.”. allowable value of resistance betueen the ter. i”ale !Jhen all decades we set to zero
vOLTSHENRYSFARADSNUMSER
A, F!. ,x,, shall be entered of t.. connection. to the decade resistance are required,
B. A. X’, shall ,be entered ift..connectionst.thedecaderesistanceanda thirdcon.ectio”forcaseshieldormound.,.,ew,red.
C, An ‘X shall be entered if t.. connections to each eide of the decade resistance me required,
F, A. ,x, shall be entered ifthedecadereeist.ristobevariedbYanexternals.mmesmh w .ol[.we,BCD, IEEE 6US, etc.
1:
●149
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DOD-sro-2121 [NAVYI1 March 1984
UEAPON WsrEtf ELECIRONIC TEST EQU1PMMT SVPPOST lTm pARAMCIERS
ErE NGUN NAME: TERMNATION, cOAxIALEIE GENERIC CODE: TH1
1, NfflltiAL IHPEDANCE 0HM2 6, MAXIMJM FREQUENCY2, VSJR NUMBER 7, TEMPERATUREcoErrlcl ENT3. f’14X1FIWMAVESAGE lNPIJI POWER ,. UA~S4. MAXIPQJII PEAK INPUT P’WER WATTS5. MIN1tlJll FREQUENCY HERTZ
A. N CONNE~OSS, TNC CONNECTORC, SC CONNECIORD, RM4 cONNECIORE. PL4LE CONNECIORF. FMALE CONNECTOR
G, QC CONNECIORH QC-LC CONNE~OR1. UATER COOLANTJ. AIR COOLANTK. 01 L COOLANTL, MOVING LOAD
2. The .orst-cas VWR to be allowd of the 2TE shall be entered,
5, A minimum frequency of tic shall be indicated by a zero
7. The change in resistance allowed when the ambient temperature change. by 1 degree Centigrade
A, S, C, D, E, F,G, H, .4. ,x,, shall be entered for the .Dplicable tme[el of connector,
1,J, K.. An ,X,, shall be entered for the tme of coolant w be used for the termination.
150
HERTZF’Amsf
MILLION/DEGREE C
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‘L
DoD-5-ID-2121 (NAwl1 March 1984
LIENON SY5T211 ELECTRONIC T~ EC!l!lP~ %PFO~ 1T2f4 PAR~ERS
~E NwN NME: ‘IERMINAT1ON, UAVEW 1DEEIE GWER1 C CODE. TW?
2’AMnErER
1. N~INAL lHPEDANcE2. VRWR3. MINIWM EREQUENITi4. MAXIMUM FREcWNCY
A. FIXED LO.ADB. ADJUSTABLEC. AIR COWELTIOND. FW+2ED AIR
u~ PASAM21ER
mm 5. ?IAXIWJM PUX lNFUT PWJERNUMBER 6. l’WXltRJM AVERAGE INPUT FC+JERHERIz 7. FLANGE UG- i ) /11HEmZ 8, EIA UR u
F., u mm COOLANTF,COVERG. 13!oKE
G
Wr2sW1-2s~ERWMSES
2, The Worst-case V2uR to be a11cuer2 of the EIE shall De entered,
7. The Wavewide JA)4 designation number, Only the tnmber shall be entered. [For e.dnple, ,585,, would beentered to indicate WG-5S5/U.,, )
8. Electronics Industries Aseociatio” Uwesu:de Rigid Number.
●C,D, E. An ,x,, shall be entered for the t~e of termination cooling required.
F,G. An ,X,, shall be entered for the twe of [email protected] red,
I
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151
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DOD-srD-2121 [NAVYI1 March 1984
EXE NCUN NAME: TRANSFORMER, AUTOETE GFliERIC cGDE: TRl
?1ON
J. TUO-LIIRE
w> ~
VOLTS 8. t14xlhuM FREQUENCYVOLTS 9. r3JTPGT VAVOLTS 10. NUMBEROF RECEFTABLESVOLTS 11, VOLTME1’ERAcrW.AcYAHPERES 12, A)EETER AcCURACYANPERE2 13. IJAITMEIER ACCGRA~HERIZ
K. THREE-WIREL, FUSEM, CIRCUIT BREAKERN. SOLDER TERMIN&L0, SCREW‘TYPE TERMINALP. CLAHPING TERMINALQ. MANG&LR. MoTOR DRIVENs. REVERSIBLE DIAL
9. The volt-ampere rati.e is the .a. imun load current multiplied by the noninal input line voltage,
G, An ,X,, shall be entered ifanmmemr isrequireduithrheautotransfornei-.
H. An ,x, slml be enmmd if a uarlmeter is rewired with fhe autotransformer
1. An ,X shall be enterml if a volrmeter is required with the .Utotrms former,
R. An ,X,, shall be entered if an autotransformer uith a motor drive is required,
S, An ,,%, shall be entered if an a.totr.nsforner uith a reversible dial plate is required
152
--
HERTZVOLT-AMPERESNUMBERPERcmPERCENTPERCFNT
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● cM3D-2rD-2121 (NAw)1 Ilarch 1984
W.APON SYSTEM ELECIRCNIC TE5T EWIPMEN’I 3GPPoRI ITEM PtIRA~ERR
E3E NGGN NAME: T8ANsF0RM2R, 1SOLATION21E GENERIc CODE: TR3
‘z
I
,0
PARAMETER
1. HINIMTJF! INPUT VOLTAGE2, MAXIMJM INPUT VOLTAGE3, MINIMJfi Ob”CPUTVOLTAGE
h, 2W1TCNED INPUTB, RECEPTACLE OUIPGTC. LEAD OUTPUTD, ~R.4101T lSOLATIGNE. SIEP DOW ISOLATIGNE. SHIELO TO CORE
M PARAMETER
VOLTS 4. ~XIMJM 0UTP131 VOLTAOEVOLTS 5. V-A CAPACIWVOLTS 6. F2fR TEST VOLTAGE
G. WIELD NGT GR13GNDEDH. PRIMARY TEFWINAL1. 54 HZ PGIJERJ. 6.3 HZ pOUERK. 400 HZ PGWER
m
VGLTSVOLT-AMPERESVOLTS
6. The insulation t-t voltage rating required betueen Uindings and lhe core.
b. An ,X,, shall be entered if the tr’aw former is required to have nultiple input voltage ratings that aretnanged with s suitch,
B. An ,X,, shall be entered if the transformer is required to have a receptacle Cutput.
C. An ,X, shall be entered if the Warwformer is required to have lead outpute.
D. An ,x,, et@ll be entered if the transformer is required to provide an output voltage equal to the inputvoltage.
E. An ‘W shall be entered if the transformer is required to step don the input .oltaee to a louer outputvoltage.
F. An ,X, shall be entered if the transformer is required to have an electrostatic shield grounded to the core.
G. An ,x’ shall be entered if the electrostatic shield is required to be on a Semrate lea.m ire [mt grmmded).
H. An :x, shall be entered if the tr%”a former is required co have ~m”ltiple input capability tbt is changeableby movm input leads.
153
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DOD.STD-2121 [NAvY]1 march 1984
USAPON SYSTEM ELECTRONIC TEZI EQuIPMDiT PARAhlEIERS
FTE NW?4 NAME: TRANSFORMER, XATIO~E G~ERIC CDDE: TR4
PA8AMmER
1, TEFMINAL LINEARITY
2, MAxmm SmING3, RESOL~lON
4, MAX114JI INPUT VOLTAGE5. MINIMUM FRE12ww!6. MAXIMUM FREUUBKX
A, 1.1 TAPB, -0.1 TAPC, RANGE OVERLAPD. INTEBPOLATING DIALE, ROTARY SUITCH
(LONG-TERM] PARTs/MILLION ::
NUi’lSER 9.%wTs/ 10:
MILLION 11,VOLTS 12.HERTzHERTz
F.G,H.
::
INPUT IMPEDANCEINPUT INDUCTANCEOuTpm l~EDANCECUTPIJI lNDucfANCE!L$XIMUH OU’IPWI CURRENTthxtmum PHASE sHr27
0HM3IWNRYSuHmHFNRYSAMPERESRADIANS/
HEt?lz
5, A minimum frequency of a. shall be indicated by a zero.
A,B. An ,x,, shall be entered if a 1.1 tap andlor a 0.1 tap on the first decade that ei.es extended phasecorrection capability is required,
C, An OX shall be entered if the decades are required to have settin~s permitting the decade to be set .bove1,0 or below 0,
D. An V shall be entered if an interpolating dial is required
154
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●I
‘1:
APPENDIX D
UEAPON 8YSTEfl DIGITAL ELE~RONIC TEsI EQUIPMENT PARAMETERS
This Appendix contains information related to DOD-SD-2121 (NAVY].
APPe.dix D ie a ~.tiatorY Part of this standard.
DOD-SIT-2121 (NAVY]1 March 1984
I .:
●155
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DOD-21 D-2121 [NAVYI1 March 1984
WAPON L’T%E?! DIGITAL ELECTRONIC ‘TESC EQUIPMENT PARAilESERS
~E NOUN NAME: TEsTER, DIGITALESE GSNERIC CODE, DT1
PARAMETER m
1, MAxnm DATA RATE HERTZ2. MAXIMIM DATA SKm SECONDS3, FMXIFIUM SImLuS OUTPUTS NUMBER4. MAXIIIUll RESPONSE INPUTS NUMBES5. fllNIMUH PRGGRA~BLE STI)RJLUS VOLTAGE VOLTS6. MAXIMUM PROGRAtU’i4BLESI1illJLUS VOLTAGE VOLTS7. PR0GRAPt14SLESTIMULUS VOLTAOE vOLTS
RCSOLIJTlON8,MINlllUllPR0GRAM14SLESESPONSEVOLTAGEVOLTS9, t!AX1lQJMPSOGRAMIABLERESPONSE VOLTAGE VOLTS
10. PR0GRAM14BLE RESPONSE VOLTAGE vOLTSRESOLUT1ON
11. LOOIC ONE, VOLTAGE WIXIMUH vOLTS12, LUGIC Y7tW VOLTAGE HINIMuN vOLTS13. LoGIC ,,ZERO VOLTAGE lWXIMJMl vOLTS14. LOGIC ZESO, VOLTAGE NIN1i-wM\ vOLTS
A. DYNAHIC TESTINGS. B1D1RECTIONAL lNPUT/D!JTPUTC. SIDIRECIIUNAL BUSD, SF,Rl~LNODEE, PULSE CATCX
PARAMETER
15. MAXIMJM RISE TIME16. ti4X11QJN FALL ‘TIlfE17, i-14xIfluM INPuT/OUTPUT INTERFACE
SINK cURRENT18, MAXIMJM INPUIIOUTPUT lNTEiiFAcE
SOURCE cvmNT19. NUfiBES OF P13AERSUPPLY VOLTAGES
AVAILABLE20. NINIVJM pOwER ~PPLY VOLTAGE21. M4X1MUMPOWEREUPPLY VOLTAGE22, !JORDSTORAGE DEPTs23, ti4X1MlRl CLOCK RATE24, SERIAL DkTh TYPE?5. KW7UMSEBIAL $TIMJWS UORD LENGTH26. MAXIMUM SERIAL SESPONSE UOSD LLWDi27. IAXIMUH FAN-OUT
F. SEADY/SESUHE (HANDsHAKE)0. TTLH. Lll1, ECL1, CMOS
~s
SECONDSS’ECCWSAnPESES
AMF’ERE2
HUMSES
VOLTSVOLTSNUMBERHESIZTTPENUMBERNUMBERNUMBER
1. me maximum frequency the ErE i. required to supply,
2. The maximum deviation in time bet . . . . data bits applieo synchronously .llowd for the ETE
17, The maxim.. current the STE driver/receiver is required to handle to ground in aaperes,
1S, The maximum current the FTE drier/receiver is required to supply in ampere..
23. The IWii?mn clock frequency rhe ETE is rewired 10 supply,
24, The capability of the Em to handle returrrs. -to-zero (RZI or’ no.-rot.r”s- to-zero [NRZ]. Serial data shall beindicated by entering ,’R2, or NRZ’ as appropriate.
25, rhe naxin.m serial word size rhe ETE is required to handle as stimulation.
26. me maxim.. serial word size the Ei”E is rewired to handle as response.
27. The naximu. number of logic element inputs to be Oriven by one EM driver shall be entered.
.4, An x,, shall be entered if the f.TE is required to test 0.’? or more .ignal Proper Lies or characteristicsexcludine voltage and current,
156
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w3wsm2121 (NAw)1 March 19840
I
WEAPONSK=EM DIGITAL ELECTRONIC TEST EWIPMENT PARJMfTERs
EIE NOUN NAME: TE5TER, DIGITAL~E GENERIC CODE: DT1
N*
B,C, D. An ,X, shall be .ntere& if this is required.
E, An ,X, shall be entered if the ETE is required to detect and measure a ow-shot output.
F. An X shall be entered if the 21E is required to operate 1. a handshake mode of operation,
G. If the LTE is required to hardle T7L, an ,x shall be entered,
H. If the 21E is required to handle DTL, a“ x’ ohall be entered.
1, If the ECE is required to handle ECL, an ,X shall be entered.
J. If tne ~E is required to handle ClIDS, an ,,Y, Bhall be entered.
157
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r
STANDA%tDIZATION00CUMENT IMPROVEMENTPROPOSAL. ,,., (SeeInstructions - Ryme Side)
DoCUMENT N.JMBEm 2.00 CUUENIT$TLE
MIL-STD-2121 (NAVY) ., Determination of Electronic Test EauiDment Parametersm NAME OFSUBMl TTl N13 OFIGANl\Z+Tl ON ., 4. TVPEOF ORGAN IZAT1ON(Mwketn)
❑ vENDOR...,
❑ Usm
A9DREW(Btit, ClW,8hk, ZIP CtiJ
•1MANUFACTURER
,,❑ 0T”E13(SIJ8.VY,
-
PI?oBLEM AREAS
s ?arwr,oh Nui@ ●nd Wr,,dlrq:
,..
b. Re.mrn.”dti WIJr8inO:
,,
,.
e. R.O$O./R. tiond. for Rwomnwwd. tie.:
REMARKS
. . ..
,..,.
. ..!
,.’ . .
a. NAME OF SUBMITTER /f.4 Firs 1. Ml) - OPtlond b. WORK TELEPHONE NuMBER (J”dwii Am.. . . . . . . . . CO*) - Oplo.d,(,
MA! I.#NG ADDRESS (shq City. Slate, ZlPC6d8J - 0D310.d . ~r’, a. OATE of SU8MlSS10N lYYMMDDI.
.- ..-.PREVIOUS EOITION m CW.01.ETE,
4
D
o
(
D
{Q
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