Real-Time Spectrum Analyzers
Contents
1. 1 Sample Real Time Spectrum Analyzers RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers K Memory Depth Time and Minimum Time Domain Resolution N Acquisition BW Sample Rate Acquisition Time Acquisition Time Min Time For and Q Option 02 Resolution 110 MHz Opt 110 150 MS s 0 426 s 1 706 s 6 6667 ns 60 MHz Opt 110 75 MS s 0 852 s 3 413 s 13 33 ns 40 MHz 50 MS s 1 28 s BD MIZA 20 ns 20 MHz 25 MS s 2 56 s 10 2 s 40 ns 10 MHz 12 5 MS s 5 12 s 20 5 s 80 ns 5 MHz 6 25 MS s 10 2 s 41 0s 160 ns 2 MHz 3 125 MS s 10 2 s 41 0 s 320 ns 1 MHz 1 56 MS s 20 5 s 81 9 s 640 ns 500 kHz 781 kS s 41 0s 164 s 1 28 us 200 kHz 390 kS s 81 9s 328 s 2 56 US 100 kHz 195 kS s 164 s 655 s 5 12 is 50 kHz 97 6 kS s 328 s 1310 s 10 24 us 20 kHz 48 8 kS s 655 s 2620 s 20 48 us 10 kHz 24 4 kS s 1310 s 5240 s 40 96 us 5 kHz 12 2 kS s 2620 s 10500 s 81 92 us 2 kHz 3 05 kS s 10500 s 41900 s 328 us 1 kHz 1 52 kS s 21000 s 83900 s 655 US 500 Hz 762 S s 41900 s 168000 s 1 31 ms 200 Hz 381 S s 83900 s 336000 s 2 62 ms 100 Hz 190 S s 168300 s 671000 s 5 24 ms 2 In spans lt 2MHz higher resolution data is stored reducing acquisition time Real Time Spectrum Analyzers lt www tektronix com rsa 5 Real Time Spectrum Analyzers K RSA6100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers gt Analysis related Measurement Functions Measurements Pow2. 20 C to 60 C Warm up Time 20 min Altitude Operating Up to 3000 m Approximately 10 000 ft Non operating Up to 12 190 m 40 000 ft Relative Humidity Operating and Non operating 90 RH at 30 C No condensation Max wet bulb 29 C 80 RH max when accessing DVD Vibration Operating 0 22 Grus 5 Hz to 500 Hz except when accessing DVD and Opt 06 Removable HDD Non operating 2 28 Daus 5 Hz to 500 Hz Shock Operating 15 G half sine 11 ms duration 1 G max when accessing DVD and Opt 06 Removable HDD Non operating 30 G half sine 11 ms duration Safety UL 61010 1 2004 CSA C22 2 No 61010 1 04 Electromagnetic Compatibility Complies with EC Council EMC Directive 89 336 EEC amended by 93 68 EEC EN61326 Class A AS NZS CISPR 11 Class A Australia Power Requirements 90 VAC to 240 VAC 50 Hz to 60 Hz 90 VAC to 132 VAC 400 Hz Power Consumption 600 W max Data Storage Internal HDD USB ports DVD RW Opt 07 Removable HDD Opt 06 Calibration Interval One year Warranty One year GPIB SCPI compatible IEEE 488 2 compliant Physical Characteristics Weight kg Ib With All Options 26 4 58 Dimensions mm in Height 282 111 Width 473 18 6 Depth 531 20 9 Note Physical Characteristics with feet without accessory pouch Real Time Spectrum Analyzers lt www tektronix com rsa 15 Real Time Spectrum Analyzers
3. DPX Spectrum Processing Provides an Intuitive Under standing of Time varying RF Signals with Color Graded Displays Based on Frequency of Occurrence Revolutionary DPX Displays Transients as Short as 24 us with 100 Probability of Intercept Trigger Tektronix Exclusive 40 MHz and 110 MHz Frequency Mask Triggers FMT Offer Easy Event based Capture of Transient RF Signals by Triggering on Any Change in the Frequency Domain Capture All Signals in Up to 110 MHz Spans are Captured into Memory Upto 1 7 s Acquisition Length at 110 MHz Bandwidth Provides Complete Analysis Over Time Without Making Multiple Acquisitions 6 2 GHz and 14 GHz Models Available Analyze Extensive Time correlated Multi domain 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 Components and Systems ACLR Multi Carrier ACLR Power vs Time CCDF Advanced Measurement Suite Opt 20 Pulse Measurements Including Rise Time Pulse Width and Pulse to Pulse Phase Provide Deep Insight into Pulse Train Behavior General Purpose Digital Modulation Analysis Opt 21 Provides Vector Signal Analyzer Functionality Tektronix OpenChoice Makes for Easy Transfer to a Variety of Analysis Programs Applications Characterize Radar and Pulsed RF Signals Capture Vecto
4. International Power Plugs Opt AO North America power Opt A1 Universal EURO power Opt A2 United Kingdom power Opt A3 Australia power Opt A4 240 V North America power Contact Tektronix ASEAN Australasia 65 6356 390 Austria 41 52 675 3777 Balkan Israel South Africa and other ISE Countries 41 52 675 3777 Opt A5 Switzerland power Opt A6 Japan power Opt A10 China power Opt A11 India power Opt A99 No power cord or AC adapter 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 Opt CA1 Single calibration or coverage for the designated calibration interval whichever comes first Upgrades RSA61UP International Power Plugs Opt 01 Internal Preamp 10 MHz to 3 GHz 30 dB gain 4 dB Noise Figure at 2 GHz typical Opt 02 1 GB Memory Frequency Mask Trigger Opt 05 Digital IQ Output and 500 MHz Analog IF Output Opt 20 Advanced Signal Analysis Including Pulse Measurements Opt 21 General Purpose Modulation Analysis Opt 110 110 MHz Real time Capture BW Opt IF Installation labor Opt IFC Installation labor plus calibration L
5. K RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers K Ordering Information RSAG1OGA Real Time Spectrum Analyzer 9 kHz to 6 2 GHz RSAG114A Real Time Spectrum Analyzer 9 kHz to 14 GHz Both Include Quick Start Manual Printed User manual Programmer s manual on CD power cord BNC N adapter USB keyboard USB mouse pouch front cover Please specify power plug and language options when ordering Options Opt 01 Internal Preamp 10 MHz to 3 GHz 30 dB gain 4 dB Noise Figure at 2 GHz typical Opt 02 1 GB Memory Frequency Mask Trigger Opt 05 Digital IQ Output and 500 MHz Analog IF output Opt 06 Removable HDD Opt 07 DVD RW required option no cost not compatible with Opt 6 Opt 08 Removable Solid State Hard Drive Opt 20 Advanced Signal Analysis including pulse measurements Opt 21 General Purpose Modulation Analysis Opt 110 110 MHz Real time Capture BW Opt 1R Rackmount Accessories RSA61RHD Additional Removable Hard Drive for use with Opt 06 Windows XP and instrument SW pre installed 065 0765 00 Additional Removable Solid State Hard Drive for use with Opt 08 Windows XP and instrument SW pre installed Transit Case 016 1963 00 Rackmount Retrofit 016 1962 00 Additional Quick Start Manual paper 071 1909 xx Additional User Manual CD 063 3930 xx Service Manual paper 071 191 4 xx
6. Real Time Spectrum Analyzers gt RSA6100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers Completely Characterize Time Varying RF Signals The RSA6100A Series will help you to easily discover design issues that other signal analyzers may miss The revolu tionary DPX spectrum display offers an intuitive live color view of signal transients changing over time in the frequency domain giving you immediate confidence 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 gt CF 2 44660 GHz is discovered with DPX the RSA6100A Series of Real Time Spectrum Analyzers RTSA can be set to trigger on the event capture a continuous time record of changing RF events and perform time correlated analysis in all domains You get the functionality of a wide band vector signal analyzer a spectrum analyzer and the unique trigger capture analyze capability of a Real Time Spectrum Analyzer all in a single package Span 10 00 MHz gt Revolutionary DPX spectrum display reveals transient signal behavior that helps you discover instability glitches and interference Here an infrequently occurring transient is seen in detail The frequency of occurrence is color graded indicating the infrequent transient event in blue and the noise background in red gt Features amp Benefits Discover
7. IF Frequency Response 2 5 dB Span Range 100 Hz to 40 MHz Opt 02 100 Hz to 110 MHz Opt 02 Opt 110 Minimum Event Duration for 100 Probability of Trigger At maximum acquisition bandwidth 30 7 Sec 10 3 Sec Opt 02 Opt 110 Events lasting less than minimum event duration specification will result in degraded Freguency Mask Trigger accuracy Trigger Position Uncertainty Span 40 MHz 12 8 ps Span 110 MHz 5 12 us Opt 02 Opt 110 External Trigger 1 Level Range 2 5 V to 2 5 V Level Setting Resolution 0 01 V Trigger Position Timing Uncertainty 50 Q input impedance 40 MHz acquisition BW 40 MHz Span Uncertainty 20 ns 110 MHz acquisition BW 110 MHz Span Opt 110 Uncertainty 12 ns Input Impedance Selectable 50 9 5 KQ Impedance nominal 1 For masks gt 30 dB above noise floor 4 Real Time Spectrum Analyzers lt www tektronix com rsa External Trigger 2 Threshold Voltage Fixed TTL Input Impedance 10 kQ nominal Trigger State Select High low Trigger Output Voltage Output Current lt 1 mA High gt 2 0 V Low lt 0 4 V LVTTL Capture related Real time Capture Bandwidth 40 MHz 110 MHz Opt 110 A D Converter 100 MS s 14 bit additional 300 MS s 12 bit Opt 110 Acauisition Memory Size 256 MB 1 GB Opt 02 Minimum Acquisition Length 2 Samples Acquisition Length Setting Resolution
8. must be contained entirely within acquisition BW of RSA6100A Demodulation Accuracy Digital Option 21 QPSK Residual EVM typical 5 Symbol Rate Residual EVM 100 kSymbols s lt 0 6 1 MSymbol s lt 0 7 10 MSymbol s lt 1 0 30 MSymbol s lt 3 0 80 MSymbols s Opt 110 lt 3 0 15 CF 2 GHz Measurement Filter root raised cosine refer ence filter raised cosine analysis length 200 symbols 14 Real Time Spectrum Analyzers lt www tektronix com rsa 256 QAM Residual EVM typical 1S Symbol Rate Residual EVM 10 MSymbol s lt 1 0 30 MSymbol s lt 3 0 80 MSymbols s Opt 110 lt 3 0 16 CF 2 GHz Measurement Filter root raised cosine refer ence filter raised cosine analysis length 400 symbols Inputs And Outputs Front Panel RF Input Connector N type 50 Q Trigger Out BNC High gt 2 0 V Low lt 0 4 V output current 1 mA TTL Trigger In BNC 50 9 5 KQ impedance nominal 5 V Max Input 2 5 V to 2 5 V trigger level USB Ports 1 USB 2 0 1 USB 1 1 Audio Speaker Rear Panel Analog IF and Digital IQ Output Opt 05 Analog IF Output Opt 05 Freguency 500 MHz 1 MHz based on center frequency selection Output Level 0 to 10 dBm for peak signal level of 20 dBm at RF mixer typical Filter Control Wide open sguare top or 60 MHz Gaussian Bandwidth Wide Open gt 150 MHz typical Bandwidth Gaussi
9. pred 2 7oso0GHz gt Reflev 0 00d8m autoLev amel Stoo OP E pad Hie Moasurenent L i RMS Peck EVM 1 778 3685 73 845us 35 000 dB 28 672 dB Mager 1 199 3 500 97 023us 39 461 dB 29 118 dB Phase 0 755 2111 7395 Origin Offset 49 797 dB Frequency Eror 26 1 Hz G n Imbalance 0 049 dB Quadrature Error 0 099 Rho 0 999842 ee Trig Out Trig In S 8 Real Time Spectrum Analyzers www tektronix com rsa Two frequency ranges 9 kHz to 6 2 GHz RSA6106A or 9 kHz to 14 GHz RSA6114A for data security Familiar spectrum analyzer controls plus fast access to all acquisition and measurement m settings OD USB connections 2 front 2 rear for mouse keyboard and memory RF INPUT 500 DC Protected Input 40 V DC over entire frequency range 30 dBm CW 75W Pulse Maximum Real Time Spectrum Analyzers www tektronix com rsa DVD RW standard for waveform storage Removable HDD optional 9 Real Time Spectrum Analyzers K RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers Phase Noise Sidebands dBc Hz at Specified Center Freguency CF N Offset CF 1 GHz CF 2 GHz CF 6 GHz CF 10 GHz RSA6114A Spec Typical Typical Typical Typical 100 Hz 80 86 80 70 64 1 kHz 100 106 106 96 91 10 kHz 106 110 110 107 106 100 kHz 107 113 111 107 106 1 MHz 128 134 133 132 1
10. 32 6 MHz 134 142 142 142 142 10 MHz 134 142 142 142 142 Stability Maximum Safe Input Level Display Units Residual FM lt 2 HS in 1 second 95 confidence typical Amplitude Specifications excluding mismatch error Measurement Range Displayed average noise level to maximum measur able input Input Attenuator Range 0 dB to 75 dB 5 dB step Average Continuous RF ATT 10 dB 30 dBm Pulsed RF RF ATT 30 dB PW lt 10 us 1 Duty Cycle 75 W Maximum Measurable Input Level Average Continuous RF ATT Auto 30 dBm Pulsed RF RF ATT Auto PW lt 10 us 1 Duty Cycle 75 W MAX DC Voltage 40 V Log Display Range 0 1 dB div to 20 dB div Display Divisions 10 divisions 10 Real Time Spectrum Analyzers lt www tektronix com rsa dBm Volts Watts Hz for Frequency measurements Degrees for Phase measurements Marker Readout Resolution dB Units 0 01 dB Marker Readout Resolution Volts Units Reference level dependent as small as 0 001 pV Reference Level Setting Range 0 1 dB step 170 dBm to 50 dBm minimum ref level 50 dBm at center frequency lt 80 MHz Level Linearity 0 1 dB 0 to 70 dB from Reference Level Real Time Spectrum Analyzers RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers K Frequency Response 18 C to 28 C Atten 10 dB Preamp Off N 10 MHz to 3 G
11. Hz 0 5 dB gt 3 GHz to 6 2 GHz 0 8 dB gt 6 2 GHz to 14 GHz RSA6114A 1 0 dB 5 C to 50 C All Attenuator Settings typical 9 kHz to 3 GHz 0 7 dB gt 3 GHz to 6 2 GHz 0 8 dB gt 6 2 GHz to 14 GHz RSA6114A 2 0 dB Preamp Opt 01 ON Att 10 dB 10 MHz to 3 GHz 0 7 dB Absolute Amplitude Accuracy at Calibration Absolute Amplitude Accuracy at Center VSWR Point 100 MHz 20 dBm signal 10 dB ATT Frequency 95 Confidence typical Att 10 dB Preamp OFF CF set within 200 MHz 18 C to 28 C 0 31 dB 10 MHz to 3 GHz 0 5 dB of VSWR test frequency Input Attenuator Switching Uncertainty 0 2 dB Noise and Distortion 3 GHZ to 6 2 GHz 0 8 dB 6 2 GHz to 14 GHz 1 5 dB 3 18 C to 28 C Reference level lt 15 dBm Attenuator Auto coupled signal level 15 dBm to 50 dBm 10 Hz lt RBW lt 1 MHz after Alignment performed 10 MHz to 4 GHz lt 1 6 1 4 GHz to 6 2 GHz lt 1 8 1 6 2 GHz to 14 GHz RSA6114A only lt 1 9 1 VSWR with Preamp Att 10 dB Preamp ON CF set within 200 MHz of VSWR test frequency 10 MHz to 3 GHz lt 1 9 1 gt 3rd Order Inter modulation Distortion Frequency 3rd Order IM 3rd Order Intercept N 3rd Order Intercept typical 2 130 GHz lt 80 dBc 15 dBm 17 dBm 4 Each signal level 25 dBm Ref Level 20 dBm Attenuator 0 dB 1 MHz tone separation 34 order intercept point is calculated from 3 or
12. Hz Atten 0 dB gt Image Response Frequency Spec 9 kHz to 6 2 GHz lt 80 dBc 6 2 GHz to 8 GHz RSA6114A lt 80 dBc gt 8 GHz to 14 GHz RSA6114A lt 76 dBc 8 Ref 30 dBm Atten 10 dB RF input Level 30 dBm RBW 10 Hz 12 Real Time Spectrum Analyzers lt www tektronix com rsa Real Time Spectrum Analyzers RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers gt Spurious Response with Signal Frequency Span lt 40 MHz swept spans gt 40 MHz Option 110 40 MHz lt span lt 110 MHz N Specification Typical Specification Typical 10 MHz to 6 2 GHz 73 dBc 78 dBc 73 dBc 75 dBc gt 6 2 GHz to 14 GHz RSA6114A 70 dBc 75 dBc 70 dBc 75 dBc 9 RF input level 15 dBm Atten 10 dB Offset 400 kHz Mode Auto Spurious Response with Signal at 4 75 GHz lt 57 dBc RF input level 30 dBm gt Adjacent Channel Leakage Ratio Dynamic Range Signal Type Measurement Mode ACLR Typical Adjacent Alternate 3GPP Downlink 1 DPCH Uncorrected 70 dB 70 dB Noise Corrected 79 dB 79 dB 3GPP TM1 64 channel Uncorrected 69 dB 69 dB Noise Corrected 78 dB 78 dB 10 Measured with test signal amplitude adjusted for optimum performance CF 2 13 GHz K IF Frequency Response and Phase Linearity A Freguency Range Specification Typical RMS Freg GHz Acq Bandwidth Sp
13. al Time Spectrum Analyzers gt Characteristics Trigger related Acquisition Mode Single or Continuous Free Run or Triggered Trigger Event Source Trigger 1 front Trigger 2 Gate rear Line Trigger Types Level or Frequency Mask Trigger Setting Trigger position settable from 0 to 100 of total acquisition length Trigger Combinational Logic Trig 1 AND Trig 2 Gate may be defined as a trigger event Trigger Delay Range 20 ns to 60 s Resolution 20 ns Uncertainty 20 ns Power Level Trigger Level Range 0 dB to 100 dB from reference level Accuracy For trigger levels gt 30 dB above noise floor 10 to 90 of signal level 0 5 dB level gt 50 dB from reference level 1 5 dB from lt 50 dB to 70 dB from eference level Trigger Bandwidth Range At maximum acquisition BW kHz to 20 MHz wide open standard 1 kHz to 60 MHz wide open Option 110 Trigger Position Timing Uncertainty 40 MHz Acquisition BW 20 MHz BW Uncertainty 10 ns 10 MHz Acquisition BW 60 MHz BW Opt 110 Uncertainty 3 3 ns gt zi Freguency Mask Trigger Opt 02 Mask Shape User defined Mask Point Horizontal Resolution lt 0 2 of span Level Range 0 dB to 80 dB from reference level Level Accuracy 0 to 50 dB from reference level IF Frequency Response 1 0 dB 50 dB to 70 dB from reference level
14. an 60 MHz Gaussian to 12 dB Digital IQ Output Opt 05 Connector Type MDR 3M 50 pin x 2 Data Output Data is corrected for amplitude and phase response in real time data 16 bit LVDS 0 data 16 bit LVDS Control Output Clock LVDS MAX 50 MHz 150 MHz Opt 110 DV Data Valid MSW Most Significant Word indicators LVDS Real Time Spectrum Analyzers K RSA6100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers Control Input IQ data output enabled connecting GND enables output of IQ data Clock Rising Edge to Data Transition Time hold time 8 4 ns typical standard 1 58 ns typical Opt 110 Data Transition to Clock Rising Edge setup time 8 2 ns typical standard 1 54 ns typical Opt 110 10 MHz REF OUT 50 Q BNC gt 0 dBm External REF IN 50 Q BNC 10 dBm 6 dBm 1 MHz to 25 MHz in 1 MHz steps plus 1 2288 MHz 4 8 MHz and 19 6608 MHz External REF IN Freguency Accuracy Reguired lt 0 3 ppm TRIG 2 Gate IN BNC High 1 6 to 5 0 V Low 0 to 0 5 V GPIB Interface IEEE 488 2 LAN Interface Ethernet RJ45 10 100 1000Base T USB Ports USB 2 0 two ports VGA Output VGA compatible 15 D sub Audio out 3 5 mm headphone jack Noise Source Drive BNC 28 V 140 mA nominal General Characteristics Temperature Range Operating 5 C to 50 C 5 C to 40 C when accessing DVD Storage
15. anguages Opt LO English Manual Opt L5 Japanese Manual Opt L7 Simplified Chinese Manual Opt L10 Russian Manual Belgium 07 81 60166 Brazil amp South America 11 40669400 Canada 1 800 661 5625 Central East Europe Ukraine and the Baltics 441 52 675 3777 Central Europe 8 Greece 41 52 675 3777 Denmark 45 80 88 1401 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 8 6714 3010 Luxembourg 44 0 1344 392400 Mexico Central America amp Caribbean 52 65 5424700 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 7 495 7484900 South Africa 27 11 254 8360 Spain 34 901 988 054 Sweden 020 08 80871 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 1 603 627 7111 Updated 15 September 2006 Our most up to date product information is available at www tektronix com CE u amp NS 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 Co
16. ctrogram X X X X Multi domain Correlation X X X X Internal Preamplifier Opt 01 X X X X Digital IQ and Analog IF Output Opt 05 X X X X Removable HDD Opt 06 General Purpose Digital Modulation Analysis Opt 21 X X X X Advanced Pulsed Signal Analysis Opt 20 X X locaton L 169 273 00 Sym ALE 5 35 0 286 OE 277 00 Sym 0 697 140 222 00 Sym 625238 Frequency Eror 127 1 Hr 0 002 db Qu ature Eror 0 055 0 999957 gt Offset 10 240 us X Scale 20 000 ms Mac 0 04 din IR Me 8 814 10 36 v RMS 36 25 dem BIK Constellation Pule Trace sli 26 74 dem 15 Ebed 1 679 273 00 Sp RMS 0 209 Lapse iDaaims gt Scale 460 000 ns gt Time correlated multi domain view provides a new level of insight into gt Pulse measurements available in the Advanced Signal Analysis package design or operational problems not possible with conventional analysis Opt 20 A pulse train upper left is seen with measurements of peak solutions Here ACLR and Vector Modulation Quality Opt 21 are performed si GI width k Hi ae ae phase upper right A on a single acquisition combined with the continuous L detailed view of the pulse rise time is seen in the lower left and a DPX DPX spectrum display display monitors the spectrum on the lower right Real Time Spectrum Analyzers lt www tektronix com rsa 3 Real Time Spectrum Analyzers K RSA6100A Series 6 2 GHz and 14 GHz Re
17. der intermodulation performance gt 2nd Harmonic Distortion Frequency 2nd Harmonic Distortion Typical 10 MHz to 3 1 GHz lt 80 dBc gt 3 1 GHz to 7 GHz RSA6114 only lt 80 dBc 5 _40 dBm at RF input Attenuator 0 Preamp Off typical Real Time Spectrum Analyzers lt www tektronix com rsa 11 Real Time Spectrum Analyzers K RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers gt Displayed Average Noise Level Preamp OFF Frequency Specification Typical 9 kHz to 10 MHz 97 dBm Hz 100 dBm Hz gt 10 MHz to 100 MHz 147 dBm Hz 149 dBm Hz gt 100 MHz to 2 3 GHz 149 dBm Hz 151 dBm Hz gt 2 3 GHz to 4 GHz 147 dBm Hz 149 dBm Hz gt 4 GHz to 6 2 GHz 143 dBm Hz 145 dBm Hz RSA6114A Only 4 GHz to 7 GHz 143 dBm Hz 145 dBm Hz gt 7 GHz to 14 GHz 135 dBm Hz 137 dBm Hz S Measured using 1 kHz RBW 100 kHz Span 100 Averages Minimum Noise Mode Input terminated K Displayed Average Noise Level Preamp ON Opt 01 Frequency Specification Typical 10 MHz to 80 MHz 160 dBm Hz 170 dBm Hz gt 80 MHz to 1 GHz 165 dBm Hz 170 dBm Hz 1 GHz to 2 GHz 166 dBm Hz 170 dBm Hz 2 GHz to 3 GHz 164 dBm Hz 170 dBm Hz gt Residual Response Frequency Spec 40 MHz to 200 MHz 90 dBm gt 200 MHz to 6 2 GHz 95 dBm gt 6 2 GHz to 14 GHz RSA6114A 95 dBm typical 7 Input Terminated RBW 1 k
18. ecification Amplitude Phase 0 01 to 3 0 lt 300 kHz 40 20 dB 0 05 dB 0 5 0 03 to 3 0 lt 40 MHz 0 50 dB 0 18 dB 1 0 gt 3 to 6 2 lt 300 kHz 0 20 dB 0 05 dB 0 5 gt 3 to 6 2 lt 40 MHz 0 50 dB 0 26 dB 1 0 gt 6 2 to 14 RSA6114A lt 300 kHz 0 20 dB 0 05 dB 1 0 gt 6 2 to 14 RSA6114A lt 40 MHz 0 80 dB 0 40 dB 1 0 Option 110 0 07 to 3 0 lt 80 MHz 0 90 dB 0 40 dB 1 5 0 07 to 3 0 sT10 MHz 0 90 dB 0 40 dB 2 0 gt 3 to 6 2 lt 80 MHz 0 90 dB 0 60 dB 1 5 gt 3 to 6 2 s110 MHz 0 90 dB 0 60 dB 2 0 gt 6 2 to 14 RSA6114A lt 80 MHz 1 5 dB 0 70 dB 1 5 gt 6 2 to 14 RSA6114A lt 110 MHz 1 5 dB 1 0 dB 2 25 11 Amplitude flatness and phase deviation over the capture BW includes RF frequency response Attenuator setting 10 dB 12 High Dynamic Range Mode selected Real Time Spectrum Analyzers lt www tektronix com rsa 13 Real Time Spectrum Analyzers K RSA6100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers Advanced Measurement Suite Opt 20 Measurements Rise Time Fall Time Pulse Width Peak Power Average Power Ripple Pulse Repetition Interval Duty Cycle Pulse Pulse Phase Frequency Error Droop Trend FFT of Trend Minimum Pulse Width for Detection 150 ns standard 50 ns Opt 110 System Rise Time typical lt 25 ns standard lt 10 ns Opt 110 Pulse Measurement Accuracy Signal Conditions Unless otherwise stated Pulse Width gt 450 ns 150 n
19. eference Input Frequency Requirements Must be within 3 x 1077 of stated frequency input Spurious lt 80 dBc within 100 kHz offset Input Level Range 10 dBm to 6 dBm Resolution Bandwidth Resolution Bandwidth Range Spectrum Analysis 1 Hz to 5 MHz 1 2 3 5 sequence auto coupled or user selected arbitrary Resolution Bandwidth Shape 1 Hz to 5 MHz Approximately Gaussian shape factor 4 1 1 60 3 dB 10 typical Resolution Bandwidth Accuracy 1 Hz to 5 MHz 1 Auto coupled RBW Mode S Time Domain Bandwidth Time Domain Bandwidth Range At least 1 10 to 1 10 000 of Acquisition Bandwidth 1 Hz Minimum Time Domain BW Shape lt 10 MHz approximately Gaussian shape factor 4 1 1 60 3 dB 10 typical 20 MHz 60 MHz Opt 110 shape factor lt 2 5 1 60 3 dB typical Time Domain Bandwidth Accuracy 1 Hz to 20 MHz and gt 20 MHz to 60 MHz Opt 110 10 gt Minimum Settable Spectrum Analysis RBW vs Span Frequency Span RBW gt 10 MHz 100 Hz gt 1 MHz to 10 MHz 10 Hz lt 1 MHz 1 Hz DPX Digital Phosphor Spectrum Processing Spectrum Processing Rate gt 48 828 s Trace Processing Color graded bit map Peak Peak Average Minimum Signal Duration for 100 Probability of Detection Max hold On 31 us 24 us Opt 110 Span Range 100 Hz to 40 MHz 110 MHz with Opt 110 Resolution BW Accuracy 7 gt Resolution BW Ra
20. er and Frequency Measurements Channel Power Adjacent Channel Power Multi Carrier Adjacent Channel Power Leakage Ratio dBm Hz Marker dBc Hz Marker Time Domain and Statistical Measurements RF 1 Q vs Time Power vs Time Frequency vs Time Phase vs Time CCDF Peak to Average Ratio Advanced Measurements Suite Option 20 Rise Time Fall Time Pulse Width Pulse Peak Power Average Power Ripple Pulse Repetition Interval Duty Cycle Pulse Pulse Phase Frequency Error Droop Trend FFT of Trend General Purpose Digital Modulation Analysis Option 21 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 Constellation Symbol Table Displays by Domain Views Frequency Spectrum Amplitude vs Frequency DPX Spectrum Display Live RF Color Graded Spectrum Spectrogram Amplitude vs Frequency over Time Time and Statistics Frequency vs Time Amplitude vs Time Phase vs Time RF 1 amp Q vs Time Time Overview CCDF Peak to Average Ratio Advanced Measurements Suite Option 20 Pulse Results Table Pulse Trace Selectable by Pulse Number Pulse Statistics Trend of Pulse Results and FFT of Trend Digital Demod Option 21 Constellation diagram EVM vs Time Symbol Table Binary or Hexadecimal 6 Real Time Spectrum Analyzers lt www tektroni
21. ncy and amplitude changes over time Time correlated measurements can be made across the frequency 2 Real Time Spectrum Analyzers www tektronix com rsa phase amplitude and modulation domains This is ideal for signal analysis that includes frequency hopping pulse characteristics modulation switching settling time bandwidth changes and intermittent signals The Windows XP environment makes this multi domain analysis even easier with an unlimited number of analysis windows all time correlated to provide deeper insight into signal behavior A user interface that adapts to your preferences keyboard front panel touch screen and mouse makes learning the RSAG100A Series easy for both first time users and experienced hands Real Time Spectrum Analyzers RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers Options Tailor Your RSA for Specific Applications The RSA6100A Series offers options to meet your specific application whether it be radar characterization communications system design cognitive or software defined radio research or spectrum management K Example Applications Benefiting from Key RSA61000A Series Standard Capabilities and Options Analysis Feature SDR and Cognitive Cellular WLAN Radar Pulsed Spectrum Radio General Comms Signals Management DPX Spectrum Processing X X X X Frequency Mask Trigger Opt 02 X X X X 110 MHz Capture Bandwidth Opt 110 X X X X Spe
22. nge vs a Span DPX Span RBW Min 110 MHz 600 kHz 55 MHz 300 kHz 40 MHz 200 kHz 20 MHz 100 kHz 10 MHz 50 kHz 5 MHz 25 kHz 2 MHz 13 kHz 1 MHz 7 kHz 500 kHz 4 kHz 200 kHz 2 kHz 100 kHz 800 Hz 50 kHz 400 Hz 20 kHz 200 Hz 10 kHz 100 Hz 5 kHz 50 Hz 2 kHz 13 Hz 1 kHz 7 Hz 500 Hz 4 Hz 200 Hz 2 Hz 100 Hz 1 Hz Real Time Spectrum Analyzers lt www tektronix com rsa 7 Real Time Spectrum Analyzers gt RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers M ultiple correlated views in all domains Freguency Time Amplitude Phase Modulation with intuitive user interface Revolutionary DPX spectrum processing for unmatched troubleshooting and live transient analysis Touch screen mouse and front panel controls directly adjust settings in the views Windows XP Operating System with Tek OpenChoice for easy file operations printing Ethernet and GPIB control remote connections and more Two external triggers to capture key event information 1front 1rear Real Time Spectrum Analyzers K RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers Completely Characterize Time varying RF Signals 14 GHz D X Tektronix RSA 6114A Real Time Spectrum Analyzer EM Tek RTSA DPSA Measurement DAR Flo Vew Run Markers Setup Tools Widow Mob W rs Markers Settings Trig aca Arz gt
23. pyright 2006 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 referenced are the service marks trademarks or registered trademarks of their respective companies 12 06 HB WOW Tektronix Enabling Innovation a d 37W 19513 1
24. r Signal Parameters of Multi Carrier 3G and 4G Systems for Offline Analysis Analyze Time Variant Behavior of Cognitive Radio and Software Defined Radio Systems Find Interference and Unknown Signals in Spectrum Monitoring and Management Troubleshoot RF Components Modules or Systems Tektronix 7 Enabling Innovation Real Time Spectrum Analyzers K RSAG100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers Discover The patented DPX spectrum processing engine brings live analysis of transient events to spectrum analyzers Performing gt 48 000 frequency transforms per second transients as brief as 24 us in length are displayed in the frequency domain This is a 1000 fold improvement over swept analysis techniques Events can be color coded by rate of occurrence onto a bit mapped display providing unparalleled insight into transient signal behavior Trigger The patented Tektronix Frequency Mask Trigger FMT Opt 02 makes it easy to capture transient signals in up to a 110 MHz bandwidth An FMT is simply configured to monitor all changes in frequency occupancy within the capture bandwidth A Power Trigger working in the time domain and in any capture bandwidth can be armed to monitor for a user set power threshold to be crossed during a moment in time Resolution bandwidths may be used with the power trigger for band limiting and noise reduc tion Two external triggers are available for synchroniza
25. s Opt 110 S N Ratio 230 dB Duty Cycle 0 5 to 0 001 temperature 18 C to 28 C Measurement Accuracy typical Average ON Power 0 3 dB Absolute Amplitude Accuracy Average Transmitted Power 0 4 dB Absolute Amplitude Accuracy Peak Power 0 4 dB Absolute Amplitude Accuracy Pulse Width 3 of reading Duty Factor 3 of reading Pulse to Pulse Phase At Stated At 10 GHz At 2 GHz Frequency and Measurement Bandwidth BW 20 MHz S 3 2 BW 40 MHz zile 3 7 BW 60 MHz Opt 110 1 9 4 BW 110 MHz Opt 110 2 5 13 Pulse width gt 300 ns 100 ns Opt 110 14 Pulse ON power 20 dBm signal peak at Reference Level Attenuator Auto teas treference lt 10 ms Frequency Estimation Manual CW non chirped pulses Measurement time position excludes the begin ning and ending of the pulse extending for a time 10 Measurement BW as measured from 50 of the tise OF trai Digital Modulation Analysis Option 21 Modulation Formats BPSK QPSK 8PSK 16QAM 64QAM 2560AM GMSK s 4DOPSK DOPSK D8PSK Analysis Period Up to 80 000 Samples Filter Types Measurement Filters Sguare root raised cosine raised cosine Gaussian rectangular IS 95 IS 95 EQ none Reference Filters Raised cosine Gaussian rectan gular IS 95 none Alpha B T Range 0 001 to 1 0 001 step Symbol Rate Range 1 kSymbols s to 100 MSymbols s Modulated signal
26. tion to test system events Capture Capture once make multiple measure ments without recapturing All signals in a capture bandwidth are recorded into the RSA6100A Series deep memory Record lengths vary depending upon the selected capture bandwidth up to 1 7 seconds at 110 MHz 102 seconds at 1 MHz or 2 1 hours at 10 kHz bandwidth with Spectrogram Overlap 75 Peak Normal autoscae CF 2 44500 GHz Span 10 00 MHz v Spectrog 100 00 dem CF 2 44500 GHz Span 10 00 MHz b Trigger and Capture The frequency mask trigger monitors for changes in the frequency domain and captures any violations into memory The spectrogram display left panel shows frequency and amplitude changing over time By selecting the point in time in the spectrogram where the spectrum violation triggered the FMT the frequency domain view right panel automatically updates to show the detailed spectrum view at that precise moment in time FMT Deep Memory Option 02 Real time capture of small signals in the presence of large signals is enabled with 73 dB SFDR in all capture band widths even up to 110 MHz Opt 110 Analyze The RSA6100A Series 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 or spec trum management Spectrograms display both freque
27. x com rsa Spectrum Display Traces Detectors and Functions Traces Three traces 1 math waveform 1 trace from spectrogram for spectrum display Detector Peak peak average Trace Functions Normal Average Max Hold Min Hold Spectrum Trace Length 801 2401 4001 8001 or 10401 points RF Performance Frequency Frequency Range 9 kHz to 6 2 14 GHz RSA6106A RSA6114A Initial Center Frequency Setting Accuracy Within 1077 after 10 minute warm up Center Frequency Setting Resolution 0 1 Hz Frequency Marker Readout Accuracy RE x MF 0 001 x Span 2 Hz RE Reference Frequency Error MF Marker Frequency HZ Span Accuracy 0 3 Auto mode Reference Frequency Initial Accuracy at Cal 1 x 107 after 10 minute warm up Aging per Day 1 x 10 after 30 days of operation Aging per 10 Years 3 x 107 after 10 years of operation Temperature Drift 2 x 10 8 0 to 50 C Cumulative Error Temperature Aging 4 x 107 within 10 years after calibration typical Real Time Spectrum Analyzers K RSA6100A Series 6 2 GHz and 14 GHz Real Time Spectrum Analyzers Reference Output Level gt 0 dBm internal reference selected Reference Output Level loopthrough 0 dB nominal gain from Ext Ref In to Ref Output 15 dBm max output External Reference Input Freguencies 1 to 25 MHz 1 MHz steps 1 2288 MHz 4 8 MHz and 19 6608 MHz External R
Download Pdf Manuals
Related Search