Anritsu MS2038C User's Manual
Contents
1. S11 Phase S21 Phase 100 100 Uncertainty 0 5 MHz to 20 MHz Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 20 MHz to 3 GHz E Uncertainty 3 GHz to 6 GHz mm Uncertainty 3 GHz to 6 GHz ah Uncertainty 6 GHz to 20 GHz Uncertainty 6 GHz to 20 GHz 10 10 SS iz Yau amii 1 0 1 0 1 40 35 30 25 20 15 10 5 0 80 70 60 50 40 30 20 10 0 Low Port Power 3652A Calibration Kit K Connector Corrected System Performance and Uncertainties MS202x 3xC Model with 12 term SOLT calibration including isolation using 3652A Calibration Kit Frequency Range GHz Directivity dB Frequency Range GHz Typical Low Port Power dBm lt 5 gt 42 lt 3 25 lt 15 gt 36 lt 6 25 20 gt 32 lt 20 25 N Connector guaranteed to 18 GHz typical gt 18 GHz Measurement Uncertainties The following graphs provide measurement uncertainty at 23 C 5 C for the above indicated connector type and calibration Errors are worse case contributions of residual directivity source ma2. 0 1 2 3 4 5 6 7 8 9 10 0 1 2 3 4 5 6 7 8 9 10 Cable Loss Log Mag 2 dB Cable Loss Log Mag 2 dB These uncertainty curves show how frequency range DUT Match and cable loss impact worst case uncertainty of round trip cable loss measurements The uncertainty curves separated by frequency range are shown for DUT Match conditions of 20 25 and 30 dB For DUT Match of 30 dB and cable loss of 4 5 dB reflection measurement of 8 10 dB the worst case uncertainties are approximately 1 dB High Port Power OSLxx50 Calibration Components N Connectors Corrected System Performance and Uncertainties MS202x 3xC Model with 12 term SOLT calibration including isolation using either OSLN50 amp OSLNF50 or OSLKS0 amp OSLKF50 Calibration Kits Precision calibration standards come in a convenient configuration for field work Frequency Range GHz Directivity dB lt 5 gt 42 lt 15 gt 36 lt 20 gt 32 N Connector guaranteed to 18 GHz typical gt 18 GHz Measurement Uncertainties Frequency Range GHz Typical High Port Power dBm lt 3 3 lt 6 3 lt 20 23 The following graphs provide measurement uncertainty at 23 C 5 C for the above indicated connector type and calibration Errors are worse case contributions of residual directivity source match frequency response network analyzer dynamic range and connector repeatabili
3. Windowing 0 to data points 1 x Fault Resolution to a maximum of 3000 m 9843 ft Rectangular Nominal Side Lobe NSL Low Side Lobe LSL and Minimum Side Lobe MSL Power Monitor Option 0005 Requires external detector Transmitter measurements in the field are possible when using this VNA Master software mode with a separately purchased Anritsu 560 series detector A variety of detectors are available to 50 GHz but the popular 560 7N50B covers 10 MHz to 20 GHz with a measurement range of 50 to 20 dBm with better than 0 5 dB flatness to 18 GHz After zeroing the detector to ensure accuracy at low power levels the software offers intuitive operation for absolute and relative readouts in dBm or Watts Power Monitor Detectors Ordered separately Part Numbers 560 7N50B 560 7S50B Frequency Range 0 01 to 20 GHz 0 01 to 20 GHz Impedance 50 QO 50 Q Power Range 55 dBm to 16 dBm 55 dBm to 16 dBm Return Loss 15 dB lt 0 04 GHz 22 dB lt 8 GHz 17 dB lt 18 GHz 14 dB lt 20 GHz 15 dB lt 0 04 GHz 22 dB lt 8 GHz 17 dB lt 18 GHz 14 dB lt 20 GHz Display Range 80 to 80 dBm 10 pW to 100 kW Z Measurement Range 50 to 20 dBm 10 nW to 40 mW Input Connector m WSMA m Offset Range 0 to 60 dB 0 5 dB lt 18 GHz 0 5 dB lt 18 GHz Frequency Response 1 25 dB lt 20 GHz 1 25 dB lt 20 GHz Resolution
4. 0 17 dB 0 16 dB 0 18 dB 0 18 dB Datasheet for Additional Specifications 11410 00414 11410 00483 11410 00424 11410 00504 11410 00504 Notes 1 Total RSS measurement uncertainty 0 C to 50 C for power measurements of a CW signal greater than 20 dBm with zero mismatch errors 2 Expanded uncertainty with K 2 for power measurements of a CW signal greater than 20 dBm with a matched load Measurement results referenced to the input side of the sensor 3 Expanded uncertainty with K 2 for power measurements of a CW signal greater than 20 dBm with zero mismatch errors Interference Analyzer Option 0025 Models MS2036 38C only Recommend GPS Measurements Spectrum Field Strength Channel Power Center Frequency Bandwidth Number of Carriers Occupied Bandwidth Adjacent Channel Power ACPR AM FM SSB Demodulation Wide Narrow FM Upper Lower SSB audio out only Carrier to Interference ratio C I Spectrogram Collect data up to one week Signal Strength Gives visual and aural indication of signal strength Received Signal Strength Indicator RSSI collect data up to one week Gives visual and aural indication of signal strength Signal ID up to 12 signals Signal Type FM GSM W CDMA CDMA Wi Fi Closest Channel Number Signal to Nose Ratio SNR gt 10 dB Application Options Bias Tee On Off Impedance 50 Q 75 Q Other Channel Scanner Option 0027 Mod
5. Sweep Functions Sweep Single Continuous Manual Trigger Reset Detection Minimum Sweep Time Trigger Type Sweep Mode Fast Performance No FFT Detection Peak RMS Avg Negative Sample Quasi peak Triggers Free Run External Video Delay Level Slope Hysteresis Holdoff Force Trigger Once Trace Functions Traces Up to three Traces A B C View Blank Write Hold Trace A B C Operations Trace A Operations Normal Max Hold Min Hold Average of Averages always the live trace Trace B Operations Trace C Operations AB B amp C Max Hold Min Hold A gt C BosC Max Hold Min Hold A B gt C B A 3C Relative Reference dB Scale Marker Functions Markers Markers 1 6 each with a Delta Marker or Marker 1 Reference with Six Delta Markers Marker Table On Off Large All Markers Off Marker Types Style Fixed Tracking Noise Marker Frequency Counter Marker Marker Auto Position Peak Search Next Peak Right Left Peak Threshold Set Marker to Channel Marker Frequency to Center Delta Marker to Span Marker to Reference Level Marker Table 1 6 markers frequency and amplitude plus delta markers frequency offset and amplitude Limit Line Functions Limit Lines Upper Lower On Off Edit Move Envelope Advanced Limit Alarm Default Limit Limit Line Edit Limit Line Move Frequency Amplitude Add Point Add Vertical Delete Point Next P
6. Please visit www us anritsu com for most current data sheet e Typical performance is the measured performance of an average unit e Recommended calibration cycle is 12 months Frequency VNA Master Frequency Range MS2026 36C MS2028 38C Frequency Accuracy 1 5 ppm Frequency Resolution Typical Test Port Power VNA Master supports selection of either High default or Low test port power Changing power after calibration can degrade the calibrated performance Typical power by bands is shown in the following table High Port Power Low Port Power Frequency Range dB dBm 5 kHz to lt 3 GHz 3 25 3 GHz to lt 6 GHz 3 25 6 GHz to lt 20 GHz 3 15 Transmission Dynamic Range The transmission dynamic range the difference between test port power and noise floor using 10 Hz IF Bandwidth and High Port Power is shown in the following table Frequency Range ae 5 kHz to lt 2 MHz 85 2 MHz to lt 3 GHz 100 3 GHz to lt 6 GHz 90 6 GHz to lt 20 GHz 85 Typical Sweep Speed The typical sweep speed for IF Bandwidth of 100 kHz 1001 data points and single display is shown in the following table The three receiver architecture will simultaneously collect S and S4 or S42 and S gt gt in a single sweep Typical Sweep Speed us point 5 kHz to 6 GHz 350 6 GHz to 20 GHz 650 Frequency Range 5 kHz to 6 GHz 5 kHz to 20 GHz 1 Hz to 375 MHz 10 Hz to 6 GH
7. Sample Quasi peak and true RMS e Markers 6 each with a Delta Marker or 1 Reference with 6 Deltas e Limit Lines up to 40 segments with one button envelope creation e Full Speed USB Memory support e High resolution daylight viewable TFT color display Time Domain option for Distance to Fault diagnostics e Internal Bias Tee option e Vector Voltmeter option e High Accuracy Power Meter option e Differential option Sqgi Sec Sdici and Seidi e Secure Data Operation option e GPS Receiver option e Power Monitor option Polar Format Impedance Display e 4 6 8 18 26 GHz USB Power Sensors e 8 4 in Display e Trace Save on Event crossing limit line or sweep complete e Option to automatically optimize sweep RBW VBW tradeoff for best possible display e Interference Analyzer Option Spectrogram Signal Strength RSSI Channel Scanner Option e Zero span IF Output e Gated Sweep e GPS tagging of stored traces e Internal Preamplifier standard e High Accuracy Power Meter Option e AM FM SSB Demodulation audio only VNA Master Functional Specifications Definitions All specifications and characteristics apply under the following conditions unless otherwise stated e After 30 minutes of warm up time where the instrument is in VNA Mode and left in the ON state e Temperature range is 23 C 5 C e All specifications apply when using internal reference e All specifications subject to change without notice
8. or Port 2 2 MHz to 6 GHz MS20x6C Frequency Range 2 MHz to 20 GHz MS20x8C Internal Voltage Current 12V to 32V at 450 ma Steady rate Internal Resolution 0 1V External Voltage Current 50 V at 500 mA steady rate Bias Tee Selections Internal External Off Port 1 External Bias Input 50 V 500 mA Max Internal Bias Tee Internal Bias Tee Internal Bias ae 18 Grey W 450 mA Max RF Test Source The VNA Master offers optional integrated bias tee for supplying DC plus RF to the DUT as shown in this simplified block diagram Connectivity is also provided for external supply instead of internal to preserve battery consumption 14 Vector Voltmeter Option 0015 A phased array system relies on phase matched cables for nominal performance For this class of application the VNA Master offers this special software mode to simplify phase matching cables at a single frequency The similarity between the popular vector voltmeter and this software mode ensures minimal training is required to phase match cables Operation is as simple as configuring the display for absolute or relative measurements The easy to read large fonts show either reflection or transmission measurements using impedance magnitude or VSWR readouts For instrument landing system ILS or VHF Omni directional Range VOR applications a table view improves operator efficiency when phase matching up to twel
9. 2 553 6603 Fax 82 2 553 6604 e Australia Anritsu Pty Ltd Unit 21 270 Ferntree Gully Road Notting Hill Victoria 3168 Australia Phone 61 3 9558 8177 Fax 61 3 9558 8255 e Taiwan Anritsu Company Inc 7F No 316 Sec 1 Neihu Rd Taipei 114 Taiwan Phone 886 2 8751 1816 Fax 886 2 8751 1817 11410 00548 Rev B Printed in United States 2010 09 2010 Anritsu Company All Rights Reserved
10. 24UM84 26UM84 35UM84N 7 05 to 10 00 GHz WR112 WG15 CBR84 UBR84 PBR84 PDR84 23UM100 24UM100 26UM100 35UM100N 8 20 to 12 40 GHz WR90 WG16 CBR100 UBR100 PBR100 PDR100 23UM120 24UM120 26UM120 35UM120N 10 00 to 15 00 GHz WR75 WG17 CBR120 UBR120 PBR120 PDR120 CPR187F CPR187G UG 1352 U 23UA187 24UA187 26UA187 35UA187N 3 95 to 5 85 GHz WR187 WG12 UG 1353 U UG 1728 U UG 1729 U UG 148 U UG 149A U CPR137F CPR137G UG 1356 U 23UA137 24UA137 26UA137 35UA137N 5 85 to 8 20 GHz WNC Nena ai et UG 441 U CPR112F CPR112G UG 1358 U 23UA112 24UA112 26UA112 35UA112N 7 05 to 10 00 GHz WR112 WG15 UG 1359 U UG 1734 U UG 1735 U UG 52B U UG 51 U UG 137B U UG 138 U CPR9OF CPR90G UG 1360 U 23UA90 24UA90 26UA90 35UA90N 8 2010 12 40GHz WAW ica eau oa UG 136B U 23UA62 24UA62 26UA62 35UA62N 12 40 to 18 00 GHz WR62 WG18 ete UGH Wa 23UA42 24UA42 26UA42 35UA42K 17 00 to 26 50GHz WR42 WG20 yo oa UG 599 U UG 537 U 1 For Coaxial Waveguide Adapter part numbers N designates Type N and K designates K Connector 22 23 Zinritsu Anritsu Corporation 5 1 1 Onna Atsugi shi Kanagawa 243 8555 Japan Phone 81 46 223 1111 Fax 81 46 296 1238 e U S A Anritsu Company 1155 East Collins Boulevard Suite 100 Richardson TX 75081 U S A Toll Free 1 800 ANRITSU 267 4878 Phone 1 972 644 1777 Fax 1 972 671 1877 e Canada Anritsu Electronics Ltd 700 Silver Seven Road Suite 120 Kanata Ontario K2V 1
11. Amps 40 Watts on battery power only DC power from Universal 95 Watts running off AC DC adaptor 110 220V AC DC Adapter while charging battery Life time charging cycles gt 300 Li lon Battery 633 44 80 of initial capacity Battery Operation 2 5 hours typical 17 Ancillary Module extends Optical Fiber Testing to Distance to Fault The ODTF 1 module is primarily intended for field use by technicians and engineers responsible for the deployment and maintenance of remote radio heads RRH and nicely complements the field diagnostic power of the VNA Master The ODTF 1 module is fully compatible with the MS202x 3xC VNA Masters which are equipped with the Time Domain Option 0002 or Distance Domain Option 0501 Field operation of the ODTF 1 module with the VNA Master requires the normal DTF RF microwave mode along with simple modification of some of the setup parameters such as Vp cable loss and frequency VNA Master users need only to connect a short cable between the RF output of the VNA and the ODTF 1 module and perform a l port calibration at the end of the cable Essentially the ODTF 1 module is simply a wavelength translator RF test signals in RF signals returning The same physics that apply to the traditional DTF measurements apply to ODTF 1 meaning highly accurate measurements can be made with event resolution as good as 10 cm The same trade offs carry over as well so better event resolution translates to shorter maximum dis
12. MHz SMA m 50 Q l 2000 1473 870 MHz to 960 MHz SMA m 50 Q Power Monitor Detectors 2000 1035 896 MHz to 941 MHz SMA m 50 Q 1 4 wave 960 7N50B RF Detector 0 01 to 20 GHz Type N m 2000 1030 1710 MHz to 1880 MHz SMA m 50 Q 1 2 wave 560 7S50B RF Detector 0 01 to 20 GHz W SMA m 2000 1474 1710 MHz to 1880 MHz with knuckle elbow 1 2 wave a Wa a NEPI conde 2000 1031 1850 MHz to 1990 MHz SMA m 50 Q 4 2 wave i cabin dials Ma 2000 1475 1920 MHz to 1980 MHz and 2110 2170 MHz 800 111 Detector Extender Cable 30 5m 100 ft SMA m 50 Q OSLK50 Precision integrated Open Short Load K m 2000 1361 2400 MHz to 2500 5000 to 6000 Mhz DC to 20 GHz 50 Q SMA m 50 Q OSLKF50 Precision integrated Open Short Load K f 2000 1616 20 MHz to 21000 Mrz N 1 50 Q DC to 20 GHz 50 Q 61532 Antenna Kit Consists of 2000 1030 2000 1031 22K50 Precision K m Short Open 40 GHz 2000 1032 R 2000 1200 2000 1035 2000 1361 22KF50 Precision K f Short Open 40 GHz and canyingipouch 28K50 Precision Termination DC to 40 GHz 50 K m Bandpass Filters 28KF50 ECAN Terranahan DC to 40 GHz 50 Q K f 1030 114 R 806 MHz to 869 MHz N m to SMA f 50 Q 3652A K Calibration Kit DC to 40 GHz 1030 109 R 824 MHz to 849 MHz N m to SMA f 50 Q type Connectors 1030 110 R 880 MHz to 915 MHz N m to SMA f 50 Q OSLN50 Precision Integrated Open Short Load N m WATA WA ae Kana D OSSA DC to 18 GHz 50 Q 0 OSLNF50 Precision Integrated Open Short Load N f
13. Measure Active Trace OO Graph Type Smith Chart Domain Selection Freq Number of Traces System Mode Trace easure Limit Preset Calibrate Sweep Trace Format File M Smoothing Maximize Active Trace 0000101010 Q N Midd d dds 1 000 GHz L reamme sea sweep wewe Mater 500 000 MHz TRS amp Performance and Functional Highlights VNA Master e Broadband coverage of 5 kHz to 6 20 GHz e True 2 port Vector Network Analyzer VNA Ultimate accuracy with 12 term error correction e User defined quad display for viewing all 4 S Parameters e Arbitrary data points up to 4001 e IF Bandwidth selections of 10 Hz to 100 kHz e 85 dB dynamic range to 20 GHz e Supports waveguide measurements e 350 us data point sweep speed e USB Ethernet for PC data transfer and control e Automate repetitive tasks via Ethernet amp USB e Field upgradable firmware e Store more than 4000 traces and setups in memory e Portable 10 5 lbs 4 8 kg VNA Master Spectrum Analyzer All of the above VNA features PLUS e Measure Occupied Bandwidth Channel Power ACPR C I e Dynamic Range gt 104 dB in 1 Hz RBW e DANL 160 dBm in 1 Hz RBW e Phase Noise 100 dBc Hz 10 kHz offset at 1 GHz e Frequency Accuracy lt 25 ppb with GPS On e 1 Hz to 10 MHz Resolution Bandwidth RBW e Traces Normal Max Hold Min Hold Average of Averages e Detectors Peak Negative
14. Weight Including Battery yA F ais se Reset Factory Defaults Master Reset Update Firmware wae File Save Recall Delete Directory Management Safety Save Recall Setups Measurements Screen Shots Jpeg save only Safety Class EN 61010 1 Class 1 Delete Selected File All Measurements All Mode Files All Content Product Safety IEC 60950 1 when used with Anritsu supplied Power Supply Directory Sort Method Name Type Date Ascend Descend Internal Management USB Copy Environmental Internal Trace Setup 13 000 traces Memory MIL PRF 28800F Class 2 External Trace Setu Environmental Conditions MS202x 3xC Memory P Limited by size of USB Flash drive WAA eee Passed 10 C to 55 C Humidity 85 H apa Auto Stores Recalls most recently used Setup Parameters in 3 8 2 5 5 14 Mode Switching the Mode gt nE emperature not operating 7 3 8 2 2 amp 4 5 5 1 Passed 51 C to 71 C Relative humidity mere 3 8 2 3 amp 4 5 5 1 Passed Maximum Input oral ela 23 dBm 50 VDC MS202x 3xC 8384559 ica a into Vector Network m 9 x 3xC Analyzer Altitude operating 3 8 3 amp 4 5 5 2 Passed 4600 m maximum put Vibration limits Damage Level into 30 dBm 50 VDC MS203xC 3 8 4 1 amp 4 5 5 3 1 Passed Spectrum Analyzer ane ea Shock functional Type N female or K female
15. with opt 0011 MS20x8C only VNA 3 8 5 1 amp 4 5 5 4 1 Passed port x2 Transit Drop VNA Connectors Type BNC female Bias Tee port enabled with opt 0010 x2 3 8 5 2 amp 4 5 5 4 2 Passed Type BNC female External Reference In port Bench handling Passed 3 8 5 3 amp 4 5 5 4 3 agog Spectrum Analyzer l P y Type N female or K female with opt 0011 MS203xC Shock high impact E 3 8 5 4 amp 4 5 5 4 4 GPS SMA female Available with opt 0031 GPS sope apa P External Power 5 5 mm barrel connector 12 to 15 VDC lt 5 0 Amps 3 8 8 2 amp 4 5 6 2 2 RJ48C 10 100 Mbps Connect to PC or LAN for Remote Access Qualified by similarity tested on a similar product o LAN Connection Available with opt 0411 Ethernet Not defined in standard must be invoked and defined by purchase description Not required for Class 2 equipment USB Interface 2 Type A Connect Flash Drive and Power Sensor USB Interface 5 pin mini B Connect to PC for data transfer Electromagnetic Compatibility Headset Jack 2 5 mm barrel connector E Uni CE Mark EMC Directive 89 336 EEC 92 31 EEC 93 68 EEC wa E and Low Voltage Directive 73 23 EEC 93 68 EEC External Trigger BNC female 50 Q Maximum Input 5 VDC Australia and 10 MHz Out SMA female 50 Q New Zealand C tick N274 Interference EN 61326 1 Displa ai Emissions EN 55011 KN Immunity EN 61000 4 2 4 3 4 4 4 5 4 6 4 11 Resolution 800 x 600 Power Field replaceable Li lon Battery 633 44 6600 mAh 4 5
16. 0 1 dB 0 1 xW x n u m based on detector power l See www us anritsu com for additional detectors 1 dB maximum for gt 40 dBm using Accuracy 560 7N50B detector Secure Data Operation Option 0007 For highly secure data handling requirements this software option prevents the storing of measurement setup or data information onto any internal file storage location Instead setup and measurement information is stored ONLY to the external USB memory location A simple factory preset prepares the VNA Master for transportation while the USB memory remains behind in the secure environment The VNA Master cannot be switched between secure and non secure operation by the user once configured for secure data operation As an additional security measure with this option enabled the user can choose to blank the frequency values displayed on the screen 13 Bias Tee Option 0010 For tower mounted amplifier tests the MS20x 3xC series with optional internal bias tees can supply both DC and RF signals on the center conductor of the cable during measurements For frequency sweeps in excess of 2 MHz the VNA Master can supply internal voltage control from 12 to 32 V in 0 1 V steps up to 450 mA To extend battery life an external power supply can substitute for the internal supply by using the external bias inputs instead Both test ports can be configured to supply voltage via this integrated bias tees option Bias can be directed to VNA Port
17. 50 Calibration Kits Frequency Range GHz Directivity dB lt 5 gt 42 lt 15 gt 36 lt 20 gt 32 N Connector guaranteed to 18 GHz typical gt 18 GHz Measurement Uncertainties Frequency Range GHz Typical High Port Power dBm lt 3 25 lt 6 25 lt 20 15 The following graphs provide measurement uncertainty at 23 C 5 C for the above indicated connector type and calibration Errors are worse case contributions of residual directivity source match frequency response network analyzer dynamic range and connector repeatability For two port measurements transmission tracking crosstalk and physical load match termination were added Isolation calibration and an IF Bandwidth of 10 Hz is used S11 Magnitude Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz 11 Phase Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz 100 0 1 Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz Uncertainty 0 5
18. B steps Log Scale Modes dBm dBV dBmv dBuVLinear Scale Modes nV uV mV V kV nW uW mW W kW Maximum Continuous Input 30 dBm Peak 50 VDC 2 10 dB Attn 23 dBm Peak 50 VDC lt 10 dB Attn 13 dBm Peak 50 VDC Preamp On Amplitude Accuracy single sine wave input lt Ref level and gt DANL auto attenuation 20 C to 30 C after 30 minute warm up Typical 0 5 dB 100 kHz to 20 GHz Maximum 1 3 dB 100 kHz to 13 GHz Add 1 0 dB 13 GHz to 20 GHz 10 C to 50 C after 60 minute warm up Add 1 0 dB 100 kHz to 20 GHz Displayed Average Noise Level DANL RMS detection VBW Avg type Log Ref Level 20 dBm for preamp Off and 50 dBm for preamp On DANL in 1 Hz RBW 0 dB attenuation Preamp Off 10 MHz to 4 GHz 141 dBm gt 4 GHz to 9 GHz 134 dBm gt 9 GHz to 13 GHz 129 dBm gt 13 GHz to 20 GHz 123 dBm MS2038C only Preamp On 10 MHz to 4 GHz 160 dBm gt 4 GHz to 9 GHz 156 dBm gt 9 GHz to 13 GHz 152 dBm gt 13 GHz to 20 GHz 145 dBm Spectrum Analyzer Functional Specifications Models MS2036 38C only continued Spurs Residual Spurious Preamp Off RF input terminated 0 dB input attenuation 90 dBm 9 kHz to 13 GHz 85 dBm 13 GHz to 20 GHz Preamp On RF input terminated 0 dB input attenuation 100 dBm 1 MHz to 20 GHz Input Related Spurious 0 dB attenuation 30 dBm input span l
19. C only Frequency Frequency Range 9 kHz to 20 GHz usable to 0 Hz Preamp 100 kHz to 20 GHz Tuning Resolution 1 Hz Frequency Reference Aging 1 0 ppm 10 years Accuracy 0 3 ppm 25 C 25 C aging External Reference Frequencies 1 1 2288 1 544 2 048 2 4576 4 8 4 9152 5 9 8304 10 13 19 6608 MHz Frequency Span 10 Hz to 20 GHz including zero span Sweep Time 10 us to 600 seconds in zero span Sweep Time Accuracy 2 in zero span Bandwidth Resolution Bandwidth RBW Video Bandwidth VBW 1 Hz to 10 MHz in 1 3 sequence 10 3 dB bandwidth 1 Hz to 10 MHz in 1 3 sequence 3 dB bandwidth RBW with Quasi Peak Detection 200 Hz 9 KHz 120 kHz 6 dB bandwidth VBW with Quasi Peak Detection Auto VBW is On RBW VBW 1 Spectral Purity SSB Phase Noise at 1 GHz 100 dBc Hz 10 kHz offset from carrier 104 dBc Hz typical 102 dBc Hz 100 kHz offset from carrier 107 dBc Hz typical 107 dBc Hz 1 MHz offset from carrier 114 dBc Hz typical 120 dBc Hz 10 MHz offset from carrier 129 dBc Hz typical Amplitude Ranges Dynamic Range gt 104 dB 2 4 Ghz 2 3 TOI DANL in 1 Hz RBW Measurement Range DANL to 30 dBm Display Range 1 to 15 dB div in 1 dB steps ten divisions displayed Reference Level Range 120 dBm to 30 dBm Attenuator Resolution Amplitude Units 0 to 65 dB 5 d
20. C3 Canada Phone 1 613 591 2003 Fax 1 613 591 1006 e Brazil Anritsu Electr nica Ltda Pra a Amadeu Amaral 27 1 Andar 01327 010 Bela Vista S o Paulo SP Brasil Phone 55 11 3283 2511 Fax 55 11 3288 6940 e Mexico Anritsu Company S A de C V Av Ej rcito Nacional No 579 Piso 9 Col Granada 11520 M xico D F M xico Phone 52 55 1101 2370 Fax 52 55 5254 3147 e U K Anritsu EMEA Ltd 200 Capability Green Luton Bedfordshire LU1 3LU U K Phone 44 1582 433280 Fax 44 1582 731303 e France Anritsu S A 12 Avenue du Qu bec B timent Iris 1 Silic 638 91140 VILLEBON SUR YVETTE France Phone 33 1 60 92 15 50 Fax 33 1 64 46 10 65 e Germany Anritsu GmbH Nemetschek Haus Konrad Zuse Platz 1 81829 M nchen Germany Phone 49 0 89 442308 0 Fax 49 0 89 442308 55 e Italy Anritsu S p A Via Elio Vittorini 129 00144 Roma Italy Phone 39 06 509 9711 Fax 39 06 502 2425 e Sweden Anritsu AB Borgafjordsgatan 13 164 40 KISTA Sweden Phone 46 8 534 707 00 Fax 46 8 534 707 30 e Finland Anritsu AB Teknobulevardi 3 5 FI 01530 VANTAA Finland Phone 358 20 741 8100 Fax 358 20 741 8111 e Denmark Anritsu A S for Service Assurance Anritsu AB for Test amp Measurement Kirkebjerg All 90 DK 2605 Br ndby Denmark Phone 45 7211 2200 Fax 45 7211 2210 e Russia Anritsu EMEA Ltd Representation Office in Russia Tverskaya str 16 2
21. MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz Se PA 80 70 60 20 10 0 High Port Power 3652A Calibration Kit K Connector Corrected System Performance and Uncertainties MS202x 3xC Model with 12 term SOLT calibration including isolation using 3652A Calibration Kit Frequency Range GHz Directivity dB Frequency Range GHz Typical High Port Power dBm lt 5 gt 42 lt 3 3 lt 15 gt 36 lt 6 3 lt 20 gt 32 lt 20 3 N Connector guaranteed to 18 GHz typical gt 18 GHz Measurement Uncertainties The following graphs provide measurement uncertainty at 23 C 5 C for the above indicated connector type and calibration Errors are worse case contributions of residual directivity source match frequency response network analyzer dynamic range and connector repeatability For two port measurements transmission tracking crosstalk and physical load match termination were added Isolation calibration and an IF Bandwidth of 10 Hz is used 11 Magnitude S21 Magnitude Uncertainty 0 5 MHz to 20 MHz Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz Uncertainty 6 GHz to 20 GHz
22. Markers Eight arbitrary assignments to any trace Marker Types Reference Delta Marker Readout Styl Log Mag Cable Loss Log Mag 2 Log Mag and Phase Phase Real and Imaginary SWR Impedance Admittance Normalized Impedance arker Readout Styles Normalized Admittance Polar Impedance and Group Delay Linear Mag Linear Mag and Phase Marker Search Peak Search Valley Search Find Marker Value Correction Models Full 2 Port Full S44 Full S22 Full S414 amp S22 Response S21 Response S142 Response S21 amp S12 Response S44 Response S22 Response S11 amp S22 One Path Two Port 14 521 One Path Two Port S22 S12 Calibration Methods Short Open Load Through SOLT Offset Short SSLT and Triple Offset Short SSST Calibration Standards Coefficients Coax N Connector K Connector 7 16 TNC SMA and four User Defined Waveguide WG11A WG12 WG13 WG14 WG15 WG16 WG17 WG18 WG20 and four User Defined Cal Correction Toggle On Off Dispersion Compensation Waveguide correction that improves accuracy of distance to fault data by compensating for different wavelengths propagating at different speeds Impedance Conversion Support for 50 Q and 75 Q are provided Units Meters Feet Bias Tee Settings Internal External Off Timebase Reference Internal External 10 MHz File Storage Types Measurement Setup with CAL Setup without CAL S2P Real Imag
23. Optical Time Domain Module 65729 Soft Carrying Case 15NNF50 1 5C Armored Test Port Cable 1 5 meter N m to N f 2300 498 Master Software Tools CD ROM OSLN50 1 Precision Open Short Load DC to 6 GHz 633 44 Rechargeable Battery Li lon 6 6 Ah 42 dB Return Loss 40 168 R AC DC Adapter 806 141 R Automotive Cigarette Lighter 12 V DC adapter 3 2000 1498 USB A type to Mini USB B type cable 3 05 m 10 ft 2000 1371 R Ethernet cable 2 13 m 7 ft 3 806 152 Ethernet Crossover Cable 2 13 m 7 ft 2000 1520 R USB Flash Drive 20 Ordering Information continued Optional Accessories Directional Antennas High Accuracy Power Sensor 2000 1411 R 824 MHz to 896 MHz N f 10 dBd Yagi PSN50 High Accuracy Power Sensor 50 MHz to 6 GHz 2000 1412 R 885 MHz to 975 MHz N f 10 dBd Yagi MA24 104A Inline High Power Sensor 600 MHz to 4 GHz ee ME eee va True RMS 2000 1414 R 1850 MHz to 1990 MHz Nf 9 3 dBd Yagi MA24106A High Accuracy Power Sensor 50 MHz to 6 GHz 2000 1415 R 2400 MHz to 2500 MHz N f 10 dBd Yagi True RMS 2000 1416 R 1920 MHz to 2170 MHz N f 10 dBd Yagi MA24108A High Accuracy Power Sensor 10 MHz to 8 GHz 2000 1519 R 900 MHz to 3000 MHz log periodic True RMS 2000 1617 600 MHz to 21000 MHz N f 5 8 dBi to 12 GHz MA24118A High Accuracy Power Sensor 10 MHz to 18 GHz 0 6 dBi to 21 GHz log periodic True RMS Portable A MA24126A High Accuracy Power Sensor 10 MHz to 26 GHz ortable Antennas True RMS 2000 1200 806 MHz to 866
24. S2P Lin Mag Phase S2P Log Mag Phase JPEG Ethernet Configuration DHCP or Manual Static IP Gateway Subnet entries Languages English French German Spanish Chinese Japanese Korean Italian plus two User Defined 11 Spectrum Analyzer Performance Capabilities Measurements Smart Measurements Field Strength uses antenna calibration tables to measure dBm m2 or dBmV m Occupied Bandwidth measures 99 to 1 power channel of a signal Channel Power measures the total power in a specified bandwidth ACPR adjacent channel power ratio C I carrier to interference ratio Emission Mask recall limit lines as emission mask Setup Parameters Frequency Center Start Stop Span Frequency Step Signal Standard Channel Amplitude Reference Level RL Scale Attenuation Auto Level RL Offset Pre Amp On Off Detection Span Span Span Up Down 1 2 5 Full Span Zero Span Last Span Bandwidth RBW Auto RBW VBW Auto VBW RBW VBW Span RBW File Save Recall Delete Directory Management Save Recall Setups Measurements Limit Lines Screen Shots Jpeg save only Save on Event Save on Event Crossing Limit Line Sweep Complete Save then Stop Clear All Delete Selected File All Measurements All Mode Files All Content Directory Management Sort Method Name Type Date Ascend Descend Internal USB Copy Application Options Impedance 50 Q 75 Q Other
25. Signal Generator when GPS Antenna is connected lt 50 ppb with GPS On 3 minutes after High Frequency Accuracy satellite lock in selected mode GPS Lock after antenna is disconnected lt 50 ppb for 3 days 0 C to 50 C ambient temperature Connector SMA female Balanced Differential S Parameters 1 port Option 0077 As an alternative to a sampling oscilloscope verifying the performance and identifying discontinuities in high data rate differential cables is now possible with the VNA Master After a full two port calibration connect your differential cable directly to the two test ports and reveal the Sa performance which is essentially differential return loss or any of the other differential S Parameters Seicis Sdic OF Seidi With optional time domain you can convert frequency sweeps to distance This capability is especially valuable for applications in high data rate cables where balanced data formats are used to isolate noise and interference Distance Domain Option 0501 included in Time Domain Option 0002 Distance Domain Analysis is a powerful field test tool to analyze cables for faults including minor discontinuities that may occur due to a loose connection corrosion or other aging effects By using Frequency Domain Reflectometry FDR the VNA Master exploits a user specified band of full power operational frequencies instead of DC pulses from TDR approaches to more precisely identify cable discontinuiti
26. Vista 7 This allows an operator to add the processing capabilities of a PC and this software utility to the VNA Master to form a powerful and flexible measurement solution for network analysis For automation the VNA Master also supports remote programming via the Ethernet or USB interface Connect VNA Master to a PC for archiving and additional post processing A standard tilt bail provides convenient use on a bench Feature Benefit Powerful data management tool for storing and sifting through measurement results MST simplifies transfers printing and archival of displays and setups Connect to a PC using USB2 0 full speed Ethernet LAN or Direct Ethernet Unleash powerful MST capabilities by using variety of popular remote interfaces Store an unlimited number of setups traces and JPEGs limited only by PC memory Develop libraries of frequently used setups and typical results Manipulate traces and further optimize displays Versatility to further analyze results without re taking measurements Update with the latest firmware Easily download and upgrade to newest features from www us anritsu com Remote programming via Ethernet or USB Increase throughput by automating repetitive or operator intensive tasks 19 Ordering Information MS2026C MS2028C MS2036C MS2038C VNA Master VNA Master VNA Master VNA Master 2 port VNA 2 port VNA Spectrum Analyzer S A Spectrum Analyze
27. WI PaNA inritsu VNA Master Handheld Vector Network Analyzer Spectrum Analyzer MS2026C MS2036C MS2028C MS2038C 5 kHz to 6 GHz SkHzto6GHZ 5kHzto20GHz 5kHzto20 GHz Vector Network Analyzer 9 kHz to 9 GHz 9 kHz to 20 GHz Spectrum Analyzer The Ultimate Handheld Vector Network Spectrum Analyzer for Cable Antenna and Signal Analysis Anytime Anywhere Introduction High Performance Handheld S Parameters Anritsu introduces the MS202x 3xC VNA Master Spectrum Analyzer the industry s broadest frequency handheld solution to address cable antenna component and signal analysis needs in the field with frequency coverage from 5 kHz to 6 20 GHz Equally impressive this broadband measurement tool offers the industry s first 12 term error correction algorithm in a truly handheld battery operated rugged multi function instrument And now the MS2036 38C models include a powerful spectrum analyzer which multiplies user convenience by combining spectrum analysis with the VNA into a single measurement powerhouse for the harsh RF and physical environments of field test Whether it is for spectrum monitoring broadcast proofing interference analysis RF and microwave measurements regulatory compliance or 3G 4G and wireless data network measurements this VNA Spectrum Analyzer marriage is the ideal instrument to making fast and reliable measurements in the field tian it w A ii Fault Fh a LA l PALUN Ms2038c
28. bld 1 7th floor Russia 125009 Moscow Phone 7 495 363 1694 Fax 7 495 935 8962 e United Arab Emirates Anritsu EMEA Ltd Dubai Liaison Office P O Box 500413 Dubai Internet City Al Thuraya Building Tower 1 Suite 701 7th Floor Dubai United Arab Emirates Phone 971 4 3670352 Fax 971 4 3688460 e Singapore Anritsu Pte Ltd 60 Alexandra Terrace 02 08 The Comtech Lobby A Singapore 118502 Phone 65 6282 2400 Fax 65 6282 2533 Anritsu All trademarks are registered trademarks of their respective companies Data subject to change without notice For the most recent specifications visit www anritsu com co CE e e India Anritsu Pte Ltd India Branch Office 3rd Floor Shri Lakshminarayan Niwas 2726 80 ft Road HAL 3rd Stage Bangalore 560 075 India Phone 91 80 4058 1300 Fax 91 80 4058 1301 e P R China Hong Kong Anritsu Company Ltd Units 4 amp 5 28th Floor Greenfield Tower Concordia Plaza No 1 Science Museum Road Tsim Sha Tsui East Kowloon Hong Kong P R China Phone 852 2301 4980 Fax 852 2301 3545 e P R China Beijing Anritsu Company Ltd Beijing Representative Office Room 2008 Beijing Fortune Building No 5 Dong San Huan Bei Road Chao Yang District Beijing 100004 P R China Phone 86 10 6590 9230 Fax 86 10 6590 9235 e Korea Anritsu Corporation Ltd 8F Hyunjuk Bldg 832 41 Yeoksam Dong Kangnam ku Seoul 135 080 Korea Phone 82
29. ee ee Ka Wa wa aD Sue DCto 18 GHz 50 O 1030 106 R 1710 MHz to 1790 MHz Band 0 34 dB loss 22N50 Precision N m Short Open 18 GHz ee 22NE50 Precision N f Short Open 18 GHz 1030 107 R 1910 MHz to 1990 MHz Band 0 41 dB loss N 28N50 2 Precision Termination DC to 18 GHz 50 N m 1030 112 R a nan ya N m to SMA f 50 Q 28NF50 2 Precision Termination DC to 18 GHz 50 Q N f 1030 155 R 2500 MHz to 2700 MHZ N m to Nf 500 OSLN50 1 Precision N m Open Short Load 42 dB 6 GHz l l OSLNF50 1 Precision N f Open Short Load 42 dB 6 GHz Attenuators SM PL 1 Precision N m Load 42 dB 6 GHz 3 1010 122 20 dB 5 W DC to 12 4 GHz N m to N f SM PLNF 1 Precision N f Load 42 dB 6 GHz 42N50 20 20 dB 5 W DC to 18 GHz N m to N f 42N50A 30 30 dB 5 W DC to 18 GHz N m to N f TNC Connector Components 1091 53 R Precision TNC m Open 18 GHz 50 Q pie Sls ee eee 1091 54 R Precision TNC m Short 18 GHz 50 Q ee Sa aba Sha kika gl 1015 55 R Precision TNC m Load 18 GHz 50 Q eae ne ee ee ee He ON Uni directional 1091 55 R Precision ENC Open 19 GHZ 30 4 1010 121 40 dB 100 W DC to 18 GHz N m to N f 1091 56 R Precision TNC f Short 18 GHz 50 Q Uni directional 1015 54 R Precision TNC f Load 18 GHz 50 0 41010 128 R 40 dB 150 W DC to 3 GHz N m to N f 7 16 Connector Components Technical Data Sheet 2000 16 18 R Precision Open Short Load 7 16 m 6 0 GHz 10580 00548 VNA Master Spectrum Analyzer Brochure 2000 1619 R Precision Open Sho
30. els MS2036 38C only Number of Channels 1 to 20 Channels Power Levels Measurements Graph Table Max Hold On 5 sec Off Frequency Channel Current Maximum Dual Color Scanner Scan Channels Scan Frequencies Scan Customer List Scan Script Master Amplitude Reference Level Scale Custom Scan Signal Standard Channel of Channels Channel Step Size Custom Scan Frequency Range 150 kHz to 13 GHz Frequency Accuracy 10 Hz Time base error Measurement Range 110 dBm to 30 dBm Application Options Bias Tee On Off Impedance 50 Q 75 Q Other 15 GPS Option 0031 Models MS2036 38C only Requires external GPS antenna Built in GPS provides location information latitude longitude altitude and Universal Time UT information for storage along with trace data so you can later verify that measurements were taken at the right location The GPS option requires a separately ordered magnet mount GPS antenna 2000 1528 R which is configured with a 15 foot 5 m cable to mount outside on a metallic surface Frequency accuracy is enhanced for the Spectrum Analyzer when Options 0025 Interference Analyzer and 0027 Channel Scanner are engaged Setup On Off Antenna Voltage 3 3 5 0 V GPS Info Time Latitude Longitude and Altitude on display ro Timakocaton indicator Time Latitude Longitude and Altitude with trace storage Spectrum Analyzer Interference Analyzer CW
31. es The VNA Master converts S parameters from frequency domain into distance domain on the horizontal display axis using a mathematical computation called Inverse Fourier Transform Connect a reflection at the opposite end of the cable and the discontinuities appear versus distance to reveal any potential maintenance issues When access to both ends of the cable is convenient a similar distance domain analysis 1s available on transmission measurements Option 0501 Distance Domain will improve your productivity with displays of the cable in terms of discontinuities versus distance This readout can then be compared against previous measurements from stored data to determine whether any degradations have occurred since installation or the last maintenance activity More importantly you will know precisely where to go to fix the problem and so minimize or prevent downtime of the system 16 VNA Master General Specifications MS202x 3xC Setup Parameters Size and Weight Status Temperature Battery Info S N Firmware Ver IP Height 211 mm 8 3 in Address Options Installed System Self Test Application Self Test Dimensions Width 315 mm 12 4 in GPS see Option 0031 78 mm 3 1 in MS202xC Depth Name Date and Time Ethernet Configuration Brightness Volume 97 mm 3 8 in MS203xC A Language English French German Spanish Chinese 45k MS202 eyes apon Japanese Korean Italian User defined
32. oint Left Right To Current Center Frequency By dB or Hz To Marker 1 Offset from Marker 1 Limit Line Envelope Create Envelope Update Amplitude Number of Points 41 Offset Shape Square Slope Limit Line Advanced Type Absolute Relative Mirror Save Recall 12 Measurement Options Specifications Time Domain Option 0002 includes Distance Domain Option 0501 The VNA Master can also display the S parameter measurements in the time or distance domain using lowpass or bandpass processing analysis modes The broadband freguency coverage coupled with 4001 data points means you can measure discontinuities both near and far with unprecedented clarity for a handheld tool With this option you can simultaneously view S parameters in frequency time and distance domain to quickly identify faults in the field Advanced features available with this option include step response phasor impulse gating and frequency gated in time The option includes computational routines that further enhance the Distance Domain results by compensating for cable loss relative velocity of propagation and dispersion compensation in waveguide Distance Domain Round Trip reflection Fault Resolution meters 0 5 x c x Vp AF c is speed of light 3E8 m s AF is F2 F1 in Hz One Way transmission Fault Resolution meters c x Vp AF c is speed of light 3E8 m s AF is F2 F1 in Hz Horizontal Range meters
33. pper Pass Fail for Lower Limit Audible Alarm Data Averaging Sweep by sweep Smoothing 0 to 20 IF Bandwidth 10 30 100 300 1k 3k 10k 30k 100k Hz Reference Plane The reference planes of a calibration or other normalization can be changed by entering a line length Assumes no loss flat magnitude linear phase and constant impedance Auto Reference Plane Extension Instead of manually entering a line length this feature automatically adjusts phase shift from the current calibration or other normalization to compensate for external cables or test fixtures Assumes no loss flat magnitude linear phase and constant impedance Frequency Range Frequency range of the measurement can be narrowed within the calibration range without recalibration Defined as the frequency span over which the phase change is computed at a given frequency point The aperture can be changed without Group Delay Aperture recalibration The minimum aperture is the frequency range divided by the number of points in calibration and can be increased to 20 of the frequency range Group Delay Range lt 180 of phase change within the aperture Trace Memory A separate memory for each trace can be used to store measurement data for later display The trace data can be saved and recalled Trace Math Complex trace math operations of subtraction addition multiplication or division are provided Number of
34. r S A 5 kHz to 6 GHz 5 kHz to 20 GHz 9 kHz to 9 GHz 9 kHz to 20 GHz Options Description MS2026C 0002 MS2028C 0002 MS2036C 0002 MS2038C 0002 Time Domain includes DTF capability MS2026C 0005 MS2028C 0005 Power Monitor requires external detector MS2026C 0007 MS2028C 0007 MS2036C 0007 MS2038C 0007 Secure Data Operation MS2026C 0010 MS2028C 0010 MS2036C 0010 MS2038C 0010 Built in Bias Tee MS2028C 0011 MS2028C 0011 K f Test Port Connectors MS2026C 0015 MS2028C 0015 MS2046C 0015 MS2038C 0015 Vector Voltmeter MS2026C 0019 MS2028C 0019 MS2036C 0019 MS2038C 0019 High Accuracy Power Meter requires external USB sensor MS2036C 0025 MS2038C 0025 Interference Analysis 9 kHz to 9 20 GHz MS2036C 0027 MS2038C 0027 Channel Scanner 9 kHz to 9 20 GHz MS2026C 0031 MS2028C 0031 MS2036C 0031 MS2038C 0031 oar TBR requires GPS antenna MS2026C 0077 MS2028C 0077 MS2036C 0077 MS2038C 0077 Balanced Differential S Parameters 1 port MS2026C 0098 MS2028C 0098 MS2036C 0098 MS2038C 0098 Z 540 Calibration MS2026C 0099 MS2028C 0099 MS2036C 0099 MS2038C 0099 Premium Calibration MS2026C 0501 MS2028C 0501 MS2036C 0501 MS2038C 0501 Distance Domain included in Option 0002 Notes 1 Includes standard one year warranty and Certificate of Calibration and Conformance 2 Requires external antenna 2000 xxxx or 61532 Antenna Kit Recommend Option 0031 GPS MS202x 3xC Standard Accessories Ancillary Equipment 10580 00220 VNA Master User s Guide ODTE 1
35. rt Load 7 16 f 6 0 GHz 21 Ordering Information continued Manuals 10580 00305 10580 00306 10580 00289 10580 00244 10580 00240 10580 00215 VNA Master User s Guide VNA Master Programming Manual VNA Measurement Guide Spectrum Analyzer Measurement Guide Power Meter Measurement Guide ODTF 1 Optical Distance to Fault Module Quick Start Guide Related Literature Application Notes Waveguide Calibration Components and WG Coaxial Adapters Recommended waveguide calibration procedure requires two offset shorts and a precise load The waveguide coax adapter shown attached to test port 2 adapts the VNA Master test ports to the waveguide under test 11410 00206 Time Domain for Vector Network Analyzers 11410 00214 Reflectometer Measurements Revisited 11410 00270 What is Your Measurement Accuracy 11410 00373 Distance to Fault A 11410 00387 Primer on Vector Network Analysis 11410 00414 High Accuracy Power Meter PSN50 E 11410 00424 USB Power Sensor MA24106A kaa aa 11410 00483 Inline High Power Sensor MA24104A T 11410 00504 Microwave USB Power Sensor MA241x8A 11410 00531 Practical Tips on Making Vector Voltmeter VVM Phase Measurements using VNA Master Opt 15 11410 00472 Measuring Interference Part Number w cid g oa Precision u A a ic Compatible Flanges Adapter 23UM70 24UM70 26UM70 35UM70N 5 85 to 8 20 GHz WR137 WG14 CAR70 PAR70 UAR 70 PDR70 23UM84
36. t 1 7 GHz 60 dBc 70 dBc typical Third Order Intercept TOI 20 dBm tones 100 kHz apart 20 dBm Ref level 0 dB input attenuation preamp Off 2 4 GHz 15 dBm 50 MHz to 20 GHz 20 dBm typical P1dB lt 4 GHz 5 dBm typical 4 GHz to 20 GHz 12 dBm typical Second Harmonic Distortion 50 MHz 54 dBc lt 4 GHz 60 dBc typical gt 4 GHz 7 5 dBc typical VSWR gt 10 dB input attenuation lt 20 GHz 1 5 1 typical 10 VNA Performance Capabilities WS202x 3xC Measurement Parameters S44 S24 S29 S42 Saidi Secrets Sirci Scidi Number of Traces Four TR1 TR2 TR3 TR4 Trace Format Single Dual Tri Quad When used with Number of Traces overlays are possible including a Single Format with Four trace overlays Graph Types Log Magnitude SWR Phase Real Imaginary Group Delay Smith Chart Log Mag 2 1 Port Cable Loss Linear Polar Log Polar Real Impedance Imaginary Impedance Domains Frequency Domain Time Domain Distance Domain Frequency Start Frequency Stop Frequency Center Frequency Span Distance Start Distance Stop Distance Time Start Time Stop Time Frequency Sweep Type Linear Single Sweep Continuous Data Points 2 to 4001 arbitrary setting data points can be reduced without recalibration Limit Lines Upper Lower 10 segmented Upper 10 segmented Lower Test Limits Pass Fail for U
37. tance and vice versa Max distance is specified at 1020 meters 3345 ft The battery life of the ODTF 1 module matches the battery life of the VNA Master It can be charged with the same 40 168 R power supply so there is no need to maintain different power supplies Specifications Wavelength 1550 nm typical Frequency Range 1 GHz to GHz Fiber Type Single Mode Fiber SMF SAWA Resolution ieee 0 335 ft maximum or 150 n AF AF in MHz n Horizontal Range 1020 meter 3345 ft maximum or dp 1 Event Resolution Optical Dynamic 30 dB Range Optical Output Power 3 dBm typical Input and Output Ports RF Connector N m Max RF Input Power 5 dBm Optical Connector FC APC 18 Using a VNA Master equipped with Option 0002 or 0501 this ODTF 1 optical module translates the optical signals to the RF domain of the VNA to display fault locations in standard optical fibers General Specifications External DC Input 12 5 to 15 VDC 3A maximum Electromagnetic l Compatibility Meets European Community requirements for CE marking Temperature 0 to 50 C Operating Non operating 0 to 70 C recommended Size and Weight Size 15 7 5 37 18 6 cm 6 18 2 11 7 3 in Weight lt 1 kg 2 2 Ibs Master Software Tools and Remote Programming Each VNA Master ships with a versatile test assistant a copy of Anritsu s Master Software Tools for Windows 2000 XP
38. tch frequency response network analyzer dynamic range and connector repeatability For two port measurements transmission tracking crosstalk and physical load match termination were added Isolation calibration and an IF Bandwidth of 10 Hz is used S11 Magnitude 21 Magnitude Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz S11 Phase S21 Phase 100 109 Uncertainty 0 5 MHz to 20 MHz i Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz n Uncertainty 20 MHz to 3 GHz E Uncertainty 3 GHz to 6 GHz ban mmm Uncertainty 3 GHz to 6 GHz ah Uncertainty 6 GHz to 20 GHz w Uncertainty 6 GHz to 20 GHz 5 s x a 10 10 d s gt x k x x N Ss l 1 1 Ua 0 1 0 1 40 35 30 25 20 15 10 5 0 80 70 60 50 40 30 20 10 0 Spectrum Analyzer Functional Specifications Models MS2036 38
39. ty For two port measurements transmission tracking crosstalk and physical load match termination were added Isolation calibration and an IF Bandwidth of 10 Hz is used S11 Magnitude Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz 11 Phase Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz 0 1 0 01 100 0 1 21 Magnitude Uncertainty 0 5 MHz to 20 MHz Uncertainty 20 MHz to 3 GHz nu Uncertainty 3 GHz to 6 GHz sh Uncertainty 6 GHz to 20 GHz Fennen 80 70 60 50 40 30 20 10 0 S21 Phase Uncertainty 0 5 MHz to 20 MHz egg Uncertainty 20 MHz to 3 GHz ne Uncertainty 3 GHz to 6 GHz Uncertainty 6 GHz to 20 GHz wed n 80 70 60 50 40 30 20 10 0 Low Port Power OSLxx50 Calibration Components Corrected System Performance and Uncertainties MS202x 3xC Model with 12 term SOLT calibration including isolation using either OSLN50 amp OSLNF50 or OSLKS0 amp OSLKF
40. ve cables The MS202x 3xC solution is superior because the signal source is included internally precluding the need for an external signal generator CW Frequency Range 5 kHz to 20 GHz Measurement Display CW Table Twelve Entries Plus Reference Measurement Types Return Loss Insertion Measurement Format dB VSWR Impedance High Accuracy Power Meter Option 0019 Requires external USB power sensor Conduct precise measurements of CW and digitally modulated transmitters in the field using this VNA Master software mode with a separately purchased Anritsu USB power sensor After specifying the center frequency and zeroing the sensor to ensure accuracy at low power levels the software offers intuitive operation for absolute and relative readouts in dBm or Watts Option 0019 supports the USB Power Sensors in the following table USB Power Sensors Ordered separately PSN50 MA24104A MA24106A MA24108A MA24118A Frequency Range 50 MHz to 6 GHz 600 MHz to 4 GHz 50 MHz to 6 GHz 10 MHz to 8 GHz 10 MHz to 18 GHz Description A ee am ee High Accuracy Microwave Microwave gh Power Sensor RF Power Sensor USB Power Sensor USB Power Sensor Connector Type N male 50 Q Type N female Q Type N male 50 Q Type N male 50 Q Type N male 50 0 im YA eee e JJ aes l 1 uW to 200 mW 0 1 uW to 100 mW 0 1 uW to 100 mW VBW 100 Hz 100 Hz 100 Hz 50 kHz 50 kHz Weaswameni Tue re re T E Measurement Uncertainty 0 16 dB
41. z and 100 Hz to 20 GHz Block Diagram As shown in the following block diagram the VNA Master has a 2 port 2 path architecture that automatically measures four S parameters with a single connection Sa D Lah DUT B 9 Si Receiver Port 2 Coupler Port 1 Receiver Port 1 Bridge Coupler Reference Receiver Switch Bridge The above illustration is a simplified block diagram of VNA Master s 2 port 2 path architecture Uncertainty Curves for Round Trip Cable Loss Measurements 1 Port Round trip cable loss measurements are convenient for field personnel testing installed cable or waveguide runs This one port technique provides one way data after twice traversing the cable The following two sets of uncertainty curves less than 6 GHz on the left and greater than 6 GHz on the right present worst case uncertainty by DUT Match 1 e Log Mag when using VNA Master for one port cable loss measurements As a practical tip consider using a two port transmission measurement technique to improve upon these one port cable loss uncertainties VNA Master MS20xxC 5 kHz 6 GHz VNA Master MS20xxC 6 20 GHz One Port Cable Loss Log Mag 2 Uncertainty vs DUT Match One Port Cable Loss Log Mag 2 Uncertainty vs DUT Match Uncertainty dB Uncertainty dB
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