Rohde & Schwarz
Contents
1. DC voltage AC coupling 50 V DC voltage DC coupling OV RF attenuation 0 dB CW RF power 20 dBm 0 1 W Pulse spectral density 97 dBuV 1 MHz RF attenuation gt 10 dB CW RF power 30 dBm 1 W Max pulse voltage 150 V Max pulse energy 10 us 1 mWs 1 dB compression of input mixer 0 dB RF attenuation 13 dBm nominal 13 dBm nominal up to 3 6 GHz 10 dBm nominal from 3 6 GHz to 8 GHz dBm nominal from 3 6 GHz to 26 GHz intermodulation Third order intermodulation Third order intercept TOI level 2 x 10 dBm Af gt 5 x RBW or 10 kHz whichever is larger gt 17 dBm 20 dBm typ for f 10 MHz to 300 MHz gt 20 dBm 25 dBm typ for f gt 300 MHz gt 17 dBm 20 dBm typ for f 10 MHz to 300 MHz gt 20 dBm 25 dBm typ for f 300 MHz to 3 6 GHz gt 18 dBm 23 dBm typ for f 3 6 GHz to 8 GHz gt 17 dBm 20 dBm typ for f 10 MHz to 300 MHz gt 22 dBm 27 dBm typ for f 300 MHz to 3 6 GHz gt 12 dBm 15 dBm typ for f 3 6 GHz to 26 5 GHz Second harmonic intercept point SHI fn lt 100 MHz In gt 35 dBm 100 MHz lt tf lt 400 MHz In gt 45 dBm 55 dBm typ 400 Mbz lt f lt 500 Hz n gt 52 dBm 60 dBm typ 500 MHz lt f lt 1 GHz In gt 45 dBm 55 dBm typ 1 GHz lt f lt 1 8 GHz In gt 35 dBm f_ gt 1 8 GHz gt 80 dBm nominal Displayed aver2. Measurement in time domain with marker and display lines resolution 31 25 ns Resolution bandwidths Analog filters 3 dB bandwidths 10 Hz to 20 MHz in 1 2 3 5 sequence 50 MHz Bandwidth error 10 Hz to 100 kHz lt 3 200 kHz to 5 MHz lt 10 10 MHz 20 MHz 30 to 10 50 MHz 30 to 10 30 to 10 for f lt 3 6 GHz 30 to 100 for f gt 3 6 GHz Shape factor 60 dB 3 dB lt 100 kHz lt 6 200 kHz to 2 MHz lt 12 3 MHz to 10 MHz lt 20 MHz 50 MHz lt 6 nominal Video bandwidths 1 Hz to 10 MHz in 1 2 3 5 sequence 1 After 30 days of continuous operation Spectrum Analyzer R amp S FSU 11 R amp S FSU3 R amp S FSU8 R amp S FSU26 FFT filters 3 dB bandwidths 1 Hz to 30 kHz in 1 2 3 5 sequence Bandwidth error lt 5 nominal Shape factor 60 dB 3 dB lt 3 nominal EMI filters 6 dB bandwidths 200 Hz 9 kHz 120 kHz Bandwidth error lt 3 nominal Shape factor 60 dB 3 dB lt 6 nominal Channel filters Bandwidths 100 200 300 500 Hz 1 1 5 2 2 4 2 7 3 3 4 4 4 5 5 6 8 5 9 10 12 5 14 15 16 18 RRC 20 21 24 3 RRC 25 30 50 100 150 192 200 300 500 kHz 1 1 228 1 5 2 3 5 MHz Shape factor 60 dB 3 dB lt 2 nominal Bandwidth error 2 nominal Level Display range displayed average noise level to 30 dBm Maximum input level
3. Spectrum Analyzer R amp S FSU 9 Profit from the advantages of networking Versatile documentation and networking capabilities The standard disk drive makes it easy for you to integrate results into documenta tion simply save the screen contents as a BMP or WMF file and import them into your word processing system To process trace data save them as an ASCII file CSV format which not only documents trace data but also the main instrument set tings Make use of the advantages offered by networking The option R amp S FSU B16 Opens up versatile networking capabilities Link to standard network Ethernet 10 100BaseT Running under Windows NT the R amp S FSU can be configured for network operation Applications such as data output to a central network printer or saving results on a central server can easily be implemented The R amp S FSU can thus be optimally matched to any work environment You can import screen contents di rectly into Word for Windows or by using an MS Excel macro into your documentation programs and so im mediately create data sheets for your products or documents for quality as surance 10 Spectrum Analyzer R amp S FSU Remote control by Ethernet is even simpler Remote control software Allows mouse operation of the R amp S FSU after assigning ita TCP IP address All elements of the R amp S FSU screen are represented by a soft front panel func tion the complete R amp
4. 32 channel filters with bandwidth from 100 Hz to 5 MHz RRC filters for NADC and TETRA EMI filters 200 Hz 9 kHz 120 kHz wal 2 4 Spectrum Analyzer R amp S FSU Full range of analysis functions Time domain power in conjunction with channel or RRC filters turn the R amp S FSU into a fully fledged channel power meter Fig 2 TOI marker Fig 3 Noise phase noise marker Versatile channel adjacent channel power measurement functions with wide selection of standards user configurable Fig 4 Split screen mode with selectable settings CCDF measurement function Fig 5 Peak list marker for fast search of all peaks within the set frequency range search for spurious wide dynamic range and future proof performance Whether in synthesizer development or frontend design additional applications add to the R amp S FSU functionality while user friendliness is maintained Phase Noise Measurement Software R amp S FS K4 automates measurement over a complete offset frequency range and determines residual FM from the phase noise characteristic This in conjunction with the R amp S FSU s extremely low phase noise generally does away with the need for an extra phase noise measurement system which can be difficult to operate anyway Noise Measurement Software R amp S FS K3 is a convenient way to determine the noise figure of amplifiers and frequency converting UUTs througho
5. Spectrum Analyzer R amp S FSU The high end spectrum analyzer with unmatched performance Features Speed Fast ACP test routine in time domain User configurable list for fast mea surements at frequencies of interest Up to 60 measurements s in time domain via IEC IEEE bus including trace data transfer Versatile resolution filters Gaussian FFI channel RRC Comprehensive test routines T01 OBW CCDF Channel power ACPR ACPR in time domain Full choice of detectors Auto Peak Max Peak Min Peak sample RMS Average Quasi Peak Optional electronic attenuator Standards GSM EDGE Bluetooth wireless technology Code domain power for 3GPP WCDMA and CDMA2000 Unmatched performance Unmatched dynamic range TOI typ 25 dBm 1 dB compression 13 dBm Phase noise 123 dBc 1 Hz typ at 10 kHz offset 160 dBc 1 Hz typ at 10 MHz offset Excellent display linearity lt 0 1 dB 84 dB ACLR 3GPP with noise correction ROHDE amp SCHWARZ Milestones The name Rohde amp Schwarz has been syn onymous with innovative spectrum ana lyzers since 1986 the unique features of which have repeatedly set standards in this technology Examples are the ana lyzers of the R amp S FSE and R amp S FSIQ fami lies The Spectrum Analyzer R amp S FSU is another milestone New circuit concepts advanced RF components A D converters and ASIC technology extensive experi ence gained f
6. Supply voltages 10 V and ground max 100 mA nominal Keyboard Keyboard connector PS 2 female for MF2 keyboard AF output AF output 3 5 mm mini jack Output impedance 100 Open circuit voltage up to 1 5 V adjustable Inputs and outputs rear panel IF 20 4 MHz Lout 00 Q BNC female Bandwidth RBW lt s 100 kHz 1 5 x resolution bandwidth 2 6 kHz min 10 MHz gt RBW gt 200 kHz same as resolution bandwidth Level RBW lt 100 kHz FFT 20 dBm at reference level mixer level gt 0 dBm 10 MHz gt RBW gt 200 kHz 0 dBm at reference level mixer level gt 50 dBm IF 404 4 MHz Zaut 00 Q BNC female 404 4 MHz IF output active only if RBW gt 10 MHz Bandwidth RBW gt 10 MHz same as resolution bandwidth Level Mixer level lt 0 dBm mixer level 10 dB typ only active if RBW 20 50 MHz Video output Zin OVO BNG female Voltage RBW 200 kHz 0 V to 1 V full scale open circuit voltage logarithmic scaling Reference frequency Output BNC female Output frequency 10 MHz Level gt 0 dBm nominal Input BNC female Input frequency range 1 MHz to 20 MHz in 1 Hz steps Required level gt 0 dBm from 50 Q Sweep output BNC female 0 V to 5 V proportional to displayed frequency Power supply connector for noise source BNC female 0 V and 28 V switchable max 100 mA External trigger gate input BNC femal
7. Modulation deviation of tracking generator with 1 0 modulation typical values baseband signals generated by the R amp S AMIO EVM Phase error Standard RMS Peak RMS Peak GSM DCS1800 PCS 1900 Ja i NADC TETRA PDC 2 4 z PHS 2 5 IS 95 CDMA rho factor 0 997 Inputs and outputs front panel RF output N female 50 Q VSWR 100 kHz lt f lt 2 GHz 1 2 2 GHz lt f lt 3 6 GHz 1 5 Inputs and outputs rear panel TG I AM IN Vimax pp 0 9 V Zin 90 Q BNC female TG Q FM IN Vinax pp 0 9 V Zin 90 Q BNC female Optional Extended Environmental Specification R amp S FSU B20 Temperature range without condensation Operating temperature range 0 C to 50 C Permissible temperature range 0 C to 55 C Mechanical resistance Vibration random Optional RF Preamplifier R amp S FSU B23 for R amp S FSU 26 only Level measurement accuracy S N gt 40 dB Frequency response with preamp ON 10 Hz to 300 Hz acceleration 1 9 g rms 3 6 GHz to 8 GHz lt 2 0 dB o 0 dB 8 GHz to 22 GHz lt 2 9 dB o 0 8 dB 22 GHz to 26 5 GHz lt 3 0 dB o 1 dB Displayed average noise level RBW 1 kHz VBW 3 kHz zero span sweeptime 50 ms 20 averages mean marker normalized to 10 Hz RBW Preamp OFF 3 6 GHz to 8 GHz R amp S FSU specifications 2 0 dB 8 GHz to 26 5 GHz R amp S FSU specifications 3 0 dB Preamp ON 3 6 GHz to 8 GHz lt 152 dBm 8 GHz to 13 GH
8. Level setting range 30 dBm to 0 dBm in steps of 0 1 dB Level setting range with with option R amp S FSU B12 100 dBm to 5 dBm in steps of 0 1 dB Max deviation of output level Absolute f 128 MHz output level 20 dBm to 0 dBm lt 1 dB o 0 34 dB Frequency response referenced to level at 128 MHz sweep time gt 100 ms 5 C to 45 C Output level 20 dBm to 0 dBm 100 kHz to 3 6 GHz lt 3 dB 1 9 dB typ Output level 30 dBm to 20 dBm f 100 kHz to 3 6 GHz 3 dB Additional deviation with R amp S FSU B12 100 kHz to 3 6 GHz lt 1 dB Spectrum Analyzer R amp S FSU 15 Dynamic range Attenuation measurement range RBW 1 kHz f gt 10 MHz 100 dB Spurious Harmonics output level 10 dBm 30 dBc typ Nonharmonics output level 0 dBm 30 dBc typ Modulation Modulation format external I Q AM FM AM ftenter gt fmog Span 10 Hz Modulation depth 0 to 99 Modulation frequency response 0 Hz to 5 MHz 1 dB 0 Hz to 30 MHz 3 dB FM fcenter gt t og Span 0 Hz Frequency deviation 0 Hz to 10 MHz Modulation frequency range 0 Hz to 1 kHz max Hub 10 MHz 0 Hz to 100 kHz max Hub 1 MHz Modulation frequency response 0 kHz 100 kHz 1 dB I O modulation fcenter gt fMog Span 0 Hz Modulation frequency response 0 Hz to 5 MHz 1 dB 0 Hz to 30 MHz 3 dB
9. S FSU screen shows on the remote PC Server R amp S FSU Networked operation of the R amp S FSU Remote control of the R amp S FSU Ethernet network Special RSIB interface This links your application to the TCP IP protocol and acts like an IEC IEEE bus driver The RSIB inter face is available for Windows and the UNIX world The R amp S FSU can be pro grammed via this interface just like on the familiar IEC IEEE bus Printer R amp S FSU remotely controlled from a PC San Specifications Specifications apply under the following conditions 30 minutes warm up time at ambient temperature specified environmental conditions met calibration cycle adhered to and total calibration performed Data without tolerances typical values only Data designated nominal apply to design parameters and are not tested Data designated o xx dB are shown as standard deviation R amp S FSU3 R amp S FSU8 R amp S FSU 26 Frequency Frequency range DC coupled 20 Hz to 3 6 GHz 20 Hz to 8 GHz 20 Hz to 26 5 GHz AC coupled 1 MHz to 3 6 GHz 1 MHz to 8 GHz 10 MHz to 26 5 GHz Frequency resolution 0 01 Hz Internal reference frequency nominal with standard OCXO Aging per day 1x 10 Aging per year 1x 107 Temperature drift 0 C to 50 C 8x 10 Total error per year 1 8 x 107 Internal reference frequency nominal option R amp S FSU B4 Aging
10. Typical 160 170 0 1 1 10 100 1000 10000 Carrier offset kHz ie FSRF lolx Moise figure measure ment with jE S p Software Lossin oma M OnE i R amp S FS K3 LOSS Out Dou de a ot a a a A A I om 135 MHZ 2 MAZI DIY 155 MHz Spectrum Analyzer R amp S FSU D From GSM to UMTS From GSM to UMTS ready for 3G mobile radio In conjunction with GSM EDGE Applica AA ion Firmware R amp S FS 5 the RAS FSU et ft fe offers complete functionality for RF and a ee M ff aad induded in the RBS FSS O Ss nan error for GSM Modulation accuracy for EDGE with EVM and ETSl conformant weighting filters QOS 95 th percentile ft Power versus time with synchronization to midamble Spectrum due to modulation Spectrum due to transients modulation measurements in GSM sys The above features plus its wide dynamic SWT 4 837 ms range make the R amp s FSU an ideal tool in base station development and testing ae l el ea This is enhanced by excellent characteris sai i e fl kl a A tics ready incorporated in the standard im ie a unit e g lt 0 3 dB total measurement uncertainty gated sweep and IF power trigger Even in its basic version the R amp S FSU offers the functionality and characteris tics needed to develop verify and pro duce 3G mobile radio systems ENP EEA B Se ie RMS detector provided as st
11. accept passed region Given the same spread of results more products will pass the test The R amp S FSU helps you boost your pro duction yield due to a total measurement uncertainty of lt 0 3 dB 2o LAN interface With the aid of the optional LAN Interface R amp S FSU B16 the R amp S FSU can be con nected to common networks such as 100Base I so that functions like file log ging on network drives or documentation of measurement results via network print er are available In addition the R amp S FSU can be remote controlled via LAN This yields a clear speed advantage over the IEC IEEE bus in particular for the trans mission of large data blocks Yield for 1 dB total measurement uncertainty Additional yield for 0 3 dB total measurement uncertainty Deviation from gt mean power dB Production sample Effect of measurement uncertainty on production yield to boost your production yield 859x 8566 compatible IEC IEEE bus command set In many applications existing test soft ware is to be used in automatic test sys tems with new devices For this reason the R amp S FSU is provided as standard with an IEC IEEE bus command set that is compatible not only with the R amp S FSEx R amp S FSIO family but also with the spec trum analyzers of the 859x 8566 series It was of utmost Importance to achieve maximum compatibility in order to mini mize the changing effort Approx 175 c
12. dB preamplifier R amp S FSU B25 1144 9298 02 Spectrum Analyzer R amp S FSU 17 Software Noise Measurement Software R amp S FS K3 1057 3028 02 Phase Noise Measurement Software R amp S FS K4 1108 0088 02 GSM EDGE Application Firmware R amp S FS K5 1141 1496 02 FM Measurement Demodulator R amp S FS K7 1141 1796 02 Application Firmware for Bluetooth Measurements R amp S FS K8 1157 2568 02 3GPP BIS Node B FDD Application Firmware R amp S FS K72 1154 7000 02 3GPP UE FDD Application Firmware R amp S FS K73 1154 7252 02 CDMA2000 BTS FDD Application Firmware R amp S FS K82 1157 2316 02 Service Kit R amp S FSU Z1 1145 0042 02 Factory installation only 4 Not with R amp S FSU B20 3 Not with R amp S FSU B18 B19 4 Not for retrofit 5 R amp S FSU B25 required Recommended extras Order designation Type Order No Microwave Measurement Cable with Adapter Set for R amp S FSU26 only R amp S FSE 215 1046 2002 02 Headphones 0708 9010 00 US Keyboard with trackball R amp S PSP Z2 1091 4100 02 PS 2 Mouse R amp S FSE Z2 1084 7043 02 Colour Monitor 17 230 V R amp S PMC3 1082 6004 04 IEC IEEE Bus Cable 1 m R amp S PCK 0292 2013 10 IEC IEEE Bus Cable 2 m R amp S PCK 0292 2013 20 19 Rack Adapter R amp S ZZA 411 1096 3283 00 Adapter for mounting on telescopic rails only with 19 Adapter R amp S ZZA 411 R amp S ZZA 145 1109 3774 00 P
13. station signals UE R amp S FS K82 Modulation and code domain power measurements to CDMA2000 3GPP2 on base station signals also for measurements on IS 95 cdmaOne signals R amp S FS K3 Noise figure measurements Windows software Recommended options Preamplifier R amp S FSU B23 R amp S FSU B25 R amp S FS K4 Phase noise measurements Windows software Spectrum Analyzer R amp S FSU 7 What can we do Short test cycles high throughput The R amp S FSU is just the right instrument for this Fast data transfer on the IEC IEEE bus or an Ethernet LAN plus intelligent routines optimized for speed make for very short measurement times FAST ACP for the major mobile radio standards with high reproducibility and accuracy List mode combined measurement of various parameters at a single com mand Fast time domain power measure ment using channel or RRC filters Up to 60 measurements s in zero span via IEC IEEE bus including trace data transfer Fast sweeping FFI filters for spurious measurement at low levels Fast frequency counter 0 1 Hz resolu tion for a measurement time of lt 30 ms Downtime and repair time cut to a minimum No limited lifetime of mechanical attenuators due to high throughput The optional electronic attenuator R amp S FSU B25 with 25 dB setting range does away with any mechanical switching so the R amp S FSU s high accuracy is main tained without any ear
14. 068 2 6 EN 60068 2 30 EN 61000 1 MIL I 28800D class 5 Vibration random 10 Hz to 100 Hz acceleration 1 g rms Shock test 40 g shock spectrum meets MIL STD 810C and MIL I 28800D classes 3 and 5 Recommended calibration interval 2 years for operation with external reference 1 year with internal reference RFI suppression meets EMC directive of EU 89 336 EEC and German EMC law Power supply AC supply 100 V AC to 240 V AC 3 1 A to 1 3 A 50 Hz to 400 Hz class of protection to VDE 411 Power consumption typ 130 VA typ 150 VA Safety meets EN 61010 1 UL 3111 1 CSA 22 2 No 1010 1 EN 61000 1 Test mark VDE GS CSA CSA NRTL Dimensions W x H x D 435 mm x 192 mm x 460 mm 435 mm x 192 mm x 460 mm Weight 14 6 kg 15 4 kg Tracking Generator R amp S FSU B9 Unless specified otherwise specifications not valid for frequency range from 3 x RBW to 3 x RBW however at least not valid from 100 kHz to 100 kHz Maximum output level peak modulation in the case of amplitude modulated signals 5 dBm Frequency Frequency range 100 kHz to 3 6 GHz Resolution 1 Hz Frequency offset Setting range 200 MHz Resolution 1 Hz Spectral purity SSB phase noise f 500 MHz carrier offset 10 kHz Normal mode 120 dBc 1 Hz typ With frequency offset 110 dBc 1 Hz typ With FM modulation on 110 dBc 1 Hz typ Level
15. able frequency responses 2 year calibration cycle 3 year warranty External reference from 1 MHz to 20 MHz in 1 Hz steps 1 Except parts subject to wear and tear e g attenuators In addition various standard specific modulation and spectrum measurement routines are available as options Ready today for tomorrow Functions such as CCDF analysis Fast ACP measurement in time do main RMS detector Selection of filter characteristic Recording and readout of up to 2 x 512 ksamples of Q data 8 MHz RF bandwidth High measurement accuracy Excellent display linearity and features such as 50 MHz bandwidth mean that the R amp S FSU is ready now for tomorrow s needs Spectrum Analyzer R amp S FSU 3 Shorter development cycles through versatile functions To handle the wide variety of measure ment tasks in product development an instrument must offer ample functionality and excellent performance in all areas of interest The R amp S FSU fully meets these requirements Full choice of detectors for adaptation to a wide range of signal types Fig 1 RMS AUTO PEAK MAX PEAK MIN PEAK SAMPLE AVERAGE QUASI PEAK Pale er vee ACP STANDARD NE CHAN NEL The most versatile resolution filter char acteristics and largest bandwidth found in a spectrum analyzer Standard resolution filters from 10 Hz to 50 MHz in steps of 1 2 3 5 FFI filters from 1 Hz to 30 kHz
16. age noise level 0 dB RF attenuation RBW 10 Hz VBW 30 Hz 20 averages trace average span 0 Hz termination 50 Q Frequency 20 Hz lt 80 dBm 100 Hz lt 100 dBm 1 kHz lt 110 dBm 10 kHz lt 120 dBm 100 kHz lt 120 dBm 1 MHz lt 130 dBm 10 MHz to 2 GHz lt 145 dBm 148 dBm typ lt 142 dBm 146 dBm typ 2 GHz to 3 6 GHz lt 143 dBm 147 dBm typ lt 143 dBm 145 dBm typ lt 140 dBm 143 dBm typ 3 6 GHz to 7 GHz lt 142 dBm 146 dBm typ lt 142 dBm 144 dBm typ 7 GHz to 8 GHz lt 140 dBm 3 6 GHz to 8 GHz lt 142 dBm 146 dBm typ 8 GHz to 13 GHz lt 140 dBm 143 dBm typ 13 GHz to 18 GHz lt 138 dBm 141 dBm typ 18 GHz to 22 GHz lt 137 dBm 140 dBm typ 22 GHz to 26 5 GHz lt 135 dBm 138 dBm typ 12 Spectrum Analyzer R amp S FSU R amp S FSU3 R amp S FSU8 R amp S FSU 26 Maximum dynamic range 1 dB compression to DANL 1 Hz 170 dB Immunity to interference Image frequency f lt 3 6 GHz gt 90 dB gt 110 dB typ f gt 3 6 GHz gt 0 dB 100 dB typ Intermediate frequency f lt 3 6 GHz gt 90 dB gt 110 dB typ 3 6 GHz lt f lt 4 2 GHz f gt 4 2 GHz 70 dB typ gt 0 dB gt 90 dB typ Spurious responses f gt 1 MHz without input signal 0 dB
17. andard in Rohde amp Schwarz analyzers for 1 GHz many years and allowing accurate Measurement of power ramp on EDGE burst power measurements independently of signal form 3GPP specifications Dedicated CCDF measurement func stipulate RMS power measurements tion that determines the probability of for most tests instantaneous signal power exceed ACP measurement function for 3GPP ing average power CCDF measure with 3 84 MHz bandwidth RRC filter ment is indispensable to determine for standard conformant adjacent optimum transmit power for CDMA channel power measurements with a signals assuming that clipping at dynamic range limit of 77 5 dB known short intervals is tolerable 6 Spectrum Analyzer R amp S FSU ready for 3G mobile radio Bluetooth signal measurements Enhanced measurement functionality in line with B vetooth RF Test Specifi cation B uetooth SIG Rev 0 91 Measurement functions Qutput power Adjacent channel power ACP Modulation characteristics Initial carrier frequency tolerance ICTF Carrier frequency drift Simultaneous display of traces and all numerical measurement results Automatic limit value monitoring Ideal for use in development and pro duction of Bluetooth modules Standard 8GPP modulation and code domain power measure ments Additional measurement functions in line with 3GPP specifications for FDD mode For BIS node B signals Application Firmware R am
18. attenuation lt 103 dBm Other spurious Af gt 100 kHz f lt 2 3 GHz lt 80 dBc mixer level lt 10 dBm 2 3 GHzs f lt 4 GHz lt 0 dBc mixer level lt 35 dBm 4 GHz lt f lt 8 GHz lt 80 dBc mixer level lt 10 dBm 8 GHz lt f lt 16 GHz lt 74 dBc f gt 16 GHz lt 68 dBc Level display spectrum mode screen 625 x 500 pixels one diagram max 2 diagrams with independent settings Logarithmic level axis 1 dB 10 dB to 200 dB in 10 dB steps Linear level axis 10 of reference level per level division 10 divisions or logarithmic scaling Traces max 6 with 2 diagrams on screen max 3 per diagram Trace detectors Max Peak Min Peak Auto Peak Normal Sample RMS Average Quasi Peak Trace functions Clear Write Max Hold Min Hold Average Number of measurement points 625 settable between 155 and 100001 in steps of approx factor 2 Setting range of reference level Logarithmic level display 130 dBm to 5 dBm RF attenuation max 30 dBm in steps of 0 1 dB Linear level display 7 0 nV to 7 07 V in steps of 1 Units of level axis dBm dBuV dBmV dBA dBpW log level display uV mV UA mA pW nW linear level display Level measurement accuracy Reference error at 128 MHz RBW lt 100 kHz reference level 30 dBm RF attenuation 10 dB lt 0 2 o 0 07 dB Frequency re
19. e gt 10 kQ Trigger voltage 1 4 V TTL 14 Spectrum Analyzer R amp S FSU R amp S FSU3 R amp S FSU8 R amp S FSU 26 IEC IEEE bus remote control interface to IEC 625 2 IEEE 488 2 Command set SPI 1997 0 Connector 24 pin Amphenol female Interface functions SH1 AH1 T6 L4 SR1 RL1 PP1 DC1 DT1 CO Serial interface RS 232 C COM 9 pin Sub D female Printer interface parallel Centronics compatible Mouse connector PS 2 female Connector for external monitor VGA 15 pin Sub D female 1 2 General data Valid for temperatures between 20 C and 30 C lt 0 6 dB for temperatures between 5 C and 45 C Valid for temperatures between 20 C and 30 C and span lt 1 GHz add lt 0 5 dB for temperatures between 5 C and 45 C or span gt 1 GHz Display 21 cm TFT LCD colour display 8 4 Resolution 800 x 600 pixels SVGA resolution Pixel failure rate lt 1x10 Mass memory 1 44 Mbyte 31 2 disk drive hard disk Data storage gt 500 instrument settings and traces Temperature range Operating temperature range 5 C to 40 C Permissible temperature range 0 C to 50 C Storage temperature range 40 C to 70 C Damp heat 40 C at 95 relative humidity EN 60068 2 30 Mechanical resistance Vibration sinusoidal 5 Hz to 150 Hz max 2 g at 55 Hz 0 5 g from 55 Hz to 150 Hz meets EN 60
20. ent channel power mea surements a figure of 84 dB ACLR allows good adjacent channel power ratios to be verified and demonstrated very simply and with high accuracy Build your node B better than others and prove It The high harmonic second order intercept point means optimum dynamic range for multichannel cable TV measurements Wealth of functions The R amp S FSU is launched with the most abundant functionality available on the spectrum analyzer market All major func tions come straight away in the basic unit Highly selective digital filters from 10 Hz to 100 kHz Fast FFT filters from 1 Hz to 30 kHz Channel filters from 100 Hz to 5 MHz RRC filters Resolution bandwidth from 1 Hz to 50 MHz OP detector and EMI bandwidths 200 Hz 9 kHz 120 kHz 2 5 ms sweep time in frequency domain 1 us sweep time in time domain Number of measurement points trace selectable between 155 and 10001 Time selective spectrum analysis with gating function GPIB interface IEEE 488 2 RS 232 C serial interface 9 pin Sub D connector VGA output 15 pin Sub D PC compatible screenshots on diskette or hard disk Up to 20 measurements s in manual mode Up to 30 measurements s on GPIB interface SCPl compatible GPIB command set R amp S FSE R amp S FSIO compatible GPIB command set Fast ACP measurement in time domain Statistical signal analysis with CCDF function RMS detector of 100 dB dynamic range Transducer factor for correcting antenna or c
21. ly failure A two year calibration cycle minimizes down time for instrument calibration 8 Spectrum Analyzer R amp S FSU Spurious emission measurements without notch filter The R amp S FSU is the ideal choice for this type of measurement even for tests on GSM base stations The extremely low phase noise and high 1 dB compression point of the R amp S FSU enable direct mea surements without the use of extra auto matic or manually tuned notch filters This eliminates possible sources of error and makes measurements simpler and more reliable Another step enhancing the reliability of your test system Existing programs for the R amp S FSE R amp S FSIO or R amp S FSP can be used on the R amp S FSU The R amp S FSU complies with SCPI conven tions and is IEC IEEE bus compatible with respect to the R amp S FSE and R amp S FSIQ These instruments can in most cases be directly replaced with no or only minor changes to the software If changes have to be made they affect only those pro gram parts that concern the speed optimized measurement routines of the R amp S FSU Probability density External frequency standards The R amp S FSU accepts signals between 1 MHz and 20 MHz in steps of 1 Hz Higher production yield Enhanced measurement accuracy makes for higher production yield The safety margins that usually compensate for the measurement uncertainty of test systems can be reduced so increasing the
22. ommands in IEEE488 2 format incl CF AT ST The most important commands in IEEE488 1 format 8566A for exclu sive use only Selectable presets Selectable trace format The IEC IEEE bus commands in IEEE488 2 format can be used together with the R amp S FSU command set so that it is possi ble to enhance and complete available software by using the innovative instru ment functions of the R amp S FSU such as list mode channel filters without having to redesign the test software Input command SENSE LIST POW 100MHz 0dBm 10dB 10dB NORM 1MHz 3MHz 434us 0 200MHz 20dBm 10dB 0dB NORM 30kHz 100kHz 1ms 0 300MH7z 20dBm 10dB 0dB NORM 30kHz 100kHz 1ms 0 Sweeps s Sweeps s span 10 MHz span 0 Hz sweep time 2 5 ms sweep time 100 us ASCII format 30 40 Binary IEEE754 format 50 60 Measurement speed on GPIB interface Settings display off default coupling single trace 625 points Measurement of adjacent channel power versus time FAST ACP With 30 measurements s in manual mode minimum sweep time of 2 5 ms and 1 us zero span as standard the R amp S FSU is ideal for time critical applications Remote control of the R amp S FSU via IEC IEEE bus in list mode cuts down on measurement times The highly selective fast sweeping digital filters featuring analog response allow measurements on pulsed signals as well as use of the built in frequency counter Output FSU 28 3 30 6 38 1
23. p S FS K72 For COMA2000 3GPP3 base station signals Application Firmware R amp S FS K82 For UE signals Application Firmware R amp S FS K73 High measurement speed of 4 s measurement Code domain power and CPICH power Code domain power and rho CDMA2000 3GPP2 EVM and PCDE Code domain power versus slot EVM code channel Spectrum emission mask BLUETOOTH is a trademark owned by Bluetooth SIG Inc USA and licensed to Rohde amp Schwarz dBc fe 200 ACLR 60 65 70 Total 75 ACLR 80 Spectral 85 regrowth 90 20 15 10 5 0 Mixer level dBm Dynamic range of the R amp S FSU for adjacent channel power measurement on WCDMA signal with out noise correction WCDMA code domain power measurement with the R amp S FSU and R amp S FS K72 Type Designation and or application R amp S FS K5 Modulation and spectrum measurements on GSM EDGE base station and mobile signals R amp S FS K7 FM measurement demodulator for general applications R amp S FS K8 Bluetooth transmitter measurements R amp S FS K72 Modulation and code domain power measurements to 3GPP TS 24 141 on base station signals node B R amp S FS K73 Modulation and code domain power measurements to 3GPP TS 25 121 on mobile
24. per day 2a Aging per year 3x 10 Temperature drift 0 C to 50 C 1x10 Total error per year 5x 10 External reference frequency 1 MHz to 20 MHz 1 Hz steps Frequency display with marker or frequency counter Marker resolution 0 1 Hz to 10 kHz dependent on span Max deviation sweep time gt 3 x auto sweep time marker frequency x reference error 0 5 x span 10 x resolution bandwidth 1 last digit Frequency counter resolution 0 1 Hz to 10 kHz selectable Count accuracy S N gt 25 dB frequency x reference error 1 2 last digit Frequency span 0 Hz 10 Hz to 3 6 GHz 0 Hz 10 Hz to 8 GHz 0 Hz 10 Hz to 26 5 GHz Span resolution max span deviation 0 1 Hz 1 Spectral purity dBc 1Hz SSB phase noise f 640 MHz Residual FM lt 1 Hz nominal Carrier offset 10 Hz typ 73 dBc 1 Hz with option R amp S FSU B4 86 dBc typ 100 Hz lt 90 dBc 1 Hz 100 dBc 1 Hz typ 1 kHz lt 112 dBc 1 Hz 116 dBc 1 Hz typ 10 kHz lt 120 dBc 1 Hz 123 dBc 1 Hz typ 100 kHz lt 120 dBc 1 Hz 123 dBc 1 Hz typ 1 MHz lt 138 dBc 1 Hz 144 dBc 1 Hz typ 10 MHz lt 155 dBc 1Hz nominal 160 dBc 1 Hz typ Sweep Span 0 Hz 1 us to 16000 s in steps of 5 Span 210 Hz 2 5 ms to 16000 s in steps lt 10 Max deviation of sweep time 3 Sampling rate 31 25 ns 32 MHz A D converter
25. robe power connector 3 pin 1065 9480 02 Matching Pads 75 Q L Section R amp S RAM 0358 5414 02 Series Resistor 25 Q R amp S RAZ 0358 5714 02 SWR Bridges SWR Bridge 5 MHz to 3000 MHz R amp S ZRB2 0373 9017 52 SWR Bridge 40 kHz to 4 GHz R amp S ZRC 1039 9492 52 High Power Attenuators 100 W 3 6 10 20 30 dB R amp S RBU100 1073 8820 XX XX 03 06 10 20 30 High Power Attenuators 50 W 3 6 10 20 30 dB R amp S RBU50 1073 8895 XX XX 03 06 10 20 30 20 dB 6 GHz R amp S RDL50 1035 1700 52 Certified Environmental System ISO 14001 REG NO 1954 Certified Quality System ISO 9001 DOS REG NO 1954 1202 Bi as Printed in Germany PD 0757 6504 25 Spectrum Analyzer R amp S FSU Trade names are trademarks of the owners Subject to change Data without tolerances typical values ROHDE amp SCHWARZ ROHDE amp SCHWARZ GmbH amp Co KG Muhldorfstrafge 15 81671 Munchen Germany P 0 B 8014 69 81614 Munchen Germany Telephone 49 89 4129 0 www rohde schwarz com Customer Support Telephone 49 1805124242 Fax 49 89 4129 13777 E mail CustomerSupport rohde schwarz com
26. rom a variety of applications and customer requirements all this com bines to form a solid basis on which the R amp S FSU was developed Its unparalleled features enable the use of new test meth ods to your advantage The future ori ented concept combines unprecedented performance with continuity The R amp S FSU is compatible with the R amp S FSE and R amp S FSIO the industry standards to date Test routines and sequences generated for the R amp S FSE or R amp S FSIO can be used on the R amp S FSU too The R amp S FSU family thus secures your investment The operating concept of the top analyzer R amp s FSU is the same as that of the gen eral purpose analyzer R amp S FSP so these instruments offer a uniform platform for a variety of applications The R amp S FSU family R amp S FSU3 20 Hz to 3 6 GHz R amp S FSU8 20 Hz to 8 Ghz R amp S FSU 26 20 Hz to 26 Ghz 2 Spectrum Analyzer R amp S FSU Rohde amp Schwarz innovation in spectrum analyzers 1986 1995 1996 1397 1998 1999 R amp S FSA first colour display first spectrum analyzer to feature 154 dBm 6 Hz displayed aver age noise level without the use of preamplifiers quasi continuously variable resolution bandwidths phase noise optimization R amp S FSE fastest analyzer R amp S FSE first spectrum analyzer with RMS detector R amp S FSE B7 universal vector sig nal analysis and spectrum ana lyzer capabili
27. sponse DC coupling RF attenu ation 210 dB 10 MHz to 3 6 GHz lt 0 3 dB o 0 1 dB 3 6 GHz to 8 GHz lt 1 5 dB o 0 5 dB 8 GHz to 22 GHz z z lt 2 dB o 0 7 dB 22 GHz to 26 5 GHz z lt 2 5 dB o 0 8 dB Attenuator 25 dB lt 0 2 dB o 0 07 dB Reference level switching lt 0 15 dB o 0 05 dB Display nonlinearity 20 C to 30 C mixer level lt 10 dBm Logarithmic level display RBW lt 100 kHz S N gt 20 dB 0 dB to 0 dB lt 0 1 dB o 0 03 dB 70 dB to 90 dB lt 0 3 dB o 0 1 dB 10 MHz gt RBW 200 kHz S N gt 16 dB 0 dB to 50 dB lt 0 2 dB o 0 07 dB 50 dB to 0 dB lt 0 5 dB o 0 17 dB RBW gt 10 MHz 0 dB to 50 dB lt 0 5 dB o 0 17 dB Linear level display 5 of reference level Bandwidth switching uncertainty ref to RBW 10 kHz 10 Hz to 100 kHz 200 kHz to 10 Mhz lt 0 2 dB o 0 07 dB 5 MHz to 50 MHz lt 0 5 dB o 0 15 dB FFT 1 Hz to 3 kHz lt 0 2 dB o 0 07 dB Total measurement uncertainty 0 dB to 70 dB S N gt 20 dB span RBW lt 100 95 confidence level 20 C to 30 C mixer level lt 10 dBm lt 3 6 GHz 0 3 dB for RBW lt 100 kHz 0 5 dB for RBW gt 100 kHz 3 6 GHz to 8 GHz lt 2 0 dB 8 GHz to 18 GHz lt 2 5 dB 18 GHz to 26 5 GHz lt 3 0 dB Spec
28. trum Analyzer R amp S FSU 13 R amp S FSU3 R amp S FSU8 R amp S FSU 26 Audio demodulation Modulation modes AM and FM Audio output loudspeaker and headphones output Marker hold time in spectrum mode 100 ms to 60 s Trigger functions Trigger Span 10 Hz Trigger source free run video external IF level selectable mixer level 10 dBm to 50 dBm Trigger offset 125 ns to 100 s resolution 125 ns min or 1 of offset Span 0 Hz Trigger source free run video external IF level mixer level 10 dBm to 50 dBm Trigger offset 125 ns to 100 s resolution 125 ns min dependent on sweep time Trigger offset accuracy 125 ns 0 1 x delay time Gated sweep Trigger source external IF level video Gate delay 1 us to 100 s Gate length 125 ns to 100 s resolution 125 ns min or 1 of gate length Gate length accuracy 125 ns 0 05 x gate length Inputs and outputs front panel RF input N female 50 Q VSWR RF attenuation gt 10 dB DC coupling f lt 3 6 GHz lt 1 5 f lt 8 GHz lt 2 0 lt 1 8 f lt 18 GHz lt 1 8 f lt 26 5 GHz lt 2 0 RF attenuation lt 10 dB or AC coupling 1 5 typ Setting range of attenuator 0 dB to 75 dB in 5 dB steps Probe power supply 15 V DC 12 6 V DC and ground max 150 mA nominal Power supply for antennas 9 pin connector
29. ty combined for the first time R amp S FSIO first analyzer offering 75 dB dynamic range for UMTS WCDMA ACLR measurements R amp S FSP 0 5 dB total measure gt ROHDESSCHWARZ 2000 2001 ment uncertainty as standard fast ACP test routines in time domain digital channel filters CCDF R amp S FSP B25 first electronic attenuator for wear free use in production R amp S FSU 0 3 dB total measure ment uncertainty 50 Mhz resolu tion bandwidth 25 dBm TOI Performance surpassing all expectations R amp S FSU ideal for signals requiring wide dynamic range The R amp S FSU even surpasses the proven excellent RF data of the R amp S FSE and R amp S FSIQ families Measurements calling for an extremely wide dynamic range become even simpler faster and more reliable in development quality man agement and production The R amp S FSU can rightly be called the new reference in spectrum analysis with an unprece dented dynamic range T0Il gt 20 dBm typ 25 dBm 1 dB compression 13 dBm 0 dB RF attenuation Displayed average noise level 158 dBm 1 Hz bandwidth 77 dB ACLR typ for 3GPP 84 dB typ with noise correction HSOI 55 dBm typ Phase noise 160 dBc 1 Hz typ at 10 MHz carrier offset These characteristics make it easy to find small spurious signals even in the pres ence of strong carriers e g at a base Station For 3GPP adjac
30. typ Intermodulation Third order intermodulation third order intercept TOI electronic attenuator on Af gt 5 x RBW or 10 kHz 10 MHz to 300 MHz gt 17 dBm 300 MHz to 3 6 GHz gt 20 dBm 3 6 GHz to 8 GHz gt 18 dBm Ordering information Order designation Type Order No Spectrum Analyzer 20 Hz to 3 6 GHz R amp S FSU3 1129 9003 03 Spectrum Analyzer 20 Hz to 8 GHz R amp S FSU8 1129 9003 08 Spectrum Analyzer 20 Hz to 26 5 GHz R amp S FSU 26 1129 9003 26 Accessories supplied Power cable operating manual service manual R amp S FSU 26 test port adapter with 3 5 mm female 1021 0512 00 and N female 1021 0535 00 connector Options Order designation Type Order No Options Delete Manual R amp S FSU BO 1144 9998 02 Highly Accurate Reference Frequency R amp S FSU B4 1144 9000 02 Tracking Generator 100 kHz to 3 6 GHz 1 0 Modulation for all R amp S FSU models R amp S FSU B9 1142 8994 02 External Generator Control R amp S FSP B10 1129 7246 02 Attenuator for Tracking Generator R amp S FSU B9 R amp S FSU B12 1142 9349 02 LAN Interface 100BT R amp S FSU B16 1144 9498 02 Removable Hard Disk R amp S FSU B18 2 1145 0242 02 second Hard Disk for R amp S FSU B18 R amp S FSU B197 1145 0394 02 Extended Environmental Specification R amp S FSU B20 3 1155 1606 04 RF Preamplifier 3 6 GHz to 26 GHz for R amp S FSU 26 R amp S FSU B23 95 1157 0907 02 Electronic Attenuator 0 dB to 30 dB with integrated 20
31. ut the R amp S FSU s frequency range so enabling com plete documentation The high linearity and extremely accurate power measure ment routines of the R amp S FSU deliver pre cise and reproducible results So why bother with a noise figure meter If the R amp S FSU 3 8 is equipped with the option R amp S FSU B25 and the R amp S FSU26 with the options R amp S FSU B25 and B23 a separate preamplifier is not required for measuring very low noise figures Memory Overlay Count eh aod Fast and simple analysis of anomalies the cause spurious or RFI can easily be traced with the basic analyzer function without additional measuring equipment TREA Has Haacueemeard Hodhed Eel Phase noise Fie Edt Yew Sweep Make piei He Lesate Feeg Let DIRECT Sla TA MHz Slop 15 MHz lep S00 kHz 140 Miz D Sirge FUN Eafe STOF Fie ENR LOSS Limi Groep Device Sehematic Option measure Graph Mater ment with From 234 7 PHE gt E Bezas EM 10 Hr E Fe a T Software R amp S FS K4 daut PHASE HOKE ies FAL Bete a Pemer PAK aU f Leri pms Ai Hl nA Bi Joe Fe aran n aeina E girit i i MERE AN AN i 12i 1a 160 4 P ee aed a ee SS Se St TLE 10k 100k 10 Dk 1 Cia PE i UNCORRECTED i Phase noise dBc 1 Hz it SSB phase 80 noise of the 90 R amp S FSU 100 110 Specified 120 130 140 A 150
32. z lt 149 dBm 13 GHz to 18 GHz lt 147 dBm 18 GHz to 22 GHz lt 144 dBm 22 GHz to 26 5 GHz lt 140 dBm Spectrum Analyzer R amp S FSU 16 Optional Electronic Attenuator R amp S FSU B25 Frequency Frequency range R amp S FSU 3 10 MHz to 3 6 GHz R amp S FSU 8 10 MHz to 8 GHz R amp S FSU 26 10 MHz to 3 6 GHz Setting range Electronic attenuator 0 dB to 30 dB 5 dB steps Preamplifier 20 dB switchable Maximum level measurement error Frequency response with preamplifier or electronic attenuator 10 MHz to 50 MHz 50 MHz to 3 6 GHz 3 6 GHz to 8 GHz lt 1 dB o 0 34 dB lt 0 6 dB o 0 2 dB lt 2 0 dB o 0 dB Reference error at 128 MHz RBW lt 100 kHz reference level 30 dBm RF attenuation 10 dB Electronic attenuator lt 0 3 dB o 0 1 dB Preamplifier lt 0 3 dB o 0 1 dB Displayed average noise level RBW 1 kHz VBW 3 kHz zero span sweep time 50 ms 20 averages mean marker normalized to 10 Hz RBW Preamplifier on 10 MHz to 2 0 GHz lt 152 dBm 2 0 GHz to 3 6 GHz lt 150 dBm 3 6 GHz to 8 0 GHz lt 147 dBm With the R amp S FSU B25 built in the average noise level values displayed by the basic units degrade by R amp S FSU B25 off 20 Hz to 3 6 GHz 1 dB 3 6 GHz to 8 GHz 2 dB Preamplifier off electronic attenuator 0 dB 20 Hz to 3 6 GHz 2 5 dB typ 3 6 GHz to 8 GHz 3 5 dB
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