Real-Time Spectrum Analyzers RSA3408A
Contents
1. 52 675 3777 Central Europe amp Greece 41 52 675 3777 Denmark 45 80 88 1401 Finland 41 52 675 3777 France amp North Africa 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 56666 333 Middle East Asia and North Africa 41 52 675 3777 The Netherlands 090 02 021797 Norway 800 16098 People s Republic of China 86 10 6235 1230 Poland 41 52 675 3777 Portugal 80 08 12370 Republic of Korea 82 2 528 5299 Russia amp CIS 7 095 775 1064 South Africa 27 11 254 8360 Spain 34 901 988 054 Sweden 020 08 80371 Switzerland 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 15 J une 2005 Our most up to date product information is available at www tektronix com Product s are manufactured zz 150 9001 GPIB in ISO registered facilities C Me amp aa Product s complies with IEEE Standard 488 2 1987 with SCPI conformance Copyright 2005 Tektronix Inc All rights reserved Tektronix products are covered by U S and foreign patents issued and pending Information in this publi cation supersedes that in all previously published material Specification and price change privileges reserved TEKTRONIX and TEK are regis2. MHz Span Provides Complete Analysis Over Time Without Making Multiple Acquisitions Analyze Gain a Unique Understanding of Time varying RF Signals Enabling Engineers to View Signal Instabilities and Transients that They Never Knew Existed 802 11a b g Measurement Suite Comprehensive Pulsed Analysis Suite General Purpose Digital Modulation Analysis Spectrum Analyzer View for Traditional Wide Band Signal Analysis Broad range of 3G Measurement Capabilities Applications System Integration of WLAN 3G and Other RF Systems Radar and Pulsed RF Signal Characterization RFID System Development and Troubleshooting Characterization of Interfering or Unknown Signals in Spectrum Monitoring and Surveillance Troubleshooting RF Components Modules or Systems Getting Answers to Elusive EMI Diagnostic Problems 1 40 MHz bandwidth at baseband Tektronix 7 Enabling Innovation Real Time Spectrum Analyzers gt RSA3408A Trigger Unparalleled 36 MHz bandwidth Frequency Mask Trigger FMT makes it easy to capture transient low duty cycle or other difficult to capture signals An FMT mask is simply configured using a mouse and it can be set up for one or many frequency bands within an analysis span FMT can monitor for signal appearance disappear ance or change in amplitude frequency bandwidth spectral shape and more all while the instrument user is working on another task A Power
3. Trigger related Trigger Mode Free run triggered by acquisition Triggered triggered by event Single or Continuous Trigger Event Source Power span BW Frequency Mask Opt 02 External Pre Post Trigger Setting Trigger position settable within 0 to 100 of total acquisition length Trigger Marker Position Timing Uncertainty Power and External Trigger 2 sample points Power Trigger Level Range 0 dBfs to 40 dBfs 1 dBfs dB relative to full scale Frequency Mask Trigger Opt 02 Mask Resolution 1 bin Level Range 0 dBfs to 60 dBfs at 10 dB div vertical scale Bandwidth Up to 36 MHz Start frequency gt 40 MHz Up to 40 MHz Start frequency lt 40 MHz Real Time Event Detection Bandwidth 1024 point FFT 100 probability of event detection at all real time spans Minimum Event Duration 1 frame time events lasting less than one frame time will result in degraded Freguency Mask Trigger accuracy Mask Shape User defined Minimum Horizontal Mask Setting Resolution lt 0 2 of span Uncertainty 2 frames 4 Real Time Spectrum Analyzer www tektronix com rsa External Trigger Threshold Voltage 1 5 V to 1 5 V Threshold Voltage Setting Resolution 0 1 V Input Impedance gt 2 kQ Trigger Output Voltage Output Current lt 1 mA HIGH gt 2 0 V LOW lt 0 4 V Capture related Real Time Capture Bandwidth 36 MHz RF 40 MHz baseband 40 MHz using
4. spectra as close as 20 nsec providing an intuitive view of signal changes over time ideal for such things as frequency hopping pulsed signals modulation switching settling time band width changes relative timing of appearing and intermittent signals The RSA3408A introduces analysis capabilities that advance productivity for engineers working on components or in RF system design integration and performance verification or operations engineers working in networks spectrum monitoring or surveillance Real Time Spectrum Analyzers gt RSA3408A N gt Example Applications Benefiting from Key RSA3408A Capabilities Analysis Feature RF WLAN Cell Wireless Radar Surveillance RFID Communications WLAN devices Pulsed Signal Spectrum Systems Transmission M onitoring Hi res Spectrogram X X X X X Multi domain X X X X X X Correlation 802 11a b g Analysis X X X Opt 29 Cellular Standards X X Analysis multiple options General Purpose X X X X Digital Modulation Analysis Opt 21 AM FM PM Analysis X Pulsed RF Signal X X X Analysis Pulse Spectrum X X X X 2ASK 2FSK Analysis X X Manchester Miller NRZ Decoding Opt 21 AM AM AM PM and X X X X 1 dB Compression Opt 21 Digital IQ Output X X X Opt 05 Removable HDD X X X Opt 06 Real Time Spectrum Analyzer www tektronix com rsa 3 Real Time Spectrum Analyzers gt RSA3408A gt Characteristics
5. AUTO RBW 19 4 sec Remote Measurement Rate and GPIB Transfer Rate 2 MHz span auto RBW spectrum data 1 87 Waveforms sec or 6 000 Samples sec RF Center Frequency Switching Time lt 10 ms for 10 MHz frequency change 500 ms for 3 GHz frequency change Traces Displays Detectors Traces Two traces Spectrum Analyzer Mode Displays Up to three time correlated user selected displays Detector RMS Trace Types Normal RMS Average Max Hold Min Hold Display Detection Max Min Max Min Modulation Analysis Analog AM Minimum Input Level 40 dBfs typical PM Minimum Input Level 40 dBfs typical PM Scale Max Min 1809 FM Minimum Input Level 40 dBfs typical Range Span 2 from center frequency 1 dBfs dB relative to full scale Real Time Spectrum Analyzer www tektronix com rsa Digital Option 21 Modulation Formats BPSK QPSK 7 4 DOPSK OQPSK 8PSK 16QAM 32QAM 64QAM 128QAM 256QAM GMSK GFSK 2ASK 2FSK Analysis Period Up to 7680 sample points Filter Types Measurement filters Square root raised cosine none Reference filters Raised cosine Gaussian none Alpha B T Range 0 0001 to 1 0 0001 step Demodulation Accuracy Analog AM 10 dBfs signal input at CF 10 to 60 modulation depth 2 PM 10 dBfs signal input at CF 32 FM 10 dBfs signal input at CF 1 of span Digital Option 21 The following tables are examples of t
6. GHz Ref Lvl 30 dBm RBW 100 kHz 85 dBm 3 5 to 8 GHz Span 3 GHz Ref Lvl 30 dBm RBW 100 kHz 85 dBm gt Spurious Response with Signal Frequency Spec 0 MHz Span 10 MHz Ref Lvl 0 dBm RBW 50 kHz Signal Frequency 25 MHz 73 dBc Signal Level 5 dBm 2 GHz Span 10 MHz Ref Lvl 0 dBm RBW 50 kHz Signal Frequency 2 GHz 73 dBc Signal Level 5 dBm 5 GHz Span 10 MHz Ref Lvl 0 dBm RBW 50 kHz Signal Frequency 5 GHz 70 dBc Signal Level 5 dBm 7 GHz Span 10 MHz Ref Lvl 0 dBm RBW 50 kHz Signal Frequency 7 GHz 70 dBc Signal Level 5 dBm gt VSWR RF ATT gt 10 dB Frequency Spec Typical 300 kHz to 10 MHz lt 141 10 MHz to 3 GHz lt 13 1 2 5 GHz lt 141 1 5 GHz lt 1 8 1 10 Real Time Spectrum Analyzer www tektronix com rsa Inputs and Outputs Front Panel Input Connectors N type RF baseband BNC type IQ Opt 03 Input Impedance 50 Q Preamp Power Connector Lemo 6 poles pin 1 NC pin 2 ID1 pin 3 ID2 pin 4 12 V pin 5 GND pin 6 412 V Rear Panel Digital IQ Output Option 05 Connector Type MDR 3M 50 pin x2 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 5 ns Data from Option 05
7. Hz lt Span lt 100 kHz 100 Hz 20 kHz lt Span lt 50 kHz 50 Hz 10 kHz lt Span lt 20 kHz 20 Hz 5 kHz lt Span lt 10 kHz 10 Hz 2 kHz lt Span lt 5 kHz 5 Hz 1 kHz lt Span lt 2 kHz 2 Hz 100 Hz lt Span lt 1 kHz 1 Hz 8 Real Time Spectrum Analyzer www tektronix com rsa Blackman Harris 4B FlatTop Real Time Spectrum Analyzers gt RSA3408A gt Frequency Response 20 to 30 C RF ATT 10 dB N Frequency Spec Typical 100 kHz to 40 MHz 40 5 dB 40 3 dB 40 MHz to 3 5 GHz l 2 dB 40 5 dB 3 5 GHz to 6 5 GHz 1 7 dB 1 0 dB 5 GHz to 8 GHz 1 7 dB 1 0 dB Residual FM 2 Hz typical Amplitude Measurement Range Displayed average noise level to MAX safe input nput 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 nput Attenuator Setting Uncertainty at 100 MHz 10 dB ATT 20 C to 30 0 2 dB Maximum Safe Input Level Average Continuous RF band RF ATT gt 10 dB 30 dB MAX DC Voltage 0 2 V RF 5 V Baseband 5 V IQ input Opt 03 Log Display Range 10 udB div to 10 dB div Linear Display Scale 10 divisions Linear Display Units dBm dBuV V Watts Hz for FM Demod Degrees for PM Demod Marker Readout Resolution Log 0 01 dB Marker Readout Resolution Linear 0 001 pV Absolute Amplitude Accuracy at Calibration Point baseband at 25 MHz 10 dBm signal 0 dB ATT 20 2C to 30 C 0 3 dB Absolute Amp
8. Opt 03 10 inputs A D Converter 102 4 MS s 14 bits Minimum Acquisition Length in RTSA Time Demod Modes 1024 samples Maximum Acquisition Length in RTSA Time Demod Modes 16 384 000 samples 65 636 000 samples Opt 02 Acquisition Length Setting Resolution in RTSA Time Demod Modes 1024 samples Acquisition Memory Size 16 4 Msamples 65 6 Msamples Opt 02 Block Size number of frames 1 to 16 000 1 to 64 000 Opt 02 Real Time Spectrum Analyzers gt RSA3408A TE SS ee gt Memory Depth time and Maximum Time Resolution Span Sample Rate Record Length Record Length Spectrum Frame Max Time For land Q Option 02 Time Resolution 40 MHz baseband 51 2 MS s 0 32 s 1 28 s 20 js 20 ns 36 MHz 51 2 MS s 0 32 s 1 28 s 20 us 20 ns 20 MHz 25 6 MS s 0 64 s 2 56 s 40 us 40 ns 10 MHz 12 8 MS s 1 28 s SZS 80 us 80 ns 5 MHz 6 4 MS s 2 56 s 10 24 s 160 us 160 ns 2 MHz 2 56 MS s 6 4s 25 6 s 400 us 400 ns 1 MHz 1 28 MS s 12 8 s 51 2 5 800 us 800 ns 500 kHz 640 kS s 25 6 s 102 4s 1 6 ms 1 6 us 200 kHz 256 kS s 64s 256 s 4 0 ms 4 0 us 100 kHz 128 kS s 128 s 512 s 8 0 ms 8 0 us 50 kHz 64 kS s 256s 1024 s 16 ms 16 us 20 kHz 25 6 kS s 640 s 2560 s 40 ms 40 us 10 kHz 12 8 kS s 1280 s 5120 s 80 ms 80 us 5 kHz 6 4 kS s 2560 s 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 16
9. Real Time Spectrum Analyzers gt RSA3408A S o a o o a Trigger Capture Analyze WLAN Radar 3G or Other Time varying RF Signals High resolution spectrogram reveals transient signal behavior that translates to rapid problem solving Here 500 kHz sidebands are revealed as part of the transient behavior of a hopping signal as it switches frequencies Get Fast Resolution to Complex Problems with Enhanced Triggering More Capture Bandwidth and Great New Analysis Tools See signals and events you ve been missing with conventional analysis tools With only a single acquisition the RSA3408A Real Time Spectrum Analyzer P Time correlated multi domain view provides a new level of insight into design or operational problems not possible with conventional analysis solutions RTSA captures a continuous time record of changing RF events and enables time correlated analysis in the frequency time and modulation domains You get the functionality of a vector signal analyzer a wide band spectrum analyzer plus the unique trigger capture analyze capability of RTSA in one gt Features amp Benefits Trigger Tektronix Exclusive 36 MHz Freguency Mask Trigger Makes Easy Event based Capture of Transient RF Signals by Triggering on Any Change in the Freguency Domain Capture All Signals in Up to 36 MHz Spans Are Seamlessly Captured into Memory Up to 1 28 s Record Length at 36
10. Trigger working in the time domain and at any Real Time analysis span can be armed to monitor for a user set power threshold to be crossed during a moment in time A power detector determines total power of all signals in a span which is compared to the user set threshold Capture Capture once make multiple measure ments as needed All signals in a Real Time analysis span including transients low duty cycle and other difficult to measure events are captured together into RSA3408A deep memory where signal data can be accessed at the users convenience Record lengths vary depending on span selected up to 1 28 seconds at 36 MHz span 51 2 seconds at 1 MHz span or 5120 seconds at 10 kHz span with Deep Memory Option 02 Real Time capture of small signals is enhanced by 78 dBc third order IM and 66 dB 3GPP ACLR TM1 16 channel plus very good phase noise performance and sensitivity A solid performance front end serves not only Real Time and wide band Spectrum Analysis modes but also on board vector Signal analysis functionality 2 Real Time Spectrum Analyzer e www tektronix com rsa Analyze Time correlated multi domain analysis provides engineers with unique insight to time varying signal behavior resulting in fast analysis and problem solving Time correlated measurements can be made across the frequency time and modula tion domains The analysis display called Spectrogram has the ability to overlap individual
11. V North America power Opt A5 Switzerland power Opt A6 J apanese power Opt Al0 China power Opt A99 No Power Cord Service 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 Opt C3 Opt D5 Calibration Data Report 5 Years with Opt C5 Opt R3 Repair Service 3 Years Opt R5 Repair Service 5 Years Upgrades RSA34UP Opt 02 65 5 MSample Deep Memory Freguency Mask Trigger Opt 03 IQ Differential IQ Inputs Opt 05 Digital IQ Output Opt 06 Removable HDD Opt 21 General Purpose Modulation Analysis Opt 23 W CDMA Uplink Analysis Opt 24 GSM EDGE Analysis Opt 25 cdma2000 1X Forward Reverse Link Analysis Opt 26 1X EVDO Forward Reverse Link Analysis Opt 27 3GPP Release 5 Downlink HSDPA Analysis Opt 28 TD SCDMA Analysis Opt 29 WLAN 802 11a b g Analysis Opt IF Installation labor Opt IFC Installation labor calibration Languages Opt LO English User Programmers Manuals Opt L5 J apanese User Programmers Manuals Contact Tektronix ASEAN Australasia Pakistan 65 6356 3900 Austria 41 52 675 3777 Balkan Israel South Africa and other ISE Countries 41 52 675 3777 Belgium 07 81 60166 Brazil amp South America 55 11 3741 8360 Canada 1 800 661 5625 Central East Europe Ukraine and the Baltics 41
12. ckman Rosenfield Blackman Harris 5 GHz lt 36 6 MHz 2 5 3A Blackman Harris 3B Blackman Harris 4A RE x MF 0 001 x Span 2 Hz RE Reference Frequency Error MF Marker Frequency Hz Span Accuracy 1 bin RBW Filter Bandwidth Accuracy 0 1 Reference Frequency Aging per Day 1 x 10 after 30 days of operation Aging per Year 1 x 10 7 after 30 days of operation Temperature Drift 1 x 10 7 10 to 40 2C Total Frequency Error 2 x 10 7 within one year after calibration Reference Output Level gt 0 dBm External Reference Input 10 MHz 10 dBm to 6 dBm Frequency Span Range Spectrum Analyzer Mode 50 Hz to 3 GHz Start Frequency gt 40 MHz 0 Hz to 40 MHz Stop Frequency lt 40 MHz Range Real Time Spectrum Analyzer Mode 100 Hz to 20 MHz 36 MHz RF 0 Hz to 40 MHz Baseband IF Filter Bandwidth Resolution Bandwidth Range 1 Hz to 10 MHz automatically selected or user defined Accuracy Within 6 0 0 1 Shape Characteristic Gaussian lt 5 1 shape factor 3 60 dB Rectangular Nyquist Root Nyquist shapes may also be selected Minimum Settable RBW Extended Resolution ON Frequency RBW Span gt 2 GHz 100 kHz 1 GHz lt Span lt 2 GHz 50 kHz 500 MHz lt Span lt 1 GHz 20 kHz 20 MHz lt Span lt 500 MHz 10 kHz 500 kHz lt Span lt 20 MHz 1 kHz 200 kHz lt Span lt 500 kHz 500 Hz 100 kHz lt Span lt 200 kHz 200 Hz 50 k
13. litude Accuracy at Calibration Point RF at 100 MHz 20 dBm signal 0 dB ATT 20 2C to 30 2C 0 5 dB Reference Level Setting Range 1 dB step RF 50 dBm to 30 dBm 5 dB step baseband 30 dBm to 20 dBm 5 dB step IQ 10 dBm to 20 dBm Reference Level Accuracy 10 dBm to 50 dBm at 100 MHz 10 dB ATT 20 C to 30 2C 0 2 dB Level Linearity in Display Range 0 2 dB spec 0 12 dB typical Spurious Response 1 dB Compression RF ATT 0 dB 2 GHz CF 2 dBm 3 Order Inter modulation Distortion Ref Level 5 dBm RF ATT adjusted for optimum total signal power 7 dBm CF 2 GHz 78 dBc 2 4 Harmonic Distortion 30 dBm tone at input mixer 10 MHz to 1750 MHz 65 dBc typical Displayed Average Noise Level Specified dBm Hz Frequency Spec 10 MHz 151 2 GHz 150 3 GHz 150 7 GHz 142 Displayed Average Noise Level Typical dBm Hz Frequency Typical 1 kHz to 10 kHz 144 10 kHz to 10 MHz 151 10 MHz to 100 MHz 151 100 MHz to 1 GHz 150 1 GHz to 2 GHz 150 2 GHz to 3 GHz 150 3 GHz to 5 GHz 142 5 GHz to 8 GHz 142 Real Time Spectrum Analyzer www tektronix com rsa 9 Real Time Spectrum Analyzers gt RSA3408A gt Residual Response Frequency Spec 1 to 40 MHz Span 20 MHz Ref Lvl 30 dBm RBW 100 kHz 93 dBm 0 5 to 3 5 GHz Span 3 GHz Ref Lvl 30 dBm RBW 100 kHz 90 dBm 3 5 to 6 5 GHz Span 3
14. requires application of correction factors to IQ data to achieve similar RF performance to RSA3408A 10 MHz REF OUT 50 Q BNC gt 3 dBm 10 MHz REF IN 50 Q 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 Side Panel LAN Interface Ethernet 10 100 Base T Std Serial Interface USB 1 1 two ports VGA Output VGA compatible 15 DSUB General Characteristic s Temperature Range Operating 10 2C to 40 C Storage 20 to 60 C Warm up Time 20 min Operating Altitude Operating up to 3000 m 10 000 ft Non operating up to 12 000 m 40 000 ft Safety and EMI Compatibility UL 61010 1 CSA C22 2 No 61010 1 04 IEC61010 second edition Self Declaration Low Voltage Directive 73 23 EEC amended by 93 68 EEC EN61010 1 2001 Safety reguirements for electrical eguipment for Measurement control and laboratory use EC Council EMC Directive 89 336 EEC amended by 93 68 EEC EN61326 1 1997 Product Family Standard for Electrical Equipment for Measurement Control and Laboratory Use EMC Requirements Electromagnetic Compatibility Framework 1992 AS NZS 2064 1 2 Industrial Scientific and Medical Equipment Power Requirements 100 VAC to 240 VAC 47 Hz to 63 Hz Power Consumption 400 VA max Data Storage Internal HDD 40 GB USB port FDD Weigh
15. s 1 6 ms 200 Hz 256 S s 64000 s 256000 s 40s 4ms 100 Hz 128 S s 128000 s 512000 s 8 0 s 8 ms Real Time Spectrum Analyzer www tektronix com rsa 5 Real Time Spectrum Analyzers gt RSA3408A Analysis related gt Measurement Functions by Mode N Mode Measurements SA Channel Power Adjacent Channel Power Ratio Occupied Bandwidth Emission Bandwidth Carrier to Noise Ratio Carrier Frequency Spur Search db Hz Marker dBc Hz Marker RTSA Channel Power Adjacent Channel Power Ratio Occupied Bandwidth Emission Bandwidth Carrier to Noise Ratio Carrier Frequency Spur Search Time IQ vs Time Power vs Time Frequency vs Time CCDF Crest Factor Pulse 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 Min pulse length 20 samples Max pulse length 16 384 samples Channel Power Frequency Deviation and EBW less than 16 384 points Analog Demod JO vs Time AM Depth FM Deviation PM Deviation Pulse Spectrum General Purpose Digital Demod Option 21 Error vs Time EVM Magnitude Error Phase Error Error Waveform Quality p Frequency Error Origin Offset PDF Probability of Occurrence vs Power Level AM AM AM PM 1 dB Compression Crest Factor es tf gt Views by Mode a men Mode Views omeni Overview Subview SA Spectrum Area Area woen SA Spectrogram Spectrum Spec
16. t without options 20 kg 44 Ibs Dimensions 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 SCPI compatible Real Time Spectrum Analyzer www tektronix com rsa Real Time Spectrum Analyzers gt RSA3408A gt Ordering Information RSA3408A Real Time Spectrum Analyzer DC 8 GHz Includes User manual Programmer s manual power cord BNC N adapter USB Keyboard and Mouse Options Opt 1A External Preamp 100 MHz to 3 GHz 20 dB gain 6 5 dB Noise Figure at 2 GHz Typical 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 Opt 21 General Purpose Modulation Analysis Opt 23 W CDMA Uplink Analysis Opt 24 GSM EDGE Analysis Opt 25 CDMA 1X Forward Reverse Link Analysis Opt 26 1X EVDO Forward Reverse Link Analysis Opt 27 3GPP Release 5 Downlink HSDPA Analysis Opt 28 TD SCDMA Analysis Opt 29 WLAN 802 11a b g Analysis Opt 1R Rackmount 11 Real Time Spectrum Analyzers RSA3408A Ac cessories RSA34RHD Extra 40 GB Removable Hard Drive for use with Opt 06 International Power Plugs Opt AO North America power Opt Al Universal EURO power Opt A2 United Kingdom power Opt A3 Australia power Opt A4 240
17. tered trademarks of Tektronix Inc All other trade names referenced are the service marks trade marks or registered trademarks of their respective companies 6 05 HB WOW 37W 18380 1 Tektronix pa Enabling Innovation S
18. trogram RTSA Spectrum Spectrogram zena Time Overview Power vs Time Spectrogram Main View nene Sub View Spectrum Area g Main View Measurement Result Analog Demod Overview Power vs Time Spectrogram Sub view Spectrum Main view Measurement Result Digital Demod Option 21 Overview Power vs Time Spectrogram Sub view or Main View Vector diagram Constellation diagram data displayed at symbol times Error vector diagram Eye Diagram adjustable 1 to 16 symbols Trellis adjustable 1 to 16 symbols 1 Q vs Time EVM vs Time Symbol Table binary octal or hexadecimal Manchester Miller and NRZ decoding available for 2ASK and 2FSK modulation AM AM display AM PM display CCDF display PDF display 6 Real Time Spectrum Analyzer www tektronix com rsa gt RSA3408A Screen layout to identify analysis view locations as described in the table on the left Real Time Spectrum Analyzers RSA3408A gt QPSK EVM Typical Symbol rate per second 100 k 1M 4M 10 M 20M CF lt 1 GHz 0 5 0 5 0 6 0 9 1 6 CF lt 2 GHz 0 5 0 5 0 6 0 9 1 8 CF lt 3 GHz 0 5 0 5 0 6 0 9 1 8 CF lt 5 GHz 0 7 0 7 0 9 1 6 24 gt 7 4 DOPSK EVM Typical A Symbol rate per second 100 k 1M 4M 10 M 20 M CF 1 GHz 0 6 0 6 0 6 0 9 1 8 CF lt 2 GHz 0 6 0 6 0 6 0 9 1 8 CF lt 3 GHz 0 6 0 6 0 6 0 9 1 8 CF lt 5 GHz 0 7 0 7 0 9 1 6 2 4 Measurement Speed Screen Update Rate 2 MHz Span
19. ypical digital demodulation accuracy 7 Real Time Spectrum Analyzers RSA3408A 16 64 OAM EVM Typical Symbol rate per second 100 k 1M 4M 10 M 20M CF 1 GHz 0 5 0 5 0 5 0 7 1 2 CF 2 GHz 0 5 0 5 0 5 0 7 1 2 CF 3 GHz 0 5 0 5 0 5 0 7 1 2 CF 5 GHz 0 9 0 5 0 7 13 2 0 Stability Noise Sidebands dBc Hz Offset At 1GHz CF At 2 GHz CF At 6 GHz CF Spec Typical Spec Typical Spec Typical 1 kHz 105 107 103 105 97 99 10 kHz 110 112 109 111 106 108 20 kHz 110 112 109 111 106 108 30 kHz 110 112 109 111 106 108 100 kHz 112 115 112 115 111 113 1 MHz 132 135 132 135 132 134 5 MHz 138 140 138 140 137 139 7 MHz 138 140 138 140 137 139 10 MHz 138 140 138 140 137 139 RF Performance IF Flatness Noise Bandwidth Range RTSA Mode Freguency Bandwidth Flatness 250 545 mHz to 100 218 kHz Frequency 2 GHz lt 36 6 MHz 0 3 dB FFT Performance Frequency Range DC to 8 GHz 5 GHz lt 36 6 MHz 0 3 dB Number of samples per frame 64 to 8192 65 536 Center Frequency Setting Resolution 0 1 Hz IF Phase Linearit samples per frame extended resolution Frequency Marker Readout Accuracy fr a Ya andwidth Flaine Window types Rectangular Parzen Welch Sine Baseband RE x MF 0 001 x Span 0 2 Hz 2 GHz 36 6 MHz D Lobe Hanning Sine Cubed Sine To The 4th Frequency Marker Readout Accuracy RF seli o Hamming Bla
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