ROHDE & SCHWARZ SMV03 Datasheet
Contents
1. Step time Resolution Trigger input Input level Input impedance Memory for device settings Number of storable settings Remote control System Command set Connector IEC IEEE bus address Interface functions General data Rated temperature range Storage temperature range Climatic resistance Damp heat Mechanical resistance Vibration sinusoidal Vibration random Shock digital in discrete steps automatic single shot manually or exter nally triggered linear or logarithmic user selectable user selectable 0 01 to 100 automatic single shot manually or externally triggered logarithmic user selectable user selectable 10 ms to 1s 0 1 ms TTL HCT 10 KQ pull up 100 IEC 60625 IEEE 488 and RS 232 C Scr 1995 0 Amphenol 24 pin and 9 pin 0 to 30 Sell ARI We A SRT e reel E DT1 CO 0 C to 55 C meets IEC 68 2 1 and IEC 68 2 2 40 C to 70 C 95 relative humidity at 25 C 40 C cyclically meets IEC 60068 5 Hz to 150 Hz max 2 9 at 55 HZ max 0 59 between 55 Hzand A 150 Hz meets IEC 60068 IEC 63010 and MIL 1 28800D class 5 c 10 Hz to 300 Hz Ld acceleration 1 2 g rs 40 g shock spectrum meets MIL STD 810D and MIL I 28800D class 3 5 Electromagnetic compatibility Immunity to radiated interference Power supply Safety Dimensions W x H x D Weight With option R amp S SML B3 only for f gt 20 MHz With attenuator mode auto2. Temperature range 20 C to 30 C 140 dBm to 11 dBm at f lt 5 MHz f 23 GHz With attenuator mode fixed meets EN 55011 and EN 61326 1 EMC directive of EU 10 V m 100 V to 120 V AC 50 Hz to 400 Hz 200 V to 240 V AC 50 Hz to 60 Hz autoranging max 250 VA meets DIN EN 61010 1 IEC 1010 1 UL 3111 1 CSA 22 2 No 1010 1 427 mm x 88 mm x 450 mm 9 5 kg when fully equipped After 1 hour warmup and recalibration within 4 hours of operation after temperature variations lt 5 C The modulation bandwidth continuously decreases upon approaching 5 MHz or 3 3 GHz With attenuator mode auto f 2100 kHz 5 dBm to 11 dBm at f xb MHz f 23 GHz With option R amp S SML B3 only for f 10 MHz Values in brackets apply to wide modulation bandwidth Ordering information Vector Signal Generator R amp S SMV03 1147 7509 13 Accessories supplied power cable user manual Options Reference Oscillator OCXO R amp SSMLB1 1090 5790 02 Pulse Modulator R amp S SMLB3 1090 5403 02 Stereo RDS Coder R amp S SML B5 1147 8805 02 Rear Connectors for AF RF Recommended extras R amp S SMI B19 1090 5303 02 Service Kit R amp SSMLZ2 1090 5203 02 9 Rack Adapter R amp SZZA 211 1096 3260 00 Transport Bag R amp S ZZT 214 1109 5119 00 Service Manual Modules 1090 3123 24 1 Factory fitted only Vector Signal Generator R amp S SMV 03 9 ROHDE amp SCHWARZ ROHDE amp SCHWARZ GmbH amp Co KG M h
3. rad 0 rad to 10 2 rad 0 rad to 20 4 rad 0 rad to 30 6 rad 0 rad to 40 8 rad 196 min 0 001 rad 496 of reading 0 02 rad 0 296 0 1 typ DC to 100 kHz 10 Hz to 500 kHz 2100 kQ 1V Pulse modulation with option R amp S SML B3 Operating modes On oft ratio Rise fall time 1096 9096 Pulserepetition frequency Pulse delay Video crosstalk V Modulation input PULSE Input level Input impedance internal external gt 80 dB 20 ns 10 ns typ 0 Hz to 2 5 MHz 90 ns typ 30 mV TTL level HCT 10 kQ or 50 Q selectable with internal link Pulse generator with option R amp S SML B3 Operating modes Active trigger edge Pulse period Resolution Accuracy Pulse width Resolution Accuracy Pulse delay Resolution Accuracy Double pulse spacing Resolution Accuracy Trigger delay Jitter PULSE VIDEO output automatic externally triggered external gate mode single pulse double pulse delayed pulse externally triggered positive or negative 100 ns to 85 s 5 digits min 20 ns ES TUR 20 ns to 1s 4 digits min 20 ns Ax ns 20 ns to 1s 4 digits min 20 ns ox 10 9 nis 20 ns to 1s 4 digits min 20 ns A 3ms 90 ns typ 10 ns TTL signal R 250 Q Vector Signal Generator R amp S SMV 03 8 Sweep RF sweep AF sweep Operating modes Sweep range Step width lin Step width log Level sweep Operating modes Sweep range Step width log
4. V LF connector Resolution setting accuracy at 1 kHz Output impedance Frequency setting time after reception of last IEC IEEE bus character Simultaneous modulation Amplitude modulation Operating modes Modulation depth Resolution Setting accuracy at 1 kHz m 8096 0 AM distortion at 1 kHz m 3096 m 80 Modulation frequency range lt 3 dB Incidental qM at AM 30 AF 1 kHz Modulation input EXT Input impedance Input voltage V for set modulation depth Frequency modulation Operating modes Frequency deviation 9 kHz to 76 MHz gt 76 MHz to 151 3125 MHz gt 151 3125 MHz to 302 625 MHz gt 302 625 MHz to 605 25 MHz gt 605 25 MHz to 1 2105 GHz gt 1 2105 GHz to 1 818 GHz gt 1 818 GHz to 2 655 GHz gt 2 655 GHz to 3 300 GHz Resolution Setting accuracy at AF 1 kHz FM distortion at AF 1 kHz and 50 of max deviation Modulation frequency range lt 3 dB Standard Wide Incidental AM at AF 1 kHz f 210 MHz 40 kHz deviation Stereo modulation at 40 kHz useful deviation AF 1 kHz RF 2 87 MHz to 108 MHz Crosstalk S N ratio unweighted rms S N ratio weighted rms Distortion 0 5 dB 0 196 1 mV to4V 1 mV 1 of V 1 mV approx 10 Q 10 ms AM FM M and pulse modulation or vector modulation FM M and pulse modulation internal external AC DC internal external two tone 096 to 10096 settable modulation depth continuously decreasing
5. between dBm and 13 dBm while adhering to AM speci fications a status message Is output when the modulation depth is too high 0 1 lt 4 of reading 1 lt 1 lt 2 DC 10 Hz to 50 kHz lt 0 2 rad gt 100 kQ 1V internal external AC DC internal external two tone 0 Hz to 1 MHz 0 Hz to 125 kHz 0 Hz to 250 kHz 0 Hz to 500 kHz 0 Hzto 1 MHz 0 Hz to 2 MHz 0 Hzto 3 MHz 0 Hz to 4 MHz lt 1 of set deviation minimum 10 Hz 496 of reading 20 Hz 0 296 0 1 typ DC to 100 kHz 10 Hz to 500 kHz lt 0 1 gt 50 dB gt 0 dB gt 0 dB lt 0 2 0 1 typ Carrier frequency offset at FM DC Modulation input EXT Input impedance Input voltage V for set deviation nominal value Phase modulation Operating modes Phase deviation 9 kHz to 76 MHz gt 6 MHz to 151 3125 MHz gt 151 3125 MHz to 302 625 MHz gt 302 625 MHz to 605 25 MHz gt 605 25 MHz to 1 2105 GHz gt 1 2105 GHz to 1 818 GHz gt 1 818 GHz to 2 655 GHz gt 2 655 GHz to 3 300 GHz Resolution Setting accuracy at AF 1 kHz Phase distortion at AF 1 kHz and 50 of maximum deviation Modulation frequency range 3 dB Standard Wide Modulation inputs EXT Input impedance Input voltage V for set deviation nominal value 0 1 typ of set deviation gt 100 kQ 1 internal external AC DC internal external two tone 0 rad to 10 2 rad 0 rad to 1 25 0 25 rad 0 rad to 2 5 0 5 rad 0 rad to 5 1
6. times lt 10 ms allow fast measurements and make the R amp S SMV 03 the ideal generator for pro duction testing Overshoots that occur when the level is changed may damage or even de stroy the DUT This cannot happen with the R amp S SMV03 as no overshoots are produced DUT Vector Signal Generator R amp S SMV03 3 Applications Lab and R amp D versatile Versatile modulation modes Particularly in research a great variety of digital signals are used in the develop ment of new systems which are not always covered by a standard Thanks to its very wideband I O modulator the R amp S SMV 03 can handle universal tasks of this kind In conjunction with the optional Pulse Modulator R amp S SML B3 the vector sig nal generator can also handle all types of analog modulation AM FM M and pulse modulation can be used simultane ously as can vector modulation FM M and pulse modulation High spectral purity Thanks to its low phase noise the R amp S SMV093 is ideally suited to replace LOs High and accurate output level The high level accuracy of the Vector Sig nal Generator R amp S SMV03 is a prerequi site for highly accurate measurements on sensitive analog and digital receivers Its high output level makes the R amp S SMV 03 an ideal source for driving high level mixers Excellent modulation characteristics As the R amp S SMV 03 provides high linea rity FM it can be used as
7. 7 mm x 88 mm x 450 mm Low weight 9 5 kg Vector modulation K Gy Q e owtCost of ownership Wide 0 bandwidth of Ad e i s year calibration cycle e d Electronic attenuator for wear free lt S A operation Ce Service friendly continuous selftest RY access to internal test points O Applications Production fast accurate reliable Versatility The R amp S SMV03 generates all kinds of O modulated signals using the integra ted vector modulator Thanks to its wide l Q bandwidth of 50 MHz the R amp S SMV 03 is also optimally suited for applications using high data rates such as WLAN stan dards Signals to digital stan dards can be easily generated in conjunction with an external I Q source like the Modulation Generator R amp S AMIO PD 0757 3970 and the associated R amp S WinlOSIM simulation software PD 0757 6940 The R amp S SMV 03 therefore optimally meets production environment require ments Dimensions The compact size only 2 HU makes the R amp S SMV03 ideal for use in production where space is often limited Speed opeed is essential especially in produc tion And this is exactly where the R amp S SMV 03 shows what it can do with a fre quency and level setting time of 10 ms Accuracy Any measurement uncertainty has two components the uncertainty due to the measuring instrument and that due to the rest of the test setup The lower the level uncertainty of the vec
8. Hz to 2 2 GHz 1222 GHz to 3 3 GHz Broadband noise f 1 GHz carrier offset gt 2 MHz 1 Hz bandwidth SSB phase noise f 1 GHz 20 kHz carrier offset 1 Hz bandwidth Spurious FM rms f 1 GHz 0 3 kHz to 3 kHz 0 03 kHz to 20 kHz Spurious AM rms 0 03 kHz to 20 kHz Range Resolution Level accuracy 2 level gt 120 dBm 100 kHz to lt 2 GHz f gt 2 GHz Frequency response at 0 dBm 100 kHz to lt 2 GHz f gt 2 GHz 2 3 9 kHz to 3 3 GHz 5 MHz to 3 3 GHz 0 1 Hz 10 ms lt 12 ms Standard sx 10 5 year Option R amp S SML B1 all X 107 year 5 x 10 P gay 1x 105 22x10 10 MHz gt 0 5 V into 50 Q 50 2 10 MHz 5x 10 0 5 V to 2 V into 50 Q 50 Q Q30 dBc at levels lt 8 dBm 50 dBc dBc 64 dBc lt 30 dBE lt 135 dBc 140 dBc typ lt 122 dBc 128 dBc typ lt 4 Hz 1 Hz typ lt 10 Hz oz typ lt 0 02 140 dBm to 13 dBm 2 4 overrange 19 dBm 0 1 dB lt 0 5 dB lt 0 9 dB lt 0 dB lt 1 0 dB Characteristic impedance SWR 100 kHz to 1 5 GHz f gt 1 5 GHz Setting time IEC IEEE bus f gt 100 kHz Interruption free level setting for f 2100 kHz I O modulation off I O modulation on Max permissible RF power f 2 2 GHz 22 2 GHz Max permissible DC voltage Additional level inaccuracy in case of vector modulation ALC OFF referred to CW mode Operating mode and Q modulation inputs In
9. Test Equipment Solutions Datasheet Test Equipment Solutions Ltd specialise in the second user sale rental and distribution of quality test amp measurement T amp M equipment We stock all major equipment types such as spectrum analyzers signal generators oscilloscopes power meters logic analysers etc from all the major suppliers such as Agilent Tektronix Anritsu and Rohde amp Schwarz We are focused at the professional end of the marketplace primarily working with customers for whom high performance quality and service are key whilst realising the cost savings that second user equipment offers As such we fully test amp refurbish equipment in our in house traceable Lab Items are supplied with manuals accessories and typically a full no quibble 2 year warranty Our staff have extensive backgrounds in T amp M totalling over 150 years of combined experience which enables us to deliver industry leading service and support We endeavour to be customer focused in every way right down to the detail such as offering free delivery on sales covering the cost of warranty returns BOTH ways plus supplying a loan unit if available and supplying a free business tool with every order As well as the headline benefit of cost saving second user offers shorter lead times higher reliability and multivendor solutions Rental of course is ideal for shorter term needs and offers fast delivery flexibility try before you buy zero capital expend
10. a precise VCO Example receiver measurements Sensitivity measurements require a si gnal generator with high level accura cy High accuracy is even more critical at low output levels Thanks to its so phisticated calibration methods the R amp S SMV03 features high level accu racy uncertainty 0 5 dB at levels 120 dBm 4 Vector Signal Generator R amp S SMV03 Minimal spurious minimal broadband noise and above all excellent SSB phase noise are prerequisites for using the R amp S SMV03 as an interfe rence source With an SSB phase noise of typ 128 dBc Hz at f 1 GHz Af 20 kHz spurious suppression of typ 6 dBc and broadband noise of typ 150 dBc 1 Hz the R amp S SMV03 meets even the most exacting requirements The mechanical design of the R amp S 9MV 03 ensures excellent RF shielding of its casing This is particularly impor tant for measurements on highly sen sitive receivers with built in antenna Response dB D 8 wa j 3h AOO 50 OF ncy offset from carrier MHz P Fregttency MHz 0 w 20 W w w Gt 70 BU w 100 Frequency response of modulator carrier frequency 1 GHz Vector diagram of QPSK signals Mobility The R amp S SMV03 is lightweight 9 5 kg and compact and therefore very easy to transport Flexible contr
11. atory SSB phase noise at 9 5 MHz output frequency extended divider range activated 1 Hz measurement High contrast LCD bandwidth User assignable menu keys Online help including IEC IEEE bus commands N b bw Certified Quality System ISO 9001 DOS REG NO 1954 Certified Environmental System ISO 14001 REG NO 1954 Simply select the desired menu with the spin wheel and click the button to open the submenu 6 Vector Signal Generator R amp S SMV03 Specifications apply under the following conditions 30 minutes warmup time at ambient temperature specified environmental con ditions met calibration cycle adhered to and total calibration performed Data designated nominal are design parameters and are not tested Data designated overrange are not warranted R amp S SMV03 I O modulation off I O modulation on Resolution Setting time for an offset of 1x10 or 90 Hz for f lt 76 MHz after IEC IEEE bus delimiter I O modulation off I O modulation on Aging after 30 days of operation Temperature effect 0 C to 55 C Output for internal reference Frequency Output voltage V rms sinewave Source impedance Input for external reference Frequency Permissible frequency drift Input voltage V rms sinewave Input impedance Spurious signals Harmonics for f gt 100 kHz Subharmonics f lt 1 1 GHz f gt 1 1 GHz Nonharmonics carrier offset gt 10 kHz f lt 1 1 GHz 154 1 G
12. iture lower risk and off balance sheet accounting Both second user and rental improve the key business measure of Return On Capital Employed We are based near Heathrow Airport in the UK from where we supply test equipment worldwide Our facility incorporates Sales Support Admin Logistics and our own in house Lab All products supplied by Test Equipment Solutions include No quibble parts amp labour warranty we provide transport for UK mainland addresses Free loan equipment during warranty repair if available Full electrical mechanical and safety refurbishment in our in house Lab Certificate of Conformance calibration available on request Manuals and accessories required for normal operation Free insured delivery to your UK mainland address sales Support from our team of seasoned Test amp Measurement engineers SO9001 quality assurance Test equipment Solutions Ltd Unit 8 Elder Way Waterside Drive Langley Berkshire SL3 6EP T 44 0 1753 596000 F 44 0 1753 596001 Email info TestEquipmentHQ com Web www TestEquipmentHQ com Vector Signal Generator R amp S SMV 03 Vector modulation in the analog class Frequency range 9 kHz to 3 3 GHz Setting times 10 ms AM FM oM 0 modulator 100 MHz RF band High level accuracy 0 5 dB Optional pulse modulator with width with excellent vector accuracy High reliability through electronic integrated pulse ge
13. ldorfstrafse 15 81671 M nchen Germany P O B 8014 69 81614 M nchen Germany Telephone 49 89 41 29 0 www rohde schwarz com Customer Support Telephone 49 1805124242 Fax 49 89 4129 13777 E mail CustomerSupport rohde schwarz com 1102 U bb Printed in Germany PD 0757 7175 22 Vector Signal Generator R amp S SMV03 Trade names are trademarks of the owners Subject to change Data without tolerances typical values
14. nerator f 2500 MHz to 3 GHz attenuator 3 year calibration cycle SSB phase noise 128 dBc 1 Hz Digital frequency and level sweep ROHDE amp SCHWARZ The Vector Signal Generator R amp S SMV03 is based on the successful analog Signal Generator R amp S SMLO3 and so features the same excellent technical characteristics It comprises an additional broad band I 0 modulator which is able to generate any digital signal in conjunction with an external I O source The R amp S SMV 03 is therefore a way of entering the wide field of auto matic test systems as well as gaining access to applications like R amp D and service When used together with the R amp S AMIQ and R amp S WinlSIM the R amp S SMV U3 can generate ee UE 2 Vector Signal Generator R amp S SMV03 D MOHDE amp SCHWARZ VECTOR BIGHAL GENERATOR salu LI Ghis AMV i RF characteristics Frequency range from 9 kHz to 3 3 GHz with 0 1 Hz resolution High output level of 13 dBm with a deviation 0 5 dB Interruption free level setting by electronic attenuator High spectral purity lt 122 dBc 1 Hz at f 2 1 GHz and 20 kHz carrier offset Frequency and level setting time 10 ms S f Analog modulation AM FM oM as standard Simultaneous AM FM oM pulse and vector modulation 4 Optional pulse modulator with inte grated pulse generator R amp S SML B3 Dimensions Compact size 42
15. ol In service environments an IEC IEEE bus interface is not always available to cont rol the generator This is not a problem as the R amp S SMV03 can also be controlled via a standard RS 232 C interface Protection against overvoltage The integrated overvoltage protection of the RF output protects the R amp S SMV03 against very high external voltages such as may occur during transceiver measure ments Interruption free level setting without overshoots EMS measurements require interruption free level setting which should also be overshoot free The R amp S SMV 03 does not produce any overshoots even at setting times 10 ms Furthermore it has a wide dynamic range of typ 30 dB over which level adjustment is interruption free Wide frequency range The R amp S SMV03 features a lower fre quency limit of 9 kHz as standard and so fully covers the frequency range required for EMC measurements Module test with R amp S SMV03 R amp S AMIO and Spectrum Analyzer R amp S FSP Graphics Constellation Diagram Quadrature qit 5 32 i 5 32 400 3 00 200 1 00 000 1 00 2 00 3 00 4 00 Inphase ift Constellation diagram of WCDMA signal in 3GPP TDD mode A4 ic T F i em ose THEM HIPS TU 4 z Ei T Tear m Tha es F d f i T fo LII Liu zi ail n r e T 2 4 E S Ren xim n a en sinu ui T if Je i raro rii Vtde d ON AM MUTTER s M xm ace e aca e aoa e aom
16. po hmmmmmmm m as cemere m ERR E p zi j 2 oi p 1 Ae xar Saab we Bes Hirer ehv o4 vtt A im ry T T i 1 1 E TI ri E a s 2 3 td Gere eei ahhahah freies is rieeni BHSHSHahiera8 bevaeesereesratre Years l lg o gt AG AM ee ES E AIO ee a a WU oa ee Le T E haa ESTEE DES ton N AG EC LdHc z Hz LET KC Hz QV Vector Signal Generator R amp S SMV 03 D Reference source The R amp S SMV03 allows selection of the mode of frequency generation In the extended divider range mode the RF sig nal is generated by frequency division The excellent values obtained in this mode for SSB phase noise are compara ble to those from the high grade crystal oscillators normally used as reference sources from 10 MHz to 30 MHz Compared to crystal oscillators the R amp S SMV 03 has the following benefits Frequency can be set in 0 1 Hz steps and synchronized to an external refe Typical SSB phase noise versus carrier frequency carrier offset 20 kHz dashed line extended divider range mode rence All functions can be remotely cont rolled via the IEC IEEE bus or serial in Yy terface Offset from carrier SN SSB Padi vo noise typical values 1 Hz SS P hes ge 10 Hz e id EasyWheel Ly gt he 2 4 d b gt 100 4 1 Fo om dB One hand operation with He e e 138 dB S Md K Ar Aa 148 dB i KHZ All settings simple and S v 4 C Se If expla n
17. put impedance SWR DC to 30 MHz Input voltage for full scale level Static error vector Level lt 8 dBm Rms value f 2 6 6Hz Q6 GHz to f 3 GHz Peak value f 2 6 GHz f gt 2 0 GHz to f 3 GHz Modulation frequency response f gt 500 MHz to 3 GHz DC to 5 MHz DC to 50 MHz f 500 MHz and f gt 3 GHz DC to 5 MHz DC to 30 MHz Residual carrier at 0 V input voltage referred to max input voltage I O imbalance Carrier leakage Setting range Resolution Iz Q Setting range Resolution Quadrature offset Setting range Resolution Adjacent channel leakage ratio ACLR WCDMA 3GPP FDD i 214 GHZ Test model 1 64 DPCHs Offset 5 MHz Offset 10 MHz Frequency range Resolution Frequency accuracy 1 6 13 10 ms 5 ms typ 20 dB overrange 30 dB 15 dB overrange 20 dB safeguards unit against externally applied RF power and DC voltage 50 2 source 90 W 25 W Jo V 0 3 dB external DC 50 Q 2l a zu 1 V EMF with 50 Q source 0 596 0 796 196 1 496 0 4 dB 3 dB 0 4 dB 3 dB 45 dBc at f 5 MHz to 3 GHz 096 to 5096 0 5 12 to 12 0 1 10 to 10 Fie nom gt 60 dB 62 dB typ nom gt 64 dB 66 dB typ 0 1 Hz to 1 MHz 0 1 Hz as for reference frequency 24x10 Hz Vector Signal Generator R amp S SMV03 Frequency response up to 500 kHz level gt 100 mV THD up to 100 kHz level 4 V R 600 Q pen circuit voltage
18. tor signal genera tor the greater the test setup tolerance that may be allowed If greater tolerances can be allowed for the DUT because of the small level error of the R amp S SMV03 production rejects can be markedly redu ced an advantage that pays off immedi ately Reliability A signal generator used in production must feature high reliability The R amp S SMV03 meets this requirement for example through the use of a completely wear free electronic attenuator Output level In production test systems the signal is routed to the DUT via switches and cables which introduce losses This can be com pensated for by the high output power of the R amp S SMV03 Example component test Tests using digital signals are beco ming increasingly important for che cking the functions of individual com ponents yespecially at the compo nent production stage In this environ ment the R amp S SMV 03 s 1 0 modufa tor shows what it can do Thanks to its wide signal bandwidth of 50 MHz it can generate a greatvariety of digi tal signals wheran external I sour Ce is used To obtain reliable information on com ponent quality high level accuracy and high output level repeatability are essential The R amp S SMV03 fully meets these requirements thanks to a maximum level uncertainty of 0 5 dB at levels gt 120 dBm and high repro ducibility Extremely short frequency and level setting
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