Real-Time Spectrum Analyzer
Contents
1. FM 1 of span PM 39 Pulse Measurements Displays Pulse Measurement Table Pulse Trace Measurements Pulse Width Pulse Peak Power On Off Ratio Pulse Ripple Pulse Repetition Interval Duty Cycle Pulse Pulse Phase Channel Power OBW EBW Frequency Deviation Minimum Pulse Width for Detection 20 samples 400 ns maximum sample rate Maximum Pulse Length 260 000 samples Inputs and Outputs Front Panel RF and Baseband Input Connector N type 50 Q and Q Inputs Option 03 BNC Type Preamp Power Connector Lemo 6 poles pin 1 NC pin 2 ID1 pin 3 ID2 pin 4 12V pin 5 GND pin 6 12 V Rear Panel Analog IF Output BNC Type Frequency 421 MHz 10 MHz REF OUT 50 Q BNC gt 3 dBm 10 MHz REF IN 50Q BNC 10 dBm to 6 dBm EXT TRIG IN Ext Trig BNC High 1 6 to 5 0 V Low 0 to 0 5 V GPIB Interface IEEE 488 2 Trigger Out 50 Q BNC High gt 2 0 V Low lt 0 4 V output current 1 mA Digital IQ Output Option 05 Connector Type MDR 3M 50 pin x 2 Data Output data 16 bit LVDS Q data 16 bit LVDS Control Output Clock LVDS MAX 51 2 MHz Control Input IQ data output enabled connecting GND enables output of IQ data Clock Rising Edge to Data Transition Time hold time gt 5 ns Data Transition to Clock Rising Edge setup time gt 5ns Note Data from Option 05 requires application of correction factors to IQ data to achieve similar RF2. s Republic of China 86 10 6235 1230 Poland 41 52 675 3777 Portugal 80 08 12370 Republic of Korea 82 2 6917 5000 Russia amp CIS 7 495 7484900 South Africa 27 11 206 8360 Spain 34 901 988 054 Sweden 020 08 80371 Switzenand 41 52 675 3777 Taiwan 886 2 2722 9622 United Kingdom amp Eire 44 0 1344 392400 USA 1 800 426 2200 For other areas contact Tektronix Inc at 1 503 627 7111 Updated 12 November 2007 Languages Opt LO English Users Programmers Manual Opt L5 J apanese Users Programmers Manual Opt L10 Russian Manual For Further Information Tektronix maintains a comprehensive constantly expanding collection of application notes technical briefs and other resources to help engineers working on the cutting edge of technology Please visit www tektronix com CE avm amp GPE Product s are manufactured in ISO registered facilities Product s complies with IEEE Standard 488 1 1987 RS 232 C and with Tektronix Standard Codes and Formats Copyright 2007 Tektronix All rights reserved Tektronix products are covered by U S and foreign patents issued and pending Information in this publication supersedes that in all previously published material Specification and price change privileges reserved TEKTRONIX and TEK are registered trademarks of Tektronix Inc All other trade names refer enced are the service marks trademarks or registered trademarks of their respective companies
3. 12 07 HB WOW 37W 21129 0 Tektronix Enabling Innovation
4. Real Time Spectrum Analyzer gt RSA3408B gt Ordering Information RSA3408B Real Time Spectrum Analyzer DC 8 GHz Includes User Manual Programmer s Manual On CD Power Cord BNC N Adapter USB Keyboard USB Mouse Front Cover Options Description Opt 1A Preamp External 0 1 to 3 GHz 20 dB Gain 6 5 dB NF Opt 02 65 5 Msample Deep Memory Frequency Mask Trigger Opt 03 1Q Differential IQ inputs Opt 05 Digital IQ Output Opt 06 Removable HDD 40 GB Opt 21 Advanced Measurements Suite GP Mod Analysis RFID Sig Source Opt 24 GSM EDGE Analysis Opt 25 CDMA 1X Forward Reverse Link Analysis Opt 26 1X EVDO Forward Reverse Link Analysis Opt 28 TD SCDMA Analysis Opt 29 WLAN 802 11a b g n Analysis Opt 30 3GPP Release 99 W CDMA and Release 5 UL DL HSDPA Analysis Opt 40 3GPP Release 6 HSUPA UL DL Analysis requires opt 30 Real Time Spectrum Analyzers www tektronix com rsa 7 Real Time Spectrum Analyzer gt RSA3408B Application Software and Accessories RSA IQWIMAX LitePoint IQsignal Software for Tektronix Real Time Spectrum Analyzers Extra Hard Drive Extra 40 GB Removable Hard Drive for use with Opt 06 Order part number 065 0802 007 RSA3KR Rackmount Rackmount RSA33 34B Series Real Time Spectrum Analyzers customer installable RTPA2A Adapter for use with TekConnect Active and Passive Probes E and H Near field probes For EMI trou blesh
5. 325 1 285 20 us 20 ns 36 MHz 51 2 MS s 0 32 5 1 28 s 20 us 20 ns 20 MHz 25 6 MS z 0 64 s 2 56 S 40 us 40 ns 10 MHz 12 8 MS s 1 28 s 5125 80 us 80 ns 5 MHz 6 4 MS s 2 56 5 10 24 s 160 us 160 ns 2 MHz 2 56 MS s 6 45 25 6 S 400 us 400 ns 1 MHz 1 28 MS s 1 28 s Sle S 800 us 800 ns 500 kHz 640 kS s 25 6 5 102 4 s 1 6 ms 1 6 Us 200 kHz 256 kS s 64 5 256 5 4 0 ms 4 0 us 100 kHz 128 kS s 128 s 512s 8 0 ms 8 0 Us 50 kHz 64 kS s 256 S 1024 s 16 ms 16 us 20 kHz 25 6 kS s 640s 2560 5 40 ms 40 us 10 kHz 12 8 kS s 1280 s 5120s 80 ms 80 Us 5 kHz 6 4 kS s 2560 5 10240 s 160 ms 160 us 2 kHz 2 56 kS s 6400 s 25600 s 400 ms 400 us 1 kHz 1 28 kS s 12800 s 51200 s 800 ms 800 us 500 Hz 640 S s 25600 s 102400 s 1 65 1 6 ms 200 Hz 256 S s 64000 s 256000 s 4 05 4 ms 100 Hz 128 S s 128000 s 512000 s 8 0 5 8 ms Analysis related Standard Measurement Functions by Mode Spectrum Analyzer Mode Channel Power Adjacent Channel Power Occupied Bandwidth Emission Bandwidth Carrier to Noise Ratio Carrier Frequency Spurious Search dBm Hz Marker dBc Hz Marker RTSA Mode Channel Power Adjacent Channel Power Occupied Bandwidth Emission Bandwidth Carrier to Noise Ratio Carrier Frequency Spurious Search dBm Hz Marker dBc Hz Marker RTSA with Zoom dBm Hz Marker dBc Hz Marker DPX dBm Hz Marker dBc Hz Marker Analog Mod Analysis IQ vs Time AM Depth FM Deviation PM Pulse Spectrum Time IQ vs Time Power vs Time Frequency vs Time CCDF Cres
6. BW 0 1 referenced to Noise BW Minimum Settable Spectrum Analysis RBW vs Span Extended Resolution ON Frequency Span RBW gt 2 GHz 100 kHz gt 1 GHz to 2 GHz 50 kHz gt 500 MHz to 1 GHz 20 kHz gt 20 MHz to 500 MHz 10 kHz gt 500 kHz to 20 MHz 1 kHz gt 200 kHz to 500 kHz 500 Hz gt 100 kHz to 200 kHz 200 Hz gt 50 kHz to 100 kHz 100 Hz gt 20 kHz to 50 kHz 50 Hz gt 10 kHz to 20 kHz 20 Hz gt 5 kHz to 10 kHz 10 kHz gt 2 kHz to 5 kHz 5 Hz gt 1 kHz to 2 kHz 2 Hz gt 100 Hz to 1 kHz 1 Hz Frequency Resolution RTSA Mode and FFT Analysis in Spectrum Mode Noise Bandwidth Range RTSA Mode 0 250545 Hz to 100 218 kHz FFT Performance Spectrum Mode Number of Samples per frame 64 to 8192 65 536 samples per frame extended resolution Window types Rectangular Parzen Welch Sine Lobe Hanning Sine Cubed Sine to the 4th Hamming Blackman Rosenfield Blackman Harris 3A Blackman Harris 3B Blackman Harris 4A Blackman Harris 4B FlatTop DPX Digital Phosphor Spectrum Processing Spectrum Processing Rate 48 000 s span independent Number of Traces 2 Trace Types Color graded bit map Peak Max Hold Peak Min Hold Average Minimum Signal Duration for 100 Probability of Intercept 31 us Span Range 100 Hz to 36 MHz Resolution BW Accuracy 7 S ta bility Residual FM lt 2 Hz p p typical Real Time Spectrum Analyzer gt RSA3408B Resolution BW Range vs Span DPX Acqui
7. Screen Size User Interface 8 4 Inch Screen Keyboard Mouse Front Panel Interface Ports GPIB LAN USB 2 GPIB LAN USB 2 GPIB LAN USB 4 Storage Media Internal HDD FDD Internal HDD FDD Internal HDD DVD RW Optional Removable HDD Optional Removable HDD IQ Inputs Option 20 MHz BW Differential Inputs 40 MHz BW Differential Inputs Not Available IF Outputs Not Available Standard 421 MHz 40 MHz BW Option 500 MHz 120 MHz BW Digital and Q Output Not Available Up to 36 MHz BW Up to 110 MHz BW fully Option Bandwidth corrected amplitude and phase Preamplifier Option External Option External Option Internal 0 1 to 3 GHz 20 dB Gain nominal 0 1 to 3 GHz 20 dB Gain nominal 0 01 to 3 GHz 30 dB Gain nominal Trigger related Trigger Modes Free run Triggered Single or Continuous Trigger Event Source RF Input External Trigger Input Trigger Types Power Level Frequency Mask Opt 02 Trigger Position settable from 0 to 100 of total acquisition length Power Level Trigger Level Range 0 dBfs to 40 dBfs from reference level Trigger Bandwidth Range 100 Hz to 36 MHz equal to selected span Trigger Position Display Timing Uncertainty Power and External Trigger 2 sample points xl dBfs dB relative to full scale Frequency Mask Trigger Option 02 Mask Shape User defined Mask Point Horizontal Resolution 1 bin Level Range 0 to 60 dBfs at 10 dB div vertical scale Level Accuracy Equal
8. performance to RSA3408A Side Panel LAN Interface Ethernet 10 100Base T Serial Interface USB 1 1 two ports VGA Output VGA compatible 15 DSUB Floppy Disk Drive 3 5 inch 1 44 MB General Characteristics Temperature Range Operating 10 C to 402 C Storage 20 C to 602C Warm up Time 20 minutes Operating Altitude Operating up to 3000 m Approximately 10 000 ft Non operating up to 12 190 m 40 000 ft Safety and Electromagnetic Compatibility UL 61010 1 CSA C22 2 No 61010 1 04 IEC61010 second edition Self Declaration Low Voltage Directive 2006 95 EC EN61010 1 2001 Safety requirements for electrical equipment for Measurement control and laboratory use EC Council EMC Directive 2004 108 EEC EN61326 1997 Product Family Standard for Electrical Equipment for Measurement Control and Laboratory Use EMC Requirements Radiocommunications Act 1992 EMC Regulatory Arrangements AS NZS CISPR 11 Industrial Scientific and Medical Equipment Power Requirements 90 VAC to 264 VAC 47 Hz to 63 Hz Power Consumption 400 VA maximum Data Storage Internal HDD USB ports FDD Removable HDD Opt 06 Weight with all options 20 kg 44 Ibs Dimensions mm in Without bumpers and feet 215 mm H x 425 mm D x 425 mm W With bumpers and feet 238 mm H x 470 mm D x 445 mm W Calibration Interval One year Warranty One year GPIB SCPlI compatible IEEE488 2 compliant
9. Mode Display Traces Detectors and Functions Traces Two traces Detector Max Min Max Min Trace Functions Normal Average Max Hold Min Hold Spectrum Trace Length 801 points Auto mode RF Performance Frequency Frequency Range DC to 8 GHz Initial Center Frequency Setting Accuracy within 10 after 10 minute warm up Center Frequency Setting Resolution 0 1 Hz Frequency Marker Readout Accuracy lt 40 MHz REx MF 0 001 x Span 0 2 Hz gt 40 MHz RE x MF 0 001 x Span 2 Hz Note RE Reference Frequency Error MF Marker Frequency Hz Span Accuracy 0 3 Auto mode Reference Frequency Aging per Day 1 x 10 after 30 days of operation Aging per Year 1 x 10 after 30 days of operation Temperature Drift 1 x 107 10 to 40 C Total Frequency Error 2 x 107 within one year after calibration Reference Output Level gt 0 dBm External Reference Input Frequency 10 MHz External Reference Input Level Range 10 dBm to 6 dBm Spurious level must be lt 80 dBc within 100 kHz offset Resolution Bandwidth Spectrum Analysis Mode Resolution Bandwidth Range 1 Hz to 10 MHz auto coupled or user selected arbitrary Resolution Bandwidth Shape 1 Hz to 10 MHz Approximately Gaussian shape factor lt 5 1 60 3 dB typical Rectangular Nyquist and Root Nyquist shapes may also be selected Resolution Bandwidth Accuracy Within 6 refer enced to 3 dB
10. Real Time Spectrum Analyzer gt RSA3408B a i CW L ke co _ cc Co oS fb RSA3408B DC to 8 GHz Real Time Spectrum Analyzer with DPX The RSA3408B makes it easy for you to discover design issues that other Signal analyzers miss The revolutionary DPX spectrum display offers an intu itive live color view of signal transients changing over time in the frequency domain giving you immediate confi dence in the stability of your design or instantly displaying a fault when it occurs This live display of transients is impossible with other signal analyzers Once a problem is discovered with DPX the RSA3408B Real Time Spectrum Analyzer RTSA can be set to trigger on the event in the frequency domain capture a continuous time record of changing RF events and perform time correlated analysis in all domains You get the functionality of a high performance vector signal analyzer a Spectrum analyzer and the unique discover trigger capture analyze Capability of a Real Time Spectrum Analyzer all in a single package P Revolutionary DPX display discovers what other analyzers miss Here a WLAN Access Point and Terminal are seen transmitting at different power levels Frequency of occurrence is color graded indicating that the red AP is on more often than the blue terminal gt Applications RF Debug of Components Modules or Systems Find Interference and Unknown Signals in Spectrum Mon
11. ers Real Time Spectrum Analyzer models to meet a range of needs for frequency coverage real time bandwidth and dynamic range The table below summarizes the differences between the models Full details of the RSA3300B and RSA6100A models are available in separate data sheets Specification or Feature RSA3303 08B RSA3408B RSA6106 14A Freq Range DC to 3 0 8 0 GHz DC to 8 0 GHz 9 kHz to 6 2 14 0 GHz Max Capture BW 15 MHz 36 MHz 40 MHz standard 110 MHz Option Triggers Standard Level Free Run External Level Free Run External Level Free Run External 2 Line Triggers Optional Frequency Mask Frequency Mask Frequency Mask 15 MHz BW 36 MHz BW 40 110 MHz BW Digital Phosphor DPX Spectrum Update gt 48 000 Spectrums sec gt 48 000 Spectrums sec gt 48 000 Spectrums sec 15 MHz Max Span Min Sig 36 MHz Max Span Min Sig 40 110 MHz Max Span Min Sig Duration 41 us Duration 31 us Duration 31 24 us Memory 64M 256MB 64M 256MB 256M 1 GB Spurious Free Dynamic Range 70 dBc 15 MHz 73 dBc 36 MHz 73 dBc 110 MHz at Max Capture BW Rate Max Span and Min Signal Duration DANL 1 GHz 150 dBm Hz 151 dBm Hz 149 dBm Hz ACLR 3GPP 1 DPCH 66 dB 72 dB 79 dB SSB Phase Noise at Specified 10 kHz 108 10 kHz 112 10 kHz 110 Offsets at 1 GHz dBc Hz Typical 1 MHz 133 1 MHz 135 1 MHz 134 10 MHz 136 10 MHz 140 10 MHz 142 10 4 Inch Touch Screen Keyboard Mouse Front Panel 8 4 Inch Screen Keyboard Mouse Front Panel
12. f modulation analysis options are available including the UMTS W CDMA Family 3GPP HSUPA and HSDPA WiMax Fixed and Mobile and WLAN 802 11a b g n General purpose modulation analysis includes support for M QAMs QPSKs and the latest RFID standards including ISO 18000 7 and 15963 plus signal source analysis including phase noise jitter and frequency settling time See specifica tions for details on measurement options Accessories The RSA3408B is your best tool for both troubleshooting and conformance testing Here a mobile WiMax analysis is performed using RSA IQWIMAX software Powerful pulsed signal analysis for characterization of Radar and other pulsed systems The RSA3408B automatically measures pulse width rep rate pulse power and 7 other pulse parameters A wide range of Tektronix active and passive probes are supported with the RTPA2A probe adapter for your RSA3408B in circuit troubleshooting applications Probe calibration factors are transferred via USB for calibrated measurements TekConnect Frequency Range Type Probe Supported P7225 2 5 GHz Active P7240 4 GHz Active P7260 6 GHz Active P7330 he Ohiz Differential P7350 5 GHz Differential P7350SMA 5 GHz Differential SMA P7380 8 GHz Z Active Differential P7380SMA 8 GHz Differential SMA P7313 gt 12 5 GHz Z Active Differential com rsa Real Time Spectrum Analyzer gt RSA3408B RSA3408B The mid range member of the RTSA Family Tektronix off
13. itoring and Management Analyze Time variant Behavior of Standards based and Other Radio Systems Characterize Radar and Pulsed RF Signals Powerful Vector Signal Analyzer Functionality Signal Source Analysis and RFID standards Support Broad Range of Standard specific Options for Analysis of 3GPP 3GPP2 WiMax and WLAN Systems gt Features amp Benefits Discover DPX Spectrum Processing Provides an Intuitive Understanding of Time varying RF Signals with Color Graded Displays Based on Frequency of Occurrence Revolutionary DPX Displays Transients with gt 48 000 Spectrum Measurements per Second Trigger Tektronix Exclusive Frequency Mask Trigger FMT Offers Easy Event based Capture of Transient RF Signals by Triggering on Any Change in the Frequency Domain Capture DC to 8 GHz Frequency Range All Signals in Spans Up to 36 MHz are Captured into Memory Up to 1 28 s Acquisition Length at 36 MHz Bandwidth Provides Complete Analysis Over Time Without Making Multiple Acquisitions Fully Preselected and Image free at all Times For Full Dynamic Range at any Capture Bandwidth Interfaces with TekC onnect Probes for RF Probing Differential IQ Input Available Analyze Extensive Time correlated Multidomain Displays Connect Problems in Time Frequency Phase and Amplitude for Quicker Understanding of Cause and Effect when Troubleshooting Power Measurements and Signal Statistics Help You Characterize Co
14. kHz to 100 MHz 151 dBm Hz gt 100 MHz to 3 GHz 150 dBm Hz gt 3 GHz to 8 GHz 142 dBm Hz Preamp Opt 01A Performance Typical Frequency Range 100 MHz to 3 GHz 20 dB gain 6 5 dB Noise Figure at 2 GHz Residual Response Input Terminated Ref Level 30 dBm RBW 100 kHz Frequency and Span Specification 1 MHz to 40 MHz Span 20 MHz 93 dBm 0 5 GHz to 3 5 GHz Span 3 GHz 90 dBm 3 5 GHz to 8 GHz Span 3 GHz 85 dBm Spurious Response with Signal Signal at Center Frequency Soan 10 MHz Ref Lvl 0 dBm RBW 50 kHz Signal Level 5 dBm Signal Frequency Spurious Response 25 MHz 73 dBc 2 GHz 73 dBc 5 GHz 70 dBc 5 GHz 70 dBc 6 Real Time Spectrum Analyzers www tektronix com rsa Adjacent Channel Leakage Ratio Dynamic Range Typical CF 2 1425 Ghz with test signal amplitude adjusted for optimum performance Signal Type ACLR Measurement Mode 3GPP Downlink 1 DPCH Adjacent Alternate Real time Spec 66 dB 68 dB Stepped Typical 70 dB 72 dB IF Frequency Response and IF Phase Linearity 400 MHz Center Frequency 36 6 MHz BW Typical Amplitude 0 3 dB Phase 2 52 Analog Modulation Analysis Displays Amplitude vs Time Frequency vs Time Phase vs Time Measurements AM AM AM Total AM Modulation Depth FM peak peak peak to peak peak to peak 2 rms PM Phase at marker Accuracy 10 dBfs signal input at CF typical AM 2 modulation depth 10 to 60
15. lution dB units 0 01 dB Marker Readout Resolution Volts units 0 001 pV Reference Level Setting Range RF 50 dBm to 30 dBm 1 dB step Baseband 30 dBm to 20 dBm 5 dB step IQ Inputs Option 03 10 dBm to 20 dBm 5 dB step Level Linearity over Display Range 0 2 dB spec 0 12 dB typical Frequency Response 20 2C to 30 C Att 10 dB Frequency Spec Typical 100 kHz to 40 MHz 0 5 dB 0 3 dB gt 40 MHz to 3 5 GHz 1 2 dB 0 5 dB gt 3 5 GHz to 6 5 GHz 1 7 dB 1 0 dB gt 6 5 GHz to 8 GHz 1 7 dB 1 0 dB Amplitude Accuracy 20 dBm signal O dB ATT 20 2C to 30 2C Absolute Amplitude Accuracy at Calibration Point RF 100 MHz 0 5 dB Baseband 25 MHz 0 3 dB Input Attenuator Setting Uncertainty 0 2 dB Reference Level Accuracy 10 dBm to 50 dBm at 100 MHz 0 2 dB VSWR Att 10 dB Preamp OFF Typical lt 1 4 1 300 kHz to 40 MHz lt 1 3 1 40 MHz to 3 GHz lt 1 4 1 3 GHz to 8 GHz Distortion 3 Order Inter modulation Distortion Total Signal Power 7 dBm Ref Level 5 dBm Attenuator adjusted for optimum performance Frequency 3rd order IM 2 0 GHz lt 78 dBc 2nd Harmonic Distortion 30 dBm tone at input mixer Frequency 2 Harmonic Distortion Typical 10 MHz to 1 4 GHz lt 65 dBc 1 4 GHz to 1 75 GHz lt 70 dBc Displayed Average Noise Level input terminated Frequency Specification 1 kHz to 10 kHz 144 dBm Hz gt 10
16. mponents and Systems ACLR Power vs Time CCDF PDF Pulse Measurements Including Pulse Width Duty Cycle and Pulse to Pulse Phase Offline analysis available with RSAVu Software Tektronix Enabling Innovation Real Time Spectrum Analyzer gt RSA3408B gt Characteristics Discover The DPX spectrum processing engine brings live analysis of transient events to spectrum analyzers Performing more than 48 000 frequency transforms per second transients as brief as 31 us are displayed in the frequency domain This is orders of magnitude faster than conventional analysis tech niques Events are color coded by rate of occurrence onto a bitmapped display providing unparalleled insight into transient signal behavior Trigger The Tektronix Frequency Mask Trigger FMT Opt 02 makes it easy to trigger on signals in the frequency domain and capture transient signals in bandwidths up to a 36 MHz An FMT is simply configured to monitor all changes in frequency occupancy within the capture bandwidth The Power Trigger working in any capture bandwidth fires at the instant in time when the RF input signal crosses a user set power threshold An external trigger is available for synchronization to test system events Capture Unlike many SA VSA combination instruments the RSA3408B is fully preselected at all times for spurious and image rejection in any combination of capture bandwidth and frequency Capture of small signals in the
17. ooting Order part number 119 4146 00 Preamp External 0 1 to 3 GHz 20 dB Gain 6 5 dB NF Order part number 672 A900 00 International Power Plugs Opt AO North America Opt Al Universal EURO Opt A2 United Kingdom Opt A3 Australia Opt A4 240V North America Opt A5 Switzerland Opt A6 J apan Opt A10 China Opt A11 India Opt A99 No Power Cord or AC Adapter Manuals Order Number Additional User Manual Paper English 071 2364 00 Additional User Manual Paper J apanese 071 2365 00 Service Manual Paper English 071 2366 00 Operator Manual Paper Russian 071 2369 00 Service Options Opt CA1 Provides a single calibration event or coverage for the designated calibration interval whichever comes first Opt C3 Calibration Service 3 Years Opt C5 Calibration Service 5 Years Opt D1 Calibration Data Report Opt D3 Calibration Data Report 3 Years with Option C3 Opt D5 Calibration Data Report 5 Years with Option C5 Opt R3 Repair Service 3 Years including warranty Opt R5 Repair Service 5 Years including warranty Contact Tektronix ASEAN Australasia 65 6356 3900 Austria 41 52 675 3777 Balkans Israel South Africa and other ISE Countries 41 52 675 3777 Belgium 07 81 60166 Brazil amp South America 11 40669400 Canada 1 800 661 5625 Upgrades Central East Europe Ukraine and the Baltics 41 52 675 3777 RSA3S4BUP Central Eu
18. presence of large signals is enabled with 73 dB Spurious Free Dynamic Range SFDR and class leading image rejection in all capture bandwidths Capture once make multiple meas urements without recapturing Record lengths vary depending upon the selected capture bandwidth up to 1 28 seconds at 36 MHz 51 2 seconds at 1 MHz or 1 42 hours at 10 kHz bandwidth with FMT Deep Memory Option 02 Analyze The RSA3408B offers analysis capabilities that advance productivity for engineers working on components or in RF system design integration and performance verification or operations engineers working in network or spectrum management gt Spectrograms display both frequency and amplitude changes over time Measurements are Time correlated across the frequency phase amplitude and modulation domains gt Analog modulation analysis and pulse analysis are standard 2 Real Time Spectrum Analyzers www tektronix P FMT and Spectrogram of WLAN Bluetooth A n Th Pore pesy Frequency Mask Trigger was set to monitor the frequency domain for any changes in the spectrum and it triggered on transient interference with a WLAN signal The spec trogram shows the time relationship between the WLAN and transient signals and the spectrum display shows what was happening at the precise moment the inter fering signal was present in the band FMT is an essential tool for separating known Signals from unwanted interference gt A wealth o
19. rope amp Greece 41 52 675 3777 Option Denmark 45 80 88 1401 Opt 1A Preamp External 0 1 to 3 GHz 20 dB Gain 6 5 dB NF customer installable Opt 02 65 5 MSample Deep Memory Frequency Mask Trigger customer installable Opt 03 IQ Differential IQ inputs customer installable Opt 05 Digital IQ Output customer installable Opt 06 Removable HDD Opt 21 Advanced Measurements Suite customer installable Opt 24 GSM EDGE Analysis customer instal lable Opt 25 CDMA 1X Forward Reverse Link Analysis customer installable Opt 26 1X EVDO Forward Reverse Link Analysis customer installable Opt 28 TD SCDMA Analysis customer installable Opt 29 WLAN 802 11a b g n Analysis customer installable Opt 30 3GPP Release 99 W CDMA and Release 5 W CDMA UL DL Analysis customer installable Opt 40 3GPP Release 6 HSUPA UL DL Analysis requires opt 30 customer installable Opt IF Installation labor for RSA34BUPxx no cali bration required Opt IFC Installation labor for RSA34BUPxx with calibration Finland 41 52 675 3777 France 33 0 1 69 86 81 81 Germany 49 221 94 77 400 Hong Kong 852 2585 6688 India 91 80 22275577 Italy 39 02 25086 1 Japan 81 3 6714 3010 Luxembourg 44 0 1344 392400 Mexico Central America amp Caribbean 52 55 5424700 Middle East Asia and North Africa 41 52 675 3777 The Netherlands 090 02 021797 Norway 800 16098 People
20. sition Bandwidth RBW Min 36 MHz 300 kHz Phase Noise Sidebands dBc Hz at Specified Center Frequency CF Offset CF 1GHz Spec Typical 1 kHz 105 107 10 kHz 110 112 100 kHz 112 115 1 MHz 132 135 5 MHz 138 140 10 MHz 138 140 20 MHz 200 kHz 10 MHz 100 kHz 5 MHz 30 kHz 2 MHz 20 kHz 1 MHz 10 kHz 500 kHz 5 kHz 200 kHz 2 kHz 100 kHz 1 kHz 50 kHz 500 Hz 20 kHz 200 Hz 10 kHz 100 Hz 5 kHz 30 Hz 2 kHz 20 Hz 1 kHz 10 Hz 500 Hz 3 Hz 200 Hz 2 Hz 100 Hz 1 Hz CF 2 GHz CF 6 GHz Spec Typical Spec Typical 103 105 97 99 109 111 106 108 112 115 111 113 132 135 132 134 138 140 ayy 139 138 140 ley 139 Real Time Spectrum Analyzers www tektronix com rsa 5 Real Time Spectrum Analyzer gt RSA3408B Amplitude Specifications excluding mismatch error Measurement Range Displayed Average Noise Level to Maximum Safe Input Input Attenuator Range RF Baseband input 0 dB to 55 dB 5 dB step IQ Input Opt 03 0 dB to 35 dB 5 dB step Maximum Safe Input Level Average Continuous RF Band RF ATT 10 dB 30 dBm MAX DC Voltage RF Band 0 2 V Baseband 5 V IQ input Opt 03 5 V Maximum Measurable Input Level Average Continuous RF ATT Auto 30 dBm Log Display Scale 10 wdB div tol0 dB div Display Divisions 10 divisions Display Units dBm dBuv Volts Watts Hz for Frequency Measurements and Degrees for Phase Measurements Marker Readout Reso
21. t Factor Pulse Pulse Width Peak Power Ripple Pulse Repetition Interval Duty Cycle Pulse to Pulse Phase Frequency Deviation Channel Power OBW EBW Optional Measurement Functions Standards based and Offline Analysis General Purpose Digital Modulation Analysis Option 21 Mod Formats BPSK QPSK 71 4 DQPSK OQPSK 8PSK 16 32 64 128 256 QAM GMSK GFSK C4FM 2ASK 2FSK Standard Support Bluetooth TETRA P25 802 15 4 EVM RMS Peak EVM vs Time Magnitude Error RMS Peak Mag Error vs Time Phase Error RMS Peak Phase Error vs Time Origin Offset Frequency Error Gain Imbalance Quadrature Error Rho p Constellation Symbol Table PDF Probability of Occurrence vs Power Level AM AM AM PM 1 dB Compression Crest Factor 2 See separate data sheets for specifications 4 Real Time Spectrum Analyzers RFID Analysis Included in Option 21 ISO IEC 18000 Part 4 Mode 1 ISO IEC 18000 Part 6 Type A B C ISO IEC 18092 424k ISO IEC 14443 Part 2 Type A B EPC Global Generation 1 Class 0 Class 1 ISO IEC 18000 7 ISA IEC 15693 Maximum ERP Spurious Power on and Power down Timing and Settling RF Envelope On Width Off Width and Period Constellation Modulation Depth Modulation Index Symbol Rate Bit Rate Tari Data 0 Tari Data 1 Eye Diagram Symbol Table OBW EBW FSK Envelope Signal Source Analysis Included in Option 21 Integrated Phase Noise Random J itter Periodic J itter Set
22. tling Time Spurious Real Time Phase Noise vs Time Noise 0 gram GSM EDGE Option 24 Modulation Accuracy Mean Power Power vs Time Spectrum due to Modulation Spectrum due to Switching CDMA2000 1X Forward Reverse Link Option 25 Channel Power ACPR Spectrum Emission Mask CCDF Modulation Accuracy Code Domain Power 1XEV DO Forward Reverse Link Option 26 Channel Power ACPR Spectrum Emission Mask CCDF Modulation Accuracy Code Domain Power TD SCDMA Option 28 Channel Power ACLR CCDF Modulation Accuracy Code Domain Power 802 11 a b g n Option 29 Transmit Power Spectrum Mask Modulation Accuracy OFDM Flatness and Linearity 802 11n Transfer Function Transfogram Delay Profile Delayogram Transfer Efficiency 3GPP W CDMA Release 5 HSDPA Option 30 Channel Power ACLR Spectrum Emission Mask CCDF Modulation Accuracy Code Domain Power PRACH ACK NACK Analysis www tektronix com rsa 3GPP Release 6 HSUPA Option 40 Channel Power ACLR Spectrum Emission Mask CCDF Modulation Accuracy Code Domain Power Phase Discontinuity E RGCH E HICH E AGCH Analysis RSA IQWiM ax Analysis Software Spectrum Mask Spectral Flatness Symbol Constellation Pilot Phase Error Frequency Error EVM vs Carrier EVM vs Time Offline Analysis RSAvVu All measurements that can be performed on a stored waveform can be performed with RSAVu offline analysis software except TD SCDMA Option 28 Spectrum
23. to reference level accuracy frequency response over 0 to 60 dBfs range Span Range Start Frequency 40 MHz 100 Hz to 36 MHz Start Frequency lt 40 MHz 100 Hz to 40 MHz Minimum Event Duration for 100 Probability of Trigger 20 us at maximum acquisition bandwidth Events lasting less than minimum event duration specification will result in degraded Frequency Mask Trigger level accuracy Trigger Position Uncertainty 2 Frames For Span 36 MHz uncertainty 40 us External Trigger Level Range 1 5 V to 1 5 V Level Setting Resolution 0 1 V Trigger Position Timing Uncertainty 2 Samples Input Impedance gt 2K Q nominal Trigger Output Voltage HIGH 2 0 V LOW lt 0 4 V Output Current lt 1 mA Capture related Real Time Acquisition Bandwidth maximum Start Frequency 40 MHz RF 36 MHz Start Frequency lt 40 MHz Baseband 40 MHz IQ Inputs Option 03 40 MHz A D Converter 102 4 MS s 14 bit Acquisition Memory Size 64 MB 16 4 MSamples Standard 256 MB 65 6 MSamples Opt 02 Minimum Acquisition Length 1024 Samples Acquisition Length Setting Resolution 1024 Samples Real Time Spectrum Analyzers www tektronix com rsa 3 Real Time Spectrum Analyzer gt RSA3408B Memory Depth time and Maximum Time Resolution Span Sample Rate Record Length Record Length Spectrum Frame Time Resolution Forland Q Standard Option 02 Time land Q 40 MHz baseband 51 2 MS s 0
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