background image

Remote Commands for Bluetooth Measurements (K8)

R&S

®

 FSV-K8

125

Operating Manual 1176.7610.02 ─ 02

4.13 TRIGger subsystem

TRIGger<n>[:SEQuence]:IFPower:HOLDoff 

<Value>

This command sets the holding time before the next IF power trigger event.

Suffix: 

<n>

.

irrelevant

Parameters:

<Value>

*RST: 

150 ns

Example: 

TRIG:SOUR IFP

Sets the IF power trigger source.

TRIG:IFP:HOLD 200 ns

Sets the holding time to 200 ns.

Manual operation:

See 

"Trigger Holdoff"

 on page 63

TRIGger<n>[:SEQuence]:IFPower:HYSTeresis 

<Value>

This command sets the limit that the hysteresis value for the IF power trigger has to fall
below in order to trigger the next measurement.

Suffix: 

<n>

.

irrelevant

Parameters:

<Value>

*RST: 

3 dB

Example: 

TRIG:SOUR IFP

Sets the IF power trigger source.

TRIG:IFP:HYST 10DB

Sets the hysteresis limit value.

Manual operation:

See 

"Trigger Hysteresis"

 on page 63

TRIGger<n>[:SEQuence]:HOLDoff[:TIME] 

<Delay>

This command defines the length of the trigger delay.

A negative delay time (pretrigger) can be set in zero span only.

Suffix: 

<n>

.

irrelevant

Parameters:

<Delay>

Range: 

zero span: -sweeptime (see data sheet) to 30 s;
span: 0 to 30 s

*RST: 

0 s

Example: 

TRIG:HOLD 500us

Manual operation:

See 

"Trigger Offset"

 on page 63

 

TRIGger subsystem

Summary of Contents for FSV-K8

Page 1: ...R S FSV K8 Firmware Option Bluetooth Measurements Operating Manual Operating Manual 2 1176 7610 02 02 Test Measurement...

Page 2: ...ent makes use of several valuable open source software packages For information see the Open Source Acknowledgement on the user documentation CD ROM included in delivery Rohde Schwarz would like to th...

Page 3: ...es 18 2 9 Trigger Concepts 19 3 Instrument Functions for Bluetooth Measurements K8 20 3 1 Measurement Types and Result Display 22 3 2 Adapting the settings to the characteristics of the DUT 33 3 3 Sof...

Page 4: ...ubsystem 110 4 7 INSTrument Subsystem BLUETOOTH K8 112 4 8 SENSe Subsystem BLUETOOTH K8 112 4 9 SENSe ADEMod Subsystem BLUETOOTH K8 119 4 10 SENSe DDEMod Subsystem BLUETOOTH K8 120 4 11 SYSTem subsyst...

Page 5: ...ion of Firmware Options Chapter 5 Basic Operations Chapter 6 Basic Measurement Examples Chapter 7 Brief Introduction to Remote Control Appendix Printer Interface Appendix LAN Interface Operating Manua...

Page 6: ...D SCDMA BTS UE Measurement R S FSV K82 83 CDMA2000 BTS MS Analysis R S FSV K84 85 1xEV DO BTS MS Analysis R S FSV K91 WLAN IEEE 802 11 R S FSV K93 WiMAX IEEE 802 16 OFDM OFDMA Analysis R S FSV K100 K1...

Page 7: ...ritten in capital letters File names commands program code File names commands coding samples and screen output are distin guished by their font Input Input to be entered by the user is displayed in i...

Page 8: ...ey is displayed Contents of the help dialog box The help dialog box contains four tabs Contents contains a table of help contents View contains a specific help topic Index contains index entries to se...

Page 9: ...for Users of R S FSV 1307 9002Kxx Models Users of R S FSV 1307 9002Kxx models should consider the following differences to the description of the newer R S FSV 1321 3008Kxx models Functions that are b...

Page 10: ...ooth menu This chapter also presents the remote control commands associated with each softkey function chapter 4 Remote Commands for Bluetooth Measurements K8 on page 67 Describes all remote control c...

Page 11: ...kHz 010101 suite bandwidth 3dB 20dB 220 kHz 1 MHz bit rate 1 Mbps Table 2 3 Modulation Parameters Enhanced Data Rate modulation 4 DQPSK 8DPSK TX filter RRC RRC roll off factor 0 4 0 4 bandwidth 3dB 50...

Page 12: ...ess serves as a basis for the sync word BD address 48 bits NAP 16 bits UAP 8 bits LAP 24 bits In case of EDR packets the payload is divided into 6 other sections DPSK guard 5 s SYNC payload header use...

Page 13: ...kHz VBW 3 MHz 300 kHz Power supported maxi mum supported maxi mum supported maxi mum supported maxi mum not specified Sweep Time one complete packet 79s per sweep 100ms 10 79 one complete packet one c...

Page 14: ...h Sweep Count 10 200 blocks 100 10 Trace Mode ClrWr Maxh Detector Aver Aver Frequency in MHz low middle high low middle high low middle high each channel Span 79 MHz Test cond norm ext norm ext norm e...

Page 15: ...er the signal has been down converted into the com plex base band and the data rate is reduced in the sequence The amount of decima tion depends on the selected oversampling factor points symbol The d...

Page 16: ...y 0 02 dB and has steep edges This measurement filter is not dependent on the selected oversampling factor As a result the displayed deviation value is increased by 3 2 but without the filter the disp...

Page 17: ...ent accuracy unless the optional measurement filter Meas Filter On is used as described in chapter 2 5 Bandwidths on page 15 The spectrum analyzer uses a timing offset correction in order to move the...

Page 18: ...sure ment time The measurement time is selected in order to make sure that always one complete burst is acquired In this case several sweeps are combined to one trace before this result trace is evalu...

Page 19: ...osition In a second step the sync word position is searched by correlation of the signal with the sync word defined in the initialization phase The correlation is performed directly with the FM signal...

Page 20: ...55 chapter 3 5 Softkeys of the Amplitude Menu Bluetooth Mode on page 49 chapter 3 6 Softkeys of the Bandwidth Menu option R S FSV K8 on page 53 chapter 3 8 Softkeys of the Sweep Menu Bluetooth mode o...

Page 21: ...start recall function the indi vidual configuration of the various tests can be preserved over a preset Position of a Bluetooth burst The RF Test Specification allows different methods to determine th...

Page 22: ...the status of the mea surement is indicated as Failed 3 1 1 Output Power Measurement 22 3 1 2 Adjacent Channel Power Measurement 24 3 1 3 Modulation Characteristics Measurement 25 3 1 4 Initial Carri...

Page 23: ...which is used as the trigger basis later The Bluetooth demodulator is placed in a signal path without video filter This is why the video filter cannot be activated with the Output Power measurement T...

Page 24: ...age values of all previous and current packets Average power current packet value minimum and average values of all previous and current packets 3 1 2 Adjacent Channel Power Measurement The measuremen...

Page 25: ...er and upper adjacent channel Lower and upper alternate channel Channel power for each channel 3 1 3 Modulation Characteristics Measurement The measurement of the modulation characteristics Modulation...

Page 26: ...um minimum and average frequency deviation per bit Average Frequency Deviation per packet Minimum and maximum average frequency deviation per packet f1 00001111 Frequency deviation for bit pattern 000...

Page 27: ...r cancombine several traces and determine the measurement results from the resulting trace Fig 3 5 Initial Carrier Frequency Tolerance measurement Result Summary The results of the measurement are sum...

Page 28: ...traces and determine the measurement results from the resulting trace Fig 3 6 Carrier Frequency Drift measurement Result Summary The results of the measurement are summarized in a table beneath the di...

Page 29: ...measurement are summarized in a table beneath the diagram The summary contains the following results Packet type Packet length in symbols Maximum minimum and average power of the GFSK modulated part...

Page 30: ...r M N 3 with M transmit channel of the equipment under test N adjacent channel to be measured The adjacent channel power between 1 MHz and 1 5 MHz from the carrier Adj500kHz Low Upp shall be at least...

Page 31: ...rd ing to the RF Test Specification the software records 200 blocks each with a length of 50 s for the evaluation The number of blocks to be recorded can be changed using the Block Count Carr Freq Sta...

Page 32: ...de DEVM 99 99 percentile of differential error vector magnitude 3 1 9 Differential Phase Encoding EDR measurement The measurement of the Differential Phase Encoding Diff Phase softkey is an enhanced d...

Page 33: ...Bluetooth The Bluetooth mode is activated and the main menu of the option is displayed 3 Select the required measurement type to be performed a Press Standard and select the required standard b Press...

Page 34: ...utput Power 35 Channel 36 Meas Setup 36 Packet Type 36 Packet Bytes SCO 37 Power Class 37 Points Symbol 37 Antenna Gain 37 Selected Trace 37 Find Sync 37 LAP 37 Find Sync On Off 38 Sync Offset 38 Find...

Page 35: ...Meas Setup 48 Find Sync 48 Block Count Carr Freq Stability 48 Diff Phase 48 Channel 48 Meas Setup 48 Find Sync 48 Standard Opens a dialog box to select the standard by which the Bluetooth meaurements...

Page 36: ...cy menu Remote command CONFigure BTOoth CHANnel on page 94 Meas Setup Output Power Opens a dialog box for common measurement settings Packet Type Meas Setup Output Power Defines the number of occupied...

Page 37: ...emote command CONFigure BTOoth PRATe on page 99 Antenna Gain Meas Setup Output Power Defines a level offset in order to take the gain of an antenna into account for displaying power values The default...

Page 38: ...ctivated the search area for the sync word will be limited to the area of the detected burst If the Find Burst On Off softkey is not activated or no burst is identified the total record length search...

Page 39: ...t the message BURST OFFSET INVALID is displayed This softkey is only available if the Find Sync On Off is deactivated and the Find Burst On Off Output Power softkey is activated Remote command SENSe D...

Page 40: ...position of the evaluation area for the aver age burst power The values range is from 0 to 100 the default setting is 20 For further information refer to chapter 2 Introduction to Bluetooth Measureme...

Page 41: ...values range from 0 to 78 A minimum value of 3 is rec ommended The default setting is 78 all channels As with the ACP measurement of the basic instrument firmware this value refers to the number of a...

Page 42: ...on Char Modulation Char Initiates a new measurement All frequency deviation values obtained earlier are dis carded The bit pattern in the payload is detected automatically The frequency deviation of a...

Page 43: ...box for common measurement settings see Meas Setup on page 36 Find Sync Init Carr Freq Tol Opens a dialog box to set the signal processing functions of the analyzer see Find Sync on page 37 Zoom Modu...

Page 44: ...an area of only 501 samples is displayed Remote command SENSe ADEMod ZOOM STATe on page 119 SENSe ADEMod ZOOM STARt on page 120 Rel TX Power Opens a submenu to configure the Rel TX Power measurement...

Page 45: ...Ooth RTPower GAVerage STARt on page 101 GFSK Stop Settings Rel TX Power Defines the stop time for the power measurement of the GFSK sections of the packet The default value is 90 The abbreviation GFSK...

Page 46: ...is not limited to available fre quency band values i e values outside the frequency band and between the discrete channels can be selected see also Center softkey in the Frequency menu Remote command...

Page 47: ...gate settings according to the pre measurement results Remote command CONFigure BTOoth IBSemissions GATE AUTO ONCE on page 96 Carr Freq Stability Opens a submenu to configure the Carr Freq Stability...

Page 48: ...pens a submenu to configure the Diff Phase measurement For further details refer to chapter 3 1 9 Differential Phase Encoding EDR measurement on page 32 Remote command CONF BTO MEAS DPEN see CONFigure...

Page 49: ...n the corresponding softkey description Ref Level Opens an edit dialog box to enter the reference level in the current unit dBm dB V etc The reference level is the maximum value the AD converter can h...

Page 50: ...Play WINDow n TRACe t Y SPACing on page 108 Display range DISP WIND TRAC Y 50DB see DISPlay WINDow n TRACe t Y SCALe on page 105 Range Log 10 dB Range Sets the level display range to 10 dB Remote comm...

Page 51: ...ng for the level axis in The grid is divided into decadal sections Markers are displayed in the selected unit Unit softkey Delta markers are displayed in referenced to the voltage value at the positio...

Page 52: ...is 0 dBm Mixer levels above this value may lead to incorrect measurement results which are indicated by the OVLD status display The increased mixer level allows for an improved signal but also increa...

Page 53: ...g is 50 The setting 75 should be selected if the 50 input impedance is transformed to a higher impedance using a 75 adapter of the RAZ type 25 in series to the input impedance of the instrument The co...

Page 54: ...0001 points per symbol s This function is not available for Spurious Emissions measurements Remote command CONFigure BTOoth SWEep TIME on page 103 Meas Time Auto Activates the automatic calculation of...

Page 55: ...ilter type is a Gaussian filter Remote command SENSe BANDwidth BWIDth RESolution TYPE on page 114 Meas Filter Modulation Char Init Carr Freq Tol Carr Freq Drift Activates or deactivates a filter that...

Page 56: ...he size of the channel spacing 3 8 Softkeys of the Sweep Menu Bluetooth mode The following table shows all softkeys available in the sweep menu in Bluetooth mode SWEEP key In the Bluetooth mode the sw...

Page 57: ...traces in a diagram If the trace configurations Average Max Hold or Min Hold are set the sweep count value also determines the number of averaging or maximum search procedures In continuous sweep mode...

Page 58: ...annel The measurement of the adjacent channels is limited to the available Bluetooth fre quency band which means that at maximum 79 channels 23 channels in France will be measured Remote command CONFi...

Page 59: ...fines the stop time for the power measurement of the DPSK sections of the packet The default value is 90 The abbreviation DPSK stands for Differential Phase Shift Keying Remote command CONFigure BTOot...

Page 60: ...s triggering via a TTL signal at the EXT TRIG GATE IN input connector on the rear panel Remote command TRIG SOUR EXT see TRIGger n SEQuence SOURce on page 126 Video Trg Gate Source Defines triggering...

Page 61: ...RBW 500 kHz 6 MHz nominal FFT mode RBW 20 kHz 40 MHz nominal RBW 20 kHz 6 MHz nominal Note Be aware that in auto sweep type mode due to a possible change in sweep types the bandwidth may vary consider...

Page 62: ...ce on page 126 Digital IQ Trg Gate Source For I Q Analyzer or AnalogDemod mode only Defines triggering of the measurement directly via the LVDS connector In the sub menu you must specify which general...

Page 63: ...g I Q Analyzer mode and gated trigger switched off Maximum allowed range limited by the sweep time pretriggermax sweep time When using the R S Digital I Q Interface R S FSV B17 with I Q Ana lyzer mod...

Page 64: ...h VBW 10 x RBW for the amplitudes of pulses to be measured correctly The following filter types are available Normal 3dB Gaussian filters The Gaussian filters are set by default The available bandwidt...

Page 65: ...ILter 3 kHz CFILter 3 4 kHz CFILter 4 kHz CFILter DAB Satellite 4 5 kHz CFILter 5 kHz CFILter 6 kHz CFILter 6 kHz a 0 2 RRC APCO 8 5 kHz CFILter ETS300 113 12 5 kHz channels 9 kHz CFILter AM Radio 10...

Page 66: ...adio 192 kHz CFILter PHS 200 kHz CFILter 300 kHz CFILter 500 kHz CFILter J 83 8 VSB DVB USA 1 MHz CFILter CDMAone 1 228 MHz CFILter CDMAone 1 28 MHz a 0 22 RRC 1 5 MHz CFILter DAB 2 MHz CFILter 3 MHz...

Page 67: ...4 1 4 Other Commands in the CALCulate subsystem 90 4 2 CONFigure BTOoth Subsystem BLUETOOTH K8 91 4 3 DISPlay Subsystem BLUETOOTH K8 105 4 4 FORMat subsystem 109 4 5 INITiate subsystem 109 4 6 INPut...

Page 68: ...n BTOoth IBSemissions EXCeptions 77 CALCulate n BTOoth IBSemissions HADJacent 78 CALCulate n BTOoth IBSemissions TXReference 78 CALCulate n BTOoth ICFTolerance 79 CALCulate n BTOoth MCHar DF Delta AVE...

Page 69: ...operation See TX Spec ACLR on page 40 CALCulate n BTOoth ACLR EXCeptions This command determines the number of exceptions which occurred during the adja cent channel power measurement according to th...

Page 70: ...Drift measurement INIT WAI Starts the measurement with synchronization CALC BTO CFDR Queries the result Usage Query only Mode BT Manual operation See Carr Freq Drift on page 43 CALCulate n BTOoth CFD...

Page 71: ...MEAS CFST Activates the Carrier Frequency Stability and Modulation Accu racy measurement INIT WAI Starts the measurement with synchronization CALC BTO CFST COUNt Reads the number of measured blocks Us...

Page 72: ...Stability and Modulation Accuracy measurement Note This command is only available with active Carrier Frequency Stability and Modulation Accuracy measurement see CONFigure BTOoth MEASurement on page 9...

Page 73: ...peration See Carr Freq Stability on page 47 CALCulate n BTOoth CFSTability FERRor TOTal Mode This command reads the carrier frequency deviation of all packets in the Carrier Fre quency Stability and M...

Page 74: ...14 Programming Exam ple on page 127 CONF BTO MEAS CFST Activates the Carrier Frequency Stability and Modulation Accu racy measurement INIT WAI Starts the measurement with synchronization CALC BTO CFS...

Page 75: ...the number of tested packets in the Differential Phase Encoding measurement Note This command is only available with active Differential Phase Encoding measurement see CONFigure BTOoth MEASurement on...

Page 76: ...ate n BTOoth DPENcoding NERRor This command reads the number of passed packets in the Differential Phase Encoding measurement Note This command is only available with active Differential Phase Encodin...

Page 77: ...nt Usage Query only Mode BT Manual operation See Spurious Emissions on page 46 CALCulate n BTOoth IBSemissions EXCeptions This command reads the number of results that exceeded the specified limits in...

Page 78: ...eters Band UPPer LOWer RST Example For the first steps refer to chapter 4 14 Programming Exam ple on page 127 CONF BTO MEAS IBS Activates the In band Spurious Emissions measurement CONF BTO CHAN 7 Adj...

Page 79: ...ve Modulation Characteristics measurement see CONFigure BTOoth MEASurement on page 96 With all other measure ments this command causes a query error Suffix n irrelevant Parameters Mode MINimum MAXimum...

Page 80: ...es the Modulation Characteristics measurement CONF BTO SWE COUN 20 Initiates the sweep counter with 20 EUT emits bit pattern 1111000 INIT IMM WAI Starts the measurement with synchronization and erase...

Page 81: ...Starts the measurement with synchronization and erase previ ous measurement results CALC BTO MCH DF1 MAX MIN Queries minimum value 11110000 Usage Query only Mode BT Manual operation See Modulation Ch...

Page 82: ...deviations for varying bit patterns of the payload Note This command is only available with active Modulation Characteristics measurement see CONFigure BTOoth MEASurement on page 96 With all other mea...

Page 83: ...onization CALC BTO OPOW Queries the output power result Usage Query only Mode BT Manual operation See Output Power on page 35 CALCulate n BTOoth OPOWer AVERage Mode This command reads the average valu...

Page 84: ...ngth of the packet analyzed by the preceding measure ment Note This command is only available if a measurement was started via INITiate n IMMediate before and if this measurement is completed With a m...

Page 85: ...FHS HV1 HV2 HV3 DV NULL POLL UNDEF These packet types are recognized and returned as character data RST Example INST SEL BTO Activates the Bluetooth Measurements option INIT CONT OFF Selects single s...

Page 86: ...n power for the GFSK sections of the packet in the Relative Transmission Power measurement With a sweep count 1 the command returns the current value irrespective of the parameter Note This command is...

Page 87: ...ses a query error Suffix n irrelevant Parameters Mode MINimum MAXimum AVERage RST Example For the first steps refer to chapter 4 14 Programming Exam ple on page 127 CONF BTO MEAS RTP Activates the Rel...

Page 88: ...alue referred to marker 1 or to the reference position reference fixed active To obtain a correct query result a complete sweep with synchronization to the sweep end must be performed between the acti...

Page 89: ...ker 2 CALC DELT2 Y Outputs measurement value of delta marker 2 Usage Query only 4 1 3 CALCulate MARKer Subsystem BLUETOOTH K8 CALCulate n MARKer m PEXCursion 89 CALCulate n MARKer m Y 90 CALCulate n M...

Page 90: ...activated before or switched to marker mode if neces sary To get a valid result you have to perform a complete measurement with synchroniza tion to the end of the measurement before reading out the re...

Page 91: ...h MEASurement 96 CONFigure BTOoth PBSCo 98 CONFigure BTOoth PCLass 98 CONFigure BTOoth POWer AVERage STARt 98 CONFigure BTOoth POWer AVERage STOP 99 CONFigure BTOoth PRATe 99 CONFigure BTOoth PTYPe 10...

Page 92: ...esolution bandwidth is changed its coupling to the settings according to the RF Test Specifica tion is cancelled Note The settings for the measurements are valid for all three measurements For all oth...

Page 93: ...andwidth This command sets the video bandwidth for the Adjacent Channel Power measure ment see CONFigure BTOoth MEASurement on page 96 The available filters have a bandwidth range of 1 Hz to 10 MHz On...

Page 94: ...c ACLR Spurious Emissions on page 55 CONFigure BTOoth CFSTability BCOunt NoBlocks This command sets the number of blocks to be measured Note This command is only available with active Carrier Frequenc...

Page 95: ...SEL BTO Activates the Bluetooth Measurements option CONF BTO MEAS OPOW Activates the Output Power measurement CONF BTO DET2 RMS Sets the detector for trace 2 to RMS Mode BT Table 4 2 RST value dependi...

Page 96: ...AUTO ONCE This command adjusts the gate settings for the In band Spurious Emissions automati cally Note This command is only available with active In band Spurious Emissions measurement see CONFigure...

Page 97: ...p ter 3 1 6 Relative Transmit Power EDR Measurement on page 28 IBSemissions Spurious Emissions EDR measurement see chapter 3 1 7 In band Spurious Emissions EDR measurement on page 29 DPENcoding Differ...

Page 98: ...ts for the output power measurement Parameters Class 1 to 3 RST 1 Example CONF BTO PCL 3 Selects power class 3 Mode BT Manual operation See Power Class on page 37 CONFigure BTOoth POWer AVERage STARt...

Page 99: ...fferent areas within the burst for calculating the average power see CONFigure BTOoth POWer AVERage STARt on page 98 Parameters Position 0 to 100PCT RST 80 Example CONF BTO POW AVER STAR 90PCT Sets th...

Page 100: ...e power measurement of the DPSK sections of the packet Note This command is only available with active Relative Transmit Power measurement see CONFigure BTOoth MEASurement on page 96 Parameters Time 0...

Page 101: ...TOoth MEASurement on page 96 Parameters Time 0 to 100 RST 10 Example CONF BTO RTP GAV STAR 20 Sets the start time for the power measurement of the GFSK sec tions of the packet Mode BT Manual operation...

Page 102: ...data over 10 sweeps Note The setting is valid only for the currently active measurement see CONFigure BTOoth MEASurement on page 96 and independent of the other Bluetooth measure ments Parameters NoSw...

Page 103: ...s command couples the sweep time to the settings according to the RF Test Speci fication Note The setting is valid only for the currently active measurement see CONFigure BTOoth MEASurement on page 96...

Page 104: ...e Example INST SEL BTO Activates the Bluetooth Measurements option CONF BTO MEAS OPOW Activates the Output Power measurement INIT CONT OFF Selects single sweep operation CONF BTO SWE COUN 10 Sets the...

Page 105: ...play of the corresponding trace The other measurements are not aborted but continue running in the background Suffix n window For applications that do not have more than 1 measure ment window the suff...

Page 106: ...t do not have more than 1 measure ment window the suffix n is irrelevant t irrelevant Parameters Mode ABSolute absolute scaling of the y axis RELative relative scaling of the y axis RST ABS Example DI...

Page 107: ...Dow n TRACe t Y SCALe RLEVel OFFSet Value This command defines a reference level offset Suffix n irrelevant t irrelevant Parameters Value Range 200 to 200 RST 0 Default unit dB Example DISP TRAC Y RLE...

Page 108: ...efines the power value assigned to the reference position in the grid When using a tracking generator this command requires active normalization Suffix n irrelevant t irrelevant Parameters Value RST 0...

Page 109: ...transmission of trace data The data format of trace data received by the instrument is automatically recognized regardless of the format which is programmed Parameters Format ASCii ASCII data are tran...

Page 110: ...or WAI In continuous sweep mode synchronization to the end of the mea surement is not possible Thus it is not recommended that you use continuous sweep mode in remote control as results like trace dat...

Page 111: ...Mode all Manual operation See RF Atten Manual Mech Att Manual on page 52 INPut ATTenuation AUTO State This command automatically couples the input attenuation to the reference level state ON or switch...

Page 112: ...53 4 7 INSTrument Subsystem BLUETOOTH K8 INSTrument SELect 112 INSTrument NSELect 112 INSTrument SELect Parameters Parameter BTOoth Bluetooth mode option Bluetooth Measurements INSTrument NSELect Para...

Page 113: ...AVERage n TYPE FunctionType This command selects the type of average function Suffix n Selects the measurement window Parameters FunctionType VIDeo LINear POWer VIDeo The logarithmic power values are...

Page 114: ...N Example BAND AUTO OFF Switches off the coupling of the resolution bandwidth to the span SENSe BANDwidth BWIDth RESolution RATio Ratio This command defines the ratio between the resolution bandwidth...

Page 115: ...With this function the gain of an antenna or of an external preamplifier can be taken into account for the measurement values The command is available if a tracking generator is installed and has bee...

Page 116: ...should be set and the device should be in single sweep mode Example SWE COUNt 64 Sets sweep count to 64 INIT CONT OFF Switches to single sweep mode INIT Starts a sweep without waiting for the sweep e...

Page 117: ...triggering by the external gate signal A delay between applying the gate signal and the start of recording measured values can be defined see SENSe SWEep EGATe HOLDoff on page 116 Parameters Type LEVe...

Page 118: ...ement mode SENSe SWEep POINts NumberPoints This command defines the number of measurement points to be collected during one sweep Parameters NumberPoints Range 101 to 32001 RST 691 Example SWE POIN 25...

Page 119: ...M STATe Mode The command enables or disables the zoom function Depending on the selected mea surement time and the demodulation bandwidth the number of recorded measurement points may be greater than...

Page 120: ...uency Drift measurements Parameters Time 0 s to meas time 500 sampling rate RST 0 s Example ADEM ZOOM ON Switches on the zoom function ADEM ZOOM STAR 500us Sets the starting point of the display to 50...

Page 121: ...Freq Drift on page 55 SENSe DDEMod SEARch PULSe STATe Mode This command switches the search for a signal burst on or off Parameters Mode ON OFF RST ON Example DDEM SEAR PULS OFF Mode BT Manual operati...

Page 122: ...operation See LAP on page 37 SENSe DDEMod SEARch SYNC OFFSet NoBits This command defines the number of bits to be recorded before the first preamble bit is detected Parameters NoBits 0 to 10000 RST 0...

Page 123: ...packet type The automatic record length is determined a follows Trigger free run search length 3 packet length sync offset or burst offset All other trigger modes search length 1 packet length 1 Slot...

Page 124: ...ry returns a list of results with one value for each sweep point in the currently set level unit For details see table 4 5 Example TRAC TRACE1 Returns the trace data for Trace 1 Usage Query only Mode...

Page 125: ...ommand sets the limit that the hysteresis value for the IF power trigger has to fall below in order to trigger the next measurement Suffix n irrelevant Parameters Value RST 3 dB Example TRIG SOUR IFP...

Page 126: ...ix n irrelevant Parameters TriggerLevel RST 20 dBm Example TRIG LEV IFP 30DBM Manual operation See Trg Gate Level on page 62 TRIGger n SEQuence SLOPe Type This command selects the slope of the trigger...

Page 127: ...rnal power sensor requires R S FSV K9 option RST IMMediate Example TRIG SOUR EXT Selects the external trigger input as source of the trigger signal Manual operation See Trg Gate Source on page 60 See...

Page 128: ...ss 1 CONF BTO PRAT 4 Selects 4 points per symbol CONF BTO PTYP DH1 Selects 1 slot packet DDEM SEAR SYNC ON Activates the FIND SYNC function DDEM SEAR SYNC OFFS 0 Sets the sync offset 0 DDEM SEAR SYNC...

Page 129: ...LENGth 117 SENSe SWEep EGATe POLarity 117 SENSe SWEep EGATe TYPE 117 SENSe SWEep MODE 118 SENSe SWEep POINts 118 SENSe SWEep TIME 118 SENSe SWEep TIME AUTO 118 SENSe SWEep TYPE 119 SENSe DDEMod SEARc...

Page 130: ...igure BTOoth BANDwidth BWIDth RESolution AUTO 92 CONFigure BTOoth CFSTability BCOunt 94 CONFigure BTOoth CHANnel 94 CONFigure BTOoth DETector 1 4 FUNCtion 95 CONFigure BTOoth IBSemissions ACPairs 95 C...

Page 131: ...uous 109 INITiate n IMMediate 110 INPut ATTenuation 110 INPut ATTenuation AUTO 111 INPut GAIN STATe 111 INPut IMPedance 112 INSTrument NSELect 112 INSTrument SELect 112 SYSTem DISPlay UPDate 123 TRACe...

Page 132: ...se Encoding measurement K8 32 Digital IQ 62 display range level 49 50 51 DPSK Start remote control K8 100 DPSK Stop remote control K8 100 E equipment under test K8 37 EUT K8 37 external trigger 60 F f...

Page 133: ...ol K8 70 96 Carr Freq Stability K8 47 Carr Freq Stability remote control K8 71 72 73 74 96 Center K8 56 CF Stepsize K8 56 Channel K8 36 41 42 43 44 46 47 48 Channel remote control K8 94 Cont Meas remo...

Page 134: ...6 remote control 105 Trace Mode remote control K8 103 Trace Mode remote control 106 Trg Gate Level 62 Trg Gate Polarity Pos Neg 63 Trg Gate Polarity Pos Neg remote control 117 126 Trigger Holdoff rem...

Page 135: ...ern K8 19 external 60 level 62 slope 63 Trigger Holdoff 63 Hysteresis 63 Offset 63 trigger concepts K8 19 trigger menu K8 option 60 trigger mode 60 External 60 Free Run 60 Video 60 Trigger mode BB pow...

Reviews: