R&S®SMW200A Vector Signal Generator
Contents
1. 4 5 10 Msymbol s 20 Msymbol s 4 0 30 Msymbol s J 40 Msymbol s a 50 Msymbol s 39 N Z 3 0 2 5 2 0 1 5 1 0 0 5 0 l 0 2 4 6 8 10 12 14 16 18 20 Carrier frequency in GHz Rohde amp Schwarz R amp S SMW200A Vector Signal Generator 13 Very good RF characteristics The RF characteristics of the R amp S SMW200A are simply impressive The absolute level accuracy is better than 0 5 dB f lt 3 GHz across the entire specified level range from 120 dBm to 18 dBm without additional options being required Frequency and level setting times of 600 us typ via IEC IEEE bus make the R amp S SMW200A the fastest high end vector signal generator on the mar ket and help save valuable time Thanks to Its excellent pulse modulator with on off ratio gt 80 dB and rise fall time lt 10 ns the R amp S SMW 200A is ideal for generating pulsed signals for radar applications The high end synthesizer which is included in the stan dard version of the R amp S SMW200A already delivers ex ceptional SSB phase noise and nonharmonics values The R amp S SMW B22 option improves performance even more The R amp S SMW200A is therefore perfect for measurements that place high requirements on spectral purity Measured SSB phase noise performance with R amp S2. Show file content status InstrObject rs_connect visa ni TCPIP 10 111 10 188 instO INSTR if status disp Instrument connection failed num2str status return end while 1 status rs_send_command InstrObject SOURce1 BB DM PRBS LENGth 15 if status break end status rs_send_command InstrObject SOQURce1 BB DM FORMat QAM64 if status break end The built in SCPI macro recorder and code generator supports fast convenient generation of SCPI program sequences Context sensitive online help system of the R amp S SMW200A EUTRA LTE A General DL Settings Oca maser sense mo Je bd da Preset this parameter Show SCPI command Mark all parameters changed from preset Physical Cell ID Group 0 Physical Layer ID 0 0 00 dB RA_RNTI PDSCH Ratio rho_B rho_A 0 000 PBCH Ratio rho_B tho_A 0 000 Start automatic SCPI recording Start manual SCPI recording Show last SCPI sequence Q band Key Emulation The sophisticated help system of the R amp S SMW200A offers useful additional functions for every parameter e g a specific preset or the associated SCPI command The online help provides more detailed information excerpt at right Help Cell ID Digital Standard EUTRA LTE gt EUTRA LTE Configuration and Settings gt General DL Settings General TDD DL Settings gt Cell Specific Setting
3. SMW B22 option as 0 GH 4 Z 40 20 GHz 50 10 GHz 6 GHz 60 3 GHz mom 70 1 GHz ay 100 MHz 2 90 S 100 110 N 120 130 140 150 160 170 180 1 10 100 1k 10k 100k 1M 10M Offset frequency in HZ Measured SSB phase noise performance standard instrument je 0 GH 4 Z 40 20 GHz 50 10 GHz 6 GHz 60 3 GHz mom 70 1 GHz S ox 100 MHz 2 90 S 100 oo 110 N 120 130 140 150 160 170 180 1 10 100 1k 10k 14 100k 1M 10M Offset frequency in HZ Phase coherent signals up to 40 GHz Beamtorming applications such as for measurements on active antenna systems require high quality pbhase coher ent test signals More than just a common reference signal is usually needed to make sure that the relative phases remain Stable over a long time period The LO coupling offered by the R amp S SMW200A enabl
4. characteristics All in all a modulation frequency response down to 0 05 dB over 160 MHz bandwidth can be achieved The R amp S SMW200A generates 160 MHz wide WLAN IEEE 802 11ac signals with an EVM of 49 dB meas Other signal tyoes such as WCDMA and LIE sig nals wideband OQAM modulated carriers and multicarrier CW scenarios can also be output with highest quality MultiView gt Spectrum S 1 Frequency Sweep TRm Clrw 10 dBm 20 P 70 dBm i TOTTE oe ah LLL 80 dBm 90 dBm T CF 19 5 GHz 1001 pts 16 0 MHz Span 160 0 MHz Measur ing GAHAMAN wa 03 2014 14 33 14 Z The R amp S SMW200A generates top quality wideband signals including signals that are asymmetrical to the center frequency In this example at 19 5 GHz a 160 MHz wide multicarrier CW scenario with 40 equal power Carriers is generated on the left and 10 carriers with graduated power on the right Measured EVM versus carrier frequency for 16Q0AM
5. 1 410 910 79 88 customersupport la rohde schwarz com 1 Asia Pacific 65 65 13 04 88 customersupport asia rohde schwarz com 1 China 86 800 810 82 28 86 400 650 58 96 customersupport china rohde schwarz com
6. SMU Z6 1415 0201 02 Keyboard with USB Interface US assignment R amp S PSL Z2 1157 6870 04 USB Serial Adapter for RS 232 remote control R amp S TS USB1 6124 2531 00 Adapters for instruments with an R amp S SMW B112 B212 B120 B220 B131 B140 frequency option Test Port Adapter 2 92 mm female 1036 4790 00 Test Port Adapter 2 92 mm male 1036 4802 00 Test Port Adapter N female 1036 4777 00 Test Port Adapter N male 1036 4783 00 Documentation Documentation of Calibration Values R amp S DCV 2 0240 2193 18 R amp S SMW200A DAkkS Calibration ISO 17025 ISO 9000 R amp S SMW200ADKD 1413 6690 02 Service options Extended Warranty one year R amp S WE1 Please contact your local Extended Warranty two years R amp S WE2 Rohde amp Schwarz sales office Extended Warranty three years R amp S WES Extended Warranty four years R amp S WE4 Extended Warranty with Calibration Coverage one year R amp S CW1 Extended Warranty with Calibration Coverage two years R amp S CW2 Extended Warranty with Calibration Coverage three years R amp S CW3 Extended Warranty with Calibration Coverage four years R amp S CW4 Your local Rohde amp Schwarz expert will helo you determine the optimum solution for your requirements To find your nearest Rohde amp Schwarz representative visit www sales rohde schwarz com The Bluetooth word mark and logos are registered trademarks owned by Bluetooth SIG Inc and any use of such marks by Rohde amp Schw
7. SMW B112 R amp S SMW B120 R amp S SMW B131 R amp S SMW B140 R amp S SMW B13 R amp S SMW B13T R amp S SMW B203 R amp S SMW B206 R amp S SMW B212 R amp S SMW B220 R amp S SMW B20 R amp S SMW B22 R amp S SMW B90 R amp S SMW K22 R amp S SMW K23 R amp S SMW K24 R amp S SMW K739 R amp S SMW B10 R amp S SMW K16 R amp S SMW K18 R amp S SMW K511 R amp S SMW K512 R amp S SMW K522 R amp S SMW K540 R amp S SMW K541 R amp S SMW K551 R amp S SMW B14 R amp S SMW K62 RES SMAKI R amp S SMW K72 R amp S SMW K74 R amp S SMW K76 Rohde amp Schwarz R amp S SMW200A Vector Signal Generator 21 1412 0000 02 1413 0004 02 1413 0104 02 1413 0204 03 1413 0404 02 1413 8605 02 1413 0604 02 1413 2807 02 1413 3003 02 1413 0804 02 1413 0904 02 1413 1000 03 1413 1100 02 1413 1600 02 1413 2207 02 1413 5841 02 1413 3249 02 1413 3284 02 1413 3332 02 1413 7167 02 1413 1200 02 1413 3384 02 1413 3432 02 1413 6860 02 1413 6919 02 1413 6960 02 1413 7215 02 1413 7267 02 1413 9724 02 1413 1500 02 1413 3484 02 1413 3532072 1413 3584 02 1413 36032 02 1413 9624 02 Digital standards 2 22 GSM EDGE EDGE Evolution 3GPP FDD CDMA2000 1xEV DO IEEE 802 16 TD SCDMA TD SCDMA Enhanced BS MS Tests DVB H DVB T IEEE 802 11 a b g n EUTRA LTE Bluetooth EDR Multicarrier CW Signal Generation TETRA Release 2 LTE Closed Loop BS Test LTE Log File Generation 3GPP
8. applications And that is by far not all The capabilities of the R amp S SMW200A surpass those of two conventional gen erators combined When the instrument is fully equipped the baseband section provides up to eight independent signal sources and up to 16 logical faders This makes the R amp S SMW200A ideal for MIMO and other complex ap plications encountered in LTE Advanced carrier aggrega tion HSPA dual carrier and multistandard radio etc Modular architecture for optimal adaptation to the application at hand Almost all options of the R amp S SMW 200A can be retrofit ted most of them simply via key code Starting from the basic configuration as a classic single path vector signal generator the R amp S SMW200A can be customized as re quired for any application Users only have to purchase what they currently need and are free to decide on up grades according to their future requirements Basic R amp S SMW200A architecture Rohde amp Schwarz R amp S SMW200A Vector Signal Generator 5 simplify your setup Easy generation of complex signals A vector signal generator needs a powerful baseband sec tion to meet the requirements of advanced communica tions systems The R amp S SMW 200A sets standards in this field too Each of the two available baseband modules contains a realtime coder and an arbitrary waveform gen erator with max 1 Gsample memory depth The band width of up to
9. A C 4 cash Ge HMS T E coner 1 9 oe Ole GED La K L L m y lt O Cal 7 gt T M C 4 n e S TIM 6 moame Mae o ey ps a ax a E M C uN gt IM Tmea DIG 1 0 TO o Ge HM R 2 ag FADERT Ok o Ga e OWOC K or FADER onen Ga Lp 9 j d O ill o ET a QI Rear panel of the R amp S SMW200A The R amp S SMW200A can be used together with many other Rohde amp Schwarz instruments R amp S SMW200A Related option s Rohde amp Schwarz partner instrument Application example function connection Digital baseband input R amp S SMW B10 e g R amp S CMW500 wideband radio R amp S CMW500 as external I O source communication tester e g for signaling Digital baseband output R amp S SMW K18 e g R amp S EX IO Box digital signal interface outputs digital baseband signals in different module formats e g in line with the CPRI standard e g R amp S SGT100A signal generator module provides additional RF paths Analog I O output R amp S SMW K16 e g R amp S SGS100A signal generator module provides additional RF paths R amp S NRP sensor connector R amp S NRP Zxx power sensors high accuracy power measurement result R amp S NRP Z28 Z98 level control sensors display on the R amp S SMW200A 0 Function in preparation 18 specifications in brief Specifications in brief Frequency Frequency range RF path A Frequency range RF path B optional see R amp S S
10. FDD HSPA HSPA Enhanced BS MS Tests EUTRA LTE Release 9 and Enhanced Features EUTRA LTE Release 10 LTE Advanced IEEE 802 11ac 1xEV DO Rev B NFC A B F LTE Release 11 and Enhanced Features Baseband Power Sweep Digital standards using R amp S WinlOSIM2 2 GSM EDGE EDGE Evolution 3GPP FDD GPS 1 Satellite CDMA2000 1xEV DO IEEE 802 16 TD SCDMA TD SCDMA Enhanced BS MS Tests DVB H DVB T DAB T DMB IEEE 802 1 T n EUTRA LTE Bluetooth EDR Multicarrier CW Signal Generation Additive White Gaussian Noise AWGN Galileo 1 Satellite TETRA Release 2 3GPP FDD HSPA HSPA Enhanced BS MS Tests EUTRA LTE Release 9 and Enhanced Features EUTRA LTE Release 10 LTE Advanced IEEE 802 11ac 1xEV DO Rev B NFC A B F Glonass 1 Satellite Beidou 1 Satellite LTE Release 11 and Enhanced Features R amp S WinlOSIM2 requires an external PC R amp S SMW K40 R amp S SMW K41 R amp S SMW K42 R amp S SMW K46 R amp S SMW K47 R amp S SMW K49 R amp S SMW K50 R amp S SMW K51 R amp S SMW K52 R amp S SMW K54 R amp S SMW K55 R amp S SMW K60 R amp S SMW K61 R amp S SMW K68 R amp S SMW K69 R amp S SMW K81 R amp S SMW K83 R amp S SMW K84 R amp S SMW K85 R amp S SMW K86 R amp S SMW K87 R amp S SMW K89 R amp S SMW K112 R amp S SMW K542 R amp S SMW K240 R amp S SMW K241 R amp S SMW K242 R amp S SMW K244 R amp S SMW K246 R amp S SMW K247 R amp S SMW K249 R amp S SMW K250 R amp S
11. SMW K251 R amp S SMW K252 R amp S SMW K253 R amp S SMW K254 R amp S SMW K255 R amp S SMW K260 R amp S SMW K261 R amp S SMW K262 R amp S SMW K266 R amp S SMW K268 R amp S SMW K283 R amp S SMW K284 R amp S SMW K285 R amp S SMW K286 R amp S SMW K287 R amp S SMW K289 R amp S SMW K294 R amp S SMW K407 R amp S SMW K412 1413 3684 02 143 373202 1413 3784 02 1413 3884 02 1413 3932 02 1413 3984 02 1413 4039 02 1413 4080 02 1413 6090 02 1413 4139 02 1413 4180 02 1413 4239 02 1413 4280 02 1413 4439 02 1413 4480 02 1413 4539 02 1413 4580 02 1413 5435 02 1413 5487 02 1413 5635 02 1413 6519 02 1413 6619 02 1413 8505 02 1413 9876 02 1413 4739 02 1413 4780 02 1413 4839 02 1413 4880 02 1413 4939 02 1413 4980 02 1413 5035 02 1413 5087 02 143 5135 02 1413 6190 02 1413 6248 02 1413 5187 02 14135235 02 1413 5287 02 14135335 02 1413 6460 02 1413 701502 1413 5387 02 1413 6290 02 1413 5535 02 1413 5587 02 1413 5687 02 1413 6560 02 1413 6654 02 1413 7067 02 1413 7115 02 1413 8597 02 Other options Rear Panel Connectors for RF path A and I O for R amp S SMW B103 or R amp S SMW B81 1413 5893 02 R amp S SMW B106 frequency option Rear Panel Connectors for RF path B for R amp S SMW B203 or R amp S SMW B82 1413 5941 02 R amp S SMW B206 frequency option Recommended extras 19 Rack Adapter R amp S ZZA KN4 1175 3033 00 Cable for connecting Rohde amp Schwarz digital baseband interfaces R amp S
12. defined in the standard at the press of a button Visual aids such as the time plan in the LTE option provide a graphical overview of the signal structure They help users keep track of even complex signal scenarios and quickly set the desired parameters The test case wizards for complex digital standards such as LTE and 3GPP FDD UMTS are powerful tools that simplify the user s task It only takes a few steps to config ure the R amp S SMW 200A for base station tests in line with SOPP Taso ALOS GFP loZo 14 EUTRA LTE Test Case Wizard PUSCH WS PUSCH IS Channel BW m Tx BW Conf Power dBm 15kHz 0 3 Irs 36 141 7 5B Narrow Band Blocking est Specification Release Release 8 TS 36 141 V8 11 0 N Trigger Configuration Marker Configuration 06 09 12 15 18 21 Delta Frequency In many cases conclusive measurements are only pos sible with correctly timed signals This is why it is crucial for most measuring applications to synchronize measuring instruments and DUT using for example a frame trigger The R amp S SMW200A meets virtually all requirements Internal triggering between the different baseband mod ules ensures Internal signal generation with 100 syn chronicity Complicated cabling of multiple instruments Is no longer necessary For synchronization with the DUT the R amp S SMW200A has three front panel BNC connectors that can be assigned user specific control signals as de
13. sired This gives users easy access to any trigger marker and clock signals they require The rear panel of the R amp S SMW200A offers another three connectors for user specific signals and three connectors per baseband module for additional control signals MHz famea Auto Ext Trigger 1 Delay 0 l Rado Frame Start Delay 0 l The LTE test case wizard allows the R amp S SMW200A to be conveniently and cleverly configured for BTS tests in line with 3GPP TS 36 141 In this example wanted signal and interferer for a narrowband blocking test are set Efficient testing of amplifiers with envelope tracking The objective of envelope tracking ET is to reduce power consumption and the amplifier s overall energy consump tion Instead of receiving a constant supply voltage the amplifier is fed a voltage from a DC modulator This volt age tracks the envelope of the RF signal Extremely pre cise synchronization is crucial since even deviations in the nanosecond range would cause significant modulation errors EVM The R amp S SMW 200A offers options that allow users to very easily generate the right envelope signal for an RF signal in realtime and output it at the analog I O output Since both signals come from the same instrument users do not need to worry about synchronization The delay between the RF signal and the envelope signal relative to each oth er can be set in realtime with a 1 ps resolution in order to co
14. 160 MHz covers modern digital standards such as LTE Advanced and WLAN IEEE 802 11ac as well as wideband multicarrier or multistandard radio signals The baseband signals can be digitally added provided with a frequency offset of max 80 MHz and varied in power and phase relative to each other This makes it incredibly simple to generate multicarrier Scenarios and combinations of different digital standards with the R amp S SMW200A A single two path R amp S SMW 200A is all that is needed to create the wanted signal plus interferer scenarios often required in receiver testing Depending on the scenario s overall bandwidth and the desired level difference between wanted signal and interferer the signals can in many cases be output by using only one RF path The second RF path is available for other tasks e g generation of an additional CW interferer If one of the two RF paths is equipped with a 12 75 GHz frequency option then only a single instrument is needed for out of band blocking measurements An additional microwave signal generator Is no longer required Advanced multichannel signal generation The R amp S SMW 200A generator s advanced baseband architecture enables it to simulate even complex scenarios Up to eight Internal baseband sources make it easy to generate multiple signals required for example for LTE carrier aggregation multicell multi user simulation interference testing or multistandard radio MSR tes
15. 60 2480 2500 2520 2540 2560 25 t Tsymbol Zoom 90 0 271003 0 22 0 18 0 14 0 1 0 06 gt 0 Power Spectrum FFT points 2048 AVG 4 Vector Diagram 1 Quadrature q t o 0 02 0 02 f fe MHz 0 06 0 1 0 14 0 5 1 0 Inphase i t Graphical signal monitoring in realtime is extremely useful when it comes to generating complex signals Rohde amp Schwarz R amp S SMW200A Vector Signal Generator 17 G rOWS with Advanced technology and a modular upgradeable hard ware concept make the R amp S SMW200A a future ready investment VO U n e e d S R amp S SMW200A hardware options can be retrofitted with minimum effort The baseband modules come as plug ins and can easily be inserted into the rear panel without opening or recalibrating the instrument Software functions e g digital standards are simply activated via key codes The R amp S SMW200A firmware can be updated from a USB flash drive or via LAN Free updates can be downloaded from www rohde schwarz com product smw200a In this way the R amp S SMW200A can be precisely custom ized to suit the applications at hand and can be enhanced whenever new requirements arise Users only have to pur chase what they currently need and are free to decide on upgrades according to future requirements aN re SYSTEM DRIVE Caos i DO NOT REMOVE DURING OPERATION bce 100 240 V 7 3 4 6A
16. Customizing of instrument to accommodate virtually every application 1 Advanced plug in system for retrofitting baseband modules without instrument recalibration 1 Software upgrades possible at any time simple and quick activation via key codes gt page 18 Rohde amp Schwarz R amp S SMW 200A Vector Signal Generator 3 For all your needs Advanced RF measuring equipment must above all be flexible Performance and functionality require ments vary depending on test setup and application The R amp S SMW200A is unrivaled in mastering this challenge and sets new standards for signal generators In develop ment and verification for any type of DUT components modules complete base stations the R amp S SMW200A always generates the appropriate test signals Versatile configuration Thanks to its modular design the R amp S SMW200A can be equipped with the exact options required for a specific application Any configuration is possible from a classic single path vector signal generator to a multichannel MIMO receiver tester The generator can be equipped with a maximum of two internal baseband modules and four fading simulator mod ules It is also possible to install a second RF path This concept yields two full featured vector signal generators in a single unit so that even complex signal scenarios e g wanted signal interferer dual cell TX RX diversity can be created easily Ideal for MIMO MSR or LTE Advanced
17. Hz up to 2 GAZ 6 GHZ 12 75 GHZ or 20 Griz 1 Versatile configuration from single path vector signal generator to multichannel MIMO receiver tester Ideal for MIMO MSR or LTE Advanced applications thanks to up to eight signal sources and up to 16 fading channels 1 Modular architecture for optimal adaptation to the application at hand gt page 4 Simplify your setup 1 Easy generation of complex signals 1 Max eight baseband generators on two internal baseband modules with realtime coder and ARB 1 Internal digital adding of baseband signals even with frequency and level offset 1 Support of all important digital standards such as LTE up to Release 11 3GPP FDD HSPA HSPA GSM EDGE EDGE Evolution TD SCDMA CDMA2000 1xEV DO WLAN IEEE 802 1 1a b g n j p ac 1 No separate PC software required for digital standards 1 LTE and 3GPP test case wizards for easy base station conformance testing in line with 3GPP 1 25 141 or SGP TS 36 141 Envelope tracking and AM AM AM M predistortion options for full testing and verification of ET modulator chipsets gt page 6 Bring reality to your lab 1 Optional integrated fading section for channel emulation with up to 160 MHz bandwidth 1 All important fading scenarios available as presets 1 Installation of up to four fading modules providing as many as 16 logical faders 1 Implementation of all key MIMO fading scenarios such as 2x2 3x3 4x4 8x2 and 2x8 using a single instrume
18. IMO setups The global system configuration dialog can be used to reconfigure the signal generator according to the required signal scenario The block diagram on the GUI changes with the application so that the user can see at a glance which signal scenario is being generated Every system configuration is accompanied by typical applica tion examples Users who think beyond the standard will also easily find an optimal scenario for their needs In the case of MIMO capable standards such as LTE or WLAN the transmit signals depend on each other There fore the R amp S SMW200A features a shared menu coupled sources mode with which multi antenna signals can be configured quickly and conveniently As an alternative the signals can be set Individually in the R amp S SMW200A separate sources mode This mode al lows the simultaneous generation of signals for different standards which makes the R amp S SMW 200A ideal for test ing multistandard base stations Combinations e g LTE WCDMA and GSM are possible as well as the use of user defined ARB signals pO N SF Jumaat 0 Block diagram of the R amp S SMW200A configured for the generation of a LTE Release 11 felCIC test scenario One R amp S SMW200A simultaneously generates the LTE serving cell as well as the two aggressor cells each with 2x2 MIMO with correlated fading channels 2x8 MIMO setup m a O 0 o oe L RFpath A B Digital 1 0 o
19. MW200A data sheet for possible RF path configurations Setting time Level Specified level range Setting time Spectral purity Harmonics Nonharmonics SSB phase noise Analog modulation Supported analog modulation modes I O modulation RF modulation bandwidth Modulation frequency response in specified RF modulation bandwidth Baseband generator Signal bandwidth ARB memory depth Sample resolution Frequency offset R amp S SMW B103 R amp S SMW B106 R amp S SMW B112 R amp S SMW B120 R amp S SMW B131 R amp S SMW B140 R amp S SMW B203 R amp S SMW B206 R amp S SMW B212 R amp S SMW B220 SCPI mode f lt 6 GHz 3 MHz lt T lt 20 GHz R amp S SMW B131 R amp S SMW B140 SCPI mode R amp S SMW B120 B131 B140 B220 with switching of mechanical step attenuator level lt 10 dBm CW R amp S SMW B120 B131 B140 B220 t gt 3 0 GHz 100 kHz to 3 GHz 100 kHz to 6 GHz 100 kHz to 12 75 GHz 100 kHz to 20 GHz 100 kHz to 31 8 GHz 100 kHz to 40 GHz 100 kHz to 3 GHz 100 kHz to 6 GHz 100 kHz to 12 75 GHz 100 kHz to 20 GHz lt 1 2 ms 600 US typ 120 dBm to 18 dBm PEP 120 dBm to 15 18 dBm PEP depending on RF lt 1 ms 600 us typ lt 25 MS lt 30 dBc lt 5b dBc CW or vector modulation with full scale DC input level gt 10 dBm carrier offset gt 10 kHz 200 MHz lt f lt 1500 MHz standard with R amp S SMW B22 option CW car
20. arz is under license CDMA2000 is a registered trademark of the Telecommunications Industry Association TIA USA WiMAX Forum is a registered trademark of the WiMAX Forum WiMAX the WiMAX Forum logo WiMAX Forum Certified and the WiMAX Forum Certified logo are trademarks of the WiMAX Forum Rohde amp Schwarz R amp S SMW 200A Vector Signal Generator 23 Service that adds value 1 Worldwide 1 Local and personalized Customized and flexible Uncompromising quality 1 Long term dependability About Rohde amp Schwarz The Rohde amp Schwarz electronics group is a leading supplier of solutions in the fields of test and measurement broadcasting secure communications and radiomonitor ing and radiolocation Founded more than 80 years ago this Independent global company has an extensive sales network and is present in more than 70 countries The company is headquartered in Munich Germany Sustainable product design 1 Environmental compatibility and eco footprint 1 Energy efficiency and low emissions 1 Longevity and optimized total cost of ownership Certified Quality Management Certified Environmental Management ISO 9001 ISO 14001 Rohde amp Schwarz GmbH amp Co KG www rohde schwarz com Regional contact 1 Europe Africa Middle East 49 89 4129 12345 customersupport rohde schwarz com 1 North America 1 888 TEST RSA 1 888 837 87 72 customer support rsa rohde schwarz com 1 Latin America
21. create signal scenarios that previ ously required multiple instruments or could not be imple mented at all From MIMO up to 8x2 and LTE Advanced carrier aggregation including fading to multistandard radio never before has an instrument offered such high class signal generation capability If more than two RF paths are required additional R amp S SGMA signal generator modules can be connected The intuitive touchscreen based operating concept pro vides the user with an overview of measurements no mat ter how complex and quickly delivers the desired results Key facts 1 Frequency range from 100 kHz to 3 GHz 6 GHz 12 79 G z 20 G Z 31 0 Giriz or 40 GHz Optional second RF path with 100 kHz up to 3 GHz 6 GHZ 12 79 GHz r ZU GHz Up to 160 MHz I O modulation bandwidth in RF with Internal baseband 1 Options for all important digital communications standards 1 Optional integrated fading simulator with up to 160 MHz bandwidth Support of all key MIMO modes including 3x3 4x4 8x2 2x8 and 4x2x2 I Intuitive operation via touchscreen with block diagram as key element SMW200A VECTOR SIGNAL GENERATOR T og A T 50 F 869 EL 8699 l rt BACK SPACE anan a INSERT p R amp S SMW200A Vector Signal Generator Benefits and key features For all your needs Frequency range from 100 kHz to 3 GHz 6 GHz 12 79 GHz 20 G HZ 318 GHz or 40 GHz Optional second RF path with 100 k
22. er of helo functions when programming an automatic test sequence control The SCPI commands for every setting parameter can be displayed directly and all modifications of the instrument s preset status can be highlighted graph ically This makes it easy to identify all parameters that are important for remote control The R amp S SMW 200A also has a built in SCPI macro recorder with code generator which records all manual operating steps to generate a file with a remote com mand sequence Code templates are provided for directly generating executable code for MATLAB or CVI User specific templates can also be used As a re sult the R amp S SMW200A contributes to minimizing the time required for test automation saving development resources A fast instrument for speedy work The LINUX based operating system of the R amp S SMW200A helps ensure short boot times The high computer perfor mance speeds up work even when settings require com prehensive signal calculation User interface of the R amp S SMW 200A The header shows the frequency level and important instrument statuses The footer provides quick access to open menus The generated signals and the measurement results of any connected R amp S NRP Zxx power sensor s can be displayed as well second field from left in footer SCPI Recording Export Format Predefined Code Generator Select Code Template MATLAB Select File sequence Export data to file
23. es a clear overview at all times The user sees at a glance the signal flow and the status of all inputs and outputs The drag amp drop functionality makes signal flow reconfiguration simpler than ever For MIMO and other complex applications the block diagram is adapted to the prevailing signal scenario All menus feature tabs for fast access to signal param eters A context sensitive online help system provides in formation about every parameter such as setting range detailed circuit description and SCPI command Various functions facilitate everyday work e g each parameter can be individually reset to its specific preset status The built in graphics function of the R amp S SMW200A allows the generated signals to be displayed in realtime in up to eight simultaneous windows The user can select the type of display and Q versus time frequency spectrum 2 110 000 000 00 16 vector diagram etc and the point in the signal flow where the measurement will be performed The baseband measurement function allows realtime mea surement of the level of a signal or signal component at defined points in the signal flow This feature is especially useful when the level of specific components of a complex signal is to be determined or varied during a measure ment as for example in closed loop scenarios Automation made easy The R amp S SMW 200A can be controlled via all common remote interfaces The user benefits from a numb
24. es extremely precise and stable long term phase synchronization of both generator paths Up to 20 GHz the generator can provide two phase coherent RF paths in a single instrument without addi tional cabling If more phase coherent carriers are needed the internal LO signal of the R amp S SMW200A can be con nected to another R amp S SMW200A or an R amp S SGS100A or R amp S SGU100A signal generator module Setup for antenna testing Phase coherent RF R amp S SGS100A R amp S SGU100A R amp S SGS100A R amp S SGU100A R amp S SMW200A LO distribution Antenna frontend Setup with a two path R amp S SMW200A two R amp S SGS100A and two R amp S SGU100A to generate four phase coherent CW or modulated signals for example for antenna testing up to 20 GHz The setup can be scaled to 40 GHz and duplicated if more RF paths are required Rohde amp Schwarz R amp S SMW 200A Vector Signal Generator 15 Speed up your development Increasing cost pressure results in ever shorter develop ment cycles At the same time testing requirements are becoming more stringent The R amp S SMW200A accom plishes complex measurement tasks quickly and efficient ly Numerous innovations in intuitive user guidance make work extremely easy Ergonomic design for maximum operating convenience A high resolution touchscreen and an easy to use graphi cal user interface make for ergonomic operation A block diagram provid
25. gle instrument In addition the R amp S SMW200A is able to simulate the entire MIMO channel Up to 16 logical faders cover all key MIMO scenarios such as 3x3 4x4 8x2 and 2x8 The user can also set the correlations between the propagation paths Multistandard setups such as simultaneous 2x2 MIMO for LTE and 3GPP FDD HSPA are possible as well Furthermore carrier aggregation scenarios with four LTE component carriers each with 2x2 MIMO can be simu lated with a single instrument No matter how complicated the application the R amp S SMW 200A handles unique stim ulus generation and channel simulation in parallel The R amp S SMW 200A can be equipped with one or two in ternal RF paths If necessary more RF paths can be added Two additional O modulated R amp S SGT100A signal gen erator modules turn the R amp S SMW200A into an extremely Static Path Rayleigh Rice Gauss Doppler ace Gauss 0 1 fd a Gauss 0 08 fd WM Rice 5 0 9 9 Delay us The fading settings of the R amp S SMW 200A can be visualized to support the user The screenshot shows the fading path configuration of an LTE ETU300 scenario 10 compact 4x4 MIMO complete solution Adding another four R amp S SGT100A modules enhances the solution to cover even 2x8 or 2x2x4 MIMO scenarios The additional hardware is operated and remotely controlled directly from the R amp S SMW 200A The R amp S SMW 200A easily handles even complex M
26. mpensate for different delays in the test setup The digi tal predistortion option enables AM AM and AM M pre distortion of the signals in realtime This flexibility and Its outstanding signal performance make the R amp S SMW200A the perfect signal source for precise and efficient ET measurements Envelope tracking R amp S FSW R amp S SMW200A na gt EERON nnna oana CN JEEN I O out Voltage current probes Envelope Test setup for envelope tracking with the R amp S SMW200A vector signal generator and the R amp S FSW signal and spectrum analyzer Rohde amp Schwarz R amp S SMW200A Vector Signal Generator 9 Bring reality to your lab Advanced state of the art channel emulation The internal fading simulator option is another element that distinguishes the R amp S SMW200A from other RF vec tor signal generators Using latest FPGA technology the hardware was designed for exceptional compactness so that up to four of the powerful fading modules can be installed These modules can simultaneously emulate as many as 16 fading channels The maximum fading band width is 160 MHz As a result the R amp S SMW200A can realistically map even MIMO scenarios such as 3x3 MIMO for WLAN IEEE 802 11 Inside buildings there are more reflections than in open terrain The time difference between different echos normally is in the range of only a few nanoseconds Its time resolution of 2 5 ps and Its ability to si
27. mulate up to 20 paths per fading channels enable the R amp S SMW200A to realistically simulate indoor fading scenarios All in all the R amp S SMW200A offers a fading performance that has so far only been achieved by significantly more expensive special instruments e g RF faders The user can select the fading scenarios required for all major standards directly from the predefined settings In addition to classic multipath scenarios with Raleigh Rice or pure Doppler fading the R amp S SMW 200A can also simulate the dynamic scenarios specified in recent Fading A Mm N amp a 0 n 7 te ir L a 10 35 30 35 46 45 standards such as birth death moving propagation and high speed train All parameters can also be set manually which makes it easy to implement user specific fading configurations Prestigious discipline MIMO All modern wireless communications standards utilize MIMO technology to increase the effective data through put A test generator must be able to simulate MIMO scenarios exactly as they are present at the receive anten nas of a receiver even with complex MIMO receivers This is where the multipath and fading capabilities of the R amp S SMW200A come into their own The built in base band modules allow the simultaneous generation of up to eight signals For MIMO scenarios the signals from all transmit antennas with antenna specific coding can be directly generated in a sin
28. ndwidth max 160 MHz Fading channels depending on options max 16 MIMO fading scenarios depending on options 2x2 4x2 2x4 3x3 4x4 8x2 2x8 2x2x2 2x4x2 2x2x4 4x2x2 and more Fading modes depending on options multipath moving delay birth death high speed train two channel interferer Fading profiles depending on options Rayleigh Rice pure Doppler static path Gaussian customized and more Options for digital communications standards selection Standard technology Options Key features LTE LTE Advanced R amp S SMW K55 K69 K81 K84 1 In line with 3GPP LTE Release 8 9 10 11 K85 K112 1 FDD and TDD 1 Downlink OFDMA and uplink SC FDMA 1 Carrier aggregation 1 Support of uplink closed loop base station tests in line with 3GPP TS 306 121 1 LTE test case wizard 3GPP FDD HSPA HSPA R amp S SMW K42 K83 1 In line with 3GPP FDD Release 11 1 Downlink and uplink 1 HSDPA H sets Higher order modulation MIMO CPC 1 Support of base station tests in line with 3GPP TS 25 141 1 S3GPP test case wizard GSM EDGE EDGE Evolution R amp S SMW K40 K41 1 MSK FSK AQPSK 8PSK 16QAM and 320AM modulation 1 Mixed frames with GSM EDGE and EGPRS2 slots 1 VAMOS support 1 Support of higher symbol rates 825 kHz 1 Framed double sequence mode for generating realistic test scenarios with changing frame content CDMA2000 R amp S SMW K46 1 In line with 3GPP2 C S0002 C 1 Radio configurations RC1 to RC5 and RC10 in forward link RC1
29. nt 1 Support of complex applications such as dual carrier HSPA LTE carrier aggregation with MIMO and multi user LTE 1 Connection of R amp S SGT100A signal generator modules to provide up to eight RF paths gt page 10 Make your device even better 1 Excellent signal quality for high accuracy In spectral and modulation measurements 1 1 0 modulator with up to 2 GHz RF modulation bandwidth 1 160 MHz I O modulation bandwidth in RF with internal baseband 1 Exceptional modulation quality e g 49 dB EVM meas with 160 MHz wide WLAN IEEE802 11ac signals High end pulse modulation with on off ratio gt 80 dB and rise fall time lt 10 ns 1 Excellent spectral purity SSB phase noise 139 dBc typ at 1 GHz 20 kHz offset 1 Phase coherence option e g for beamforming applications 1 3 GHz 6 GHz and 12 75 GHz RF paths with electronic attenuator gt page 12 Speed up your development Intuitive operating concept and clever help functions for quick Success 1 Block diagram as key operating element to visualize signal flow 1 Adaptive GUI for overview of both simple and complex scenarios Graphical signal monitoring at practically every point in the signal flow Context sensitive online help system with complete user documentation 1 SCPI macro recorder and code generator for generating executable remote control code from manual operating steps for MATLAB CVI etc gt page 16 Grows with your needs 1
30. rier offset 20 kHz f 1 GHz standard with R amp S SMW B22 option CW carrier offset 20 kHz f 10 GHz standard with R amp S SMW B22 option with external I O I O wideband on 1 MHz lt T lt 4 GHz f gt 4 GHz with internal baseband I O wideband on f 320 MHz with internal baseband I O wideband on lt 80 dBc lt 90 dBc lt 131 dBc 135 dBc typ lt 136 dBc 139 dBc typ lt 111 dBc 115 dBc typ lt 116 dBc 119 dBc typ AM FM optional pM optional pulse optional 25 of carrier frequency 1 GHz 80 MHz lt 1 0 dB lt 0 3 dB meas R amp S SMW B10 option up to two baseband generators can be installed standard with R amp S SMW K522 option standard with R amp S SSMW K511 option with R amp S SMW K511 and K512 options equivalent to D A converter standard with R amp S SMW K522 option 120 MHz 160 MHz 64 Msample 512 Msample 1 Gsample 16 bit 60 MHz to 60 MHz 80 MHz to 80 MHz Rohde amp Schwarz R amp S SMW200A Vector Signal Generator 19 Specifications in brief cont Digital standards Supported standards and modulation systems LTE Release 8 9 10 11 3GPP FDD HSPA HSPA GSM EDGE EDGE Evolution CDMA2000 1xEV DO Rev A B TD SCDMA WLAN IEEE 802 1 1a b g n j p ac AWGN and more Fading and MIMO Fading simulator R amp S SMW B14 option up to four fading modules can be installed Fading ba
31. s gt Cell ID Cell ID Sets the cell identity There are 504 unique physical layer cell identities Cell ID grouped into 168 unique physical cell identity groups that contain three unique identities each The Cell ID is calculated as following Cell ID 3 Physical Cell ID Group Physical Layer ID There is a cross reference between the values of this three parameters and changing of one of them results in adjustment in the values of the others The Cell ID determinates the downlink reference signal pseudo random sequence Physical Cell ID Gr Physical Layer ID Cyclic Prefix Gen PDSCH P_B PDSCH Ratio rho PDCCH Ratio rho e the frequency shifts of the reference signal e the S SYNC sequence e the cyclic shifts for PCFICH PHICH and PDCCH mapping and the pseudo random sequence used for scrambling PBCH Ratio rho_ PHICH Duration PHICH N_g Remote control command 301 RA_RNTI SCPI command SOURce lt hw gt BB EUTRa DL PLCi CID F S B lt ln Graphical signal monitoring in realtime 0 IQ Diagram 1 0 5 Inphase i t 10 0 5 20 2320 2340 2360 2380 2400 2420 2440 2460 2480 2500 2520 2540 2560 25 T i H HE N l l i 1 2284 15 1 e in h t Power I dB amp o Quadrature q t o S 5 an 44 A 80 2284 15 2320 2340 2360 2380 2400 2420 2440 24
32. the fine art of signal generation D ROHDE amp SCHWARZ SMW200A VECTOR sign AL GENERATOR 20 000 000 000 00c 16 900 000 000 005e 8 12 002 ROHDE A SCHWARZ Product Brochure 03 00 R amp S SMW200A Vector Signal Generator At a glance The R amp S SMW 200A is the vector signal generator for the most demanding applications As a result of its flexibility performance and intuitive operation it is a perfect tool for generating complex digitally modulated signals of high quality The R amp S SMW200A is the ideal generator for digitally modulated signals required for the development of new wideband communications systems the verification of 3G and 4G base stations or in the aerospace and defense sector The I O modulation bandwidth of up to 160 MHz with internal baseband satisfies fourth generation stan dards e g LTE Advanced and IEEE802 11ac and the R amp S SMW 200A is designed to meet future requirements Its modular scalable architecture allows users to optimize the generator to their applications and to upgrade it as re quired amp ROHDE amp SCHWARZ 20 000 000 000 00c 16 900 000 000 00 leas Lass gt v Fs On On LJE a A af af sk E PE ea ak m M af pt TR ef r A second RF path can be added as well as a maximum of two baseband and four fading simulator modules without compromising signal quality As a result the R amp S SMW200A can
33. ting and service manual Options R amp S SMW Bxxx hardware option R amp S SMW Kxxx software key code option Frequency options RF path A 100 kHz to 3 GHz 100 kHz to 6 GHz 100 kHz to 12 75 GHz 100 kHz to 20 GHz 100 kHz to 31 8 GHz 100 kHz to 40 GHz Signal routing and baseband main modules Signal Routing and Baseband Main Module one I O path to RF Signal Routing and Baseband Main Module two I O paths to RF Frequency options RF path B 100 kHz to 3 GHz 100 kHz to 6 GHz 100 kHz to 12 75 GHz 100 kHz to 20 GHz Other RF options FM pM Modulator Enhanced Phase Noise Performance and FM M Modulator Phase Coherence Pulse Modulator Pulse Generator Multifunction Generator Differential Analog I O Inputs Baseband Baseband Generator with ARB 64 Msample and Digital Modulation realtime 120 MHz RF bandwidth Differential Analog 170 Outputs Digital Baseband Output ARB Memory Extension to 512 Msample ARB Memory Extension to 1 Gsample Baseband Extension to 160 MHz RF bandwidth Envelope Tracking AM AM AM o M Predistortion Slow I O Multichannel MIMO fading and noise Fading Simulator Additive White Gaussian Noise AWGN Dynamic Fading Enhanced Fading Models MIMO Fading Routing Multiple Entities T The base unit can only be ordered with an R amp S SMW B10x frequency option and an R amp S SMW B13 or R amp S SMW B13T signal routing and baseband main module R amp S SMW200A R amp S SMW B103 R amp S SMW B106 R amp S
34. to RC4 in reverse link 1 All channel coding modes included in IS 2000 1xEV DO Rev A B R amp S SMW K47 K87 1 Forward link and reverse link 1 Physical layer subtypes 0 amp 1 2 or 3 1 Multicarrier scenarios with up to 16 concurrent channels TD SCDMA 38GPP TDD LCR R amp S SMW K50 K51 1 Simulation of up to four TD SCDMA cells with variable uplink and downlink switching point 1 Fixed reference measurement channels up to RMC 384 kbps tn uplink and downlink 1 HSDPA and HSUPA channels WLAN R amp S SMW K54 K86 1 Support of all mandatory physical layer modes IEEE 802 1 1a b g n j p ac 1 VHT frames with up to 160 MHz transmission bandwidth 1 BPSK QPSK 16QAM and 2560AM modulation 1 MIMO modes with four transmit antennas 1 Frame block sequencer for alternating legacy frames in line with 11a b g j p 11n or 11ac WIMAX IEEE 802 16 R amp S SMW K49 1 OFDM and OFDMA modulation 1 Multiple zones and segments 1 Space time coding for up to four antennas Bluetooth R amp S SMW K60 Bluetooth 4 0 basic rate EDR Bluetooth low energy Support of all packet types Dirty transmitter For more information see R amp S SMW200A data sheet PD 3606 8037 22 R amp S SMW200A configuration guide PD 3606 8037 92 Digital Standards for Signal Generators data sheet PD 5213 9434 22 and www rohde schwarz com product smw200a 20 Ordering information Vector Signal Generator including power cable quick start guide and CD ROM with opera
35. ts Optional fading and noise simulation for each of the eight individual channels is also possible Flexible routing capabilities and internal realtime addi tion of the baseband signals allow a parallelized testing approach All signals are generated with their own period icity This allows the simultaneous generation of multiple carriers with nontruncated data sequences and enables a DUT to perform demodulation tests for each of the sig nals at the same time As a result the overall test time Is reduced and only a minimum of hardware investment Is needed Two path R amp S SMW200A Iiu bee l a J I Q s t c lL el l a m M a P P e r IW INI I UI IIT UI 0 Power Spectrum FFT points 2048 AVG 4 Power dB In a two path R amp S SMW200A baseband signals can be digitally added and provided with baseband frequency offset This makes it possible to easily generate multicarrier scenarios or wanted signal plus interferer scenarios Support of all important digital standards In contrast to many other solutions on the market the sig The R amp S SMW 200A uses software options to generate nals for the digital standards can be configured and gen signals for all important digital standards particularly erated directly on the R amp S SMW200A Because the soft LTE LTE Advanced up to Release 11 3GPP FDD HSPA ware options integrate seamlessly into the instrument s HSPA GSM EDGE EDGE Evol
36. uency response with internal baseband 0 30 Z 850 MHz Z 0 20 2140 MHz 2 5400 MHz S 10000 MHz 25000 MHz 0 10 0 S a a A20 BC 80 B 40 20 0 20 40 60 80 Offset frequency in MHz 12 Exceptional modulation characteristics The R amp S SMW 200A features a wideband I O modulator with up to 2 GHz RF bandwidth With this bandwidth it covers practically all applications in its frequency range including wireless and satellite communications radar research and education The internal baseband makes it possible to generate signals with a maximum width of 160 MHz State of the art 16 bit D A converters and an excellent RF chain ensure exceptional modulation MultiView Spectrum L x Spectrum 2 a lapa Ref Level 2 00 dBm e RBW 30 kHz e Att 15 dB SWT 2s VBW 300 kHz Mode Auto FFT 1 ACLR NCAN iRm Clrw D D 2 Result Summary W CDMA 3GPP FWD Channel Bandwidth Offset TXi Ref 3 840 MHz 3 Tx Total 5 m Adj 3 840 MHz 5 000 MHz 73 59 dB 73 56 dB AI 3 840 MHz 10 000 MHz 75 20 dB 75 23 dB Measuring 7 TT 9 02 20 15 36 01 7 Measured ACPR for 3GPP test model 1 64DPCH
37. ution TD SCDMA and firmware there is no need for additional PC software WLAN IEEE 802 1 1a b g n j p ac The entire physical layer This simplifies operation and also saves valuable testing is simulated as well as channel coding for the majority of time since no time consuming waveform transfer from standards As a result the R amp S SMW 200A is perfect for the external PC software to the signal generator s output standard compliant receiver measurements e g tests on memory has to be performed base stations in line with 3GPP 1 25 141 for 3GPP FDD or 3GPP 1 36 141 for LTE LTE Advanced Seon Fw O 699 N Z Resource Block b LAA p s 05 Time ms No of Subframes E First Subframe 0 View Mode vng Comp Carrier fo Show Time Plan in Dialog Time plan display in the LTE option of the R amp S SMW 200A Rohde amp Schwarz R amp S SMW200A Vector Signal Generator 7 As a result of its outstanding performance the R amp S SMW200A responds virtually without delay to new settings even when they require comprehensive signal calculations Therefore test scenarios can easily and quickly be adapted to new requirements Parameters can be varied with immediate effect for optimization or troubleshooting without causing unproductive interrup tions or waiting time Users benefit from numerous help functions Predefined settings can be used to configure standard compliant signals e g test models
38. utput ai m E D F 2x8 MIMO setup consisting of a two path R amp S SMW200A and six R amp S SGT100A signal generator modules operated from the R amp S SMW200A The modules provide RF paths 3 to 8 The R amp S SMW 200A fully performs baseband signal generation and fading Rohde amp Schwarz R amp S SMW200A Vector Signal Generator 11 N J ke VO u r d eVI ce Excellent signal quality Testing high performance DUTs requires a signal genera tor solution that features significantly better RF charac h tt teristics than the DUT itself Otherwise the measurement eve n e e results might be falsified by the signal generator The R amp S SMW 200A fully meets this requirement enabling the UU T S entire potential to be utilized WGN x a Sample Rate Fs 320 0 MHz Standard IEEE 802 iiac Capt Time No of Samples ims 320000 PPDU MCS Index GI WHT160 9 L126 Meas Setup i Tx X 1 Rx No of Data Symbols 1 1366 Analyzed PPDUs 6 6 3 Result Summary Global 1 Magnitude Capture 61 Clrw Ff No of PPDUs Recognized 6 Analyzed 6 Analyzed Physical Channel 6 Pilot Bit Error Rate EVM All Carriers EVM Data Carriers TT a RT TTT T TTT Carrier 250 50 Carrier Carrier 250 NHD al es 9 02 20 Ready aia 18 44 03 7 The R amp S SMW200A generates 160 MHz wide WLAN IEEE802 11ac signals with an EVM of 49 dB meas Measured I O modulation freq
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