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Digital Standard: Bluetooth EDR

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1. Modulation Settings Modulation Type GFSK n 4 DOPSK Frequency Deviation moo Ke gt Modulation Index 0 28 Symbol Rate Variation 1000000000 MHz gt Clipping State F on Clipping Level wfs gt Clipping Mode Vector i jq z In the Filter section the settings are made for the baseband filter The settings for modulation are collected in the Modulation Settings section The settings for clipping are collected in the Clipping section 3 8 1 Filter Settings Provided are the following settings for configuring the baseband filter Filter Indicates the filter used for GFSK part With EDR Packets you can set the filter used for DQPSK 8DPSK sections Remote command SOURCe lt hw gt BB BTOoth FILTer TYPE on page 71 Roll Off Factor B xT Sets the filter parameter Sets the filter parameter Operating Manual 1171 6496 12 10 49 Bluetooth Enhanced Data Rate User Interface Filter Clipping Settings The filter parameter offered Roll Off Factor or BxT depends on the currently selected filter type This parameter is preset to the default for each of the predefined filters Remote command SOURCe lt hw gt BB BTOoth FILTer PARameter APCO25 on page 73 SOURCe lt hw gt BB BTOoth FILTer PARameter COSine on page 74 SOURCe lt hw gt BB BTOoth FILTer PARameter FGAuss On page 74 SOURCe lt hw gt BB BTOoth FILTer
2. SOUR BB BTO ECON LTK H00000000000000000000000000000000 128 In encrypted mode the code can be edited Manual operation See Long Term key hex on page 34 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration AADDress lt AAddress gt Sets the access address of the link layer connection 32 bit string Parameters lt AAddress gt integer Example SOUR BB BTO ECON PCON AADD H00000000 32 sets an access address Manual operation See Access Address on page 36 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ACID lt Acid gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ACASsigned lt AcAssigned gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCASsigned lt ScAssigned gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCID lt Scid gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ICASsigned lt IcAssigned gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ICID lt Icid gt Sets the advertiser s device address In bluetooth low energy systems all the transmis sions start with an 8 bit preamble followed by an access address The access address is composed of a the parts Company ld LSB and the Company_assigned MSB Beside the address fields the notation is given For advertising channel packets the for mat of the device address differs depending on the selected address type e Public Address Types The publi
3. a aa aaaaiaaiasassasaasassasansasaasanaanansasaasansasansanaanani 94 SOURce lt hw gt BB BTOoth PCONfiguration DSFPacket aaiaaaaisaaaaaasaaaaassaasuaaansaaaasaaannnaanaaanannaaanaaa SOURce lt hw gt BB BTOoth PCONfiguration DWHitening SOURce lt hw gt BB BTOoth PCONfiguration EIRPacketfollows aa iaaaisaaassaasas aassaaassaannanaasaaaansaanaana 95 SOURce lt hw gt BB BTOoth PCONfiguration HFControl aaaaaaasaassaaassaaanaaansnanannanannannnsnnnannannnsannannna 96 SOURce lt hw gt BB BTOoth PCONfiguration LTADdress aaiaaaaaaaaiaasnaasaasnnasannnnasnnnnannannaannannnannannnnnnnini 96 SOURce lt hw gt BB BTOoth PCONfiguration PFControl aaaaaaaassaasaaaasaaaaassaasnaaannaanananannnannnaanannnninaaa 96 SOURce lt hw gt BB BTOoth PCONfiguration PLENgth a aaiaaiaiaaiasassasaasasassassasaasassasansanaasansanansanaaaaa 97 SOURce lt hw gt BB BTOoth PCONfiguration SNSValue aaiaaiaaaaasaaasaasaaasannaannansnannannaannannnannannnnsaansaanani 97 SOURce lt hw gt BB BTOoth PCONfiguration SRM0de iaiaaiaaiaiasaasansasassasassassasansasaasanaanaasanaasansasaananaa 98 SOURce lt hw gt BB BTOoth PCONfiguration VDATa ia aaiaaaaiasaasassasassasaasassasansasaasanaanansnnaanansansaasanaanana 98 SOURce lt hw gt BB BTOoth PRAMping FOFFset SOURce lt hw gt BB BTOoth PRAMPping RFUNctiOn a iaiaaiaiaaias
4. SS ees Packet Configuration Bluetooth LE Note This parameter is relevant for data event connection settings and advertising frame configuration with the packet types CONNECTION UPDATE REO and CON NECT_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINTerval on page 112 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NCINterval on page 117 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINTerval on page 112 Slave Latency Sets a number of consecutive connection events the slave can ignore for asymmetric link layer connections Note This parameter is relevant for data event and advertising frame configuration with the packet types CONNECTION UPDATE REO and CONNECT_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SLATency on page 120 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NSLatency on page 118 LL Connection Timeout Defines the maximum time between two correctly received Bluetooth LE packets in the LL connection before the connection is considered lost Note This parameter is relevant for data event and advertising frame configuration with the packet types CONNECTION UPDATE REO and CONNECT_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration LCTimeout on page 116 SOURce lt hw gt BB BTOoth ECONfiguration PCONfigurat
5. BIN 0 2000 Samples 0000 sampies z EE Eg Marker 2 0 000 Samples I 1 AANDE LEK FT Vial asl Get 0 2000 Samples Marker 3 0 000 Samples x Ty OO Oe 0 2000 Samples Marker 4 0 000 Samples x EED GE AD ER LO MOE EK 0 2000 Samples Fix Marker Delay To Current Range P The Clock Settings section is where the clock source is selected and in the case of an external source the clock type Clock Settings Clock Source internar The buttons in the last section lead to submenu for general trigger clock and mapping settings Global TriggeriClock Settings User Marker AUX VO Settings 3 10 1 Trigger Settings The Trigger In section is where the trigger for the signal is set Various parameters will be provided for the settings depending on which trigger source internal or exter nal is selected The current status of signal generation Running or Stopped is indicated for all trigger modes Trigger Mode Selects trigger mode i e determines the effect of a trigger event on the signal genera tion e Auto The signal is generated continuously e Retrigger The signal is generated continuously A trigger event internal or external causes a restart e Armed_Auto The signal is generated only when a trigger event occurs Then the signal is gener ated continuously Operating Manual 1171 6496 12 10 54 Bluetooth Enhanced Data Rate User Interface alH r BR EE EE
6. Filter Clipping Packet Editor Whitening Off Not In Use Whitening Off Gauss FSK Clipping Off Not In Use Gauss FSK Clipping Off gt Bluetooth Basic Rate EDR Bluetooth Low Energy Operating Manual 1171 6496 12 10 15 Bluetooth Enhanced Data Rate User Interface General Settings for Bluetooth Signals The screenshots provided in this description show parameter values that have been selected to illustrate as much as possible of the provided functions and possible inter dependencies between them These values are not necessarily representative of realistic test situations 3 1 General Settings for Bluetooth Signals The upper menu section is where the Bluetooth digital standard is enabled and reset and where the transport mode packet type and sequence length are selected State Activates or deactivates the Bluetooth standard Enabling this standard disables all the other digital standards and digital modulation modes In case of two path instruments this affects the same path Remote command SOURCe lt hw gt BB BTOoth STATe on page 68 Set To Default Calls the default settings Parameter Value Bluetooth Version 2 1 EDR 2 1 current version number Bluetooth Mode Basic Rate EDR Transport mode ACL Asynchronous EDR Packet type DH1 Sequence length 1 Frames Packet configuration Packet Editor Whitening off Dirty Transmitter T
7. Sets the error code value to inform the remote device why the connection is about to be terminated in case of LL_TERMINATE_IND packet On the other hand this param eter for LL REJECT IND packet is used for the reason a request was rejected A 8 bit value is set Note This parameter is relevant for data frame configuration and the packet type e LL_TERMINATE_IND e LL REJECT IND Operating Manual 1171 6496 12 10 114 Bluetooth Enhanced Data Rate Remote Control Commands a EE EE EE EE EE EE r EE EE EE LE Commands Parameters lt ECode gt integer RST 0 Example SOUR BB BTO ECON PCON ECOD H00 8 sets the error code Manual operation See Error Code on page 43 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration EDIVersifier lt EDiversifier gt Sets the encrypted diversifier of the master for device identification The parameter is an initialization vector provided by the Host in the HCI_ULP_Start_Encryption com mand Parameters lt EDiversifier gt integer Example SOUR BB BTO ECON PCON EDIV H0000 16 sets the encrypted diversifier of the master Manual operation See Encrypted DlVersifier hex on page 40 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration FSLength lt FsLength gt Enables that the feature set length is indicated FeatureSet indicates whether the Con troller features are used or not All the data in FeatureSet is RFU zero Parameters
8. The command defines the length of the signal sequence to be output in the Single trig ger mode SOUR BB BTO SEQ SING The unit is defined with command SOUR BB BTO TRIG SLUNit Parameters lt SLength gt float Range 1 to 7000 RST 1 sequence length Example BB BTO SEQ SING sets trigger mode Single BB BTO TRIG SLUN FRAM sets unit frames for the entry of sequence length BB BTO TRIG SLEN 200 sets a sequence length of 200 frames Manual operation See Signal Duration on page 55 SOURce lt hw gt BB BTOoth TRIGger SLUNit sSIUnit The command defines the unit for the entry of the length of the signal sequence SOUR BB BTO TRIG SLEN to be output in the Single trigger mode SOUR BB BTO SEQ SING Parameters lt S Unit gt FRAMe SEQuence EVENt RST SEQuence Operating Manual 1171 6496 12 10 79 Bluetooth Enhanced Data Rate Remote Control Commands a I a T M MMM EE ee Trigger Settings Example BB BTO SEQ SING sets trigger mode Single BB BTO TRIG SLUN FRAM sets unit frames for the entry of sequence length BB BTO TRIG SLEN 2 sets a sequence length of 2 frames The current frame will be output twice after the next trigger event Manual operation See Signal Duration Unit on page 55 SOURce lt hw gt BB BTOoth TRIGger SOURce lt Source gt Selects the trigger source Parameters lt Source gt INTernal OBASeband BEXTernal EXTernal INTernal
9. Operating Manual 1171 6496 12 10 NONE MASTer SLAVe NONE The instrument is working in stand alone mode MASTer The instrument provides all connected instrument with its syn chronization including the trigger signal and reference clock signal SLAVe The instrument receives the synchronization and reference clock signal from another instrument working in a master mode RST NONE BB BTO CLOC SYNC MODE MAST the instrument is configured to work as a master one 88 Bluetooth Enhanced Data Rate Remote Control Commands 4 6 Power Ramping Manual operation See Sync Mode on page 60 Power Ramping SOURce lt hw gt BB BTOoth PRAMping FOFPSet esse se ie ERAS Ee EERS EE EE VERG Gee See ed de se suid 89 SOURceshw BB BTOoth PRAMPDING RFUNCHON ee ee ee ek se se se Re ee ee ee 89 SOURceshw BB BTOoth PRAMPDING ROFFSet ee ee see ee ee eke sek se Ge Be EE ee ee ee ee ee ee ee 89 SOURce lt hw gt BB BTOoth PRAMping RTIME cceceeeeeeeeeeeeeeeeeeeeeeeeesanaeaeaaaaaeeeenenenes 90 SOURce lt hw gt BB BTOoth PRAMping FOFFset lt FOffset gt The command sets the offset of the falling edge of the envelope at the end of a burst A positive value introduces a guard period after the end of the packet and negative value moves the ramp into the end part of the transmitted packet Parameters lt FOffset gt integer Range 32 to 32 Increment 1 RST 0 Default unit symbols Example BB B
10. Pulse A regular marker signal is generated The pulse frequency is defined by entering a divider The frequency is derived by dividing the sample rate by the divider The input box for the divider opens when Pulse is selected and the resulting pulse frequency is displayed below it Remote command SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PULSe DIVider on page 85 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PULSe FREQuency on page 86 Pattern A marker signal that is defined by a bit pattern is generated The pat tern has a maximum length of 32 bits and is defined in an input field which opens when pattern is selected Remote command SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PATTern on page 85 ON OFF A regular marker signal that is defined by an ON OFF ratio is gener Period ated A period lasts one ON and OFF cycle The ON Time and OFF Time are each expressed as a number of samples and are set in an input field which opens when ON OFF ratio is selected ON time OFF time ON time OFF time Remote command SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt ONTime on page 85 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt OFFTime on page 85 Remote command SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt MODE on page 84 3 10 3 Marker Delay The delay of the signals on the MARKER outputs is set in the Mark
11. SOURce lt hw gt BB BTOoth DTTest TABLe lt Table gt The command calls the table settings Parameters lt Table gt NOTable SHORt LONG Operating Manual 1171 6496 12 10 100 Bluetooth Enhanced Data Rate Remote Control Commands VERRE ee ee EE ee ee r EE ee Dirty Transmitter Test Example BB BTO PTYP DHI calls the default settings BB BTO DTT TABL LONG calls the default settings SOURce lt hw gt BB BTOoth DTTest TABLe _LONG SET lt ch gt CFOFfset lt CfOffset gt The command enters a carrier frequency offset The carrier frequency offset shows the deviation of the transmitted initial center fre quency from carrier frequency Parameters lt CfOffset gt float Range 150 kHz to 150 kHz Increment 1 kHz Example BB BTO PTYP DH1 sets the packet type BB BTO DTT TABL LONG enters the table type BB BTO DTT TABL LONG SET2 CFOF 14 enters a carrier frequency offset Manual operation See Carrier Frequency Offset kHz on page 47 SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt MINDex lt MIndex gt The command enters the modulation index The modulation index specifies the frequency deviation The modulation index h is defined as EA J symdol i where Jes symbol rate set with the command SOURce lt hw gt BB BTOoth SRATe VARiation Af frequency deviation set with the command SOURce lt hw gt BB BTOoth MSETtings FDEViation Acc
12. SOURce lt hw gt BB BTOoth FILTer MINDex a aaiaiaaaaaanaasansanansansasansasnnsannannnnnannnnannannnnannnnanansnnsanannnnsnnnnnan 73 SOURce lt hw gt BB BTOoth FILTer MTYPe aa aiaaiaaaaaaasanaasansasannasnnnanannnunannnnnnnnnannannnnnannnsnnsanansnnnnnnnnnan SOURce lt hw gt BB BTOoth FILTer OSAMPpling a aaiaaaaaaaiasansanaasassanansnsansasnanansanansannannannnnannannnsansanaanani SOURce lt hw gt BB BTOoth FILTer OSAMpling AUTO STATe R SOURce lt hw gt BB BTOoth FILTer PARameter APCO25 iaiiaiaiaaiaaiaiasiasasaasansasassasaasassanssasanaasansanaasaasaaaa SOURce lt hw gt BB BTOoth FILTer PARameter COSine iaaaiaaaaaaaaasaaaasaaasuaaansnannnnaasnanansaannssaanaaaana SOURce lt hw gt BB BTOoth FILTer PARameter FGAUuss 2aiaaaaaaaaaaaaassaaanaaanaanaasnananaaannannanaaaanaaanaaa 74 SOURce lt hw gt BB BTOoth FILTer PARameter GAUSs iaaiaaaaaaaaaaaaaaaaaasaaaanaaanaaananaananaaanaanaanaaaansaaaaana 74 SS A Operating Manual 1171 6496 12 10 128 Bluetooth Enhanced Data Rate List of Commands SOURce lt hw gt BB BTOoth FILTer PARameter LPASs SOURce lt hw gt BB BTOoth FILTer PARameter PGAUSs i2aiaaaaaaaaaaaasaaaasssaasnaaannanansaaaanaaanaaaanaaaaanaaa 75 SOURce lt hw gt BB BTOoth FILTer PARameter RCOSine aiaaaaaaaaaaasaaaan aaasuaaanaaaansanannaaanaaaanaaananaaa 75 SOURce lt hw gt BB B
13. aiiaaiaiaaaaiasaaiansasassassasansana 101 SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt Ch gt MINDex aiiiiiiaiaaiaaaaaaaaasaasaasaasnaannannaanaannaanaai 101 SOURce lt hw gt BB BTOoth DTTest TABLE LONG SET lt Ch gt STATeE iaaiiiaaiaaaaaaaiaianaasasaanassasaasassasaasanaanana 102 SOURce lt hw gt BB BTOoth DTTest TABLeE LONG SET lt Ch gt STERTror iaiaiiaiaaiiasiasassassasansasasanaaaaa 102 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt ch gt CFOFfset aaiaaiaaaasiaaaaasaassaasannnaaaannna 102 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt Cch gt STATe iaaiaiaaiaiaaaaiaaiasassassasassasansanaasanaan 103 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt ch gt STERTror a iaiaaiaiaaiaaassassssassasansassasana 103 SOURce lt hw gt BB BTOoth DTTest TPConfiguration TPINterval aaiaaaiaaaassasnnasnasnaasnnnnnasnannannannna 106 SOURce lt hw gt BB BTOoth DTTest TPConfiguration UPLength aa aaaasaaaassaassaaassaaasasanasanasaaaannaaa 106 SOURce lt hw gt BB BTOoth DTTest TPConfiguration UPSource aaaasaaaaaaassaaaassaasssaannaanassaaanaaannanaaa 106 SOURce lt hw gt BB BTOoth ECONfiguration ACTable a aaaiaaaaaaaanaasnannaasnnnsnasnannansnnnnannnannannaanaansaanaai 107 SOURce lt hw gt BB BTOoth ECONfiguration ACTable SET lt ch gt STATeE aiiaiaiiaiaaiaaaaiaiassasassassasansanaasanaan 108
14. Indicates used and unused data channels Remote command Advertising Channel Table SoURce lt hw gt BB BTOoth ECONfiguration ACTable SET lt ch gt STATe on page 108 Data Channel Table SOURce lt hw gt BB BTOoth ECONfiguration DCTable SET lt ch gt STATe on page 108 Data Channel Mapping Table SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DCMTable SET lt ch gt STATe on page 108 Remote command Entire data set for Advertising Channel Table SOURce lt hw gt BB BTOoth ECONfiguration ACTable on page 107 Entire data set for Data Channel Table SOURce lt hw gt BB BTOoth ECONfiguration DCTable on page 107 Entire data set for Channel Map Table SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DCMTable on page 107 3 6 Packet Configuration Bluetooth LE The Packet Configuration dialog is reached via the Event Configuration dialog or the Frame Configuration dialog respectively The available settings in the dialog depend on the selected channel type and the packet type Header configurations are selected in the Header section Data and con trol parameters are set in the Payload section The figure shows the packet structure of the currently selected configuration Operating Manual 1171 6496 12 10 35 Bluetooth Enhanced Data Rate User Interface 3 6 1 Packet Configuration Bluetooth LE E Bluetooth A Packet Configuration 4
15. e Generation of signals in accordance to the Dirty Transmitter Test specification for both the basic and Enhanced Data Rates and with possibilities to change the start phase the frequency drift rate and the frequency drift deviation e Power Ramp Control with possibilities to choose ramp time rise and fall offset e Configuration of the clipping filter and modulation settings 2 1 Bluetooth Transport Modes There are three different transport modes defined in the Bluetooth specification each of them with special applications e Synchronous Connection Oriented SCO The SCO transport mode is used for a symmetric point to point link establishment between a master and a specific slave in the piconet e Extended Synchronous Connection Oriented eSCO The eSCO transport mode is used for a symmetric or asymmetric point to point link establishment between the master and a specific slave Operating Manual 1171 6496 12 10 7 Bluetooth Enhanced Data Rate Introduction 2 2 2 2 1 Bluetooth Packet Types e Asynchronous Connection Less ACL The ACL transport mode is used for a point to multipoint link establishment between the master and all slaves participating on the piconet There are some common transmitted packets used by all transport modes and some specific packets defined for each transport mode Bluetooth Packet Types ACL packets The ACL packets are used for asymmetric links and they contain user data or control da
16. Advertising Settings are given with regard to this channel type The Packet Configuration subdialog can be opened and a graph represents the physical channel mapping and the channel indices The table in the lower section gives an over view of the used channels and their parameters Operating Manual 1171 6496 12 10 29 Bluetooth Enhanced Data Rate User Interface Event Frame Configuration Bluetooth LE Bluetooth A Event Configuration loj xj Connection Settings No of Tx Packets per Event 1 Connection Event Interval 7 50 ms LL Connection Mode Un encrypted Long Term Key hex 0000 0000 Selected Data Channel Index 0 Packet Configuration Center frequency MHz 2402 2404 2424 2426 2428 ADV Fig 3 1 Event Configuration Dialog of channel type Data 2 Bluetooth A Event Configuration me 15 x i Advertising Settings fAdvertising Event Interval 20 0 ms Advertising Event Delay 0 0 ms Center frequency MHz 2402 2404 2424 2426 2428 2478 2480 Fig 3 2 Event Configuration Dialog of channel type Advertising Operating Manual 1171 6496 12 10 30 Bluetooth Enhanced Data Rate User Interface es P V r n Event Frame Configuration Bluetooth LE 3 5 1 Advertising Event Frame Configuration Settings Advertising Event Interval Sets the time interval between two consecutive advertising events with regard to the starting points Note This parameter
17. BB BTOoth ECONfiguration PCONfiguration CID aaiaaiasaaiasassasansassasansasassansnsanvana 111 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINStant a aaaaaaaasaaass aassaasssaaaaasaaa 111 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINTerval a aiiaaiaaianasassannnannnnnnannani 112 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ClValue 2aaaaassaasssaasaaanassaasssaansanaaa 112 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA a iaiaiaaiaaiasassasassassasassasassasaasassaaaa 112 CSOURceshw BB BTOoth ECONfIguration PCONfiguration DATA DPATteF ee ee rene eeneeeee 113 V EE ER EET EE E s sss ESyE SS ll yy yW W _ _ Operating Manual 1171 6496 12 10 127 Bluetooth Enhanced Data Rate List of Commands SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA DSELection SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DCMTable i2aaiaaaaaaasaaasssaasssaasnananaaa SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DCMTable SET lt ch gt STATe 108 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DLENgth aaaasaaaaaaaasssaassaaasssaaaasaaa 114 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DWHitening aaaaaaaaassaasssaassaaanaaa 114 SOURce lt hw gt BB BTOoth ECONfigu
18. Clipping State on page 51 SOURce lt hw gt BB BTOoth FiLTer TYPE lt Type gt The command selects the filters used for 1 4 DQPSK and 8DPSK modulations This opens a selection window containing all the filters available to the instrument Parameters lt Type gt RCOSine COSine GAUSs LGAuss CONE COF705 COEQualizer COFequalizer C2K3x APCO25 SPHase RECTangle PGAuss LPASs DIRac ENPShape EWPShape RST RCOS Example BB BTO FILT TYPE RCOS sets the filter type RCOSine Manual operation See Filter on page 49 SOURce lt hw gt BB BTOoth FiLTer ILENgth lt ILength gt The command sets the impulse length the number of filter taps Operating Manual 1171 6496 12 10 71 Bluetooth Enhanced Data Rate Remote Control Commands TT 7 EE a a el Filter Clipping Settings Parameters lt ILength gt float Range 1 to 128 Increment 1 RST 10 Example BB BTO FILT ILEN 10 sets the number of filter tabs to 10 Manual operation See Impulse Length on page 50 SOURce lt hw gt BB BTOoth FiLTer ILENgth AUTO STATe lt State gt The command acivates deactivates the impulse length state If activated the most sen sible parameter values are selected The value depends on the coherence check Parameters lt State gt 0 1 OFF ON RST ON Example BB BTO FILT ILEN AUTO ON the most sensible parameters are selected automatic
19. LE Commands SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration L CTimMeout a anananaaaa 116 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration MIVector aaaaaaaaaaaaanaranani 116 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SIVector aaaaaaaaaaaaanarana 116 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration MSKD 222 aaa se se ee ea se ee 116 SOURceshw BB BTOoth ECONiguration PCONfiguration SSKD ee ee ee ee ee 116 SOURceshw BB BTOoth ECONiguration PCONTiguration NClINterval ees ee ee sees se ai 117 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NL CTiMeEout aaaaaaananana ni 117 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NSLatency aaaaavasaaaaa 118 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NSValue aaaaavaaan n n n nnna 118 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NWOFfset ananan a 118 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NWSIZ e a aaaaaaaaaaaaaaaaarananani 119 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration TATYpe aaaaaaaaaaaasasasasnsanana 119 SOURceshw BB BTOoth ECONiguration PCONiguration RATYDe ee ee ee ae se se ke 119 SOURceshw BB BTOoth ECONiguration PCONTiguration RVECLOF ee ee ee ee ee ee ee ee 119 SOURceshw BB BTOoth ECONiguration PCONTfiguration SCACcuraCY ees ese se se se see 120
20. SOURce lt hw gt BB BTOoth ECONtfiguration ADlINterval aiaiaaiasassasansassnsansanansanaansansansanansnaanaana 108 SOURce lt hw gt BB BTOoth ECONfiguration AEDelay aaaiaaaaaaanaassansaassannaasnnnsansnnnnananannannnanaansaanaai 108 SOURce lt hw gt BB BTOoth ECONtfiguration AElNterval aaiaainaasiasasaasassasassassnsassassasansasansanaananaan 109 SOURce lt hw gt BB BTOoth ECONtfiguration APINterval aaiaainsassasasvasansasassassnsassassasansasansanaananaan 109 SOURce lt hw gt BB BTOoth ECONfiguration DCTable a aaaaaaiaaaaasaasaassasnaannasnaannannnunnnnnnannannnnnnnannannnani 107 SOURce lt hw gt BB BTOoth ECONfiguration DCTable SET lt ch gt STATe iaiaaiaaiaiaaaaianaasassasassassaaanvana 108 SOURce lt hw gt BB BTOoth ECONfiguration LCMode aiiaiaaaaaaasasassasassassasansanaasansanaasansanansansannannana 109 SOURce lt hw gt BB BTOoth ECONfiguration LTKey aaaaiiaaiaaaaaasaasaannannannnannaannannnnnaannnnnannnannnnnsannannaanaani 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration AADDress a2aaiaaaaaaasaaaasssaassaaassaaana 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ACASsigned iaaiaaaasaassssanssaaassaaaaaaa 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ACID aaaaaaaaaaaaaasiaasansaannansnannannaanaannaanaai 110 SOURce lt hw gt
21. SOURceshw BB BTOoth ECONiguration PCONiguration SLATeNCY ees ee se se 120 SOURceshw BB BTOoth ECONiguration PCONiguration SSValue esse se es se se se 120 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SVNUmber aaaaaaananananana 121 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration UTYPe cccceeeeeeeeeeeeeeeeaee 121 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration VNUMbet 0 ccccceeeeees 121 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration WOFF set aaaaaaaaaaaaasani 122 SOURceshw BB BTOoth ECONiguration PCONTfiguration WSIZe iese ees ee ee se se se se ee 122 SOURceshw BB BTOoth ECONiguration PNUMDeT ee ee ee ee ee ee Re AR ER GR Ge Re ee ee 122 SOURceshw BB BTOoth ECONiguration SINTerval iis se se ss se ee ek ke AA 123 SOURceshw BB BTOoth ECONiguration SWINdOW ee se se se se AA AA AA 123 SOURceshw BB BTOoth ECONiguration WOINFO ees ees se se se RE ER ee ee ee 123 SOURceshw BB BTOoth ECONiguration WSINFO ee ese ek se se ee ee ee ee ee 124 ESOURCeshw gt BBBIOSGHUP TY DE is exces ee RE ca cet dian GEE Ge Ee EO RE SE Ge ke We RA gegee 124 SOURce lt hw gt BB BTOoth USLength 2242 222242 se se se ee AA Re Re RA Ee Ge 125 Determines the controller role Depending on the selected channel type different roles are assigned to the controller For channel type Data master or slave can be as
22. The command enters the payload data length in bytes Parameters lt DLength gt float Range 0 to 1021 Increment 1 RST 0 Example BB BTO PTYP DHI sets the packet type BB BTO PCON DSFP PED enable packet editor under data source for packet BB BTO PCON DLEN 25 sets the data length Manual operation See Data Length on page 24 SOURce lt hw gt BB BTOoth PCONfiguration DSF Packet lt DsfPacket gt The command selects the data source for the selected packet type Operating Manual 1171 6496 12 10 94 Bluetooth Enhanced Data Rate Remote Control Commands as a EE EE EE EE EE rrr Packet Configuration Setting Parameters lt DsfPacket gt PEDit ADATa PED Enables Packet Editor All packet fields can be configured indi vidually ADAT Fills the generated packets with the selected data source Useful if predefined data contents are loaded with a data list file or the data contents of the packet are not of interest RST PEDit Example BB BTO PCON DSFP PED enables packet editor under data source for packet Manual operation See Data Source for Packet on page 21 SOURce lt hw gt BB BTOoth PCONfiguration DWHitening lt DWhitening gt The command activates or deactivates the Data Whitening Parameters lt DWhitening gt 0 1 OFF ON RST OFF Example BB BTO PCON DWH ON activates data whitening Manual operation See Data Whitening on page 22 SOURce lt hw gt BB BTOoth PCO
23. 2 Bluetooth Basic Rate EDR on page 20 Bluetooth Low Energy Selects the Bluetooth mode Low Energy The settings conceming Bluetooth Low Energy mode are described in chapter 3 4 Bluetooth Low Energy on page 25 Remote command SOURCe lt hw gt BB BTOoth BMODe on page 106 Operating Manual 1171 6496 12 10 18 Bluetooth Enhanced Data Rate User Interface a a MEE ER RE EER OWN EE a RE Ra General Settings for Bluetooth Signals Filter Clipping Calls the dialog for setting baseband filter and clipping of the generated signal The current filter and the clipping state are displayed next to the button The dialog is described in chapter 3 8 Filter Clipping Settings on page 48 Remote command n a Power Ramping Calls the dialog for setting the power ramping The dialog is described in chapter 3 9 Power Ramping Settings on page 52 Remote command n a Trigger Marker Trigger for R amp S SMx AMU instruments only Calls the dialog for selecting the trigger mode and trigger source for configuring the marker signals and for setting the time delay of an external trigger signal The currently selected trigger mode and trigger source are displayed next to the but ton The dialog is described in chapter 3 10 Trigger Marker Clock Settings on page 53 Remote command n a Execute Trigger Executes a trigger manually A manual trigger can be executed only if an internal trig ger source and a
24. CREQ sets packet type CONNECT REO SOUR BB BTO ECON PCON LCT 150 LL Connection Timeout is 150 Manual operation See LL Connection Timeout on page 39 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration MlVector lt MiVector gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SlVector lt SiVector gt Sets the master s or the slave s portion of the initialization vector IVm IVs Parameters lt SiVector gt integer Example SOUR BB BTO ECON PCON MIV H0000000000000000 32 Master SOUR BB BTO ECON PCON SIV H0000000000000000 32 Slave SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration MSKD lt Mskd gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SSKD lt Sskd gt Sets the master s or the slave s portion of the session key diversifier SKDm SKDs Operating Manual 1171 6496 12 10 116 Bluetooth Enhanced Data Rate Remote Control Commands Es EE EE EE EE EE EE r EE EE EE LE Commands Parameters lt Sskd gt integer Example SOUR BB BTO ECON PCON MSKD H0000000000000000 64 Master SOUR BB BTO ECON PCON SSKD H0000000000000000 64 Slave SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NCINterval sNclnterval for data event and advertising frame configuration with the packet type CONNEC TION UPDATE REO Set the time interval between the start points of two consecutive connection events
25. DList A binary data from a data list internally or externally generated Select Select DList to access the standard Select List dialog Select the Select Data List gt navigate to the list file dm_iqd gt Select to select an existing data list Use the New and Edit functions to create internally new data list or to edit an existing one Use the standard File Manager function to transfer external data lists to the instrument See also Main Dialog gt Data List Management Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA on page 112 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA DPATtern on page 113 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA DSELection on page 113 Data Length Enters the payload data length in bytes Note This parameter is relevant for event configuration with packet types ADV_IND ADV_NONCONN_IND and ADV_DISCOVER_IND Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DLENgth on page 114 Connection Event Interval Set the time interval between the start points of two consecutive connection events Subsequent transmissions within an event are separated by this parameter in order to separate connecting event starting points in time Operating Manual 1171 6496 12 10 38 Bluetooth Enhanced Data Rate User Interface
26. Data Channel Map Table Manual operation See Channel Table on page 34 SOURce lt hw gt BB BTOoth ECONfiguration AEDelay lt AeDelay gt Sets a time delay between the start times of two consecutive advertising events The value is added to the advertising event interval Parameters lt AeDelay gt float Range 0 0 to 10 0 RST 0 0 Example SOUR BB BTO ECON AED 10 0 sets a time delay of 10 0 s Manual operation See Advertising Event Delay on page 31 SOURce lt hw gt BB BTOoth ECONfiguration ADINterval lt Adinterval gt Sets the time interval between two consecutive advertising events for packet type ADV_DIRECT_IND Parameters lt AdInterval gt float Range 0 9 to 3 0 RST 3 0 Example SOUR BB BTO ECON ADIN 1 3 sets a time interval of 1 3 Operating Manual 1171 6496 12 10 108 Bluetooth Enhanced Data Rate Remote Control Commands a ES EL iii M aM EER EE EE EE EE LE Commands Manual operation See Advertising Event Interval on page 31 CSOURceshw BB BTOoth ECONfiguration AEINterval lt Aelnterval gt Sets the time interval between two consecutive advertising events with regard to the starting points Parameters lt Aelnterval gt float Range 20 0 to 10240 0 RST 20 0 Example SOUR BB BTO ECON AEIN 20 0 sets a time interval of 20 0 Manual operation See Advertising Event Interval on page 31 SOURce lt hw gt BB
27. Data source Basic RateEDR var alicia ee GN EG eae Packet configuration ee ee eeeeeeeeeeees 23 38 Bluetooth LE Version ee ees ese ee ee ee ee ke ee i 18 Voice Field Ek Ee sede Di GE GE ee eo 25 Bluetooth Mode he Data Whitening 22 36 114 Bluetooth Mode Basic RatetEDR 222222 18 Deactivate Bluetooth Standard 00 0 eee ke 16 Bluetooth Mode Low Energy 2aaaaaaasaaaaaaassssaasssaaa 18 Deactivate Dirty Transmitter Test 46 Bluetooth Version ets Default settings 65 AR ER ME RE NEE RE Default Settings i EE EERS RE RR ee SE ES ME Be DLE KRAG ASE 16 Delay Marker 60 83 C Delay Tigger sssknansdasasnlarsdansaikoubdit ask 80 Device Address 1122 2dssscarinssans nninannannandilanaannnnand nds annannad 22 Carrier Frequency Offset DTT tees 47 Device s address type ee ee ee ee ee ee ee 37 CDMA Version assie 69 Dirty Transmitter Test Center Freguency 34 Carrier Frequency Offset iaaaaiiiaaiiiaiaaissiaaai 47 Channel Index eee ee EER ER ERGE RS RE ER ER ER ee ee 34 Frequency Drift Deviation 2asssasasasasasasassaai 47 Channel State 34 108 Frequency Drift Rate AT Channel Type 26 28 34 Modulation Index 48 Channel Type Advertising 26 Start Phase EE 47 Channel Type Data n 26 State Long Table ee
28. EE ad Trigger Marker Clock Settings An Arm stops the signal generation A subsequent trigger event internal with or external causes a restart e Armed Retrigger The signal is generated only when a trigger event occurs Then the signal is gener ated continuously Every subsequent trigger event causes a restart An Arm stops signal generation A subseguent trigger event internal with or external causes a restart e Single The signal is generated only when a trigger event occurs Then the signal is gener ated once to the length specified at Signal Duration Every subsequent trigger event internal or external causes a restart Remote command SOURce lt hw gt BB BTOoth TRIGger SEQuence on page 81 Signal Duration Unit Selects the unit for the entry of the length of the signal sequence to be output in the Single trigger mode Available units are sequence length SL or frames Sequence The selected unit for the entry of the length of the signal sequence at Length the output in the Single trigger mode is sequence length Frames The selected unit for the entry of the length of the signal sequence at the output in the Single trigger mode is frame Remote command SOURce lt hw gt BB BTOoth TRIGger SLUNit on page 79 Signal Duration Enters the length of the signal sequence to be output in the Single trigger mode Use this parameter to deliberately output part of the signal an exact sequen
29. Enable this function to accelerate the saving process by saving only the settings with values different to the default ones Fast Save is not affected by the Preset function File Manager Calls the File Manager The File Manager is used to copy delete and rename files and to create new directories Remote command SOURce lt hw gt BB BTOoth SETTing CATalog on page 66 SOURce lt hw gt BB BTOoth SETTing LOAD on page 67 SOURce lt hw gt BB BTOoth SETTing STORe on page 67 SOURce lt hw gt BB BTOoth SETTing STORe FAST on page 67 SOURce lt hw gt BB BTOoth SETTing DELete on page 66 Data List Management Calls the Data List Management menu This menu is used to create and edit a data list Pele Edit Data List None All data lists are stored as files with the predefined file extension dm_iqd The file name and the directory they are stored in are user definable The data lists must be selected as a data source from the submenus under the individ ual function e g in the channel table of the cells Operating Manual 1171 6496 12 10 17 Bluetooth Enhanced Data Rate User Interface a l Ee Ee EE rr General Settings for Bluetooth Signals Note All data lists are generated and edited by means of the SOURce BB DM subsys tem commands Files containing data lists usually end with dm iagd The data lists are selected as a data source for a sp
30. MEE ken eg Gen EER be ER ER ENE ee Packet TYDS Ese ee EE aur akan kanal Pattern Marker Payload Type Test Packet aaiiaaaiaaaaaaaassaaassaanaana 45 Power Ramping iiessssrk ss dese Aisa cans 19 52 Private address type he Public address type ut Ee ESE n SE es ie ge ge lg ede 37 41 AVE AU AE EE EE a 59 R Ramp Function iaaaiaaaaaaaaaaasasaaas aasaaaasssaaansaanaaaaa 52 89 Ramp Time P Random Veetor heX sasssananaaksa spaldanussnsmpiams 40 Recall BluetoothSettings aa iaaaaasiaaaassassaassassaassaana 16 Recall Configuration Restart Marker aiaaiiaaaaaaaiiaaaaaaaaaaaaaaaaaasaaasaaaaaaaaa ROU GGG acceso fe RE oe DE Neath danan ta Rise Offset Rol Of ER I a FROM OTF ACTOR EE ER EE ED EE ee cee Running ae Running Trigger aaaaaaaanaaaaaaaas aas anasnaanasnnansnanansaanaina S Sample Clock Mode iiaaiiaaaaaaaaasaass aassaaassaaasssaassaaanaaa 61 Save Bluetooth Settings 16 Save Configuration 16 Scan Interval so Scan Repetition Mode 24 Scan Window sa Scanner 28 Scanner s device address AM eet EE 20 Select Data Channel Index 34 Selected data channel 34 SEON Start Vallei siese dk ee EE Nee drek DER eke 23 Sequence Length 68 Sequence Length ARB 2 naiaaaaaaisaassaassssasssaaana 66 Session K
31. Parameters lt NclInterval gt float Range 7 5 to 4000 0 RST 7 5 Example SOUR BB BTO UPTY CUR sets packet type CONNECTION UPDATE REO SOUR BB BTO ECON PCON NCIN 7 5 sets a time interval Manual operation See Connection Event Interval on page 32 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NLC Timeout lt NicTimeout gt for data event and advertising frame configuration with the packet type CONNEC TION_UPDATE_REQ Defines the maximum time between two correctly received Bluetooth Low Energy packets in the LL connection before the connection is considered lost Parameters lt NicTimeout gt float Range 100 0 to 32000 0 RST 100 0 Example SOUR BB BTO UPTY CUR sets packet type CONNECTION UPDATE REO SOUR BB BTO ECON PCON NLCT 150 LL Connection Timeout is 150 Manual operation See LL Connection Timeout on page 39 Operating Manual 1171 6496 12 10 117 Bluetooth Enhanced Data Rate Remote Control Commands ss ES EE LE EE r EE OE eee LE Commands SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NSLatency lt NsLatency gt for data event and advertising frame configuration with the packet type CONNEC TION_UPDATE_REQ Sets a number of consecutive connection events the slave can ignore for asymmetric link layer connections Parameters lt NsLatency gt integer Range 0 to 1000 RST 0 Example SOUR BB BTO UPTY CUR sets packet type CONNECTION UPD
32. SCO transport mode which has both data fields synchronous and asynchronous Synchronous data fields Basie rale vaekels Enhanced rate packets SCO esCO esco Asynchronous data fields Multi slot ACL packets Single slot ACL packets Synchronous and Asynchronous data fields V a The meaning of some payload fields is given in the table below Operating Manual 1171 6496 12 10 12 Bluetooth Enhanced Data Rate TTTYT j vQ TTTTT T TT EE EIE NEE EE EE EE EE EE Ee Introduction Bluetooth Modulation Schemes Table 2 10 The payload fields Field Description CRC The cyclic redundancy error check Guard Sync The guard time and synchronization sequence used for physical layer change of modula tion scheme LLID The logical link identifier specifies the logical link Flow Field which controls the flow on the logical channels The payload format and content of the FHS packet are different from other packets The fields of the FHS packet are shown in the figure below and their meaning is explained in the table below Undefined Table 2 11 The payload fields for the FHS packet Field Description Parity bits Form the first part of the sync word of the access code of the device that sends the FHS packet LAP Contains the lower address part of the device that sends the FHS packet EIR An extended inquiry response provides
33. Table ss Frame Start Marken rs ees esse EE ke ER KEER RR GE se RE KERE EER ee eN Frames Sequence Length see ee Re Freguency Deviation a Frequency Drift Deviation iaaaaaaaisaaaassaasssaassaaanan Frequency Drift Rate aiaaaaaaanaaaaasanaasnnansannnsnnnnnnaaa G Gauss FSK filter iaiaaaiaaaaaaaasssaaasaasaaanaaanaaaaaaaaaaaaaai 49 Generate Waveform File Global Trigger Clock Settings H Hide Data Channel Mapping Table Hide Data Channel Table ait Hop Lengte AE ee ER ee a anda BRA Impulse Length i e EER EK Anes SE Ne ke ed SEE ee Ao 50 71 Impulse Length Auto State ee ee ee ke 72 Initialization Vector hex Initiat r oseere ceases shee EE sates Initiator s address type aaaaaaaasaaassaassaasassaassaaanaaa Initiator s device address iaaaaaaaasaassaasaassaasaassanaaa 41 L LAP dll N EE dai 22 LL Connection Event Count aaiaaanaaaaaisaassaaassaaaaiia 39 LL Connection Mode a aaaisaaaaaaanaaaaas aaasaaanannnasnnnanaaaa 33 LL Connection Timeout he Load Bluetooth Settings aaaaaaaaisaaas aanas aassanasaaaa 16 Logical Transport Address see ee ee Re ee 22 Long Term key hex iis eksegese Ee N Reg ek ie 34 LOW de ie AR OE RE EE 18 M Manual Trigger MET AE EA EE ONE OE Marker Delay 5 Market MOO RE EE EE MIC Message authenticat
34. also Main Dialog gt Data List Management Remote command SOURce lt hw gt BB BTOoth PCONfiguration VDATa on page 98 SOURce lt hw gt BB BTOoth PCONfiguration DATA VDPAttern on page 93 SOURce lt hw gt BB BTOoth PCONfiguration DATA VDSElection on page 94 3 4 Bluetooth Low Energy The R amp S Signal Generator provides you with ability to generate signals in accordance with Bluetooth Low Energy Specification LE Bluetooth Low Energy makes it possible to transfer data from low power devices running on the smallest of batteries to a larger device such as a PC a mobile phone or a PDA For the first time a Bluetooth con nection to a wristwatch or a heart rate sensor or a data transfer from a digital camera is possible The Bluetooth low energy chips will offer capabilities that do not replace or supersede the existing Bluetooth 2 x standards Data rates are comparable to Blue tooth 1 1 and are data only no audio content Operating Manual 1171 6496 12 10 25 Bluetooth Enhanced Data Rate User Interface Bluetooth Low Energy Bluetooth LE mode only uses the Basic Rate The Basic Rate mode uses binary FM modulation and has a data rate of 1 MBps The modulation scheme has the symbol rate equal to 1Ms s For full duplex transmission a Time Division Duplex TDD scheme is used The following list gives an overview of the options provided by the R amp S Signal Genera tor for Bluetooth LE
35. and advertising frame configuration with the packet type CONNECT REG Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration HLENgth on page 115 Random Vector hex Sets the random vector of the master for device identification The parameter is an initialization vector provided by the Host in the HCl_ULP_Start_Encryption command Note This parameter is relevant for data event configuration with the packet type LLENC_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration RVECtor on page 119 Encrypted DiVersifier hex Sets the encrypted diversifier of the master for device identification The parameter is an initialization vector provided by the Host in the HCl_ULP_Start_Encryption com mand Note This parameter is relevant for data event configuration with the packet type LLENC_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration EDIVersifier on page 115 Session Key iD hex Sets the master s or the slave s portion of the session key diversifier SKDm SKDs Note This parameter is relevant for data event configuration with the packet types LLENC_REQ Master and LL_ENC_RSP Slave Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration MSKD on page 116 Operating Manual 1171 6496 12 10 40 Bluetooth Enhanced Data Rate User Interface ss ER ES SSS ees P
36. baa daa aa adaa 65 SOURCE hiw BE BIOGIPRESER So es se Ke AN ee es sa sa ge ne a as aaa 65 ESOURceshwBBBTOGHPTYPE si ER Re se Ge ke ee NEE SE ER ee Re KA Ke ke be RE EA Ge Ee RE ek dae 66 ESOURce lt hw BB BIOoth SET Ving GA TAG ia ER SR DE N Ee GE WEE ees eu N Eg Ed 66 ESOURce lt hw gt BB BTOoth SET Ting DELete 2 issie EE AE Se GE EES GN Ak Se eek ER KEES EKG RA Ee 66 ESOURceshi BBBTOGMHSETTIHGLOAD Es SR Se ER a NE aaea SE Dek Ee ee 67 SOURceshw BB BTOoth SETTINg STORe ee see ee ke se ee RR EK Ke ee ee ee ee ee ee ee ee 67 ESOURceshw BBBTOGINSET TINGSTOREFAST ees Ge AR Ovi aaia Ke Ge NE RE 67 SOURCe lt hw gt BB BTO SLENG es oo SEER oe EER ONE EER Re Se DR ge GE EN RR Ge AK GR ek Ge EN Re be de 68 ESOURcesnw BBBTOGISTATE Ee RES Ee ie DE n GE ER ae a Ewe ee Be ee ee RR as ee 68 ESOURCeshw gt BEBIOSIK MODE iiien EES NE EE SEE ER Ee NR oe ae ee B sia kb a 68 ESOUREeshw BBEBTOGI VERSION 000 100 Ee Ge KEN EG Ge GAAN GE ENE RR Eg ER Gua 69 SOURceshw BB BTOoth WAVeform CREate ee ee ee ese se ek se Ge ee ee ee ee ee ee ee 69 SOURce lt hw gt BB BTOoth BCText Queries the state roll of the controller Operating Manual 1171 6496 12 10 64 Bluetooth Enhanced Data Rate Remote Control Commands a TT EE a a el General Commands Return values lt BcText gt string Connected for data channel type Shows that the state is Connected Advertiser for advertising channel type the current b
37. ee ee ee ee ee ee ee ee ke ee ke ee ee ee ee ge ee ee 76 SOURceshw BB BTOOoth TRIGgerEXECute siese ese ee ee ee ee Re ee GR ee Re ee Re ee ee ee ee ee ee ee 77 SOURce lt hw gt BB BTOoth TRIGger OBASeband DELay SOURce lt hw gt BB BTOoth TRIGger OBASeband INHIibit SOURce lt hw gt BB BTOoth TRIGger OUTPut DELay FlXed a iaiaiaaiinaasaasananiaaaanaananaananaananaananaaanaanaaaaa 82 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay iiiaiaaiaiaaaaaaaaanaananannaaaanaananaananaanaananaanaaaanaaaaa 83 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay MAXIMUM ia ees ee ee ek ee Ee ee Ee ee Ee ee 83 CSOURceshw BB BTOoth TRIGger OUTPutsch DELay MINIMUM ee esse ee ee ee ee ee ee ee ee ee ee ee 83 EE EE EE EER UUE Operating Manual 1171 6496 12 10 129 Bluetooth Enhanced Data Rate List of Commands as as ES r SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt MODE aaiiaiiaaaiaaaaaaasaaasaassaasaasnannannnanaannaannannnanaansaanani SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt OFFTime SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt ONTimMe iaaiaaaaaaaaaaaaiaasaaasaanaannannnannannnannnnnnannannnannannai SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PATTern iaaiaaaaaaaaaaaiaasaaasaasaannansnannannnanannnnannannnnnnannan SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PULSe DlVider aiiaaiaaaaaaiaaaaasaasaanna
38. lt FsLength gt float Range 1 to 26 RST 26 Example SOUR BB BTO ECON PCON FSL 12 feature set length is 12 Manual operation See Feature Set Length on page 41 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration HLENgth lt HLength gt for data event and advertising frame configuration with the packet type CON NECT_REQ Sets the difference from the current channel to the next channel The master and slave devices determine the data channel in use for every connection event from the channel map Hop length is set for the LL connection and communicated in the CON NECT REO and CHANNEL MAP REO packets Operating Manual 1171 6496 12 10 115 Bluetooth Enhanced Data Rate Remote Control Commands as EE EE EE EE EE EE EE EE r EE EE EE LE Commands Parameters lt HLength gt integer Range 5 to 16 RST 5 Example SOUR BB BTO UPTY CREQ sets packet tyve CONNECT_REQ SOUR BB BTO ECON PCON HLEN 10 hop length is 10 Manual operation See Hop Length on page 40 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration LCTimeout lt LcTimeout gt for data event and advertising frame configuration with the packet type CONNECT_REQ Defines the maximum time between two correctly received Bluetooth Low Energy packets in the LL connection before the connection is considered lost Parameters lt LcTimeout gt float Range 100 0 to 32000 0 RST 100 0 Example SOUR BB BTO UPTY
39. meaning is explained in the table below Table 2 9 The header fields Field Description Packets LT_ADDR Logical transport address indicates the destination slave for a packet in a mas ter to slave transmission slot and the source slave for a slave to master trans mission slot TYPE Type code specifies which packet type is used FLOW Flow control used for flow control of packets over the ACL logical transport All packets When the RX buffer in the recipient is full a STOP indication shall be returned except ID When the RX buffer can accept data a Go indication shall be returned ARQN Automatic Repeat Request Number acknowledgement indication used to inform the source of a successful transfer of payload data with CRC can be positive acknowledged ACK or negative acknowledged NAK EI Operating Manual 1171 6496 12 10 11 Bluetooth Enhanced Data Rate Introduction E Packet Structure and Fields Field Description Packets SEQN Sequential numbering scheme to order the data packet stream HEC Header error check to check the header integrity 2 3 3 Payload format The payload structure depends on the type of the data field and the data rate Two fields are defined in the payload the synchronous data field and the asynchronous data field The ACL packets only have the asynchronous data field and the SCO and eSCO packets only have the synchronous data field The exception is DV of
40. page 82 3 10 4 Clock Settings The Clock Settings is used to set the clock source and a delay if required The clock functions are available for R amp S SMx and R amp S AMU instruments only Sync Mode for R amp S SMBV only Selects the synchronization mode This parameter is used to enable generation of very precise synchronous signal of sev eral connected R amp S SMBVs Operating Manual 1171 6496 12 10 60 Bluetooth Enhanced Data Rate User Interface Trigger Marker Clock Settings Note If several instruments are connected the connecting cables from the master instrument to the slave one and between each two consecutive slave instruments must have the same length and type Avoid unnecessary cable length and branching points None The instrument is working in stand alone mode Sync Master The instrument provides all connected instrument with its synchroni sation including the trigger signal and reference clock signal Clock Settings Sync Mode Sync Master Ad Set Synchronisation Settings Sync Slave The instrument receives the synchronisation and reference clock sig nal from another instrument working in a master mode Remote command SOURce lt hw gt BB BTOoth CLOCk SYNChronization MODE on page 88 Set Synchronization Settings for R amp S SMBV only Performs automatically adjustment of the instrument s settings required for the syn chronization mode
41. selected The valid Bluetooth version in use is displayed Between an upper part of menu and a lower part of menu Transmission ReceptionT X RX timing is shown Transmitted packet has duration N x 625 us where N is an odd integer larger than 0 N depends on the type of the transmitted packet For Bluetooth Low Energy modes various packet durations apply depending on the type of channel and packet selected Many of the buttons lead to submenus for loading and saving the Bluetooth configura tion and for setting the filter trigger and clock parameters Specific settings of the Bluetooth modes are described in separate chapters Refer to chapter 3 2 Bluetooth Basic Rate EDR on page 20 and chapter 3 4 Bluetooth Low Energy on page 25 BE sum A Set To Default SavelRecall Data List Management Generate Waveform File Bluetooth Version 2 1 EDR State Set To Default Save Recall Data List Management Generate Waveform File Bluetooth Version LE DOSRO2 ADV_IND 7 P vom z Events v Bluetooth Controller Roll Advertiser RENTE 39 Bluetooth Mode Basic Rate EDR 7 ACL Asynchronous EDR x Packet Type DH1 v 1 Frames x Transport Mode Channel Type Packet Type Sequence Length Tx Slot Sequence Length ADV Packet lt 15ms Adv_idx 38 gt 1x625 Symbols 625 Symbols Frame gt Packet Configuration Dirty Transmitter Test
42. that the channel is unused The bits in positions 37 38 and 39 shall be set to zero upon transmission and ignored upon receipt Note This parameter is relevant for data event and advertising frame configuration with the packet types e CHANNEL_MAP_REQ e CONNECT REO Parameters lt DcmTable gt string Example SOUR BB BTO ECON ACTable NOT Entire data set for Advertising Channel Table SOUR BB BTO ECON DCT NOT Entire data set for Data Channel Table SOUR BB BTO ECON PCON DCMT NOT Entire data set for Channel Map Table Manual operation See Channel Table on page 34 Operating Manual 1171 6496 12 10 107 Bluetooth Enhanced Data Rate Remote Control Commands VERRE EE ee ee EE ee ee Eee LE Commands SOURce lt hw gt BB BTOoth ECONfiguration ACTable SET lt ch gt STATe lt State gt SOURce lt hw gt BB BTOoth ECONfiguration DCTable SET lt ch gt STATe lt State gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DCMTable SET lt ch gt STATe lt State gt Indicates used and unused data channels Note This parameter is relevant for data event and advertising frame configuration with the packet types e CHANNEL_MAP_REQ e CONNECT REO Parameters lt State gt 0 1 OFF ON RST ON Example SOUR BB BTO ECON ACT SET2 STAT ON State in Advertising Channel Table SOURce BB BTO ECON DCT SET1 STAT ON State in Data Channel Table SOUR BB BTO ECON PCON DCMT SET1 STAT ON State in
43. trigger event Internal trigger signal of the mas All instruments are synchronous OFF ter R amp S SMBV for the slave among themselves instruments On Corresponds to the default state of this parameter The signal calculation starts simultaneously with the external trigger event but because of the instrument s processing time the first sam ples are cut off and no signal is outputted After elapsing of the inter nal processing time the output signal is synchronous to the trigger event Calculated signal Signal at the output Operating Manual 1171 6496 12 10 57 Bluetooth Enhanced Data Rate User Interface ea Trigger Marker Clock Settings Off The signal output begins after elapsing of the processing time and starts with sample 0 i e the complete signal is outputted This mode is recommended for triggering of short signal sequences with signal duration comparable with the processing time of the instrument Ext n Calculated signal Signal at the output Remote command S0URCe lt hw gt BB BTOoth TRIGger EXTernal SYNChronize OUTPut on page 77 Trigger Delay Delays the trigger event of the signal from e the external trigger source e the other path Use this setting to e synchronize the instrument with the device under test DUT or other external devi ces Remote command SOURce lt hw gt BB BTOoth TRIGger EXTernal lt ch gt DELay on page 8
44. 0 SOURce lt hw gt BB BTOoth TRIGger OBASeband DELay on page 78 Trigger Inhibit Sets the duration for inhibiting a new trigger event subsequent to triggering The input is to be expressed in samples In the Retrigger mode every trigger signal causes signal generation to restart This restart is inhibited for the specified number of samples This parameter is only available on external triggering or on internal triggering via the second path For two path instruments the trigger inhibit can be set separately for each of the two paths Remote command SOURce lt hw gt BB BTOoth TRIGger EXTernal lt ch gt INHibit on page 81 SOURce lt hw gt BB BTOoth TRIGger OBASeband INHibit on page 78 Operating Manual 1171 6496 12 10 58 Bluetooth Enhanced Data Rate User Interface Trigger Marker Clock Settings 3 10 2 Marker Mode The marker output signal for synchronizing external instruments is configured in the marker settings section Marker Mode The R amp S SMBV supports only two markers Marker Mode Selects a marker signal for the associated MARKER output Restart A marker signal is generated at the start of each signal sequence Frame Start A marker signal is generated at the start of each frame Frame Active The marker masks the active part of the frame At the start of each Part burst the marker signal changes to high It changes back to low after the end of each burst
45. 15 General Settings for Bluetooth Signals 22aaaaaaanv s aannv nnannnannannnnnnnnnnannnnnnnn 16 Bluetooth Basic Rate EDR 22222aaaaaaaaaa aav saanas nnnnnnannannnannnannnnnnannnnnnnnnnnnaana 20 Packet Configuration Bluetooth Basic Rate EDR cccccccseseeesseeeeeneeeeeees 21 Bluetooth Low di ie AE EE EE 25 Event Frame Configuration Bluetooth LE ees esse ee see ee Re ee RR RE ER KAR RE REG ER RR RE EE e Ee ER 29 Advertising Event Frame Configuration SettingS sesse esse se ee ee se ee ee ee ee ke ee ee ee 31 Data Event Connection Settings sees ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee 32 Channel Table Setting RE EE EE N 34 Packet Configuration Bluetooth LE 2a2a2aaaaaaa aas naannn nnannnnnnannnannnnnnannnnnnanna 35 Packet Configuration SettingS iese ee ee ee Ee AA ee ee ee ee KAR KAKAK NAR 36 Test Packet Configuration SettingS iese ee ee ee ee ee ek Re ee ee Re ee ee ke ee ee ee kke ee ee 44 Dirty Transmitter Test eens ee EER oe ER ERG RRR 45 Filter Clipping ETTER Ge aaa 48 aie une EE EE vane 49 Modulation Selngsdasmtnid kedsk sr v nskinbe afkoa k k ttaniadikn ni lagka dn knndannnnar 50 CHIPPING Seg EE EE RE kk lae ERLA Ar k O lak K M H Aa H Ka Ork Kana 51 Operating Manual 1171 6496 12 10 3 Bluetooth Enhanced Data Rate Contents 3 9 3 10 3 10 1 3 10 2 3 10 3 3 10 4 3 10 5 4
46. 28s R2 The scan interval is maximal 2 56s Remote command SOURce lt hw gt BB BTOoth PCONfiguration SRMode on page 98 Operating Manual 1171 6496 12 10 24 Bluetooth Enhanced Data Rate User Interface EER EE EER ER EE RR ER PA EE EE ed Bluetooth Low Energy Class of Device Available for FHS packets A parameter received during the device discovery procedure indicates the type of device and which types of service that are supported Remote command SOURCe lt hw gt BB BTOoth PCONfiguration CODevice on page 92 Data Source Voice Field Available for DV packets Selects the Data Source for the voice field The following standard data sources are available e AI O All 1 An internally generated sequence containing 0 data or 1 data e PNxx An internally generated pseudo random noise sequence e Pattern An internally generated sequence according to a bit pattern Use the Pattern box to define the bit pattern e Data List Select DList A binary data from a data list internally or externally generated Select Select DList to access the standard Select List dialog Select the Select Data List gt navigate to the list file dm_iqd gt Select to select an existing data list Use the New and Edit functions to create internally new data list or to edit an existing one Use the standard File Manager function to transfer external data lists to the instrument See
47. 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 9 Power Ramping Settings aaaaaaaaaaaaavaaaaaaannannnannnnnnnnnnnnnnnnnnnnnnnnnnnunnnnanannnnnnannananana 52 Trigger Marker Clock Settings 2a2aaaanaaan aans nnnnnannnnannnnnnnnnnnnnunannnnnnnnnnnnnnnnnnanunann 53 Trigger de EO OE RR N 54 Marker MOD AR N EE EE OE d ars hk dat nike a naan a a 59 Marker Delay EE RE EE ALANNE 59 Glock Settings RE OR OE RE ER N OE EE ER N 60 Global Settings OE OO OE N AR A b r d 62 Remote Control Commands aaaaaaaannv vnnnnnnnuunnnnnnnnnnnnnnnnnnnnnnnnnn 63 General Commands ess ers EES EER GESKEER dk gee EKKE ER ARAR RRR EARN ARA 64 FilteriClipping Settings sie RES RES EE GEE n ceeded cvs sedans Ee Ee Ke ER Gee NEG Dee BEKKER EE 70 Trigger settings ED DE SERE eae deste cece ED ee ee Ee De Ge EE De Ee we Oe EK be ke GEE Dee 76 Marker Settings ssaa a Re ee es DO Eed Ge ee Gee Ee ee Ge ee Ee ee FEED Eg sue 82 Clock Selling S ornan ta EG ER GE EER De GO ge OE ee ee ee ee ee De Fee OE Fee 86 Power Kamp Ng RR EE RR RE DE EE RE RE DAE oe 89 Packet Configuration Setting a22aaaaaavas aaan nnnannnnnnnnnnnnnnnnnnnnunnnnnnunnannnannnnnanannn 90 Dirty Transmitter Test ii EE EES SE oe ER Nee AE GEE aa Gee EES Ou ee nana 99 LE Commands i e ee NA ve ok EER Ge Ro EE N ES ee 104 List of COMMING Sais caste at Seat ete ee ee Ne nne 127 DNS de EE ER EE E 131 Operating Manual 1171 6496 12 10 4 Bluetooth Enhanced Data Rate Pr
48. 8 00 enables that an invalid control packet is indicated Manual operation See Unknown Type hex on page 41 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration VNUMber lt VNumber gt Sets the company identifier of the manufacturer of the Bluetooth Controller A 8 bit value is set Note This parameter is relevant for data frame configuration and for the packet type LL_VERSION_IND Parameters lt VNumber gt integer RST 0 Operating Manual 1171 6496 12 10 121 Bluetooth Enhanced Data Rate Remote Control Commands VERRE EE ee ee Ee EE ee IE EE ee EE ee LE Commands Example SOUR BB BTO ECON PCON VNUM HOO 8 sets the version number Manual operation See Version Number on page 43 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration WOFFset lt WOffset gt for data event and advertising frame configuration with the packet type CON NECT_REQ Sets the start point of the transmit window Parameters lt WOffset gt float Range 0 0 to 5000 0 RST 0 Example SOUR BB BTO UPTY CREQ sets packet type CONNECT_REQ SOUR BB BTO ECON PCON WOFF 800 0 sets the start point of the transmit window Manual operation See Transmit Window Offset on page 42 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration WSIZe lt WSize gt for data event and advertising frame configuration with the packet type CON NECT_REQ Sets the size of the transmit window regard
49. AN RSP Scanner for SCAN REO packet type Initiator for CONNECT REO packet type e Data Assigns a role to the controller Master Slave Remote command SOURce lt hw gt BB BTOoth BCRole on page 105 Bluetooth Controller State Shows the state of the bluetooth controller for channel type Data Remote command SOURce lt hw gt BB BTOoth BCText on page 64 Operating Manual 1171 6496 12 10 28 Bluetooth Enhanced Data Rate User Interface a r rrr rrr 3 5 Event Frame Configuration Bluetooth LE Event Frame Configuration Calls a submenu for setting Event Configuration depending on the packet type In case the sequence length of the packet type is expressed in frames the button calls the menu for setting the Frame Configuration These submenus are described in chapter 3 5 Event Frame Configuration Blue tooth LE on page 29 The data whitening state is displayed next to the button Remote command n a Test Packet Configuration Access the Test Packet Configuration dialog for packet type TEST PACKET see chapter 3 6 2 Test Packet Configuration Settings on page 44 Event Frame Configuration Bluetooth LE The Event Frame Configuration dialogs are reached via the Bluetooth main dialog The upper area of the dialogs changes as a function of the used channel type For channel type Data the section provides Connection Settings and for channel type Advertising the
50. ATE REO SOUR BB BTO ECON PCON NSL 10 sets the number of consecutive connection events Manual operation See Slave Latency on page 39 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NSValue lt NsValue gt Sets the start value of the next expected packet from the same device in the LL con nection N ext E xpected S equence N umber This parameter can be set in the first event From the second event this field is not indicated Parameters lt NsValue gt integer Range 0 to 1 RST 1 Example SOUR BB BTO ECON PCON NSV 1 Start Value is 1 Manual operation See NESN Start Value on page 37 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NWOFfset lt NwOffset gt for data event and advertising frame configuration with the packet type CONNEC TION_UPDATE_REQ Sets the start point of the transmit window Parameters lt NwOffset gt float Range 0 0 to 5000 0 RST 0 0 Operating Manual 1171 6496 12 10 118 Bluetooth Enhanced Data Rate Remote Control Commands a EE ee ee IE IE eee LE Commands Example SOUR BB BTO UPTY CUR sets packet type CONNECTION UPDATE REO SOUR BB BTO ECON PCON NWOF 800 0 sets the start point of the transmit window Manual operation See Transmit Window Offset on page 42 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NWSize lt NwSize gt for data event and advertising frame configuration with the packet type CONNEC TION_
51. BB BTO TRIG OUTP PATT BO10101 6 sets the pattern Manual operation See Marker Mode on page 59 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PULSe DlVider lt Divider gt The clock frequency is defined by entering a divider The frequency is derived by divid ing the symbol rate by the divider The input box for divider opens when Pulse is selected and the resulting pulse frequency is displayed below it Parameters lt Divider gt float Range 2 to 1024 Increment 1 RST 2 Operating Manual 1171 6496 12 10 85 Bluetooth Enhanced Data Rate Remote Control Commands Clock Settings Example BB BTO TRIG OUTP MODE PULS selects marker mode Pulse BB BTO TRIG OUTP PULS DIV 2 sets a divider for the clock frequency Manual operation See Marker Mode on page 59 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PULSe FREQuency The clock frequency is defined by entering a divider The frequency is derived by divid ing the symbol rate by the divider The input box for divider opens when Pulse is selected and the resulting pulse frequency is displayed below it Return values lt Frequency gt float Example BB BTO TRIG OUTP MODE PULS selects marker mode Pulse BB BTO TRIG OUTP PULS DIV 2 sets a divider for the clock freguency BB BTO TRIG OUTP PULS FREQ displays resulting pulse frequency Usage Query only Manual operation See Marker Mode on page 59 4 5 Clock Setting
52. BTOoth ECONfiguration APINterval lt ApInterval gt Sets the time interval between packets starting points of two consecutive packets in the advertising channel Parameters lt ApInterval gt float Range 1 3 to 1 5 RST 1 3 Example SOUR BB BTO ECON APIN 1 3 sets a time interval of 1 3 Manual operation See Advertising Packet Interval on page 31 SOURce lt hw gt BB BTOoth ECONfiguration _LCMode lt LcMode gt Select the link layer connection mode In order to provide safe transmission of payload data the data in the packet can be encrypted If activated the payload data follows MIC Message authentication Code Parameters lt LcMode gt UENC ENC UENC Payload data is transmitted without encoding ENC The link layer connection runs in encrypted mode RST UENC Example SOUR BB BTO ECON LCM UENC without encoding SOUR BB BTO ECON LCM ENC in encrypted mode Manual operation See LL Connection Mode on page 33 Operating Manual 1171 6496 12 10 109 Bluetooth Enhanced Data Rate Remote Control Commands VERRE EE ee I a IE EE EP EE ee EE Ee LE Commands SOURce lt hw gt BB BTOoth ECONfiguration LTKey lt LtKey gt Indicates the time the controller needs to receive the long term key from the host After this time the controller is ready to enter into the last phase of encryption mode setup Parameters lt LtKey gt integer Example SOUR BB BTO ECON LCM ENC
53. Bluetooth Enhanced Data Rate Digital Standard for R amp S Signal Generators Operating Manual MOER ACA 1171 6496 12 10 T E 2 5 T D D amp f o Q o V j This document describes the following software options e R amp S AMU K60 K260 1403 0353 02 1403 0401 02 e R amp S SMATE K60 1404 8412 02 e R amp S SMBV K60 K260 1415 8477 xx 1415 8483 xx e R amp S SMJ K60 K260 1409 2858 02 1409 2906 02 e R amp S SMU K60 K260 1408 7962 02 1408 8017 02 e R amp S SMW K260 1413 5287 02 e R amp S AFQ K260 1401 5758 02 e R amp S SFU K260 2115 2389 02 2013 Rohde amp Schwarz GmbH amp Co KG Muhldorfstr 15 81671 Munchen Germany Phone 49 89 41 29 0 Fax 49 89 41 29 12 164 E mail info rohde schwarz com Internet www rohde schwarz com Subject to change Data without tolerance limits is not binding R amp S is a registered trademark of Rohde amp Schwarz GmbH amp Co KG The Bluetooth word mark and logos are owned by Bluetooth SIG Inc and any use of such marks by Rohde amp Schwarz is under license Trade names are trademarks of the owners The following abbreviations are used throughout this manual R amp S AMU200A is abbreviated as R amp S AMU R amp S SMATE200A is abbreviated as R amp S SMATE R amp S SMBV100A is abbreviated as R amp S SMBV R amp S SMJ100A is abbreviated as R amp S SMJ R amp S SMU200A is abbreviated as R amp S SMU R amp S SM
54. Filename gt string Example BB BTO SETT STOR bluetooth 1 stores the current Bluetooth settings into file bluetooth 1 Usage Setting only Manual operation See Save Recall on page 16 SOURce lt hw gt BB BTOoth SETTing STORe FAST lt Fast gt Determines whether the instrument performs an absolute or a differential storing of the settings Enable this function to accelerate the saving process by saving only the settings with values different to the default ones Note This function is not affected by the Preset function Parameters lt Fast gt 0 1 OFF ON RST 1 Operating Manual 1171 6496 12 10 67 Bluetooth Enhanced Data Rate Remote Control Commands TT TT EE EE EE EE EE EE General Commands Manual operation See Save Recall on page 16 CSOURceshw BB BTOoth SLENgth lt SLength gt The command sets the sequence length of the Bluetooth signal in number of frames This signal is calculated in advance and output in the arbitrary waveform generator Parameters lt SLength gt float Range 1 to 53687 RST 1 Example BB BTO SLEN 10 sets the sequence length to 10 frames Manual operation See Sequence Length on page 20 SOURce lt hw gt BB BTOoth STATe lt State gt The command activates modulation in accordance with the Bluetooth standard Acti vating this standard deactivates all the other digital standards and digital modulation modes in case of
55. GGER 1 suffix 1 and TRIGGER 2 suffix 2 connector Parameters lt Inhibit gt float Range 0 samples to 1 lt lt 26 1u samples Increment 1 sample RST 0 samples Example BB BTO TRIG SOUR EXT selects an external trigger via the TRIGGER 1 connector BB BTO TRIG EXT INH 200 sets a restart inhibit for 200 samples following a trigger event Manual operation See Trigger Inhibit on page 58 SOURce lt hw gt BB BTOoth TRIGger SEQuence lt Sequence gt The command selects the trigger mode Parameters lt Sequence gt AUTO RETRigger AAUTo ARETrigger SINGle AUTO The modulation signal is generated continuously RETRigger The modulation signal is generated continuously A trigger event internal or external causes a restart AAUTo The modulation signal is generated only when a trigger event occurs After the trigger event the signal is generated continu ously signal generation is stopped with command SOUR BB BTO TRIG ARM EXEC and started again when a trig ger event occurs ARETrigger The modulation signal is generated only when a trigger event occurs The device automatically toggles to RETRIG mode Every subsequent trigger event causes a restart Signal generation is stopped with command SOUR BB BTO TRIG ARM EXEC and started again when a trig ger event occurs SINGle The modulation signal is generated only when a trigger event occurs After the trigger event the signal is gene
56. Increment 1 RST 0 Example BB BTO PCON DSFP ADAT fills the all data under data source for packet BB BTO PCON PLEN 1 sets the packet length Manual operation See Packet Length on page 24 SOURce lt hw gt BB BTOoth PCONfiguration SNSValue lt SnSvalue gt The command sets the start value of the header SEQN bit The SEQN bit is present in the header to filter out retransmissions in the destination The signal generator is alter ing this bit automatically on consecutive frames if a sequence length of at least 2 frames is set Parameters lt SnSvalue gt integer Range 0 to 1 Increment 1 RST 1 Operating Manual 1171 6496 12 10 97 Bluetooth Enhanced Data Rate Remote Control Commands a EE r Packet Configuration Setting Example BB BTO PCON PTYP DHI sets the packet type BB BTO PCON DSFP PED enables packet editor under data source for packet BB BTO PCON SNSV ONE sets the SEON bit of the first CRC data packet at the start of a connection Manual operation See SEQN Start Value on page 23 SOURce lt hw gt BB BTOoth PCONfiguration SRMode lt SrMode gt The command indicates the interval between two consecutive page scan windows determines the behavior of the paging device Parameters lt SrMode gt RO R1 R2 RO The scan interval is equal to the scan window T w page scan continuous nscan and maximal 1 28s R1 The scan interval is maximal 1 28s R2 The scan interval is maxim
57. LE This parameter is also indicated in the Frame Configuration Dialog Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration WOFFset on page 122 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NWOFfset on page 118 Sleep Clock Accuracy Defines the master s clock accuracy with specified encoding This parameter is used by the slave to determine required listening windows in the LL connection It is a con troller design parameter known by the Controller Note This parameter is relevant for advertising frame configuration and the packet type CONNECT_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCACcuracy on page 120 Error Code Sets the error code value to inform the remote device why the connection is about to be terminated in case of LL TERMINATE IND packet On the other hand this param eter for LL REJECT IND packet is used for the reason a reguest was rejected A 8 bit value is set Note This parameter is relevant for data frame configuration and the packet type LL TERMINATE IND and LL REJECT IND Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ECODe on page 114 Company ID Sets the company identifier of the manufacturer of the Bluetooth Controller A 16 bit value is set Note This parameter is relevant for data frame configuration and for the packet type LL_VERSION_IND Remo
58. N DATA DPAT B010101 6 selects the data for a pattern Manual operation See Data Source on page 23 SOURce lt hw gt BB BTOoth PCONfiguration DATA DSELection lt DSelection gt The command selects data list file Parameters lt DSelection gt string Increment 1 Example BB BTO PCON DATA DLIS selects the data type BB BTO PCON DSEL bluetooth 1 selects the file for the data Manual operation See Data List Management on page 17 SOURce lt hw gt BB BTOoth PCONfiguration DATA VDPAttern lt VdPattern gt The command selects the bit pattern for the voice data Parameters lt VdPattern gt integer Increment 1 RST 0 Operating Manual 1171 6496 12 10 93 Bluetooth Enhanced Data Rate Remote Control Commands VERRE ee ee EE EE ee ee Eee eee Packet Configuration Setting Example BB BTO PCON DATA PATT selects the data type BB BTO PCON DATA VDPA B010101 6 selects the bit pattern for the voice data Manual operation See Data Source Voice Field on page 25 SOURceshw BB BTOoth PCONfiguration DATA VDSEIection lt VdSelection gt The command selects the data list for voice data Parameters lt VdSelection gt string Increment 1 Example BB BTO PCON VDAT DLIS selects the data type BB BTO PCON VDSE bluetooth 1 selects the file for the data Manual operation See Data Source Voice Field on page 25 SOURce lt hw gt BB BTOoth PCONfiguration DLENgth lt DLength gt
59. Nfiguration EIRPacketfollows lt EirPacketFollow gt The command indicates that an extended inquiry response packet may follow Parameters lt EirPacketFollow gt YES NO YES Indicates that EIR packet follows NO Indicates that EIR packet does not follow RST NO Example BB BTO PCON PTYP FHS sets the packet type BB BTO PCON DSFP PED enable packet editor under data source for packet BB BTO PCON EIRP YES the EIR packet follows Manual operation See EIR packet follows on page 24 Operating Manual 1171 6496 12 10 95 Bluetooth Enhanced Data Rate Remote Control Commands VERRE EE ee ee EE EE ee ee r EE ee Packet Configuration Setting CSOURceshw BB BTOoth PCONfiguration HFControl lt HfControl gt The command sets the FLOW bit in the header This bit indicates start or stop of trans mission of packets over the ACL logical transport Parameters lt HfControl gt GO STOP GO Allows the other devices to transmit new data STOP Stops the other devices from transmitting data temporarily RST GO Example BB BTO PCON PTYP DHI sets the packet type BB BTO PCON DSFP PED enable packet editor under data source for packet BB BTO PCON HFC GO allows the other devices to transmit new data Manual operation See Flow Control Header on page 22 SOURce lt hw gt BB BTOoth PCONfiguration LTADdress lt LtAddress gt The command enters the logical transport address for the header Each sla
60. O ACL FHS 18 2 3 Yes Page master response inquiry response in roll switch Table 2 7 Common link control packets packet structure Packet Type ID Packet Types NULL and PULL Packet Types FHS Operating Manual 1171 6496 12 10 10 Bluetooth Enhanced Data Rate Introduction TTT ee ee er ne a ee aa 2 3 2 3 1 2 3 2 Packet Structure and Fields Packet Structure and Fields Allmost all Bluetooth transmitted packets have standard format and consist of the access code the header and the payload with useful information The exceptions are the ID packet which consists of the access code only and NULL and POLL packets which carry only the access code and the header Access code The access code is used for synchronisation DC offset compensation and identifica tion The fields of the access code are shown in the figure below and their meaning is explained in the table below Table 2 8 The access code fields Field Description Packets Preamble A fixed zero one pattern of 4 symbols used to facili All packets tate DC compensation Sync Word A 64 bit code word derived from a 24 bit address All packets improves timing acquisition Trailer A fixed zero one pattern of four symbols extended All packets except ID DC compensation Header The Header contains link control information The fields of the header are shown in the figure and their
61. O DTT TABL SHOR SET2 STAT ON activates the set 2 in the short table Manual operation See State on page 47 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt ch gt STERror lt StError gt The command enters a symbol timing error in ppm The Symbol Timing Error modifies the symbol clock frequency by the set amount Parameters lt StError gt float Range 150 ppm to 150 ppm Increment 1 ppm Operating Manual 1171 6496 12 10 103 4 9 LE Commands Example BB BTO PTYP DHI sets the packet type BB BTO DTT TABL SHOR enters the table type BB BTO DTT TABL SHOR SET2 STER 20 enters a symbol timing error Manual operation See Symbol Timing Error on page 48 LE Commands SOURCe lt hw gt BB BTO BOROS iie aasian Se GE SE GR Fee ER Ee da 105 FSOURcCe lt hw gt BB BTO0th BMODeE 11 21212 212221 ee AA AA BA RA ee ee ee ee 106 SOURce lt hw gt BB BTOoth DTTest TPConfiguration TPINterval aaaaaaaaaaaa a aaaasananann 106 SOURce lt hw gt BB BTOoth DTTest TPConfiguration UPLength eseeeeeeeeeeeeeeeeeees 106 SOURce lt hw gt BB BTOoth DTTest TPConfiguration UPSOUICE ececeeeeeeeeeeeeeeeeeeeeeeeed 106 SOURce lt hw gt BB BTOoth ECONfiguration ACTable 2 aaaxaxavaanannnnandannnnnandannnnnannnna 107 SOURce lt hw gt BB BTOoth ECONfiguration DCTable auaaaaanauasasaaasnnnnnnnnsunnnunnnns 107 SOURce lt hw gt BB BTOoth ECONfiguratio
62. OURce lt hw gt BB BTOoth ECONfiguration PCONfiguration TATYpe aaaaaaaaasaaas aassaaassaaaasanansaaanaaa 119 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration UTYPe a aaaaaaaaassaas aaassaaassaansaanaanaaa 121 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration VNUMBber aiaaaaaiaaaaaaasaaasssaaanaaanaanana 121 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration WOFF set 2 aaaaaiaaaisaas aassaaaassaaanaaa 122 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration WS1Ze aaaaaiaaaaaaaaaaaaassanassaannaaanasaaani 122 SOURce lt hw gt BB BTOoth ECONfiguration PNUMber a aaiaaiasaaiasaasasaasansanansanansansassasanaasansanaananaaaaa 122 SOURce lt hw gt BB BTOoth ECONfiguration SINTerval 1123 SOURce lt hw gt BB BTOoth ECONfiguration SVWINdoWw a iaiaaiaaaaiaaaaaassasassasansansanansanansanaasansasansanaanaai 123 SOURce lt hw gt BB BTOoth ECONfiguration WOINfo a iaiaaiaiaaiasansasaasasaasaasanansanannannasnasanaasansanaananaanaa 123 SOURce lt hw gt BB BTOoth ECONfiguration WSINfo iaiaaiaiiaiasanianasnassasansasnnsansanansanaanansnnaasansananaana 124 CSOURceshw BB BTOoth FILTerILENGH ee ee ee sk ee ee Ge Ee sla Vl K V k a Saa sa Valka ee krana 71 SOURce lt hw gt BB BTOoth FILTer ILENgth AUTOL STATe iaiaaiaiaaiaaaaaaaaasasaasanaasaasanaasansanaasansnsansananaana 72
63. PARameter GAUSs on page 74 SOURCe lt hw gt BB BTOoth FILTer PARameter PGAuss on page 75 SOURCe lt hw gt BB BTOoth FILTer PARameter RCOSine on page 75 SOURCe lt hw gt BB BTOoth FILTer PARameter SPHase on page 75 Cut Off Freguency Factor available for filter parameter Lowpass only Sets the value for the cut off frequency factor The cut off frequency of the filter can be adjusted to reach spectrum mask requirements Remote command SOURCe lt hw gt BB BTOoth FILTer PARameter LPASs on page 74 Impulse Length For WinlQSIM2 only Displays the number of filter tabs If the check box is activated the most sensible parameter values are selected The value depends on the coherence check If the check box is deactivated the values can be changed manually Remote command SOURce lt hw gt BB BTOoth FILTer ILENgth AUTO STATe on page 72 SOURce lt hw gt BB BTOoth FILTer ILENgth on page 71 Oversampling For WinlQSIM2 only Determines the upsampling factor If the check box is activated the most sensible parameter values are selected The value depends on the coherence check If the check box is deactivated the values can be changed manually Remote command SOURce lt hw gt BB BTOoth FILTer OSAMpling AUTO STATe on page 72 SOURce lt hw gt BB BTOoth FILTer OSAMpling on page 72 3 8 2 Modulation Settings Pro
64. SOURce lt hw gt BB BTOoth CLOCKk MULTiplier a aaiaaaaaaiaaaaassannannaanaannaannannnnnnnnnnunnnnnannannannnannnannansnaunnanaa 87 SOURce lt hw gt BB BTOOoth CLOCK SOURcCe iaaiaaaiiaiiaiaaaniasansassasanansanaanansanannnnnannnsannnsnnnannnnannanansanansania 87 SOURce lt hw gt BB BTOoth CLOCk SYNChronization EXECute iaiiiiaiaaiaaiaiasiaaansasaasanaasansanaasansasansanaa 88 SOURce lt hw gt BB BTOoth CLOCk SYNChronization MODE a iaiiaaaaiaaaaasaaasaassansaasaannannaanaannaannannaanaannaa 88 ESOUR e hwWEBBBTOGSIMCTYPS N veneers de en De ed ve ek des SEED GEK ee BEE ee De Dade se eg SE eed gek ka a 65 SOURceshw BB BTOoth DTTestDTTState eie ee Re Re AR ee Re ee Re ee Re ee ee ee ee Re ee 99 CSOURceshw BB BTOoth DTTestFDDeviatiON ee ee ke ee ee ee ge ee 99 SOURce lt hw gt BB BTOoth DTTest FDRate aaiaiaaaaaiaaaaaasanaasansanansansnsannanannanannnnnannnnannnnnnsnnnnsanannani 100 SOURce lt hw gt BB BTOoth DTTest SPHase a aaaaiaaaanaasasaasassasansasannanannansanansnnnnnnnnannnnsanannannanannananna 100 SOURce lt hw gt BB BTOoth DTTest STDefault a iaaaaaaaaaaasaasnaasnannaasaannannnnnnannnnnnannnnnaannnnnnannannnansanna 100 SOURce lt hw gt BB BTOoth DTTest TABLe aaiaiaaiaaaasaasasansasanaasaasannanannnnansnnsasnunanansanannansanannansannnnsananna 100 SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt CFOFfset
65. SValue aaaaasaaasaaasaaaasssaassaaanaaaanaaa 118 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NWOFfset 118 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NWSiIze aaaaiaaaaaaasaaaaassanassaaaaaaanasaaani 119 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration RATYpe aaaaiaaaaaaaasaas aaaasaaassaaanaaaaaanaaa 119 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration RVECtor a aiiaaiiaaianiaassansannaannannaannani 119 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCACcuracy iiaaaiaaaasaaaas aassaasssaasaasaaa 120 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCASsigned iaaaiaaaasaasassaassaaassaasnnaa 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCID aaiaiiaiaaiaiaaiasassassasassasansasaasansanaa 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SlVector a aaaaaiaaasaaasnaaasssnasnaaannaaana 116 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SLAT ency iaaaaaaaasaaas aaass aassaaanaaaaaasaaa 120 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SSKD d k SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SSValue 2aasaaaaaaaaaaassaaassaaaaaaanasaaani 120 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SVNuUmber aaaiaaaasaaaa aaassaaasnanannaaanaanaaa 121 S
66. See CRC Initial on page 42 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA Data Selects the data source used for the payload Operating Manual 1171 6496 12 10 112 Bluetooth Enhanced Data Rate Remote Control Commands ss a EE EE EE SE EE Se LE Commands Parameters lt Data gt ALLO ALL1 PATTern PNO9 PN11 PN15 PN16 PN20 PN21 PN23 DLISt All 0 All 1 0 data and 1 data is generated internally Pattern Pattern is user definable PN xx Pseudo random noise sequence XX can be equal to 9 11 15 16 20 21 23 Data List Internal data from a programmable data list is used The data list can be generated by the Data List Editor or generated exter nally RST PNO9 Example SOUR BB BTO ECON PCON DATA ALLO ALLI SOUR BB BTO ECON PCON DATA PATT SOUR BB BTO ECON PCON DATA DPAT H3F 8 SOUR BB BTO ECON PCON DATA PNO9 SOUR BB BTO ECON PCON DATA DLIS SOUR BB BTO ECON PCON DATA DSEL bluetooth le Manual operation See Data Source on page 38 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA DPATtern lt DPattern gt The command selects the data for a pattern Parameters lt DPattern gt integer RST 0 Example BB BTO ECON PCON DATA PATT sets the data type BB BTO ECON PCON DATA DPAT B010101 6 selects the data for a pattern Manual operation See Data Source on page 38 SOURce lt hw gt BB BTOoth ECONfiguration PCONf
67. Ssigned 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ICID aanaaaaaaaaaaaaaananananananani 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CID aaaaaaaaaanananannnnnnnanannnnna 111 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINStant aa annan annan n 111 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINTerval a naan annan se ee 112 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CIValue aaaaaavavan nanannnana 112 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA sesse ee ee se se se ee ee 112 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA DPATtern 113 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DATA DSELection 113 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DLENgth a aaaanananannaa 114 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DWhHitening 114 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ECODe aaa aaa nana ee ee see se 114 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration EDlVersifier 115 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration FSLength aaaaavaaananenani 115 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration HLENgth aaaaaaaaaaaaa 115
68. TO PRAM FOFF 8 0 sets the offset in the falling edge of the envelope to 8 0 symbols Manual operation See Fall Offset on page 53 SOURce lt hw gt BB BTOoth PRAMping RFUNction lt RFunction gt The command selects the form of the transmitted power i e the shape of the rising and falling edges during power ramp control Parameters lt RFunction gt LINear COSine RST COSine Example BB BTO PRAM RFUN LIN sets linear shape for the rising and falling edges during power ramp control Manual operation See Ramp Function on page 52 SOURce lt hw gt BB BTOoth PRAMping ROFFset lt ROffset gt The command sets the offset in the rising edge of the envelope at the start of a burst A positive value moves the ramp into beginning of a transmitted packet and a negative value introduce an additional guard period after the end of the packet Operating Manual 1171 6496 12 10 89 4 7 Packet Configuration Setting Parameters lt ROffset gt integer Range 32 symbols to 32 symbols Increment 1 symbol RST 0 symbols Example BB BTO PRAM ROFF 8 0 sets the offset in the rising edge of the envelope to 8 0 symbols Manual operation See Rise Offset on page 53 CSOURceshw BB BTOoth PRAMping RTIMe lt RTime gt The command sets the power ramping rise time and fall time for a burst Parameters lt RTime gt integer Range 1 symbol to 32 symbols Increment 1 sym
69. TOoth FILTer PARameter SPHase a iaaiaaaaaaaaaiaanaassasnaassasnaasannnaasnannaanannannnaana 75 CSOURceshw BB BTOoth FILTerTYPE esse ee se ee se ee ee ee Ge Ge ke ee ee laa H Ea Va skl akan akan 71 CSOURceshw BB BTOoth MSETtings FDEVIatON ees ese ee ee ee ee ee ee Re ee Re ee Re ee Re ee ee ee ee 73 CSOURceshw BB BTOoth PCONfIguration ACKNowledgement ee ee ee ee 91 CSOURceshw BB BTOoth PCONIguration BDALaP ee ee ee ee RR ee Re ee ke ee ee ee ee ee ee ee 91 SOURce lt hw gt BB BTOoth PCONfiguration BDANap SOURce lt hw gt BB BTOoth PCONfiguration BDAUap SOURce lt hw gt BB BTOoth PCONfiguration CODevice a2anaaaaaaaaassaaa saaanaaansnnnannnnnnannnnannannannnsnanannna 92 SOURce lt hw gt BB BTOoth PCONfiguration DATA aaiaaiaaiaiasaasasaasassasassasaasassasansanaasanaanansanaanaasansansanaanani 92 SOURce lt hw gt BB BTOoth PCONfiguration DATA DPATtern aaiaaaaaaaasaasaaasaasaannannaannannnannannaannannaanani 93 SOURce lt hw gt BB BTOoth PCONfiguration DATA DSELection a aaiaiasiasansasaasasaasansassnsassasansansanani 93 SOURce lt hw gt BB BTOoth PCONfiguration DATA VDPAttern a aaiaaiaiasiasansasaasanaasansasannassasansanaanani 93 SOURce lt hw gt BB BTOoth PCONfiguration DATA VDSElection a aaaiaaaaassasnaasaasnanannnnannannnannannnannannn 94 SOURce lt hw gt BB BTOoth PCONfiguration DLENgth
70. UPDATE_REQ Sets the size of the transmit window regarding to the start point Parameters lt NwSize gt float Range 1 25 to 10 0 RST 1 25 Example SOUR BB BTO UPTY CUR sets packet type CONNECTION UPDATE REO SOUR BB BTO ECON PCON NWS 8 0 sets the size of the transmit window Manual operation See Transmit Window Size on page 42 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration TATYpe lt TaType gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration RATYpe lt RaType gt Selects the address type of the controller device Depending on the Bluetooth control ler role either Tx or Rx or both address types are assigned Subdivided into private and random a Bluetooth LE device address consits of 48 bits The format of the device address differs depending on the selected address type Parameters lt RaType gt PUBLic RANDom PUBlic Allocates a unique 48 bit address to each bluetooth LE device The public address is given from the registration authority IEEE RANDom Allocates a 48 bit address to each bluetooth LE device A ran dom address is optional RST PUBLic Example SOUR BB BTO ECON PCON TATY PUBL SOUR BB BTO ECON PCON RATY RAND SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration RVECtor lt RVector gt Sets the random vector of the master for device identification The parameter is an initi alization vector provided by the Host in the HCl_ULP_Start_Encryption c
71. W200A is abbreviated as R amp S SMW R amp S WinIQSIM2 is abbreviated as R amp S WinlQSIM2 Bluetooth Enhanced Data Rate Contents 1 1 1 2 2 1 2 2 2 2 1 2 2 2 2 2 3 2 3 2 3 1 2 3 2 2 3 3 2 4 3 1 3 2 3 3 3 4 3 5 3 5 1 3 5 2 3 5 3 3 6 3 6 1 3 6 2 3 7 3 8 3 8 1 3 8 2 3 8 3 Contents PCE AG AE EE EE EE EE N EEEE E NS 5 Documentation OVerVi W sees ee Re RR KEER EA RR RE BEREA AR RE ERG RAK RR EER ER RR RE E Re ER RR RR E Ee GR KAR RE Ee ee ee 5 Typographical Conventions aaaa2aaaaaaaaasaanannnnnnannnnannnnnnnnunnnnnnnannnnnnannnnnnannnananan Ke aa 6 ir odUELID ss es ie Ee Ee ee ee EG GEE EER EE ee reece EE EE 7 Bluetooth Transport ModeS iese Ra Rea Ee RE RA RR RE RARR Re Re Ge Ee AR RR EER RR RE ERA Re Ge sana a aa ak 7 Bluetooth Packet ME ORE EE EE OE OE RE OE EE N 8 ea ARE OE OE EE RE cate 8 SCO and ESCO packets oninia a Ge Ge ee de aaa ee ee ea ee L 9 Link control packets for ACL SCO eSCO transport modes ee ee ee ee ee 10 Packet Structure and Fields 22222aaaaaann nnannnnnnunnannnnnnnnnnunnnnnnunnnnnnnnnnnnnannnnanana 11 ACCESS COUE RE EE RE OE EE AR RE EE OE EN EE at 11 Headers ee ek Re ee ee Ee ee Ee ee sege DOE se De ei 11 Payloadiformat si ee ces De se DOE ee EE ee ee de ese se Ee Es Ge ee ERG se Oe ve Ge line 12 Bluetooth Modulation Schemes 22aaaaaaanvns nann nnannn nnnannnnnnnnnnnnnnnnnnnnnnnnnnnannana 13 User il LL 6 a ee ene eee Ee Ee
72. a DV 1 Data only 10 0 9 2 3 Data only Yes 16 bit Data only Fig 2 3 Packet Structure SCO packets Fig 2 4 Packet Structure SCO packets data only Table 2 4 eSCO packets Basic Rate Type Payload User Payload FEC CRC Slot Num ber Header bytes bytes EV3 1 30 no 1 EV4 n a 1 120 2 3 Yes 16 bit 3 EV5 1 180 no Data only 3 Se NE Operating Manual 1171 6496 12 10 9 Bluetooth Enhanced Data Rate Introduction Bluetooth Packet Types Fig 2 5 Packet Structure eSCO packets Basic Rate Table 2 5 eSCO packets Basic Rate Type Payload User Payload FEC CRC Slot Num ber Header bytes bytes 2 EV3 1 60 1 2 EV5 n a 1 360 no Yes 3 3 EV3 1 90 16 bit 1 3 EV5 1 540 3 Sync Trailer Fig 2 6 Packet Structure eSCO packets Enhanced Rate 2 2 3 Link control packets for ACL SCO eSCO transport modes There are some common kinds of packet types An overview of these packet types is given in the table below Table 2 6 Common link control packets Transport modes Type Payload FEC CRC Application Header bytes SCO eSCO ACL ID Paging inquiry response SCO eSCO ACL NULL n a n a n a Carries Link information to the source e g about successfully received signal ARON or the state of the receiving buffer FLOW SCO eSCO ACL POLL Similar to NULL packet used by master to poll the slaves must be confirmed SC
73. a Rate Remote Control Commands Example Manual operation Clock Settings BB BTO CLOC SOUR EXT selects the external clock source The clock is supplied via the CLOCK connector BB BTO CLOC MODE MSAM selects clock type Multiple Sample i e the supplied clock has a rate which is a multiple of the sample rate BB BTO CLOC MULT 12 the multiplier for the external clock rate is 12 See Clock Source on page 61 SOURce lt hw gt BB BTOoth CLOCk SYNChronization EXECute Performs automatically adjustment of the instrument s settings required for the syn chronization mode set with the command BB BTO CLOC SYNC MODE Example Usage Manual operation BB BTO CLOC SYNC MODE MAST the instrument is configured to work as a master one BB BTO CLOC SYNC EXEC all synchronizations settings are adjusted accordingly Event See Set Synchronization Settings on page 61 SOURce lt hw gt BB BTOoth CLOCk SYNChronization MODE lt Mode gt Selects the synchronization mode This parameter is used to enable generation of very precise synchronous signal of sev eral connected R amp S SMBVs Note If several instruments are connected the connecting cables from the master instrument to the slave one and between each two consecutive slave instruments must have the same length and type Avoid unnecessary cable length and branching points Parameters lt Mode gt Example
74. aasansanassasansasnnsansanansanannnnsnnannansnsannanaanani 89 SOURce lt hw gt BB BTOoth PRAMPping ROFF set a iaiaaiaiaaiasaasansasassasansasaasansanansanaannansanansansnsansanaanana 89 SOURce lt hw gt BB BTOoth PRAMPping RTIMe iaiaiiaiaaiaaaaiasassassasasaasansanaasansanansanansansanansanansansanansanaandanaa 90 ESOURcehWBB BTOGIPRESE 01 si an GES KERE SEN GEE RE SE DEE Vi algan l ERK ESE kara a g ag vasa l kad alana Hd EK 65 SOURCeSNW gt BB BTO0IN PTYPB1 aids Dee eN SR N ee De Av aati eed ve See GED i Gee casei edie 66 CSOURceshw BB BTOoth SETTing CATal0g iese ee ee ee ee ee ee ee ee ke ee ee ee ee be ge ee ee 66 SOURce lt hw gt BB BTOoth SETTing DELete SOURce lt hw gt BB BTOO0oth SETTINg LOAD aiiaiaaiaiaaaaaaaaasasaasanaasannanaanannnnnnnannnsnnnnnnnnanannnnnnnnnnnnnnsnnsanannana SOURce lt hw gt BB BTOoth SETTing STORe z SOURce lt hw gt BB BTO0oth SETTIng STOReE FAST iaaaiaaaaaaaaaaaaaasanaasansanannannnnnnnannannnnsannnnannnnnnnnnnnnnnnanid 67 ESOURGehw BB BTOGSISLENGSK iese Pie ee ed ER Ke Dad Sk Sesde skaka dvetkjsdv dis tavsladvelivda ikdssb llssv ibunvad 68 SOURceshw BB BTOoth SRATe VARIaHON ee ee RA Re ee GR Re Re ee GR ee ke ee Ge ee ke ee 76 SQURC6SNW gt BB BTO0IN STAT AR EE OR RE RE 68 SOURceshw gt BB BTOoth TMOD6 sss es sir tipene n Ed EE ges WEEK oe dee ED Ge Re ke eed EE gees ae 68 SOURce lt hw gt BB BTOoth TRIGger ARM EXECute ue
75. able below Table 3 3 Dirty transmitter parameters according to the Bluetooth test specification Basic Rate Set Carrier Frequency Offset Symbol Timing Error Modulation Index 1 75 20 0 28 2 14 20 0 30 3 2 20 0 29 4 1 20 0 32 5 39 20 0 33 6 0 20 0 34 8 74 20 0 31 9 19 20 0 28 10 75 20 0 35 Dirty transmitter parameters according to the Bluetooth test specification EDR are given in the table below Operating Manual 1171 6496 12 10 45 Bluetooth Enhanced Data Rate User Interface Dirty Transmitter Test Table 3 4 Dirty transmitter parameters according to the Bluetooth test specification EDR Set Carrier Frequency Offset Symbol Timing Error 1 0 0 2 65 20 3 65 20 Bluetooth A Dirty Transmitter Test Set To Default Test Packet Configuration Dirty Transmitter Test Frequency Drift Rate 0 625 kHz Start Phase o degrees Frequency Drift Deviation so kHz x Dirty Transmitter Setting Carrier Frequency Offset kHz Symbol Timing Error ppm Modulation Index A 50 50 2 50 s0 Set 5 50 Set 6 50 50 50 50 5o Provided are the following settings Set to Default Calls the default settings for the Dirty Transmitter Test Remote command SOURCe lt hw gt BB BTOoth DTTest STDefault on page 100 Test Packet Configuration Opens the di
76. acket Configuration Bluetooth LE Initialization Vector hex Sets the master s or the slave s portion of the initialization vector IVm IVs Note This parameter is relevant for data event configuration with the packet types LLENC_REQ Master and LL_ENC_RSP Slave Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration MIVector on page 116 Feature Set Length Enables that the feature set length is indicated FeatureSet indicates whether the Controller features are used or not All the data in FeatureSet is RFU zero Note This parameter is relevant for data event configuration with the packet types FEATURE_REQ Master and FEATURE_RSP Slave Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration FSLength on page 115 Unknown Type hex Enables that an invalid control packet is indicated The CtrType field indicates the value of the LL control packet that caused the transmis sion of this packet This parameter is relevant for data event configuration with the packet type UNKNOWN_RSP Slave Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration UTYPe on page 121 Controller s Device Addr Sets the advertiser s device address In Bluetooth LE systems all the transmissions start with an 8 bit preamble followed by an access address The access address is composed of a the parts Company ld LSB and the Company_assigne
77. ad data the data in the packet can be encrypted If activated the payload data follows MIC Message authentication Code Note This parameter is relevant for data event connection settings The following table shows which types of packets can be encrypted and or unencryp ted Packet Type encrypted unencrypted DATA X CONNECTION_UPDATE_REQ CHANNEL_MAP_REQ x X X LL_TERMINATE_IND LL_ENC_REQ LL_ENC_RSP z x X X X X gt X X LL_START_ENC_REQ LL_START_ENC_RSP x LL_FEATURE_REQ x LL_FEATURE_RSP x LL_PAUSE_ENC_REQ LL_PAUSE_ENC_RSP LL_VERSION_IND LL_REJECT_IND x AE AE AE AE X XxX X X X xX UNKNOWN RSP Operating Manual 1171 6496 12 10 33 Bluetooth Enhanced Data Rate User Interface Event Frame Configuration Bluetooth LE Unencrypted Payload data is transmitted without encoding Header Payload Encrypted The link layer connection runs in encrypted mode Header Payload Remote command SOURce lt hw gt BB BTOoth ECONfiguration LCMode on page 109 Long Term key hex Indicates the time the controller needs to receive the long term key from the host After this time the controller is ready to enter into the last phase of encryption mode setup Note This parameter is relevant for data event connection settings In encrypted mode the code can be edited Remote com
78. address part Manual operation See Bluetooth Device Address BD_ADDR on page 22 SOURce lt hw gt BB BTOoth PCONfiguration C ODevice lt CoDevice gt A parameter received during the device discovery procedure indicates the type of device and which types of service that are supported Parameters lt CoDevice gt integer Range HOOOOOO to HFFFFFF Example BB BTO PTYP FHS sets the packet type BB BTO PCON DSFP PED enable packet editor under data source for packet BB BTO PCON COD 020104 sets the class of device Manual operation See Class of Device on page 25 SOURce lt hw gt BB BTOoth PCONfiguration DATA lt Data gt Selects the data source used for the payload Parameters lt Data gt ALLO ALL1 PATTern PNO9 PN11 PN15 PN16 PN20 PN21 PN23 DLISt RST PNO9 Operating Manual 1171 6496 12 10 92 Bluetooth Enhanced Data Rate Remote Control Commands VERRE EE ee ee EE Ee ee rrr Packet Configuration Setting Example BB BTO PTYP FHS sets the packet type BB BTO PCON DSFP PED enable packet editor under data source for packet BB BTO PCON DATA ALL1 sets the data type Manual operation See Data List Management on page 17 SOURce lt hw gt BB BTOoth PCONfiguration DATA DPATtern lt DPattern gt The command selects the data for a pattern Parameters lt DPattern gt integer Increment 1 RST 0 Example BB BTO PCON DATA PATT sets the data type BB BTO PCO
79. al 2 56s RST RO Example BB BTO PCON PTYP FHS sets the packet type BB BTO PCON DSFP PED enables packet editor under data source for packet BB BTO PCON SRM RO sets the scan repetition mode Manual operation See Scan Repetition Mode on page 24 SOURce lt hw gt BB BTOoth PCONfiguration VDATa lt VData gt The command selects the data source for the voice field Parameters lt VData gt ALLO ALL1 PATTern PNO9 PN11 PN15 PN16 PN20 PN21 PN23 DLISt RST PNO9 Example BB BTO PCON VDAT ALLI sets the voice data type Manual operation See Data Source Voice Field on page 25 Operating Manual 1171 6496 12 10 98 Bluetooth Enhanced Data Rate Remote Control Commands Dirty Transmitter Test 4 8 Dirty Transmitter Test ESOURceshws BBEBTIOoIKDTTEstDIT State EEN ENS ER GN se ENE ede SE NR ERG AA DE Ed 99 ESOURceshw BBBTOoth DTTestFDDeviatioN i ESE SN KERE SA AE RE AE Ge KERKE GEE RAN EE 99 SOURceshw BB BTOoth DTTestFDRate iss ss ss ee ee ee ee ee AA RA ER Ee ee 100 SOURceshw BEBIOGIBTTESESPHaSG ie Ed a ENE RD de ee Ke EN ed Re Re Ne ee 100 SOURceshw BB BTOoth DTTestSTDefaul esse ee ek se Ee Ge EE Ee ee ee aia 100 SOURceshw BB BTOoth DTTestTABLE es se se ss EA AA AA RA AR aaa 100 SOURceshw BB BTOoth DTTestTABLe LONG SETScChA CFOFfSe ees se se ss se se ee ee 101 SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt MINDexX iese se se se se se s
80. al Generator has already been set up for remote operation in a network as described in the R amp S Signal Generator documentation A knowledge about the remote control operation and the SCPI command syntax are assumed For a description of the conventions used in the remote command descriptions see section Remote Control Commands in the R amp S Signal Generator operating manual D Conventions used in SCPI command descriptions The commands in the SOURce BB BTOoth subsystem are described in three sec tions separated into general remote commands commands for Packet Configuration settings and commands for Dirty Transmitter Test settings This subsystem contains commands for the primary and general settings of the Blue tooth standard These settings concern activation and deactivation of the standard set ting filter clock trigger and clipping settings defining the symbol rate variation and the sequence length as well as the preset and power adjust setting Common Suffixes The following common suffixes are used in remote commands Suffix Value range Description SOURce lt hw gt 12 available baseband signals OUTPut lt ch gt 1 4 available markers R amp S SMBV supports two markers EXTernal lt ch gt 1 2 external trigger connectors Placeholder lt root gt For commands that read out or save files in the default directory the default directory is set using command MMEM CDIRectory The examples i
81. al is clipped lt is specified as a percentage relative to the highest level 100 indicates that clipping does not take place Parameters lt Level gt float Range 1 PCT to 100 PCT Increment 1 PCT RST 100 PCT Example BB BTO CLIP LEV 80 sets the limit for level clipping to 80 of the maximum level BB BTO CLIP STAT ON activates level clipping Manual operation See Clipping Level on page 51 SOURce lt hw gt BB BTOoth CLIPping MODE lt Mode gt The command sets the method for level clipping Clipping Operating Manual 1171 6496 12 10 70 Bluetooth Enhanced Data Rate Remote Control Commands lt EE ee ee Q EE r rr ee ge Filter Clipping Settings Parameters lt Mode gt VECTor SCALar VECTor The reference level is the amplitude i jq SCALar The reference level is the absolute maximum of the and Q val ues RST VECTor Example BB BTO CLIP MODE VECT sets the amplitude as reference level Manual operation See Clipping Mode on page 52 SOURce lt hw gt BB BTOoth CLIPping STATe lt State gt The command activates level clipping Clipping The value is defined with the com mand BB BTO CLIPping LEVel the mode of calculation with the command BB BTO CLIPping MODE Parameters lt State gt 0 1 OFF ON RST OFF Example BB BTO CLIP STAT ON activates level clipping Manual operation See
82. all instrument functions are described in detail Furthermore it provides an introduction to remote control and a complete description of the remote control commands with pro gramming examples Information on maintenance instrument interfaces and error messages is also given In the individual option manuals the specific instrument functions of the option are described in detail For additional information on default settings and parameters refer to the data sheets Basic information on operating the R amp S Signal Generator is not included in the option manuals Operating Manual 1171 6496 12 10 5 Bluetooth Enhanced Data Rate Preface 1 2 Typographical Conventions Service Manual The Service Manual is available in PDF format in printable form on the Documenta tion CD ROM delivered with the instrument It describes how to check compliance with rated specifications on instrument function repair troubleshooting and fault elimina tion It contains all information required for repairing the instrument by the replacement of modules This manual can also be orderd in printed form see ordering information in the data sheet Release Notes The release notes describe new and modified functions eliminated problems and last minute changes to the documentation The corresponding firmware version is indicated on the title page of the release notes The current release notes are provided in the Internet Web Helps Web he
83. ally Manual operation See Impulse Length on page 50 SOURce lt hw gt BB BTOoth FiLTer OSAMpling lt OSampling gt The command sets the upsampling factor Parameters lt OSampling gt integer Range 1 to 32 RST 10 Example BB BTO FILT OSAM 10 sets the upsampling factor to 10 Manual operation See Oversampling on page 50 SOURce lt hw gt BB BTOoth FiLTer OSAMpling AUTO STATe lt State gt The command activates deactivates the upsampling factor state If activated the most sensible parameter values are selected The value depends on the coherence check If deactivated the values can be changed manually Parameters lt State gt 0 1 OFF ON RST ON Example BB BTO FILT OSAM AUTO ON the most sensible parameters are selected automatically Manual operation See Oversampling on page 50 Operating Manual 1171 6496 12 10 72 Bluetooth Enhanced Data Rate Remote Control Commands a I EE ee T r Filter Clipping Settings SOURce lt hw gt BB BTOoth FILTer MINDex lt MIndex gt Queries the modulation index resulting from the entered frequency deviation value Parameters lt MIndex gt string Example BB BTO FILT MIND Queries the modulation index Response 0 5 Manual operation See Modulation index on page 51 SOURce lt hw gt BB BTOoth FiLTer MTYPe lt MType gt Queries the modulation type used for the current packet selection Parameters lt MType gt string Exampl
84. alog for setting a test packet configuration see chapter 3 6 2 Test Packet Configuration Settings on page 44 Dirty Transmitter Test Available only for packet types DH1 DH3 DH5 2 DH1 2 DH3 2 DH5 3 DH1 3 DH3 3 DH5 2 EV3 2 EV5 3 EV3 3 EV5 Activates or deactivates the Dirty Transmitter Test For Basic Rate packets each set of parameters in the Dirty Transmitter Setting table below is used for a duration of 20 ms After 20 ms the following set is used continuing with the first set after the sequence is completed Operating Manual 1171 6496 12 10 46 Bluetooth Enhanced Data Rate User Interface 333355 r ee Dirty Transmitter Test For EDR packets the parameter sets apply for 20 packets each Remote command SOURCe lt hw gt BB BTOoth DTTest DTTState On page 99 Start Phase Enters a start phase The start phase of the sine wave used to drift the modulated Bluetooth signal around center frequency carrier frequency offset is set here Remote command SOURCe lt hw gt BB BTOoth DTTest SPHase on page 100 Frequency Drift Rate Enters a frequency drift rate A sine wave is used to drift the modulated Bluetooth siganal around center frequency carrier frequency offset with the set frequency drift rate Remote command SOURCe lt hw gt BB BTOoth DTTest FDRate On page 100 Frequency Drift Deviation Enters a frequency drift deviat
85. anaasnnannannnannaannan 85 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PULSe FREQuency2 iaaiaaiiaaaaaiaaaaasaassaasaassnasansaanaani 86 SOURce lt hw gt BB BTOoth TRIGger RMODe aaiaaiaaaiaaaaaaaaaaassasnaasaaanaasnaanannnansaannaannannaanaannaaunaansaanannsaanani 78 SOURce lt hw gt BB BTOoth TRIGger SLENgth aiiaaiaaaaaaiaaasasnannaanaannaanaasnaannannaannannnannannnanaannnanaannaanaaiaa 79 ESOURce lt hw gt BB BTOoth TRIGger SLUN t 111 1221221421 0 ee ee ee ke ge ee ke ee ee ee ke wa 79 FSOURceshw BB BTOOt TRIGgerSOURce e iese onse see eke Ge ee ERA De BEA ee PA DR Re Re ee AREA Ge Ak RA Re SEG AE 80 SOURce lt hw gt BB BTOoth TRIGger EXTernal SYNChronize OUT Put cece ee ee ee 77 SOURce lt hw gt BB BTOoth TRIGger EXTernal lt ch gt DELay iaaaaaaaaaaaaasaaasansaannannnannannaannannnnnnnnnnanana SOURce lt hw gt BB BTOoth TRIGger EXTernal lt ch gt J INHibit ae ESOURce lt hw gt BB BTOOhiUPTY Pp iiisis cccccscccssevscinesscesescaceasescnsccesessecscassstevscinesstsouecassecbiesedenseusenssacontevseaes ESOURceshw BB BTOOM USLength iese ees EE ee DE Ke ER Ee KERE Ge BR ee Rd ERG oge ke eed ken ee Gee gee ke ske dbe dee ek eg ese ke ESOURceshw BB BTOOM MVERSIGN sisie see sk dese be see Gee Ke Ee EN SR EE GN Gee ek ES Kana dude ee n bee Ko see sege bede ek gee Rd eek Sak GA CSOURceshw BB BTOoth WAVeform CREate ees ee ee ee ee ee ee ed ee be ge ee rt SOURce
86. asnania 45 Transmit window offset se Transmit window SIZE oo ees ee ee ee ee Transport Mode iese ee ke ee RR ee Re RR ee ee ee Transport Mode ACL EDR Transport Mode eSCO EDR iaaiiaaaaaaaasaaaassaassaaansaa Transport Mode SCO ieke RR ee Trigger Trigger BE RE hlas eea Trigger Delay External aaaiiaaiaaassaassssaassanassaaaaana Trigger Delay Other Baseband Trigger Inhibit iaaaaaaaaaaaas aaasanannaanasnannnnnannnnnninnnnnnnaa Trigger Inhibit External aaanaaaaaiaaassaaassaaassaaaassaaa Trigger Inhibit Other Baseband Tigger MOOS AE EE auttes a kA PANIC EO N N N EE EE Auto Eie EE NE SMUG crate EO a EA EE ER Tigger SOUF sr BEGAAN Ee ee eats U WAPAD Ee 22 Unenerypted us ee RE SEE Eg vi ee we ek ese Ee DRR Ee 33 Unknown Type hex ie ee Re Re RA Re ee 41 User Marker AUX VO Settings a iaiaaaaasiasaassassaasaaai 62 V Mr de RE EE hesu 18 69 Version Number susse see kes BE PR EE ee Rede GEE ee Nee ke Sr De Ki gee 43 W Waveform File is esse see vee Ke DER GR ge ee ede ERGE ERGE NEE Se Ko ed 18 Operating Manual 1171 6496 12 10 133
87. bol RST 1 symbol Example BB BTO PRAM TIME 2 0 sets the power ramping rise time and fall time for a burst to 2 samples Manual operation See Ramp Time on page 53 Packet Configuration Setting SOURce lt hw gt BB BTOoth PCONfiguration ACKNowledgement aaaaaaaasaas aasasvaanssananna 91 SOURce lt hw gt BB BTOoth PCONfiguration BDAL ap aiaaaaaaaaaaasasasaanananannnnanunananananannnnni 91 SOURce lt hw gt BB BTOoth PCONfiguration BDANap aaaxanananaaaa a sasasaananananaanananananananana 91 SOURce lt hw gt BB BTOoth PCONfiguration BDAUap a ananavanasasananunnnnnnnnnnnnnnnnnnnnnan 92 SOURce lt hw gt BB BTOoth PCONfiguration CODevice 22 2aaanasanasunnnnnnnnnnnnnnnnnnnnannnan 92 SOURce lt hw gt BB BTOoth PCONfiguration DATA aaaaaanananan a a nasasunannnnnnnnnnnanunanunananananana 92 5SOURce lt hw gt BB BTOoth PCONfiguration DATA DPATtern aaaaaaaasaaaaasasaaaaanannnnannnnnnnna 93 5SOURce lt hw gt BB BTOoth PCONfiguration DATA DSELection a aaaaaaaaaasaa aaaaasanassannnnaa 93 5SOURce lt hw gt BB BTOoth PCONfiguration DATA VDPAttern aaaaiaaaasaaaaaaaaananaannnnsnnnuna 93 SOURce lt hw gt BB BTOoth PCONfiguration DATA VDSElection aaiiaaaaaaasaassaaaanssannnnanna 94 ESOURceshw BB BTOoth PCONIguration DLENGH ei Ge Ge AR Re ER Ge iiini 94 SOURce lt hw gt BB BTOoth PCONfiguration DSFPacket aaaaaaaaaaaaaaaaasasanananananana
88. c address is given from the registration authority IEEE and is composed of LSB 24 bits company assigned MSB 24 bits company id e Private Address Type A private address is optional and composed of LSB 24 bits hash Operating Manual 1171 6496 12 10 110 Bluetooth Enhanced Data Rate Remote Control Commands as EE EE EE EE EE EE EE r EE EE EE LE Commands MSB 24 bits random Parameters lt Icid gt integer Example SOUR BB BTO ECON PCON ACID H000000 24 SOUR BB BTO ECON PCON ACAS H000000 24 Company Assigned and Company ld in Advertiser s Device Address SOUR BB BTO ECON PCON SCAS H000000 24 SOUR BB BTO ECON PCON SCID H000000 24 Company Assigned and Company ld in Scanners Device Address SOUR BB BTO ECON PCON ICAS H000000 24 SOUR BB BTO ECON PCON ICID H000000 24 Company Assigned and Company ld in Initiators Device Address Manual operation See Controller s Device Addr on page 41 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CID lt Cid gt Sets the company identifier of the manufacturer of the Bluetooth Controller A 16 bit value is set Note This parameter is relevant for data frame configuration and for the packet type LL_VERSION_IND Parameters lt Cid gt integer RST 0 Example SOUR BB BTO ECON PCON CID HOOOO 16 sets the company ID Manual operation See Company ID on page 43 SOURc
89. ce of the signal or a defined number of repetitions of the signal Remote command SOURce lt hw gt BB BTOoth TRIGger SLENgth on page 79 Running Stopped For enabled modulation displays the status of signal generation for all trigger modes e Running The signal is generated a trigger was internally or externally initiated in triggered mode e Stopped The signal is not generated and the instrument waits for a trigger event Remote command SOURce lt hw gt BB BTOoth TRIGger RMODe on page 78 Arm Stops signal generation manually This button appears only with Running signal gen eration in the Armed_Auto and Armed_Retrigger trigger modes Operating Manual 1171 6496 12 10 55 Bluetooth Enhanced Data Rate User Interface Trigger Marker Clock Settings Signal generation can be restarted by a new trigger internally with Execute Trigger or externally Remote command SOURCe lt hw gt BB BTOoth TRIGger ARM EXECute on page 76 Execute Trigger Executes a trigger manually A manual trigger can be executed only if an internal trig ger source and a trigger mode other than Auto have been selected Remote command SOURCe lt hw gt BB BTOOth TRIGger EXECute On page 77 Trigger Source Selects trigger source This setting is effective when a trigger mode other than Auto has been selected e Internal The trigger event is executed by Execute T
90. ckage types specified in events in the data channel and frames in the advertiser channel i e DATA CONNEC TION_UPDATE_REQ CHANNEL_MAP_REQ TERMINATE IND LLENC_REQ LL FEATURE REG LL_PAUSE_ENC_REQ LL_START_ENC_ RSP FEA TURE_REQ and CONNECT REG Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration AADDress on page 110 NESN Start Value Sets the start value of the next expected packet from the same device in the LL con nection NextExpected SequenceNumber This parameter can be set in the first event From the second event this field is not indicated Note This parameter is relevant for data event configuration and all data channel packet types except TEST_PACKET Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NSValue on page 118 SN Start Value Sets the sequence number of the packet This parameter can be set in the first event From the second event this field is not indicated Note This parameter is relevant for data event configuration and all data channel packet types except TEST_PACKET Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SSValue on page 120 Device s Addr Type Selects the address type of the controller device Depending on the Bluetooth control ler role either the Tx ot Rx or both address types are assigned Subdivided into private and random a Bluetooth LE device address consists of 48 bits T
91. compliant signal generation e Support for two channel types the Advertising and Data channel types e Support of all Bluetooth LE packet types e Sequence Length unit can be set to Event or Frame e Convenient packet editor for all supported packet types including optional data whitening e Dirty Transmitter Test compliant to RF test specification with options to change start phase frequency drift rate and frequency drift deviation e Power Ramp Control with configurable ramp time rise and fall offsets e Clipping filter and modulation settings supported In the following description Bluetooth Low Energy is abbreviated as Bluetooth LE Set To Default SavelRecall Data List Management Generate Waveform File Bluetooth Version LE DO9RO2 Bluetooth Mode Bluetooth Low Energy gt Channel Type Advertising s Packet Type avm sl Sequence Length OD 1 Events gt Bluetooth Controller Roll Advertiser Bluetooth LE Channel Type Advertising Channel Type ME Set To Default SavelRecall Data List Management Generate Waveform File Bluetooth Version LE DO9RO2 Bluetooth Mode Bluetooth Low Energy gt Channel Type Data Bluetooth Controller Role Master 0 y Packet Type aa gt Sequence Length 1 Evensz Connected Bluetooth Controller State Connection Event Bluetooth LE Channel Type Data Determines the channel type Adverti
92. d MSB Beside the address fields the notation is given For advertising channel packets the format of the device address differs depending on the selected address type Note This parameter is relevant for advertising event or frame configuration Refer to Tx Rx Addres Type Bluetooth LEDevice s Addr Type for information about the availa ble package types for the respective Controller Roles e Public Address Types The public address is given from the registration authority IEEE and is composed of LSB 24 bits company_assigned MSB 24 bits company id e Private Address Type Operating Manual 1171 6496 12 10 41 Bluetooth Enhanced Data Rate User Interface Bs a Packet Configuration Bluetooth LE A private address is optional and composed of LSB 24 bits hash MSB 24 bits random Remote command Company Assigned and Company ld in Advertiser s Device Address SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ACID on page 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ACASsigned on page 110 Company Assigned and Company ld in Scanner s Device Address SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCASsigned on page 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCID on page 110 Company Assigned and Company ld in Initiator s Device Address SOURce lt hw gt BB BTOoth ECONfigurat
93. d FHS packets Selects the data source used for the payload The following standard data sources are available e All O All 1 An internally generated sequence containing 0 data or 1 data e PNxx An internally generated pseudo random noise sequence e Pattern An internally generated sequence according to a bit pattern Use the Pattern box to define the bit pattern e Data List Select DList A binary data from a data list internally or externally generated Select Select DList to access the standard Select List dialog Select the Select Data List gt navigate to the list file dm_iqd gt Select to select an existing data list Use the New and Edit functions to create internally new data list or to edit an existing one Use the standard File Manager function to transfer external data lists to the instrument See also Main Dialog gt Data List Management Remote command SOURce lt hw gt BB BTOoth PCONfiguration DATA on page 92 SOURce lt hw gt BB BTOoth PCONfiguration DATA DPATtern on page 93 SOURce lt hw gt BB BTOoth PCONfiguration DATA DSELection on page 93 Operating Manual 1171 6496 12 10 23 Bluetooth Enhanced Data Rate User Interface ss Es EE ES R r r r ER Re Packet Configuration Bluetooth Basic Rate EDR Data Length Available all packet types except ID POLL NULL and FHS packets Enters the payload data length in bytes R
94. default values Usage Event Manual operation See Set To Default on page 16 SOURce lt hw gt BB BTOoth PTYPe lt PType gt The available packets depend on the selected transport mode All packet types as defined in the Bluetooth specifications are supported Parameters lt PType gt ID NULL POLL FHS DM1 DH1 DM3 DH3 DM5 DH5 AUX1 ADH1 ADH3 ADH5 AEDH1 AEDH3 AEDHS HV1 HV2 HV3 DV EV3 EV4 EV5 EEV3 EEV5 EEEV3 EEEV5 RST DH1 Example BB BTO PTYP NULL sets the packet type Manual operation See Packet Type on page 20 SOURce lt hw gt BB BTOoth SETTing CATalog lt Catalog gt This command reads out the files with Bluetooth settings in the default directory The default directory is set using command MMEM CDIRectory Only files with the file extension bto will be listed Parameters lt Catalog gt string Example MMEM CDIR lt root gt bluetooth sets the default directory to lt root gt bluetooth BB BTO SETT CAT reads out all the files with Bluetooth settings in the default direc tory Response Bluetooth EDR Bluetooth SCO the files Bluetooth EDR and Bluetooth SCO are available Manual operation See Save Recall on page 16 SOURce lt hw gt BB BTOoth SETTing DELete lt Filename gt This command deletes the selected file with Bluetooth settings The directory is set using command MMEM CDIRectory A path can also be s
95. e BB BTO FILT MTYP Queries the modulation type Manual operation See Modulation type on page 50 SOURce lt hw gt BB BTOoth MSETtings FDEViation lt FDeviation gt The frequency deviation can be varied in a range from 100 0 kHz to 200 0 kHz Parameters lt FDeviation gt float Range 100 kHz to 200 kHz Increment 0 1 kHz RST 160 kHz Example BB BTO MSET FDEV 160 sets a frequency deviation Manual operation See Frequency deviation on page 51 SOURce lt hw gt BB BTOoth FiLTer PARameter APCO25 lt Apco25 gt The command sets the roll off factor for filter type APCO25 Parameters lt Apco25 gt float Range 0 05 to 0 99 Increment 0 01 RST 0 2 Example BB BTO FILT PAR APCO25 0 2 sets the roll off factor to 0 2 for filter type APCO25 Manual operation See Roll Off Factor B xT on page 49 Operating Manual 1171 6496 12 10 73 Bluetooth Enhanced Data Rate Remote Control Commands a ee EI EE ee ee Eee r Filter Clipping Settings SOURce lt hw gt BB BTOoth FiLTer PARameter COSine lt Cosine gt The command sets the roll off factor for the Cosine filter type Parameters lt Cosine gt float Range 0 to 1 0 Increment 0 01 RST 0 1 Example BB BTO FILT PAR COS 0 35 sets the roll off factor to 0 35 for filter type Cosine Manual operation See Roll Off Factor B xT on page 49 SOURce lt hw gt BB BTOoth FiLTer PARameter FGAuss lt FGauss gt The command se
96. e BB BTO PTYP DH1 sets the packet type BB BTO DTT TABL LONG enters the table type BB BTO DTT TABL LONG SET2 STER 20 enters a symbol timing error Manual operation See Symbol Timing Error on page 48 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt ch gt CFOFfset lt CfOffset gt The command enters a carrier frequency offset Operating Manual 1171 6496 12 10 102 Bluetooth Enhanced Data Rate Remote Control Commands VERRE ee ee EE EE ee ee IE EE IE EE ee Dirty Transmitter Test The carrier freguency offset shows the deviation of the transmitted initial center fre quency from carrier frequency Parameters lt CfOffset gt float Range 150 kHz to 150 kHz Increment 1 kHz Example BB BTO PTYP DHI sets the packet type BB BTO DTT TABL SHOR enters the table type BB BTO DTT TABL SHOR SET2 CFOF 65 enters a carrier frequency offset Manual operation See Carrier Frequency Offset kHz on page 47 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt ch gt STATe lt State gt The command activates or deactivates the corresponding parameter set in the short table If a set deactivated its parameters are skipped in the sequence Instead the next active set is used For EDR packets each set applies to 20 packets Parameters lt State gt 0 1 OFF ON RST ON Example BB BTO PTYP DHI sets the packet type BB BTO DTT TABL SHOR enters the table type BB BT
97. e ee ee 101 SOURce lt hw gt BB BTOoth DTTest TABLE LONG SET lt Ch gt STATe uaaaaananaaaaaaaaaaaaaaranananani 102 SOURceshw BB BTOoth DTTestTABLe LONG SETSChDASTERIOF ees ee ee ee ese se se 102 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt ch gt CFOFfset ee ee ee ee ee 102 SOURceshw BB BTOoth DTTestTABLe SHORtSETSChHSTATe ee ee ee ee ee ee ee 103 SOURceshw BB BTOoth DTTestTABLe SHORCSETSChA STERFOF ee esse ee ees ee ee ee ee ee se 103 SOURce lt hw gt BB BTOoth DTTest DTTState lt DttState gt The command activates deactivates the Dirty Transmitter Test For Basic Rate pack ets each set of parameters in the Dirty Transmitter Setting table below is used for a duration of 20 ms After 20 ms the following set is used continuing with the first set after the sequence is completed For EDR packets the parameter sets apply for 20 packets each Parameters lt DttState gt 0 1 OFF ON RST OFF Example BB BTO DTT DTTS ON activates the Dirty Transmitter Test Manual operation See Dirty Transmitter Test on page 46 SOURce lt hw gt BB BTOoth DTTest FDDeviation lt FdDeviation gt The command enters a frequency drift rate A sine wave is used to drift the modulated Bluetooth signal around center frequency carrier frequency offset The maximum deviation reached during the drift equals the set frequency drift deviation Parameters lt FdDeviation gt float Range 100 kHz to 100 kHz Inc
98. e lt hw gt BB BTOoth ECONfiguration PCONfiguration CINStant sClnstant Sets a connection instant for indicating the connection event at which the new connec tion parameters are taken in use Parameters lt ClInstant gt float Range 0 to 1000 RST 0 Example SOUR BB BTO ECON PCON CINS 2 sets a connection instant Manual operation See Connection Instant on page 39 Operating Manual 1171 6496 12 10 111 Bluetooth Enhanced Data Rate Remote Control Commands as ER ES EE T M MM LE EE EE EE LE Commands SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINTerval lt Cinterval gt for data event and advertising frame configuration with the packet type CON NECT_REQ Set the time interval between the start points of two consecutive connection events Parameters lt Clnterval gt float Range 7 5 to 4000 0 RST 7 5 Example SOUR BB BTO UPTY CREQ sets packet type CONNECT_REQ SOUR BB BTO ECON PCON CINT 7 5 sets a time interval Manual operation See Connection Event Interval on page 32 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ClValue lt CiValue gt Sets the initialization value for the CRC Cyclic Redundary Check 24 bits calculation A packet has been received correctly when it has passed the CRC check Parameters lt CiValue gt integer Example SOUR BB BTO ECON PCON CIV H000000 24 sets the initialization value for the CRC Manual operation
99. ecific function in the individual subsystems of the digital standard Example Creating and editing the data list SOUR BB DM DLIS SEL d_listl SOUR BB DM DLIS DATA B1111010101000001111 SOUR BB DM DLIS DATA APP B1111010101000001111 Remote command SOURCe lt hw gt BB BTOoth PCONfiguration DATA On page 92 SOURCe lt hw gt BB BTOoth PCONfiguration DATA DSELection On page 93 Generate Waveform File Calls the Generate Waveform menu This menu is used to store the current Bluetooth signal as ARB signal in a waveform file This file can be loaded in the ARB menu and processed as multicarrier or multiseg ment signal The file name is entered in the submenu The file is stored with the predefined file extension wv The file name and the directory it is stored in are user definable Remote command SOURCe lt hw gt BB BTOoth WAVeform CREate On page 69 Bluetooth Version Displays the current version of the Bluetooth Bluetooth LE standard The default settings and parameters provided are oriented towards the specifications of the version displayed Remote command SOURCe lt hw gt BB BTOoth VERSion on page 69 Bluetooth Mode Determines the digital Bluetooth standard Basic Rate EDR or Bluetooth Low Energy are available Basic Rate EDR Selects the Bluetooth mode Basic Rate EDR Specific settings of the basic mode are described in chapter 3
100. ed is used for a symmetric or asymmetric point to point link establishment between a master and a specific slave Remote command SOURCe lt hw gt BB BTOoth TMODe on page 68 Packet Type Selects the packet type The available packets depend on the selected Transport Mode All packet types as defined in the Bluetooth specification are supported For an over view see chapter 2 2 Bluetooth Packet Types on page 8 The graphic shows the frame structure of the selected packet type Tx Slot Rx Slot The transmitted packet has a duration of N x 625 us where N is an odd integer larger than 0 N depends on the type of the transmitted packet Remote command SOURCe lt hw gt BB BTOoth PTYPe On page 66 Sequence Length Selects the sequence length in frames of the generated signal The signal repeats after the specified number of frames Remote command SOURCe lt hw gt BB BTOoth SLENgth On page 68 Packet Configuration Access the Packet Configuration dialog see chapter 3 3 Packet Configuration Bluetooth Basic Rate EDR on page 21 Operating Manual 1171 6496 12 10 20 Bluetooth Enhanced Data Rate User Interface 3 3 Operating Manual 1171 6496 12 10 Packet Configuration Bluetooth Basic Rate EDR The current data source for packet and the data whitening state are displayed next to the button Remote command n a Packet Configuration Bluetooth Bas
101. ee ee ee ee ee 47 Chip Rate Variation 1 12 7dssdssngsndaskakagsstavdivaksdandask inda 76 State Short Table ee ee ee ee 47 Class of Device ee EER EER RE EER ees 25 Symbol Timing Error e ee ee ee ee ee ee ee ee ee 48 Clipping 19 Dirty Transmitter Test State ee ee ee ee ee 46 dIE EE eee ee esters tenses eeseeneeeeseeneees 51 Documentation Overview n 5 Clipping Mode 52 70 Clipping Stateside veins asta daara Mi daea 51 Clock Vele EE EE EE N 61 Operating Manual 1171 6496 12 10 131 Bluetooth Enhanced Data Rate Index E AR EE KR EE RE 17 EIR Packet Follows RE EE EE EE 24 Encrypted DlVersifier hex ees ee ee ee ee ee 40 Encrypted mode si Error esel EE EE EE EO OE ESCOFEDR DAE HEER EE EE ET AN Event Configuration ia Channel Table EE Execute Trigger ss se Eed Fees Gee ese ee ge ds ee External Trigger Delay External Trigger Inhibit a aaaanaaaaavaaaasnaansannnssnnanaaaa F dei RE ER EE ER 53 Feature Set Length sees ke AR ee ee ee ee 41 File Manager al RE EE EE N Filter Type SEN eers ites tte ee ee ah Filtering Clipping SERE Re GE SE GR ree Ge ana EEN Re Fix marker delay to current range 2 Fix marker to dynamic range Flow Control Header Flow Control Payload F Frame Active Part Marker aiiaaiaaiaaaiansasaassassaansaai Frame Configuration ese EER ese EES EED ER Ne ee Rek ee N Dig Channel
102. eee Packet Configuration Bluetooth Basic Rate EDR Data Whitening Activates or deactivates the Data Whitening Evenly distributed white noise is ideal for the transmission and real data can be forced to look similar to white noise with different methods called Data Whitening Remote command SOURce lt hw gt BB BTOoth PCONfiguration DWHitening on page 95 Bluetooth Device Address BD_ADDR Enters Bluetooth Device Address Each Bluetooth device shall be allocated a unique 48 bit Bluetooth device address BD ADDR NAP UAP LAP The BD ADDR may take any values except the 64 reserved LAP values OX9E8BOO Ox9E8B3F NAP Selects non significant address part The length of NAP is 16 bits or 4 hexadecimal figures UAP Selects upper address part The length of UAP is 8 bits or 2 hexadecimal figures LAP Selects lower address part The length of LAP is 24 bits or 6 hexadecimal figures Remote command SOURce lt hw gt BB BTOoth PCONfiguration BDANap on page 91 SOURce lt hw gt BB BTOoth PCONfiguration BDAUap on page 92 SOURce lt hw gt BB BTOoth PCONfiguration BDALap on page 91 Logical Transport Address Available for all packet types except ID Enters the logical transport address for the header Each slave active in a piconet is assigned a primary logical transport address LT ADDR The all zero LT ADDR is reserved for broadcast messages Remote command SOURce lt hw g
103. eface 1 1 Documentation Overview Preface Documentation Overview The user documentation for the R amp S Signal Generator consists of the following parts e Online Help system on the instrument e Quick Start Guide printed manual e Documentation CD ROM with Online help system chm as a standalone help Operating Manuals for base unit and options Service Manual Data sheet and specifications Links to useful sites on the R amp S internet Online Help The Online Help is embedded in the instrument s firmware It offers quick context sen sitive access to the complete information needed for operation and programming The online help contains help on operating the R amp S Signal Generator and all available options Quick Start Guide The Quick Start Guide is delivered with the instrument in printed form and in PDF for mat on the Documentation CD ROM It provides the information needed to set up and start working with the instrument Basic operations and an example of setup are descri bed The manual includes also general information e g Safety Instructions Operating Manuals The Operating Manuals are a supplement to the Quick Start Guide Operating Manuals are provided for the base unit and each additional software option These manuals are available in PDF format in printable form on the Documentation CD ROM delivered with the instrument In the Operating Manual for the base unit
104. emote command SOURce lt hw gt BB BTOoth PCONfiguration DLENgth on page 94 Flow Control Payload Available for all packets types except ID POLL NULL FHS HV1 HV2 HV3 EV3 EV4 EV5 2 EV3 2 EV5 3 EV3 3 EV5 packets Sets the FLOW bit in the payload flow control per logical link Go Indicates start of transmission of ACL packets after a new connection has been established Stop Indicates stop of transmission of ACL packets before an additional amount of payload data is sent Remote command SOURce lt hw gt BB BTOoth PCONfiguration PFControl on page 96 Packet Length Available in All Data mode only and for all packet types except ID packet Enters the packet length in symbols Remote command SOURce lt hw gt BB BTOoth PCONfiguration PLENgth on page 97 EIR packet follows Available for FHS packets Indicates that an extended inquiry response packet may follow Yes Indicates that an EIR packet follows No Indicates that EIR does not follow Remote command SOURce lt hw gt BB BTOoth PCONfiguration EIRPacketfollows on page 95 Scan Repetition Mode Available for FHS packets The 2 bit scan repetition field indicates the interval between two consecutive page scan windows determines the behavior of the paging device RO The scan interval is equal to the scan window Tw page scan continu ous scan and maximal 1 28s R1 The scan interval is maximal 1
105. ength gt Sets the payload length Parameters lt UpLength gt integer Range 1 to 37 RST 1 Example SOUR BB BTO DTT TPC UPL 37 sets a payload length of 37 Manual operation See Payload Length on page 45 SOURce lt hw gt BB BTOoth DTTest TPConfiguration UPSource lt UpSource gt Selects the data source used for the payload test packets Operating Manual 1171 6496 12 10 106 Bluetooth Enhanced Data Rate Remote Control Commands as EE EE EE EE EE EE EE r EE EE EE LE Commands Parameters lt UpSource gt PNO9 PAT1 PAT2 PN15 PAT3 PAT4 PAT5 PAT6 PN9 PN15 Select a PRBS modulated data sequence PRBS pseudo random binary sequence for testing PAT1 PAT6 Pattern is predefined RST PNO9 Example SOUR BB BTO DTT TPC UPS PNO9 PRBS modulated data seguence for testing Manual operation See Payload Type on page 45 SOURce lt hw gt BB BTOoth ECONfiguration ACTable lt AcTable gt SOURce lt hw gt BB BTOoth ECONfiguration DCTable lt DcTable gt SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DCMTable lt DcmTable gt The data channel map table indicates the entire data set of the channels in a table Every channel is represented with bit positioned as per the data channel index LSB represents data channel index 0 and the bit in position 36 represents data channel index 36 If the channel is used channel its bit is to be set to 1 Bit value 0 indicates
106. er Delay section Operating Manual 1171 6496 12 10 59 Bluetooth Enhanced Data Rate User Interface Trigger Marker Clock Settings D The marker delay functions are available for R amp S SMx and R amp S AMU instruments only The R amp S SMBV supports only two markers Marker x Delay Enters the delay between the marker signal at the marker outputs and the start of the frame or slot The input is expressed as a number of symbols samples If the setting Fix marker delay to dynamic range is enabled the setting range is restricted to the dynamic range In this range the delay of the marker signals can be set without restarting the marker and signal Remote command SOURCe lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay On page 83 Current Range without Recalculation Displays the dynamic range within which the delay of the marker signals can be set without restarting the marker and signal The delay can be defined by moving the setting mark Remote command SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay MINimum on page 83 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay MAXimum on page 83 Fix marker delay to current range Restricts the marker delay setting range to the dynamic range In this range the delay can be set without restarting the marker and signal Remote command SOURce lt hw gt BB BTOoth TRIGger OUTPut DELay FIXed on
107. er sequence have a PSK type of modulation and are trans mitted with a data rate of 2 Mbps or optionally 3 Mbps The PSK modulation namely T7 4 rotated differential encoded quaternary phase shift keying 1 4 DQPSk is defined for for the 2 Mbps transmission The PSK modulation namely differential encoded 8 ary phase shift keying 8DPSK is defined for the 3Mbps transmission The modulation types and corresponding packet types are given in the table below Table 2 12 The modulation types and corresponding packet types Modulation Packet types type GFSK ID NULL POLL FHS DM1 DH1 DM3 DH3 DM5 DH5 AUX1 HV1 HV2 HV3 DV EV3 EV4 EV5 GFSK 11 4 2 DH1 2 DH3 2 DH5 2 EV3 2 EV5 DQPSK GFSK 8DPSK 3 DH1 3 DH3 3 DH5 3 EV3 3 EV5 ss SS ro Operating Manual 1171 6496 12 10 14 Bluetooth Enhanced Data Rate User Interface J TDMA Standards aj GSM DGE andards 3GPP FDD CDMA2000 TD SCDMA 1xEV DO WLAN Standards IEEE 802 11 a b g User Interface The menu for setting the Bluetooth digital standard is either called from the baseband block or from the menu tree under Baseband The menu is split into several sections for configuring the standard The upper section of the menu is where the Bluetooth digital standard is enabled the default settings are called and the transport mode the packet type and the sequence length are
108. eshw BB BTOoth FILTer OSAMPDIING ii ee ee ee ee AA AA BA RA RR ee ee ee ee 72 CSOURceshw BB BTOoth FILTer OSAMDIing AUTOESTATe ees ee ee see ee ee ee EE ee 72 ESOURCe lt hw gt BB BTOoth FIL TeriMIND X 2 112 244 ses nin ns kssdklsavisd ksa annastakakuta usa ik tandvanuni 73 SOURce lt hw gt BB BTOoth FILTer MTYPeE aaaaaaaaaaaaaaanananaaan nananasunnanannnnnnnnunununananunnnananana 73 ESOURceshw BB BTOGt MSETtINgs FDEVIatON ies ss se de N KEN ede N EES NA Ge RE daj ai 73 CSOURceshw BB BTOoth FILTer PARameterAPCO25 ees ee es ee RE ee ee EE ee RR ee ee RE ee ee 73 SOURceshw BB BTOoth FILTer PARameter COSine ii ee ee AA AR EA Ge EE ee 74 SOURceshw BB BTOoth FILTer PARameter FGAUSS ee ee ee ee ee ee AA ee AR ER ER ER Ee ee 74 SOURceshw BB BTOoth FILTer PARameter GAUSS iese see ek se se Re EE ee ee ee ee ee de ee 74 SOURceshw BB BTOoth FILTer PARameter PASS ss se ss ee ee ee ee ee ee ee ee ee ke ke ke ke 74 SOURceshw BB BTOoth FILTer PARameter PGAUSS iis se se ss ss se ee ee ee ke 75 SOURceshw BB BTOoth FILTer PARameter RCOSine ie de ee ee ee AA Re AR Ee Ge ae 75 SOURceshw BB BTOoth FILTer PARameter SPHase iss se ses ss ss ee ee ee ee ee ee ee ee ee ee ee ke 75 SOURceshw BB BTOoth SRATeVARIatiON ee se se ss AA AA RA RA RR Ge Ee 76 CSOURceshw BB BTOoth CLIPping LEVel lt Level gt The command sets the limit for level clipping Clipping This value indicates at what point the sign
109. est Not in Use Filter Clipping Gauss FSK Clipping off Power ramping Cosine 1 Symbols Trigger Marker Auto Clock Internal Remote command SOURCe lt hw gt BB BTOoth PRESet On page 65 Save Recall Calls the Save Recall menu Operating Manual 1171 6496 12 10 16 Bluetooth Enhanced Data Rate User Interface es EK SE r n General Settings for Bluetooth Signals From the Save Recall menu the File Select windows for saving and recalling Blue tooth configurations and the File Manager are called Recall Bluetooth Settings Save Bluetooth Settings File Manager Bluetooth configurations are stored as files with the predefined file extension bto The file name and the directory they are stored in are user definable The complete settings in the Bluetooth menu are saved and recalled Recall Blue Opens the File Select window for loading a saved Bluetooth config tooth Setting uration The configuration of the selected highlighted file is loaded by press ing the Select button Save Blue Opens the File Select window for saving the current Bluetooth sig tooth Setting nal configuration The name of the file is specified in the File name entry field the directory selected in the Save Into field The file is saved by press ing the Save button The Fast Save checkbox determines whether the instrument per forms an absolute or a differential storing of the settings
110. et Configuration Settings on page 36 Remote command n a 3 5 2 Data Event Connection Settings No of Tx Packets per Event Sets the number of Tx packets per event Each connection contains at least one data channel packet The maximum number of packets per event is determined by the dura tion of the connection event interval Note This parameter is relevant for data event connection settings Remote command SOURCe lt hw gt BB BTOoth ECONfiguration PNUMber on page 122 Connection Event Interval Set the time interval between the start points of two consecutive connection events Subsequent transmissions within an event are separated by this parameter in order to separate connecting event starting points in time Operating Manual 1171 6496 12 10 32 Bluetooth Enhanced Data Rate User Interface es P V RR RE r 5 Event Frame Configuration Bluetooth LE Note This parameter is relevant for data event connection settings and advertising frame configuration with the packet types CONNECTION UPDATE REO and CON NECT_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINTerval on page 112 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NCINterval on page 117 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINTerval on page 112 LL Connection Mode Select the link layer connection mode In order to provide safe transmission of paylo
111. event This command applies only for triggering by the second path Parameters lt Inhibit gt integer Range 0 samples to 1 lt lt 26 1u samples Increment 1 sample RST 0 samples Example BB BTO TRIG SOUR OBAS sets for path A the internal trigger executed by the trigger signal from the second path path B BB BTO TRIG OBAS INH 200 sets a restart inhibit for 200 samples following a trigger event Manual operation See Trigger Inhibit on page 58 SOURce lt hw gt BB BTOoth TRIGger RMODe lt RMode gt The command queries the current status of signal generation for all trigger modes with Bluetooth modulation on Operating Manual 1171 6496 12 10 78 Bluetooth Enhanced Data Rate Remote Control Commands as a EE EE EE EE EE EE De EE EE EE EE EE EE Trigger Settings Parameters lt RMode gt RUN STOP RUN the signal is generated A trigger event occurred in the triggered mode STOP the signal is not generated A trigger event did not occur in the triggered modes or signal generation was stopped by the com mand BB BTO TRIG ARM EXECute armed trigger modes only Example BB BTO SEQ ARET selects the Armed_Retrigger mode BB BTO TRIG RMOD queries the current status of signal generation Response RUN the signal is generated an external trigger was executed Manual operation See Running Stopped on page 55 SOURce lt hw gt BB BTOoth TRIGger SLENgth lt SLength gt
112. ey iD hex 40 Set Synchronization Settings Set to default 65 Set to Default sissies Erkende 16 Set to Default Dirty Transmitter Test 46 Show Data Channel Mapping Table 2aaiaaavaseasaa 40 Show Data Channel Table aaaaaaaaaiaassaasasssasanssanaaa 40 Signal Duration sr Eg Ee VERSE isien is ede Signal Duration Trigger Signal Duration Unit Trigger c e 55 79 Simulation Mode ere seges EERS Ke EG EER SR Ek EER ek Ke EERS ge ee 21 Slave s Slave Ee EE incense diesen ka A 39 Sleep Clock Accuracy aaiiaaaaaiaaaaaaaisaasaasasannasnananannnnnnnuri 43 SN Start Value Standard Settings se ls oe EE cae Ede Ge EE See ar 65 Staridard Settings ie EE ER Ee see vee EN Sia 16 Start Phase El EE N EE EN State Long Table State Short Table Stop Signal Generation SlOPPCd EE AE RE N Sub Version Number Symbol Rate Variation Symbol Timing Error DTT aaaaaaaaasaaassaasnaaansnnannnaa Sync Output to External Trigger Synchronization mode aaaaaaaaaaaaanaaasaaansasnasnanannnnnnannai Synchronization Mode TDSCdma 2aa2aaaavaaaavaaai 88 T Test Packet Configuration a aaiaaaianaaasiasiassaasaassaanaai 46 Test Packet Interval Test Packet Payload Length iaaaaaiasaassassaassania 45 Test Packet Payload Type aaaiaaaaaiaaaaassassaassnsna
113. f the instrument s processing time the first samples are cut off and no signal is outputted After elapsing of the internal processing time the output signal is syn chronous to the trigger event OFF The signal output begins after elapsing of the processing time and starts with sample 0 i e the complete signal is outputted RST ON Operating Manual 1171 6496 12 10 77 Bluetooth Enhanced Data Rate Remote Control Commands VERRE EE ee ee EE ee ee eee Trigger Settings Example BB BTO TRIG SOUR EXT sets external triggering BB BTO TRIG EXT SYNC OUTP ON enables synchrounous output to external trigger Manual operation See Sync Output to External Trigger on page 56 SOURce lt hw gt BB BTOoth TRIGger 0BASeband DELay lt Delay gt The command specifies the trigger delay expressed as a number of samples for trig gering by the trigger signal from the second path Parameters lt Delay gt float Range 0 samples to 1 lt lt 16 1u samples Increment 0 01 samples RST 0 samples Example BB BTO TRIG SOUR OBAS sets for path A the internal trigger executed by the trigger signal from the second path path B BB BTO TRIG OBAS DEL 50 sets a delay of 50 symbols for the trigger Manual operation See Trigger Delay on page 58 SOURce lt hw gt BB BTOoth TRIGger OBASeband INHibit lt Inhibit gt The command specifies the number of samples by which a restart is to be inhibited fol lowing a trigger
114. f the packet and a negative value moves the ramp into the end part of the transmitted packet Remote command SOURCe lt hw gt BB BTOoth PRAMping FOFFset on page 89 3 10 Trigger Marker Clock Settings The trigger clock and marker delay functions are available for R amp S SMx and R amp S AMU instruments only To access this dialog select Main Menu gt Trigger Marker The Trigger In section is where the trigger for the signal is set Various parameters will be provided for the settings depending on which trigger source internal or exter nal is selected The current status of signal generation Running or Stopped is indicated for all trigger modes Trigger In Retrigger Ka Stopped Jinternal The Marker Mode section is where the marker signals at the MARKER output con nectors are configured Marker Mode Marker 1 Restat 0 gt Marker2 Restart M Marker 3 Restat Marker4 Restat z Operating Manual 1171 6496 12 10 53 Bluetooth Enhanced Data Rate User Interface Trigger Marker Clock Settings The Marker Delay section is where a marker signal delay can be defined either with out restriction or restricted to the dynamic section i e the section in which it is possi ble to make settings without restarting signal and marker generation Marker Delay Current Range Without Recalculation 0 000 Samples z Marker 1 0 000 Samples Hit EI EL DEER
115. ffix to EXTernal lt ch gt distinguishes between the external trigger via the TRIGGER 1 suffix 1 and TRIGGER 2 suffix 2 connector SOURce lt hw gt BB BTOoth TRIGger ARM EXECute c ccceeeeeeeeeeeeeeeeeeeeeesaeaeaaaaeaeeaeaes 76 SOURce lt hw gt BB BTOoth TRIGger EXE Cute siisii GR We de ee Ve ER AE SG ER RAN Ge KEER Na Gie 77 CSOURceshw BB BTOoth TRIGger EXTernal SYNChronize OUTPU ee ee ee se ee ee ee ee 71 CSOURceshw BB BTOoth TRIGger OBASeband DELaY ees see se ee see ee ee EE ee RE ee ee RR ee ee 78 5SOURce lt hw gt BB BTOoth TRIGger OBASeband INHIbit 2aaaaaaaaaaassannanannnnnnannnnnnannnnnann 78 SOURceshw BB BTOoth TRIGger RMODe ee se se sad aaia akak EA Ee Ee Ee 78 SOURceshw BB BTOoth TRIGgerSLENGE ese ee se se ee ke ke ke 79 FSOURce hws BEBTOGHTRIGger SEUN iss EN Ne gee DE SE EE E ge Se Ee Eg adi 79 ESOURceshw BBBTOStTRIGgerSOURE eeuse N Ee GER ee EE ES ERA EG Ee DORS ee H K RA 80 SOURce lt hw gt BB BTOoth TRIGger EXTernal lt ch gt DELay 2 22224 00 0 ana se ee ee ee EE ee Re ee 80 SOURce lt hw gt BB BT Ooth TRIGger EXTernal lt ch gt INHibit aa aaaaaaaasanaannanannnnannnnnnnnnna 81 SOURcCe lt hw gt BB BTOOoth TRIGger SEQU8BhHE8 11 112 2424 Lia Ke Ge ER AG GEROER REG ES SR EER kanan ey N ira 81 SOURce lt hw gt BB BTOoth TRIGger ARM EXECute The command stops signal generation for trigger modes Armed Auto and Armed Retrigger A subseq
116. fset on page 102 Symbol Timing Error Dirty Transmitter Setting Enters the symbol timing error in ppm The Symbol Timing Error modifies the symbol clock frequency by the set amount Remote command SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt STERror on page 102 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt ch gt STERror on page 103 Modulation Index Dirty Transmitter Setting Only for Basic Rate Packets Enters the modulation index The modulation index specifies the frequency deviation The modulation index h is defined as VAT J symbol h where is the symbol rate and A is the frequency deviation According to the Bluetooth standard the modulation index is allowed to vary between 0 28 and 0 35 Remote command SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt MINDex on page 101 3 8 Filter Clipping Settings To access this dialog select Main Menu gt Filter Clipping The baseband filter sample rate variation and clipping are defined in this menu Operating Manual 1171 6496 12 10 48 Bluetooth Enhanced Data Rate User Interface Filter Clipping Settings Bluetooth A Filter Clipping Settings Filter GFSK section Filter Gauss FSK BT 0 50 Impulse Length v Auto 10 Oversampling MM Auto 10 n 4 DOPSK section Filter Cosine Roll Off Factor 0 10
117. gnal on the marker outputs and the start of the signal expressed in terms of samples Command BB BTO TRIGger OUTPut DELay FI Xed can be used to restrict the range of val ues to the dynamic range i e the range within which a delay of the marker signals can be set without restarting the marker and signal Parameters lt Delay gt float Range 0 samples to 1 lt lt 24 1u samples Increment 0 001 samples RST 0 samples Example BB BTO TRIG OUTP2 DEL 1600 sets a delay of 1600 samples for the corresponding marker sig nal Manual operation See Marker x Delay on page 60 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay MAXimum The command queries the maximum marker delay for set ting BB BTO TRIG OUTP DEL FIX ON Return values lt Maximum gt float Example BB BTO TRIG OUTP DEL FIX ON restricts the marker signal delay setting range to the dynamic range BB BTO TRIG OUTP DEL MAX queries the maximum of the dynamic range Response 2000 the maximum for the marker delay setting is 2000 samples Usage Query only Manual operation See Current Range without Recalculation on page 60 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay MINimum The command queries the minimum marker delay for set ting BB BTO TRIGger OUTPut DELay FIXed ON Return values lt Minimum gt float Operating Manual 1171 6496 12 10 83 Bluetooth Enhanced Da
118. he format of the device address differs depending on the selected address type Note This parameter is relevant for advertising event or frame configuration The bluetooth Controller Role and the packet type determine the available entries e Tx in conjunction with the packet types ADV_IND ADV_DIRECT_IND ADV_NON CONN_IND ADV_DISCOVER_IND SCAN_REQ SCAN_RSP and CON NECT_REQ e Rx for the packet types ADV_DIRECT_IND SCAN_REQ and CONNECT_REQ Public Allocates a unique 48 bit address to each bluetooth LE device The public address is given from the registration authority IEEE Random Allocates a 48 bit address to each bluetooth LE device A random address is optional Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration TATYpe on page 119 Operating Manual 1171 6496 12 10 37 Bluetooth Enhanced Data Rate User Interface Bs ME ME aa d Packet Configuration Bluetooth LE Data Source Selects the data source used for the payload Note This parameter is relevant for event configuration and packet types DATA ADV_IND ADV_NONCONN_IND and ADV DISCOVER IND The following standard data sources are available e AILO All 1 An internally generated sequence containing 0 data or 1 data e PNxx An internally generated pseudo random noise sequence e Pattern An internally generated sequence according to a bit pattern Use the Pattern box to define the bit pattern e Data List Select
119. ic Rate EDR The Packet Configuration dialog is reached via the Bluetooth main dialog The available settings in the lower part of the dialog depend on the selected data source for packet and the selected packet type Header configurations are selected in the Header settings section E Bluetooth A Packet Configuration 5 x Packet Configuration Data Source for Packet Packet Editor v Data Whitening Sess Bluetooth Device Address 8D_ADDR ACDE 48 _ 0000 80 NAP UAP LAP Header o 7 Flow Control GO v ACK v SEON Start Value Logical Transport Address Acknowledgment DV Payload Voice Field PN 9 z Data Source Data Field PN 9 s bytes gt Flow Control GO ba Data Source Data Length Provided are the following settings Data Source for Packet The data sent for each packet can be comfortably edited with the Packet Editor or fil led with a predefined ALL Data sequence Packet Editor Enables the edit mode to configure the packet fields individually All Data Fills the generated packets with the selected data source This mode is useful if you need to load predefined data contents from a data list file or the data contents of the packet are not of interest Remote command SOURce lt hw gt BB BTOoth PCONfiguration DSFPacket on page 94 21 Bluetooth Enhanced Data Rate User Interface
120. iguration DATA DSELection lt DSelection gt The command selects data list file Parameters lt DSelection gt string Operating Manual 1171 6496 12 10 113 Bluetooth Enhanced Data Rate Remote Control Commands as ER EE ES EE EE EE EE EE EER LE EE EE EE LE Commands Example BB BTO ECON PCON DATA DLIS selects the data type BB BTO ECON PCON DSEL Bluetooth le selects the file for the data Manual operation See Data Source on page 38 CSOURceshw BB BTOoth ECONTIguration PCONfIguration DLENgth lt DLength gt Enters the payload data length in bytes Parameters lt DLength gt float Range 0 to 31 RST 0 Example SOUR BB BTO ECON PCON DLEN 31 payload data length is 31 bytes Manual operation See Data Length on page 38 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DWHitening lt DWhitening gt Activates or deactivates the Data Whitening Evenly distributed white noise is ideal for the transmission and real data can be forced to look similar to white noise with different methods called Data Whitening Applied to the PDU and CRC fields of all packet types whitening is used to avoid long equal seqeunces in the data bit stream Parameters lt DWhitening gt 0 1 OFF ON RST OFF Example BB BTO ECON PCON DWH ON activates data whitening Manual operation See Data Whitening on page 36 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ECODe lt ECode gt
121. ing Packet Interval Sets the time interval between packets starting points of two consecutive packets in the advertising channel Note This parameter is relevant for advertising frame configuration and for the packet type SCAN RSP Remote command SOURCe lt hw gt BB BTOOth ECONfiguration APINterval on page 109 Operating Manual 1171 6496 12 10 31 Bluetooth Enhanced Data Rate User Interface C6 r Event Frame Configuration Bluetooth LE Transmit Window Offset Displays the start point of the transmit window Note This parameter is relevant for advertising frame configuration and for the packet type CONNECT_REQ This parameter is set in the Packet Configuration see Transmit Window Offset on page 42 Remote command SOURce lt hw gt BB BTOoth ECONfiguration WOINfo on page 123 Transmit Window Size Indicates the size of the transmit window regarding to the start point Note that the scan window size is less or equal to the value of the connection interval Note This parameter is relevant for advertising frame configuration and for the packet type CONNECT_REQ The parameter is set in the Packet Configuration dialog see Transmit Window Size on page 42 Remote command SOURce lt hw gt BB BTOoth ECONfiguration WSINfo on page 124 Packet Configuration Opens the dialog for setting the corresponding packet configuration This dialog is described in chapter 3 6 1 Pack
122. ing to the start point Parameters lt WSize gt float Range 1 25 to 10 0 RST 1 25 Example SOUR BB BTO UPTY CREO sets packet type CONNECT_REQ SOUR BB BTO ECON PCON WSIZ 8 0 sets the size of the transmit window Manual operation See Transmit Window Size on page 42 SOURce lt hw gt BB BTOoth ECONfiguration PNUMber lt PNumber gt Sets the number of Tx packets per event Each connection contains at least one data channel packet The maximum number of packets per event is determined by the dura tion of the connection event interval Operating Manual 1171 6496 12 10 122 Bluetooth Enhanced Data Rate Remote Control Commands as EE EE EE EE EE EE EE EE a ee LE Commands Parameters lt PNumber gt float Range 1 to 2580 RST 1 Example SOUR BB BTO ECON PNUM 2580 sets the number of Tx packets per event Manual operation See No of Tx Packets per Event on page 32 SOURce lt hw gt BB BTOoth ECONfiguration SINTerval lt Sinterval gt Sets the time interval between the starting points of two consecutive windows during which the scanner is operating in an advertising channel Parameters lt SInterval gt float Range 2 5 to 10240 0 RST 2 5 Example SOUR BB BTO ECON SINT 3 5 sets the time interval Manual operation See Scan Interval on page 31 SOURce lt hw gt BB BTOoth ECONfiguration SWINdow lt SWindow gt Sets the length of the window during which the scanner is
123. ion A sine wave is used to drift the modulated Bluetooth signal around center frequency carrier frequency offset The maximum deviation reached during the drift equals the set frequency drift deviation Remote command SOURCe lt hw gt BB BTOoth DTTest FDDeviation on page 99 Dirty Transmitter Setting Indicates the dirty transmitter parameters according to the Bluetooth test specification Basic Rate State Dirty Transmitter Setting Activates or deactivates the corresponding parameter set If a set deactivated its parameters are skipped in the sequence Instead the next active set is used For Basic Rate packets each set applies to 20ms of signal For EDR packets each set applies to 20 packets Remote command SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt STATe on page 102 SOURce lt hw gt BB BTOoth DTTest TABLe SHORE SET lt ch gt STATe on page 103 Carrier Frequency Offset kHz lt Dirty Transmitter Setting Enters a carrier frequency offset Operating Manual 1171 6496 12 10 47 Bluetooth Enhanced Data Rate User Interface ss EE EE EE EE EE EE EE r r Filter Clipping Settings The center frequency of the modulated RF carrier is offset by the specified value Remote command SOURCe lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt CFOFfset on page 101 SOURce lt hw gt BB BTOoth DTTest TABLe SHORt SET lt ch gt CFOF
124. ion Response Version 2 1 EDR Manual operation See Bluetooth Version on page 18 SOURce lt hw gt BB BTOoth WAVeform CREate lt Filename gt This command creates a waveform using the current settings of the Bluetooth menu The file name is entered with the command The file is stored with the predefined file extension wv The file name and the directory it is stored in are user definable Setting parameters lt Filename gt string Example MMEM CDIR lt root gt waveform sets the default directory to lt root gt waveform BB BTO WAV CRE blutooth 1 creates the waveform file bluetooth wv in the default direc tory Usage Setting only Manual operation See Generate Waveform File on page 18 Operating Manual 1171 6496 12 10 69 Bluetooth Enhanced Data Rate Remote Control Commands Filter Clipping Settings 4 2 Filter Clipping Settings 50URCeNW BB BT00IN CEPpg LEVel 112125 esse EL N RE NES NEGE N Ee Nes EA a DE EER NA AG 70 ESOURce lt hw gt BB BTOoth CLIPping MODE iii eene ee ESE Ese N Eeu eN Ge Gee ge skaaasanganadan 70 SOURceshw BB BTOoth CLIPping STAT ee ee ee se ek se Re ER ER ER EE Ke ee ee ee ee ee ee ee ee ee ee 71 ESOURceshw BEBTOGSMFILIEETYPE Ge EE Ee se Se EEN eed NE MS ee SE Ee Ee RE se ER KEES AE 71 ESOURceshw BBBTOothFILTerILENGIK se ii RES GE Pe Ee EA ES EO GAD SEL eels 71 CSOURceshw BB BTOoth FILTer LENGtH AUTOSTATe ee se ee ee ee ee ee Re ee ee ee 72 SOURc
125. ion PCONfiguration ICASsigned on page 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ICID on page 110 CRC Initial Sets the initialization value for the CRC Cyclic Redundary Check 24 bits calculation A packet has been received correctly when it has passed the CRC check Note This parameter is relevant for advertising frame configuration and the packet type CONNECT_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CIValue on page 112 Transmit Window Size Sets the size of the transmit window regarding to the start point Note that the scan window size is less or equal to the value of the connection interval see Connection Event Interval on page 32 Note This parameter is relevant for advertising frame configuration and for the packet types CONNECT_REQ and CONNECTION_UPDATE_REQ This parameter is also indicated in the Frame Configuration Dialog Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration WSIZe on page 122 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NWSize on page 119 Transmit Window Offset Sets the start point of the transmit window Note This parameter is relevant for advertising frame configuration and for the packet types CONNECT_REQ and CONNECTION_UPDATE_REQ Operating Manual 1171 6496 12 10 42 Bluetooth Enhanced Data Rate User Interface Packet Configuration Bluetooth
126. ion Code 2 ee 33 Modulation hide iseer EE GE RE bie Ee ese Ee ERGE eg Modulation Index DTT Modulation Type iese ves genre RA ENE sker oen erte sees Multiple Sample Clock Mode ee 61 NESN Start Value No of Tx Packets per Event 32 NY GUISE TINGE iese sees geen er ER HE EE EO Sa Ska 71 0 ON OFF Ratio Marker inaiiaaaaaaiaiisaaasaasssaaaaaa 59 85 Open File Manager aaaaaaaanaaaaaasaaasnaansannusnnnnsnannnannn 16 Oversampling Oversampling Auto State OVersamplingt sissies ESE ds gee Ee EE ee dee Ke EA ed 72 P Packet Configuration ese ee RA RA RR ee ee 20 32 Access Address Acknowledgment ee ee Re ke Re ee ee 23 advertiser s address type eek ke ee 37 Center Freguency Channel INdOxX N EE N N Channel State irissen KERK GE ede De ge ee Ke ee Channel Type Glass of DEV CE odiniai ERA bee eae EA EED ee ee Company ID Aeiaaeeia iaa oiiaaie Connection Event Interval x CRG Initial RE EE adaa EE EE Data Whitening Device Address EIR Packet Follows 1220 ririn Encrypted DlVersifier hex aaaaaaaisaassaaasnaaa Error Code Feature Set Length aaaivaaaaaaaaaaaassaaassnsnnsnaai Flow Control Header Flow Control Payload D Hide Data Channel Mapping Table 40 Hide Data Channel Table 22aaaaaaasaaassvaasnia 40 Hop Length i Initializati
127. ion NLCTimeout on page 117 Connection Instant Sets a connection instant for indicating the connection event at which the new connec tion parameters are taken in use Both the master and the slave have a 32 bit connection event counter per LL connec tion It is reset to zero on the first connection event of the LL connection and incremen ted by one on every elapsed connection event interval of the LL connection Note This parameter is relevant for data event configuration with the packet types CONNECTION_UPDATE_REQ and CHANNEL_MAP_REQ Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CINStant on page 111 Operating Manual 1171 6496 12 10 39 Bluetooth Enhanced Data Rate User Interface Packet Configuration Bluetooth LE Show Hide Data Channel Mapping Table In data event and advertising frame configuration with the packet types CHAN NEL_MAP_REQ and CONNECT_REQ calls hides the channel map table that dis plays the used channels and their parameters The channel table is described in chapter 3 5 3 Channel Table Settings on page 34 Remote command n a Hop Length Sets the difference from the current channel to the next channel The master and slave devices determine the data channel in use for every connection event from the channel map Hop length is set for the LL connection and communicated in the CON NECT REO packets Note This parameter is relevant for data event
128. is relevant for advertising event configuration and for the packet types ADV IND ADV_DIRECT_IND ADV_NONCONN_IND and ADV_DIS COVER_IND Remote command SOURce lt hw gt BB BTOoth ECONfiguration AEINterval on page 109 SOURce lt hw gt BB BTOoth ECONfiguration ADINterval on page 108 Advertising Event Delay Sets a time delay between the start times of two consecutive advertising events The value is added to the advertising event interval Note This parameter is relevant for advertising event configuration and for the packet types ADV IND ADV NONCONN IND and ADV_DISCOVER_IND Remote command SOURCe lt hw gt BB BTOoth ECONfiguration AEDelay on page 108 Scan Window Sets the length of the window during which the scanner is operating in the advertising channel Note that the scan window is less or equal to the value of the scan interval Note This parameter is relevant for advertising frame configuration and for the packet type SCAN REO Remote command SOURCe lt hw gt BB BTOoth ECONfiguration SWINdow on page 123 Scan Interval Sets the time interval between the starting points of two consecutive windows during which the scanner is operating in an advertising channel Note This parameter is relevant for advertising frame configuration and for the packet type SCAN REO Remote command SOURCe lt hw gt BB BTOOth ECONfiguration SINTerval on page 123 Advertis
129. lects the packet type The available packets depend on the selected channel type Parameters lt UpType gt AIND ADINd ANINd SREQ SRSP CREQ ADCind DATA CUReg CMReq TIND EREQ ERSP SEReg SERSp URSP FREQ FRSP TPACket PEReq PERSp VIND RIND RST AIND Operating Manual 1171 6496 12 10 124 Bluetooth Enhanced Data Rate Remote Control Commands VERRE EE ee EE Ie r Ml LE Commands Example SOUR BB BTO UPTY AIND SOUR BB BTO UPTY ADIN SOUR BB BTO UPTY ANIN SOUR BB BTO UPTY ADC SOUR BB BTO UPTY SREQ SOUR BB BTO UPTY SRSP SOUR BB BTO UPTY CREQ SOUR BB BTO UPTY TPAC Channel type Advertising SOUR BB BTO UPTY DATA SOUR BB BTO UPTY CUR SOUR BB BTO UPTY CMR SOUR BB BTO UPTY TIND SOUR BB BTO UPTY LER SOUR BB BTO UPTY SERS SOUR BB BTO UPTY FREQ SOUR BB BTO UPTY TPAC Channel type Data and Controller role Master SOUR BB BTO UPTY DATA SOUR BB BTO UPTY TIND SOUR BB BTO UPTY LERS SOUR BB BTO UPTY SER SOUR BB BTO UPTY SERS SOUR BB BTO UPTY URSE SOUR BB BTO UPTY FRSP SOUR BB BTO UPTY TPAC Channel type Data and Controller role Slave Manual operation See Packet Type on page 27 SOURce lt hw gt BB BTOoth USLength lt UsLength gt Selects the number of frames or events depending on the packet type The signal repeats after the specified number of frames events For SCAN_REQ and CONNECT_REQ packet the seque
130. lel xi Packet Configuration Header NESN Start Value 1 SN Start Value EEN Packet Configuration Settings Data Whitening Activates or deactivates the Data Whitening Evenly distributed white noise is ideal for the transmission and real data can be forced to look similar to white noise with different methods called Data Whitening Applied to the PDU and CRC fields of all packet types whitening is used to avoid long equal sequences in the data bit stream Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DWHitening on page 114 Access Address Sets the access address of the link layer connection Bluetooth LE transmissions are based on an interface packet format that consists of a preamble 8 bits the access address 32 bits the PDU and CRC 24 bits The access address structure depends on the packet type e Data channel packets The access address is a pseudo random LL connection address generated by the initiator of the LL connection The address has to follow some specific rules which are described in the Bluetooth Low Energy Technology Specification e Advertising channel packets The address is fixed to 01101011011111011001000101110001 with the left most bit sent first and being the LSB Operating Manual 1171 6496 12 10 36 Bluetooth Enhanced Data Rate User Interface Packet Configuration Bluetooth LE Note This parameter is relevant for all available pa
131. load Length 37 bytes gt Header Payload RFU Length 4 bits 6 hits Packet Interval Sets the time interval between two consecutive test packets with regard to the starting points Test Packet Interval Note This parameter is relevant for test packet types only Remote command SOURce lt hw gt BB BTOoth DTTest TPConfiguration TPINterval on page 106 Operating Manual 1171 6496 12 10 44 Bluetooth Enhanced Data Rate User Interface Dirty Transmitter Test Payload Type Selects the data source used for the payload test packets Note This parameter is relevant for test packet types only PRBS 9 15 Select a PRBS modulated data sequence PRBS pseudo random binary sequence for testing Pattern 1 2 Pattern is predefined 3 4 5 6 Remote command SOURce lt hw gt BB BTOoth DTTest TPConfiguration UPSource on page 106 Payload Length Sets the payload length Note This parameter is relevant for test packet types only Remote command SOURce lt hw gt BB BTOoth DTTest TPConfiguration UPLength on page 106 3 7 Dirty Transmitter Test The Dirty Transmitter settings contain parameters which can be changed for the mas ter signal in order to test the connection under dirty transmitter conditions and define the influence on the receiver guality bit error rate tests Dirty transmitter parameters according to the Bluetooth test specification Basic Rate are given in the t
132. lock Mode on page 61 SOURce lt hw gt BB BTOoth CLOCk MULTiplier lt Multiplier gt Specifies the multiplication factor for clock type multiple BB BTO CLOCk MODE MSAMple in the case of an external clock source For two path instruments the only numerical suffix allowed for SOURce is 1 since the external clock source is permanently allocated to path A Parameters lt Multiplier gt float Range 1 to 64 Increment 1 RST 4 Example SOURce1 BB BTO CLOCk SOURce EXT selects the external clock source SOURce1 BB BTO CLOCk MODE MSAMple sets the clock type SOURce1 BB BTO CLOC MULTiplier 12 the multiplier for the external clock rate is 12 Manual operation See Clock Multiplier on page 62 SOURce lt hw gt BB BTOoth CLOCk SOURCce lt Source gt The command selects the clock source For two path instruments selecting EXTernal is only possible for path A since the external clock source is permanently allocated to path A Selection AINternal is only possible for path B Parameters lt Source gt INTernal EXTernal AlNTernal INTernal The internal clock reference is used EXTernal The external clock reference is supplied to the CLOCK connec tor Commands BB BTO CLOCk MODE and MULTiplier are used to enter the type of the external clock AlNTernal The clock source of path A is used for path B RST INTernal Operating Manual 1171 6496 12 10 87 Bluetooth Enhanced Dat
133. lps are provided for the base unit and each additional software option The content of the web helps correspond to the user manuals for the latest product ver sions The web help is an additional file format that offers quick online access They are not intended to be downloaded but rather to access the required information directly form the R amp S website Web helps are available at the R amp S website on the R amp S Signal Generator product page at the Downloads gt Web Help area Typographical Conventions The following text markers are used throughout this documentation Convention Description Graphical user interface ele All names of graphical user interface elements on the screen such as ments dialog boxes menus options buttons and softkeys are enclosed by quotation marks KEYS Key names are written in capital letters File names commands File names commands coding samples and screen output are distin program code guished by their font Input Input to be entered by the user is displayed in italics Links Links that you can click are displayed in blue font References References to other parts of the documentation are enclosed by quota tion marks Operating Manual 1171 6496 12 10 6 Bluetooth Enhanced Data Rate Introduction Bluetooth Transport Modes 2 Introduction The R amp S Signal Generator provides you with ability to generate signals in accordance with B
134. lt hw gt BB BT Ooth TRIGger SEQUENCE ees ee ee ke ee ee ee ee ke ee ee ee ee ee I Operating Manual 1171 6496 12 10 130 Bluetooth Enhanced Data Rate Index A Ooie do EE RE EE alk Batal 62 CIOCK SOURCE ER EE OE iai 61 ACCESS AddresS ee EER ESE ee eo Er Ee gee ge ee es ee 36 Company ID iss EE Ek EES Es ka Se EE GEE ee ey es Ed Eg SE 43 ea Connection Event Interval a esse see ee ee ee 32 38 Acknowledgment RE EE EE i 23 Connection Settings AGL EDR Ee N s 20 Connection Event Interval iese esse sesse ee ee ee ee ee 32 38 Activate Bluetooth Standard s LL Connection Mode Activate Dirty Transmitter Test a aiaiaaiasasaseanaai 46 Long term key hex Advertiser EE k shine N OE Ge GE No of Tx Packets per Event eeens 32 Advertiser s address type Selected data channel Advertiser s device address Controler role master 0 0 0 cece eee ee ee ke ee Advertising Channel Table ee ee 34 Controler role slave ie ee ee ee ee ee Advertising channel type Controller role advertiser Advertising Event Delay Controller role initiator iisaxaaaaaasiaaaaaassssaaaasasaaan Advertising Event Interval esse sees se ese ee see ee ee ee 31 Controller role scanner 2aaaaaaanaaaaaasaaasnaannannnsnnnanana Advertising Packet Interval a aaaiaiaasaassaassassansaani 31 Co
135. luetooth Controller Role is Advertiser for all ADV xxx packet types and SCAN_RSP Scanner for advertising channel type the current bluetooth Controller Role is Scanner for SCAN_REQ packet type Initiator for advertising channel type the current bluetooth Controller Role is Initiator for CONNECT_REQ packet type Example SOUR BB BTO BCT Queries the state roll of the controller Usage Query only Manual operation See Bluetooth Controller State on page 28 SOURce lt hw gt BB BTOoth CTYPe lt CType gt Determines the channel type Advertising and data are available Parameters lt CType gt ADVertising DATA ADVertising Selects channel type Advertising DATA Selects channel type Data Devices in a connected state trans mit data channel packets in connection events with a start point and an interval RST ADVertising Example SOUR BB BTO CTYP ADV channel type Advertising SOUR BB BTO CTYP DATA channel type Data Manual operation See Channel Type on page 26 SOURce lt hw gt BB BTOoth PRESet The command produces a standardized default for the Bluetooth standard The set tings correspond to the RST values specified for the commands Operating Manual 1171 6496 12 10 65 Bluetooth Enhanced Data Rate Remote Control Commands EER EE EER ER EE RR fT aaa ee _ General Commands All Bluetooth settings are preset Example BB BTO PRES resets all the Bluetooth settings to
136. luetooth Specification 2 1 EDR The basic documents for this specification are regulations for Europe Japan and North America The frequency band defined for Bluetooth devices is the unlicensed 2 4 GHz ISM Industrial Scientific medical fre quency band Two modulation modes are used for Bluetooth a mandatory mode called the Basic Rate and an optional one called the Enhanced Data Rate The Basic Rate mode uses binary FM modulation and has data rate of 1 MBps The Enhanced Data Rate uses two types of PSK modulation the 1 4 DQPSK or 8DPSK and achives data rates of 2 Mbps and 3 Mbps respectively All modulations schemes have the symbol rate equal to 1Ms s A Time Division Duplex TDD scheme for full duplex transmission is defined for both modes The latest Bluetooth Low Energy specification is supported as well See chapter 3 4 Bluetooth Low Energy on page 25 for a detailed description on Bluetooth Low Energy support The following list gives an overview of the options provided by the R amp S Signal Genera tor for generating of signals according to the Bluetooth specification e Support for three transport modes the ACL EDR SCO eSCO EDR transport modes e Support of all packet types for both the Basic Rate and the Enhanced Data Rate modes e Generation of signals with up to 5238 frames sequence length e Configuration of the packet contents with a convenient packet editor or all data packets both with optional data whitening
137. mand SOURce lt hw gt BB BTOoth ECONfiguration LTKey on page 110 Selected Data Channel Index Indicates the number of the first active data channel The data channel is selected for each connection event The master and slave deter mine the used data channel by selecting from the list of used channels see Channel Table on page 34 Note This parameter is relevant for data event connection settings Displays the data channel index currently selected Remote command n a 3 5 3 Channel Table Settings The channel table displays all parameters characterizing the channel and the current state Channel Table The channel table displays all parameters characterizing the channel and the current state Operating Manual 1171 6496 12 10 34 Bluetooth Enhanced Data Rate User Interface ss Es EE SSS EER RR BE ME SE EE Ri Packet Configuration Bluetooth LE Every channel is represented with bit positioned as per the data channel index LSB represents data channel index 0 and the bit in position 36 represents data channel index 36 If the channel is used channel its bit is to be set to 1 Bit value 0 indicates that the channel is unused The bits in positions 37 38 and 39 shall be set to zero upon transmission and ignored upon receipt Center Frequency Indicates the center frequency of a channel Channel Index Indicates the channel index Channel Type Indicates the channel type Channel State
138. manual trigger or TRG EXTernal BEXTernal trigger signal on the TRIGGER 1 2 connector OBASeband trigger signal from the other path RST INTernal Example SOURcel BB BTOoth TRIGger SOURce EXTernal sets external triggering via the TRIGGER 1 connector Manual operation See Trigger Source on page 56 SOURce lt hw gt BB BTOoth TRIGger EXTernal lt ch gt DELay lt Delay gt The command specifies the trigger delay expressed as a number of samples for external triggering The numeric suffix to EXTernal distinguishes between the external trigger via the TRIGGER 1 suffix 1 and TRIGGER 2 suffix 2 connector Parameters lt Delay gt float Range 0 samples to 65535 samples Increment 0 01 samples RST 0 samples Example BB BTO TRIG SOUR EXT sets an external trigger via the TRIGGER 1 connector BB BTO TRIG EXT DEL 50 sets a delay of 50 symbols for the trigger Manual operation See Trigger Delay on page 58 Operating Manual 1171 6496 12 10 80 Bluetooth Enhanced Data Rate Remote Control Commands a I EE ee ee r EP aM M Ee ee Trigger Settings SOURce lt hw gt BB BTOoth TRIGger EXTernal lt ch gt INHibit lt Inhibit gt The command specifies the number of samples by which a restart is to be inhibited fol lowing a trigger event This command applies only in the case of external triggering The numeric suffix to EXTernal distinguishes between the external trigger via the TRI
139. miscellaneous information during the inquiry response procedure Undefined Reserved for future use and shall be set to zero SR The scan repetition field indicates the interval between two consecutive page scan win dows Reserved Shall be set to 10 UAP Contains the upper address part of the device that sends the FHS packet NAP Contains the non significant address part of the device that sends the FHS packet Class of Contains the class of device of the device that sends the FHS packet This field is defined device in Bluetooth Assigned Numbers LT_ADDR Contains the logical transport address CLK27 2 Contains the value of the native clock of the device that sends the FHS packet sampled at the beginning of the transmission of the access code of this FHS packet Page scan Indicates which scan mode is used by default by the sender of the FHS packet mode 2 4 Bluetooth Modulation Schemes The modulation used for the basic data rate packets is GFSK Gaussian Frequency Shift Keying with a bandwidth bit period product BT 0 5 The modulation index is between 0 28 and 0 35 Operating Manual 1171 6496 12 10 13 Bluetooth Enhanced Data Rate Introduction Bluetooth Modulation Schemes The modulation scheme used for enhanced data rate packets changes within the packet The access code and packet header has GFSK modulation scheme and are transmitted with the Basic Rate 1Mbps while the subsequent synchronisation sequence payload and trail
140. n PCONfiguration DCMTable aaaaaaananan nennni 107 SOURce lt hw gt BB BTOoth ECONfiguration ACTable SET lt ch gt STAT aaaaaaanaaaaaaaasa a aaara 108 SOURce lt hw gt BB BTOoth ECONfiguration DCTable SET lt ch gt STATe aaaaaaaaaaaaaaananasaaana 108 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration DCMTable SET lt ch gt STATe 108 SOURce lt hw gt BB BTOoth ECONfiguration AEDelay aaaanananaaaaaa asasananannnannnanananananana 108 SOURce lt hw gt BB BTOoth ECONfiguration ADINterval aaaaaaaaaaaananananananansnsnnnannnana 108 SOURce lt hw gt BB BTOoth ECONfiguration AElNterval aaxaaaaanan nnsnn nananunannannnnnnnnana 109 SOURce lt hw gt BB BTOoth ECONfiguration APINterval aaaaaaananan n nnnnnnnnnunannananannnnnnnna 109 SOURce lt hw gt BB BTOoth ECONfiguration LCMOde aaaaaaaaaaaaaan n r nnn sanunanannananaananananaia 109 SOURcCe lt hw gt BB BTOoth ECONfiguration LT Key 12 21222 a 11 sn iniinis 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration AADDress aaaaaananananan 110 SOURceshw BB BTOoth ECONiguration PCONfiguration ACID ee ee ee ee 110 SOURceshw BB BTOoth ECONiguration PCONTfiguration cACASsigned ii ee ee 110 SOURceshw BB BTOoth ECONiguration PCONfiguration SCASsigned ie ee ee 110 SOURceshw BB BTOoth ECONiguration PCONfiguration SCID ee ee 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ICA
141. n this description use the place holder lt root gt in the syntax of the command e D for selecting the internal hard disk of a Windows instrument e E for selecting the memory stick which is inserted at the USB interface of a Windows instrument e var user for selecting the internal flash card of a Linux instrument e usb for selecting the memory stick which is inserted at the USB interface of a Linux instrument Operating Manual 1171 6496 12 10 63 Bluetooth Enhanced Data Rate Remote Control Commands 4 1 General Commands Tasks in manual or remote operation that are also performed in the base unit in the same way are not described here In particular this includes e Managing settings and data lists i e storing and loading settings creating and accessing data lists accessing files in a particular directory etc e Information on regular trigger marker and clock signals as well as filter settings if appropriate e General instrument configuration such as configuring networks and remote opera tion e Using the common status registers For a description of such tasks see the R amp S Signal Generator operating manual The following commands specific to the Bluetooth are described here General Commands SOURcCe lt hw gt BB BTO0thN BCText 22222 212222210idsirss sdasskaski ndunsssalusdaskab n sska sk kasakakakindar 64 ESOURcechw BR BiOGiCT YPE EE ee ed ed m Ska a Ne
142. nanananana 94 SOURce lt hw gt BB BTOoth PCONfiguration DWhHitening aiaaaaaaaaasasaanananannnanananananann 95 5SOURce lt hw gt BB BTOoth PCONfiguration EIRPacketfollows aaaiaaaaaaaaaasnaaunnsnnnnnnannna 95 SOURce lt hw gt BB BTOoth PCONfig ratlion HFCoOntrol 1 2 22 1221 sssis vassksnssaninssanuvnnakusana 96 SOURce lt hw gt BB BTOoth PCONfiguration L TADdressS aaaaaaaaaaaasaaasen nsnaaaaanasunannananannanana 96 SOURceshw BB BTOoth PCONiguration PFControl ee eed ania Re ee ee ee ee ee ee 96 SOURceshw BB BTOoth PCONiguration PLENGER ee ee ees see se se ee ee ee ee ee ee ee 97 Bluetooth Enhanced Data Rate Remote Control Commands a rr Packet Configuration Setting SOURce lt hw gt BB BTOoth PCONfiguration SNSValu e aaaaaaaaaaaaasaxas n n nasasanananunnananaananana 97 SOURce lt hw gt BB BTOoth PCONfiguration SRM0de aaaanaaanaaaaaa sasasaaanannnnananananannnanani 98 SOURceshw BB BTOoth PCONiguration VDATa iese es ee ee AR ER Ee ER ee 98 SOURce lt hw gt BB BTOoth PCONfiguration ACKNowledgement lt Acknowledgement gt This command sets the ARQN bit of the packet header Parameters lt Acknowledgement gt NAK ACK NAK Request to retransmit the previous payload ACK Previous payload has been received successfully RST ACK Example BB BTO PTYP DHI selects the packet type DH1 BB BTO PCON DSFP PED enable packet edi
143. nce length is expressed in Frames For TERMINATE_IND packets a default value according to the specification is given Master SlaveLatency 6 Slave 6 For all other packet types the sequence length is expressed in Events Parameters lt UsLength gt float Range 1 to 1000 RST 1 Example SOUR BB BTO USL 1000 selects the number of frames or events Operating Manual 1171 6496 12 10 125 LE Commands Manual operation See Sequence Length on page 28 Bluetooth Enhanced Data Rate List of Commands List of Commands SOURGe hNw gt BB BTO0IN BER018 1 777203 EE EE EE N ba Vaska aaa an ja a v Viak ada 105 ESOURceshw gt BB BT Ooin BC EA sci ceeancsscevsiacanderdeehesnesuchacausadtontondns Ee bresse sa saa nan pd s Unn RS Rana GEK naka Aa ee 64 SOQURce lt hw gt BB BTO0oth BMOQD6e 11 112 4 110110 0 slab ee ee Ge sta AR RA aaia Ge sl ka sada kava dild Re ee 106 SOURce lt hw gt BB BTOoth CLIPping LEVel a iaaaaaaianaasansanansannansannannnsannnnnnnnnnnnnnnnnnnnnnnnnannnnansanannanannaa 70 SOURce lt hw gt BB BTOoth CLIPping MODE iiaiaaiiaaaaaaaaaaaaiaasaasaannanaaannannnannannnnnaannnanaunnannananandannaanaansaanaaa 70 SOURce lt hw gt BB BTOoth CLIPping STATe a iaaiaaaaaaaaaaasanaasansasnasanansannanannannnnnnnannnnnannansnnnannnnansnnnnsnnnnnanaa 71 SOQURcCe lt hNw gt TI BB BTO0th CLOGK MOBE 1 11 akta as alt aa Via atla Ka aa tg Vk aaa aaa Sagara a 86
144. ntroller state Advertising Settings Controller s device address 2aaiiaassaaaassasssaassaaan 41 Advertising Event Delay a aaaaaaaaaaaasaassaasanssaasani 31 Conventions Advertising Event Interval aa SCPI commands Advertising Packet Interval aaaaaaaiiassaas anni 31 ele EE AR ER IE Scan Interval Crest ee ER N OE EE OE adie Scan Window sind Crest factor Clipping Test Packet Interval ses etiese Ee NEE ese Ke esse Se gee se 44 Current Range without Recalculation Test Packet Payload Length a 2aiiaiiasiaiana 45 Current Range Without Recalculation Maximum Transmit window offset F Current Range Without Recalculation Minimum Transmit window Size aaaiaaaaaaasiaaiaassansanssannani Cut Off Frequency Factor aaaaaaaaaaaaaaaaaansnanassnannanani AND ala is er Pe N Ee AE RE ee kia Arm Trigger D Armed AUtO iiaiiaaaiiaaaaaaaaasaaaisaasunaanananannaannaaanssanasnnniaanaa Armed Retrigger saaiaiiaaiaiaaiaaiasasaasasaanasasaasasaasaaaa Data Channel Map Table Re EE r see Data Channel Table Data channel type ees ke ee ee Re ee B Data length Packet configuration aiiaiaasiaaiaassanaasasannansaanaaa 24 EA EE EE N Data Length Baseband Clipping Packet configuration Baseband filter iss VERRE ER ESE cinerea Data List Management eee ee ke ke ee ee Baseband Filter
145. nu gt Power Ramping E Bluetooth A Power lid Ramp Control Ramp Function Cosine 7 1 v Rise Offset 0 Symbols MI Fall Offset 0 Symbols MI The dialog is used to set the power ramping Provided are the following settings Ramp Function Selects the form of the transmitted power i e the shape of the rising and falling edges during power ramp control Linear The transmitted power rises and falls with linear fashion Cosine The transmitted power rises and falls with a cosine shaped edge This gives rise to a more favorable spectrum than the Linear setting Remote command SOURCe lt hw gt BB BTOoth PRAMping RFUNction on page 89 Operating Manual 1171 6496 12 10 52 Bluetooth Enhanced Data Rate User Interface Trigger Marker Clock Settings Ramp Time Sets the power ramping rise time and fall time for a burst Remote command SOURCe lt hw gt BB BTOoth PRAMping RTIMe on page 90 Rise Offset Sets the offset in the rising edge of the envelope at the start of a burst A positive value moves the ramp into the beginning of a transmitted packet and a negative value intro duces an additional guard period before the start of the packet Remote command SOURCe lt hw gt BB BTOoth PRAMping ROFFset on page 89 Fall Offset Sets the offset of the falling edge of the envelope at the end of a burst A positive value introduces a guard period after the end o
146. ommand Operating Manual 1171 6496 12 10 119 Bluetooth Enhanced Data Rate Remote Control Commands Q EE ee ar LE Commands Parameters lt RVector gt integer Example SOUR BB BTO ECON PCON RVEC H0000000000000000 64 sets the random vector of the master Manual operation See Random Vector hex on page 40 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SCACcuracy lt ScAccuracy gt Defines the master s clock accuracy with specified encoding This parameter is used by the slave to determine required listening windows in the LL connection It is a con troller design parameter known by the Controller Parameters lt ScAccuracy gt SCAO SCA1 SCA2 SCA3 SCA4 SCA5 SCAG SCA7 RST SCAO Example SOUR BB BTO ECON PCON SCAC SCA1 sets the encoding value Manual operation See Sleep Clock Accuracy on page 43 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SLATency lt SLatency gt for data event and advertising frame configuration with the packet type CON NECT_REQ Sets a number of consecutive connection events the slave can ignore for asymmetric link layer connections Parameters lt SLatency gt integer Range 0 to 1000 RST 0 Example SOUR BB BTO UPTY CREQ sets packet type CONNECT_REQ SOUR BB BTO ECON PCON SLAT 10 sets the number of consecutive connection even
147. on Vector hex aaanaaaaaaaaassaas saassasaari initiator s address type 2aa aaansaaaasaaassaassaaaaaaaa Initiator s device address FREE EE EE EE ED a LL Connection Event Count LL Connection Timeout Logical Transport Address esse ee ee NAR N EP NESN Start Value Packet Length osiris EE Ee SR EE Se Ka Ge Ed ge Ee ee Operating Manual 1171 6496 12 10 132 Bluetooth Enhanced Data Rate Index Random Vector hex iaiaaaaiaaassaaasssaassaaassaaanasna Scan Repetition Mode ee Re ke Scanner s device address di SEON Start Value esse see se ese ese Re RARR Ee REDE Ee Rg ke eke Show Data Channel Mapping Table 40 Show Data Channel Table ss Simulation Mode ese ee ke ee Slave Latency ske Ee EERS or ER EE RE Ee ese EES Re Sleep Clock Accuracy Sis SN Start Value sei SEER GEEN ESEG ER GEN EG s Re KEER DEE See Sub Version Number iese ee ee ee UAP A Unknown Type hex aaaaaaaaaai aaaaaas aaaassnasnananannnnnnn Version Number serie Gee EER EERS ER NEGE G Ee eek stskski uian Packet Configuration Session Key iD hex Packet Configuration Channel State Packet Configuration Channel Table Packet Configuration Data Channel Map Table 5 Packet Configuration Data Whitening Packet Editor Packet Length v Packet Structures sis reses GERS
148. on and off Baseband clipping is a very simple and effective way of reducing the crest factor of the signal Since clipping is done prior to filtering the procedure does not influence the spectrum The EVM however increases Remote command SOURCe lt hw gt BB BTOoth CLIPping STATe on page 71 Clipping Level Sets the limit for clipping Operating Manual 1171 6496 12 10 51 Bluetooth Enhanced Data Rate User Interface a r Ee EE Ee er ge Power Ramping Settings This value indicates at what point the signal is clipped lt is specified as a percentage relative to the highest level 100 indicates that clipping does not take place Remote command SOURCe lt hw gt BB BTOoth CLIPping LEVel on page 70 Clipping Mode Selects the clipping method A graphic illustration of the way in which these two meth ods work is given in the menu Selects the clipping method A graphic illustration of the way in which these two meth ods work is given in the dialog e Vector i q The limit is related to the amplitude i q The and Q components are mapped together the angle is retained e Scalar i q The limit is related to the absolute maximum of all the and Q values i q The and Q components are mapped separately the angle changes Remote command SOURce lt hw gt BB BTOoth CLIPping MODE on page 70 3 9 Power Ramping Settings To access this dialog select Main Me
149. operating in the advertising channel Note that the scan window is less or equal to the value of the scan interval Parameters lt SWindow gt float Range 2 5 to 10240 0 RST 2 5 Example SOUR BB BTO ECON SWIN 2 5 sets the length of the window Manual operation See Scan Window on page 31 SOURce lt hw gt BB BTOoth ECONfiguration WOINfo for data event and advertising frame configuration with the packet type CON NECT_REQ Queries the start point of the transmit window Return values lt Wolnfo gt string Operating Manual 1171 6496 12 10 123 Bluetooth Enhanced Data Rate Remote Control Commands as ER ES EL M OE EER EE EE EE EE LE Commands Example SOUR BB BTO UPTY CREQ sets packet type CONNECT_REQ SOUR BB BTO ECON PCON WOIN queries the start point of the transmit window Usage Query only Manual operation See Transmit Window Offset on page 32 SOURce lt hw gt BB BTOoth ECONfiguration WSINfo for data event and advertising frame configuration with the packet type CON NECT_REQ Queries the size of the transmit window regarding to the start point Return values lt WsInfo gt string Example SOUR BB BTO UPTY CREQ sets packet type CONNECT_REQ SOUR BB BTO ECON PCON WSIN queries the size of the transmit window Usage Query only Manual operation See Transmit Window Size on page 32 SOURce lt hw gt BB BTOoth UPTYpe lt UpType gt Se
150. or the Pure Gauss filter type Manual operation See Roll Off Factor B xT on page 49 SOURce lt hw gt BB BTOoth FILTer PARameter RCOSine lt RCosine gt The command sets the roll off factor for the Root Cosine filter type Parameters lt RCosine gt float Range 0 to 1 0 Increment 0 01 RST 0 4 Example BB BTO FILT PAR RCOS 0 22 sets the roll off factor to 0 22 for filter tyve Root Cosine Manual operation See Roll Off Factor B xT on page 49 SOURce lt hw gt BB BTOoth FILTer PARameter SPHase lt SPhase gt The command sets the B x T for the Split Phase filter type Parameters lt SPhase gt float Range 0 15 to 2 5 Increment 0 01 RST 2 Operating Manual 1171 6496 12 10 75 Bluetooth Enhanced Data Rate Remote Control Commands a a ee r IE EP aM M er Trigger Settings Example BB BTO FILT PAR SPH 0 5 sets B x T to 0 5 for the Split Phase filter type Manual operation See Roll Off Factor B xT on page 49 SOURce lt hw gt BB BTOoth SRATe VARiation lt Variation gt The command enters the symbol rate Parameters lt Variation gt float Range 400 to 15E6 Increment 1 Hz RST 1E6 Default unit Hz Example BB BTO SRAT VAR 1 sets the symbol rate variation to 1 MHz Manual operation See Symbol Rate Variation on page 51 4 3 Trigger Settings D The trigger settings are available for R amp S SMx and R amp S AMU instruments only EXTernal lt ch gt The numeric su
151. ording to the Bluetooth standard the modulation index is allowed to vary between 0 28 and 0 35 Parameters lt MIndex gt float Range 0 28 to 0 35 Increment 0 01 Operating Manual 1171 6496 12 10 101 Bluetooth Enhanced Data Rate Remote Control Commands VERRE ee ee EE ee eee Dirty Transmitter Test Example BB BTO PTYP DHI sets the packet type BB BTO DTT TABL LONG enters the table type BB BTO DTT TABL LONG SET2 MIND 0 3 enters a modulation index Manual operation See Modulation Index on page 48 SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt STATe lt State gt The command activates or deactivates the corresponding parameter set for the long table If a set deactivated its parameters are skipped in the sequence Instead the next active set is used For Basic Rate packets each set applies to 20ms of signal Parameters lt State gt 0 1 OFF ON Example BB BTO PTYP DHI sets the packet type BB BTO DTT TABL LONG enters the table type BB BTO DTT TABL LONG SET2 STAT ON activates the set 2 in the long table Manual operation See State on page 47 SOURce lt hw gt BB BTOoth DTTest TABLe LONG SET lt ch gt STERror lt StError gt The command enters a symbol timing error in ppm The Symbol Timing Error modifies the symbol clock frequency by the set amount Parameters lt StError gt float Range 150 ppm to 150 ppm Increment 1 ppm Exampl
152. pecified in which case the files in the specified directory are read The file extension may be omitted Only files with the file extension bto will be deleted Operating Manual 1171 6496 12 10 66 Bluetooth Enhanced Data Rate Remote Control Commands lt a 333339588 r General Commands Parameters lt Filename gt string Example BB BTO SETT DEL lt root gt bluetooth deletes the specified file with Bluetooth settings Manual operation See Save Recall on page 16 SOURce lt hw gt BB BTOoth SETTing LOAD Filename This command loads the selected file with Bluetooth settings The directory is set using command MMEM CDIRectory A path can also be specified in which case the files in the specified directory are read The file extension may be omitted Only files with the file extension bto will be loaded Parameters lt Filename gt string Example BB BTO SETT LOAD bluetooth_1 loads file bluetooth 1 Manual operation See Save Recall on page 16 SOURce lt hw gt BB BTOoth SETTing STORe lt Filename gt This command stores the current Bluetooth settings into the selected file The directory is set using command MMEM CDIRectory A path can also be specified in which case the files in the specified directory are read Only the file name has to be entered Bluetooth settings are stored as files with the specific file extensions bto Setting parameters lt
153. plication factor for clock type Multiple Sample Remote command SOURCe lt hw gt BB BTOoth CLOCk MULTiplier On page 87 Measured External Clock Provided for permanent monitoring of the enabled and externally supplied clock signal Remote command CLOCk INPut FREQuency 3 10 5 Global Settings The buttons in this section lead to dialogs for general trigger clock and mapping set tings These settings are available for R amp S SMx and R amp S AMU instruments only Global Trigger Clock Settings Calls the Global Trigger Clock Input Settings dialog This dialog is used among other things for setting the trigger threshold the input impe dance and the polarity of the clock and trigger inputs In the case of two path instruments these settings are valid for both paths The parameters in this dialog affect all digital modulations and standards and are described in chapter Global Trigger Clock Input Settings in the Operating Manual User Marker AUX I O Settings Calls the User Marker AUX I O Settings dialog used to map the connector on the rear of the instruments See also User Marker AUX I O Settings in the Operating Manual Operating Manual 1171 6496 12 10 62 Bluetooth Enhanced Data Rate Remote Control Commands 4 Remote Control Commands The following commands are required to perform signal generation with the Bluetooth options in a remote environment We assume that the R amp S Sign
154. rated once to the set sequence length SOUR BB BTO TRIG SLEN Every subsequent trigger event causes a restart RST AUTO Operating Manual 1171 6496 12 10 81 Bluetooth Enhanced Data Rate Remote Control Commands VERRE ee ee EE EE ee ee r EE ee EE ee er 4 4 Marker Settings Example BB BTO SEQ AAUT sets the Armed_auto trigger mode the device waits for the first trigger e g with TRG and then generates the signal continu ously Manual operation See Trigger Mode on page 54 Marker Settings This section lists the remote control commands necessary to configure the markers The marker delay settings are available for R amp S SMx and R amp S AMU instruments only OUTPut lt ch gt The numeric suffix to OUTPut distinguishes between the available markers Only two markers are available for the R amp S SMBV i e the allowed values for the suffix are 1 or 2 SOURce lt hw gt BB BTOoth TRIGger OUTPut DELay FlXed iiaaaaaaaaaassa aaaaaaannnaaannnnnnnnna 82 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay iaiaxaaaxaaaaa sasasusaananannnnnnnnananani 83 CSOURceshw BB BTOoth TRIGger OUTPutech DELay MAXIMUM ees sees ee see ee ee ee ee 83 CSOURceshw BB BTOoth TRIGger OUTPutech DELay MINIMUM esse ee see ee ee ee ee 83 CSOURceshw BB BTOoth TRIGger OUTPutech MODE ee ees ee ee ee ee ee ee ee RE ee 84 SOURce lt hw gt BB BTOoth TRIGger OUTP
155. ration PCONfiguration ECODe 2aaiiaaaaaaaaasaaassaassasanssanassaaanaaa 114 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration EDlVersifier a aaaiaaaaaisaasssaassananana 115 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration FSLength 2aaiaaaassaaas aassaassssaaasaaa 115 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration HLENGth 2aaaaaaavaaaas aassaassssaaaasaaa 115 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ICASsigned 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration ICI1D aaiaaiaiaaiasassasansassasansanansansasanaana 110 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration LCTimeout aaaiaaaaaaaaasaaassanannaaannnaai 116 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration MIVector aaaaaiaaaansannaasnnnnnasnnnnannannna 116 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration MSKD aaiiaaiaaaaiassasassasansansasassasaasassaaa 116 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NCINterval a aaasaaassaassaasssaanaasaaa 117 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NLCTimMeout iaaiaaaaaaaaaiaaaassaassaaanaaa 117 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration NSLatency aaaaaaassaaassaassaass saaassaaa 118 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration N
156. rement 1KHz RST 25 kHz Example BB BTO DTT FDD 25 enters frequency drift deviation Manual operation See Frequency Drift Deviation on page 47 Operating Manual 1171 6496 12 10 99 Bluetooth Enhanced Data Rate Remote Control Commands VERRE ee ee EI EE ee ee r eee Dirty Transmitter Test SOURceshw BB BTOoth DTTest FDRate lt FdRate gt The command enters a freguency drift rate A sine wave is used to drift the modulated Bluetooth signal around center freguency carrier frequency offset with the set frequency drift rate Parameters lt FdRate gt 0 3 KHz 0 5 KHz 1 6 KHz 10 KHz Range 0 3 kHz to 10 kHz RST 1 6 kHz Example BB BTO DTT FDR 1 6 enters frequency drift rate Manual operation See Frequency Drift Rate on page 47 SOURce lt hw gt BB BTOoth DTTest SPHase lt SPhase gt The command enters a start phase The start phase of the sine wave used to drift the modulated Bluetooth signal around center frequency carrier frequency offset is set here Parameters lt SPhase gt integer Range 0 to 359 Increment 1 RST 0 Default unit degree Example BB BTO DTT SPH 0 enters a start phase Manual operation See Start Phase on page 47 SOURce lt hw gt BB BTOoth DTTest STDefault The command calls the default settings for the Dirty Transmitter Test Example BB BTO DTT STD calls the default settings Usage Event Manual operation See Set to Default on page 46
157. responding to the Time Off Time On specifications in the commands SOURce BB BTO TRIGger OUTPut OFFTime and SOURce BB BTO TRIGger OUTPut ONTime is generated TRIGger A received internal or external trigger signal is output at the marker connector RST RESTart Operating Manual 1171 6496 12 10 84 Bluetooth Enhanced Data Rate Remote Control Commands VEER ee EE ee r EE Ee ee Marker Settings Example BB BTO TRIG OUTP MODE REST selects the marker generation at the start of each signal sequence Manual operation See Marker Mode on page 59 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt ONTime lt OnTime gt SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt OFFTime lt OffTime gt The command sets the number of samples in a period ON time OFF time during which the marker signal in setting SOURce BB BTO TRIGger OUTPut MODE RATio on the marker outputs is OFF Parameters lt OffTime gt float Range 1 sample to 1 lt lt 24 1u samples Increment 1 sample RST 1 sample Example BB BTO TRIG OUTP OFFT 2000 sets an OFF time of 2000 samples for the corresponding marker signal Manual operation See Marker Mode on page 59 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PATTern lt Pattern gt The command selects the data for a pattern Parameters lt Pattern gt integer Example BB BTO TRIG OUTP MODE PATT sets the marker mode for the corresponding marker signal
158. rigger e Internal Baseband A B two path instruments The trigger event is the trigger signal from the second path e External Trigger 1 2 The trigger event is the active edge of an external trigger signal supplied at the TRIGGER 1 2 connector Use the Global Trigger Clock Settings dialog to define the polarity the trigger threshold and the input impedance of the trigger signal Remote command SOURce lt hw gt BB BTOoth TRIGger SOURce on page 80 Sync Output to External Trigger enabled for Trigger Source External Enables disables output of the signal synchronous to the external trigger event For R amp S SMBV instruments For or two or more R amp S SMBVs configured to work in a master slave mode for syn chronous signal generation configure this parameter depending on the provided sys tem trigger event and the properties of the output signal See the table below for an overview of the required settings Operating Manual 1171 6496 12 10 56 Bluetooth Enhanced Data Rate User Interface Trigger Marker Clock Settings Table 3 5 Typical Applications System Trigger Application Sync Output to External Trig ger Common External Trigger event All instruments are synchronous ON for the master and the slave to the external trigger event instruments All instruments are synchronous OFF among themselves but starting the signal from first symbol is more important than synchronicity with external
159. s This section lists the remote control commands necessary to configure the clock D The clock settings are available for R amp S SMx and R amp S AMU instruments only ESOURce lt hw BB BT OothGlOCk MODE EMM gan DES ANKER ENS Ie DERE N EN EE SA een ee ge ed a 86 ESOURceshw BBBTOoth CLOCKMULTIDIEF 1 114222222122 220000 REG SE RENE aaa 87 SOURce lt hw gt BB BTOoth GLOCK SOURGCE ii eN RE SA RS SE NA RE N N RR a Ge RR ARE 87 CSOURceshw BB BTOOoth CLOCK SYNChronization EXE Cute ee ee ee ee ee ee ee Re ee 88 SOURce lt hw gt BB BTOoth CLOCk SYNChronization MODE aaaaaaaaaaaaaaaaa ssa aaaaaaaaasaananannn 88 SOURce lt hw gt BB BTOoth CLOCk MODE lt Mode gt The command enters the type of externally supplied clock When MSAMp1e is used a multiple of the clock is supplied and the clock is derived internally from this The multi plier is entered with the command SOURce lt hw gt BB BTOoth CLOCk MULTiplier For two path instruments the only numerical suffix allowed for SOURce is 1 since the external clock source is permanently allocated to path A Operating Manual 1171 6496 12 10 86 Bluetooth Enhanced Data Rate Remote Control Commands as a EE EE EE EE T Ty MM EE EE RE EER EI Clock Settings Parameters lt Mode gt SAMPle MSAMple RST SAMP Example SOURce1 BB BTO CLOCk MODE MSAMple sets the type of externally supplied clock Manual operation See C
160. selected with the parameter Synchronization Mode Remote command SOURce lt hw gt BB BTOoth CLOCk SYNChronization EXECute on page 88 Clock Source Selects the clock source Internal The internal clock reference is used to generate the symbol clock External The external clock reference is fed in as the symbol clock or multiple thereof via the CLOCK connector The symbol rate must be correctly set to an accuracy of 2 see data sheet The polarity of the clock input can be changed with the aid of Global Trigger Clock Settings In the case of two path instruments this selection applies to path A Remote command SOURce lt hw gt BB BTOoth CLOCk SOURce on page 87 Clock Mode This feature is available for the external clock source only Selects the type of externally supplied clock Sample A sample clock is supplied via the CLOCK connector Multiple Sam A multiple of the sample clock is supplied via the CLOCK connector ple The sample clock is derived internally from this The value range is 1 to 64 The Clock Multiplier field provided allows the multiplication factor to be entered Remote command SOURce lt hw gt BB BTOoth CLOCk MODE on page 86 Operating Manual 1171 6496 12 10 61 Bluetooth Enhanced Data Rate User Interface Trigger Marker Clock Settings Clock Multiplier This feature is available for the external clock source only Enters the multi
161. signed If channel type Advertising is selected the parameter is read only and dis played directly above the graph Parameters lt BcRole gt MASTer SLAVe MASTER Assigns master role to the controller SLAVE Selects slave as controller role RST MASTer Example SOUR BB BTO BCR MAST master as controller role SOUR BB BTO BCR SLAV slave as controller role Manual operation See Bluetooth Controller Role on page 28 Bluetooth Enhanced Data Rate Remote Control Commands VERRE ee ee EI EE ee T EE EP EE ee Ee LE Commands SOURce lt hw gt BB BTOoth BMODe lt BMode gt Determines the digital Bluetooth standard Basic Rate EDR or Bluetooth Low Energy are available Parameters lt BMode gt BASic BLENergy BASic Selects the Bluetooth mode Basic Rate EDR BLENergy Selects the Bluetooth mode Low Energy RST BASic Example SOUR BB BTO BMOD BLEN Bluetooth mode Low Energy Manual operation See Bluetooth Mode on page 18 SOURce lt hw gt BB BTOoth DTTest TPConfiguration TPINterval lt Tpinterval gt Sets the time interval between two consecutive test packets with regard to the starting points Parameters lt Tplnterval gt float Range 0 625 to 12 5 Increment 0 001 RST 0 625 Example SOUR BB BTO DTT TPC TPIN 1 0 sets a time interval of 1 0 Manual operation See Packet Interval on page 44 SOURce lt hw gt BB BTOoth DTTest TPConfiguration UPLength lt UpL
162. sing and data are available Refer to chapter 3 5 Event Frame Configuration Bluetooth LE on page 29 for setting the respective parameters Advertising Selects channel type Advertising Data Selects channel type Data Devices in a connected state transmit data channel packets in con nection events with a start point and an interval Remote command SOURCe lt hw gt BB BTOoth CTYPe On page 65 Operating Manual 1171 6496 12 10 26 Bluetooth Enhanced Data Rate User Interface Bluetooth Low Energy Packet Type Selects the packet type The available packet types depend on the selected channel type as shown in the table below table 3 1 Table 3 1 Packet types of the respective channel types Packet Type Advertising Data ADV_IND x ADV_DIRECT_IND x ADV_NONCONN_IND X ADV_DISCOVER_IND X SCAN_REQ X SCAN_RSP Xx CONNECT_REQ X DATA x CONTROL DATA x TEST PACKET x x Depending on the Bluetooth Controller Role master or slave you can determine in detail the information of the CONTROL_DATA as shown in the following table table 3 2 Table 3 2 Control information available for master or slave CONTROL_DATA Master Slave LL_CONNECTION_UPDATE_REQ x LL_CHANNEL_MAP_REQ x LL_TERMINATE_IND x LL_ENC_REQ x LL_RNC_RESP x LL_START_ENC_REQ x x LL_START_ENC_RESP x x LL_UNKNOWN_RESP
163. t BB BTOoth PCONfiguration LTADdress on page 96 Flow Control Header Available for all packet types except ID Sets the FLOW bit in the header This bit indicates start or stop of transmission of packets over the ACL logical transport Go Allows the other devices to transmit new data Stop Stops the other devices from transmitting data temporarily Remote command SOURce lt hw gt BB BTOoth PCONfiguration HFControl on page 96 Operating Manual 1171 6496 12 10 22 Bluetooth Enhanced Data Rate User Interface Packet Configuration Bluetooth Basic Rate EDR Acknowledgment Available for all packet types except ID Sets the ARQN bit of the packet header NAK Request to retransmit the previous payload ACK Previous payload has been received successfully Remote command SOURce lt hw gt BB BTOoth PCONfiguration ACKNowledgement on page 91 SEQN Start Value Available for all packet types except ID Sets the start value of the header SEQN bit The SEQN bit is present in the header to filter out retransmissions in the destination The signal generator is altering this bit automatically on consecutive frames if a sequence length of at least 2 frames is set o The SEQN bit starts with 0 mn The SEQN bit starts with 1 Remote command SOURce lt hw gt BB BTOoth PCONfiguration SNSValue on page 97 Data Source Available for all packet types except ID POLL NULL an
164. ta The table and the figures below give an overview of the ACL packets and their structure Table 2 1 ACL packet Bascic Rate Type Payload FEC Header bytes User Payload bytes CRC Slot Num ber Yes 16 bit DM5 0 224 2 3 DH5 0 339 no AUX1 1 0 29 no Fig 2 1 Packet Structure of ACL packets Basic Rate Table 2 2 ACL packets Enhanced Rate Type Payload User Payload FEC CRC Slot Num ber Header bytes bytes 2 DH1 0 54 1 2 DH3 0 367 3 2 DH5 2 0 679 no Yes 16 bit 5 3 DH1 0 83 1 3 DH3 0 552 3 2 DH5 0 1021 5 Operating Manual 1171 6496 12 10 8 Bluetooth Enhanced Data Rate Introduction Bluetooth Packet Types Sync Trailer Fig 2 2 Packet Structure of ACL packets Enhanced Rate 2 2 2 SCO and eSCO packets The SCO and eSCO packets are used for symmetric links The SCO packets are used for 64 kb s speech transmission and for transparent synchronous data The eSCO packets are also used for 64kb s speech transmission and transparent data at 64 kb s but also at other rates The tables and the figures below give an overview of the SCO and eSCO packets and their structure Table 2 3 SCO packets Type Payload User Payload FEC CRC Slot Num ber Header bytes bytes HV1 10 1 3 HV2 n a 20 no HV3 30 2 3 n
165. ta Rate Remote Control Commands a I EE ee ee IE ee eae Marker Settings Example BB BTO TRIG OUTP DEL FIX ON restricts the marker signal delay setting range to the dynamic range BB BTO TRIG OUTP DEL MIN queries the minimum of the dynamic range Response 0 the minimum for the marker delay setting is 0 samples Usage Query only Manual operation See Current Range without Recalculation on page 60 CSOURceshw BB BTOoth TRIGger OUTPutech MODE Mode The command defines the signal for the selected marker output Parameters lt Mode gt RESTart STARt ACTive PULSe PATTern RATio TRIGger RESTart A marker signal is generated at the start of each signal sequence STARt A marker signal is generated at the start of each frame ACTive The marker masks the active part of the frame At the start of each burst the marker signal changes to high It changes back to low after the end of each burst PULSe A regular marker signal is generated The clock frequency is defined by entering a divider The frequency is derived by divid ing the symbol rate by the divider The input box for divider opens when Pulse is selected and the resulting pulse frequency is displayed below PATTern A marker signal that is defined by a bit pattern is generated The pattern has a maximum length of 32 bits and is defined in an input field which opens when pattern is selected RATio A regular marker signal cor
166. te command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration CID on page 111 Version Number Sets the version of the Bluetooth Controller specification 8 bits Note This parameter is relevant for data frame configuration and the packet type LL_VERSION_IND Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration VNUMber on page 121 Operating Manual 1171 6496 12 10 43 Bluetooth Enhanced Data Rate User Interface Packet Configuration Bluetooth LE Sub Version Number Sets a unique value for each implementation or revision of an implementation of the Bluetooth Controller A 16 bit value is set Note This parameter is relevant for data frame configuration and for the packet type LL VERSION IND Remote command SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SVNumber on page 121 Graph The figure in the packet configuration dialog shows the packet structure of the currently selected packet type Remote command n a 3 6 2 Test Packet Configuration Settings The Test Packet Configuration dialog is reached via the Bluetooth main dialog or alternatively the Dirty Transmitter test dialog The dialog contains the settings necessary to configure the test packet and graphically shows the distribution of the packets E Bluetooth A Test Packet Configuration x Packet Configuration Payload Payload Type PRse z Pay
167. tor under data source for packet BB BTO PCON ACKN ACK sets positive acknowledgement Manual operation See Acknowledgment on page 23 SOURce lt hw gt BB BTOoth PCONfiguration BDALap lt BdaLap gt Enters the lower address part of Bluetooth Device Address The length of LAP is 24 bits or 6 hexadecimal figures Parameters lt BdaLap gt integer Range HOOOOOO to HFFFFFF RST 80 Example BB BTO PCON BDAL H000000 24 sets the lower address part Manual operation See Bluetooth Device Address BD_ADDR on page 22 SOURce lt hw gt BB BTOoth PCONfiguration BDANap lt BdaNap gt Enters the non significant address part of Bluetooth Device Address The length of NAP is 16 bits or 4 hexadecimal figures Parameters lt BdaNap gt integer Range HOOOO to HFFFF RST ABCD Operating Manual 1171 6496 12 10 91 Bluetooth Enhanced Data Rate Remote Control Commands VERRE ee ee EI ee EE EE ee ee r rr Packet Configuration Setting Example BB BTO PCON BDAN HOOOO 16 sets the non significant address part Manual operation See Bluetooth Device Address BD ADDR on page 22 SOURce lt hw gt BB BTOoth PCONfiguration BDAUap lt BdaUap gt Enters the upper address part of Bluetooth Device Address The length of UAP is 8 bits or 2 hexadecimal figures Parameters lt BdaUap gt integer Range HOO to HFF Increment 1 RST 48 Example BB BTO PCON BDAN HOO 8 sets the non significant
168. trigger mode other than Auto have been selected Remote command SOURCe lt hw gt BB BTOOth TRIGger EXECute On page 77 Arm Stops signal generation manually This button appears only with Running signal gen eration in the Armed Auto and Armed_Retrigger trigger modes Signal generation can be restarted by a new trigger internally with Execute Trigger or externally Remote command SOURCe lt hw gt BB BTOoth TRIGger ARM EXECute on page 76 Clock Calls the dialog for selecting the clock source and for setting a delay see chapter 3 10 Trigger Marker Clock Settings on page 53 Remote command n a Operating Manual 1171 6496 12 10 19 Bluetooth Enhanced Data Rate User Interface Bluetooth Basic Rate EDR 3 2 Bluetooth Basic Rate EDR The dialog comprises the parameters to define the packet type and access the packet type configuration dialog The graphic shows the frame structure of the selected packet type Transport Mode Only available for Bluetooth Mode set to Basic Rate EDR Selects the transport mode ACL EDR The transport mode selected is used for a point to multipoint link establishment between the master and all the slaves participating on the piconet SCO The transport mode selected is used for a point to point link estab lishment between a master and a single slave in the piconet eSCO EDR The transport mode select
169. ts Manual operation See Slave Latency on page 39 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SSValue lt SsValue gt Sets the sequence number of the packet This parameter can be set in the first event From the second event this field is not indicated Operating Manual 1171 6496 12 10 120 Bluetooth Enhanced Data Rate Remote Control Commands ss EE EE EE EE EE EE EE r EE EE LE Commands Parameters lt SsValue gt integer Range 0 to 1 RST 0 Example SOUR BB BTO ECON PCON SSV 1 sets the sequence number of the packet Manual operation See SN Start Value on page 37 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration SVNumber lt SvNumber gt Sets a unique value for each implementation or revision of an implementation of the Bluetooth Controller A 16 bit value is set Note This parameter is relevant for data frame configuration and for the packet type LL_VERSION_IND Parameters lt SvNumber gt integer RST 0 Example SOUR BB BTO ECON PCON SVN HOOOO 16 sets the sub version number Manual operation See Sub Version Number on page 44 SOURce lt hw gt BB BTOoth ECONfiguration PCONfiguration UTYPe lt UType gt Enables that an invalid control packet is indicated The CtrType field indicates the value of the LL control packet that caused the transmission of this packet Parameters lt UType gt integer Example SOUR BB BTO ECON PCON UTYP H
170. ts the B x T for the Gauss filter type Parameters lt FGauss gt float Range 0 15 to 2 5 Increment 0 01 RST 0 5 Example BB BTO FILT PAR FGA 0 5 sets B x T to 0 5 for the Gauss filter type for the GFSK section of the packet Manual operation See Roll Off Factor B xT on page 49 SOURce lt hw gt BB BTOoth FiLTer PARameter GAUSs lt Gauss gt The command sets the B x T for the Gauss filter type Parameters lt Gauss gt float Range 0 15 to 2 5 Increment 0 01 RST 0 5 Example BB BTO FILT PAR GAUS 0 5 sets B x T to 0 5 for the Gauss filter type for 1 4 DQPSK or 8DPSK sections Manual operation See Roll Off Factor B xT on page 49 SOURce lt hw gt BB BTOoth FiLTer PARameter LPASs lt LPass gt The command sets the cut off frequency factor for a lowpass filter ACP Opt Operating Manual 1171 6496 12 10 74 Bluetooth Enhanced Data Rate Remote Control Commands Filter Clipping Settings Parameters lt LPass gt float Range 0 05 to 2 00 Increment 0 01 RST 0 50 Example BB BTO FILT PAR LPAS 1 sets the cut off frequency factor for a lowpass filter Manual operation See Cut Off Frequency Factor on page 50 SOURce lt hw gt BB BTOoth FILTer PARameter PGAuss lt PGauss gt The command sets the B x T for the Pure Gauss filter type Parameters lt PGauss gt float Range 0 15 to 2 5 RST 0 5 Default unit 0 01 Example BB BTO FILT PAR PGA 0 5 sets B x T to 0 5 f
171. two path instruments this affects the same path BB BTO STAT ON deactivates the other standards and digital modulation Parameters lt State gt 0 1 OFF ON RST OFF Example BB BTO STAT ON activates modulation in accordance with the Bluetooth standard Manual operation See State on page 16 SOURce lt hw gt BB BTOoth TMODe lt TMode gt The command selects the transport mode Operating Manual 1171 6496 12 10 68 Bluetooth Enhanced Data Rate Remote Control Commands Q EE a a General Commands Parameters lt TMode gt ACL SCO ESCO ACL The selected transport mode is used for a point to point multi point link establishment between the master and all the slaves participating on the piconet SCO The selected transport mode is used for a point to point link establishment between a master and a single slave in the pico net ESCO The selected transport mode is used for a symmetric or asym metric point to point link establishment between a master and a specific slave RST ACL Example BB BTO TMOD ACL selects transport mode ACL Manual operation See Transport Mode on page 20 SOURce lt hw gt BB BTOoth VERSion lt Version gt The command queries the version of the Bluetooth standard underlying the definitions Parameters lt Version gt string Example BB BTO VERS queries the Bluetooth vers
172. uent internal or external trigger event restart signal generation Operating Manual 1171 6496 12 10 76 Bluetooth Enhanced Data Rate Remote Control Commands EER EE EER ER EE RR EER EE ER r a Te ed Trigger Settings Example BB BTO TRIG ARM EXEC stops signal generation for trigger modes Armed Auto and Armed Retrigger Usage Event Manual operation See Arm on page 19 SOURce lt hw gt BB BTOoth TRIGger EXECute The command executes a trigger The internal trigger source must be selected using the command SOUR BB BTO TRIG SOUR INT and a trigger mode other than AUTO must be selected using the command SOUR BB BTO TRIG SEQ Example BB BTO TRIG SOUR INT sets internal triggering BB BTO SEQ RETR sets Retrigger mode i e every trigger event causes signal gen eration to restart BB BTO TRIG EXEC executes a trigger Usage Event Manual operation See Execute Trigger on page 19 SOURce lt hw gt BB BTOoth TRIGger EXTernal SYNChronize OUTPut lt Output gt enabled for Trigger Source External Enables disables output of the signal synchronous to the external trigger event For R amp S SMBV instruments See also Sync Output to External Trigger on page 56 for a detailed description of the applications of this setting Parameters lt Output gt 0 1 OFF ON ON The signal calculation starts simultaneously with the external trigger event but because o
173. ut lt ch gt ONTiMe aaaaaaaaaaaaaaassa aaaannaaannannnnnannnna 85 SOURG lt hw gt BB BTOOoth TR1Gger 0O U TP u t lt ch gt OFF TIME ees ee es Ee EK RR dad aaa ilia 85 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PATTern aaaxaxaxaiaaaaaaasasasasaananaananananana 85 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PULSe DlVider aaaaaaaaaaaassasanvannnnannnna 85 SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt PULSe FREQuency aiiaaaaxxaaa aaannnnirni 86 SOURce lt hw gt BB BTOoth TRIGger OUTPut DELay FlXed lt Fixed gt The command restricts the marker delay setting range to the current range In this range the delay can be set without restarting the marker and signal If a delay is entered in setting ON but is outside this range the maximum possible delay is set and an error message is generated The numeric suffix in OUTPut has no significance for this command since the setting always affects every marker Parameters lt Fixed gt 0 1 OFF ON RST OFF Example BB BTO TRIG OUTP DEL FIX ON restricts the marker signal delay setting range to the current range Manual operation See Fix marker delay to current range on page 60 Operating Manual 1171 6496 12 10 82 Bluetooth Enhanced Data Rate Remote Control Commands a r ee r EE eee Marker Settings SOURce lt hw gt BB BTOoth TRIGger OUTPut lt ch gt DELay lt Delay gt The command defines the delay between the si
174. ve active in a piconet is assigned a primary logical transport address LT_ADDR The all zero LT_ADDR is reserved for broadcast messages Parameters lt LtAddress gt integer Range 0 to 7 Increment 1 RST 0 Example BB BTO PCON PTYP DH1 sets the packet type BB BTO PCON DSFP PED enable packet editor under data source for packet BB BTO PCON LTAD 0 sets the logical transport address equal zero Manual operation See Logical Transport Address on page 22 SOURce lt hw gt BB BTOoth PCONfiguration PFControl lt PfControl gt The command sets the FLOW bit in the payload flow control per logical link Operating Manual 1171 6496 12 10 96 Bluetooth Enhanced Data Rate Remote Control Commands as EE EE SS r rr Packet Configuration Setting Parameters lt PfControl gt GO STOP GO Indicates the start of transmission of ACL packets after a new connection has been established STOP Indicates the stop of transmission of ACL packets before an additional amount of payload data is sent RST GO Example BB BTO PCON PTYP DH1 sets the packet type BB BTO PCON DSFP PED enable packet editor under data source for packet BB BTO PCON PFC GO allows the flow per logical link Manual operation See Flow Control Payload on page 24 SOURce lt hw gt BB BTOoth PCONfiguration PLENgth lt PLength gt The command enters the packet length in symbols Parameters lt PLength gt float Range 1 to 2873
175. vided are the following settings Modulation type Displays the modulation type used for the current packet selection Remote command SOURce lt hw gt BB BTOoth FILTer MTYPe on page 73 Operating Manual 1171 6496 12 10 50 Bluetooth Enhanced Data Rate User Interface Filter Clipping Settings Frequency deviation Enter the frequency deviation of the frequency modulated part The frequency deviation can be varied in a range from 100 0 kHz to 200 0 kHz accord ing to Bluetooth specification Remote command SOURCe lt hw gt BB BTOoth MSETtings FDEViation on page 73 Modulation index Displays the modulation index resulting from the entered frequency deviation value Modulation index is calculated from the given frequency deviation and symbol rate val ues The modulation index h is defined as 2Af J symdol k where m is the symbol rate and amp is the frequency deviation According to the Bluetooth standard the modulation index is allowed to vary between 0 28 and 0 35 Remote command SOURCe lt hw gt BB BTOoth FILTer MINDex On page 73 Symbol Rate Variation Enter the symbol rate Remote command SOURCe lt hw gt BB BTOoth SRATe VARiation On page 76 3 8 3 Clipping Settings The settings for clipping are collected in the Clipping section Provided are the following settings Clipping State Switches baseband clipping on and off Switches baseband clipping
176. x LL_FEATURE_REQ x LL_FEATURE_RESP x LL_PAUSE_ENC_REQ x LL_PAUSE_ENC_RESP x LL_VERSION_IND x x LL_REJECT_IND x x Operating Manual 1171 6496 12 10 27 Bluetooth Enhanced Data Rate User Interface Bluetooth Low Energy The graphic shows the frame structure of the selected packet type ADV ADV IND IND lt 10 ms lt 10 ms Adv idx 37 Adv idx 38 Adv idx 39 Evert Evert 1 started closed Remote command SOURCe lt hw gt BB BTOoth UPTYpe on page 124 Sequence Length Selects the number of frames or events depending on the packet type The signal repeats after the specified number of frames events For SCAN_REQ and CONNECT REO packet the sequence length is expressed in Frames For TERMINATE_IND packets a default value according to the specification is given e Master SlaveLatency 6 e Slave 6 For all other packet types the sequence length is expressed in Events Remote command SOURCe lt hw gt BB BTOoth USLength On page 125 Bluetooth Controller Role Determines the controller role Note The available packet types for the selected channel types and the controller roles are described in Bluetooth Controller Role on page 28 Depending on the channel type the field either displays the appropriate role or you can select one e Advertiser Displays the controller role corresponding to the packet type Advertiser for all ADV xxx packet types and SC

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