(GNSS) Simulator in the R&S®SMBV100A
Contents
1. System time basis GPS UTC default GPS Simulation time flexible date and time or GPS time configuration with a resolution of 1 ms Current leap seconds static mode and auto localization mode automated user localization mode user configurable Elevation mask available in auto localization mode and user localization mode 2 5 5 7 5 10 filtering of all satellites below a specific threshold Get optimal constellation available in user localization mode optimal constellation search based on the real navigation data and the maximum number of satellites with minimized PDOP and an elevation above the elevation mask Realtime satellites and position online tracker SPOT display available in auto localization mode and user localization mode dynamic constellation user location satellite absolute power and trajectory views in addition to HDOP PDOP display the time of the next satellite handover can be polled in auto localization mode Power modes User power mode available in static mode and user localization mode 21 dB dynamic range user configurable in realtime Auto power mode available in auto localization mode and in user localization mode automatic simulation of satellite power values based on e satellite to user distance e interstandard power tuning parameters only in case of a hybrid GNSS configuration 10 Rohde amp Sc2. C A P satellites in realtime with user definable satellite time shift power Doppler and initial carrier phase e g for sensitivity measurements Auto localization mode automatic dynamic simulation of up to 6 GPS C A P or C A P satellites at a receiver location based on user definable almanac location and time simulation is not time limited due to automatic dynamic exchange of simulated satellites based on visibility and when required for better position dilution of precision PDOP constellation and satellite power variation are automatically simulated User localization mode dynamic simulation of up to 6 GPS C A P or C A P satellites at a receiver location based on user definable almanac location and time a complete user definable constellation satellite exchange in realtime and satellite power configuration in realtime are supported GNSS hybrid configuration available if K66 or K94 is additionally installed hybrid GNSS constellation with up to 6 satellites e g 4 GPS C A P satellites and 2 Galileo satellites possible whenever the base option of the other GNSS standard is installed User space coordinates available in auto localization mode and user localization mode geodetic coordinates in ECEF WGS84 coordinate system e altitude 10000 m to 1600000 m in steps of 0 1 m e latitude 90 to 90 in steps of 0 000001 e longitude 180 to 180 in steps of 0 000001
3. Simulator in the R amp S SMBV100A Vector Signal Generator 11 Version 03 00 February 2012 Galileo R8 S SMBV K66 option Galileo in line with OD SIS ICD E1 band General settings Frequency based on the RF band and GNSS hybrid configuration user selectable in entire frequency range depending on installed RF option see R amp S SMBV100A data sheet Output power based on the selected power mode and the individual satellite power parameters user selectable in entire output power range depending on installed RF option see R amp S SMBV100A data sheet RF bands L1 E1 Simulation modes Static mode generation of up to 6 satellites in realtime with user definable satellite time shift power Doppler and initial carrier phase e g for sensitivity measurements Auto localization mode automatic dynamic simulation of up to 6 satellites at a receiver location based on user definable almanac location and time simulation is not time limited due to automatic dynamic exchange of simulated satellites based on visibility and when required for better position dilution of precision PDOP constellation and satellite power variation are automatically simulated User localization mode dynamic simulation of up to 6 satellites at a receiver location based on user definable almanac location and time a complete user definable constellation satellite exchange in realtime and satellite power
4. multipath R amp S SMBV K92 Option c ccccsccsessesesessesssesecsesesscsescetsessssessetsesesetseeteesneees 17 Ordering information mmnccccnnnnnnnnicccnn serna 18 2 Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Version 03 00 February 2012 Definitions General Product data applies under the following conditions Three hours storage at ambient temperature followed by 30 minutes warm up operation Specified environmental conditions met Recommended calibration interval adhered to All internal automatic adjustments performed if applicable Specifications with limits Represent warranted product performance by means of a range of values for the specified parameter These specifications are marked with limiting symbols such as lt lt gt gt or descriptions such as maximum limit of minimum Compliance is ensured by testing or is derived from the design Test limits are narrowed by guard bands to take into account measurement uncertainties drift and aging if applicable Y axis Specification limit Actual values with measurement uncertainty and guard band Z Specification limit ane Z X axis Measurement uncertainties 3 gt Guard band Specifications without limits Represent warranted product performance for the specified parameter These specifications are not specially marked and represent values with n
5. 10 kHz in steps of 0 01 Hz Additional carrier phase 0 to 27 in steps of 0 01 rad Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator 17 Version 03 00 February 2012 Ordering information Designation Type Order No Base unit including power cable quick start guide and CD ROM with operating and service manual Vector Signal Generator 1 R amp S SMBV100A 1407 6004 02 Hardware options GNSS related configuration 4 Frequency Range 9 kHz to 3 2 GHz R amp S SMBV B103 1407 9603 02 Baseband Generator with Digital Modulation realtime and R amp S SMBV B10 1407 8607 02 ARB 32 Msample 120 MHz RF bandwidth Hard Disk removable R amp S SMBV B92 1407 9403 02 ARB Memory Extension to 256 Msample R amp S SMBV B55 1407 9203 02 requires R amp S SMBV B92 option Software options GNSS related only d GPS R amp S SMBV K44 1415 8060 02 Assisted GPS R amp S SMBV K65 1415 8560 02 Galileo R amp S SMBV K66 1415 8590 02 GNSS Extension to 12 Satellites R amp S SMBV K91 1415 8577 02 GNSS Enhanced e g moving scenarios multipath R amp S SMBV K92 1415 8583 02 GPS P Code R amp S SMBV K93 1415 8660 02 Glonass R amp S SMBV K94 1415 8677 02 GNSS Extension to 24 Satellites R amp S SMBV K96 1415 8790 02 Recommended extras Hardcopy manuals in English UK 1407 6062 32 Hardcopy ma
6. 100 Hz after applying the meander code Number of ephemeris pages 1 Ephemeris realtime projection configurable in user localization mode off on a projection reference time shifted and ephemeris set tuned accordingly will be made every 30 45 or 60 minutes Project navigation message configurable in user localization mode projects the ephemeris and satellite clock correction to the current simulation time Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator 15 Version 03 00 February 2012 Dynamics Pseudo range error RMS 0 01 m Max velocity 10000 m s Max acceleration 300 m s Max jerk 45 m s as impulse GNSS extension to 12 satellites R amp S SMBV K91 option The R amp S SMBV K44 R amp S SMBV K66 or R amp S SMBV K94 option must be installed on the respective instrument GNSS extension to 12 satellites GPS P code not activated simulation of up to 12 GNSS satellites e g 8 GPS and 4 Galileo satellites if K44 and K66 are both installed GPS P code activated K44 and K93 required 8 satellites can at least be configured e g 8 C A P GPS satellites 12 can be reached depending on the configuration e g 4 C A P GPS and 8 Glonass satellites K94 additionally needed or 2 C A P GPS 2 Galileo E1 and 8 Glonass satellites on L1 E1 K66 and K
7. the respective instrument Version 03 00 February 2012 General settings A GPS test scenarios GSM in line with 3GPP TS 51 010 1 v 7 7 0 signaling test scenario performance test scenario 1 performance test scenario 2 performance test scenario 3 requires K92 3GPP FDD in line with 3GPP TS 34 108 v 8 0 0 and 3GPP TS 34 123 3 v 6 4 0 signaling test scenario in line with 3GPP TS 34 108 v 8 0 0 and 3GPP TS 34 171 v 7 0 1 performance test scenario 1 performance test scenario 2 performance test scenario 3 requires K92 3GPP2 in line with 3GPP2 C S0036 0 V1 0 static test scenario moving test scenario requires K91 and K92 User definable additional test scenarios can be defined by the user Simulation modes in addition to the K44 functionality Static mode satellite navigation parameters can be manually adjusted User localization mode satellite navigation parameters can be manually adjusted or imported from a GPS RINEX file Generation of assistance data e almanac file e ionospheric file e navigation file e UTC file e acquisition file in comma separated values CSV format for navigation file also in standard RINEX format Real navigation data in addition to the K44 functionality ephemeris subframes can be configured manually or imported from a GPS RINEX file Configuration of navigation data separately settable for each satellite each sa
8. 12 Realtime satellites and position online tracker SPOT display available in auto localization mode and user localization mode dynamic constellation user location satellite absolute power and trajectory views in addition to HDOP PDOP display the time of the next satellite handover can be polled in auto localization mode Power modes User power mode available in static mode and user localization mode 21 dB dynamic range user configurable in realtime Auto power mode available in auto localization mode and user localization mode automatic simulation of satellite power values based on e satellite to user distance e interstandard power tuning parameters only in case of a hybrid GNSS configuration Interstandard power tuning available in auto power mode and if K44 is installed simulation of the nominal power difference between different standards Marker two markers if Maximum Number of 1 PPS Satellites is less than or equal to 12 or 1 PP2S Use Military GPS is active otherwise 10 PPS only one marker pulse pattern on off ratio trigger Triggering see R amp S SMBV100A data sheet 1 Q baseband generator section Navigation data source identical for each satellite All 0 All 1 pattern up to 64 bit PN 9 to PN 23 data lists real navigation data almanac file as source for ephemeris and almanac subframes ephem
9. 94 additionally needed GNSS extension to 24 satellites R amp S SMBV K96 option The R amp S SMBV K91 option must be installed on the respective instrument GNSS extension to 24 satellites simulation of up to 24 GPS C A and or Glonass satellites e g 12 GPS C A and 12 Glonass satellites if K44 and K94 are additionally installed 16 Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Version 03 00 February 2012 GNSS enhanced e g moving scenarios multipath R amp S SMBV K92 option The R amp S SMBV K44 R amp S SMBV K66 or R amp S SMBV K94 option must be installed on the respective instrument Enhances any available GNSS base option e g K44 to be able to configure system time conversion atmospheric modeling moving scenario user defined multipath and leap second simulation parameters Moving scenario available in auto localization mode and user localization mode minimum duration of 12 hours before waypoint repetition and up to 4 days if R amp S SMBV B55 is installed supported formats e comma separated waypoints e movement script e NMEA lonospheric navigation parameters configuration of the ionospheric navigation parameters as they will be transmitted in the navigation message lonospheric model available in auto localization mode and user localization mode none Klobuchar for GPS none f
10. Global Navigation Satellite system GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Specifications ROHDE amp SCHWARZ Version 03 00 February 2012 CONTENTS D finitions A ai 3 OVETVIOW AAA A A A A A A ad did ci 4 ADOOS ari Ni ini Te EA EA IT E E ON AT E dc 4 MINIMUM hardware conmiguration 2h a aga 4 Key iras E A E E A A 5 GPS R amp S SMBV KAA Opt ome E ta o dl D la ENE 5 Assisted GPS R amp S SMBV K65 OPUON a sees fete O een A cesta Gated ate cok ee 5 GPS P code R amp S SMBV KQ3 Option ocn eras 5 Galileo R amp S SMBM KOS opion ii A i Re A ele eed os 5 Glonass R amp S SMBVAK94 OPA a do tat Ud LS 5 GNSS extension to 12 satellites R amp S SMBV K91 OPUON EEE E EEE eee eee ates Senet NN 6 GNSS extension to 24 satellites R amp S SMBV K96 ODION O TO RAN 6 GNSS enhanced e g moving scenarios multipath RS SPSMBV K92 ODON A OS 6 Global navigation satellite system GNSS ooonnnnininniicininencnnnnnnnnnncc rre 7 ARE A A A 7 Assisted GRS RES MB UV KO OPIO a A AA 00 9 GPS Picode R amp S SMBV KO3 option lt i tle aie oss onze etna bezel T E teal econ vee hente A 3 9 Galileo R amp S SMBV K66 Opt as 12 Glonass R amp S SMBV K94 AN 14 GNSS extension to 12 satellites R amp S SMBV K91 AN 16 GNSS extension to 24 satellites R amp S SMBV K96 Option ccccscccssessssesesssscsscscsecscsessesesececssecscsecsssesscscsesetssesetsesstssitsvssatseeaseesecees 16 GNSS enhanced e g moving scenarios
11. a leading supplier of solu tions in the fields of test and measurement broadcasting radiomonitoring and radiolocation as well as secure communications Established more than 75 years ago Rohde amp Schwarz has a global presence and a dedicated service network in over 70 countries Company headquar ters are in Munich Germany Environmental commitment 1 Energy efficient products 1 Continuous improvement in environmental sustainability 1 ISO 14001 certified environmental management system Certified Quality System 150 9001 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 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 8228 86 400 650 5896 customersupport china rohde schwarz com R amp S is a registered trademark of Rohde 8 Schwarz GmbH amp Co KG Trade names are trademarks of the owners Printed in Germany ch PD 5214 5284 22 Version 03 00 February 2012 GNSS in the R amp S SMBV100A Subject to change 2010 2012 Rohde amp Schwarz GmbH amp Co KG 81671 M nchen Germany 5214528422
12. ailable in static mode and user localization mode 21 dB dynamic range user configurable in realtime Auto power mode available in auto localization mode and in user localization mode automatic simulation of satellite power values based on e satellite to user distance e interstandard power tuning parameters only in case of a hybrid GNSS configuration Interstandard power tuning available in auto power mode and if K66 is installed simulates the nominal power difference between different standards Marker two markers if Maximum Number of 1PPS Satellites is less than or equal to 12 or 1 PP2S Use Military GPS is active otherwise 10 PPS only one marker pulse pattern on off ratio trigger Triggering see R amp S SMBV100A data sheet 1 Q baseband generator section Navigation data source identical for each satellite All 0 All 1 pattern up to 64 bit PN 9 to PN 23 data lists real navigation data almanac file as source for ephemeris and almanac subframes ephemeris subframes are projected from the almanac subframes Use spreading code available in static mode on off GPS satellite configuration separately settable for each satellite Signals chip rates coarse acquisition C A 1 023 MHz Modulation BPSK CDMA State on off Space vehicle ID C A codes 37 Gold codes 1023 chips each Init
13. alileo option and or R amp S SMBV K94 Glonass option Galileo R amp S SMBV K66 option Simulation of up to 6 Galileo satellites at frequency E1 Static mode and localization mode User definable almanac file SEM YUMA with real navigation data User definable location and start time Automatic setup of Galileo scenario with optimum satellite constellation Unlimited simulation time with automatic on the fly exchange of satellites based on configurable elevation masks Dynamic power control of individual satellites in realtime Hybrid GNSS satellite constellations with up to 6 satellites requires additional R amp S SMBV K44 GPS option and or R amp S SMBV K94 Glonass option Glonass R amp S SMBV K94 option Simulation of up to 6 Glonass satellites FDMA with civilian codes at frequencies L1 and L2 Static mode and localization mode User definable almanac file agl with real navigation data User definable location and start time Automatic setup of Glonass scenario with optimum satellite constellation Unlimited simulation time with automatic on the fly exchange of satellites based on configurable elevation masks Dynamic power control of individual satellites in realtime Hybrid GNSS satellite constellations with up to 6 satellites requires additional R amp S SMBV K44 GPS option and or R amp S SMBV K66 Galileo option Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Ge
14. ased on the selected power mode and the individual satellite power parameters user selectable in entire output power range depending on installed RF option see R amp S SMBV100A data sheet RF bands L1 E1 L2 default L1 E1 Simulation modes Static mode generation of up to 6 satellites in realtime with user definable satellite time shift power Doppler and initial carrier phase e g for sensitivity measurements Auto localization mode automatic dynamic simulation of up to 6 satellites at a receiver location based on user definable almanac location and time simulation is not time limited due to automatic dynamic exchange of simulated satellites based on visibility and when required for better position dilution of precision PDOP constellation and satellite power variation are automatically simulated User localization mode dynamic simulation of up to 6 satellites at a receiver location based on user definable almanac location and time a complete user definable constellation satellite exchange in realtime and satellite power configuration in realtime are supported GNSS hybrid configuration available if K66 or K94 is additionally installed hybrid GNSS constellation with up to 6 satellites e g 2 GPS satellites and 4 Galileo satellites possible whenever the base option of the other GNSS standard is installed User space coordinates available in auto localization mode and use
15. configuration in realtime are supported GNSS hybrid configuration available if K44 or K94 is additionally installed hybrid GNSS constellation with up to 6 satellites e g 2 GPS satellites and 4 Galileo satellites possible whenever the base option of the other GNSS standard is installed User space coordinates available in auto localization mode and user localization mode geodetic coordinates in ECEF WGS84 coordinate system e altitude 10000 m to 1600000 m in steps of 0 1 m e latitude 90 to 90 in steps of 0 000001 e longitude 180 to 180 in steps of 0 000001 System time basis GST UTC default GST Simulation time flexible date and time or GST time configuration with a resolution of 1 ms Current leap seconds static mode and auto localization mode automated user localization mode user configurable Elevation mask available in auto localization mode and user localization mode 2 5 5 7 5 10 filtering of all satellites below a specific threshold Get optimal constellation available in user localization mode optimal constellation search based on the real navigation data and the maximum number of satellites with minimized PDOP and an elevation above the elevation mask 12 Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Version 03 00 February 20
16. e on off Space vehicle ID C A codes 37 Gold codes 1023 chips each P codes 37 orthogonal codes one week long each Initial code phase configurable in case of static and no real navigation data 0 00 chips to 20459 99 chips in steps of 0 01 chips Pseudo range configurable in static mode 0 m to 30000 km Pseudo range bias 1000 m to 1000 m updated in realtime without restarting the simulation Satellite relative power configurable in user power mode 21 dB to 0 dB updated in realtime without restarting the simulation Doppler shift configurable in static mode 100 kHz to 100 kHz in steps of 0 01 Hz Initial carrier phase configurable in static mode 0 to 27 in steps of 0 01 rad Navigation data format GPS NAV Data rate 50 Hz Number of ephemeris pages 1 Ephemeris realtime projection configurable in user localization mode off on a projection reference time shifted and ephemeris set tuned accordingly will be made whenever the ephemeris set approaches the 2 h validity threshold Project navigation message configurable in user localization mode projects the ephemeris and satellite clock correction to the current simulation time Dynamics Pseudo range error RMS 0 01 m Max velocity 10000 m s Max acceleration 300 m s Max jerk 45 m s as impulse Rohde amp Schwarz Global Navigation Satellite System GNSS
17. eband generator section Navigation data source identical for each satellite All 0 All 1 pattern up to 64 bit PN 9 to PN 23 data lists real navigation data almanac file as source for ephemeris and almanac subframes ephemeris automatically generated from agl almanac file Use spreading code available in static mode on off Glonass satellite configuration separate ly settable for each satellite Signals chip rates coarse acquisition R C A 511 kHz Frequency number configurable in static mode with no real navigation data 7 to 13 Modulation BPSK CDMA State on off Space vehicle ID 1 CDMA code shared by all Glonass satellites 511 chips per repetition Initial code phase configurable in case of static and no real navigation data 0 00 chips to 20459 99 chips in steps of 0 01 chips Pseudo range configurable in static mode 0 m to 30000 km Pseudo range bias 1000 m to 1000 m updated in realtime without restarting the simulation Satellite relative power configurable in user power mode 21 dB to 0 dB updated in realtime without restarting the simulation Doppler shift configurable in static mode 100 kHz to 100 kHz in steps of 0 01 Hz Initial carrier phase configurable in static mode 0 to 27 in steps of 0 01 rad Navigation data format Glonass NAV Data rate 50 Hz
18. eris subframes are projected from the almanac subframes Use spreading code available in static mode on off Galileo satellite configuration separately settable for each satellite Signals chip rates E1 default 1 023 MHz Modulation CBOC 6 1 CDMA State on off Space vehicle ID E1 codes 36 memory codes 4092 chips each Initial code phase configurable in case of static and no real navigation data 0 00 chips to 20459 99 chips in steps of 0 01 chips Pseudo range configurable in static mode 0 m to 30000 km Pseudo range bias 25 m to 25 m updated in realtime without restarting the simulation Satellite relative power configurable in user power mode 21 dB to 0 dB updated in realtime without restarting the simulation Doppler shift configurable in static mode 100 kHz to 100 kHz in steps of 0 01 Hz Initial carrier phase configurable in static mode 0 to 27 in steps of 0 01 rad Navigation data format Galileo INAV Data rate 250 Hz Number of ephemeris pages 1 Realtime projection configurable in user localization mode off on a projection reference time shifted and ephemeris set tuned accordingly will be made whenever the ephemeris set approaches the 2 h validity threshold Project navigation message configurable in user localization mode projects the ephemeris and satellite clock correction to the current si
19. hwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Version 03 00 February 2012 Global signal configuration available in auto localization mode configures the signals of all possible GPS space vehicles to C A P or C A P Intrastandard power tuning configures the nominal power difference between the civilian and P code signal components of a GPS satellite Interstandard power tuning available in auto power mode and if K66 or K94 is installed configures the nominal power difference between different standards Marker two markers if Maximum Number of 1 PPS Satellites is less than or equal to 12 or 1 PP2S Use Military GPS is active otherwise 10 PPS only one marker pulse pattern on off ratio trigger Triggering see R amp S SMBV100A data sheet 1 Q baseband generator section Navigation data source identical for each satellite All 0 All 1 pattern up to 64 bit PN 9 to PN 23 data lists real navigation data almanac file as source for ephemeris and almanac subframes ephemeris subframes are projected from the almanac subframes Use spreading code available in static mode on off GPS satellite configuration separately settable for each satellite Signals chip rates coarse acquisition C A 1 023 MHz and P 10 23 MHz Modulation BPSK CDMA Stat
20. ial code phase configurable in case of static and no real navigation data 0 00 chips to 20459 99 chips in steps of 0 01 chips Pseudo range configurable in static mode 0 m to 30000 km Pseudo range bias 1000 m to 1000 m updated in realtime without restarting the simulation Satellite relative power configurable in user power mode 21 dB to 0 dB updated in realtime without restarting the simulation Doppler shift configurable in static mode 100 kHz to 100 kHz in steps of 0 01 Hz Initial carrier phase configurable in static mode 0 to 27 in steps of 0 01 rad Navigation data format GPS NAV Data rate 50 Hz Number of ephemeris pages 1 Ephemeris realtime projection configurable in user localization mode off on a projection reference time shifted and ephemeris set tuned accordingly will be made whenever the ephemeris set approaches the 2 h validity threshold Project navigation message configurable in user localization mode projects the ephemeris and satellite clock correction to the current simulation time Dynamics Pseudo range error RMS 0 01 m Max velocity 10000 m s Max acceleration 300 m s Max jerk 45 m s as impulse 8 Rohde 8 Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Assisted GPS R amp S SMBV K65 option The R amp S SMBV K44 option must be installed on
21. icked up free of charge and returned to you in top condition a couple of days later Extended warranty with calibration CW1 to CW4 Enhance your extended warranty by adding calibration coverage at a package price This package ensures that your Rohde amp Schwarz product is regularly calibrated inspected and maintained during the term of the contract It includes all repairs and calibration at the recommended intervals as well as any calibration carried out during repairs or option upgrades For product brochure see PD 5214 5284 12 and www rohde schwarz com The base unit must be ordered with an R amp S SMBV B10x frequency option 2 For further options see the R amp S SMBV100A product brochure PD 5214 1114 12 data sheet PD 5214 1114 22 and www rohde schwarz com Excluding defects caused by incorrect operation or handling and force majeure Wear and tear parts are not included 18 Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Version 03 00 February 2012 Rohde 8 Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator 19 Service you can rely on 1 Worldwide 1 Local and personalized 1 Customized and flexible 1 Uncompromising quality 1 Long term dependability About Rohde amp Schwarz Rohde amp Schwarz is an independent group of companies specializing in electronics It is
22. mulation time Dynamics Pseudo range error RMS 0 01 m Max velocity 10000 m s Max acceleration 300 m s Max jerk 45 m s as impulse Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator 13 Version 03 00 February 2012 Glonass R amp S SMBV K94 option Glonass in line with GLONASS ICD version 5 0 General settings Frequency based on the RF band and GNSS hybrid configuration user selectable in entire frequency range depending on installed RF option see R amp S SMBV100A data sheet Output power based on the selected power mode and the individual satellite power parameters user selectable in entire output power range depending on installed RF option see R amp S SMBV100A data sheet RF bands L1 E1 L2 default L1 E1 Simulation modes Static mode generation of up to 6 satellites in realtime with user definable satellite time shift power Doppler and initial carrier phase e g for sensitivity measurements Auto localization mode automatic dynamic simulation of up to 6 satellites at a receiver location based on user definable almanac location and time simulation is not time limited due to automatic dynamic exchange of simulated satellites based on visibility and when required for better position dilution of precision PDOP constellation and satellite power variatio
23. n are automatically simulated User localization mode dynamic simulation of up to 6 satellites at a receiver location based on user definable almanac location and time a complete user definable constellation satellite exchange in realtime and satellite power configuration in realtime are supported GNSS hybrid configuration available if K44 or K66 is additionally installed hybrid GNSS constellation with up to 6 satellites e g 4 Glonass satellites and 2 GPS satellites possible whenever the base option of the other GNSS standard is installed User space coordinates available in auto localization mode and user localization mode geodetic coordinates in ECEF WGS84 coordinate system e altitude 10000 m to 1600000 m in steps of 0 1 m e latitude 90 to 90 in steps of 0 000001 e longitude 180 to 180 in steps of 0 000001 System time basis GLO UTC default GLO Simulation time flexible date and time or GLO time configuration with a resolution of 1 ms Current leap seconds static mode and auto localization mode automated user localization mode user configurable Elevation mask available in auto localization mode and user localization mode 2 5 5 7 5 10 filtering of all satellites below a specific threshold Get optimal constellation available in user localization mode optimal constellation search based on the real navigati
24. nac file SEM YUMA with real navigation data User definable location and start time Automatic setup of GPS scenario with optimum satellite constellation Unlimited simulation time with automatic on the fly exchange of satellites based on configurable elevation masks Dynamic power control of individual satellites in realtime Hybrid GNSS satellite constellations with up to 6 satellites requires additional R amp S SMBV K66 Galileo option and or R amp S SMBV K94 Glonass option Assisted GPS R amp S SMBV K65 option Support of predefined and user defined A GPS test scenarios Generation of A GPS assistance data for predefined and user defined scenarios Fully user defined configuration of navigation message manually or via import of RINEX ephemeris files Requires the R amp S SMBV K44 option GPS P code R amp S SMBV K93 option Simulation of up to 6 GPS satellites with P codes or combined civilian C A and military P codes Requires the R amp S SMBV K44 option Static mode and localization mode User definable almanac file SEM YUMA with real navigation data User definable location and start time Automatic setup of GPS scenarios with optimum satellite constellation Unlimited simulation time with automatic on the fly exchange of satellites based on configurable elevation masks Dynamic power control of individual satellites in realtime Hybrid GNSS satellite constellations with up to 6 satellites requires additional R amp S SMBV K66 G
25. namic scenarios with up to 24 GPS Galileo and Glonass satellite signals can be generated in realtime including moving scenarios multipath dynamic power control and atmospheric modeling Above and beyond GNSS signal generation the R amp S SMBV100A is a flexible vector signal generator with excellent RF performance It offers options for generating standard compliant signals for all important digital communications standards GSM WCDMA HSPA LTE WiMAX WLAN etc and radio standards DAB Sirius XM Satellite Radio HD Radio FM stereo This versatility allows mobile phone or car infotainment system manufacturers that integrate GNSS modules into their products to test the GNSS functionality and the normal functionality of their products with only one instrument This document contains the functional specifications of the GNSS related software options for the R amp S SMBV100A R amp S SMBV K44 GPS R amp S SMBV K65 assisted GPS R amp S SMBV K93 GPS P code R amp S SMBV K66 Galileo R amp S SMBV K94 Glonass R amp S SMBV K91 GNSS extension to 12 satellites R amp S SMBV K96 GNSS extension to 24 satellites R amp S SMBV K92 GNSS enhanced e g moving scenarios multipath For information on other digital standards or signal quality such as phase noise or spurious see the following Rohde amp Schwarz documents R amp S SMBV100A data sheet PD 5214 1114 22 R amp S SMBV100A product brochure PD 5214 1114 12 e Digital Sta
26. ndards for Signal Generators data sheet PD 5213 9434 22 Abbreviations The following abbreviations are used in this document The R amp S SMBV K44 is referred to as K44 The R amp S SMBV K65 is referred to as K65 The R amp S SMBV K66 is referred to as K66 The R amp S SMBV K91 is referred to as K91 The R amp S SMBV KQ2 is referred to as K92 The R amp S SMBV KQ3 is referred to as K93 The R amp S SMBV K94 is referred to as K94 The R amp S SMBV KQ6 is referred to as K96 Minimum hardware configuration The following minimum hardware configuration is required for the R amp S SMBV100A as a prerequisite for testing GNSS functionality R amp S SMBV100A vector signal generator R amp S SMBV B103 frequency range from 9 kHz to 3 2 GHz R amp S SMBV B10 baseband generator with digital modulation realtime and ARB 32 Msample 120 MHz RF bandwidth R amp S SMBV B92 hard disk removable 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 4 Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Version 03 00 February 2012 Key features GPS R amp S SMBV K44 option Simulation of up to 6 GPS satellites with C A code at frequencies L1 and L2 Static mode and localization mode User definable alma
27. nerator 5 Version 03 00 February 2012 GNSS extension to 12 satellites R amp S SMBV K91 option e Simulation of civilian signals from up to 12 GNSS satellites 8 to 12 satellites depending on the configuration if GPS P code is active e Requires the R amp S SMBV K44 R amp S SMBV K66 or R amp S SMBV K94 option GNSS extension to 24 satellites R amp S SMBV K96 option e Simulation of GPS C A and Glonass signals from up to 24 GNSS satellites e Enhances the multipath budget of GPS C A and Glonass signals to 24 if R amp S SMBV K92 is additionally installed e Requires the R amp S SMBV K91 option GNSS enhanced e g moving scenarios multipath R amp S SMBV K92 option Moving scenarios import of NMEA waypoint User definable multipath Configurable atmospheric models Configurable system time transformation parameters Configurable leap second simulation Requires the R amp S SMBV K44 R amp S SMBV K66 or R amp S SMBV K94 option 6 Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Global navigation satellite system GNSS GPS R amp S SMBV K44 option Version 03 00 February 2012 GPS in line with ICD GPS 200 revision D General settings Frequency based on the RF band and GNSS hybrid configuration user selectable in entire frequency range depending on installed RF option see R amp S SMBV100A data sheet Output power b
28. nuals in English US 1407 6062 39 19 Rack Adapter R amp S ZZA S334 1109 4487 00 Power Sensor 9 kHz to 6 GHz R amp S NRP Z92 1171 7005 02 Keyboard with USB Interface US character set R amp S PSL Z2 1157 6870 04 Mouse with USB Interface optical R amp S PSL Z10 1157 7060 03 USB Serial Adapter for RS 232 C remote control R amp S TS USB1 6124 2531 00 Accessories Documentation of Calibration Values R amp S DCV 2 0240 2193 18 DAkkS formerly DKD Calibration in line with ISO 17025 and ISO 9000 calibration R amp S SMBV DKD 1415 8448 02 Service options Extended Warranty one year R amp S WE1SMBV100A Extended Warranty two years R amp S WE2SMBV100A Extended Warranty three years R amp S WE3SMBV100A Extended Warranty four years R amp S WE4SMBV100A Extended Warranty with Calibration Coverage one year R amp S CW1SMBV100A Extended Warranty with Calibration Coverage two years R amp S CW2SMBV100A Extended Warranty with Calibration Coverage three years R amp S CW3SMBV100A Extended Warranty with Calibration Coverage four years R amp S CW4SMBV100A Please contact your local Rohde amp Schwarz sales office Extended warranty with a term of one to four years WE1 to WE4 Repairs carried out during the contract term are free of charge a Necessary calibration and adjustments carried out during repairs are also covered Simply contact the forwarding agent we name your product will be p
29. o or negligible deviations from the given value e g dimensions or resolution of a setting parameter Compliance is ensured by design Typical data typ Characterizes product performance by means of representative information for the given parameter When marked with lt gt or as a range it represents the performance met by approximately 80 of the instruments at production time Otherwise it represents the mean value Nominal values nom Characterize product performance by means of a representative value for the given parameter e g nominal impedance In contrast to typical data a statistical evaluation does not take place and the parameter is not tested during production Measured values meas Characterize expected product performance by means of measurement results gained from individual samples Uncertainties Represent limits of measurement uncertainty for a given measurand Uncertainty is defined with a coverage factor of 2 and has been calculated in line with the rules of the Guide to the Expression of Uncertainty in Measurement GUM taking into account environmental conditions aging wear and tear Typical data as well as nominal and measured values are not warranted by Rohde amp Schwarz Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator 3 Version 03 00 February 2012 Overview With the GNSS simulator solution for the R amp S SMBV100A dy
30. on data and the maximum number of satellites with minimized PDOP and an elevation above the elevation mask 14 Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator Version 03 00 February 2012 Realtime satellites and position online tracker SPOT display available in auto localization mode and user localization mode dynamic constellation user location satellite absolute power and trajectory views in addition to HDOP PDOP display the time of the next satellite handover can be polled in auto localization mode Power modes User power mode available in static mode and user localization mode 21 dB dynamic range user configurable in realtime Auto power mode available in auto localization mode and in user localization mode automatic simulation of satellite power values based on e satellite to user distance e interstandard power tuning parameters only in case of a hybrid GNSS configuration Interstandard power tuning available in auto power mode and if K66 is installed simulates the nominal power difference between different standards Marker two markers if Maximum Number of 1 PPS Satellites is less than or equal to 12 or 1 PP2S Use Military GPS is active otherwise 10 PPS only one marker pulse pattern on off ratio trigger Triggering see R amp S SMBV100A data sheet 1 Q bas
31. or Galileo none for Glonass Tropospheric model available in auto localization mode and user localization mode none STANAG Time conversion parameters static mode and user localization mode manual configuration or import from RINEX files e g GPS to UTC GST to UTC and GLO to UTC SU auto localization mode setto 0 Leap second simulation available in user localization mode leap second transition at a definable date with a definable sign Multipath available in user localization mode parameters separately settable for e ach satellite tap State on off Channel budget GPS C A GPS P code not activated Maximum Number of Satellites is less 16 channels than or equal to 12 Maximum Number of Satellites is 24 channels greater than 12 GPS C A P GPS P code activated 8 channels Glonass Maximum Number of Satellites is less 16 channels than or equal to 12 Maximum Number of Satellites is 24 channels greater than 12 Galileo 12 channels hybrid constellations GPS P code not 12 channels to 24 channels activated hybrid constellations GPS P code activated 8 channels to 16 channels Number of taps 1 to 10 depending on the remaining channel budget Additional time shift 0 chips to 9 99999 chips in steps of 0 00001 chips Additional power 10 dB to 0 dB in steps of 0 01 dB Additional Doppler shift 10 kHz to
32. r localization mode geodetic coordinates in ECEF WGS84 coordinate system e altitude 10000 m to 1600000 m in steps of 0 1 m e latitude 90 to 90 in steps of 0 000001 e longitude 180 to 180 in steps of 0 000001 System time basis GPS UTC default GPS Simulation time flexible date and time or GPS time configuration with a resolution of 1 ms Current leap seconds static mode and auto localization mode automated user localization mode user configurable Elevation mask available in auto localization mode and user localization mode 2 5 5 7 5 10 filtering of all satellites below a specific threshold Get optimal constellation available in user localization mode optimal constellation search based on the real navigation data and the maximum number of satellites with minimized PDOP and an elevation above the elevation mask Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator 7 Version 03 00 February 2012 Realtime satellites and position online tracker SPOT display available in auto localization mode and user localization mode dynamic constellation user location satellite absolute power and trajectory views in addition to HDOP PDOP display the time of the next satellite handover can be polled in auto localization mode Power modes User power mode av
33. tellite ephemeris page Number of ephemeris pages user localization mode 1 to 12 manual configuration or import from a GPS RINEX file static mode and auto localization mode 1 Ephemeris parameters range as defined in ICD GPS 200 revision D navigation message Satellite clock correction parameters range as defined in ICD GPS 200 revision D navigation message GPS P code R amp S SMBV K93 option The R amp S SMBV K44 option must be installed on the respective instrument Allows the simulation of up to 6 GPS satellites with P codes or combined civilian C A and P codes or the legacy C A signal type provided by K44 GPS P code in line with ICD GPS 200 revision D antispoofing disabled General settings Frequency based on the RF band and GNSS hybrid configuration user selectable in entire frequency range depending on installed RF option see R amp S SMBV100A data sheet Output power based on the selected power mode and the individual satellite power parameters user selectable in entire output power range depending on installed RF option see R amp S SMBV100A data sheet Rohde amp Schwarz Global Navigation Satellite System GNSS Simulator in the R amp S SMBV100A Vector Signal Generator 9 Version 03 00 February 2012 RF bands L1 E1 L2 default L1 E1 Simulation modes Static mode generation of up to 6 GPS C A P or
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