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490 JARVIS DRIVE MORGAN HILL, CA 95037-2809
SERIES 541XXANETWORK ANALYZER
OPERATION MANUAL
P/N: 10410-00141REVISION: E
PRINTED: OCTOBER 1997COPYRIGHT 1997 ANRITSU CO.
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Safety Symbols
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Symbols used in manuals
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WARNING 7KLVLQGLFDWHVDKD]DUGRXVSURFHGXUHWKDWFRXOGUHVXOWLQVHULRXVLQMXU\RUGHDWKLIQRWSHUIRUPHGSURSHUO\
CAUTION 7KLVLQGLFDWHVDKD]DUGRXVSURFHGXUHRUGDQJHUWKDWFRXOGUHVXOWLQOLJKWWRVHYHUHLQMXU\RUORVVUHODWHGWRHTXLSPHQWPDOIXQFWLRQLISURSHUSUHFDXWLRQVDUHQRWWDNHQ
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WARNING
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WARNING
SAFETY-2 541XXA OM
Table Of Contents&KDSWHU¦*HQHUDO,QIRUPDWLRQ
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Chapter 1General Information
NOTE: ANRITSU Company was formerly known as WILTRON Company.
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Chapter 1General Information
SCOPE OF THE MANUAL 7KLVPDQXDOSURYLGHVJHQHUDOLQVWDOODWLRQDQGRSHUDWLQJLQIRUPDWLRQIRUWKH6HULHV;;$1HWZRUN$QDO\]HU
INTRODUCTION &KDSWHUSURYLGHVLQIRUPDWLRQDERXWWKH;;$HTXLSPHQWLGHQWLILFDWLRQQXPEHUSHUIRUPDQFHVSHFLILFDWLRQVDQGRSWLRQV
IDENTIFICATION NUMBER
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ONLINE MANUAL 7KLVPDQXDOLVDYDLODEOHRQ&'520DVDQ$GREH$FUREDW70 SGIILOH7KHILOHFDQEHYLHZHGXVLQJ$FUREDW5HDGHU70DIUHHSURJUDPWKDWLVDOVRDYDLODEOHRQWKH&'5207KLVILOHLV§OLQNHG¨VXFKWKDWWKHYLHZHUFDQFKRRVHDWRSLFWRYLHZIURPWKHGLVSOD\HG§ERRNPDUN¨OLVWDQG§MXPS¨WRWKHPDQXDOSDJHRQZKLFKWKHWRSLFUHVLGHV7KHWH[WFDQDOVREHZRUGVHDUFKHG)RUSULFHDQGDYDLODELOLW\FRQWDFW$15,768&XVWRPHU6HUYLFHE\SKRQHDWRUYLDRXULQWHUQHWKRPHSDJHDWKWWSZZZDQULWVXZLOWURQFRP
DESCRIPTION OF541XXA SYSTEM
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541XXA OM 1-3
Model Frequency RangeOutput Power,dB (Standard)
Output Power, dB (Option 2 Step Attenuator)
54107A 1 MHz to 1.5 GHz +12 +10
54109A 1 MHz to 2.2 GHz +12 +10
54111A 1 MHz to 3.0 GHz +12 +10
54117A 10 MHz to 8.6 GHz +10 +7
54119A 2 GHz to 8.6 GHz +10 +7
54128A 8 GHz to 12.4 GHz +10 +7
54130A 12.4 GHz to 20 GHz +10 +7
54131A 10 GHz to 16 GHz +10 +7
54136A 17 GHz to 26.5 GHz +7 +4
54137A 2 GHz to 20 GHz +10 +7
54147A 10 MHz to 20 GHz +10 +7
54154A 2 GHz to 32 GHz +4 +1
54161A 10 MHz to 32 GHz +4 +1
54163A 2 GHz to 40 GHz +4 +1
54169A 10 MHz to 40 GHz +4 +1
54177A 10 MHz to 50 GHz +1 –2
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REQUIRED GENERALEQUIPMENT INFORMATION
1-4 541XXA OM
REQUIRED EQUIPMENT 'HSHQGLQJRQWKHWHVWWREHSHUIRUPHGDQ6:5$XWRWHVWHURURQHRUPRUHGHWHFWRUVDUHUHTXLUHGWRFRPSOHWHWKHWHVWVHWXSUHIHUWRWKHVHOHFWLRQJXLGHLQWKH$6HULHV7HFKQLFDO'DWD6KHHWLQ$SSHQGL[$7KHVHGHYLFHVSURGXFHWKHGHWHFWHGVLJQDOVWKDWDUHSURFHVVHGDQGGLVSOD\HGE\WKH;;$V\VWHP7KHVH5)FRPSRQHQWVDUHGHVFULEHGLQWKH$6HULHV1HWZRUN$QDO\]HUV7HFKQLFDO'DWD6KHHWFRQWDLQHGLQ$SSHQGL[$
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GENERAL DESCRIPTION OF INFORMATION 541XXA SYSTEM
541XXA OM 1-5
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GENERAL OPTIONS INFORMATION
1-6 541XXA OM
MEASUREMENTACCESSORIES
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SYSTEMACCESSORIES
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MILLIMETER WAVEMEASUREMENTSYSTEMS
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SYSTEMSPECIFICATIONS
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SYSTEM RF COMPONENTS
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USING SWRAUTOTESTERS ANDRF DETECTORS(PRECAUTIONS)
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GPC-7 +0.000–0.003
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1. Do not touch exposed contacts onany static sensitive component.
2. Do not slide static sensitivecomponent across any surface.
3. Do not handle static sensitivecomponents in areas where the flooror work surface covering is capableof generating a static charge.
4. Wear a static-discharge wristbandwhen working with static sensitivecomponents.
5. Label all static sensitive devices. 6. Keep component leads shortedtogether whenever possible.
7. Handle PCBs only by their edges.Do not handle by the edgeconnectors.
8. Lift & handle solid state devices bytheir bodies – never by their leads.
9. Transport and store PCBs and otherstatic sensitive devices in static-shielded containers.
10. ADDITIONAL PRECAUTIONS:
Keep workspaces clean and free of any objects capable of holding or storing a static charge.
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RECOMMENDED TESTEQUIPMENT
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INSTRUMENTCRITICAL
SPECIFICATIONRECOMMENDED
MANUFACTURER/MODELUSE
Adaptor Cable Simulates 560-7 Series detectors ANRITSU Model 560-10BX P
Computer/Controller Personal computer, equipped withNational PCIIA GPIB interface card
Any IBM compatible (or ANRITSUModel 85, or HP Model 200)
P
RF Detector 1. 50Ω input, 1.0 to 3000 MHz*2. 75Ω input, 1.0 to 3000 MHz**3. 0.010 to 18.5 GHz4. 0.010 to 26.5 GHz#
ANRITSU Model 5400-71N50ANRITSU Model 5400-71N75ANRITSU Model 560-7N50ANRITSU Model 560-7K50
P
Impedance Adapter Converts from 50Ω To 75Ω ANRITSU Model 12N75B P,T
Digital Multimeter Resolution: 4-1/2 digits (to 20V )DC Accuracy: 0.002% + 2 counts DC Input Impedance: 10 MΩAC Accuracy: 0.07% + 100 counts (to 20 kHz) AC Input Impedance: 1 MΩ
John Fluke Mfg Co. Inc., Model 8840A, with Option 8840A-09, True RMS AC
T
Frequency Counter Frequency: 0.1 to 26.5 GHzInput Impedance: 50Ω
EIP Microwave, Inc., Model 578A P, C
Modulation Meter Bandwidth: 15 kHzAccuracy: ±3% of FSD at 1 kHz
Anritsu Corp., Model MS-316B P, C
Oscilloscope Bandwidth: DC to 150 MHzSensitivity: 2 mVHoriz. Sensitivity: 50 ns/division
Tektronix, Inc. Model 2445
C, T
Power Meter, with: Power Range: +10 to –55 dBm Other: 50 MHz Calibrated Output
Anritsu Corp., Model ML4803A P, T
Power Sensor* 50Ω input
Frequency Range: 1.0 MHz to 2.0 GHzPower Range: –30 to +20 dBm Anritsu Corp., Model MA4601A
Power Sensor** 75Ω input
Frequency Range: 1.0 MHz to 5.5 GHzPower Range: –30 to +20 dBm
Anritsu Corp., Model MA4603Awith J0365 Conversion Connector
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INSTRUMENTCRITICAL
SPECIFICATIONRECOMMENDED
MANUFACTURER/MODELUSE
Power Sensor Frequency Range: 0.10 to 32.0 GHzPower Range: –30 to +20 dBmPower Range: –70 to –20 dBm
Anritsu Corp., Model MA4701AAnritsu Corp., Model MA4702A
P, T
Power Meter Frequency: Greater than 32 GHzPower Range: +10 to –70 dBm Other: 50 MHz Calibrated Output
Hewlett-Packard 437A P, T
Power Sensor Frequency Range: .01 to 40 GHz(needs adapter HP11904d, 2.4-K)Frequency Range: .01 to 50 GHz(no adapter needed)
Hewlett-Packard 8487AHewlett-Packard 8487D
P, T
Printer Parallel Interface operation Cannon Model BJ10SX Bubble-JetPrinter
P
Spectrum Analyzer Frequency Range: 0.01 to 20 GHzPower Range: +10 dB to –60 dBm
Anritsu Corp., Model MS2802 P, T
Step Attenuator Attenuation Range: 60 dB, 10 dB/step0.000 to 18.0 GHz0.000 to 26.5 GHz
Hewlett-Packard, Model 8495BHewlett-Packard, Model 8495D
P, C
Voltage Standard Range: –1.462V to –1.313 mVAccuracy: 0.002% of set value.
John Fluke Mfg Co. Inc., Model 335D
P, C, T
∗ Required for models 54107A, 54109A, and 54111A with 50Ω output.∗∗ Required for models 54107A, 54109A, and 54111A with 75Ω output, only.
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RECOMMENDED GENERALTEST EQUIPMENT INFORMATION
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Chapter 2Installation
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INSTALLATION ANRITSUSERVICE CENTERS
UNITED STATESANRITSU COMPANY
685 Jarvis Drive
Morgan Hill, CA 95037-2809
Telephone: (408) 776-8300
FAX: 408-776-1744
ANRITSU COMPANY
10 Kingsbridge Road
Fairfield, NJ 07004
Telephone: (201) 227-8999
FAX: 201-575-0092
AUSTRALIAANRITSU PTY. LTD.
Unit 3, 170 Foster Road
Mt Waverley, VIC 3149
Australia
Telephone: 03-9558-8177
Fax: 03-9558-8255
BRAZILANRITSU ELECTRONICA LTDA.
Praia de Botafogo, 440, Sala 2401
CEP22250-040, Rio de Janeiro, RJ, Brasil
Telephone: 021-28-69-141
Fax: 021-53-71-456
CANADAANRITSU INSTRUMENTS LTD.
215 Stafford Road, Unit 102
Nepean, Ontario K2H 9C1
Telephone: (613) 828-4090
FAX: (613) 828-5400
CHINAANRITSU BEIJING SERVICE
CENTER
Beijing Fortune Building
416W, 5 Dong San Huan Bei Lu
Chaoyang qu
Beijing 100004, China
Telephone: 010-501-7559
FAX: 010-501-7558
FRANCEANRITSU S.A
9 Avenue du Quebec
Zone de Courtaboeuf
91951 Les Ulis Cedex
Telephone: 016-44-66-546
FAX: 016-44-61-065
GERMANYANRITSU GmbH
Grafenberger Allee 54-56
D-40237 Dusseldorf
Germany
Telephone: 0211-67 97 60
FAX: 0211-68 33 53
INDIAMEERA AGENCIES (P) LTD.
A-23 Hauz Khas
New Delhi 110 016
Telephone: 011-685-3959
FAX: 011-686-6720
ISRAELTECH-CENT, LTD
Haarad St. No. 7, Ramat Haahayal
Tel-Aviv 69701
Telephone: (03) 64-78-563
FAX: (03) 64-78-334
ITALYANRITSU Sp.A
Roma Office
Via E. Vittorini, 129
00144 Roma EUR
Telephone: (06) 50-22-666
FAX: (06) 50-22-4252
JAPANANRITSU CORPORATION
1800 Onna Atsugi-shi
Kanagawa-Prf. 243 Japan
Telephone: 0462-23-1111
FAX: 0462-25-8379
KOREAANRITSU KOREA (AWK)
#901 Daeo Bldg. 26-5
Yeoido Dong, Youngdeungpo
Seoul Korea 150 010
Telephone: 02-782-7156
FAX: 02-782-4590
SINGAPOREANRITSU (SINGAPORE) PTE LTD
3 Shenton Way #24-03
Shenton House
Singapore 0106
Telephone: 2265206
FAX: 2265207
SOUTH AFRICAETESCSA
1st Floor Montrose Place
Waterfall Park
Becker Road
MIDRAND
SOUTH AFRICA
Telephone: 011-315-1366
Fax: 011-315-2175
SWEDENANRITSU AB
Box 247
S-127 25 Skarholmen
Telephone: (08) 74-05-840
FAX: (08) 71-09-960
TAIWANANRITSU CO., LTD.
8F, No. 96, Section 3
Chien Kuo N. Road
Taipei, Taiwan, R.O.C.
Telephone: (02) 515-6050
FAX: (02) 509-5519
UNITED KINGDOMANRITSU LTD.
200 Capability Green
Luton, Bedfordshire
LU1 3LU, England
Telephone: 015-82-41-88-53
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The green-headed screws are metric threads and must be used onlyin the appropriately tapped holes.
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FRONT PANEL FRONT PANELOPERATION KEY-GROUP DESCRIPTION
541XXA OM 3-7
CRT FRONT PANELDISPLAY OPERATION
1. Network Analyzer Setup Parameters: These two lines dis-play the setup parameters for Channel 1 (and Channel 2, ifused).
2. Upper Limit Line: Upper test limit line. Menu selectable ascomplex limit line (up to 10 segments) or simple straight line.
3. Reference Line Indicator (Channel 1):Indicates reference point for all channel 1 amplitude values.Position of line on display selectable via menu and Data EntryKnob.
4. Lower Limit Line: Lower test limit line (see 2, above).
5. Channel 1 Measurement Trace: Display of measured valuesfor Channel 1. Number of measurement points displayed ismenu selectable (see below).
6. Frequency Source Setup Parameters: Top two lines (below graticule) display the frequency setup pa-rameters for the internal frequency source and screen display.Frequencies are displayed in MHz for models54107A/54109A/54111A, and in GHz for all other models. Bot-tom line displays the number of measurement points (i.e., out-put frequencies) and the source RF output level currentlyselected.
7. Cursor Position Indicator: This dotted vertical line indicatesthe current frequency location of the cursor. Cursor positioncontinuously variable via Data Entry Knob.
8. System Message Display Area: System error/warning mes-sages are displayed in this area. As shown, alternate cursorreadout may be displayed here also (menu selectable).
9. Channel 2 Measurement Trace: Display of measured valuesfor Channel 2.
10. Cursor Readout/Menu Display Area: Cursor readout val-ues or setup menus are displayed in this area of the screen.
11. Reference Line Indicator (Channel 2):Indicates reference point for all Channel 2 amplitude values(see 3, above).
12. Cursor Data Readout Display: Readout data for main cur-sor and/or “relative” cursor (if active) displayed here. Fre-quencies are displayed in MHz for models 54107A/54109A/54111A, and in GHz for all other models.
13. System Status Display: System status conditions displayedhere, such as: Trace Hold, ALTERNATE SWEEP, etc. Modelnumber is the default display.
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'LVN8WLOLW\The System Menu key provides control over disk utili-ties. These utilities allow directory listing, file dele-tions, and file renaming.
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&RQILJXUH6RXUFH$OVR'LVN&RQWUROVThis menu option displays a submenu that lets youselect the “ Secure” operating mode. In this mode of op-eration, all signal source frequency information is re-moved from the screen display (including cursor,marker, and limits readouts and menu displays). Like-wise, all hard-copy output produced while in thismode will not contain frequency information. It is notpossible to change signal source operating frequencyparameters, or any other frequency parameters, while
SYSTEM FUNCTIONS FRONT PANEL KEY-GROUP OPERATION
3-16 541XXA OM
in this operating mode. Likewise, disk functions arenot assessible while in the secure mode, includingSave/ Recall.
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WARNING/ERRORMESSAGES
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REAR PANELCONNECTORS
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DISK FRONT PANELDRIVE OPERATION
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FRONT PANEL HARD COPYOPERATION PRINTOUT (EXAMPLE)
541XXA OM 3-27
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3-28 541XXA OM
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541XXA OM 3-29
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3-30 541XXA OM
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Chapter 4Front Panel Menus
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Chapter 4Front Panel Menus
INTRODUCTION 7KLVFKDSWHUSURYLGHVIORZFKDUWVVKRZLQJWKHIURQWSDQHONH\PHQXªVKLHUDUFKLFDOVWUXFWXUHDORQJZLWKGHVFULSWLYHWH[WIRUPHQXRSWLRQV
ORGANIZATION )LJXUHIDFLQJSDJHVKRZVWKH;;$IURQWSDQHOLQGH[HGWRDVVLVWLQORFDWLQJWKHILJXUHQXPEHUVLQZKLFKDVVRFLDWHGPHQXVDUHIORZFKDUWHGDQGGHVFULEHG7KHIORZFKDUWVDUHDOVRLQGH[HGLQWKHWDEOHEHORZ
Key Group Name Figure Number Number of Sheets
Network Analyzer 4-2 2
Source 4-3 1
Cursor 4-4 1
Hard Copy 4-5 1
Enhancement 4-6 1
System 4-7 3
541XXA OM 4-3/4-4
FRONT PANEL NETWORK ANALYZERMENUS KEY GROUP MENUS
541XXA OM 4-5/4-6
OFFSET/RESOLUTION
CHANNEL: n
OFFSETXX.X dB
RESOLUTIONXX.X dB/DIV
PRESS SELECTTO MOVETRACE AT
CURSOR TOREF LINE
Enter desired value into menu via theDATA ENTRY keys (or knob). Entryspecifies the dB, SWR, or ns value to beassigned to the Reference Line for trace (n).
Enter desired value into menu display.This value specifies the vallue (in dB,SWR or ns) of each vertical division of the measurement display.
Press SELECT (with Cursor on) toobtain the cursor menu.
LIMITS
HIGH LIMIT+X.XX dB
ON
OFF
LOW LIMIT+X.XX dB
ONOFF
MAIN MENU
USE THENPRESS SELECT
CHANNEL: nLIMITS
CHANNEL: nCOMPLEX
LIMITS
ENTER HIGHONOFF
ENTER LOWONOFF
MAIN MENU
USE THENPRESS SELECT
ON selection allows high limit lineto be specified for measurementtrace (n). Enter limit value in dB, SWR, or ns. OFF selection turns off limit function.
ON selection allows low limit lineto be specified for measuremnettrace n. Enter limit value in dB, SWR, or ns. OFF selection turnsoff limit function.
Designates limit line segment(number).
Enter frequencies of the start andstop points of the limit linesegment to be specified.
Enter high and low level limits forsegment.
Selects data entry for next limitline segment. Start Frequency andLevel are set to current values forcurrently selected segment.
Deletes the frequency and levelspecifications for the limit linesegment selected.
Terminates complex limit linespecification procedure (allsegments specified).
SCREEN DISPLAY:
TESTINGFOR LIMITS
CHANNEL 1XXXXX
CHANNEL 2XXXXX
Starts the CalibrationSequence; see text.
Network Analyzer
1 CHANNEL 2
DisplayOn/Off
Offset/Resolution
Autoscale
Limits
MenuCalibration
KEY GROUP
WARNINGCHANNEL: n
COMPLEXLIMITS
OVERLAP ATXXXX GHz
PRESS SELECTTO CONTINUE
ORPRESS LIMITSTO AMMEND
NOTES:
Turns designated measurement trace(Channel 1 or 2) on or off. Also turns onassociated reference line indicator, limitlines, and CHANNEL indicator (LED).
Sets screen display for the designatedmeasurement trace at optimum offsetand resolution values for viewing the measured data.
CHANNEL: nLIMITS MENU
SINGLE LINELIMITS
COMPLEXLIMITS
TRACE MASK
TEST LIMITSTO:
SINGLE COMPLEX
USE THENPRESS SELECT
CHANNEL: nCOMPLEX
(HIGH OR LOW) LIMIT
SEGMENT X
FREQUENCIES:XX.XXXX GHzXX.XXXX GHz
LEVEL:X.XX dBX.XX dB
NEXT SEGMENT
CLEAR
DONE
11
2
A
B
D
B
2
6
7
7
2
2
*
If Fill LimitArray Violation:
8
4
4
2
A
1
2
3
4
5
6
7
8
9
0
*
Corresponding Key functions for Channel 1 and Channel 2 are identical.
Displays Selected Measurement Trace (Channel 1 or 2)
Displays currently selected Input Connector.
PASS/FAIL message displayed here. If fail, frequency is also displayed.
Ratio not used for Power measurements.
Only displayed when Cursor is on.
Or SWR value.
Displayed on right side of measurement screen.
Alternate presentation: ">" and "<" mark reference line position.
These selections will not be presented for 541XXA's without Input R
All frequency information displayed by these menus is in MHz forModels 54107/09/11. It is displayed in GHz for all other models.
CHANNEL: 1MASK MENU
STORE TRACETO MASK
MASKONOFF
USE THENPRESS SELECT
NEW MASKDATA LOADED
CHANNEL X
C(Sheet 3) (Sheet 3)
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FRONT PANEL NETWORK ANALYZER MENUS GROUP MENUS
541XXA OM 4-7/4-8
CHANNEL 1INPUT: A
TRANSMISSION
RETURN LOSS
PRECISION RL
REL G/DELAY
SWR
POWER
DTF/DB
DTF/SWR
VIEW CAL
SELECT INPUT
TRACE MEMORY
MORE
USE THENPRESS SELECT
CALIBRATIONRANGE IS: XX.XXXX GHzTO: XX.XXXX GHz
PERFORM CALIBRATION
INSTRUCTIONS
USE THENPRESS SELECT
DTFCALIBRATION
SET MEDIUMWAVE XXXXXXXX INPUT
RANGE XX.XX
COAX LENGTH X.XX m
DTF SETUP
DATA POINTS 256 512 1024
EXIT DTF
DTF MENUINPUT: A
PRECISIONRETURN LOSS
SET FORMAT FINAL TUNING
USE THENPRESS SELECT
DTF MEDIUMWAVE XXXXXXXX INPUT
SET MODE COAX WAVEGUIDE COAX+GUIDE
GUIDE LIST
ENTER NEW WAVEGUIDE
COAX LIST
ENTER NEW COAX
PREVIOUS MENU
CONNECTTERMINATIONTO 3 dB PAD
PRESS SELECTTO CONTINUE
SET MEDIUMCOAX XXXX
RANGE XX.XX
DTF SETUP
DATA POINTS 256 512 1024
EXIT DTF
DTF MENUINPUT: A
DTF SETUP
SET DTFZOOM LIMITS
START XX.XX m
STOP XX.XX m
SIDELOBES: LOW NORMAL
LOSS OFFSET: XX.XX dB
MAIN MENU
DETAIL NEWWAVEGUIDE
NAMEXXXXX
F1: XX.XXXX GHz
F1/2: XX.XXXX GHz
cutoff Freq: XX.XXXX GHz
Loss: X.XX dBm
PREVIOUS MENU
TITLE ENTRYXXXXXXX
ABCDEFGHIJKL MNOPQRSTUVWXYZ 0123456789 #( ) +- . , / < > ?
CLR DEL DONE
USE KNOB TOSELECT TEXTPRESS ENTER
OR SELECT
PREVIOUSMENU
DETAIL NEWCOAX TYPE
NAMEXXXXX
PROPAGATION VELOCITYX.XX
LOSS X.XX dB/m
PREVIOUS MENU
USE THENPRESS SELECT
DTF MEDIUMWAVE XXXX
SET MODE COAX WAVEGUIDE COAX+GUIDE
GUIDE LIST
ENTER NEW WAVEGUIDE
F1: XX.XXXX GHz
F2: XX.XXXX GHz
cutoff Freq: XX.XXXX GHz
Loss: X.XX dB/m
Used to measure and calibrate precision devices (e.g., Terminations, Attenuators, and Adapters). Requires Offset SWR Autotester.
Mathematically computes the return loss from the raw ripple data.
Enter approximate length of transmission line in meters or feet. Meter or feet selection is accessed under SYSTEM SETUP after pressing the SYSTEM MENU key.
Select the number of data points. The 1024 selection provides better distance resolution in the final plot but requires longer calibration and measurement times. You might run the first test using 256 data points, then rerun the measurement using a higher resolution if you determine from the plot that it is needed.
Lets you zoom in on an area of interest.Enter the points (in feet or meters) where you want to start and stop the zoom action. If the range is altered, the STOP distance will change accordingly.
Choose the type of side lobe reduction algorithm that the 541XXA will use to process the DTF measurement data. This process suppresses sidelobe data that may mask small reflections.
Offsets return loss by fixed amounts to account for known losses (e.g. attenuators)
DTF MEDIUMCOAX XXXX
SET MODE COAX WAVEGUIDE COAX+GUIDE
COAX LIST
ENTER NEW COAX
PROPAGATION VELOCITY
LOSS: X.XX dB/m
Menu when COAX+GUIDEis selected
Indicates frequenciesover which the DTFcalibration andmeasurementswill be performed.
To Instruction Sheet
ENTERFREQUENCYLIMITS FOR
DTF
START MODEXX.XXXX GHz
STOP BELOWXX.XXXX GHz
FREQUENCYMENU
DTF MODE
To delete a previously entered coaxial or waveguide entry,1. Highlight the entry, then press the Select key.2. Choose the ENTER NEW COAX or ENTER NEW WAVEGUIDE option.3. Highlight the name in the next entry to appear and press Clear key.
NOTE:
Use this selection whentransmission is a hydridconsisting of waveguidewith a coax input.
Frequencies must be entered such that cutoff Freq is less than F1 Freq and F1 is less than F2 Freq (cutoff Freq <F1<F2) at all times. Also the F2-to-cutoff Freq range must be within the range of the 541XXA model.
Alternative menus depending on selection of Medium type
NOTE:In addition to being able to add and edit the lists of waveguide and coaxial transmission lines, you may also access these files directly and make changes. These files (COAX.LST and WVGD.LST) are available in ASCII text format on the 541XXA System Diskette. They can be edited with DOS text editor, such as EDIT.COM that is available from within MS-DOS 5.0 and above. Do not edit the files using a word processor. It will introduce coding that will corrupt these two *.LST files.
Fixed types may not be altered; however, they may be used to create a new type (e.g. , POLYE1). This new type may then be modified.
Limits the frequencies used when performing DTF measurements, e.g., to avoid specific bands. This may restrict the available display resolution at small distance ranges.
NOTETo modify a frequency range, press the Frequency key after selecting DTF. This displays the "FREQUENCY MENU DTF MODE" menu options.
Name1. WR152. WR143. WR13
F17.0500GHz5.8500GHz4.9000GHz
F210.0000GHz8.2000GHz7.0500GHz
cutoff Freq5.259GHz4.3010GHz3.711GHz
Loss0.12dB/m0.07dB/m0.09dB/m
USE THENPRESS SELECT
LIST OF DEFINED WAVEGUIDE TYPELIST OF DEFINED COAX TYPE
USE THENPRESS SELECT
1. POLYE2. AIR3. TEFL4. MTEFL
0.641.000.690.76
0.00 dB/m0.00 dB/m0.00 dB/m0.00 dB/m
Name Propagation Velocity Loss
Displays "row" ripple data on the 541XXA screen.
NOTE:To obtain the "CALIBRATION MENU"press the Calibration key after selecting DTF.
Enter length of the coaxinput line to the waveguide transmission line.
To title entry(see below)
Enters a new waveguide line to the WAVEGUIDE LIST.
Enters a new coaxinto the coax listSee Chapter 6 for
additional menus
E
E
E
NOTE:User can enter additional transmissionline names and parameters.
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MENUC
CHANNEL: 1INPUT: B
TRANSMISSION
RETURN LOSS
PRECISION RL
REL G/ DELAY
SWR
POWER
DTF/DB
DTF/SWR
SELECT INPUT
TRACE MEMORY
MORE
USE THENPRESS SELECT
3
Turns on reference line indicator formeasurement trace (n). and allows verticalposition to be adjusted.
Turns off reference line for trace (n).
Adjusts vertical position of reference line for trace (n).
NOTES:
Displays current measurement trace (n)without Active Trace Memory applied.
Displays currently stored Active TraceMemory for trace (n).
Displays current measurement trace (n)with Active Trace Memory subtracted.
CHANNEL: nTRACE MEMORY
VIEWTRACE DATA
VIEWTRACE MEMORY
VIEW(DATA-MEM)
TRACE MEMORYSTORAGE MENU
USE THENPRESS SELECT
2
CHANNEL: nREFERENCE
LINE
ONOFF
USE KNOBTO ADJUSTPOSITION
PRESS CLEARWHEN
FINISHED
2
9
Configures measurement trace (n) for Transmission measurement.
Configures measurement trace (n) for Return Loss measurement.
(Sheet 2)
Configures measurement trace for Relative Group Delay
Configures measurement trace (n) for SWR (Standing-Wave Ratio) measurement.
Configures measurement trace (n) for Power measurement.
1
2
3
4
5
6
7
8
9
0
*
Corresponding Key functions for Channel 1 and Channel 2 are identical.
Displays Selected Measurement Trace (Channel 1 or 2)
Displays currently selected Input Connector.
PASS/FAIL message displayed here. If fail, frequency is also displayed.
Ratio not used for Power measurements.
Only displayed when Cursor is on.
Or SWR value.
Displayed on right side of measurement screen.
Alternate presentation: ">" and "<" mark reference line position.
These selections will not be presented for 541XXA's without Input R
All frequency information displayed by these menus is in MHz forModels 54107/09/11. It is displayed in GHz for all other models.
Connects signal from the input connector to themeasurement trace (n).
Connects signal from the input B connector tothe measurement trace (n).
Connects signal from the input R connector tothe measurement trace (n).
Subtracts the signal from the input R from the signal from the input A (logarithmically). The resultant signal is displayed on the measurement trace (n).
Same as above, using the signal from theinput B connector.
CHANNEL: nSELECT INPUT
NON-RATIOABR
RATIO:A/RB/R
USE THENPRESS SELECT
Loads Active Trace Memory fortrace (n) with:
1 Current measurement data
2 Current High Limit data
3 Current Low Limit data
2
0
2
50
CHANNEL: nTRACE MEMORYSTORAGE MENU
LOADTRACE MEMORY
WITH
TRACE DATA
ACTIVEHIGH LIMIT
ACTIVELOW LIMIT
USE THENPRESS SELECT
Displays Calibration Data for measurementchannel associated with measurement trace (n).
CHANNEL: 2INPUT: B
TRANSMISSION
RETURN LOSS
PRECISION RL
REL G/ DELAY
SWR
POWER
VIEW CAL
SELECT INPUT
TRACE MEMORY
REF LINE
USE THENPRESS SELECT
3
MENUD
VIEW CAL
REF LINE
F (Sheet 2)
Displays Calibration Data for measurementchannel associated with measurement trace (n).
)LJXUH 1HWZRUN$QDO\]HU.H\*URXS0HQXVRI
FRONT PANEL NETWORK ANALYZER MENUS GROUP MENUS
541XXA OM 4-9/4-10
Source
INTERNAL
EXTERNAL
Frequency
MarkersAlternateSweep
OutputPower
Leveling RF
Turns the frequencysource RF Outputpower on and off;see text.
Press Key and use Keypad or Data Entryknob to enter the desired frequency source RF Output power (in dBm). Value will be displayed at bottom of screen display.
Selects between the internalpower detector and external
power detector to be usedwith the RF output leveling
circuits (see text).
MARKERS 1-4 MARKERS 5-8
M5: 10.0000 1: +2.22dB 2: +2.31dB
M6: --OFF--
M7: --OFF--
M8: --OFF--
Enter desired markerfrequency with DataEntry knob. Data atmarker frequency willbe displayed for bothchannels (if on).
Press SELECT keyto toggle ActiveMarker On/Off.
FREQUENCY
Enter the sweep Start Frequencyin GHz (or MHz).
Enter the sweep Stop Frequencyin GHz.
Enter the sweep Start Frequencyin GHz for Alternate Sweep.
Enter the sweep Stop Frequencyin GHz for Alternate Sweep.
Enter the sweep Center Frequencyin GHz.
Enter the Sweep Width in GHz.
Enter the sweep Center Frequencyin GHz for Alternate Sweep.
Enter the Sweep Width in GHzof Alternate Sweep.
Use MENU UP/DOWNand SELECT keys toselect marker M1-M8
as Active Marker.
If Alternate Sweep mode previously selected
If Center/Width frequency entry previously selected
CHAN 1 trace in Alternate Sweep mode (Main Sweep)
CHAN 2 trace
All frequency information displayed by these menus is in MHz for Models 54107/09/11. It is displayed in GHz for all other models.
If in Alternate Sweep, only values for CHAN 1 will be displayed.
M4: 11.10001: -5.66dB2: -5.67dB
M1: 8.1000 1: -8.25dB 2: +1.31dB
M2: 9.1000 1: -6.40dB 2: +3.21dB M3: -- OFF-
MARKERS
FREQUENCYMENU
START:XX.XXXX GHz
STOP:XX.XXXX GHz
PRESS SELECTFOR
CENTER/WIDTH
FREQUENCYMENU
CENTER:XX.XXXX GHz
WIDTH:XX.XXXX GHz
PRESS SELECTFOR
START/STOP
FREQUENCYMENU
START:XX.XXXX GHz
STOP:XX.XXXX GHz
ALT START:XX.XXXX GHz
ALT STOP:XX.XXXX GHz
PRESS SELECTFOR
CENTER/WIDTH
FREQUENCYMENU
CENTER:XX.XXXX GHz
WIDTH:XX.XXXX GHz
ALT CENTER:XX.XXXX GHz
ALT WIDTH:XX.XXXX GHz
PRESS SELECTFOR
START/STOP
KEY GROUP
INTERNALLEVELINGselected
EXTERNALLEVELING
CONNECTEXTERNALLEVELING
DETECTOR
PRESS SELECTWHEN READY
EXTERNALLEVELINGPASSED
Returns to previousoperating mode.
Connect output of externaldetector to rear panelEXTERNAL ALC inputconnector (see text).
Message displayed briefly
Enter the desired frequency source RF Output power level.
EXTERNALLEVELINGPASSED
Returns to previousoperating mode.
Message displayed briefly
EXTERNALSelected
ALTERNATESWEEP
If in DTF mode
If "SECURE MODE" Active
FREQUENCYMENU
SECURE MODEACTIVE
USE RESETTO RESTORE
FREQ DISPLAY
SECURE MODE
1
2
3
4
5
53
4
A
POWER LEVELMENU
SET EXTERNALLEVELING
POWER
XX.X
MAY NEEDRESCALING
PRESS SELECTTO RESCALEEXTERNALDETECTOR
D
MARKERS 5-8
PRESS SELECTFOR ON/OFF
MARKERS 1-4
PRESS SELECTFOR ON/OFF
*
* *
CA
If "SECURE MODE" Active
3
4
55
5
2
BCB
2
1
EXTERNALLEVELINGselected
D
5
FREQUENCYMENU
DTF MODE
ENTERFREQUENCYLIMITS FOR
DTF
START ABOVE:XXXX.XXX GHz
STOP BELOW:XXXX.XXX GHz
E
E
6
6
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I I I FRONT PANEL SOURCE OPERATION KEY GROUP MENUS
541XXA OM 4-11/4-12
Moves the cursor to the maximum value of the measurement trace data.
Moves the cursor to the minimum value of the measurement trace data.
Moves the cursor to the next frequency marker.
Moves the cursor to the active frequency marker.
Initiates the cursor search function defined by the Setup menu . The search value (absolute or relative ) is indicated along with the search type.
Amplitude readout at main cursor position for Trace 1.
Amplitude readout at main cursor position for Trace 2.
Frequency at main cursor position.
Frequency of alternate sweep at main cursor position.
RelativeOn/Off
Cursor
KEY GROUP
CURSOR
1: XX.XXdB2: XX.XXdB
XX.XXXXGHz(XX.XXXXGHz)
PRESS SELECTFOR
CURSOR MENU
CHANNEL 1MOVE CURSOR
TO
MAXIMUM
MINIMUM
NEXT MKR
ACTIVE MKR
dB SEARCHX.XX dBr L
SETUP
OPTIONS
SET CHAN 2
USE THEN PRESS SELECT
CURSOROPTIONS
CHANNEL 1
SEARCH FORMIN-MAX
XX.X dB LFORM MAX
REPEAT SRCHEACH SWEEP
MAIN MENU
USE THENPRESS SELECT
Changes Cursor operationto opposite channel.
Initiates a search that places activecursor on maximum peak value andrelative cursor on minimum value.
Initiates search to value relative to maximum trace value. Search type and search value as set in Setup Menu.
Repeats the selected cursor search for each measurement sweep.
CHANNEL 1
SEARCH VALUEXX.XX dB
SEARCH TYPE
LEFT
RIGHT
BANDWIDTH
MAIN MENU
USE THENPRESS SELECT
"RELATIVE" will be displayed here if using Relative cursor (SEARCH TYPE= Relative). Will be blank if using active cursor (SEARCH TYPE= absolute).
Enter the amplitude value for selected cursor search function (in dB).
Sets up a dB search to the left of the present main cursor position. Value searched for is the dB SEARCH value.
Sets up a dB search to right of the present main cursor position. Value searched for is the dB SEARCH value.
Sets up a bandwidth cursor search. Set cursor within search range before initiating search . (The two cursors will diverge to indicate bandwidth - see text.)
NOTES:
Displayed only if Trace 2 is used.
Displayed only if Alternate Sweep is used.
Display channel presently selected for cursor operation.
L signifies LEFT searchR signifies RIGHT searchBW signifies Bandwidth search
"dB" signifies search to absolute dB value. "dBr" signifiessearch to value relative to current active cursor value(setup menu) or to trace maximum value (Options menu).
Subsequent use of the "dB" search function from theOptions menu will modify this selection.
All frequency information displayed by these menus is inMHz for Models 54107/09/11. It is displayed in GHz for allother models.
Amplitude readout at active (main) cursor position for Trace 1.
Amplitude readout at active (main) cursor position for Trace 2.
Frequency readout at active (main) cursor position for Trace 1.
Frequency readout at active (main) cursor position for Trace 2.
Amplitude difference between main and relative cursors for Trace 1.
Amplitude difference between main and relative cursors for Trace 2.
Frequency difference between main and relative cursors.
Frequency difference between cursors for Alternate sweep.
Select to interchange frequency positions of main andrelative cursors.
CURSOR
1: XX.XXdB2: XX.XXdB
XX.XXXXGHz(XX.XXXXGHz)
RELATIVE(∆)
1: XX.XXdB2: XX.XXdB
XX.XXXXGHz(XX.XXXXGHz)
EXCHANGEREF↔ CURSOR
CURSOR MENU
1
2
3
4
5
6
7
7
1
7
2
1
3
3
56
3
4
2
1
7
1
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I I I FRONT PANEL CURSOR OPERATION KEY GROUP MENUS
541XXA OM 4-13/4-14
OR
Hard Copy
PRINTER
PLOTTER
Menu Start Stop
Plots the screen display on plotter
Plots only the graticule data from the screen display
Plots only the measurement trace data
Plots only the titling data from the screen display
Plots only the cursor readout data.
DONE
Prints the measurement screen display on the printer.
Selects the number of data points to be printed per measurement channel − 26, 51, 101, 201, or 401.
Prints data only from the frequency-marker measurement points.
Prints measurement limit data only.
TITLE ENTRYXXXXX
ABCDEFGHIJKLMNOPQRSTUVWX
YZ 0123456789#( ) +- . , / < > ?
CLR DEL DONE
USE KNOB TOSELECT TEXTPRESS ENTER
OR SELECT
PREVIOUSMENU
Up to twelve characters may be entered as an identifier for the type of test (such as, TNSM for transmission, RL for return loss, PWR for power or a name for operator ID).
Present Identity string displayed here, when selected.
Up to twelve characters may be entered as an identifier for the device under test name.
Present Test Device string displayed here, when selected.
When Title Entry completed, press CLEAR (or any other menu key) to exit.
Selected entry string displayed here.
Use knob or UP/DOWN keys to select desired character, then press ENTER or SELECT. Repeat as necessary to complete title string. Keypad keys may be used for numeric character entry.
Select CLR to clear entire title entry: select DEL to erase previous character entered; select DONE to exit.
Starts printing/plotting operation. The type of hard copy produced is determined by the PRINTER/PLOTTER MENU options selected.
Stops Hard copy output operation for device indicated by LED(s). If output is to printer, stop is almost immediate (set text). If to plotter, the current data string is plotted and the plotter is left in a reset state.
PRINTER MENU
GRAPH
TABULAR:26 POINT51 POINT
101 POINT201 POINT401 POINT
MARKERS
LIMITS
ENTER TITLES
PLOTTER MENU
USE THENPRESS SELECT
KEY GROUP
PLOTTER MENU
PLOT ALL
PLOT ONLY:
GRATICULETRACESTITLE
CURSOR
ENTER TITLESPRINTER MENU
USE THENPRESS SELECT
SELECT TITLETO ENTER
IDENTITYXXXXX
TEST DEVICEXXXXX
DATEON
OFF
USE THENPRESS SELECT
GPIBMODE CHANGE
WARNING:SEE NOTE ONREAR PANEL
SYSTEM
PLOTTER ONLY
USE THENPRESS SELECT
GPIB MODEIS SET TOSYSTEM
PLOTTER ONLYGPIB MODE IS
NOT SELECTED
PRESS SELECTTO CHANGEGPIB MODE
To GPIB Address Setup menu
GPIB Interface Set to Plotter Mode
In the GPIB PLOTTER mode of operation,only the 541XXA and external plotter may beconnected to the GPIB.
All frequency information printed or plotted bymodels 54107/09/11 is in MHz. For all other models, it is printed/plotted in GHz.
1
2
GPIB Interface NOT Set to Plotter Mode
*
1
2
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I I I FRONT PANEL HARD COPY OPERATION KEY GROUP MENUS
541XXA OM 4-15/4-16
Enchancement
CHANNEL 1Averaging Smoothing
CHANNEL 2
54321
MAX
MIN
54321
MAX
MIN
54321
MAX
MIN
OFF
SET CHAN 2
USEKEYPAD TOSET LEVEL
USE THENPRESS SELECT
OFF
SET CHAN 1
USEKEYPAD TOSET LEVEL
USE THENPRESS SELECT
NOTES
COUPLECHANNELS
AVERAGINGCHANNEL 1
AVERAGINGCH1 + CH2
2 SWEEPS4 SWEEPS8 SWEEPS
16 SWEEPS32 SWEEPS64 SWEEPS
128 SWEEPS256 SWEEPS
USE THENPRESS SELECT
KEY GROUP
USE KNOB ORKEYPAD TOSET LEVEL
SMOOTHINGCH1 + CH2
SMOOTHINGCHANNEL 1
SMOOTHINGCHANNEL 2
Coupled or Independent as set by ANALYZER menu.
(See SYSTEM MENU key menus - Figure 3-20.)
To turn off Averaging from this menu, press AVERAGING key.
To turn off Smoothing from this menu, press SMOOTHING key.
Turns off Averaging for indicated channel, then exits to display mode.
Turns off Smoothing for indicated channel then exits to display mode.
SMOOTHINGMODE
COUPLEDINDEPENDNT
ANALYZER
TRACE HOLD:CH 1
If Channel 2 previously selected
1
2
3
4
4
42
1
3
3
1
1
INDEPENDENTCHANNELS
USE THENPRESS SELECT
COUPLECHANNELS
OFF
2 SWEEPS4 SWEEPS8 SWEEPS
16 SWEEPS32 SWEEPS64 SWEEPS
128 SWEEPS256 SWEEPS
SET CHAN 2
USE THENPRESS SELECT
AVERAGINGCHANNEL 2
OFF
2 SWEEPS4 SWEEPS8 SWEEPS
16 SWEEPS32 SWEEPS64 SWEEPS
128 SWEEPS256 SWEEPS
SET CHAN 1
* *
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I I I FRONT PANEL ENHANCEMENT OPERATION KEY GROUP MENUS
541XXA OM 4-17/4-18
SystemMenu
System Functions
Selects the number of measurement points (frequency source output frequencies) per measurement trace.
SelfTest
Save/Recall
ReturnTo LocalRemote
KEY GROUPRESET MENU
RESET IS CONFIGURE
TO KEEP:
CAL DATA
MARKERS
LIMITS
RESET
RESET TOFACTORYDEFAULTS
USE THENPRESS SELECT
SYSTEMAPPLICATION
SELECT ROUTINE:
TRACES
AMPLIFIER
TITLES
COLOR
USER SCALING
AUTOZERO
USE THENPRESS SELECT
SYSTEMMENU
DISK UTILITY
SYSTEM SETUP
DATA POINTS
RESET
CONFIGURE:
SOURCE
ANALYZER
PLOTTER
APPLICATIONS
GPIB MODE
USE THENPRESS SELECT
FREQUENCYDATA POINTS
51101201401
USE THENPRESS SELECT
Use Data Entry Knob or Keypad to enter GPIB address for external GPIB controlled plotter (default = 8). PressCLEAR to exit.
AMPLIFIERFUNCTION
START POWERXX.X
MAX POWERXX.X
INCREASEPOWER UNTIL
LIMITS FAIL
TITLEFUNCTIONS
USER TITLES
STND TITLES
ENTER TITLES
USE THENPRESS SELECT
Exits to GPIB Address Setup menu
Sets 54XXA GPIB Interface to PLOTTER mode. Then exits to plotter setup menu (Figure 4-5).
ANALYZER
TRACE HOLD:CH1CH2
BOTH
AUX CURSORREADOUT
YESNO
SMOOTHINGMODE
COUPLEDINDEPENDNT
Freezes data (stops measurement)for Channel 1 or Channel 2, or both.
Duplicates cursor readout display in Error Message area of screen display, if no error messages are displayed.
Smoothing operation set by SMOOTHING key menus apply to both channels. See Figure 4-6
Smoothing operation set by SMOOTHING key menus apply to Channel 1 and/or Channel 2 independently. See Figure 4-6
A
BSET PLOTTER
ADDRESS
8
SET ADDRESSUSING KNOBOR KEYPAD
A
B
SOURCEOPERATION
PRESS SELECTTO
ACTIVATESECURE MODE
When in SECURE MODE, all source frequency information displayed below graticule is replaced with "SECURE MODE ACTIVE". All other frequency information displays (cursor and menu displays for markers, limits, etc.) are removed. Refer to text. Disk Function is inhibited.
GPIBMODE CHANGE
WARNING:See note onRear Panel
SYSTEM
PLOTTER ONLY
USE THENPRESS SELECT
Text Color
R0G15B15
CH1 Color
R15G15B0
CH2 Color
R15G0B0
Grat Color
R0G15B0
PRESET
AUTOZEROMODE
ON(default)
OFF
USE THENPRESS SELECT
Turns Autozero function on (normal operating mode−see text).
Holds Autozero circuit correction signal of each active channel at current value. This value remains unchanged until function returned to "on" (see text).
TRACEFUNCTIONS
CHANNEL 1
MAX HOLDMIN HOLDMAX MIN
CHANNEL 2
MAX HOLDMIN HOLDMAX MIN
CLEAR ALL
USE THENPRESS SELECT
Resets the 541XXA front panel control settings to factory−selected values. All previously saved data is erased, unless specifically saved.
Allows previously saved data to be retained during system reset operation (normally erased). One, two, or all three types may be retained. Not active for "SECURE" operating mode, refer to text.
Sets the initial power level of the frequency source for the text. The test restarts at this point each time test is run.
Sets the maximum allowable power level that will be output by the frequency source during text.
Initiates test using initial power and maximum power level values currently set. Test terminates if either Channel 1 or Channel 2 limits are reached, or maximum power level is reached (see text).
Causes previously defined User Titles to be used for screen display measurement type titles. If titles for both channels are currently defined, both will be displayed.
Reverts to standard screen display measurement type titles (TRANSMSSN, RETN LOSS, ETC.)
Displays submenu to define User Titles for Channel 1 and/or Channel 2. Submenu "IDENTIFY" and "TEST DEVICE" apply to Channel 1 and Channel 2, respectively.
Sets the color characteristics of the text, Channel 1 trace, Channel 2 trace, and graticule for the external VGA monitor display (Refer to Sections I and II). The characteristics of the display text, Channel 1 trace, Channel 2 trace, and graticule elements can each be set seperately.
Each group of three selections sets the red, green, and blue component for the associated display element. A value of "0" designates full−off, and "15" designates full on. The values shown are power−on reset default values.
Resets the color display characteristics to the power−on reset default values.
FREQUENCYSCALING
MULTIPLIERn
DIVISORn
OFFSETXX.XXXX GHz
SELECTSCALING
USERSTANDARD
Captures, displays, and holds the maximum measurement values for Channel 1 during succesive sweeps."AH" is displays at the bottom of thescreen for all trace-hold operations.*
Captures, displays, and holds the minimum measurement values for Channel 1 during successive sweeps.
Captures, displays, and holds both maximum and minimum measurementvalues for Channel 1 during successive sweeps.
Same as above, but for Channel 2.
Cancels trace-hold mode operation and returns to normal measurement mode.
*Example: "AH12" displayed at bottom of screen when Application Trace Hold is Active for Channel 1 and Channel 2.
Enter integer value, from 1 to 10 (default value = 1)
Enter integer value, from 1 to 10 (default value = 1)
Enter Offset value, 0 to +/-99.9999 MHz for Models 54107/09/11, 0 to =/-99.9999 GHz for other models (default value = 0).
Involves Frequency Scaling mode (if off). Uses currently set scaling parameters; see text.
Cancels Frequency Scaling mode.
D
D SYSTEM SETUP
SET CLOCK
KEYCLICKOFF
ON (low)ON (high)
MORE
SYSTEM UTILITIES
DISTANCE IN:METERS
FEET
CLEARNON-VOLATILE
MEMORY
USE THENPRESS SELECT
SET CLOCKCONTROL MENU
DATEXX/XX/XX
FORMATmm/dd
TIMEX.XX pm
FORMAT12 HR am/pm
24 hour
USE KEYPADTO ENTER
DATE AND TIME
Shows current (default) date when menu first appears. Enter new date, if required, in 12 or 24 hours format, as selected below.
Change between day-day/month-month (dd/mm) or month-month/day-day (mm/dd) formats.
Always enter time in 24-hour format.
C
C
DISK UTILITY
MORE DIR
RENAME FILE
DELETE FILE
FORMAT DISK
EXIT
DISK UTILITY
USE TOSELECT FILETO RENAME
PRESS SELECTTO RENAME
ORCLEAR TO
RETURN TOUTILITY MENU
DISK UTILITY
USE TOSELECT FILETO DELECT
PRESS SELECTTO RENAME
ORCLEAR TO
RETURN TOUTILITY MENU
ENTER NEWFILENAME ANDEXTENSIONS
ABCDEFGHIJKLMNOPQRSTUVWX
YZ0123456789
USE KEYPADFOR '.'
DISK UTILITYMENU
USE THENPRESS SELECT
This selection causes additionaldirectories to appear.
Return toSystem Menu
FORMAT DISK
ARE YOU SURE?
FORMAT THEFLOPPY DISK
CURRENTLY INDISK DRIVE?
NOYES
PRESS THENPRESS SELECT
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I I I FRONT PANEL SYSTEM FUNCTIONS OPERATION KEY GROUP MENUS
541XXA OM 4-19/4-20
SAVESETUP ONLYTRACE MEMINSTR STATE
SAVE TOXX
USING TITLEXXXXXXX
PRESS SELECTTO SAVE
CHANGE TITLE
MORE DIR
MAIN MENU
USE THENPRESS SELECT
DIRECTORY OF SAVE SETUPS + COMPLETE INSRUMENT STATESor
DIRECTORY OF TRACE MEMORIES
NON-VOLATILE MEMORY
0, <current setup> 03/28/94 8, empty1, test 1 12/20/94 9, empty2, test 2 02/15/94 10, empty3, empty 11, empty4, empty 12, empty5, empty 13, empty6, empty7, empty
B
A
B
C
SAVE/RECALLMENU
DATA TYPE(SETUP ONLY)
SAVE
RECALL
PREVIEW
CONFIGURE
USE THENPRESS SELECT
SAVE/RECALLSETUP ONLY
DIRECTORYON OFF
AUTOSAVEON OFF
SET FILE EXTENSION
MAIN MENU
USE THENPRESS SELECT
SAVE/RECALL(DATA TYPE)
SETUP ONLY
COMPLETE INST STATE
TRACE MEMORIES
DISPLAYEDTRACES
(SPREADSHEETFORMAT)
MAIN MENU
USE THENPRESS SELECT
FAST RECALL
ONOFF
PREVIOUS MENU
ENTER STORENUMBER TO BE
RECALLED
(Function remainsactive when menu
is removed)
RECALLSETUP ONLYTRACE MEMINSTR STATE
RECALL FROM:
XX
FAST RECALL
MORE DIR
MAIN MENU
SET FILEEXTENSION
FORSPREADSHEET
ABCDEFGHIJKL MNOPQRSTUVWX YZ123456789 DEL CLR DONE
MAIN MENU
DEFAULT
USE THENPRESS SELECT
TITLINGENTER TITLE
XXXXXXX
ABCDEFGHIJKL MNOPQRSTUVWX YZ123456789
DEL DONE CLR
PREVIOUSMENU
STORE XXEXISTS
PRESS ENTER TO OVERWRITEOR CLEAR TO CANCEL
CANNOTRECALL
SPREADSHEETFORMAT
DATA
AUTOMATICALLYINCREMENTSLAST STORE
NUMBER AND TITLETO NEXT VALIDSTORENUMBER
AND TITLE
A
Selects whether or not directory listings of memory-store locations will be displayed.
Selects whether or not file names and locations will be assigned automatically.
This menu lets you select one of the data types shown (SETUP ONLY, COMPLETE INST STATE, TRACE MEMORIES, or DISPLAYED TRACES (SPREADSHEET FORMAT), as the data type. The name of the selected type then appears in the "DATA TYPE" area of the SAVE/RECALL main menu.
Enter 3 characters from the keypad and press Enter key
Sets file extension to factory default characters and returns to main menu
SETUP ONLY appears for this example. The two bracketed labels are associated with the like-named options in the SAVE/RECALL Data Type menu.
Enter appropriate 1 or 2 digits and the <Select> or <Enter> key to recall stored setup, instrument state, or trace memory, as applicable.
For stores (memory locations) 20 and above, use the disk.
MORE DIR is a scroll function. Selecting it causes non-volatile memory and floppy-disk stored life locations to sequentially appear.
Turns Fast Recall on or off.When on, you can recall a saved setup by typing a two-digit identifier from the keypad.
Typing a two-digit identifier (01 thru 99)on the keypad and pressing <Enter>causes the associated setup, instrumentstate, or trace memory to be recalled.This process can be continued indefinitelyas long as long as the mode is active.Exit the mode by pressing any menu key.
SETUP ONLY appears for the example.The two bracketed labels are associated with the like-named options in the SAVE/RECALL Data Type menu.
Enter a one- or two-digit number from the keypad and press <Enter>. If the memory location is in use, a name will appear in the USING TITLE area. Otherwise, the memory location is available.
Saves actions instantly. If the memory locationis filled, the "STORE EXISTS" message appears.After save operation completes, action returnsto main (level 1) Save/Recall menu.
Use the knob and cursor up/down keys to highlight letters and digits; use the <Select> or <Enter> key to make selection.
SAVE Path
RECALL Path
Directory appears only if DIRECTORYis set to ON (SAVE/RECALL Configure Menu).
If DIRECTORY is ON (SAVE/RECALL Configure menu),a directory listing of memory-store locations appear and the
MORE DIR choice lets you access other directory screens.
Path followed whenAUTOSAVE is set to ON.
If Recall Type is Displayed Traces, this error message appears.
MORE DIR is a scroll function. Selecting it causes non-volatile memory and floppy-disk stored life locations to sequentially appear.
Return to SAVE/RECALL menu
NOTE:When the Spreadsheet Format is selected, the "MORE DIR" selection will display only floppy disk memory locations (20 thru 99). Spreadsheet data will not save to non-volatile memory.
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I I I FRONT PANEL SYSTEM FUNCTIONS OPERATION KEY GROUP MENUS
541XXA OM 4-21/4-22
NON-VOLATILE MEMORY
PREVIEW MENU
STORE TOPREVIEW
XX
RECALL THE PREVIEWEDSETUP/DATA
MORE DIR
MAIN MENU
DIRECTORY OF SAVE SETUPS + COMPLETE INSRUMENT STATES
0, <current setup> 03/28/94 8, empty1, test 1 12/20/94 9, empty2, test 2 02/15/94 10, empty3, empty 11, empty4, empty 12, empty5, empty 13, empty6, empty7, empty
SAVE/RECALL
DATA TYPE(SETUP ONLY)
SAVE
RECALL
PREVIEW
CONFIGURE
USE THENPRESS SELECT
C
ANRITSU 54147A STORED SETUP (0) CURRENT
PREVIEW MENU
STORE TOPREVIEW
XX
RECALL THE PREVIEWEDSETUP/DATA
DIRECTORY
MAIN MENU
MEAS TYPE TRANSMSSN (A) RETN LOSS (B)OFFSET: 0.00 dB +0.00 dBRESOLUTION: 10.00 dB +0.00 dBHIGH LIMIT: OFF OFFLOW LIMIT: OFF OFFSMOOTHING: MIN MINAVERAGING: OFF OFF
DATA POINTS: 401START STOP
PRIMARY SWEEP: 0.0100 GHz 20.000 GHzALTERNATE SWEEP: off off
RF LEVEL: 7.0 dBmLEVELING: INTERNAL
M1 off M2 off M3 offM4 off M5 off M6 offM7 off M8 off
C
Use the keypad and <Enter>key to enter the desired setup or complete instrument state number for previewing. Enter additional numbers to preview additional stores.
Recalls the data from the store number entered above.
MORE DIR is a scroll function. Selecting it causes non-volatile memory and floppy-disk stored life locations to sequentially appear.
Use the keypad <Enter> key to enter the desired setup number for previewing.Enter additional numbers to preview additional stores.
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541XXA OM 4-23/4-24
I I I FRONT PANEL SYSTEM FUNCTIONS OPERATION KEY GROUP MENUS
7DEOHRI&RQWHQWV
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Chapter 5Measurement and Calibration Procedures
Chapter 5Measurement and Calibration Procedures
INTRODUCTION 7KLVFKDSWHUGHVFULEHV
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OPERATIONALCHECKOUT PROCEDURE
7KH;;$1HWZRUN$QDO\]HUXQGHUJRHVDFRPSUHKHQVLYHVHOIWHVWZKHQWXUQHGRQRUZKHQWKH Self TestNH\LVSUHVVHG7KH“ALL TESTSPASSED”PHVVDJHWKDWGLVSOD\VRQWKHVFUHHQDWWKHFRQFOXVLRQRIWKHVHOIWHVWVLJQLILHVWKDWDOOLQWHUQDOFRQWUROFLUFXLWVDUHRSHUDWLQJSURSHUO\
7RSHUIRUPDVLPSOHRSHUDWLRQDOFKHFNWKDWFRQILUPVWKDWWKHIUHTXHQF\VRXUFHDQGQHWZRUNDQDO\]HUFLUFXLWVDUHIXQFWLRQLQJIROORZWKHSURFHGXUHRXWOLQHGEHORZ
6WHS &RQQHFWDQ5)GHWHFWRUEHWZHHQWKHRF Output FRQQHFWRUDQGWKH Input AFRQQHFWRUWRSOHIW
6WHS 3UHVVWKH;;$PowerSXVKEXWWRQERWWRPOHIWWR2Q
$WWKHFRQFOXVLRQRIWKHVHOIWHVW“ALL TESTSPASSED”ZLOODSSHDU
6WHS 3UHVVWKHSystem MenuNH\DQGVHOHFWRESETIURPWKHGLVSOD\HGPHQXSDJH$%XVLQJWKHMenuXSGRZQDQGSelectNH\V
541XXA Network Analyzer
RF Output
Input A
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
541XXA OM 5-3
6WHS )URPWKH5(6(70(18EHORZVHOHFWRESET TOFACTORY DEFAULTS.
6WHS 3UHVVWKHGraticule On/OffNH\OHIWWRWXUQRQWKHJUDWLFXOHGLVSOD\
6WHS 3UHVVWKH&KDQQHODisplay On/OffNH\OHIWWRRIIWRUHPRYHWUDFHIURPWKHVFUHHQGLVSOD\
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Graticule On/Off
SYSTEMMENU
DISK UTILITIES
SYSTEM SETUP
DATA POINTS
RESET
CONFIGURE:
SOURCE
ANALYZER
PLOTTER
APPLICATIONS
GPIB MODE
USE THENPRESS SELECT
RESET MENU
RESET ISCONFIGURED
TO KEEP:
CAL DATA
MARKERS
LIMITS
RESET
RESET TOFACTORYDEFAULTS
USE THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
OPERATIONAL CHECKOUT MEASUREMENTPROCEDURE PROCEDURES
5-4 541XXA OM
6WHS 3UHVVWKH2XWSXW3RZHUNH\DQGREVHUYHWKHVHWSRZHUOHYHORQWKH;;GLVSOD\
6WHS 3UHVVWKH&KDQQHOMenuNH\OHIW
6WHS 6HOHFW32:(5DQG6(/(&7,1387IURPWKHGLVSOD\HGPHQXOHIW
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Output Power
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
10.0 dB/DIV OFFSET1: TRANSMSSN (A)2: OFF
+0.0dB
1
1 GHz/DIVSTART: 0.0100 GHz
401 pts
STOP: 8.6000 GHz
LEVEL +6.0 dBm
54117A
CursorPosition
CURSOR
1: 5.74 dBm 4.3050 GHz
CHANNEL: 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
USE ♦ THENPRESS SELECT
MEASUREMENT OPERATIONAL CHECKOUTPROCEDURES PROCEDURE
541XXA OM 5-5
6WHS 6HOHFW1215$7,2$IURPWKHGLVSOD\HGPHQXOHIW
6WHS 3UHVVWKHCursor On/OffNH\OHIWWRREWDLQDFXUVRUGDWDUHDGRXWGLVSOD\
6WHS 3UHVVWKHRF On/OffNH\OHIWWRRIIDQGFRQILUPWKDWWKHWUDFHPRYHVGRZQZDUGWRDQRLVHIORRURIDSSUR[LPDWHO\¥G%P
6WHS 3UHVVWKHRF On/Off key (left) to on and confirm that thecursor readout value is approximately equal to the541XXA power level noted in step 7.
6WHS 3UHVVWKHOutput PowerNH\DQGUHGXFHWKHOHYHOE\G%1RWHWKHQHZSRZHUOHYHO
6WHS &RQILUPWKDWWKHFXUVRUUHDGRXWYDOXHVLVDSSUR[LPDWHO\WKDWQRWHGLQVWHS
127(7KHPHDVXUHPHQWGLVSOD\FDQEHRIIVHWLQG%WRPDWFKDPRUHDFFXUDWHSRZHUOHYHOUHIHUHQFHVXFKDVDSRZHUPHWHU
END OF PROCEDURE
>>
Menu EnhancementHard CopyCursor
Data Entry
1 2 3
4 5 6
7 8 9
0 . _
RF On/Off
>>
Menu EnhancementHard CopyCursor
System Functions
Remote
1 2 3
4 5 6
7 8 9
0 . _
Cursor On/Off
CHANNEL: 1SELECT INPUT
NON-RATIOABR
RATIOA/RB/R
USE ♦ THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Output Power
OPERATIONAL CHECKOUT MEASUREMENTPROCEDURE PROCEDURES
5-6 541XXA OM
MEASUREMENTCALIBRATION,TRANSMISSION ANDRETURN LOSS
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127($FDOLEUDWLRQLVQRWUHTXLUHGEHIRUHXVLQJWKH;;$WRSHUIRUPSRZHUPHDVXUHPHQWV
:KHQWKHCalibrationNH\LVSUHVVHGDVHULHVRIPHQXVLQVWUXFWLRQVDUHGLVSOD\HGWKDWJXLGHWKHXVHUWKURXJKWKHFDOLEUDWLRQSURFHGXUH7KHFDOLEUDWLRQSURFHGXUHVKRXOGEHSHUIRUPHGXVLQJWKHVDPHWHVWVHWXSZLWKWKHGHYLFHXQGHUWHVWUHPRYHGWKDWZLOOEHXVHGIRUWKHDFWXDOWHVW7KLVLQFOXGHVXVLQJWKHVDPHSRZHUOHYHODQGPHDVXUHPHQWIUHTXHQFLHVDVIRUWKHDFWXDOWHVW$W\SLFDOVHWXSIRUWUDQVPLVVLRQDQGUHWXUQORVVPHDVXUHPHQWVDQGFDOLEUDWLRQLVVKRZQLQ)LJXUH
Centronics Interface
RF Detector
541XXA Network Analyzer
RF Output
A B
DUT
Open/Short*
SWRAutotester
Adapter
NOTE: * Connect During Calibration** DETECTED SIGNALS # If Required
Reflected Signal**
Transmitted Signal**
Printer
1 2 3 4 5 6 7 8 91011
ON
Switch under top cover
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MEASUREMENT MEASUREMENTPROCEDURES CALIBRATION
541XXA OM 5-7
&DOLEUDWLRQ0HQX
7KHPDLQFDOLEUDWLRQPHQXKDVWKUHHVHOHFWLRQV
67$57&$/This selection displays the instructions or menuprompts for the normal calibration sequence for trans-mission and reflection measurements.
'(7(&7252))6(76This selection allows an offset (expressed in dB) to bespecified for any detector used with the A, B, or R in-puts. (A typical use is for when an attenuator is placedbefore the detector to protect it.) These values remainin memory, even after the 541XXA is powered down.The offsets can be cleared by reselecting DETECTOROFFSETS and entering “ 0 dB.” Whenever one or moredetector offsets are used, a status message is displayedat the bottom of the screen. Example: “DET OFS ABR”indicates that non-zero offsets have been entered foreach of the three inputs.
'&&$/0(18This selection is used in conjunction with the POWERselection from the NETWORK ANALYZER menus forChannel 1 and/ or Channel 2 to perform absolutepower measurements. Refer to paragraph 5-7, page 5-33.
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6WHS &RQQHFWWKHHTXLSPHQWDVVKRZQLQ)LJXUHH[
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6WHS 3UHVVWKHPowerNH\WR2Q
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
MEASUREMENT MEASUREMENTCALIBRATION PROCEDURES
5-8 541XXA OM
6WHS 3UHVVWKH6\VWHP0HQXNH\OHIW
6WHS 6HOHFW5(6(7IURPWKHGLVSOD\HGPHQXOHIWDQG5(6(772)$&725<'()$8/76IURPWKHIROORZRQPHQX
6WHS 3UHVVWKHCalibrationNH\OHIWDQGIROORZWKHLQVWUXFWLRQVLQWKHFDOLEUDWLRQPHQXV
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Menu EnhancementHard CopyCursor
Data Entry
1 2 3
4 5 6
7 8 9
0 . _
System Menu
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
SYSTEMMENU
DISK UTILITYSYSTEM SETUPDATA POINTS
RESETCONFIGURE
SOURCEANALYZERPLOTTER
APPLICATIONSGPIB MODE
USE ♦ THENPRESS SELECT
MEASUREMENT MEASUREMENTPROCEDURES CALIBRATION
541XXA OM 5-9
RETURN LOSSCALIBRATION*
STEP 2
REMOVE OPENAND CONNECT
SHORTTO TEST PORT
PRESS SELECTWHEN READY
CALIBRATIONCOMPLETED
CONNECTTEST DEVICE
PRESS SELECTWHEN READY
CALIBRATION
START CAL
DETECTOROFFSETS
DC CAL MENU
PRESS CLEARTO RETURN TOMEASUREMENT
MODE
USE THENPRESS SELECTSee
Absolute Power Measurement
(paragraph 5-7))
TRANSMISSIONCALIBRATION
CONNECT "A"DETECTOR TOTEST PORT**
PRESS SELECTWHEN READY
DETECTOROFFSETS
A: = X.XX dBB: = X.XX dB
R: = X.XX dB#
ENTER VALUESPRESS CLEARWHEN DONE
CALIBRATION*
WAIT
CALIBRATIONDATA BEING
TAKEN
CALIBRATION
WAIT
CALIBRATIONDATA BEING
TAKENCALIBRATION*
WAIT
CALIBRATIONDATA BEING
TAKEN
*Not displayed for Transmission Only Calibration
**If test setup is for transmission loss only, "TEST PORT" is the port to which the test device connects (typically the 541XXA RF Output).
#Not displayed for 541XXA's without Input R
## Frequency in MHz for 54107A, 54109A, and 54111A
RETURN LOSSCALIBRATION*
STEP 1
CONNECTAUTOTESTERTO INPUT "B"
CONNECT OPENTO TEST PORT
PRESS SELECTWHEN READY
>>
1 2 3
4 5 6
7 8 9
0 _
Calibration
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MEASUREMENT MEASUREMENTCALIBRATION PROCEDURES
5-10 541XXA OM
TRANSMISSION ANDRETURN LOSSMEASUREMENT
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6WHS &RQQHFWWHVWHTXLSPHQWSHU)LJXUHH[FHSWGRQRWFRQQHFWWKHWHVWGHYLFH7XUQWKHSULQWHURQ
6WHS 3UHVVWKH3RZHUSXVKEXWWRQOHIWWR2Q
$WWKHFRQFOXVLRQRIWKHVHOIWHVW§$//7(6763$66('¨ZLOOEHGLVSOD\HGDQGWKHVFUHHQGLVSOD\VKRXOGUHVHPEOHWKDWVKRZQDWOHIW7KHFRQWUROVHWWLQJVPD\GLIIHUIURPWKRVHVKRZQDVWKH;;$ZLOOFRPHRQOLQHZLWKWKHVDPHFRQWUROVHWWLQJVDVZKHQWXUQHGRIIODVW2QWKHDFFRPSDQ\LQJPHQXVHQVXUHWKDWERWKFKDQQHOVDUHWXUQHG2QDQGWKDW&KDQQHOLVVHWIRU75$160,66,21DQG&KDQQHOIRU5(7851/266
6WHS 3UHVVWKH6\VWHP0HQXNH\OHIWDQGUHVHWWKH;;$WRWKHIDFWRU\GHIDXOWVDVGHVFULEHGLQSDUDJUDSK
)RUWKHH[DPSOHLQFOXGHGLQWKLVSURFHGXUHWKHVWDUWIUHTXHQF\LV*+]WKHVWRSIUHTXHQF\LV*+]DQGWKHSRZHURXWSXWLVVHWWRG%P
6WHS 3UHVVWKHCalibrationNH\OHIWDQGIROORZWKHGLUHFWLRQVJLYHQLQWKHFDOLEUDWLRQPHQXVHTXHQFH
5HIHUWR3DUDJUDSKIRUDQH[SODQDWLRQRIWKHFDOLEUDWLRQPHQXV$IWHUILQLVKLQJWKHFDOLEUDWLRQFRQQHFWWKHWHVWGHYLFHDQG5)GHWHFWRUDVVKRZQLQ)LJXUH
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
>>
Menu EnhancementHard CopyCursor
Data Entry
1 2 3
4 5 6
7 8 9
0 . _
System Menu
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
MEASUREMENT TRANSMISSION AND RETURNPROCEDURES LOSS MEASUREMENT
541XXA OM 5-11
7UDQVPLVVLRQ/RVV0HDVXUHPHQW
6WHS 3UHVVWKH&KDQQHODisplay On/Off NH\OHIWWRRII
6WHS 3UHVVWKH&KDQQHOAutoscaleNH\OHIW
7KLVJLYHVDQRSWLPXPYHUWLFDOGLVSOD\RIWKHWHVWGDWDEHORZ
5HDGWKHWUDQVPLVVLRQORVVE\LQWHUSRODWLQJWKHGLVSOD\HGJUDSKLFRUUHDGRXWWKHPHDVXUHPHQWGDWDDWSRLQWVRILQWHUHVWE\XVLQJWKHFXUVRUIXQFWLRQVDVGHVFULEHGLQ6WHS
7KHH[DPSOHEHORZVKRZVDVFUHHQGLVSOD\IRUDWUDQVPLVVLRQPHDVXUHPHQWRIWKHXSSHUIUHTXHQF\UHVSRQVHRIDEDQGSDVVILOWHU7KHPRGHOXVHGLQWKLVH[DPSOHLVDPRGHO$0RGHOV$$DQG$GRQRWRSHUDWHDWWKHIUHTXHQFLHVVKRZQKRZHYHUWKH\SHUIRUPLGHQWLFDOO\ZLWKLQWKHLURZQIUH
TXHQF\UDQJHV
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Autoscale
START: 2.0000 GHz
401 pts
STOP: 8.6000 GHz
LEVEL +7.0 dBm
10.0 dB/DIV1: TRANSMSSN (A)2: OFF
OFFSET 0.0 dB
1
54117A
1 GHz/DIV
CURSOR
1: +0.16 dB 3.5411 GHz
PRESS SELECTFOR
CURSOR MENU
TRANSMISSION AND RETURN MEASUREMENTLOSS MEASUREMENT PROCEDURES
5-12 541XXA OM
>>
Menu EnhancementHard CopyCursor
System Functions
Remote
1 2 3
4 5 6
7 8 9
0 . _
Cursor On/Off
CURSOR
1: 0.16 dBm
PRESS SELECFOR
CURSOR MENU
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Knob
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Smoothing
SMOOTHINGCHANNEL 1
5 MAX4 3 2 1 MIN
USE KNOB ORKEYPAD TOSET LEVEL
MEASUREMENT TRANSMISSION AND RETURNPROCEDURES LOSS MEASUREMENT
541XXA OM 5-13
6WHS 3UHVVWKHCursor On/OffNH\OHIW
7KHFXUVRUUHDGRXWPHQXZLOOGLVSOD\WKHUHDGRXW
GDWDDWWKHSUHVHQWFXUVRUSRVLWLRQ8VHWKHData EntryNQREWRPRYHWKHFXUVRUWRWKHGHVLUHGSRLQWRQWKHPHDVXUHPHQWWUDFH7KHQUHDGWKHWUDQVPLVVLRQOHYHOIURPWKHFXUVRUUHDGRXWGLVSOD\
)RUWKHH[DPSOHVKRZQWKHWUDQVPLVVLRQOHYHODW*+]LVG%
6WHS 8VLQJWKHData EntryNQREOHIWPRYHWKHFXUVRUWRWKHERWWRPRIWKHILOWHUVNLUWDQGUHDGWKHIUHTXHQF\DQGWUDQVPLVVLRQOHYHODWWKHVHOHFWHGSRLQW
)RUWKHH[DPSOHVKRZQDW*+]WKHWUDQVPLVVLRQORVVYDULHVEHWZHHQDSSUR[LPDWHO\¥G%DQG¥G%
6WHS 3UHVVWKHSmoothingNH\OHIWDQGVHOHFWDVPRRWKLQJOHYHORI
>>
Menu EnhancementHard CopyCursor
Data Entry
1 2 3
4 5 6
7 8 9
0 . _
System Menu
FREQUENCYDATA POINTS
51101201401
USE ♦ THENPRESS SELECT
SYSTEMMENU
DISK UTILITYSYSTEM SETUPDATA POINTS
RESETCONFIGURE
SOURCEANALYZERPLOTTER
APPLICATIONSGPIB MODE
USE ♦ THENPRESS SELECT
TRANSMISSION AND RETURN MEASUREMENTLOSS MEASUREMENT PROCEDURES
5-14 541XXA OM
6WHS 3UHVVWKHSystem MenuNH\OHIW
6WHS 6HOHFWDATA POINTSIURPWKHGLVSOD\HGPHQXOHIW
6WHS 6HOHFW401IURPWKHQH[WPHQXWRDSSHDUOHIW
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>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Smoothing
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Hard Copy Menu
PRINTER MENUGRAPH
TABULAR26 POINTS 51 POINTS
101 POINTS 201 POINTS 401 POINTS
MARKERS
LIMITS
MEASUREMENT TRANSMISSION AND RETURNPROCEDURES LOSS MEASUREMENT
541XXA OM 5-15
6WHS 3UHVVthe SmoothingNH\OHIWWRRII
6WHS 3UHVVWKHHard Copy MenuNH\OHIW
6WHS ,IGHYLFHLGHQWLI\GDWHDQGWHVWGHYLFHLQIRUPDWLRQLV
UHTXLUHGWKHQVHOHFW“ENTER TITLES” UHIHUWR6HFWLRQ,,,¥)URQW3DQHO2SHUDWLRQDVQHFHVVDU\
6WHS 6HOHFWGRAPHWRSULQWWKHGLVSOD\HGJUDSKLFRUVHOHFW 26, 51, 101, 201, RU401 XQGHU“TABULAR:” WRSULQWDWDEXODWLRQDWWKHVHOHFWHGQXPEHURIIUHTXHQF\SRLQWV<RXPD\DOVRFKRRVHWRSULQWRXWDWDEXODWLRQDWRQO\WKHPDUNHUIUHTXHQFLHVLIIUHTXHQF\PDUNHUVKDYHEHHQVHWXS
START: 2.0000 GHz
401 pts
STOP: 8.6000 GHz
LEVEL +7.0 dBm
10.0 dB/DIV1: TRANSMSSN (A)2: OFF
OFFSET 0.0 dB
1
54117A
1 GHz/DIV
CURSOR
1: +0.16 dB 3.5411 GHz
PRESS SELECTFOR
CURSOR MENU
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Start
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
TRANSMISSION AND RETURN MEASUREMENTLOSS MEASUREMENT PROCEDURES
5-16 541XXA OM
6WHS 3UHVVWKHHard Copy StartSULQWNH\OHIWWRSULQWRXW
WKHGDWD
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5HWXUQ/RVV0HDVXUHPHQW
6WHS 3UHVVWKH&KDQQHODisplay On/OffNH\OHIWWRRQ
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Autoscale
CURSOR
1: 19.16 dB
3.5411GHz
PRESS SELECTFOR
CURSOR MENU
MEASUREMENT TRANSMISSION AND RETURNPROCEDURES LOSS MEASUREMENT
541XXA OM 5-17
6WHS 3UHVV&KDQQHOAutoscaleNH\OHIW
6WHS 2EVHUYHWKHCursorPHQXOHIW
)RUWKHH[DPSOHVKRZQWKHWUDQVPLVVLRQOHYHODW*+]LV¥G%
6WHS 3UHVVWKHHard Copy StartSULQWNH\OHIWWRSULQWRXWWKHGDWD
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127(1RWHWKDWERWKWUDQVPLVVLRQDQGUHWXUQORVVPHDVXUHPHQWVDUHVKRZQ
6WHS (1'2)352&('85(
START: 2.0000 GHz
401 pts
STOP: 8.6000 GHz
LEVEL +7.0 dBm
10.0 dB/DIV10.0 dB/DIV
1: TRANSMSSN (A)2: RETN LOSS
OFFSET 0.0 dBOFFSET +10.0 dB
2
1
54117A
1 GHz/DIV
CURSOR
1: +0.16 dB2: -19.16 dB 3.5411 GHz
PRESS SELECTFOR
CURSOR MENU
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Start
TRANSMISSION AND RETURN MEASUREMENTLOSS MEASUREMENT PROCEDURES
5-18 541XXA OM
ALTERNATE SWEEPMEASUREMENT
$SURFHGXUHIRUPDNLQJDOWHUQDWHVZHHSPHDVXUHPHQWVLVGHVFULEHGEHORZ,QWKLVPRGHWKHVHFRQGDOWHUQDWHVHWXSVZHHSSDUDPHWHUVDUHVHWGLIIHUHQWO\IURPWKHUHJXODUVZHHS¦XVXDOO\ZLWKDUHGXFHGIUHTXHQF\VSDQ7KLVSURGXFHVDQH[SDQGHGPHDVXUHPHQWGLVSOD\IRUWKHVHFRQGVZHHS7KHDOWHUQDWHVZHHSPRGHLVFRQWUROOHGYLDWKHPHQXVDVVRFLDWHGZLWKWKHAlternate SweepNH\7KHHTXLSPHQWVHWXSIRUWKLVW\SHRIPHDVXUHPHQWLVJHQHUDOO\WKHVDPHDVIRUWUDQVPLVVLRQDQGUHWXUQORVVPHDVXUHPHQWV
6WHS &RQQHFWWHVWHTXLSPHQWSHU)LJXUHH[FHSWGRQRWFRQQHFWWKHWHVWGHYLFH7XUQWKHSULQWHURQ
6WHS 3UHVVWKHPowerNH\OHIWWR2Q
6WHS $WWKHFRQFOXVLRQRIWKHVHOIWHVWVHWXSDQGFDOLEUDWHWKH;;$ZLWK,QSXW$&KDQQHOVHWIRUWUDQVPLVVLRQPHDVXUHPHQWDQG,QSXW%&KDQQHOVHWIRUUHWXUQORVVPHDVXUHPHQW5HIHUWRVWHSVLQSDUDJUDSKDVQHFHVVDU\
7UDQVPLVVLRQ/RVV0HDVXUHPHQW
6WHS 3UHVVWKH&KDQQHO MenuNH\
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
MEASUREMENT ALTERNATING SWEEPPROCEDURES MEASUREMENT
541XXA OM 5-19
6WHS 6HOHFWTRANSMISSIONDQGSELECT INPUTIURPWKHGLVSOD\HGPHQX
6WHS 6HOHFW1215$7,2$IURPWKHGLVSOD\HGPHQX
6WHS 3UHVVWKH&KDQQHO MenuNH\
CHANNEL: 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
USE ♦ THENPRESS SELECT
CHANNEL: 1SELECT INPUT
NON-RATIOABR
RATIOA/RB/R
USE ♦ THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
ALTERNATING SWEEP MEASUREMENTMEASUREMENT PROCEDURES
5-20 541XXA OM
6WHS 6HOHFWTRANSMISSIONDQGSELECT INPUTIURPWKHGLVSOD\HGPHQX
6WHS 6HOHFW1215$7,2$IURPWKHGLVSOD\HGPHQX
6WHS 3UHVVWKH&KDQQHO AutoscaleNH\7KLVJLYHVDQRSWLPXPYHUWLFDOGLVSOD\RIWKHWHVWGDWD
3UHVVWKH&KDQQHODisplay On/Off NH\WRRIILIGHVLUHGWRYLHZ&KDQQHO$RQO\
CHANNEL: 2INPUT: B
TRANSMISSIONRETURN LOSSPRECISION RL
SWRPOWER
DTFVIEW CAL
SELECT INPUTTRACE MEMORY
REF LINE
USE ♦ THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Autoscale
CHANNEL: 2SELECT INPUT
NON-RATIOABR
RATIOA/RB/R
USE ♦ THENPRESS SELECT
MEASUREMENT ALTERNATING SWEEPPROCEDURES MEASUREMENT
541XXA OM 5-21
6WHS 3UHVVAlternate Sweep NH\
6WHS 6HOHFW67$57IURPWKHGLVSOD\HGPHQXOHIWDQGHQWHUDIUHTXHQF\XVLQJWKHData EntryNH\SDGRUURWDU\NQRE*+]LVXVHGLQWKLVH[DPSOH
6WHS 6HOHFW6723DQGHQWHUDIUHTXHQF\XVLQJWKHDataEntryNH\SDGRUURWDU\NQRE*+]LVXVHGLQWKLVH[DPSOH
6WHS 6HOHFW$/767$57IURPWKHGLVSOD\HGPHQXOHIWDQGHQWHUDIUHTXHQF\XVLQJWKHData EntryNH\SDGRUURWDU\NQRE*+]LVXVHGLQWKLVH[DPSOH
6WHS 6HOHFW$/76723DQGHQWHUDIUHTXHQF\XVLQJWKHData EntryNH\SDGRUURWDU\NQRE*+]LVXVHGLQWKLVH[DPSOH
6WHS 3UHVVWKH&KDQQHODisplay On/Off NH\WR On.
6WHS 3UHVVWKH&KDQQHO AutoscaleNH\
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>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Alternate Sweep
FREQUENCYMENU
START:0.0100 GHz
STOP:2.000 GHz
ALT START:0.0100 GHz
ALT STOP:0.5000 GHz
PRESS SELECTFOR
CENTER/WIDTH
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Autoscale
ALTERNATING SWEEP MEASUREMENTMEASUREMENT PROCEDURES
5-22 541XXA OM
)LJXUH ([DPSOHVRI$OWHUQDWLQJ6ZHHS0RGH0HDVXUHPHQWV
10.0 dB/DIV 0.1 dB/DIV
1: TRANSMSSN (A)2: TRANSMSSN (A)
OFFSET +0.0 dBOFFSET -0.1 dB
2
1
START: 0.0100 GHzSTART: 0.0100 GHz401 pts
STOP: 2.0000 GHzSTOP: 0.5000 GHz
LEVEL: +7.0 dBm(ALT)
54117A
a. Alternating sweep mode measurement display of the transmission characteristics of a 500 MHz filter. The pass bandstarts at 10 MHz and extends to about 500 MHz. Trace 2 shows an expanded view of the pass band. The start andstop frequencies for trace 2 are marked “ALT” in the second frequency parameter line below the graticle display.
-66 dB
TRACE 2OFFSETREFERENCE(-10 dB)
START: 0.0100 GHzSTART: 0.0100 GHz401 pts
10.0 dB/DIV10.0 dB/DIV
OFFSET +0.0 dBOFFSET -10.0 dB
1: TRANSMSSN (A)2: RETN LOSS (B)
STOP: 2.0000 GHzSTOP: 0.5000 GHz
LEVEL: +7.0 dBm(ALT)
21
54117A
b. Alternating sweep mode measurement display of the return loss characteristics of the same 500 MHz filter. Trace 2shows an expanded view of the return loss characteristics. As shown, the maximum return loss is approximately 66dB at 500 MHz; the minumum is approximately 10 dB. (Note that the Trace 2 Reference Line is offset by –10 dB.)
MEASUREMENT ALTERNATING SWEEPPROCEDURES MEASUREMENT
541XXA OM 5-23
6WHS 3UHVVWKHCursor On/OffNH\OHIW
2EVHUYHWKHUHDGRXWWRREWDLQWUDQVPLVVLRQPHDVXUHPHQWGDWDDWIUHTXHQFLHVRILQWHUHVW
6WHS ,IGHVLUHGPDNHDKDUGFRS\SULQWRXWRIWKHWUDQVPLVVLRQORVVGDWDDVGHVFULEHGLQ6WHSRISDUDJUDSK
5HWXUQ/RVV0HDVXUHPHQW
6WHS 3UHVVWKH&KDQQHOMenuNH\OHIW
6WHS 6HOHFWRETURN LOSSDQGSELECT INPUTIURPWKHGLVSOD\HGPHQX
>>
Menu EnhancementHard CopyCursor
System Functions
Remote
1 2 3
4 5 6
7 8 9
0 . _
Cursor On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL: 2INPUT: B
TRANSMISSIONRETURN LOSSPRECISION RL
SWRPOWER
VIEW CALSELECT INPUT
TRACE MEMORYREF LINE
USE ♦ THENPRESS SELECT
ALTERNATING SWEEP MEASUREMENTMEASUREMENT PROCEDURES
5-24 541XXA OM
6WHS 6HOHFW1215$7,2%IURPWKHGLVSOD\HGPHQX
6WHS 3UHVVWKH&KDQQHO AutoscaleNH\
6WHS 3UHVVWKHCursor On/OffNH\OHIW
CHANNEL: 2SELECT INPUT
NON-RATIOABR
RATIOA/RB/R
USE ♦ THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Autoscale
>>
Menu EnhancementHard CopyCursor
System Functions
Remote
1 2 3
4 5 6
7 8 9
0 . _
Cursor On/Off
MEASUREMENT ALTERNATING SWEEPPROCEDURES MEASUREMENT
541XXA OM 5-25
6WHS 2EVHUYHWKHUHDGRXWWRREWDLQUHWXUQORVVGDWDDWIUHTXHQFLHVRILQWHUHVW
6WHS $QH[DPSOHRIDUHWXUQORVVPHDVXUHPHQWXVLQJWKH$OWHUQDWH6ZHHS0RGHLVVKRZQLQ)LJXUHSDUWE
6WHS 8VHWKHFXUVRUUHDGRXWIXQFWLRQWRREWDLQUHWXUQORVVPHDVXUHPHQWGDWDDWIUHTXHQFLHVRILQWHUHVW,IGHVLUHGPDNHDKDUGFRS\SULQWRXWRIWKHUHWXUQORVVGDWDDVGHVFULEHGLQ6WHSRISDUDJUDSK
END OF PROCEDURE
ALTERNATING SWEEP MEASUREMENTMEASUREMENT PROCEDURES
5-26 541XXA OM
RATIO MODEMEASUREMENT
5DWLRPRGHPHDVXUHPHQWVDULWKPHWLFDOO\VXEWUDFWWKH5LQSXWIURPHLWKHUWKH$RU%LQSXW7KLVW\SHRIPHDVXUHPHQWLVVHWXSE\XVLQJWKHNetwork AnalyzerFKDQQHOVHWXSPHQXVIRU&KDQQHODQGRU&KDQQHO7KHSURFHGXUHIRUPDNLQJWKHVHPHDVXUHPHQWVLVGHVFULEHGEHORZ$W\SLFDOHTXLSPHQWVHWXSIRUWKLVPHDVXUHPHQWLVVKRZQLQ)LJXUH
7KHUDWLRPHDVXUHPHQWPRGHKDVPDQ\XVHV,WFDQEHXVHGWRFRPSHQVDWHIRUWKHHIIHFWVRIDORQJVLJQDOWUDQVPLVVLRQSDWKVXFKDVZKHUHWKHGHYLFHXQGHUWHVW'87LVORFDWHGUHPRWHO\IURPWKH;;$V\VWHP8VLQJH[WHQGHUFDEOHVEHWZHHQWKH$XWRWHVWHUDQGRUGHWHFWRUDQGWKH;;$LWLVSRVVLEOHWRORFDWHWKH'87PRUHWKDQIHHWIURPWKH;;$UHIHUWR&KDSWHU5DWLRPRGHLVXVHGWRPDLQWDLQV\VWHPFDOLEUDWLRQZKHQWKHRF OUTPUTOHYHOLVFKDQJHGGXULQJWKHWHVW
6WHS &RQQHFWWHVWHTXLSPHQWSHU)LJXUHH[FHSWGRQRWFRQQHFWWKHWHVWGHYLFH7XUQWKHSULQWHURQ
6WHS 3UHVVWKHPowerNH\OHIWWROn9HULI\WKH;;$SDVVHVWKH6HOI7HVWVDWLVIDFWRULO\
Centronics Interface
SWR Autotester
Open/Short*
X
Test Device
541XXA ScalarNetwork Analyser
A B
* Connect When Directed by Calibration Menu
R
Detectors
Splitter
RFOutput
Printer
1 2 3 4 5 6 7 8 91011
ON
Switch under top cover
CAUTIONMax Reverse Power is 5W;Max DC voltage is +/-50V
)LJXUH 7\SLFDO(TXLSPHQW7HVW6HWXSIRUD5DWLR0RGH0HDVXUHPHQW
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
MEASUREMENT RATIO MODEPROCEDURES MEASUREMENT
541XXA OM 5-27
6WHS 3UHVVWKH&KDQQHODisplay On/Off NH\OHIWWR2Q
6WHS 3UHVVWKH&KDQQHODisplay On/Off NH\OHIWWR2Q
6WHS 3UHVVWKH&KDQQHOMenu NH\OHIW
6WHS 6HOHFWTRANSMISSIONWKHQ6(/(&7,1387IURPWKHGLVSOD\HGPHQXOHIW
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL: 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
USE ♦ THENPRESS SELECT
RATIO MODE MEASUREMENTMEASUREMENT PROCEDURES
5-28 541XXA OM
6WHS 6HOHFWRATIO A/RIURPWKHGLVSOD\HGPHQXOHIW
6WHS 3UHVVWKH&KDQQHOMenu NH\OHIW
6WHS 6HOHFWRETURN LOSSWKHQ6(/(&7,1387IURPWKHGLVSOD\HGPHQXOHIW
CHANNEL: 1SELECT INPUT
NON-RATIOABR
RATIOA/RB/R
USE ♦ THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL: 2INPUT: B
TRANSMISSIONRETURN LOSSPRECISION RL
SWRPOWER
DTFVIEW CAL
SELECT INPUTTRACE MEMORY
REF LINE
USE ♦ THENPRESS SELECT
MEASUREMENT RATIO MODEPROCEDURES MEASUREMENT
541XXA OM 5-29
6WHS 6HOHFWRATIO B/RIURPWKHGLVSOD\HGPHQXOHIW
6WHS 6HWWKH SourceFRQWUROVOHIW WRWKHGHVLUHGIUHTXHQF\UDQJHDQGSRZHURXWSXWOHYHOIRUWKHWHVW)RUWKHH[DPSOHLQ)LJXUHWKHVWDUWIUHTXHQF\LV*+]VWRSIUHTXHQF\LV*+]DQGRXWSXWSRZHULV¥G%P
6WHS 3UHVVWKHCalibrationNH\OHIWDQGIROORZWKHLQVWUXFWLRQVGLVSOD\HGLQWKHFDOLEUDWLRQPHQXVDVVKRZQLQ)LJXUH
Transmission Loss Measurement (Ratio Mode)
6WHS 3UHVVWKH&KDQQHODisplay On/Off NH\OHIWWR2))
CHANNEL: 2SELECT INPUT
NON-RATIOABR
RATIOA/RB/R
USE ♦ THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Source
FrequencyOutputPower
MarkersAlternateSweep
RFOn/Off
RF Off
LevelingInternal
External
Unleveled
Frequency
Output PowerRF On/Off
>>Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
RATIO MODE MEASUREMENTMEASUREMENT PROCEDURES
5-30 541XXA OM
6WHS 3UHVVWKH&KDQQHOAutoscaleNH\OHIW7KLVJLYHVDQRSWLPXPYHUWLFDOGLVSOD\RIWKHWHVWGDWD
6WHS 5HDGWKHWUDQVPLVVLRQORVVUDWLR$5E\XVLQJWKHFXUVRUGDWDUHDGRXWIXQFWLRQWRREWDLQPHDVXUHPHQWGDWDDWIUHTXHQFLHVRILQWHUHVWUHIHUWRSDUDJUDSK6WHS$QH[DPSOHRIDUDWLRPRGHPHDVXUHPHQWGLVSOD\LVVKRZQLQ)LJXUH7KLVILJXUHVKRZVERWKWUDQVPLVVLRQORVV7UDFHDQGUHWXUQORVV7UDFH
6WHS ,IGHVLUHGPDNHDKDUGFRS\SULQWRXWRIWKHWUDQVPLVVLRQORVVGDWDDVGHVFULEHGLQSDUDJUDSK6WHS
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Autoscale
1
2
1: TRANSMSSN (A/R)2: RETN LOSS (B/R)
OFFSET -17.0 dBOFFSET +20.0 dB
0.1 dB/DIV5.0 dB/DIV
START: 0.7000 GHz
401 pts
STOP: 3.5000 GHz
LEVEL: -10.0 dBm500 MHz/DIV
54117A
)LJXUH 5DWLR0RGH0HDVXUHPHQW'LVSOD\([DPSOH
MEASUREMENT RATIO MODEPROCEDURES MEASUREMENT
541XXA OM 5-31
Return Loss Measurement
6WHS 3UHVVWKH&KDQQHO'LVSOD\2Q2IINH\WRRQDQGWKH&KDQQHO'LVSOD\2Q2IINH\WRRII
6WHS 3UHVVWKH&KDQQHOAutoscaleNH\OHIW
6WHS 5HDGWKHUHWXUQORVVUDWLR%5E\XVLQJWKHFXUVRUGDWDUHDGRXWIXQFWLRQ
6WHS ,IGHVLUHGPDNHDKDUGFRS\SULQWRXWRIWKHUHWXUQORVVGDWDDVGHVFULEHGLQ6WHSRISDUDJUDSK
END OF PROCEDURE
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Autoscale
RATIO MODE MEASUREMENTMEASUREMENT PROCEDURES
5-32 541XXA OM
ABSOLUTE POWERMEASUREMENT
$SURFHGXUHIRUXVLQJWKH;;$WRPHDVXUHDEVROXWHSRZHULVJLYHQEHORZ
6WHS 3HUIRUPWKH;;$2SHUDWLRQDO&KHFNRXW3URFHGXUHDVGHVFULEHGLQSDUDJUDSK
6WHS 9HULI\WKDWWKHRXWSXWRIWKHH[WHUQDO5)VRXUFHWREHPHDVXUHGLVRII
6WHS &RQQHFWWKH5)GHWHFWRUEHWZHHQWKH;;$,QSXW$FRQQHFWRUDQGWKH5)VRXUFHDVVKRZQLQ)LJXUH
)RUDVZHSWIUHTXHQF\SRZHUPHDVXUHPHQWWKH;;$DQGWKH5)VRXUFHPXVWEHV\QFKURQL]HG7KHVLJQDOIURPWKH;;$UHDUSDQHOHorizontal OutputFDQEHXVHGWRWULJJHURUGULYHWKH5)VRXUFHIRUWKLVDSSOLFDWLRQ
&$87,21
%HIRUHSHUIRUPLQJWKHPHDVXUHPHQWGHWHUPLQHWKDWWKHSRZHURXWSXWRIWKH5)VRXUFHZLOOQRWH[FHHGWKHPD[LPXPLQSXWSRZHUOLPLWIRUWKHGHWHFWRUDQGRUPDWFKLQJDGDSWRUVXVHG8VHDVXLWDEOHDWWHQXDWRULIQHFHVVDU\
A
541XXA Network Analyzer
RF source to be measured
Detector
OUT
Impedance Adapter/ Attenuator (if used)
Synchronization Signal (See Text)
)LJXUH 7HVW6HWXSIRU$EVROXWH3RZHU0HDVXUHPHQW
MEASUREMENT ABSOLUTE POWERPROCEDURES MEASUREMENT
541XXA OM 5-33
6WHS 6HWWKH&KDQQHODisplay On/Off NH\WR2IIOHIW
6WHS 3UHVVWKH&KDQQHOMenuNH\
6WHS 6HOHFWPOWERIURPWKHGLVSOD\HGPHQXOHIW
9HULI\WKDWLQSXW“A” LVVHOHFWHGDVWKHLQSXWFRQQHFWRUIRU&KDQQHO
6WHS 3UHVVWKHCalibrationNH\OHIW
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL: 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
USE ♦ THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
ABSOLUTE POWER MEASUREMENTMEASUREMENT PROCEDURES
5-34 541XXA OM
6WHS 6HOHFWDC CAL 0(18IURPWKHGLVSOD\HGPHQXOHIW
2SWLRQDO8VHWKH'(7(&7252))6(76VHOHFWLRQWRPDWFKWKH5)GHWHFWRUªVVHQVLWLYLW\WRDSRZHUPHWHUªVPHDVXUHPHQW &RQQHFWDFDOLEUDWLRQTXDOLW\VHFRQGDU\VWDQGDUG
SRZHUPHWHUWRRQHDUPRIDSRZHUVSOLWWHU &RQQHFWWKH;;$5)GHWHFWRUWRWKHRWKHUDUP$SSO\DG%PIL[HGIUHTXHQF\LQSXWVLJQDOWRWKH
SRZHUVSOLWWHULQSXW $GMXVWWKH;;$'(7(&7252))6(7YDOXH
XQWLOWKH;;$GLVSOD\LVZLWKLQ ±G%DWWKHSRZHUPHWHUªVGLVSOD\
6WHS 6HOHFW21IURPWKHGLVSOD\HGPHQXOHIW
127(6• 7KLVPRGHRIRSHUDWLRQVHWVWKH;;$
WRSHUIRUPSRZHUPHDVXUHPHQWVZLWKWKHDXWR]HURIXQFWLRQRIHDFKDFWLYHWKDWLV32:(5PHDVXUHPHQWFKDQQHOGLVDEOHG7KHDXWR]HURFRUUHFWLRQYROWDJHIRUHDFKDFWLYHFKDQQHOLVKHOGDWWKHYDOXHLQHIIHFWZKHQWKHDC CALIXQFWLRQZDVHQDEOHG
• :KLOHLQWKHDC CALPRGHLIWKHPHDVXUHPHQWLQSXWFRQQHFWRULVFKDQJHG,1387$%5RUDGLIIHUHQWGHWHFWRULVFRQQHFWHGHWFWKHQDZDUQLQJPHVVDJHZLOOEHGLVSOD\HG7RFOHDUWKLVFRQGLWLRQWXUQWKH5)VRXUFHSRZHURIIDQGSUHVV6(/(&7WRUHHVWDEOLVKWKHDXWR]HURYDOXHV
6WHS 6HWWKHRXWSXWRIWKHH[WHUQDO5)VRXUFHRQ
6WHS 3UHVVWKH&KDQQHOAutoscaleNH\OHIW7KLVJLYHVDQRSWLPXPYHUWLFDOGLVSOD\RIWKHWHVWGDWD
CALIBRATION
START CAL
DETECTOROFFSETS
DC CAL MENU
PRESS CLEARTO RETURN TOMEASUREMENT
MODE
USE ♦ THENPRESS SELECT
SET DC CAL
ONOFF
PRESS ENTERTO DISPLAYLOG/TEMP
CORRECTION
USE ♦ THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Autoscale
MEASUREMENT ABSOLUTE POWERPROCEDURES MEASUREMENT
541XXA OM 5-35
6WHS 3UHVVWKHCursor On/Off NH\OHIWWR21
6WHS 8VLQJWKHData Entry URWDU\NQREOHIWPRYHWKHFXUVRUIURPWKHORZWRWKHKLJKHQGVRIWKHWUDFHDQGUHDGWKH5)VRXUFHRXWSXWSRZHULQG%PDWWKHIUHTXHQFLHVRILQWHUHVW
127(,IDPDWFKLQJDGDSWRURUDWWHQXDWRULVXVHGWKHLQVHUWLRQORVVRIWKHDGGHGGHYLFHPXVWEHWDNHQLQWRDFFRXQWZKHQUHDGLQJRXWWKHPHDVXUHPHQWGDWD
END OF PROCEDURE
>>
Menu EnhancementHard CopyCursor
System Functions
Remote
1 2 3
4 5 6
7 8 9
0 . _
Cursor On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Knob
ABSOLUTE POWER MEASUREMENTMEASUREMENT PROCEDURES
5-36 541XXA OM
PRECISION RETURNLOSS CALIBRATION ANDMEASUREMENT
7KH;;$LVFDSDEOHRIPDNLQJSUHFLVLRQUHWXUQORVVPHDVXUHPHQWVRIDGDSWHUVWHUPLQDWLRQVDWWHQXDWRUVDQGRWKHUKLJKUHWXUQORVVFRPSRQHQWV0HDVXUHPHQWVUHTXLUHXVHRIDSUHFLVLRQDLUOLQHDQGDQ2IIVHW6:5$XWRWHVWHU)LJXUH0HDVXUHPHQWVPDGHXVLQJWKLVPRGHDQGWKHDERYHPHQWLRQHGFRPSRQHQWVZLOOSURYLGHUHVXOWVWKDWDUHWUDFHDEOHWRWKH1,671DWLRQDO,QVWLWXWHIRU6WDQGDUGVDQG7HFKQRORJ\VWDQGDUGVIRUWKHSUHFLVLRQDLUOLQH
6WHS &RQQHFWWHVWHTXLSPHQWSHU)LJXUH
6WHS 3UHVVWKH3RZHUSXVKEXWWRQOHIWWR2Q
$WWKHFRQFOXVLRQRIWKHVHOIWHVW§$//7(6763$66('¨ZLOOEHGLVSOD\HGDQGWKH;;$ZLOOEHUHDG\WRPDNHDPHDVXUHPHQW
6WHS 3UHVVWKH&KDQQHODisplay On/Off NH\OHIWWRRII
541XXA Network Analyzer
A B
DUT
Open/Short*
OffsetSWR
Autotester
Adapter
Beadless End
Termination
*Connect as directed by procedure
)LJXUH 7HVW6HWXSIRUD3UHFLVLRQ5HWXUQ/RVV0HDVXUHPHQW
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
MEASUREMENT PRECISION RETURN LOSSPROCEDURES MEASUREMENT AND CALIBRATION
541XXA OM 5-37
6WHS 6HWWKH;;$VLJQDOVRXUFHFRQWUROVOHIWWRWKHGHVLUHGIUHTXHQF\UDQJHDQGSRZHURXWSXWOHYHOIRUWKHWHVW
)RUWKHH[DPSOHLQFOXGHGLQWKLVSURFHGXUHWKHVWDUWIUHTXHQF\LV*+]WKHVWRSIUHTXHQF\LV*+]DQGWKHSRZHURXWSXWLVVHWWRG%P
6WHS 3UHVVWKH&KDQQHOMenuNH\OHIW
6WHS 6HOHFW35(&,6,215/IURPWKHGLVSOD\HGPHQXOHIW
6WHS 6HOHFW781,1*IURPWKHGLVSOD\HGPHQXOHIW
7KH781,1*VHOHFWLRQSURYLGHVDVOLJKWO\IDVWHUUHVSRQVHWLPHDQGFDQEHXVHGWRWXQHWKHGHYLFHXQGHUWHVW'87IRUPLQLPXPULSSOH,WDOVRSURYLGHVDQLQGLFDWLRQRIDPLVPDWLQJEHWZHHQDLUOLQHDQG'87
7KH),1$/VHOHFWLRQSURYLGHVWKHPHDVXUHPHQWVLJQDOIROORZLQJWKHFRPSXWHUªVPDWKHPDWLFDO§ULSSOHH[WUDFWLRQ¨SURFHVV7KLVPHDVXUHPHQWGDWDLV1,67WUDFHDEOHGXHWRWKHDLUOLQHªVH[FHOOHQWLPSHGDQFHPDWFK
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Source
FrequencyOutputPower
MarkersAlternateSweep
RFOn/Off
RF Off
LevelingInternal
External
Unleveled
Frequency
Output PowerRF On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
PRECISIONRETURN LOSS
SET FORMATFINALTUNING
USE ♦ THENPRESS Select
CHANNEL: 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
USE ♦ THENPRESS SELECT
PRECISION RETURN LOSS MEASUREMENTMEASUREMENT AND CALIBRATION PROCEDURES
5-38 541XXA OM
6WHS 3UHVVWKHCalibrationNH\OHIWWKHQSUHVVWKHSelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
6WHS 9HULI\WKDWWKHWHVWVHWXSLVFRQQHFWHGDVVKRZQRQWKH;;$&57ZKLFKLVWKHVDPHDVVKRZQLQ)LJXUHDQGGHVFULEHGLQWKHDVVRFLDWHGSURPSWOHIW7KHQSUHVVWKHSelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
127((QVXUHWKDWWKHEHDGOHVVHQGLVFRQQHFWHGWRWKHSRLQWRIPHDVXUHPHQW
6WHS $WWKHQH[WSURPSWOHIWFRQQHFWWKH2SHQWRWKHEHDGOHVVHQGRIWKHDLUOLQH7KHQSUHVVWKHSelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
6WHS 9HULI\WKDWWKHGLVSOD\UHVHPEOHVWKDWVKRZQEHORZ
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
PRECISIONRETURN LOSSCALIBRATION
CONNECTOFFSETAUTOTESTERAND AIRLINE AS SHOWN TOCHANNEL ’A’
PRESS SELECTWHEN READY
PRECISIONRETURN LOSSCALIBRATION
CONNECT OPENTO AIRLINE
PRESS SELECTWHEN READY
10.0 dB/DIV OFFSET1: PRECSN RL (A)2: OFF
+0.0dB
2 GHz/DIVSTART: 0.0100 GHz
401 pts
STOP: 20.0000 GHz
LEVEL +7.0 dBm
54147A
PRECISIONRETURN LOSSCALIBRATION
CONNECT OPENTO AIRLINE
PRESS SELECTWHEN READY
1
MEASUREMENT PRECISION RETURN LOSSPROCEDURES MEASUREMENT AND CALIBRATION
541XXA OM 5-39
6WHS $WWKHQH[WSURPSWOHIWUHPRYHWKH2SHQDQGFRQQHFWWKH6KRUWWRWKHEHDGOHVVHQGRIWKHDLUOLQH7KHQSUHVVWKHSelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
6WHS 1H[WUHPRYHWKH6KRUWDQGFRQQHFWWKH7HUPLQDWLRQWRWKHEHDGOHVVHQGRIWKHDLUOLQH7KHQSUHVVWKHSelecWNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
6WHS 5HPRYHWKH7HUPLQDWLRQ7KHFDOLEUDWLRQLVFRPSOHWH
6WHS &RQQHFWWKH'87WRWKHEHDGOHVVHQGRIWKHDLUOLQHDQGSUHVVSelectWRVWDUWWKHPHDVXUHPHQW
6WHS 2EVHUYHWKDWWKHULSSOHSDWWHUQUHVHPEOHVWKDWVKRZQEHORZ
127(7KHDERYHZDYHIRUPLVIURPDQDGDSWHUWHUPLQDWHGZLWKDQ$15,7687HUPLQDWLRQ<RXUZDYHIRUPZLOOKDYHGLIIHUHQWSHDNWRSHDNPDJQLWXGHV
PRECISIONRETURN LOSSCALIBRATION
REMOVE OPENAND CONNECT
SHORT
PRESS SELECTWHEN READY
PRECISIONRETURN LOSSCALIBRATION
CONNECTTERMINATION
TO AIRLINE
PRESS SELECTWHEN READY
10.0 dB/DIV OFFSET1: PRECSN RL (A)2: OFF
+0.0dB
2 GHz/DIVSTART: 0.0100 GHz
401 pts
STOP: 20.0000 GHz
LEVEL +7.0 dBm
54147A
CALIBRATIONCOMPLETE
CONNECT DUT
PRESS SELECTWHEN READY
1
PRECISION RETURN LOSS MEASUREMENTMEASUREMENT AND CALIBRATION PROCEDURES
5-40 541XXA OM
6WHS 3UHVVWKH&KDQQHO0HQXNH\OHIW
6WHS 6HOHFW35(&,6,215/IURPWKHGLVSOD\HGPHQXOHIW
6WHS 6HOHFW),1$/IURPWKHGLVSOD\HGPHQXOHIW
6WHS 2EVHUYHWKDWWKHGLVSOD\FKDQJHVDQGQRZUHVHPEOHVWKDWVKRZQEHORZ
CHANNEL: 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
USE ♦ THENPRESS SELECT
PRECISIONRETURN LOSS
SET FORMATFINALTUNING
USE ♦ THENPRESS Select
10.0 dB/DIV OFFSET1: PRECSN RL (A)2: OFF
+0.0dB
2 GHz/DIVSTART: 0.0100 GHz
401 pts
STOP: 20.0000 GHz
LEVEL +7.0 dBm
54147A
PRECISIONRETURN LOSS
SET FORMATFINAL
TUNING
USE THENPRESS SELECT
1
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
MEASUREMENT PRECISION RETURN LOSSPROCEDURES MEASUREMENT AND CALIBRATION
541XXA OM 5-41
6WHS 3UHVVWKH&XUVRU2Q2IINH\OHIW
6WHS 2EVHUYHWKH&856250(18UHDGRXW7KLVWKHUHWXUQORVVIURPWKH'87DWWKHIUHTXHQF\VKRZQ
END OF PROCEDURE
>>
Menu EnhancementHard CopyCursor
System Functions
Remote
1 2 3
4 5 6
7 8 9
0 . _
Cursor On/Off
CURSOR
1: -25.84 dB
10.0050 GHz
PRESS SELECTFOR
CURSOR MENU
PRECISION RETURN LOSS MEASUREMENTMEASUREMENT AND CALIBRATION PROCEDURES
5-42 541XXA OM
DIRECTIVITYCALIBRATION ANDMEASUREMENT
7KH;;$LVFDSDEOHRIDFFXUDWHO\PHDVXULQJWKHGLUHFWLYLW\RI6:5$XWRWHVWHUVXVLQJWKH3UHFLVLRQ5HWXUQ/RVVPHDVXUHPHQWIXQFWLRQ7KLVSDUDJUDSKDVVXPHVIDPLOLDULW\ZLWKWKH3UHFLVLRQ5HWXUQ/RVV0HDVXUHPHQWDQG&DOLEUDWLRQSURFHGXUHVLQSDUDJUDSK
6WHS &RQQHFWWHVWHTXLSPHQWSHU)LJXUH
1RWHWKDWWKHGLIIHUHQFHLQWKHWHVWVHWXSLVWKDWWKHEHDGOHVVHQGRIWKHDLUOLQHFRQQHFWVWRWKH6:5$XWRWHVWHUDQGWKDWWKHWHUPLQDWLRQLVDG%2IIVHW7HUPLQDWLRQ$OVRWKH6:5$XWRWHVWHULVDVWDQGDUGPRGHOLQVWHDGRIWKHVSHFLDORIIVHWPRGHOXVHGLQSDUDJUDSK
6WHS 3UHVVWKH3RZHUSXVKEXWWRQOHIWWR2Q
$WWKHFRQFOXVLRQRIWKHVHOIWHVW§$//7(6763$66('¨ZLOOEHGLVSOD\HGDQGWKH;;$ZLOOEHUHDG\WRPDNHDPHDVXUHPHQW
6WHS 3UHVVWKH&KDQQHODisplay On/Off NH\OHIWWRRII
541XXA Network Analyzer
A B
Open/Short*
Adapter
Beadless End
20 dB OffsetTermination
*Connect as directed by procedure
NOTEFor directivity measurements, the DUT (Device UnderTest) is a Coupler, RF Bridge, or SWR Autotester. For Coupler directivity tests, a low return loss attenuatoris required between the source output and the Coupler'smain line input. For both Couplers and RF Bridges, aANRITSU RF Detector is required for measuring theripple response. For Waveguide Coupler tests, substitutea 1/2 wavelength offset short for the Open and a 20 dBmismatch section for the Offset Termination.
DUT
End withbead
)LJXUH 7HVW6HWXSIRUD3UHFLVLRQ5HWXUQ/RVV0HDVXUHPHQW
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Display On/Off
MEASUREMENT DIRECTIVITY MEASUREMENTPROCEDURES AND CALIBRATION
541XXA OM 5-43
6WHS 6HWWKH;;$VLJQDOVRXUFHFRQWUROVOHIWWRWKHGHVLUHGIUHTXHQF\UDQJHDQGSRZHURXWSXWOHYHOIRUWKHWHVW
)RUWKHH[DPSOHLQFOXGHGLQWKLVSURFHGXUHWKHVWDUWIUHTXHQF\LV*+]WKHVWRSIUHTXHQF\LV*+]DQGWKHSRZHURXWSXWLVVHWWRG%P
6WHS 3UHVVWKH&KDQQHOMenuNH\OHIW
6WHS 6HOHFW35(&,6,215/IURPWKHGLVSOD\HGPHQXOHIW
6WHS 6HOHFW),1$/IURPWKHGLVSOD\HGPHQXOHIW
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Source
FrequencyOutputPower
MarkersAlternateSweep
RFOn/Off
RF Off
LevelingInternal
External
Unleveled
Frequency
Output PowerRF On/Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL: 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
USE ♦ THENPRESS SELECT
PRECISIONRETURN LOSS
SET FORMATFINALTUNING
USE ♦ THENPRESS SELECT
DIRECTIVITY MEASUREMENT MEASUREMENTAND CALIBRATION PROCEDURES
5-44 541XXA OM
6WHS 3UHVVWKHCalibrationNH\OHIWWKHQSUHVVWKHSelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
6WHS 9HULI\WKDWWKHWHVWVHWXSLVFRQQHFWHGDVDVVKRZQLQ)LJXUHDQGGHVFULEHGLQWKHDVVRFLDWHGSURPSWOHIW7KHQSUHVVWKHSelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
127((QVXUHWKDWWKHDLUOLQHªVEHDGOHVVHQGLVFRQQHFWHGWRWKH'87WHVWSRUW
6WHS $WWKHQH[WSURPSWOHIWFRQQHFWWKH2SHQWRWKHWKHDLUOLQH7KHQSUHVVWKHSelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
6WHS 9HULI\WKDWWKHGLVSOD\UHVHPEOHVWKDWVKRZQEHORZ
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
PRECISIONRETURN LOSSCALIBRATION
CONNECTOFFSETAUTOTESTERAND AIRLINE AS SHOWN TOCHANNEL ’A’
PRESS SELECTWHEN READY
PRECISIONRETURN LOSSCALIBRATION
CONNECT OPENTO AIRLINE
PRESS SELECTWHEN READY
10.0 dB/DIV OFFSET1: PRECSN RL (A)2: OFF
+0.0dB
2 GHz/DIVSTART: 0.0100 GHz
401 pts
STOP: 20.0000 GHz
LEVEL +7.0 dBm
54147A
PRECISIONRETURN LOSSCALIBRATION
CONNECT OPENTO AIRLINE
PRESS SELECTWHEN READY
1
MEASUREMENT DIRECTIVITY MEASUREMENTPROCEDURES AND CALIBRATION
541XXA OM 5-45
6WHS $WWKHQH[WSURPSWOHIWUHPRYHWKH2SHQDQGFRQQHFWWKH6KRUWWRWKHEHDGHGHQGRIWKHDLUOLQH7KHQSUHVVWKHSelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
6WHS 1H[WUHPRYHWKH6KRUWDQGFRQQHFWWKH7HUPLQDWLRQWRWKHDLUOLQH7KHQSUHVVWKH SelectNH\WRVWDUWWKHFDOLEUDWLRQSURFHVV
6WHS /HDYHWKHG%2IIVHW7HUPLQDWLRQLQSODFH7KHFDOLEUDWLRQLVFRPSOHWH
6WHS 3UHVVSelectWRVWDUWPHDVXUHPHQWREVHUYHWKDWWKHZDYHIRUPUHVHPEOHVWKDWVKRZQEHORZ
PRECISIONRETURN LOSSCALIBRATION
REMOVE OPENAND CONNECT
SHORT
PRESS SELECTWHEN READY
PRECISIONRETURN LOSSCALIBRATION
CONNECTTERMINATION
TO AIRLINE
PRESS SELECTWHEN READY
10.0 dB/DIV OFFSET1: PRECSN RL (A)2: OFF
+0.0dB
2 GHz/DIVSTART: 0.0100 GHz
401 pts
STOP: 20.0000 GHz
LEVEL +7.0 dBm
54147A
CALIBRATIONCOMPLETED
CONNECTTEST DEVICE
PRESS SELECTTO CONTINUE
1
DIRECTIVITY MEASUREMENT MEASUREMENTAND CALIBRATION PROCEDURES
5-46 541XXA OM
6WHS 3UHVVWKHCursor On/Off NH\OHIWWRRQ
6WHS 2EVHUYHWKH&856250(18UHDGRXW7KLVWKHUHWXUQORVVIURPWKH6:5$XWRWHVWHUDWWKHIUHTXHQF\VKRZQ
END OF PROCEDURE
>>
Menu EnhancementHard CopyCursor
System Functions
Remote
1 2 3
4 5 6
7 8 9
0 . _
Cursor On/Off
CURSOR
1: -46.02 dB
10.0050 GHz
PRESS SELECTFOR
CURSOR MENU
541XXA OM 5-47/5-48
MEASUREMENT DIRECTIVITY MEASUREMENTPROCEDURES AND CALIBRATION
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Chapter 6 Distance To Fault (DTF) Measurement and Calibration
Chapter 6Distance To Fault (DTF) Measurement and Calibration
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DTF/SWRMEASUREMENT MODE
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TEST SETUPS :KHQXVLQJWKH'7)IHDWXUHWKH;;$FDQEHRSHUDWHGLQWZRPRGHV%HVWXVHGHSHQGVRQWKHDFFHVVLELOLW\RIWKHWUDQVPLVVLRQOLQHWREHWHVWHG:KHQWKHWHVWHTXLSPHQWDQGWKHOLQHWREHWHVWHGFDQEHORFDWHGFORVHWRHDFKRWKHUWKHVWDQGDUGPRGHVHWXS)LJXUHLVSUHIHUUHGEHFDXVHRILWVVLPSOLFLW\
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TEST DISTANCE TO FAULTSETUPS MEASUREMENT AND CALIBRATION
DTF/SWR
PRESS THENPRESS SELECT
6-4 541XXA OM
541XXA Network Analyzer
R A B
RFTermination
Transmission LineUnder Test
ANRITSU 41 KC-33 dB Attenuator
DC-40 GHz 2 Watts
ANRITSU560-7K50Detector
ANRITSUK240PowerDividerR A B
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541XXA Network Analyzer
R A B
RF
Termination
Transmission Line
Under Test
ANRITSU 41 KC-33 dB Attenuator
DC-40 GHz 2 Watts
ANRITSU560-7K50Detector
ANRITSUK240PowerDivider
ANRITSU560-7K50
DETECTOR
ANRITSU K241Power Splitter
ExtenderCable
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DISTANCE TO FAULT TESTMEASUREMENT AND CALIBRATION SETUPS
541XXA OM 6-5
DISTANCE-TO-FAULTMEASUREMENT ANDCALIBRATION
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1 2 3
4 5 6
7 8 9
0
System Menu
SYSTEMMENU
DISK UTILITIES
SYSTEM SETUP
DATA POINTS
RESET
CONFIGURESOURCE
ANALYZERPLOTTER
APPLICATIONSGPIB MODE
PRESS THENPRESS SELECT
SYSTEM SETUP
SET CLOCK
KEYCLICKOFF
ON (low)ON (high)
MORE
MEASUREMENT DISTANCE TO FAULTPROCEDURE MEASUREMENT AND CALIBRATION
6-6 541XXA OM
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Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
Frequency
SYSTEMUTILITIES
DISTANCE IN:METERS
FEET
CLEARNON-VOLATILE
MEMORY
SET FILEEXTENSIONSGPIB MODE
PRESS THENPRESS SELECT
CHANNEL 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
PRESS THENPRESS SELECT
DISTANCE TO FAULT MEASUREMENTMEASUREMENT AND CALIBRATION PROCEDURE
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2 Enter
1 2 3
4 5 6
7 8 9
0
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8 Enter
1 2 3
4 5 6
7 8 9
0
FREQUENCY MENU
DTF MODE
ENTERFREQUENCYLIMITS FOR
DTF
START ABOVE:2.0000 GHz
STOP BELOW:8.0000 GHz
FREQUENCY MENU
DTF MODE
ENTERFREQUENCYLIMITS FOR
DTF
START ABOVE:2.0000 GHz
STOP BELOW:8.0000 GHz
MEASUREMENT DISTANCE TO FAULTPROCEDURE MEASUREMENT AND CALIBRATION
6-8 541XXA OM
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Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
DTF MENUINPUT: A
SET MEDIUMCOAX POLYE
RANGExxxxxx
DTF SETUP
DATA POINTS2565121024
EXIT DTF
DTF MEDIUMCOAX POLYE
SET MODECOAXWAVEGUIDECOAX+GUIDE
COAX LIST
ENTER NEWCOAX
PROPAGATIONVELOCITY
X.XX
LOSSX.XX dB/m
DISTANCE TO FAULT MEASUREMENTMEASUREMENT AND CALIBRATION PROCEDURE
541XXA OM 6-9
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Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
DTF MEDIUMCOAX POLYE
SET MODECOAXWAVEGUIDECOAX+GUIDE
COAX LIST
ENTER NEWCOAX
PROPAGATIONVELOCITY
X.XX
LOSSX.XX dB/m
DTF MENUINPUT: A
SET MEDIUMCOAX POLYE
RANGExxxxxx
DTF SETUP
DATA POINTS2565121024
EXIT DTF
MEASUREMENT DISTANCE TO FAULTPROCEDURE MEASUREMENT AND CALIBRATION
6-10 541XXA OM
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DETAIL NEWCOAX TYPE
NAMEPOLYE
DIELECTRICCONSTANT 0.64
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PREVIOUSMENU
TITLE ENTRY
POLYE
ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789#()+-.,/<>?CLR DEL DONE
PREVIOUS MENU
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TITLE ENTRY
FOIL
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PREVIOUS MENU
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OR SELECT
DISTANCE TO FAULT MEASUREMENTMEASUREMENT AND CALIBRATION PROCEDURE
541XXA OM 6-11
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DETAIL NEWCOAX TYPE
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0.80
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PREVIOUSMENU
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Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
DTF MENUINPUT: A
SET MEDIUMCOAX POLYE
RANGE 20 m
DTF SETUP
DATA POINTS2565121024
EXIT DTF
MEASUREMENT DISTANCE TO FAULTPROCEDURE MEASUREMENT AND CALIBRATION
6-12 541XXA OM
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DTF SETUP
SET DTFZOOM LIMITS
STARTxxxxxxxxxxxx
STOPxxxxxxxxxxx
SIDELOBES:LOW
NORMAL
LOSS OFFSETX.XX dB
MAIN MENU
DTF MEDIUMWAVE WR15
SET MODECOAXWAVEGUIDECOAX+GUIDE
GUIDE LIST
ENTER NEWWAVEGUIDE
F1: XX.XXXX GHz
F2: XX.XXXX GHz
cutoff Freq: XX.XXXX GHz
Loss: X.XX dB/m
DISTANCE TO FAULT MEASUREMENTMEASUREMENT AND CALIBRATION PROCEDURE
541XXA OM 6-13
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DTF MEDIUMWAVE WR15POLY INPUT
SET MODECOAXWAVEGUIDECOAX+GUIDE
GUIDE LIST
ENTER NEWWAVEGUIDE
COAX LIST
ENTER NEWCOAX
PREVIOUSMENU
DTF MENUINPUT: A
SET MEDIUMWAVE WR15COAX POLYE
RANGExxxxxx
COAX LENGTH 20.00 m
DTF SETUP
DATA POINTS2565121024
EXIT DTF
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Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
MEASUREMENT DISTANCE TO FAULTPROCEDURE MEASUREMENT AND CALIBRATION
6-14 541XXA OM
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END OF PROCEDURE
DTFCALIBRATION
CALIBRATIONRANGE IS:XXXX GHz
TO:XXXXX
PERFORMCALIBRATION
INSTRUCTIONS
PRESS THENPRESS SELECT
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1 2 3
4 5 6
7 8 9
0 _
Calibration
CONNECTTERMINATION
TO 3 dB PAD
PRESS SELECTTO CONTINUE
CALIBRATIONCOMPLETED
CONNECTTEST DEVICE
PRESS SELECTTO CONTINUE
COAX + GUIDE
DTFCALIBRATION
CONNECT DUT
PRESS SELECTTO CONTINUE
COAX + GUIDE
DTFCALIBRATION
ENTERCOAX LENGTH
X.XX m
PRESS SELECTWHEN DONE
USE KEYPADOR POSITIONCURSOR ATTRANSITIONPOINT FROMCOAX TOWAVEGUIDE
COAX + GUIDE
CALIBRATIONIS COMPLETE
IF COAX + GUIDE IS SELECTED
IF COAX OR WAVEGUIDEIS SELECTED DTF
CALIBRATION
PERFORMCALIBRATION
INSTRUCTIONS
USE THENPRESS SELECT
CALIBRATIONRANGE IS:XX.XXXX GHzTO:XX.XXXX GHz
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541XXA OM 6-15
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DETERMINING PROPAGATION DISTANCE TO FAULTVELOCITY AND LOSS MEASUREMENT AND CALIBRATION
6-16 541XXA OM
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127(7KHHVWLPDWHVPDGHE\WKLVPHWKRGPD\QRWDOZD\VDJUHHZLWKWKHWKHRUHWLFDOYDOXHVLQ7DEOHVLQFHWKH'7)SURJUDPGRHVQRWFRUUHFWIRUPLVPDWFKORVVHV7KHHVWLPDWHGYDOXHVVKRXOGEHFORVHKRZHYHUDQGWKH\FDQEHYHULILHGE\PHDVXULQJDNQRZQRIIVHWPLVPDWFKZKRVHYDOXHLVDWOHDVWG%ZRUVHWKDQWKHYDOXHDWWKHHQGRIWKHWUDQVPLVVLRQOLQH$OVRPRVWFRPPRQFDEOHJUDGHVRQO\VSHFLI\QRPLQDOYDOXHVIRUGLHOHFWULFFRQVWDQW,WLVQRUPDOIRUERWKWKHGLHOHFWULFSURSHUWLHVDQGFHQWHUFRQGXFWRUªVFRQFHQWULFLW\WRYDU\E\DERXWDORQJWKHOHQJWKRIWKHFDEOH7KHVHQRUPDOFDEOHSURSHUWLHVFDXVHWKHSURSDJDWLRQYHORFLW\DQGWKHLPSHGDQFHUHWXUQORVVWRYDU\DWGLIIHUHQWGLVWDQFHV
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LOCATING FAULTS IN AMULTI-TYPE LINE
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DISTANCE TO FAULT DETERMINING TRANSMISSION MEASUREMENT AND CALIBRATION LINE LENGTH
541XXA OM 6-17
SUPPLEMENTAL DATA 7KLVSDUDJUDSKSURYLGHVWDEOHVDQGFKDUWVWRVXSSOHPHQW'7)PHDVXUHPHQWV7DEOHFRQWDLQVDFKDUWWKDWFRQYHUWVEHWZHHQ6:55HIOHFWLRQ&RHIILFLHQWDQG5HWXUQ/RVV7DEOHSURYLGHVWUDQVPLVVLRQOLQHGDWD$QG7DEOHSURYLGHVDWDEXODWLRQRIFRD[LDOFDEOHFKDUDFWHULVWLFV
SUPPLEMENTAL DISTANCE TO FAULTDATA MEASUREMENT AND CALIBRATION
6-18 541XXA OM
SWRReflectionCoefficient
ReturnLoss(dB)
17.39108.72425.84804.41943.5698
0.89130.79430.70790.63100.5623
12345
3.00952.61462.32292.09991.9250
0.50120.44670.39810.35480.3162
678910
1.78491.67091.57691.49351.4326
0.28180.25120.22390.19950.1778
1112131415
1.37671.32901.28801.25281.2222
0.15850.14130.12590.11220.1000
1617181920
1.19571.17261.15241.13471.1192
0.08910.07940.07080.06310.0562
2122232425
1.10551.09351.08291.07361.0653
0.05010.04470.03980.03550.0316
2627282930
SWRReflectionCoefficient
ReturnLoss(dB)
1.05801.05151.04581.04071.0362
0.02820.02510.02240.02000.0178
3132333435
1.03221.02871.02551.02271.0202
0.01580.01410.01260.01120.0100
3637383940
1.01801.01601.01431.01271.0113
0.00890.00790.00710.00630.0056
4142434445
1.01011.00901.00801.00711.0063
0.00500.00450.00400.00350.0032
4647484950
1.00571.00501.00451.00401.0036
0.00280.00250.00220.00200.0018
5152535455
1.00321.00281.00251.00221.0020
0.00160.00140.00130.00110.0010
5657585960
7DEOH 0LFURZDYH&RQYHUVLRQ&KDUW
DISTANCE TO FAULT MICROWAVE CONVERSION MEASUREMENT AND CALIBRATION CHART
541XXA OM 6-19
7DEOH :DYHJXLGH7HFKQLFDO'DWD
Waveguide TypeLow
Frequency (GHz)K at Low
FrequencyK at CenterFrequency
High Frequency (GHz)
K at HighFrequency
Cutoff Frequency (fc)
(GHz)
WR-284 2.60 0.6010 0.7648 3.95 0.8504 2.078
WR-187 3.95 0.6025 0.7656 5.85 0.8424 3.152
WR-137 5.85 0.6778 0.7923 8.20 0.8514 4.301
WR-90 8.20 0.6005 0.7712 12.4 0.8488 6.557
WR-62 12.4 0.6439 0.7813 18.0 0.8498 9.486
WR-42 18.0 0.6250 0.7742 26.5 0.8479 14.047
WR-28 26.5 0.6062 0.7734 40.0 0.8499 21.081
WR-22 33.0 0.6020 0.7726 50.0 0.8499 26.350
WR-15 50.0 0.6027 0.7702 75.0 0.8467 39.860
WAVEGUIDE TECHNICAL DISTANCE TO FAULTDATA MEASUREMENT AND CALIBRATION
6-20 541XXA OM
Cable RG DialectricRelative
Velocity (Vf)Dielectric Constant (εr)
Nominal Atten. dB/m @1,000 MHz
$$$$$$
PPPPP
0.6590.6590.6590.6590.659
2.3032.3032.3032.3032.303
0.2620.2890.2560.1800.144
$$$$$%
PPPPP
0.6590.6590.6590.6590.659
2.3032.3032.3032.3032.303
0.1180.1181.4110.5310.541
%$&$%$$$
PPPTTT
0.6590.6590.6590.8400.7100.659
2.3032.3032.3031.4171.9842.303
1.5740.7870.3940.2490.2300.115
TTTTT
0.6590.6590.6590.6590.659
2.3032.3032.3032.3032.303
0.1800.1970.4270.4430.312
%%)6-$
TTTTP
0.6590.6590.6590.6590.840
2.3032.3032.3032.3031.417
0.0301.5090.7871.0170.197
7DEOH &RD[LDO&DEOH7HFKQLFDO'DWD
DISTANCE TO FAULT COAXIAL CABLE MEASUREMENT AND CALIBRATION TECHNICAL DATA
541XXA OM 6-21/6-22
7DEOHRI&RQWHQWV
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5(/$7,9(*5283'(/$<$1'5(7851/2660($685(0(17
Chapter 7Relative Group DelayMeasurement and Calibration
Chapter 7Relative Group DelayMeasurement and Calibration
INTRODUCTION 7KLVFKDSWHUGHVFULEHVWKH5HODWLYH*URXS'HOD\IHDWXUH,WSURYLGHVDGHWDLOHGVWHSE\VWHSSURFHGXUHIRUSHUIRUPLQJD5HODWLYH*URXS'HOD\PHDVXUHPHQWDQGFDOLEUDWLRQ
OPERATION 5HODWLYH*URXS'HOD\LVVHOHFWHGIURPWKH&KDQQHO0HQXNH\WRSOHIWRU&KDQQHO0HQXNH\ERWWRPOHIW3UHVVLQJWKHNH\GLVSOD\VWKHDSSURSULDWH&KDQQHORU&KDQQHOPHQXEHORZ
5HODWLYH*URXS'HOD\PD\EHYLHZHGVLPXOWDQHRXVO\ZLWKWUDQVPLVVLRQRUUHWXUQORVV
TEST SET-UPS 7HVWVHWXSVIRUUHODWLYHJURXSGHOD\PHDVXUHPHQWVDUHVKRZQLQ)LJXUHV$DQG$
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>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL 1INPUT: A (or B)
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
PRESS THENPRESS SELECT
CHANNEL 2INPUT: A (or B)
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWER
VIEW CALSELECT INPUT
TRACE MEMORYREF LINE
PRESS THENPRESS SELECT
541XXA OM 7-3
TEST RELATIVE GROUP DELAYSETUPS MEASUREMENT AND CALIBRATION
541XXA Network Analyzer
R A B
ANRITSU560-7N50B
Detector
R A B
Device-Under-Test
DUT
)LJXUH$ 5HODWLYH*URXS'HOD\DQG7UDQVPLVVLRQ/RVV0HDVXUHPHQW
541XXA Network Analyzer
R A B
ANRITSU560-7N50B
Detector
ANRITSU560-97N50
SWR Autotester
DeviceUnderTest
DUT
R A B
)LJXUH$ 5HODWLYH*URXS'HOD\DQG5HWXUQ/RVV0HDVXUHPHQW
7-4 541XXA OM
RELATIVE GROUP DELAYMEASUREMENTCALIBRATION
$SURFHGXUHWRFDOLEUDWHWKHPHDVXUHPHQWWHVWVHWXSIRUPDNLQJDUHODWLYHJURXSGHOD\PHDVXUHPHQWLVJLYHQEHORZ
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6WHS 3UHVVWKHPower NH\WRRQ
6WHS 3UHVVWKHChannel 1 MenuNH\
6WHS 6HOHFW5(/*'(/$<IURPWKHGLVSOD\HGPHQX
6WHS 6HOHFW6(/(&7,1387DQGWKHQ6(/(&7%IURPWKHQH[WPHQXWRDSSHDU
6WHS 7XUQ&KDQQHORII
RELATIVE GROUP DELAY RELATIVE GROUP DELAYMEASUREMENT AND CALIBRATION MEASUREMENT CALIBRATION
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL 1INPUT: A
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
PRESS THENPRESS SELECT
541XXA OM 7-5
6WHS 3UHVVCalibration NH\DQG67$57&$/WREHJLQWKHFDOLEUDWLRQ)ROORZWKHPHQXSURPSWVWKURXJKWKHHQGRIWKHFDOLEUDWLRQ
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>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
)LJXUH$ 5HODWLYH*URXS'HOD\0HDVXUHPHQW7UDFH
RELATIVE GROUP DELAY RELATIVE GROUP DELAYMEASUREMENT CALIBRATION MEASUREMENT AND CALIBRATION
7-6 541XXA OM
RELATIVE GROUPDELAY ANDTRANSMISSIONMEASUREMENT
$SURFHGXUHIRUXVLQJWKH;;$WRPDNHDUHODWLYHJURXSGHOD\DQGWUDQVPLVVLRQPHDVXUHPHQWLVJLYHQEHORZ
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6WHS 7XUQRQ&KDQQHO
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6WHS 6HOHFW75$160,66,21IURPWKHGLVSOD\HGPHQX
6WHS 6HOHFW6(/(&7,1387WKHQ6(/(&7%IURPWKHQH[WPHQXWRDSSHDU
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>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL 2INPUT: A (or B)
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWER
VIEW CALSELECT INPUT
TRACE MEMORYREF LINE
PRESS THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
RELATIVE GROUP DELAY RELATIVE GROUP DELAY ANDMEASUREMENT AND CALIBRATION TRANSMISSION MEASUREMENT
541XXA OM 7-7
RELATIVE GROUPDELAY AND RETURNLOSS MEASUREMENT
$SURFHGXUHIRUXVLQJWKH;;$WRPDNHDUHODWLYHJURXSGHOD\DQGUHWXUQORVVPHDVXUHPHQWLVJLYHQEHORZ
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>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
PowerOn
Off
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
RELATIVE GROUP DELAY RELATIVE GROUP DELAY ANDMEASUREMENT CALIBRATION RETURN LOSS MEASUREMENT
7-8 541XXA OM
6WHS 6HOHFW5(/*'(/$<IURPWKHGLVSOD\HGPHQX
6WHS 6HOHFW6(/(&7,1387DQGWKHQ6(/(&7%IURPWKHQH[WPHQXWRDSSHDU
6WHS 7XUQRQ&KDQQHO
6WHS 3UHVVWKHChannel 2 Menu NH\
6WHS 6HOHFW5(7851/266IURPWKHGLVSOD\HGPHQXOHIW
6WHS 6HOHFW6(/(&7,1387WKHQ6(/(&7$IURPWKHQH[WPHQXWRDSSHDU
CHANNEL 1INPUT: A (or B)
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWERDTF/DB
DTF/SWRSELECT INPUT
TRACE MEMORYMORE
PRESS THENPRESS SELECT
>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Menu
CHANNEL 2INPUT: A (or B)
TRANSMISSIONRETURN LOSSPRECISION RLREL G/DELAY
SWRPOWER
VIEW CALSELECT INPUT
TRACE MEMORYREF LINE
PRESS THENPRESS SELECT
RELATIVE GROUP DELAY RELATIVE GROUP DELAY ANDMEASUREMENT AND CALIBRATION RETURN LOSS MEASUREMENT
541XXA OM 7-9
6WHS 3UHVVWKHCalibrationNH\DQG67$57&$/WREHJLQWKHFDOLEUDWLRQ
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>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Calibration
RELATIVE GROUP DELAY RELATIVE GROUP DELAY ANDMEASUREMENT CALIBRATION RETURN LOSS MEASUREMENT
7-10 541XXA OM
7DEOHRI&RQWHQWV
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Chapter 8Operational Checkout Procedures
7KLVHTXLSPHQWFDQQRWEHUHSDLUHGE\WKHRSHUDWRUDO NOTDWWHPSWWRUHPRYHWKHHTXLSPHQWFRYHUVRUWRGLVDVVHPEOHLQWHUQDOFRPSRQHQWV2QO\TXDOLILHGVHUYLFHWHFKQLFLDQVZLWKDNQRZOHGJHRIHOHFWULFDOILUHDQGVKRFNKD]DUGVVKRXOGVHUYLFHWKLVHTXLSPHQW7KHUHDUHKLJKYROWDJHSDUWVLQWKLVHTXLSPHQWSUHVHQWLQJDULVNRIVHYHUHLQMXU\RUIDWDOHOHFWULFVKRFNWRXQWUDLQHGSHUVRQQHO,QDGGLWLRQWKHUHLVDULVNRIGDPDJHWRSUHFLVLRQFRPSRQHQWV
WARNING
Repair
Chapter 8Operational Checkout Procedures
INTRODUCTION 7KLVVHFWLRQLVFRPPRQWRDOOVWDQGDUGPRGHOVRI;;$1HWZRUN$QDO\]HUV7KHWHVWVSURYLGHGDUHGHVLJQHGWRGLVFORVHGDPDJHWKDWPD\KDYHRFFXUUHGLQWUDQVLW
FRONT PANELOPERATION TEST
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(TXLSPHQW5HTXLUHG
;;$XQGHUWHVW
3URFHGXUH
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7KH;;$ZLOOGLVSOD\“ALL TESTS PASSED” DWWKHHQGRIWKHVHOIWHVWLIQRGHIHFWVDUHIRXQG
6WHS 3UHVVWKHSystem MenuNH\
>>
Menu EnhancementHard CopyCursor
Data Entry
1 2 3
4 5 6
7 8 9
0 . _
System Menu
NO OPERATO R SERVICE-ABLE PARTS INSIDEREFER SERVICING TOQUALIFIED PERSONNEL
WARN ING
FOR CONTINUED FIREPROTECTION REPLACEONLY WITH SPECIFIEDTYPE AND RATED FUSE
CAUTION
FUSE:230V 2A AS115V 4A AS48-440Hz 300VA MAX
Is this set to correct voltage?
NOTE : CLE AN FILTE R PERIODICALLY FOR M AXIMUM RELIABILIT YEXTERNAL MONITOR
GPIB/IEEE 488 INSTRUMENT INT ERFACE OR GPIB\IEEE 488 PLOTTER CONTROL
THE FUNCTION OF THIS CONNECTOR IS SELECT ED THRO UG H A FRO NT PANEL MENU BY PRESSING THE SYSTEM KEY
PARAL LEL PRINTER INTERFACE
EXTERNALALC INPUT
HORIZONTAL OUTPUT
OPTIONS
0 2 ST EP AT TENUATO R
0 3
0 4 7 5 OH M O U TP U T
0 5 R C HA NNE L
0 6 EX T LE VELIN G
07 DTF
115230
VOLTAGESELECTOR
541XXA OM 8-3
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>>
Menu EnhancementHard CopyCursor
1 2 3
4 5 6
7 8 9
0 . _
Knob
SYSTEMMENU
DATA POINTSRESET
CONFIGURESOURCE
ANALYZERPLOTTER
APPLICATIONSGPIB MODE
USE ♦ THENPRESS SELECT
RESET MENU
RESET ISCONFIGURED
TO KEEPCAL DATAMARKERSLIMITS
RESET
RESET TOFACTORY DEFAULTS
USE ♦ THENPRESS SELECT
OPERATIONAL CHECKOUT FRONT PANELPROCEDURES OPERATION TEST
8-4 541XXA OM
BASIC MEASUREMENTTEST
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Menu EnhancementHard CopyCursor
Data Entry
1 2 3
4 5 6
7 8 9
0 . _
System Menu
541XXA Network Analyzer
RF Detector* *See Text
ANRITSU Model Frequency Range Connector Type
5400-71N50 1 MHz to 3 GHz Type N male
5400-71N75 1 MHz to 3 GHz Type N male, 75 Ohm
560-7N50B 10 MHz to 20 GHz Type N male
560-7K50 10 MHz to 40 GHz Type K male
560-7VA50 10 MHz to 50 GHz Type V male
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1 2 3
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Appendix A54100A SeriesTechnical Data Sheet
54100A SeriesNetwork Analyzers1 MHz to 110 GHzTechnical Data Sheet
High Performance Solutions in an Economical Network Analyzer
2
MEASUREMENTSThe 54100A Series Network Analyzer include models and mea-surement components from 1 MHz to 110 GHz.
Measurement Modes: Transmission (dB), Relative Group Delay(ns), Return Loss (dB), Precision Return Loss (dB), SWR (linear SWR), Power (dBm), and optional Distance-To-Fault (feet or meters).
ANALYZERDynamic Range:
−55 dBm to +16 dBm, Autozeroing implements AC detection ona single cycle per sweep basis using Wiltron 560 Series or 5400Series Detectors and SWR Autotesters. DC detection is usedduring the sweep to improve accuracy and avoid disturbingautomatic leveling controls in the device under test. Auto-zero-ing can be disabled.
Inputs: Three. Two standard inputs, A and B, with an optional thirdreference channel, R (Option 5). Wiltron 560 Series and 5400Series Detectors and Autotesters are designed to operate with the54100A Network Analyzer. For millimeter wave applications, the5400 Series Multiplier/Reflectometers provide integrated referenceand return loss detection.
Channels: Two channels are used to select and simultaneouslydisplay any two inputs from A, B, or R. The inputs can also be displayed as ratios A/R or B/R.
Display Resolution:Horizontal: 51, 101, 201, or 401 points.Vertical: 0.025 dB, 0.0025 ns
Graticule: Ten vertical divisions. Horizontal axis automaticallyscales in frequency increments of 1, 2, 5. Graticule On/Off buttonturns all graticule lines off. Tick marks remain on axis to indicategraticule position.
Vertical Scaling:Resolution: 0.1 dB(m) to 10 dB(m) per division. Independent control for each channel 0.1 to 100 ns per division.Offset range: −99.9 dB to +99.9 dB, −99.9 to +99.9 ns.Autoscale: Automatically selects offset and resolution toprovide optimum display of test data.
External VGA Monitor Output: Rear panel connection is provided to drive a VGA color display. Trace colors are menuselectable.
Cursor: The numerical amplitude of the test data and frequencyare displayed for both channels. Display range −99.9 to +99.9 dBor ns.
Relative Cursor: Displays the amplitude and frequency differ-ences between the Cursor and Relative Cursor for both channels.
Cursor Functions: Automatic cursor searches for trace Maximum,Minimum, dB Level, dB Bandwidth, Next Marker, and Active Markermay be performed.
Display Data Correction: System frequency response errors are removed from measurements with a through-line transmissioncalibration and an open-short reflection calibration. Calibration datais stored at 0.002 dB resolution over the selected frequency range.Interpolation is used to maintain calibration as frequency sweeprange is decreased.
Smoothing: Filtering, adjustable in five levels, to reduce noise and interference on low-level traces. Channels may beindependently set.
Averaging: 2, 4, 8, 16, 32, 64, 128, or 256 successive traces maybe averaged together to remove unwanted noise. Channels may beindependently set.
Limit Lines: Two limit lines, either single value or multi-level segmented, for each trace. Complex lines may be made from up to10 individually-editable segments.
Trace Mask: A swept measurement can be stored to a graticuleTrace Mask for visual comparison to later measurements.
Save/Recall: Thirteen sets of front-panel set-ups and thirteen sets of trace memory can be stored in non-volatile instrumentmemory. Stored set-ups may be previewed on the CRT or printed prior to selection. Non-volatile memory can be erased for security purposes.
3.5 Inch DOS Disk Drive: Instrument configurations and tracedata can be stored on a MS-DOS® compatible 3.5 inch, 1.44 MB floppy disk. Trace Data can be stored in a standardized ASCII format which easily reads into common PC spread sheets andword processing software.
SOURCEFrequency Range: 1 MHz to 110 GHz. Contact Factory for special frequency range requirements.
Start-Stop: Sweeps from start frequency to stop frequency.
Center-Width: Sweeps from center − (width/2) to center + (width/2)
Alternate Sweep: Sweeps alternately between frequency rangesset differently for Channel 1 and Channel 2.
CW: Provides single frequency output (both channels turned off).
Frequency Resolution:RF Models (54107A, 54109A, 54111A): ±10 kHzMicrowave Models: ±100 kHz
Start Frequency Accuracy:RF Models (54107A, 54109A, 54111A): ±100 kHzMicrowave Models to 20 GHz: ± 200 kHzMicrowave Models, 20 to 40 GHz: ± 400 kHzMicrowave Models, 40 to 50 GHz: ± 800 kHz
Sweep Time, Single Band: Typically less than 70 ms for singlechannel with 101 point horizontal resolution, depending onfrequency, averaging, and smoothing settings. Trace update time is typically 130 ms with similar system settings.
Residual FM:1 MHz to 20 GHz < 10 kHz Peak20 GHz to 40 GHz < 20 kHz Peak40 GHz to 50 GHz < 40 kHz Peak
Measured in 30 Hz to 15 kHz post-detection BW.
Output Power: Maximum guaranteed leveled output power is model dependent. Typical unleveled output power exceeds the specified leveled output power. Operation with unleveled outputpower degrades rated specifications and is not recommended.
Reverse Power Protection: Up to 1 Watt.
Power Level Accuracy: ±1 dB, leveled. ±3.0 dB for models above 20 GHz, and ± 4.0 dB for 50 GHz models. Add ± 0.2 dB forOption 4−75 Ω output.
Power Level Accuracy, Attenuator: Optional 70 dB StepAttenuator (10 dB steps). Leveled power accuracy degrades by ±1.5 dB for models below 20 GHz and ±1.9 dB for 20 GHz models.
Power Level Control, Internally Leveled: Front panel controladjusts power over a 10 dB range (up to 20 dB in some models) orfrom −70.0 dBm to maximum leveled power when Option 2, 2A, 2B,2C or 2D 70 dB Step Attenuator is installed.
Power Level Control, Externally Leveled (Option 6): Frontpanel control adjusts power range determined by external levelingdetector output. Flatness determined by leveling detector and coupler characteristics.
Leveling (With External Detector): Levels output power at DUTinput positions other than near the 54100A source output. Aleveling detector tracks the RF power level by providing a positiveor negative polarity detected signal of 30 to 200 mV to a rear panelBNC connector.
Leveled Power Variation:1.0 MHz to 1.0 GHz ±0.3 dB ±1.0 dB, Opt 21.0 MHz to 2.0 GHz ±0.4 dB ±1.1 dB, Opt 21.0 MHz to 3.0 GHz ±0.6 dB ±1.3 dB, Opt 210.0 MHz to 20 GHz ±0.8 dB ±1.0 dB, Opt 2A10.0 MHz to 26.5 GHz ±1.0 dB ±2.5 dB, Opt 2B10.0 MHz to 32 GHz ±2.0 dB ±2.0 dB, Opt 2C10.0 MHz to 40 GHz ±2.0 dB ±2.0 dB, Opt 2C10.0 MHz to 50 GHz ±3.0 dB ±3.0 dB, Opt 2DAdd ± 0.2 for 75 Ω sources
Markers: The numerical amplitude of the test data and frequencyare displayed. Markers remain fixed at the set frequency, indepen-dent of displayed sweep frequency range.
APPLICATION FUNCTIONSApplication functions speed and ease the task of characterizingantennas, filters, amplifiers, and other microwave devices.
Min/Max Hold: Save the minimum and maximum values of suc-cessive sweeps or the combination of the two. Ideal for acquiringdata on drift or gain variation against temperature.
Cursor Functions: Automatic cursor search updates the band-width, minimum, or maximum levels of the displayed trace, “X” dBabove or below the min/max point, or a selected bandwidth. Thisfunction can be set to repeat continuously.
Compression Test Automation: Determines the gain compres-sion point over the operating frequency range of an amplifier bysuccessively incrementing the source power and measuring theamount of compression until a preset “X” dB limit is exceeded.
GPIBInterface: IEEE-488.2 compliant interface with integrated GPIBPlotter Control is standard on all 54100A instruments. All frontpanel controls are GPIB-controllable except power on/off. Front panel configurable for instrument control or for control of GPIB plotter.
GPIB Indicators:Remote: Operating on GPIBTalk: Talking on GPIBListen: Listening on GPIBSRQ: Sending a service requestLocal Lockout: Indicates the front panel RETURN TO LOCALpushbutton is disabled. The instrument is returned to local mode via GPIB.
PRINTER/PLOTTERPlotter: The GPIB interface is compatible with HP 7440A, HP 7550, HP 7470A, and HP 7475A plotters. Display traces, markers, cursor, and graticule information can be plotted.
Printer: Parallel printer interface is compatible with the Canon BJ10-SX, BJ30 and most Epson FX-compatible printers.
Internal Print and Plot Buffer: A new test can be conducted whilepreviously taken test data are being printed or plotted from theinternal printer buffer.
PRINTERS & ACCESSORIES
Portable printers may be purchased locally or through AnritsuWiltron. When purchased separately, a Centronics-to-CentronicsPrinter Interface Cable will be needed for operation with the 54100A.
Canon BJ10-SX Printer 2000-668Extra Ink Cartridge 2000-669Extra Battery 633-16Extra Printer Interface Cable 800-430
PRINTER POWER SUPPLIES
UK - AD150, 240V 40-65USA - AD150/120, 120V 40-66Europe - AD150/220, 220V 40-67Japan - AD150/100, 100V 40-68
INPUT/OUTPUT CONNECTIONSHorizontal Sweep Ramp Output: 0 to +10 V nominal
GPIB: Connects 54100A to controller or plotter. Rear panel GPIBconnector.
Parallel Printer (Centronics): Connects 54100A to printer. Rear panel.
VGA Output: Connects 54100A to external VGA color display (not supplied). Rear panel 15 pin “D” connector.
External Leveling: Option 6 adds external leveling capability.Levels output power at remote test position. (Rear panel BNCfemale connector).
GENERALSelf Test: Performs a self test every time power is applied or when SELF TEST pushbutton is pressed. If an error is detected, adiagnostic code appears, identifying the cause and location of the error.
Temperature Range:Operating: 0°C to +50°CStorage: -40°C to +70°C
Electromagnetic Compatiblity: Complies with EuropeanCommunity requirements for CE marking
Power: 115V +10%/-20%, 230V +10%/−20%, 48-440 Hz, 300 VA maximum
Dimensions: 177 H x 426 W x 476 D mm + 51 mm for feet(7 H x 16.75 W x 18.75 D in. + 2.0 in. for feet)
Weight: Less than 18 kg (39 lb.), 54147A
TRANSIT CASE
760-183 Transit Case : Hard shell case with custom foam insertsand carrying handle for maximum protection of the 54100A.
3
Additional Models54119A 2 to 8.6 GHz N(f)54128A 8 to 12.4 GHz N(f)54130A 12.4 to 20 GHz N(f)54131A 10 to 16 GHz N(f)54136A 17 to 26.5 GHz K(f)54137A 2 to 20 GHz N(f)54154A 2 to 32 GHz K(f)54163A 2 to 40 GHz K(f)
Measurement System OptionsOption 1 Rack Mounting with SlidesOption 2 70 dB RF Step AttenuatorOption 2A 70 dB, 20 GHz Step AttenuatorOption 2B 70 dB, 26.5 GHz Step AttenuatorOption 2C 70 dB, 40 GHz Step AttenuatorOption 2D 70 dB, 50 GHz Step AttenuatorOption 4 75 ohm source output. (Available to 3.0 GHz)Option 5 Add Reference ChannelOption 6 Add External LevelingOption 7 Internal Distance-To-Fault SoftwareOption 8 Relative Group Delay SoftwareOption 12 Add Front Panel CoverOption 13 Add Front Mounted HandlesOption 16 +15 V DC Supply for Millimeter Wave
Source Modules (Available with ≤ 20 GHz Models only)
Option 25 Maintenance ManualOption 26 Extra Operation and GPIB
Programming ManualOption 33 Canon BJ10-SX Bubble Jet Printer
SWR AUTOTESTERSThe 5400 and 560 Series SWR Autotesters integrate a high directivity bridge, a detector, a low reflection stainless steel testport, a reference termination, and a connecting cable. The detectedoutput signal is proportional to reflections from the test device con-nected to the test port.
RF Extender cables with moderate insertion loss used between thesource output to the SWR Autotester input do not degrade ReturnLoss (SWR) measurement performance. A mating Open/Short isshipped with each SWR Autotester except 5400-67FF75. WSMAtest port connectors are precision connections for improved mea-surement accuracy when testing devices with SMA connectors.
Maximum Input Power: +27 dBm
The 560-98C50 Convertible SWR Autotester improves test accuracy and reduces maintenance cost without using error prone
test port adapters or connector savers.
4
54100A SERIES NETWORK ANALYZERS
54107A
54109A
54111A
54117A
54147A
54161A
54169A
54177A
0.001 to 1.5 GHz
0.001 to 2.2 GHz
0.001 to 3 GHz
0.01 to 8.6 GHz
0.01 to 20 GHz
0.01 to 32 GHz
0.01 to 40 GHz
0.01 to 50 GHz
−40 dBc
−40 dBc
−40 dBc
−60 dBc, > 2 GHz−40 dBc, ≤ 2 GHz
−60 dBc, > 2 GHz−40 dBc, ≤ 2 GHz
−60 dBc, 2-20 GHz−40 dBc, > 20 GHz−40 dBc, ≤ 2 GHz
−60 dBc, 2-20 GHz−40 dBc, > 20 GHz−40 dBc, ≤ 2 GHz
−60 dBc, 2-20 GHz−40 dBc, > 20 GHz−40 dBc, ≤ 2 GHz
−60 dBc
−60 dBc
−60 dBc
−60 dBc, > 2 GHz−50 dBc, ≤ 2 GHz
−60 dBc, > 2 GHz−50 dBc, ≤ 2 GHz
−50 dBc, > 2 GHz−50 dBc, ≤ 2 GHz
−50 dBc, > 2 GHz−50 dBc, ≤ 2 GHz
−50 dBc, > 2 GHz−50 dBc, ≤ 2 GHz
< 1.5
< 1.5
< 1.5
< 1.5
< 1.8
< 1.8
< 1.8
< 2.0
12 dBm, 50 Ω10 dBm, 75 Ω12 dBm, 50 Ω10 dBm, 75 Ω12 dBm, 50 Ω10 dBm, 75 Ω
10 dBm, 50 Ω
10 dBm, 50 Ω
4.0 dBm, 50 Ω
4.0 dBm, 50 Ω
1.0 dBm, 50 Ω
N (f)
N (f)
N (f)
N (f)
N (f)
K (f)
K (f)
V (f)
1 At 25° C, internally leveled. Attenuator Options 2 through 2C reduce output power specification by 3.0 dB; 2D, 4.0 dB. 2 Loaded at 50 Ω
ModelFrequency
Range Harmonic 2 Non HarmonicSource SWR 1
(Leveled) Output Power 1 Connector
5400-67FF75
5400-6B50B
5400-6BF50B
5400-6B75B
5400-6BF75B
5400-6N50
5400-6NF50
5400-6N75
5400-6NF75
560-97A50
560-97A50-1
560-97N50
560-97N50-1
560-97NF50
560-97NF50-1
560-98S50
560-98S50-1
560-98SF50
560-98SF50-1
560-98K50
560-98KF50
560-98VA50
560-98VFA50
560-98C50
0.01 to 1 GHz
0.001 to 1.5 GHz
0.001 to 1.5 GHz
0.001 to 1.5 GHz
0.001 to 1.5 GHz
0.001 to 3 GHz
0.001 to 3 GHz
0.001 to 3 GHz
0.001 to 3 GHz
0.01 to 18 GHz
0.01 to 18 GHz
0.01 to 26.5 GHz
0.01 to 40 GHz
0.01 to 50 GHz
0.01 to 40 GHz
40 dB
40 dB
40 dB
40 dB
40 dB
40 dBc, < 3 GHz
40 dBc, < 3 GHz
40 dBc, < 3 GHz
40 dBc, < 3 GHz
36 dB
40 dB
35 dB
38 dB
35 dB
38 dB
37 dB, < 18 GHz
36 dB, < 26.5 GHz
40 dB, < 18 GHz
38 dB, < 26.5 GHz
37 dB, < 18 GHz
36 dB, < 26.5 GHz
40 dB, < 18 GHz
38 dB, < 26.5 GHz
35 dB, < 18 GHz
32 dB, < 32 GHz
30 dB, < 40 GHz
35 dB, < 18 GHz
32 dB, < 32 GHz
30 dB, < 40 GHz
30 dB, < 40 GHz
30 dB, < 50 GHz
30 dB, < 40 GHz
30 dB, < 50 GHz
34 dB, ≤ 20 GHz
32 dB, ≤ 26.5 GHz
29 dB, ≤ 40 GHz
75 Ω
50 Ω
50 Ω
75 Ω
75 Ω
50 Ω
75 Ω
50 Ω
50 Ω
50 Ω
50 Ω
50 Ω
50 Ω
< 1.22
< 1.13
< 1.13
< 1.22
< 1.22
< 1.08, ≤ 2 GHz
< 1.11, > 2 GHz
< 1.08, ≤ 2 GHz
< 1.11, > 2 GHz
< 1.10, ≤ 2 GHz
< 1.17, > 2 GHz
< 1.10, ≤ 2 GHz
< 1.17, > 2 GHz
< 1.10, ≤ 2 GHz
< 1.17, > 2 GHz
< 1.17, ≤ 8 GHz
< 1.27, > 8 GHz
< 1.17, ≤ 8 GHz
< 1.27, > 8 GHz
< 1.14, ≤ 8 GHz
< 1.22, ≤18 GHz
< 1.27, ≤ 26 GHz
< 1.14, ≤ 8 GHz
< 1.22, ≤18 GHz
< 1.27, ≤ 26 GHz
< 1.14, ≤ 8 GHz
< 1.26, ≤18 GHz
< 1.29, ≤ 26.5 GHz
< 1.33, ≤ 32 GHz
< 1.38, ≤ 40 GHz
< 1.25, ≤ 40 GHz
< 1.25, ≤ 50 GHz
< 1.25, ≤ 40 GHz
< 1.25, ≤ 50 GHz
< 1.20, ≤ 20 GHz
< 1.30, ≤ 40 GHz
F (f)
BNC (m)
BNC (f)
BNC (m)
BNC (f)
N (m)
N (f)
N (m)
N (f)
GPC-7
N (m)
N (f)
WSMA (m)
WSMA (f)
K (m)
K (f)
V (m)
V (f)
SMA (m and f)
3.5 mm (m and f)
K (m and f)
BNC (f)
N (f)
N (f)
N (f)
N (f)
N (f)
N (f)
N (f)
N (f)
N (f)
N (f)
RuggedizedK (f)
RuggedizedK (f)
RuggedizedV (f)
RuggedizedK (f)
5
SWR AUTOTESTERS
ModelFrequency
Range Directivity ImpedanceTest Port
SWR ConnectorInput
Connector
6
DETECTORSThe 5400 and 560 Series Detectors use zero-biased Schottkydiodes. Measurement range is −55 dBm to +16 dBm using singlecycle per sweep AC detection, Auto-zeroing with DC detectionduring the frequency sweep. Optional extender cables of over 3000 feet can be used with the 54100A Series. Contact local salesrepresentative for special cables.
Maximum Input Power: +20 dBm
Standard Cable Length: 122 cm (4 ft.)
Dimensions: 7.6 x 2.9 x 2.2 cm (3 x 1-1/8 x 7/8 in.)
Weight: 170 g (6 oz.)
DETECTORS
5400-71B50 0.001 to 1.5 GHz 50 Ω 20 dB BNC(m) ± 0.2 dB, < 1.5 GHz
5400-71B75 0.001 to 1.5 GHz 75 Ω 20 dB BNC(m) ± 0.2 dB, < 1.5 GHz
± 0.2 dB, < 1 GHz5400-71N50 0.001 to 3 GHz 50 Ω 26 dB N(m)
± 0.3 dB, < 3 GHz
26 dB, ≤ 2 GHz ± 0.2 dB, < 1 GHz5400-71N75 0.001 to 3 GHz 75 Ω
20 dB, ≤ 3 GHzN(m)
± 0.5 dB, < 3 GHz
16 dB, < 0.04 GHz560-7A50 0.01 to 18 GHz 50 Ω 22 dB, < 8 GHz GPC-7 ± 0.5 dB, < 3 GHz
17 dB, < 18 GHz
16 dB, < 0.04 GHz22 dB, < 8 GHz ± 0.5 dB, < 18 GHz
560-7N50B 0.01 to 20 GHz 50 Ω17 dB, < 18 GHz
N(m)± 2.0 dB, < 20 GHz
14 dB, < 20 GHz
16 dB, < 0.04 GHz22 dB, < 8 GHz ± 0.5 dB, < 18 GHz
560-7S50B 0.01 to 20 GHz 50 Ω17 dB, < 18 GHz
WSMA(m)± 2.0 dB, < 20 GHz
14 dB, < 20 GHz
16 dB, < 0.04 GHz22 dB, < 8 GHz ± 0.5 dB, < 18 GHz
560-7S50-2 0.01 to 26.5 GHz 50 Ω17 dB, < 18 GHz
WSMA(m)± 2.0 dB, < 26.5 GHz
14 dB, < 26.5 GHz
13 dB, < 0.04 GHz22 dB, < 8 GHz ± 0.5 dB, < 18 GHz
17 dB, < 18 GHz ±1.25 dB, < 26.5 GHz560-7K50 0.01 to 40 GHz 50 Ω
16 dB, < 26.5 GHzK(m)
± 2.2 dB, < 32 GHz15 dB, < 32 GHz ± 2.5 dB, < 40 GHz13 dB, < 40 GHz
± 0.5 dB, < 18 GHz19 dB, < 20 GHz
±1.25 dB, < 26.5 GHz560-7VA50 0.01 to 50 GHz 50 Ω 15 dB, < 40 GHz V(m)
± 2.5 dB, < 40 GHz10 dB, < 50 GHz
± 3.0 dB, < 50 GHz
Frequency Input FrequencyModel Range Impedance Return Loss Connector Response
7
MEASUREMENT ACCESSORIESRF CABLES
These RF Cables are used to extend the source RF Output to thedevice-under-test input port.
POWER SPLITTERS
These power splitters are symmetrical, two-resistor tee designsthat can be used in applications where signals must be accuratelydivided for ratio measurements. They provide excellent flatnessand effective output SWR. K Connectors are compatible with 3.5 mm and SMA.
PRECISION ADAPTERS
MATCHING PAD AND MINIMUM LOSS ADAPTER
The 12N50-75B pad matches 50 Ω to 75 Ω or 75 Ω to 50 Ω circuits.The 12N75B converts 50 Ω to 75 Ω with less than 3 dB loss.
ADAPTERS
CONVERTIBLE SWR AUTOTESTER TEST PORT HEADS
ModelFrequency
Range (GHz)Impedance
(Ohms) Length Connectors10B75-1
10N50-1
10N75-1
N120-6
N120-12
NS120MF-6
K120MF-6
V120MF-6
DC to 1.5 GHz
DC to 1.5 GHz
DC to 1.5 GHz
DC to 18 GHz
DC to 18 GHz
DC to 18 GHz
DC to 40 GHz
DC to 67 GHz
75
50
75
50
50
50
50
50
30.5 cm (1 ft.)
30.5 cm (1 ft.)
30.5 cm (1 ft.)
15.25 cm (6 in)
30.5 cm (1 ft.)
15.25 cm (6 in)
15.25 cm (6 in)
15.25 cm (6 in)
BNC (m)
N (m)
N (m)
N (m)
N (m)
N (m)-SMA (f)
K (m)-K (f)
V (m)-V (f)
Power Model
FrequencyRange Input Outputs
Connectors
N241A50
N241A75
1091-28
K241B
K241C
V241C
DC to 3.0 GHz
DC to 3.0 GHz
DC to 18 GHz
DC to 26.5 GHz
DC to 40 GHz
DC to 60 GHz
N (f)
N (f)
N (f)
K (m)
K (m)
V (m)
N (f)
N (f)
N (f)
K (f)
K (f)
V (f)
34NN75B
34NFNF75B
34NN50A
34NFNF50
K220
K222
34VK50
34VKF50
34VFK50
34VFKF50
34VV50
34VFVF50
DC to 3 GHz
DC to 3 GHz
DC to 18 GHz
DC to 18 GHz
DC to 40 GHz
DC to 40 GHz
DC to 46 GHz
DC to 46 GHz
DC to 46 GHz
DC to 46 GHz
DC to 60 GHz
DC to 60 GHz
75 Ω75 Ω50 Ω50 Ω50 Ω50 Ω50 Ω50 Ω50 Ω50 Ω50 Ω50 Ω
1.1
1.1
1.1
1.1
1.22
1.22
1.3
1.3
1.3
1.3
1.4
1.4
N (m) to N (m)
N (f) to N (f)
N (m) to N (m)
N (f) to N (f)
K (m) to K (m)
K (f) to K (f)
V (m) to K (m)
V (m) to K (f)
V (f) to K (m)
V (f) to K (f)
V (m) to V (m)
V (f) to V (f)
PartNumber
FrequencyRange Impedance SWR Connectors
12N50-75B
12N75B
DC to 3000
DC to 3000
1.25
1.25
7.5 max.
3.0 max.
N (m) 50 Ωto N (f) 75 ΩN (m) 50 Ω
to N (m) 75 Ω
ModelFrequency
Range (MHz) SWRInsertionLoss (dB) Connectors
1091-136 DC to 1.5 GHz 75 Ω 1.1 F (f) to F (f)
1091-137 DC to 1.5 GHz 75 Ω 1.1 N (f) to F (m)
1091-168 DC to 1.5 GHz 75 Ω 1.06 N (m) to F (m)
1091-169 DC to 1.5 GHz 75 Ω 1.06 N (m) to F (f)
1091-170 DC to 1.5 GHz 75 Ω 1.06 N (f) to F (f)
1091-171 DC to 1.3 GHz 50 Ω 1.03 N (m) BNC (m)
1091-172 DC to 1.3 GHz 50 Ω 1.03 N (m) BNC (f)
1091-173 DC to 1.3 GHz 50 Ω 1.03 N (f) BNC (m)
1091-174 DC to 1.3 GHz 50 Ω 1.03 N (f) BNC (f)
1091-175 DC to 1.3 GHz 75 Ω 1.03 N (m) BNC (m)
1091-176 DC to 1.3 GHz 75 Ω 1.03 N (m) BNC (f)
1091-177 DC to 1.3 GHz 75 Ω 1.03 N (f) BNC (m)
1091-178 DC to 1.3 GHz 75 Ω 1.03 N (f) BNC (f)
1091-26 DC to 18 GHz 50 Ω 1.3 N (m) SMA (m)
1091-27 DC to 18 GHz 50 Ω 1.3 N (m) SMA (f)
1091-80 DC to 18 GHz 50 Ω 1.3 N (f) SMA (m)
1091-81 DC to 18 GHz 50 Ω 1.3 N (f) SMA (f)
Part FrequencyNumber Range Impedance SWR Connectors
SMA (f) 25S50 DC to 26.5 GHz 22KF50SMA (m) 25SF50 DC to 26.5 GHz 22K50
3.5 mm (f) 25L50 DC to 30 GHz 22KF50
3.5 mm (m) 25LF50 DC to 30 GHz 22K50
K (f) 25K50 DC to 40 GHz 22KF50
K (m) 25KF50 DC to 40 GHz 22K50
SMA (f), SMA (m) 25SK50 DC to 26.5 GHz 22KF50K (f), K (m) (Set of Four) DC to 40 GHz 22K50
DUT Test Head Frequency Open/ShortConnector Model Range Model
(A) SWR AutotestersFor optimum accuracy, the SWR Autotester test port must mate tothe DUT's input connector. If you must use an adapter at the SWRAutotester test port, use a precision low SWR adapter to minimizedegradation of directivity.(B) DetectorsOne detector is required for transmission or DTF measurements innon-ratio configurations. Ratio measurements (monitors sourceoutput power) require a second detector. BNC type detectors willnot mate directly to the N-type power splitter output (for use as theReference of a Ratio Measurement) or power divider output (foruse in Distance-To-Fault Measurements). For these applications,use a 1091-172 adapter or an N(m) detector such as 5400-71N50,5400-71N75, or 560-7N50B.
(C) Power SplitterTwo resistor power splitters are used for ratio measurements andexternal leveling.(D) Splitter AdapterAdapter mates the power splitter output to the SWR Autotesterinput for Ratio and/or externally leveled measurements.(F) Source CableIn manufacturing applications, using the source cable from thesource output to the power splitter input (or, in Non-Ratio applica-tions to the SWR Autotester input) helps minimize long term wearof the SWR Autotester’s test port connector. The cable matesdirectly to power splitter’s input. Connection directly to SWRAutotesters requires a male-male adapter for WSMA, K, and V type SWR Autotesters.
8
54100A SERIES NETWORK ANALYZER CONFIGURATION C
1 V to K interconnections require male (source) to female power splitter adapters. 2 Also requires a source adapter. 3 See page 7 (bottom right) to select appropriate test port heads.
Model Source DUT's Input SWR Power Splitter Ext. Leveling SourceNumber Frequency Connector Autotester Detector Splitter Adapter Detector Cable
Connection Diagram Reference Letter A B C D E F
75 Ω F (m) 5400-67FF75 5400-71N75 N241A75 1091-175 73N75 10N75-154107A 0.001 to 1.5 GHz
50 Ω BNC (f) 5400-6B50 5400-71B50 N241A50 34NN50A 73N50 10N50-150 Ω BNC (m) 5400-6BF50 5400-71B50 N241A50 34NN50A 73N50 10N50-1
75 Ω BNC (f) 5400-6B75 5400-71B75 N241A75 34NN75B 73N75 10N75-175 Ω BNC (m) 5400-6BF75 5400-71B75 N241A75 34NN75B 73N75 10N75-1
54109A 0.001 to 2.2 GHz50 Ω N (f) 5400-6N50 5400-71N50 N241A50 34NN50A 73N50 N120-650 Ω N (m) 5400-6NF50 5400-71N50 N241A50 34NN50A 73N50 N120-6
54111A 0.001 to 3.0 GHz75 Ω N (f) 5400-6N75 5400-71N75 N241A75 34NN75B 73N75 10N75B-175 Ω N (m) 5400-6NF75 5400-71N75 N241A75 34NN75B 73N75 10N75B-1
50 Ω APC-7 560-97A50-1 560-7A50 1091-28 34NN50A 75N50B N120-654117A 0.01 to 8.6 GHz
50 Ω N (f) 560-97N50-1 560-7N50B 1091-28 34NN50A 75N50B N120-650 Ω N (m 560-97NF50-1 560-7N50B 1091-28 34NN50A 75N50B N120-6
54147A 0.01 to 20 GHz50 Ω SMA (f) 560-98C503 560-7S50B K241B 1091-27 75KB50 NS120MF-650 Ω SMA (m) 560-98C503 560-7S50B K241B 1091-27 75KB50 NS120MF-6
50 Ω SMA (f) 560-98C503 560-7S50-2 K241C K220 75KC50 K120MF-650 Ω SMA (m) 560-98C503 560-7S50-2 K241C K220 75KC50 K120MF-6
54161A 0.01 to 32 GHz50 Ω K (f) 560-98C503 560-7K50 K241C K220 75KC50 K120MF-6
50 Ω K (m) 560-98C503 560-7K50 K241C K220 75KC50 K120MF-654169A 0.01 to 40 GHz
50 Ω V (f) 560-98VA50 560-7VA50 V241C1 34VV50 70VC50 K120MF-650 Ω V (m) 560-98VFA50 560-7VA50 V241C1 34VV50 70VC50 K120MF-6
50 Ω K (f) 560-98C503 560-7K50 K241C1 K220 75KC50 V120MF-650 Ω K (m) 560-98C503 560-7K50 K241C1 K220 75KC50 V120MF-6
54177A 0.01 to 50 GHz50 Ω V (f) 560-98VA50 560-7VA50 V241C 34VV50 70VC50 V120MF-6
50 Ω V (m) 560-98VFA50 560-7VA50 V241C 34VV50 70VC50 V120MF-6
(G) Source AdapterThis adapter mates the source output directly to the SWRAutotester input.(H) Power DividerDistance-To-Fault testing procedures recommend use of a threeresistor power divider. Except for the 1091-29, the power dividerconnection to the source output requires a male-male adapter or an RF extension cable with male connectors.(I) 3 dB Attenuators, (J) DUT Adapters, (K) TerminationsThese components are used during coaxial Distance-To-Fault applications. Waveguide DTF applications may require a coaxial to waveguide adapter. Integrated DTF divider/detector modules are available in WR-22, WR-15, and WR-10.
Non-Ratio Measurements: Eliminate one detector and the powersplitter for measurements which do not need a source powerreference detector.
Ratio Measurements: Use ratio techniques whenever sourceamplitude is adjusted during the measurement process.
Gain (or Loss), Group Delay and Output Power: An RF detectormeasures transmission characteristics. Group Delay measurementquality improves when a RF splitter and a second RF detector areused in a ratio configuration.
Distance-To-Fault: Faulty antenna systems and transmissionlines are easily diagnosed with the 54100A Series optionalDistance-To-Fault mode.
F
B
IH
Termination
Transmission Line Under Test
DUT
B
A
B
F
DUT
CBD
A
B
F
DUT
9
RT
rce Power 3 dB DUT Precisionpter Divider Attenuator Adapter Termination
G H I J K
-175 11N75B 1010-53 1091-169 1015-29
N50A 11N50B 1010-31 1091-171 1015-35N50A 11N50B 1010-31 1091-172 1015-34
N75B 11N75B 1010-53 1091-175 1015-37N75B 11N75B 1010-53 1091-176 1015-36
N50A 11N50B 1010-31 34NN50A 26NF50N50A 11N50B 1010-31 n/a 26N50
N75B 11N75B 1010-53 34NN75B 26NF75N75B 11N75B 1010-53 n/a 26N75
N50A 1091-29 1010-31 34AN50 28A50-1
N50A 1091-29 1010-31 34NN50A 26NF50N50A 1091-29 1010-31 n/a 26N50
SN50 K240B 43KB-3 K220 28SF50SN50 K240B 43KB-3 n/a 28S50
20 K240C 43KB-3 K220 28SF5020 K240C 43KB-3 n/a 28S50
20 K240C 43KC-3 K220 28KF5020 K240C 43KC-3 n/a 28K50
RK50 V240C 2 41V-3 34VV50 28VF50BRK50 V240C 2 41V-3 n/a 28V50B
RK50 K240C 2 43KC-3 K220 28KF50RK50 K240C 2 43KC-3 n/a 28K50
RV50 V240C 41V-3 34VV50 28VF50BRV50 V240C 41V-3 n/a 28V50B
10
SYSTEM ACCESSORIESLEVELING DETECTORS
Negative output polarity microwave detectors can be used to externally level 54100A power by sampling power at a remote testposition. Connection is made to the 54100A rear panel (Option 6)via a BNC cable. For 70KC50 and 70VC50, an SMC (m) to BNC(m) cable is provided.
Max. Input: +20 dBm
Low Level Sensitivity at -30 dBm: 0.35 mV/µW
High Level Sensitivity at +13 dBm: 1V, minimum
PRECISION TERMINATIONS
These precision, metrology−grade terminations are used in measurement systems where achieving the smallest possiblereflections is critical.
Maximum Input Power: 0.5 W
RF LIMITERS
Return Loss: >11 dB, ≤ 20 GHz>10 dB, ≤ 26 GHz
Insertion Loss: < 2.2 dB, ≤ 20 GHz, 0.0 dBm< 3.2 dB, ≤ 26 GHz, 0.0 dBm
Turn-On Power: 10-14 dBm typ., ≤ 18 GHz15-19 dBm typ., ≤ 26 GHz
RF limiters protect RF detectors against damage from:1) DC Voltage — blocks up to 50 Vdc2) AC Voltage — filters 50/60 Hz up to 100 Vac and impulse
currents of >1.0 A.3) RF Power — provides protection up to 3.0 W for
frequencies range
DETECTOR EXTENDER CABLES
These cables can be installed between the SWR Autotester orDetectors and the 54100A. The 54100A is operational with cablesup to 3000 feet.
GPIB CABLES
These cables connect the 54100A to a GPIB plotter or controller on the GPIB (IEEE−488 bus)
DETECTOR ADAPTER CABLES
These adapter cables allow the 54100A to be used with waveguideor other detectors. The model 560-10BX can be used with LevelingDetectors. The 560-10BX-1 and -2 models are used with millimeterwave detectors.
0.0001 to Input: BNC (m)71B50
3 GHz50 Ω 1.2 ± 0.5
Output: BNC (f)0.0001 to Input: N (m)
73N504 GHz
50 Ω 1.2 ± 0.5Output: BNC (f)
0.0001 to Input: N (m)73N75
2 GHz75 Ω 1.2 ± 0.5
Output: BNC (f)
0.01 to Input: N (m)75N50B
18 GHz50 Ω 1.39 ± 0.6
Output: BNC (f)
0.01 to Input: K (m)75KB50
26.5 GHz50 Ω 1.5 ± 1.0
Output: BNC (f)
0.01 to 40 GHz 1.5 ± 1.5 Input: V (m)75VC50
40 to 50 GHz50 Ω
2.1 ± 3.0 Output: SMC (f)
Frequency SWR FlatnessModel Range Impedance (max.) (dB) Connectors
26N75 N (m)26NF75
DC to 4N (f)
75 Ω 1.004 + 0.0025F
26N50 N (m)26NF50
DC to 18N (f)
50 Ω 1.004 + 0.0026F
28A50 1.010 + 0.001F28A50-1
DC to 18 GPC-7 50 Ω(1.020 Max.)
28S50 WSMA (m) 1.036 to 18.5 GHz28SF50
DC to 26.5WSMA (f)
50 Ω1.173 to 26.5 GHz
28S50-1 WSMA (m) 1.020 to 18.5 GHz28SF50-1
DC to 26.5WSMA (f)
50 Ω1.135 to 26.5 GHz
1.040 to 18.5 GHz28K50DC to 40
K (m)50 Ω 1.070 to 26.5 GHz
28KF50 K (f) 1.135 to 40 GHz
1.070 to 40 GHz28V50BDC to 65
V (m)50 Ω 1.110 to 60 GHz
28VF50B V (f) 1.230 to 65 GHz
ModelFrequency
RangeMaximum
Input PowerImpedance Connectors
1N75C
1N50C
1K50A
1K50B
0.01-3.0 GHz,
0.01-18.0 GHz
0.01-20.0 GHz
0.01-26.0 GHz
5 W
5 W
5 W
3 W
75 Ω50 Ω50 Ω50 Ω
N (m) to N (f)
N (m) to N (f)
K (m) to K (f)
K (m) to K (f)
Model Cable Length
800-109
800-110
800-111
800-112
SC 5372
Contact Factory
7.6 m (25 ft.)
15.2 m (50 ft.)
30.5 m (100 ft.)
61 m (200 ft.)
100 m (328 ft.)
1000 ft.
Model Cable Length
2100-1
2100-2
2100-4
2100-5
1 m (3.3 ft.)
2 m (6.6 ft.)
4 m (13.2 ft.)
0.5 m (1.65 ft.)
Model Cable Length Connector Type560-10BX
560-10BX-1
560-10BX-2
122 cm (4 ft.)
122 cm (4 ft.)
122 cm (4 ft.)
BNC (f)
SMA (m)
BNC (m)
Frequency Test Port Input SWRModel Range (GHz) Connector Impedance (F in GHz)
11
MILLIMETER WAVE MEASUREMENT SYSTEMS
The Wiltron’s Millimeter Wave Reflectometers are designed to operate with the 54147A 20 GHz Network Analyzer. The milli-meter wave multiplier includes subharmonic filters and an isolator,to dramatically improve reflection accuracy.
The 54000 Series millimeter wave reflectometers integrate the measurement components within the multiplier/amplifier housing.
Excellent multiplier source match provided by the internal isolators and the improved detector return loss allow accurate,simultaneous return loss and transmission measurements.
Millimeter Wave Reflectometer Configuration
REFLECTION ACCURACY CHARACTERISTICS
Source Match: < 1.9 (< 1.7 Typical)
Directivity: 35 dB (> 40 dB Typical)
Dynamic Range: > 56 dB
Channel Accuracy:Channel Accuracy is degraded by ± 0.4 dB from standard 54100A specifications
Output Power, Minimum: Leveled or UnleveledV-band: 0.0 dBm min. (+ 4.0 dBm Typ.)W-band: −5.0 dBm min. (+1.0 dBm Typ.)
Power Flatness, Unleveled: ± 3.0 dB Typ.
Required Input Frequency:V-band: 12.75 to 18.75 GHzW-band: 12.75 GHz to 18.33 GHz
Required Input Harmonics: < −60 dBc
Spurious Signals:Harmonic: < −55 dBc (< −60 dBc Typical)Nonharmonic: < −55 dBc (< −60 dBc Typical)
Frequency Accuracy: Source Dependent
Frequency Resolution: Source Dependent
MILLIMETER REFLECTOMETER ACCESSORIES
12" N (m) to N (m) RF input cable: PN: N120-12Precision Attenuators: 1.08:1.0 SWR
Precision loads and attenuators allow low insertion loss devicessuch as couplers and wavequide sections to be accurately tested.
V band 3 dB: SM4784; 6 dB, SM4786W band 3 dB: SM4785; 6 dB, SM4787
Precision Loads: 1.06: 1.0 SWRV band, SM4782W band, SM4783
DC Power Connections: SM4819 Twinax (m) − Twinax (m) cable SM4816 Twinax to Dual Banana PlugSM4818 Twinax to Dual EZ Hooks
PHYSICAL CHARACTERISTICS
Size: 9.5 x 4.5 x 1.5 inches
MILLIMETER WAVE DETECTORS
Maximum Input Power, Damage Level: +21 dBm
54100A NETWORK ANALYZER
560-10BX-2 DETECTOR CABLE
TRANSMISSION DETECTOR
RF IN >+5 dBm
WILTRON
REFLECTOMETER MILLIMETER WAVE
5400-MMXXXXTEST PORT
A BR
(Option 16) +15Vdc
DUT
Frequency InputModel Range Directivity SWR Flange Connector
Special Waveguide Reflectometers Reflectometers have integrated multipliers/amplifiers. Input frequency is < 20 GHz
Millimeter Wave Detectors
54000-6WR15 50 to 75 GHz 35 dB, 40 dB typ. <1.9 (<1.7 typ.) WR-15 N (f)
54000-6WR10 75 to 110 GHz 35 dB, 40 dB typ <1.9 (<1.7 typ.) WR-10 N (f)
Test Port
Frequency Dynamic OutputModel Range Range Return Loss Flange Connector
54000-7WR15 50 to 75 GHz > 56 dB typ. 17 dB WR-15 BNC (f)
54000-7WR10 75 to 110 GHz > 56 dB typ 17 dB WR-10 BNC (f)
Input Port
12
Return Loss Measurement AccuracyUncertainties resulting from SWR Autotester and source frequencyresponse and from system open and short characteristics are subtracted automatically from test data. Overall accuracy is then:
+ Channel Accuracy+ Autotester Accuracy+ Distortion From Source HarmonicsReturn Loss Measurement Accuracy
Autotester accuracy is composed of error due to directivity anderror due to test port match. Unless the DUT has very poor returnloss (high SWR), directivity will be largest source of error. When an adapter is used at the test port, use Effective Directivity to determine possible errors.
NOTE: Return loss errors due to source harmonics will be significant when the harmonic level is within 10 dB of the DUT’smeasured return loss.
RETURN LOSS ACCURACY DUE TO DIRECTIVITY
Measured Return Loss Value
RETURN LOSS ACCURACY DUE TO EFFECTIVE DIRECTIVITY
Measured Return Loss Value
Effective Directivity is the reduction to Directivity due to theadapter’s SWR performance. The chart above assumes a 40 dBdirectivity SWR Autotester.
CHANNEL ACCURACY (25°C)
RETURN LOSS ACCURACY DUE TO SOURCE HARMONICS
Measured Return Loss Value
This chart assumes full reflections of a single source harmonic at the DUT input. Multiple harmonics can cause additionalmeasurement uncertainty.
Source harmonics are a significant source of return lossmeasurement uncertainty when testing banded devices such asfilters, receivers, transmitters, power amplifiers, and antennas. With the source output frequency in the DUT passband, the source harmonics are in the reject band. Thus, the total signal power of the harmonic is reflected into the SWR Autotester’s internal broadband detector.
-4.00
-3.00
-2.00
-1.00
0.00
1.00
2.00
3.00
4.00
10 dB 20 dB 30 dB 40 dB0 dB
Pos
sibl
e E
rror
(dB
)
Source Harmonic Level
-25 dB-30 dB
-35 dB-40 dB
-45 dB
-50 dB
-60 dB
-60 dB
-50 dB-45 dB
-40 dB
-35 dB
-30 dB
-25 dB
Input Power (dBm)+16 +10 0 -10 -20 -30 -40 -50 -55
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
Acc
urac
y (+
/- d
B)
-4.00
-3.00
-2.00
-1.00
0.00
1.00
2.00
3.00
4.00
10 dB 20 dB 30 dB 40 dB0 dB
1.30
1.30
1.20
1.201.15
1.151.10
1.10
1.05
1.05
Adapter SWR
Pos
sibl
e E
rror
(dB
)
1.00 (No Adapter)
1.00 (No Adapter)
-4.00
-3.00
-2.00
-1.00
0.00
1.00
2.00
3.00
4.00
10 dB 20 dB 30 dB 40 dB0 dB
20 dB
25 dB30 dB
35 dB45 dB
50 dB
50 dB
20 dB
25 dB
30 dB
35 dB
40 dB
45 dB
40 dBSWR Autotester
Directivity
Pos
sibl
e E
rror
(dB
)
13
RELATIVE GROUP DELAYOptional relative group delay software identifies signal distortioncaused by bandpass devices such as filters, receivers, poweramplifiers, and up/down converters. Group delay is a key cause ofhigh Bit Error Rate (BER). Group delay is important for 1) CDMAand spread spectrum communications 2) phase radars 3) highcapacity satellite and terrestrial microwave links 4) PAL and HDTVtelevision components and other RF systems sensitive to phasedistortion.
The 54100A saves time and expense by eliminating several piecesof expensive test equipment − combining the capabilities into asingle, low cost test station. Manufacturing processes save re-test/re-tuning time by utilizing a single 54100A instead of twoseparate tuning stations − one for transmission and return loss and the other for relative phase group delay. The 54100A’s otherconvenient features for Distance-To-Fault analysis, ConvertibleSWR Autotesters, rugged construction, low cost and widefrequency range make it an ideal field service analyzer.
In many manufacturing applications, the 54100A can replaceexpensive vector network analyzers. Furthermore, the 54100A can accurately test frequency conversion devices without thewideband reference converters required with vector networkanalyzers or microwave system analyzers.
Calibration requires only an RF path normalization with a standardRF detector. Relative group delay specifications assume measure-ment of bandpass devices. Frequency sweep must include atminimum 20 dBr of transmission rolloff from mid-band response.For best results, set the frequency sweep to cover more than 20 dBr rolloff is suggested.
Relative Group Delay Accuracy: Typically < 1ns, < 5.0% of peak-to-valley range with noise averaged. Assumes the band limitingdevice within the DUT meets minimum phase shift design. Devicessuch as SAW filters, microwave phase equalizers, and branch linecouplers will have additional uncertainty.
Calibration: A transmission path normalization is required.
PRECISION RETURN LOSS MODETerminations, adapters, and connectors have return loss valuesthat are difficult of measure directly with a standard SWRAutotester. Without proper care, test bench components can beeasily damaged without showing significant physical changes.
Precision Return Loss Mode automatically verifies the specifiedperformance of these common test components using an OffsetSWR Autotester, Airline, Open/Short, and a Termination.
Component Connections for Precision Return Loss Mode
SELECTION GUIDE
PRECISION AIRLINE SPECIFICATIONS
RF OUTPUT
OFFSET SWR AUTOTESTER
PRECISION AIR LINE
OPEN/SHORT HERE FOR CALIBRATION
54100A NETWORK ANALYZER
Zx
DEVICE UNDER TEST
A BR
28A50GPC-7 560-97A50-20 18A50 22A50
28A50-1
N male 560-97A50-20 18NF50 22N50 26N50N female 560-97A50-20 18N50 22NF50 26NF50
SMA 28S50male
560-98KF50-15 19SF50 22S5028S50-1
SMA 28SF50female
560-98KF50-15 19S50 22SF5028SF50-1
3.5mm 19LF50male
560-98KF50-15(SC4127)
22K50 28K50
3.5mm 19L50female
560-98KF50-15(SC3588)
22KF50 28KF50
K male 560-98KF50-15 19KF50 22K50 28K50K female 560-98KF50-15 19K50 22KF50 28KF50
DUT Offset SWR Open PrecisionConnector Autotester Airline Short Terminations
1
1Terminations are needed for adapter verification tests and other two portdevice testing.
1.003(Test Port)
18A50 0.5 to 18 GPC-7 GPC-71.020
7 30
(Beaded End)
18N50 N (m)18NF50
0.5 to 18N (f)
GPC-7 1.006 7 30
1.00619S50 WSMA (m)
WSMA to 18 GHz0.8 to 26.5
male 1.0103.5 25
19SF50 WSMA (f)to 26.5 GHz
19K50 K (m)19KF50
0.8 to 40K (f)
1.020 1.020 2.9 15
Freq. BeadedRange Test Port Port Dia. Length
Model (GHz) Connector Connector SWR (mm) (cm)
Offset SWRAutotesters andPrecision Airlinesmeasure high returnloss values from 20 dBto 60 dB.
14
WAVEGUIDE SWR AUTOTESTERS
New Waveguide SWR Autotesters are tuned for unequaled highdirectivity performance with a coaxial to waveguide flange installedon the test port. The result is a small package that is a) morerugged, b) easier-to-use, c) more accurate, and d) more reliablethan precision waveguide couplers.
WAVEGUIDE SWR ADAPTERS
A wide variety of standard waveguide sizes are designed for fieldtesting of installed waveguide within:
• Microwave Communications Towers• Cellular Base Stations• Aircraft Radar Transmission Lines• Ship-board Radar Transmission Lines
When ordering, please alert your Anritsu Wiltron sales representa-tive to request special flange types.
SPECIAL WAVEGUIDE ADAPTERS
Wiltron markets some of the worlds rarest − and most useful −coaxial to waveguide transitions. For example, the 26 GHz to 40 GHz waveguide to 40 GHz K-type coaxial is the only precisioninstrumentation grade transition available for Ka band.
Customer requests for new standards supporting millimeter waveapplications in wireless LANs, vehicle collision avoidance, andwafer probing have lead to the development of coaxial to waveguide transitions to 67 GHz (V connectors) and 110 GHz (W connectors).
35WR42K WRD42 to K Male35WR42KF
18 to 26.5WRD42 to K Female
595 1.25
35WR180K WRD180 to K Male35WR180KF
18 to 40WRD180 to K Female
N/A 1.25
35WR28K WR28 to K Male35WR28KF
26.5 to 40WR28 to K Female
599 1.25
35WR22K WR22 to K Male35WR22KF
33 to 40WR22 to K Female
383 1.30
35WR22V WR22 to V Male35WR22VF
33 to 50WR22 to V Female
383 1.30
35WR19K 40 to 50 WR19 to K Male35WR19KF Usable to 54 WR19 to K Female
383 1.30
35WR19V WR19 to V Male35WR19VF
40 to 60WR19 to V Female
383 1.30
35WR15V WR15 to V Male35WR15VF
50 to 67WR15 to V Female
385 1.30
Frequency W/GModel Range Connectors Flange SWR
(GHz) UG-(_)U
Wiltron manufactures a wide variety of high frequency waveguide to coaxial adapters.
Frequency InputModel Range Directivity Return Loss Flange Connector
Waveguide SWR Autotesters
560-WR229 3.6 to 4.2 GHz, WR229 40 dB 22 dB UG-1350/U N (f)
560-WR137 5.9 to 6.5 GHz, WR137 40 dB 22 dB UG-1356/U N (f)
SC5302 6.5 to 7.1 GHz, WR137 38 dB 22 dB UG-1356/U N (f)
SC5121 7.1 to 7.9 GHz, WR137 38 dB 22 dB UG-1356/U N (f)
SC5125 7.3 to 7.7 GHz, WR112 40 dB 22 dB UG-1358/U N (f)
560-WR90 10.7 to 11.7 GHz, WR90 40 dB 19 dB UG-1360/U N (f)
SC5122 12.7 to 13.3 GHz, WR75 40 dB 19 dB UDR120 N (f)
SC5123 14.0 to 14.5 GHz, WR62 40 dB 19 dB UG-419/U N (f)
SC5137 14.5 to 15.5 GHz, WR62 40 dB 19 dB UG-419/U N (f)
560-WR42 18 to 19 GHz, WR42 40 dB 19 dB UG-595/U N (f)
SC5124 21.2 to 23.6 GHz, WR42 38 dB 19 dB UG-595/URuggedized
K (f)
560-WRXX Customer Specified Contact AW Contact AW Customer Specified N (f)
Test Port
15
DISTANCE-TO-FAULTThe optional Distance-To-Fault software displays impedancediscontinuities versus distance based on a swept frequencymeasurement of transmission line mismatch. The software is available by ordering Option 7 with 54100A Series Network Analyzers.
Measurements: Distance-To-Fault (meters or feet), Return loss orSWR of fault.
Frequency Sampling: 256, 512, or 1024 frequency points.
Window Functions: Hamming, 2-term, –42 dB sidelobes;
Blackman-Harris, 3-term, –67 dB sidelobes.
Anti-aliasing: Filtering of post detected data rejects indications offalse faults caused by signal re-reflections during high reflectionfault conditions or out of band sweep on antenna systems.
Distance Accuracy: < 0.01% of range or 2 mm dependent uponknowledge of the propagation velocity for the device under test andthe frequency sweep range.
Dynamic Range: > 80 dB, depending upon calibration componentreturn loss and operating frequency range.
Return Loss Amplitude Accuracy: Effective Directivity isdependent upon the return loss of the precision termination usedduring calibration.
Distance Range: 1 to 5000 meters depending on measurement frequency range and hardware configuration.
Distance Resolution (of one fault):0.4% of total distance (256 frequency measurement points),0.2% of total distance (512 frequency measurement points),0.1% of total distance (1024 frequency measurement points).
Transmission Lines Supported:
• Coaxial Cable• Waveguide• Waveguide with Coaxial Cable Input
Transmission line loss and velocity factor are corrected by the software. Waveguide dispersion is corrected based on the cutofffrequency, fc. For waveguide with coaxial cable input, a specialoperating mode is utilized to automatically compensate for thelength of non-dispersive coaxial cable in front of the waveguide transmission line.
Distance-To-Fault Measurement Accessories:
Wiltron Distance-To-Fault test systems utilize standard diodedetectors and measurement accessories.
POWER DIVIDERS
These signal dividers are symmetrical, three-resistor tee designsthat are used with the Distance-To-Fault option and other applica-tions requiring two inputs to be combined into a single output.
Maximum Input Power: +30 dBm
3 dB ATTENUATORS
RECOMMENDED TERMINATIONS
Terminations are required for calibration and are occasionally used for terminating the output of the coaxial cable under test.Contact your local sales representative for additional precision termination models.
Non-Ratio Operation, Waveguide
Non-Ratio Operation, Coaxial
54100A NETWORK ANALYZER
RF CABLE
3 dB ATTN
DETECTOR POWER DIVIDER
OPTION ADAPTER
TRANSMISSION LINE UNDER TEST
TERMINATION APPLIED FOR CALIBRATION
R A B
54100A NETWORK ANALYZER
RF CABLE
3 dB ATTN
DETECTOR POWER DIVIDER
WAVEGUIDE ADAPTER
TRANSMISSION LINE UNDER TEST
TERMINATION APPLIED FOR CALIBRATION
R A B
Power DividerModel
FrequencyRange Input Output
11N50B11N75B1091-29K240BK240CV240C
DC to 3 GHzDC to 3 GHz
DC to 18 GHzDC to 26.5 GHzDC to 40 GHzDC to 60 GHz
N (f)N (f)
N (m)K (f)K (f)V (f)
N (f)N (f)N (f)K (f)K (f)V (f)
1010-3143KB-343KC-341V-3
0.01 to 18 GHz0.01 to 26.5 GHz0.01 to 40 GHz0.01 to 60 GHz
N (m)K (m)K (m)V (m)
N (f)K (f)K (f)V (f)
3 dB AttenuatorModel
FrequencyRange Input Output
Connectors
1015-291015-341015-351015-361015-3726N7526N5028S50
28S50-128K5028V50
75 Ω50 Ω50 Ω75 Ω75 Ω75 Ω50 Ω50 Ω50 Ω50 Ω50 Ω
DC to 1.5 GHzDC to 2 GHzDC to 2 GHzDC to 1 GHzDC to 1 GHzDC to 4 GHz
DC to 18 GHzDC to 26.5 GHzDC to 26.5 GHzDC to 40 GHzDC to 65 GHz
F (f)BNC (m)BNC (f)
BNC (m)BNC (f)N (m)N (m)
WSMA (m)WSMA (m)
K (m)V (m)
Model ImpedanceFrequency
Range Connector
Connectors
Ordering Information54100A SERIES MODELS
54107A Network Analyzer, 1 MHz to 1.5 GHz
54109A Network Analyzer, 1 MHz to 2.2 GHz
54111A Network Analyzer, 1 MHz to 3 GHz
54117A Network Analyzer, 10 MHz to 8.6 GHz
54147A Network Analyzer, 10 MHz to 20 GHz
54161A Network Analyzer, 10 MHz to 32 GHz
54169A Network Analyzer, 10 MHz to 40 GHz
54177A Network Analyzer, 10 MHz to 50 GHz
OPTIONSOption 1 Rack Mounting with SlidesOption 2 70 dB RF Step AttenuatorOption 2A 70 dB 20 GHz Step AttenuatorOption 2B 70 dB 26.5 GHz Step AttenuatorOption 2C 70 dB 40 GHz Step AttenuatorOption 2D 70 dB 50 GHz Step AttenuatorOption 4 75 ohm Source Output
(Available to 3.0 GHz)Option 5 Add Reference ChannelOption 6 Add External LevelingOption 7 Internal Distance-To-Fault SoftwareOption 8 Internal Relative Group Delay SoftwareOption 12 Add Front Panel CoverOption 13 Add Front Mounted HandlesOption 16 +15 V DC Supply for Millimeter
Wave Source Modules.(Available with ≤ 20 GHz Models Only)
Option 25 Maintenance ManualOption 26 Extra Operation and GPIB
Programming Manual
Option 33 Canon BJ30 Bubble Jet Printer
DETECTORS5400-71N50L 5 MHz to 1 GHz N (m)
5400-71N50 1 MHz to 3 GHz N (m)
5400-71N75 1 MHz to 3 GHz N (m)
560-7A50 10 MHz to 18 GHz GPC-7
560-7N50B 10 MHz to 20 GHz N (m)
560-7S50B 10 MHz to 20 GHz WSMA (m)
560-7S50-2 10 MHz to 26.5 GHz WSMA (m)
560-7K50 10 MHz to 40 GHz K (m)
560-7VA50 10 MHz to 50 GHz V (m)
SWR AUTOTESTERS5400-6N50 1 MHz to 3 GHz N (m)
5400-6NF50 1 MHz to 3 GHz N (f)
5400-6N75 1 MHz to 3 GHz N (m)
5400-6NF75 1 MHz to 3 GHz N (f)
560-97A50 10 MHz to 18 GHz GPC-7
560-97A50-1 10 MHz to 18 GHz GPC-7
560-97N50 10 MHz to 18 GHz N (m)
560-97N50-1 10 MHz to 18 GHz N (m)
560-97NF50 10 MHz to 18 GHz N (f)
560-97NF50-1 10 MHz to 18 GHz N (f)
560-98S50 10 MHz to 26.5 GHz WSMA (m)
560-98S50-1 10 MHz to 26.5 GHz WSMA (m)
560-98SF50 10 MHz to 26.5 GHz WSMA (f)
560-98SF50-1 10 MHz to 26.5 GHz WSMA (f)
560-98K50 10 MHz to 40 GHz K (m)
560-98KF50 10 MHz to 40 GHz K (f)
560-98C50 10 MHz to 40 GHz SMA (m,f), K (m,f)
560-98VA50 10 MHz to 50 GHz V (m)
560-98VFA50 10 MHz to 50 GHz V (f)
WAVEGUIDE SWR AUTOTESTERS560-WR229 3.6 to 4.2 GHz N (f)
560-WR137 5.9 to 6.5 GHz N (f)
560-WR90 10.7 to 11.7 GHz N (f)
560-WR42 18 to 19 GHz N (f)
560-WRXX Customer Specified
UPGRADES54107A-to-54109A ND41000
54107A-to-54111A ND41001
54109A-to-54111A ND41002
54147A-to-54161A ND41009
54147A-to-54169A ND41010
54147A-to-54177A ND41011
54169A-to-54177A ND41012
U.S. Sales Centers:North West (408) 776-8305North East (201) 227-8999Central (214) 644-1777South West (310) 715-8262South East (301) 590-0300
International Sales Centers:Europe Intl. 44 (1582) 418853Japan (03) 3446-1111Canada (613) 828-4090Asia-Pacific Intl. 81 (3) 3440-2770
Microwave Measurements Division • 490 Jarvis Drive • Morgan Hill, CA 95037-2809http://www.anritsuwiltron.com • FAX (408) 778-0239
Printed in USA 11410-00131August 1996; Rev: C DS54100A-2 /GIP-GData subject to change without notice
K Connector, V Connector and W Connector are registered trademarks of Wiltron Company. MS-DOS is a registered trademark of Microsoft Corporation. All trademarks are registered trademarks of their respective companies.
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Appendix BOperating Data
Appendix BOperating Data
% INTRODUCTION 7KLVDSSHQGL[SURYLGHVGHIDXOWFRQWUROVHWWLQJVHUURUFRGHVDQGZDUQLQJPHVVDJHVDQGUHDUSDQHOFRQQHFWRULQIRUPDWLRQDQGSLQRXWGDWD
% DEFAULT CONTROLSETTINGS
7DEOH%SURYLGHVDOLVWLQJRIWKHSRZHUXSGHIDXOWFRQWUROVHWWLQJVIRUWKH0RGHO;;$1HWZRUN$QDO\]HU
% FRONT PANEL LEDERROR CODES
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% ERROR/WARNINGMESSAGES
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% REAR PANELCONNECTORS
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541XXA OM B-3
Control Setting Default Control Setting Default
Alternate Frequency Mode Off Width Frequency HBEF – LBEF
Averaging Mode Off Power Output Level: W/O Atten. With Atten.
Current Sweep Mode Start/Stop Mode Models 54107/109/11, 50Ω: +12 dbm +10 dbm
Cursor Off Models 51407/109/111, 75Ω: +10 dbm +8 dbm
Graticule Off Model 54136: + 7dBm +4 dBm
Hardcopy Plot Type Plot All All Other Models: +10 dBm +7 dBm
Hardcopy Print Type Print All Limits Off
Leveling Mode Internal Markers Off
Printer Select On Measurement Mode, Ch 1 Transmission, Input A
RF Power On Measurement Mode, Ch 2 Return Loss, Input B
Frequency Information Displayed Reference Line Off
Smoothing Mode Off Offset 0 dB
Trace Hold Off Resolution 10 dB
Number of Data Points 401 Print Text String Length 12 Spaces
Start Frequency Low Band Edge Freq (LBEF)* User Title String Length 12 Spaces
Stop Frequency High Band Edge Freq (HBEF)* GPIB System, Main Address 6
Center Frequency LBEF + ((HBEF – LBEF) ÷ 2) System, Plotter Address 8
∗ Model Dependent
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OPERATING POWER-UP DEFAULTDATA CONTROL SETTINGS
B-4 541XXA OM
LED Name Condition/Fault LED Name Condition/Fault
HARDCOPY PLOTTER
A6/A7 PERSONALITY CHANGE warning UNLEVELED A7 POWER-DOWN fail
SMOOTHINGCHANNELS 1 & 2
A7 NON-VOLATILE RAM fail REMOTE A2 KEYBOARD INTERFACE fail
CALIBRATIONUNCAL*
A3 SIGNAL CHANNEL PRESET fail orA5 SIGNAL CHANNEL ADC fail
DISPLAY CHAN’S1 & 2
Self Test Finished
∗ This LED designates one of two failures
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FRONT PANEL LED OPERATINGERROR CODES DATA
541XXA OM B-5
Error /WarningNumber
Type DescriptionScreen DisplayWarning Box
Message
000 O No error or warningA null value is returned as part of the 541XXA response to a ’RS’ GPIB command issued during normal operation.
(None)
001002
WW
Calibration Start Error, Channel 1Calibration Start Error, Channel 2
n*: CAL STARTXX.XXXX GHz
003004
WW
Calibration Stop Error, Channel 1Calibration Stop Error, Channel 2
n*: CAL STOPXX.XXXX GHz
Problem:The new frequency range includes frequencies outside the current calibrated range for theindicated channel. If a start error, the new start frequency is below the calibration startfrequency. If a stop error, the new stop frequency is above the calibration stop frequency.
Remedy:Re-calibrate using the new start/stop frequency values or adjust new current frequencyrange to fall within existing calibration range.
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7KHHUURUZDUQLQJPHVVDJHLVGLVSOD\HGLQDZDUQLQJPHVVDJHER[ORFDWHGLQWKHORZHUULJKWFRUQHURIWKHVFUHHQGLVSOD\7KLVPHVVDJHER[GLVSOD\VDQHUURUZDUQLQJQXPEHU;;;DORQJZLWKWKHHUURUPHVVDJH,IWKHVFUHHQGLVSOD\HUURUPHVVDJHER[DOVRFRQWDLQVD§¨RU§¨EHIRUHWKHHUURUPHVVDJHWKHHUURUPHVVDJHUHODWHVWRPHDVXUHPHQWFKDQQHORUUHVSHFWLYHO\7KHHUURUZDUQLQJQXPEHUZLOODOVREHUHWXUQHGDVSDUWRIWKH;;$UHVSRQVHWRD5HWXUQ6WDWXV56*3,%FRPPDQGLVVXHGGXULQJWKHVHFRQGLWLRQV
+DUGFRS\RXWSXWIURPWKH;;$XQGHUWKHVHFRQGLWLRQVZLOOLQFOXGHDZDUQLQJPHVVDJHER[VKRZQEHORZWKDWZLOOEHORFDWHGDWWKHERWWRPULJKWRIWKHSULQWRXWRUSORW1RWHWKDWWKLVER[DOVRVKRZVWKHHUURUZDUQLQJQXPEHU
InstrumentWarning: XXX Displayed
OPERATING WARNING/ERRORDATA MESSAGES
B-6 541XXA OM
Error /WarningNumber
Type DescriptionScreen DisplayWarning Box
Message
005006
WW
Not Calibrated, Channel 1Not Calibrated, Channel 2
n*: NOT CALCHANNEL
Problem:The 541XXA was calibrated with a different input connector selected for channel.
Remedy:Re-calibrate the 54XXA with current settings, or proceed with caution: measurementresults must be interpreted to compensate for the problem.
007 W Invalid Calibration Data INVALIDCAL DATA
Problem:Subtract Trace Memory feature presently selected.
Remedy:Re-calibrate, or de-select Subtract Trace Memory from measurement setup.
008009
WW
Trace Memory Start Error, Channel 1Trace Memory Start Error, Channel 2
n*: MEM STARTXX.XXXX GHz
010011
WW
Trace Memory Stop Error, Channel 1Trace Memory Stop Error, Channel 2
n*: MEM STOPXX.XXXX GHz
Problem:The current frequency range includes frequencies outside of the range covered by the specified Trace Memory.
Remedy:Adjust current frequency range or cancel use of the specified Trace Memory.
012013
WW
Calibration Power Error, Channel 1Calibration Power Error, Channel 2
CAL POWERn*: XX.XX dBm
Problem:The current output power is different from the power value used during the last calibration.
Remedy:Re-calibrate using new power level or adjust current power level to calibration value.
014 U Keypad Entry Error ENTRY ERRORRE-ENTER
Problem:The last keypad input is not within credible limits for the current data parameter.
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WARNING/ERROR OPERATINGMESSAGES DATA
541XXA OM B-7
Error /WarningNumber
Type DescriptionScreen DisplayWarning Box
Message
Remedy:Re-enter valid data value via keypad or spinwheel.NOTE: This is an ERROR condition. Further use of the instrument is not possible until thecondition causing the error has been corrected.
015016
WW
No Calibration Data, Channel 1No Calibration Data, Channel 2
n*: NO CALDATA
Problem:No calibration data exists for the indicated channel.
Remedy:Perform calibration including designated channel or change measurement type for thechannel.
017018
WW
Calibration Data Only for Transmission, Channel 1Calibration Data Only for Transmission, Channel 2
n*: CAL ISTRANSMSSN
Problem:Channel set to measure Return Loss or SWR, but the calibration data for channel is forTransmission.
Remedy:Perform calibration for current measurement type or change channel measurement type.
019020
WW
Calibration Data Only for Return Loss or SWR, Channel 1Calibration Data Only for Return Loss or SWR, Channel 2
n*: CAL ISRET LOSS
Problem:Channel set to measure Transmission, but the calibration data for channel is forReturn Loss or SWR.
Remedy:Perform calibration for current measurement type or change channel measurement type.
021 W Cursor Search Failed NOT FOUND
Problem:The last cursor search command was unable to find the requested value(s) on the currenttrace.
Remedy:Amend search targets, search type, or cursor mode. (Reminder: if Relative ModeCursor isenabled, target values are interpreted as relative to the value at the current cursor.)
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OPERATING WARNING/ERRORDATA MESSAGES
B-8 541XXA OM
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Error /WarningNumber
Type DescriptionScreen DisplayWarning Box
Message
022023
WW
Trace Memory Invalid Display Resolution, Channel 1Trace Memory Invalid Display Resolution, Channel 2
TRACE MEM101 pts
Problem:The requested trace memory was captured with a resolution inconsistent with currentsettings.
Remedy:Recall a different trace memory, change resolution, or disable trace memory subtraction.
024 W External ALC Uncalibrated EXT ALCUNCAL
Problem:External ALC selected , but has not yet been rescaled.
Remedy:Perform External ALC calibration.
025 W N/A (Reserved) N/A (Reserved)
026 F Frequency Calibration Fault FREQUENCYLOCK nnn
Problem:A serious fault condition has been detected during the frequency calibration process. Theerror codes (nnn) that are displayed with the Frequency Calibration Fault warningmessage are listed in Table B-4.
Remedy:Report the problem to your ANRITSU Service Center (refer to Table 2-1).
027 W Invalid Calibration Mode NOT CALMODE
Problem:Attempting to use Frequency Scaling mode with standard calibration data.
Remedy :Perform a new calibration, or cancel Frequency Scaling mode.
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WARNING/ERROR OPERATINGMESSAGES DATA
541XXA OM B-9
The following is a list of calibration error codes that are displayed along with the Frequency Calibration Fault warning message (seeError/Warning Number 26 in Table B-3).
CalibrationError Code
Error Description
201 General, no 500 MHz markers
202 Start DAC main band, 500 MHz marker(s) missing; or, top or bottom frequency(s) not correctly set
203 Start DAC main band, 1st MHz markers (top) wrong
204 Start DAC main band, 500 MHz marker size error
205 Error DAC, 25 MHz marker spacing wrong
206 Width DAC main band, 500 MHz marker(s) missing
207 Width DAC main band, 1st MHz markers (top) wrong
208 Width DAC main band, 500 MHz marker size error
209 Width DAC fm, 25 MHz marker spacing wrong
210 HET band, 500 MHz marker missing
211 HET band, 25 MHz and 500 MHz marker spacing wrong
212 HET band, 25 MHz marker spacing wrong
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OPERATING FREQUENCY CALIBRATION FAULTDATA WARNING MESSAGE ERROR CODES
B-10 541XXA OM
1. EXTERNAL MONITOR: Connects internal displayinformation to an external VGA-type monitor via astandard VGA interface cable. The pinout for thisconnector is shown in Figure B-2.
2. GPIB/IEEE-488 INSTRUMENT INTERFACE: Gen-eral Purpose Interface bus connector. Connects541XXA to external system controller or externalGPIB controlled plotter via standard GPIB interfacecable. Refer to Chapter 2, Installation. The pinout forthis connector is shown in Figure B-3.
3. LINE FUSE: Provides overvoltage/current protec-tion for the 540XXA circuits. Unit requires a 4A, an-tisurge fuse for 115 Vac line voltage or a 2A, an-tisurge fuse for 230 Vac line voltage.
4. VOLTAGE SELECTOR; Provides selection of 115or 230 Vac line voltages. When 115 Vac is selected,the 541XXA accepts 90-132 Vac, 48-400Hz line volt-age; when 230 Vac is selected, the 541XXA accepts180-265 Vac, 48-400Hz line voltage.
5. INPUT LINE VOLTAGE RECEPTACLE: Providesfor connecting line voltage to the 541XXA SMS.
6. PARALLEL PRINTER INTERFACE: Providesstandard Centronics parallel interface to externalprinter.
7. EXTERNAL ALC INPUT (Option 06): Connectsexternal detector signal to internal RF output level-ing circuits for signal source. Selection of internal orexternal ALC detectors is made via the LEVELINGkey located in the SOURCE key group. Externallevel detector signal output requirements: positiveor negative polarity signal, 5 to 200mV amplitude.
8. HORIZONTAL OUTPUT: Sweep Ramp outputsignal, 0 to +10V (nominal). Instantaneous voltageproportional to present position of sweep withinsweep range.
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1 2 3
6 7 8
NO OPERATO R SERVICE-ABLE PARTS INSIDEREFER SERVICING TOQUALIFIED PERSONNEL
WARNING
FOR CONTINUED FIREPROTECTION REPLACEONLY WITH SPECIFIEDTYPE AND RATED FUSE
CAUTION
FUSE:230V 2A AS115V 4A AS48-440Hz 300VA MAX
NOTE : CLE AN FILTE R PERIODICALLY FOR MAXIMUM RELIABILITYEXTERNAL MONITOR
GPIB/IEEE 488 INSTRUMENT INT ERFACE OR GPIB\IEEE 488 PLOTTER CONTROL
THE FUNCTION OF THIS CONNECTOR IS SELECT ED THRO UG H A FRO NT PANEL MENU BY PRESSING THE SYSTEM KEY
PARAL LEL PRINTER INTERFACE
EXTERNALALC INPUT
HORIZONTAL OUTPUT
OPTIONS
0 2 ST EP AT TENUATO R
0 3
0 4 7 5 OH M O U TP U T
0 5 R C HA NNE L
0 6 EX T LE VELIN G
07 DTF
115230
VOLTAGESELECTOR
4
5
REAR PANEL OPERATINGLAYOUT DATA
541XXA OM B-11
EXTERNAL MONITOR1
6
1115
5
10
PinNo.
Pin Name/Function
Monochrome Color
1 not used Red Signal
2 Mono Dots Green Signal
3 not used Blue Signal
4 not used not used
5 not used not used
6 Key Pin Red Return
7 Mono Return Green Return
8 not used Blue Return
9 no pin no pin
10 Digital Ground Digital Ground
11 not used Digital Ground
12 not used not used
13 H Sync H Sync
14 V Sync V Sync
15 not used not used
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OPERATING PINOUT OF EXTERNAL MONITORDATA REAR PANEL CONNECTOR
B-12 541XXA OM
112
1324
GPIB IEEE - 488
Pin No. Function/Description Pin No. Function/Description
1 DIO1 13 DIO5
2 DIO2 14 DIO6
3 DIO3 15 DIO7
4 DIO4 16 DIO8
5 EOI 17 REN
6 DAV 18 Logic Ground
7 NRFD 19 Logic Ground
8 NDAC 20 Logic Ground
9 IFC 21 Logic Ground
10 SRQ 22 Logic Ground
11 ATN 23 Logic Ground
12 Chassis Ground 24 Logic Ground
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541XXA OM B-13/B-14
PINOUT FOR REAR PANEL OPERATINGGPIB CONNECTOR DATA
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Appendix CNational Instruments CardsInstallation and Data(GPIB-PCI I /I IA Card and GPIB-232CR-A Converter)
Appendix CNational Instruments CardsInstallation and Data(GPIB-PCI I /I IA Card and GPIB-232CR-A Converter)
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& GPIB-232CT-A RS-232IEEE 488 CONTROLLER,INSTALLATIONINSTRUCTIONS
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6WHS Insert the National Instruments “ NI-488.2 Distribution Disk forGPIB-232CT-A” into the A or B floppy drive.
6WHS Change to that floppy drive.Example: Type B:
6WHS Choose DOS GPIB Installation, from the available options, andpress <ENTER>.
6WHS Choose Partial GPIB Installation, from the available options, andpress <ENTER>.
6WHS Choose Driver and Support Files, from the available options, andpress <ENTER>. (Note: A lthough not required, you can alsochoose to install language interfaces.
6WHS Accept the default directory, C:\ GPIB-CT, and press <ENTER>.
6WHS Let the program modify your CONFIG.SYS file; press <ENTER>.
541XXA OM C-3
6WHS Set switches on the GPIB-232CT-A as shown in Figure C-1.
6WHS Using a 9-pin cable, connect the GPIB-232CT-A to the control-ler’s COM1. See Figure C-2 for a pinout diagram of the GPIB-232CT-A 9-pin connector, female-female, null modem cable.
6WHSPress the GPIB-232CT-A 1-0 rocker switch to the “ 1” position.Wait for the POWER and READY indicators to light.
6WHSRemove the floppy disk and reboot your computer.
ON
GPIB ADDRESSG MODE
S MODEDATA FORMAT
BAUD RATE
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NC
NC
5 4 3 2 1
9 8 7 6
5 4 3 2 1
9 8 7 6
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NATIONAL INSTRUMENTS CARD GPIB-232CT-A RS-232 INSTALLATION AND DATA IEEE 488 CONTROLLER
C-4 541XXA OM
& GPIB-PCII/IIA CARD,INSTALLATION ANDCONFIGURATIONINSTRUCTIONS
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6WHS Before installation, set the switches and jumpers on the GPIB-PCII/ IIA card as shown in the Figure C-3.
6WHS Turn off the computer and unplug the power cord from thepower source.
6WHS Remove the top cover from the computer and install the GPIB-PCII/ IIA card into any unused slot. Install the card with theIEEE-488 connector protruding out of the back panel.
DMA CHANNELSELECTION
I/O ADDRESSSELECTION
INTERRUPTSELECTION
A3
A4
A5
A6
A7
A8
A9
7210
PC
II
9914
PC
IIA
PC
II
PC
IIA
1 2 3 4 5 6 7 8 9
OFF
I0 I1 I2 A14
A13
IRQ
2
IRQ
3
IRQ
4
IRQ
5
IRQ
6
IRQ
7
DR
Q1
DA
CK
1
DR
Q2
DA
CK
2
DR
Q3
DA
CK
3
A
B
U2
0
1W1
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GPIB-PCII /I IA CARD NATIONAL INSTRUMENTS CARDINSTALLATION INSTALLATION AND DATA
541XXA OM C-5
6WHS Secure the card by fastening the GPIB-PCII/ IIA mountingbracket to the back panel rail w ith a screw, then replace the com-puter cover.
6WHS Plug the power cord into the power source and power up (boot)the computer.
& INSTALLING ANDCONFIGURING THENI-488 MS-DOSHANDLER SOFTWARE
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6WHS Insert the NI-488 Distribution Disk for the GPIB-PCII/ IIA MS-DOS Handler into the disk drive. At the DOS prompt:Type: A:Press: <ENTER> (The A:\ DOS prompt will appear.)
6WHS Run the installation program IBSTART and specify the start up(boot) drive. For example, if C: is the boot drive, at the DOSprompt:Type: IBSTART C:Press: < ENTER>
6WHS Follow the instructions on the display.
The installation program first copies the files, GPIB.COM and IB-CONF.EXE, from the distribution disk to the root directory of the bootdrive, then it creates the directory GPIB-PC on the boot drive and cop-ies all the files on the distribution disk into this directory.
Next the program adds the line, DEVICE = GPIB.COM, to the com-puter’s CONFIG.SYS file so that DOS will load the handler wheneverthe computer is booted.
The program then prompts you to run the hardware diagnostic pro-gram (IBDIAG) to insure the GPIB-PCII/IIA card is installed andworking properly.
6WHS Run the software program (IBCONF) to change the default soft-ware configuration options of the GPIB handler. A t the DOSprompt:Type: IBCONFPress: <ENTER>
NATIONAL INSTRUMENTS CARD GPIB-PCII /I IA CARDINSTALLATION AND DATA CONFIGURATION
C-6 541XXA OM
6WHS Follow the instructions on the display.
The program firsts displays a device map for the GPIB card (Figure C-4).
Select the GPIB-PCII/IIA Card or device whose parameters you wish todisplay, then press the function key, F8.
Change the configuration of the GPIB-PC-II/IIA card to that shown inFigure C-4 and verify that the configuration of the devices DEV6 andDEV8 match Figures C-5 and C-6.
6WHS Reboot your computer to install the GPIB handler software andthe software configuration changes.
6WHS Run the software diagnostic program (IBTEST) to verify that theGPIB handler software is installed correctly. To do this, at theDOS prompt:Type: CD\ GPIB-PCPress: <ENTER>Type: IBTESTPress: <ENTER>If errors are encountered, refer to Appendix B of the GPIB-PCUser Manual for an explanation of the errors and their solutions.
GPIB-PCII /I IA CARD NATIONAL INSTRUMENTS CARDCONFIGURATION INSTALLATION AND DATA
541XXA OM C-7
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NATIONAL INSTRUMENTS CARD GPIB-PCII /I IA CARDINSTALLATION AND DATA CONFIGURATION
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GPIB-PCII /I IA CARD NATIONAL INSTRUMENTS CARDCONFIGURATION INSTALLATION AND DATA
541XXA OM C-9/C-10
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