R&S SMJ100A Operating Manual Download

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R&S

SMJ100A

Vector Signal Generator

Operating Manual

1403.7458.32 ─ 14

(>3ØÈP)

Test & Measurement

Summary of Contents for SMJ100A

Page 1: ...R S SMJ100A Vector Signal Generator Operating Manual Operating Manual 1403 7458 32 14 3 P Test Measurement...

Page 2: ...A R S SMATE200A R S SMJ100A and R S AMU200A 2016 Rohde Schwarz GmbH Co KG M hldorfstr 15 81671 M nchen Germany Phone 49 89 41 29 0 Fax 49 89 41 29 12 164 Email info rohde schwarz com Internet www rohd...

Page 3: ...e of the product The product is used for its designated purpose if it is used in accordance with its product documentation and within its performance limits see data sheet documentation the following...

Page 4: ...ation item 7 Signal words and their meaning The following signal words are used in the product documentation in order to warn the reader about risks and dangers Indicates a hazardous situation which i...

Page 5: ...afety is not observed either at all or to the extent necessary electric shock fire and or serious personal injury or death may occur 1 Prior to switching on the product always ensure that the nominal...

Page 6: ...t be fuse protected in such a way that anyone who has access to the product as well as the product itself is adequately protected from injury or damage 14 Use suitable overvoltage protection to ensure...

Page 7: ...masks and protective clothing must be worn 7 Laser products are given warning labels that are standardized according to their laser class Lasers can cause biological harm due to the properties of the...

Page 8: ...n permitted 5 If a cell develops a leak the fluid must not be allowed to come into contact with the skin or eyes If contact occurs wash the affected area with plenty of water and seek medical aid 6 Im...

Page 9: ...s substances or fuels can cause health problems and lead to environmental damage For additional information about environmental protection visit the Rohde Schwarz website Instrucciones de seguridad el...

Page 10: ...el uso del producto Deber n tenerse en cuenta todas las dem s informaciones de seguridad como p ej las referentes a la protecci n de personas que encontrar n en el cap tulo correspondiente de la docu...

Page 11: ...l producto se emplea de forma sin nima el t rmino CUIDADO Las palabras de se al corresponden a la definici n habitual para aplicaciones civiles en el rea econ mica europea Pueden existir definiciones...

Page 12: ...la tensi n preseleccionada en el producto coincida con la de la red de alimentaci n el ctrica Si es necesario modificar el ajuste de tensi n tambi n se deber n cambiar en caso dado los fusibles corre...

Page 13: ...efectuadas por un electricista especializado 13 En el caso de dispositivos fijos que no est n provistos de fusibles interruptor autom tico ni otros mecanismos de seguridad similares el circuito de ali...

Page 14: ...presario operador tiene la obligaci n de evaluar y se alizar las reas de trabajo en las que exista un riesgo elevado de exposici n a radiaciones 6 Tenga en cuenta que en caso de incendio pueden despre...

Page 15: ...r ni fuego Debe evitarse el almacenamiento a la luz directa del sol Las celdas y bater as deben mantenerse limpias y secas Limpiar las conexiones sucias con un pa o seco y limpio 3 Las celdas o bater...

Page 16: ...vos el ctricos usados no se deben desechar con los residuos dom sticos sin clasificar sino que deben ser recogidos por separado Rohde Schwarz GmbH Co KG ha elaborado un concepto de eliminaci n de resi...

Page 17: ...ed for exam ple according to the ISO9001 and ISO14001 management systems Environmental commitment Energy efficient products Continuous improvement in environmental sustainability ISO14001 certified en...

Page 18: ...ument up to date and to be informed about new application notes related to your instrument please send an e mail to the Customer Support Center stating your instrument and your wish We will take care...

Page 19: ...Knob and Navigation Keys 24 2 1 7 Front Panel Connectors 25 2 2 Rear Panel Tour 27 2 2 1 Description of the Connectors 27 2 3 Putting into Operation 31 2 3 1 EMI Suppression 32 2 3 2 Unpacking and Ch...

Page 20: ...s 49 2 7 2 Remote Desktop Connection 50 2 7 3 Remote Access via a VNC Client Software 53 2 8 Using Virus Protection Software 59 2 9 LXI Configuration 60 2 9 1 LXI Browser Settings 62 2 9 2 LAN Configu...

Page 21: ...Block Diagram 94 4 2 5 Winbar and Softkeys 95 4 2 6 Structure of the Dialogs 95 4 2 7 Graphical Display of Output Signal Characteristics 96 4 3 Accessing Dialogs 97 4 4 Setting Parameters 98 4 4 1 Wor...

Page 22: ...strument Setup Key 129 5 2 3 1 Internal Adjustments 130 5 2 3 2 Hardware Config 132 5 2 3 3 Software Options 133 5 2 3 4 Manage License Keys 134 5 2 3 5 NRP Z Info Update 136 5 2 3 6 Update 137 5 2 3...

Page 23: ...from and to the Instrument 167 5 3 Graphical Display Graphics 168 5 3 1 Graphics Settings Menu 170 5 3 2 Bar of Graphics Window 172 5 3 3 Signal Displays 174 5 3 3 1 I Q Diagram 174 5 3 3 2 Vector Dia...

Page 24: ...gs 202 5 5 2 5 User Variation Settings 203 5 5 2 6 Phase Continuous Frequency Settings 204 5 5 3 Phase 204 5 5 3 1 Phase Settings 204 5 5 3 2 Phase Continuous Frequency 205 5 5 4 Reference Oscillator...

Page 25: ...utput 253 5 5 12 1 Overview of LF Generator 253 5 5 12 2 LF Output 254 5 5 13 LF Frequency Sweep 255 5 5 14 RF Sweep and List Mode 260 5 5 14 1 Overview 260 5 5 14 2 RF Frequency Sweep 261 5 5 14 3 RF...

Page 26: ...314 5 8 1 2 Internal Modulation Data from Lists 315 5 8 1 3 External Synchronous Modulation Data 315 5 8 1 4 Clock Signals 316 5 8 1 5 Synchronizing Data Signals and Clock Signals 317 5 8 1 6 Control...

Page 27: ...LXI Browser Interface 446 6 2 Starting a Remote Control Session 446 6 2 1 Switching to Remote Control 447 6 2 2 Returning to Manual Operation 448 6 2 3 Examples 449 6 2 3 1 Remote Control over GPIB 4...

Page 28: ...81 6 6 General Programming Recommendations 481 7 Remote Control Commands 483 7 1 Conventions used in SCPI Command Descriptions 483 7 2 Common Commands 483 7 3 Preset Commands 488 7 4 Waveform and List...

Page 29: ...B MCCW Subsystem 672 7 16 3 7 SOURce BB MEASurement Subsystem 692 7 16 3 8 SOURce BB POWer Subsystem 695 7 16 3 9 SOURce BB PROGress Subsystem General Commands 696 7 16 4 SOURce CORRection Subsystem 6...

Page 30: ...played between the frequency and level fields 813 9 1 2 Status information displayed to the left of the Info line 815 9 1 3 Status information displayed in the Info line 815 9 2 Error Messages 816 9 2...

Page 31: ...ide Introduces the R S SMJ and describes how to set up and start working with the prod uct Includes basic operations typical measurement examples and general informa tion e g safety instructions etc O...

Page 32: ...the specific characteristics see http www rohde schwarz com product SMJ100A html Download Brochures and Data Sheets Release Notes Describes the firmware installation new and modified features and fix...

Page 33: ...e functions of the product we use sample screenshots These screenshots are meant to illustrate as much as possible of the provided functions and possible interdependencies between parameters The shown...

Page 34: ...Preface R S SMJ100A 18 Operating Manual 1403 7458 32 14 Notes on Screenshots...

Page 35: ...s manual provides an overview of the generator functions and introduces the operating concept Detailed operating instructions and an overview of menus follow in Chapter 4 Manual Operation on page 85 F...

Page 36: ...General Configuration of Instrument Setup Key on page 129 HCOPY Opens the Hardcopy menu for configuring and starting printing For more information see Chapter 5 2 5 Generating a Hard Copy of the Disp...

Page 37: ...block diagram can be displayed in the foreground anytime with the DIAGRAM key Winbar with labelled softkeys Open menus are indicated by a labelled button in the Winbar The buttons deter mine the softk...

Page 38: ...d by a keystroke and the modulation is switched on again after the calculation is completed 2 1 4 2 Display Keys The keys on top of the rotary knob and the keys below the numeric key pad arrange diffe...

Page 39: ...nu If the entry mode is active changes are cancelled If settings in this menu require acknowledgment by means of an Accept button a query is displayed asking whether the changes made should be cancell...

Page 40: ...racters if the key is pressed several times in a row A a Toggles between uppercase and lowercase characters A B C D E F Enters hexadecimal values The letters assigned to the keys are automatically act...

Page 41: ...ameter In a list table window or dialog box scroll vertically LEFT RIGHT KEYS The left and right arrow keys do the following In an alphanumeric edit dialog box move the cursor forward and back In a li...

Page 42: ...ring information see the R S SMJ data sheet or product brochure TRIGGER 1 Input for triggering digital modulations standards and ARB MARKER 1 2 Outputs 1 and 2 for triggering and control of external d...

Page 43: ...33 2 2 Rear Panel Tour This section gives an overview of connectors on the rear panel of the instrument Each connector is briefly described and a reference is given to the chapters containing detailed...

Page 44: ...upplied It is either ready for operation STANDBY or in operating mode depending on the position of the ON STANDBY switch on the instrument front See also data sheet and Chapter 2 3 4 Connecting the In...

Page 45: ...Firmware update Further USB interface type A are available on the front panel See also Chapter 2 4 1 Connecting USB Devices on page 39 USB IN USB universal serial bus interface of type B device USB Th...

Page 46: ...he instrument in a 19 rack requires a rack adapter or an adapter for telescopic sliders refer to data sheet for order number See also Chapter 2 3 3 Placing or Mounting the Instrument on page 33 LO IN...

Page 47: ...s to be taken when setting up the R S SMJ for the first time Risk of injury and instrument damage The instrument must be used in an appropriate manner to prevent electric shock fire personal injury or...

Page 48: ...ectronic components of the instrument and the device under test DUT ESD is most likely to occur when you con nect or disconnect a DUT or test fixture to the instrument s test ports To prevent ESD use...

Page 49: ...the accessory lists for the various items 5 Check the instrument for any damage If there is damage immediately contact the carrier who delivered the instrument Make sure not to discard the box and pa...

Page 50: ...d instrument damage if stacking instruments A stack of instruments may tilt over and cause injury Furthermore the instruments at the bottom of the stack may be damaged due to the load imposed by the i...

Page 51: ...red with the instrument Note The instrument is in compliance with safety class EN61010 1 Connect the instrument only to a socket with earthing contact 2 3 5 Starting the Instrument The R S SMJ comes w...

Page 52: ...right yellow LED is on The standby power only supplies the power switch circuits and the oven controlled crystal oscillator to keep it at its oper ating temperature In this state it is safe to switch...

Page 53: ...It is also reco mended that you use the PRESET key to return the instrument to its defined preset state every time a new configuration is required or the current setup is not anymore rel evant The R...

Page 54: ...off Level Attenuator Mode AUTO Internal level control Level ALC AUTO User correction Level Ucor OFF LF output State Off Sweep State Off List mode State Off Settings that are not affected by the PRESET...

Page 55: ...disconnec ted from all power supplies None of the front panel LEDs should be on 2 4 Connecting External Accessories The equivalent USB ports on the front and or rear panel of the R S SMJ can be used t...

Page 56: ...cturer Connecting a keyboard The keyboard is detected automatically when it is connected The default input lan guage is English US Select Start Control Panel Clock Language and Region Change keyboards...

Page 57: ...panel of the instrument 3 Start up the instrument The green LED must be on The external monitor is detected The entire display of the instrument containing the status bar the block diagram and the wi...

Page 58: ...es the use of these programs can impair the performance of the instru ment 2 5 1 Virus Protection Users must take appropriate steps to protect their instruments from infection Beside the use of strong...

Page 59: ...ccessing the hard disk again 2 6 Setting Up a Network LAN Connection The R S SMJ is equipped with a network interface and can be connected to an Ether net LAN local area network Provided the appropria...

Page 60: ...a network adapter and is directly connected to the instrument The use of hubs switches or gateways is not required however data transfer is still performed using the TCP IP protocol An IP address has...

Page 61: ...re connecting the instrument to the LAN Contact your network administrator to obtain a valid IP address Assigning the IP address manually 1 Obtain the IP address and subnet mask for the R S SMJ and th...

Page 62: ...ng and changing a computer name 1 Press the Windows key to access the operating system 2 Select Start My Computer Properties Computer Name The computer name is displayed under Full Computer Name 3 To...

Page 63: ...m the instrument using a Windows Embedded Standard search function This procedure is also of importance for a point to point con nection for instance in order to start a firmware update for which the...

Page 64: ...e computer The simplest way to remote access the instrument is to use a Web browser such as Windows Internet Explorer or Mozilla Firefox for instance Alter natively a remote access via a special appli...

Page 65: ...ess is established For return to direct operation on the instrument the connection must be cut After cut ting the connection it is still enabled and can be established again any time The con nection i...

Page 66: ...on screen appears 4 Enter the password and select OK The default password is instrument After the connection is established the current signal generator screen with the block diagram is displayed and...

Page 67: ...s Microsoft offers the Remote Desktop Client as an add on Enabling remote desktop control on the instrument 1 Press the Windows key to access the operating system 2 Open the Control Panel by selecting...

Page 68: ...c tion settings in the Remote Desktop Connection dialog box Click the Options button The dialog box is expanded to display the configuration data 2 Customize the settings On the Experience tab Select...

Page 69: ...esktop disable the Allow users to connect remotely to this com puter option and confirm with OK The connection is disabled it is no longer possible to access the instrument via Remote Desktop 2 7 3 Re...

Page 70: ...with Linux Unix operating system see Setting up the VNC connection on the Linux Unix remote computer on page 57 b the remote computer with Windows operating system see Setting up the VNC connection o...

Page 71: ...he Additional Task Panel enable all entries A successful installation is indicated by a message At the same time a warning is displayed stating that a password must be set 4 Select OK The Default Loca...

Page 72: ...the user defined password are the prerequisites to enable remote access on the remote computer Terminated connection is indicated by changed icon color Configuring Internet Connection Firewall for VN...

Page 73: ...e per default for Linux Unix operating systems 1 Start a Web browser on the remote computer and enter the IP address of the instrument 2 Enter the following address vnc IP address of the instrument e...

Page 74: ...g the mouse and keyboard Enabled Direct Control The direct control of the instrument is not disabled and the instrument can be control led from the front panel and via the remote computer alternately...

Page 75: ...of the instrument 2 8 Using Virus Protection Software Virus protection software Symantec Antivirus 10 1 7 7000 has been successfully tested for compatibility with the instrument software on R S SMJ Ho...

Page 76: ...andard Ethernet technology LXI is intended to be the LAN based successor to GPIB combining the advantages of Ether net with the simplicity and familiarity of GPIB Like GPIB LXI determines and standard...

Page 77: ...all instruments with excep tional accuracy Class A instruments are additionally equipped with the eight channel hardware trigger bus LVDS interface defined in the LXI standard For information about th...

Page 78: ...meters Parameter Value Hostname Instrument specific host name Description Vector Signal Generator Negotiation Auto Detect VXI 11 Discovery Enabled The LAN settings are configured using the instrument...

Page 79: ...tion has been established a red symbol indicates that no LAN cable is connected Lan Configuration allows you to configure LAN parameters and to initiate a ping see Chapter 2 9 2 3 Ping Client on page...

Page 80: ...AN Configuration The LAN Configuration web page provides access to the parameters required for identifying the R S SMJ in the network and allows modification Password protection Changing the LAN confi...

Page 81: ...ed IP address subnet mask and default gateway are used With dynamic configuration DHCP or dynamic link local addressing automatic IP are used to obtain the instrument IP address See Chapter 2 6 2 Assi...

Page 82: ...e this setting the instrument cannot be detected by the VXI 11 discov ery protocol mechanism The setting does not affect other detection mechanisms Setting up a VXI 11 connection via the IP address or...

Page 83: ...stru ment as with the manual control The instrument controls are available via the front panel simulation File upload and download between the instrument and the remote PC is also available Starting a...

Page 84: ...aluate the file using a suitable program To trace and display messages 1 In the navigation pane select Diagnostics SCPI Remote Trace 2 In the toolbar bar of the SCPI Remote Trace page select live mode...

Page 85: ...screen Details displays details of the selected message for example an SCPI command in hex format also possible by double clicking a message Columns The following columns are available if no column f...

Page 86: ...Preparing for Use R S SMJ100A 70 Operating Manual 1403 7458 32 14 LXI Configuration...

Page 87: ...75 and Chapter 3 4 RF Section on page 76 respectively The operating concept of the R S SMJ employs the following three ways of instru ment control Manual operation Remote control Remote access Manual...

Page 88: ...ed by incorrect operation as well as further infor mation are displayed in the Info line A complete list of existing conflicts is displayed when the INFO CTRL I key is pressed Additional information o...

Page 89: ...commands but a separate software which is installed on the remote computer After its start the software simulates the user interface of the instrument The instrument can thus be operated from the rem...

Page 90: ...external analog I Q signal is directly applied to the I Q modulator of the R S SMJ In this mode the entire bandwidth of the I Q modulator can be utilized The various capabilities of the baseband secti...

Page 91: ...s to GSM EDGE standard option R S SMJ K42 signals to 3GPP FDD standard Baseband main module option R S SMJ B13 At the end of the baseband path the digital signal is converted to an analog I Q signal T...

Page 92: ...n be set With the aid of the software for AWGN generation option R S SMJ K62 an additive noise signal can be produced AWGN and impairments can be activated independently of each other in the appropri...

Page 93: ...MP block impairments in the I Q Mod block also affect the externally applied signals in the Analog Wideband I Q mode The status display in the block shows whether I Q impairments and or I Q swap is ac...

Page 94: ...n R S SMJ B20 Pulse modulation Note For modulation modes that can be simultaneously used refer to the R S SMJ data sheet 3 5 Example of Setup This section provides an example on how to configure the i...

Page 95: ...403 7458 32 14 a Turn the rotary knob and select the Baseband A block b Press the rotary knob to open the menu where the digital modulation can be selected different modulation modes are available dep...

Page 96: ...nd highlight Custom Digital Mod Press the rotary knob to open the Custom Dig Mod dialog d Turn the rotary knob to select parameter Symbol Rate press the rotary knob to allow editing and enter the pref...

Page 97: ...to select parameter Coding Press the button to open the selection list Turn the rotary knob to select Off and press the knob to activate the selected item f Use the rotary knob in the same way to set...

Page 98: ...403 7458 32 14 g Finally select State and press the rotary knob to switch on the digital modula tion h Press the DIAGRAM key to display the complete block diagram To indicate the active state the Base...

Page 99: ...ut 3 Set frequency and level and activate RF signal a Press the FREQ key to activate the editing mode for frequency entry The Fre quency entry field in the header section of the display is highlighted...

Page 100: ...Manual 1403 7458 32 14 4 Select graphics display of I Q signal a Turn the rotary knob to select the Graphics block and open the respective menu b Select State On with the rotary knob to activate disp...

Page 101: ...ssible and at the same time gives a permanent overview of characteris tics of the generated signal and of the current instrument state Numerous online help functions support user settings Block diagra...

Page 102: ...the employed inputs and outputs are also shown Menu tree The menu tree can be opened and closed with the MENU CTRL M key The menu tree is organized in the same way as the directories under Windows The...

Page 103: ...eration at all times Winbar The Winbar gives an overview of menus and simplifies their access The menus are displayed on top of the block diagram but they can be hidden with the aid of the HIDE CTRL H...

Page 104: ...s part of a comprehensive online help function which can be called by means of an index a content tree or the Previous Next buttons Info line with messages for indication of the current instrument sta...

Page 105: ...llows a fast check of signal characteristics Zoom functions and the insertion of a reference trace permit in depth evaluation without an external analyzer being required 4 2 Display The display shows...

Page 106: ...nfor mation and Messages on page 91 are displayed in the header field of the screen The display may vary depending on the instrument s operating mode In the sweep mode the current frequency or level o...

Page 107: ...splayed between the frequency and level fields at the left of the info line or in the info line itself 4 2 2 2 Messages Messages indicate errors in the instrument They are displayed in the info line i...

Page 108: ...key The upper section of the info window contains a list of all current permanent messages in the order of their occurrence i e the most recent message is displayed first In the lower section of the w...

Page 109: ...time a SYST ERR or STAT QUE query is sent the oldest entry in the error queue is returned and at the same time cleared in the list 4 2 4 Block Diagram The block diagram shows provided options signal c...

Page 110: ...tus information of the Baseband block indicates the selected modulation and associated additional information e g the num ber of channels 4 2 4 2 Signal Flow and Input Output Symbols in the Block Diag...

Page 111: ...f the next lower level for front panel operation Up to eight menus may be open simultaneously When the ninth menu is opened the menu that was opened first is automatically closed Some menus e g data a...

Page 112: ...rameters are organized in menu areas A menu area is framed and labelled with the function common to all parameters Example Impairments Each of the setting fields is assigned a parameter name The kind...

Page 113: ...C DIAGRAM CTRL D and REARR CTRL A keys on the front panel For a quick access to the dialogs use one of the following alternative methods Displaying the block diagram or a dialog in the foreground 1 Pr...

Page 114: ...s alternative possibilities for setting param eters Operation is possible from the front panel with the aid of a mouse and or from a PC keyboard The examples whitin this description focus on the opera...

Page 115: ...4 4 2 Selecting a Control Element on page 100 Chapter 4 4 3 Switching Parameters On Off on page 100 Chapter 4 4 4 Entering a Value on page 100 Chapter 4 4 5 Working with Units on page 102 Chapter 4 4...

Page 116: ...rol elements are always selected in the same way no matter whether a function block in the diagram a menu in the menu tree a parameter in the menu or an entry in a list or table is concerned To activa...

Page 117: ...ss the rotary knob Enter to activate the editing mode If the cursor is placed at the right of the total value the insert mode is always active 2 Set the cursor to the left of the number to be changed...

Page 118: ...d to hexadecimal values 3 Click on an alphanumeric key to insert a new alphanumerical value Terminating the entry of a numeric value To terminate the entry of a numeric value 1 Press the rotary knob E...

Page 119: ...s recalculated to suit the new unit The new unit is indicated in the value field of the menu 4 4 6 Selecting a Value from a List Selection lists provide a list of predefined values for the selected pa...

Page 120: ...ately set after confirmation To confirm a parameter with On Off state enable the parameter If time consuming calculations are required signal generation is automatically switched off and calculation i...

Page 121: ...tion that requires longer calculation time The termination of such a calculation restores the previous values Press the ABORT button to terminate the calculation All previous values are restored 4 5 E...

Page 122: ...keys to mark a row 3 Use the numeric keys to enter the value for the value pairs in the Frequency Hz and Power dBm table columns A blank row is inserted at the end of the list An existing list can be...

Page 123: ...st for editing select the associated button Edit User Correction Data or Edit List Mode Data in the individual menu Edit the list and save it under a new name 4 5 2 Working with Data Editor The Data E...

Page 124: ...tion in the GoTo Offset entry field by means of the numeric keys and confirm the entry The cursor marks the bit at the selected position 5 To copy and paste any range of bits at any position in the li...

Page 125: ...of the GSM EDGE dia log as an example The upper area displays the signal for which the marker signals are to be defined On the left side the available signals marker and control signals are listed an...

Page 126: ...ine 2 Define the cursor position Select the parameter Cursor Position specify the position by means of the numeric keys and confirm the entry The cursor is positioned according to the entry If the ent...

Page 127: ...high a ramp with high low transition is generated When ramps are set between existing ramps the transition of the new ramp is also defined by the status of the signal before the new ramp For this reas...

Page 128: ...ng a blank file or by changing an existing list which will then be saved under a new name 1 To create an empty control list select BB Cust Dig Mod List Management Select Control List to Edit Create Co...

Page 129: ...ay a help topic press the ENTER key The corresponding help topic is displayed Navigating in the help topics 1 To scroll through a page use the UP DOWN arrow keys 2 To follow a cross reference select t...

Page 130: ...tection Level in the Operating Manual is revoked Files can be exchanged either via a memory stick or a connected network A memory stick is connected to the USB interface and is assigned the E drive In...

Page 131: ...he front panel keys and the keyboard shortcuts to section Instrument Functions for a detailed description of key functions Accessing files with user data 1 To access an editable user data file select...

Page 132: ...s user selectable the extension is assigned automatically and cannot be entered The file is saved to the selected path In addition to the files saved by the user some menus also offer files containing...

Page 133: ...veforms created by using the R S WinIQSIM2 program can be saved to the R S SMJ by copying them from a memory stick or a network to the internal hard disk Use the File Type to select a file type from t...

Page 134: ...sts all available file extensions for user files The currently availa ble files on the instrument depend on the installed options Table 4 1 List of the automatically assigned file extensions in the in...

Page 135: ...channels downlink 3g_ccod_dl_s Settings Channel coding enhanced DPDCH channels uplink 3g_ccod_ul CDMA2000 Settings Complete setting of the CDMA2000 menu cdma2k TD SCDMA2000 Settings Complete setting...

Page 136: ...trp DAB T DMB Settings Complete setting of the DAB T DMB menu dab Settings DAB ETI Files eti xeti NFC Settings Complete setting of the NFC menu nfc 4 8 Legend of Front Panel Controls The following ta...

Page 137: ...the editing mode is exited with ESC the previous value is restored FILE CTRL S Activates the menu for storing instrument settings FREQ CTRL F Activates the frequency entry G n dBuV ALT F9 Selects the...

Page 138: ...or general instrument set tings Softkeys CTRL F1 F8 Triggers the function assigned to the softkey WINBAR CTRL W Displays the Winbar in the foreground background 4 8 1 Front Panel Key Emulation The R S...

Page 139: ...Manual Operation R S SMJ100A 123 Operating Manual 1403 7458 32 14 Legend of Front Panel Controls...

Page 140: ...Manual Operation R S SMJ100A 124 Operating Manual 1403 7458 32 14 Legend of Front Panel Controls...

Page 141: ...cks I Q Mod and AWGN IMP The remaining and largest part of the chapter describes the functions used for the internal generation of the signals in the baseband these functions are provided in the Baseb...

Page 142: ...seband signal with impairments via the I Q OUT outputs AWGN IMP function block Impairment is also possible during I Q modulation I Q Mod function block Impairing the signal see Chapter 5 7 1 Impairmen...

Page 143: ...tal Standard IEEE 802 11n WLAN N Digital standard IEEE 802 16 WiMAX see description Digital Standard IEEE 802 16 WiMAX Digital Standard EUTRA LTE see description Digital Standard EUTRA LTE Digital sta...

Page 144: ...Default Instrument Settings Preset Key The PRESET key performs a defined instrument setup All parameters and switching states are preset also those of inactive operating modes The default instrument...

Page 145: ...e cur rently set operating mode or measurement It contains information on the insstrument s equipment and comprises all settings for the general configuration of the instrument and its interfaces To a...

Page 146: ...t are either described in the Service Manual of the instrument or they require to be per formed by a Rohde Schwarz service center Risk of invalid adjustment In order to achieve correct adjustment of t...

Page 147: ...vates that the instrument performs level adjustment with high accuracy Remote command CALibration hw LEVel HACCuracy STATe on page 524 Path Internal Adjustments Indicates the path for which the follow...

Page 148: ...e frequency range This is possible with Full Range Remote command CALibration hw IQModulator LOCal on page 523 Adjust I Q Modulator Full Range Starts the adjustment for the I Q modulator for the entir...

Page 149: ...Software Options dialog shows the firmware version of the instrument software as well as all installed hardware and software options Software options purchased at a later stage can be activated with...

Page 150: ...M2 list the installed hardware and software options Option Short name of option Designation Name of Option Licenses optional Number of licenses Expiration Date For regular options Permanent is indicat...

Page 151: ...ith an older firmware version a firmware update prior to enabling the software option may be required The information on the valid firmware versions for the purchased software option is provided toget...

Page 152: ...tings are described in Chapter 7 15 SENSe READ and INITiate Subsystems on page 558 How to update an R S NRP sensor To perform an R S NRP sensor update proceed as follows 1 Open the R S website http ww...

Page 153: ...er SNUMber on page 565 Update Section Update provides access to the file system in order to select a file for an R S NRP sensor update Button Select NRP File the selected file is indicated to the left...

Page 154: ...ay therefore differ from the intern used values Display Update is On Off Switchs on off update of the displayed parameters Switching off the update of the displayed parameters increases the speed for...

Page 155: ...outputs BBOUT and the correct data reception of the digital baseband inputs BBIN An external cable connection is needed to perform this test successfully An output must be connected to an input with...

Page 156: ...dialog contains all functions to test the operating elements of the instrument Performing the Front Panel Tests To perform the front panel test you operate the keys at the front panel and check the re...

Page 157: ...arz Customer Support Center for technical support see http www customersupport rohde schwarz com 5 2 3 10 Global Trigger Clock External Input Settings The Global Trigger Clock External Inputs menu can...

Page 158: ...puts of the AUX I O interface Remote command SOURce INPut TRIGger LEVel on page 723 Impedance Data Input Selects the input impedance for the serial and parallel data inputs 50 Ohm GND should be select...

Page 159: ...ates the falling edge of the trigger signal Remote command SOURce INPut TRIGger SLOPe on page 723 Clock Input Slope Sets the polarity of the active slope of an externally applied bit clock pulse or sy...

Page 160: ...USER connector Table 5 1 USER Connector Signals Signal Description Marker 4 A broad selection of suitable marker signals is offered in the marker menus of the Baseband block In addition they can be f...

Page 161: ...Select Setup Environment Global Trigger Clock External Inputs or 2 In the Baseband function block select any digital standard e g GSM EDGE and select Trigger Global Trigger Clock External Inputs The...

Page 162: ...signals which are available for selection are given in Table 5 1 Remote command OUTPut USER ch SOURce on page 557 Polarity No Signal Marker Selects the polarity of the No Signal Marker If Positive is...

Page 163: ...Local Switches the instrument to operate in local control mode Switching from remote to local control mode can be also done with one of the following actions manually with the LOCAL key on the front p...

Page 164: ...1 Discovery Enabled The LAN settings are configured using the instrument s LXI Browser Interface descri bed in Chapter 2 9 LXI Configuration on page 60 To open the Instrument Home Page welcome page ty...

Page 165: ...2 3 16 Security The security concept of the R S SMJ helps you to protect your instrument against uncontrolled access and changes All provided security services require that you enter the security pass...

Page 166: ...ecurity settings of the mass storage and the LAN services The settings in this dialog will not be assigned until you enter the Security Password and confirm with the Accept button Change Security Pass...

Page 167: ...ting will not be assigned until you enter the Security Password and con firm with Accept Annotation Frequency Enables disables the display of the currently used frequency in the header of the instrume...

Page 168: ...hannel and network settings to the default values executing Factory Preset via remote control terminates the connection to the instrument if these settings had been configured to values different to t...

Page 169: ...ttings The instrument can be operated for example dialogs can be opened However it is not possible to enter or change values The status message additionally indicates whether the LOCAL key is disabled...

Page 170: ...the hard copy settings are described in Chapter 7 11 HCOPy Subsystem on page 532 Destination Indicates that the hardcopy is stored in a file see also File Options on page 155 Remote command HCOPy DEV...

Page 171: ...age 535 5 2 5 2 Hardcopy Options This section describes the Hardcopy Options dialog File Options Dialog for setting the file parameters Format Selects the output file format for example bmp jpg xpm pn...

Page 172: ...ponent separately The Resulting File Name indicates the current file name syntax Remote command HCOPy FILE NAME AUTO FILE PREFix STATe on page 538 HCOPy FILE NAME AUTO FILE PREFix on page 538 HCOPy FI...

Page 173: ...em It is possible to move from this context sensitive page to any page of the help system The following navigation aids are available Internal links in the text They open pages which are directly link...

Page 174: ...y This provides fast switching between different instrument settings Only settings which differ from the preset values and configuration data for the operat ing elements e g window positions are store...

Page 175: ...le in the File Manager dialog 5 2 8 1 Save Recall Menu The settings available in the File menu Save Recall depend on the operation selected under Select Operation For more information see Chapter 4 7...

Page 176: ...e 161 Remote command to list all files in a directory MMEMory CDIRectory on page 549 MMEMory CATalog on page 548 refer to the description of firmware options for the syntax of the corresponding SCPI c...

Page 177: ...of the intermediate memories are retained Remote command SAV on page 487 File Manager Accesses the File Manager dialog see Chapter 5 2 8 5 File Manager on page 165 Remote command n a 5 2 8 3 Loading...

Page 178: ...files with user data SOURce hw BB DM DLISt CATalog on page 655 SOURce hw BB DM CLISt CATalog on page 655 Exclude Frequency The current frequency is retained when a stored instrument setting is loaded...

Page 179: ...te command n a 5 2 8 4 File Select Dialog The File Select dialog opens automatically each time you select a data list file as data source or you select a control list To access a loadable data list fi...

Page 180: ...les and or directories use the standard File Manager function see File Manager on page 161 Remote command to list all files in a directory MMEMory CDIRectory on page 549 MMEMory CATalog on page 548 re...

Page 181: ...Accesses the File Manager dialog see Chapter 5 2 8 5 File Manager on page 165 Remote command n a 5 2 8 5 File Manager The File Manager is a tool very similar to a standard Windows Explorer and helps...

Page 182: ...ndow Unlike the Save Recall and File Select dialogs the File Manager displays the full file names including extensions Remote command MMEMory CDIRectory on page 549 Cut Cuts the selected file It can b...

Page 183: ...ransferring Files from and to the Instrument To access files and the file system of the instrument or to use the general file manage ment functions such as copying and moving data use the standard Fil...

Page 184: ...he Map Network Drive dialog a Select a valid Drive e g W b In the Folder field enter IP Address of the Instrument share or Hostname of the Instrument share e g 10 113 10 105 share c Select Finish A lo...

Page 185: ...umulative Distribution Function with different channelization codes or the spectra if different filter parameters are selected The displayed signal segment can be influenced by selecting the trigger t...

Page 186: ...t the bottom of each graphics window there are several buttons for freezing and zooming the display and for activating a reference curve For more information see Chapter 5 3 2 Bar of Graphics Window o...

Page 187: ...only if Code Domain 3GPP FDD DL is selected Sets the scrambling code if the Code Domain display is selected Since it is possible to select a different scrambling code in the menu for each of the 4 bas...

Page 188: ...ezes the current display Clicking the button again reactivates the normal permanently updated display Freezing the display allows it to be analyzed more easily Zooming the display at the same time per...

Page 189: ...nce curves The reference curves must be defined beforehand using the Copy to Ref button Remote command n a Copy to ref Defines the current curve as the reference curve A window opens in which the curv...

Page 190: ...to the selected color in the display area Remote command n a 5 3 3 Signal Displays All signal displays which are used for analyzing a baseband signal can be selected A number of signal displays are o...

Page 191: ...ak envelope power PEP are plotted on the X and Y axis minimum scaled amplitude 1 maximum scaled amplitude 1 This display shows the curves between the various states of modulation mapping The recording...

Page 192: ...nt The amplitudes of the signal components scaled to the peak envelope power PEP are plotted on the X and Y axis minimum scaled amplitude 1 maximum scaled amplitude 1 The recording depth is 2kSamples...

Page 193: ...e range 1 symbol is plotted on the X axis and the amplitude scaled to the peak envelope power PEP is plotted on the Y axis mini mum scaled amplitude 1 maximum scaled amplitude 1 The beginning of recor...

Page 194: ...is plotted from 0 to 20 dB on the X axis the average power RMS corresponds to the origin The probability of exceeding the average power is plotted between 0 0001 and 100 on the Y axis The recording d...

Page 195: ...ampling rate 2 to sampling rate 2 FFT Points indicates the number of I Q value pairs which are used for calculating a part FFT AVG indicates the number of subspectra used for averag ing The recording...

Page 196: ...gnals The bit error rate tester of the R S SMJ synchronizes to the known PRBS sequence and counts the bit errors The quotient obtained by dividing the number of error bits by the total number of bits...

Page 197: ...ata used to drive the DUT can be generated by the R S SMJ or an user defined external source The R S SMJ can generate any externally computed modulation sig nals that were created using e g R S WinIQS...

Page 198: ...atus makes it possible to start the analysis anywhere in the bit stream i e the bit stream source and the analyzer need not be synchronized Delays of the DUT and transmission over long air paths where...

Page 199: ...ne of the two criteria has been met The display shows which of the two criteria caused the measurement to stop The BER BLER measurement measures statistical bit block errors i e errors which do not oc...

Page 200: ...of a PRBS sequence Figure 5 3 TDMA signal generated by the R S SMJ with user data that contains the PRBS data sequence The PRBS sequence is continuously written to the user data fields 5 4 8 Data Ena...

Page 201: ...f Pattern Ignore 50 bits were set to 0 by the DUT These 50 bits plus the preceding 0 are ignored in the bit error rate measurement 5 4 10 Bit Error Rate Menu The Bit Error Rate menu for configuring th...

Page 202: ...ment must be started by clicking the Execute Single button Remote command BERT STATe on page 519 Bit Error Rate Displays the measured bit error rate The bit error rate is the ratio of occurred errors...

Page 203: ...tus of the measurement This enables the user to check whether the measurement functions The status of the data and clock lines and of synchronization is checked and displayed If a faulty status is dis...

Page 204: ...h violates setup or hold times see Clock Slope parameter The travel times of clock and data are unfavorable e g clock slope at data change Check the relationship of clock to data using an oscilloscope...

Page 205: ...n page 518 To stop a measurement use the command BERT STOP on page 519 Single Single measurement of bit error rate The measurement is started by clicking the Execute Single button If a measurement is...

Page 206: ...and PRBS23 is performed auto matically when the PRBS is selected Data Polarity remains unaffected Norm High level stands for logic 1 low level for logic 0 Inv Low level stands for logic 1 high level...

Page 207: ...R S SMJ is used as a data source a signal in which a single 1 was coded at the end of the data sequence can be used as a restart signal at the R S SMJ marker output This causes the BER measure ment to...

Page 208: ...l of the Data Enable signal The measurement is interrupted during a high level of the Data Enable signal Remote command BERT SETup DENable on page 515 Pattern Ignore Activates deactivates ignoring of...

Page 209: ...the BER measurement Remote command BERT SETup IGNore on page 516 BERT SETup DENable on page 515 5 4 11 Block Error Rate Menu The Block Error Rate menu for configuring the block error rate measurement...

Page 210: ...te is the ratio of faulty blocks to total blocks The display unit can be selected in the box to the right of the value ENG The block error rate is output in exponential notation with the expo nent 3 o...

Page 211: ...ck whether the measurement functions The status of the data and clock lines and of synchronization is checked and displayed If a faulty status is displayed the signals can be checked at the BERT inter...

Page 212: ...Check the relationship of clock to data using an oscilloscope and optimize the travel times e g clock slope when the data signal applied is stable Remote command BLER RESult on page 512 5 4 11 2 Confi...

Page 213: ...istically unreliable If the measurement is terminated because the number of data blocks entered here was checked Number of Data Blocks appears to the right of Terminated By Remote command BLER SETup M...

Page 214: ...of different signals In addition reflections and other interference can be suppressed by selecting the appropriate threshold Remote command SOURce INPut BERT THReshold on page 520 Data Enable Sets th...

Page 215: ...l is reactivated Activating RF Signal Output If the settings for the RF signal are done you can activate RF signal output via the TOGGLE ON OFF key the RF A Mod function block must first be selected t...

Page 216: ...y level and LF sweep simultaneously List Mode The RF signal is generated on the basis of a list of predefined frequency and level values The duration of the individual steps can be predefined Instrume...

Page 217: ...tiple of the frequency by a frequency multiplier The R S SMJ indicates the resulting frequency including offset and multiplication factor in the header of the screen that means the indicated frequenc...

Page 218: ...in Chapter 5 5 3 2 Phase Continuous Frequency on page 205 Chapter 5 5 3 Phase on page 204 Chapter 5 5 4 Reference Oscillator on page 209 Chapter 5 5 5 Local Oscillator LO Coupling on page 212 5 5 2 4...

Page 219: ...at the RF output It only changes the RF frequency displayed in the display header The value of the RF fre quency in the header corresponds to the frequency at the output of the downstream instrument...

Page 220: ...Remote command SOURce hw FREQuency STEP MODE on page 720 Variation Step Sets the user defined step width This step width is used when entering the RF fre quency using the rotary knob Frequency variat...

Page 221: ...l generator Remote command SOURce hw PHASe on page 759 Reset Delta Phase Display Resets delta phase value The set phase is adopted as the new current phase i e the delta phase value is reset to 0 Remo...

Page 222: ...r example divid ers filters phase detectors which could generate phase discontinuities when changed The frequency change is effectively performed by changing the fine resolu tion synthesizer This allo...

Page 223: ...witch it off 2 In the RF Frequency Menu under the Phase Continuous Frequency Settings dialog a If the Phase Continuous Frequency Mode is Active switch it off b Set Frequency Range to Narrow c Select t...

Page 224: ...remote commands required to define the phase settings are described in Chap ter 7 16 6 SOURce FREQuency Subsystem on page 712 Phase Continuous Active Activates phase continuous frequency settings For...

Page 225: ...eference signal of the R S SMJ The internal reference oscillator supplies the reference frequency In addition you can shift the frequency by an external tuning voltage within a cer tain range EFC Exte...

Page 226: ...tion External fref 5 10 13 MHz 5 10 13 MHz REF OUT If you have an external reference signal with 5 10 or 13 MHz you can directly pass it to the output The signal quality remains the same Figure 5 11 S...

Page 227: ...bed in Chapter 7 16 17 SOURce ROSCillator Subsystem on page 774 Source Selects the source of the reference frequency See Chapter 5 5 4 Reference Oscillator on page 209 which provides an overview of th...

Page 228: ...Value Remote command SOURce ROSCillator INTernal ADJust STATe on page 776 Adjustment DAC Value Sets a user defined deviation for the internal reference frequency This value takes effect when it is act...

Page 229: ...instable due to phase noise of the two synthesizers weak coupling at 10 MHz and a long synthesis chain up to the RF domain temperature differences which cause a change of the effective electrical leng...

Page 230: ...n page 202 Chapter 5 5 3 1 Phase Settings on page 204 Chapter 5 5 4 1 Reference Oscillator Settings on page 211 Mode LO Coupling Selects the mode of the local oscillator coupling Internal This mode co...

Page 231: ...n the Level EMF dialog of the RF block RF level vs RF output level The level entered and displayed in the Level field takes the offset of any downstream attenuators amplifiers into consideration by wa...

Page 232: ...ere are correction coefficients to be applied etc In cases like this the displayed value in the header of the instrument does not always correspond to the level at the RF output When working with a SW...

Page 233: ...Automatic Level Control ALC on page 220 and Chapter 5 5 8 User Correction on page 222 The remote commands required to define the settings are described in Chap ter 7 16 15 SOURce POWer Subsystem on pa...

Page 234: ...hange the value of the RF level at the RF output It only changes the RF level displayed in the display header The value of the RF level in the header corresponds to the level at the output of the down...

Page 235: ...attenuation to maximum when the RF signal is switched off This setting is recommended for applications that require a high level of noise suppression Remote command SOURce hw POWer ATTenuation RFOFf...

Page 236: ...vel is displayed as a voltage over a 50 Ohm load Note This setting is not affected by an instrument preset PRESET key RST or the Save Recall function Only the Chapter 5 2 3 18 Factory Preset on page 1...

Page 237: ...a short period of time into CW mode and activates ALC ALC adjusts the level to the set value and the generator holds the value freeze Then the generator switches ALC off again and back to the operati...

Page 238: ...Hold mode is active Remote command SOURce hw POWer ALC SONCe on page 763 Protect RF Output ALC The signal is attenuated for about 40 dB to protect external devices against internal signals if the fol...

Page 239: ...les The User Correction list with the correction values acquired by the sensor is generated in the Edit User Correction List menu The correction values can be acquired any time irrespective of the mod...

Page 240: ...User Correction Value User Correction Indicates the current value for level correction Remote command SOURce hw CORRection VALue on page 708 User Cor Data User Correction Calls the File Select menu f...

Page 241: ...lue applies Note The Fill function allows to automatically enter any number of frequencies with freely selectable range and increment Using the Fill With Sensor function of the Edit sub menu requires...

Page 242: ...e marked row Delete Range Allows to delete any number of rows starting with the marked row The number of rows to be deleted can be defined in an entry window Save as Open the file menu to save the lis...

Page 243: ...orrection Selects if user correction lists should be imported or exported The settings offered depend on the selected mode Remote command SOURce hw CORRection DEXChange MODE on page 706 Extension User...

Page 244: ...User Correction Starts the export or import of the selected file When import is selected the ASCII file is imported as user correction list When export is selected the user correction list is exporte...

Page 245: ...value for the frequency or the level entries Remote command n a Increment value Sets the increment for the frequency or the level entries Remote command n a Fill Fills the selected column in the set...

Page 246: ...equency values are measured using the Power Sensor and automatically filled in the selected list after the Execute button is pressed The list is automatically stored and recalled again after filling F...

Page 247: ...modulation state Amplitude Shows the currently set level Use SParameter Indicates whether SParameter correction is used Multi Level Measurement Enables you to activate multi level measurement Attenuat...

Page 248: ...the multi level correction results Multi Level Values The measurement values for the different attenuator settings are retrieved separately The numeric suffix at MLEV correlates to the index of the co...

Page 249: ...s You can directly connect the R S NRP Z Sensors to the standard NRP sen sor connectors of the hub The hub is connected to the R S SMJ either with the R S NRP Z2 extension cable or via USB with the ad...

Page 250: ...wer Settings To access the dialog for configuring the RF signal level perform one of the follow ing Select RF A Mod config RF Measurement NRP Z Power Viewer Press the MENU key and select RF A Mod RF M...

Page 251: ...e ch POWer TYPE on page 567 SENSe ch POWer SNUMber on page 565 State Activates deactivates level measurement by the power sensor The local state is set with the INIT command Switching the local state...

Page 252: ...to switch the permanent display active for several sensors The instru ment indicates the values of a maximum of two sensors simultaneously in ascending order of connected channels If you activate the...

Page 253: ...will maintain the thermal equilibrium and zeroing will also compensate for the noise superimposed on the measured signal e g from a broadband amplifier Remote command SENSe ch POWer ZERO on page 567 S...

Page 254: ...factory results because you will always have to adjust an optimal manual filter length setting if the power is not constant Selection Fixed Noise is offered for achieving defined measurement accuracy...

Page 255: ...r defined aperture time for the respective sensor The sensor default setting is usually sufficient If however the readings vary it is rec ommended that you adjust the aperture time exactly to one modu...

Page 256: ...nt the existing data will not be overwritten but added to the file If you use this function it is recommended that you regularly remove the files from the hard disk since they require storage capacity...

Page 257: ...nerator on page 253 External Modulation Sources The EXT MOD input at the rear of the instrument is provided as the external modula tion source for amplitude pulse frequency and phase modulation The ex...

Page 258: ...ed It is not possible to use AM simultaneously with broadband AM I Q modulation arbitrary waveform generation digital modulation and digital standards The AM modulation depth is limited by the maximum...

Page 259: ...l Uses an externally applied modulation signal The external signal is input via the EXT MOD connector Intern Extern Uses both the internal and externally applied modulation signal for example to perfo...

Page 260: ...ut The display only appears in the case of external modu lation Remote command n a External Input Impedance Source External only Sets the impedance for the external modulation signal applied at the EX...

Page 261: ...vides access to the pulse modulation settings see Chap ter 5 5 11 6 Pulse Modulation PM on page 251 The middle section provides access to the amplitude modulation settings see Chap ter 5 5 11 2 Amplit...

Page 262: ...kOhm impedance can be selected It is not possible to use frequency modulation simultaneously with phase modulation See Simultaneous Operation of Several Modulations or Other Operating Modes on page 2...

Page 263: ...for example a deviation 5 MHz at a center frequency of 1 GHz leads to a frequency modulation between 995 MHz and 1005 MHz The maximum deviation depends on the RF frequency set and the selected modula...

Page 264: ...DC voltage component and uses only the AC com ponent of the modulation signal DC Uses the modulation signal with both components AC and DC Remote command SOURce hw FM EXTernal COUPling on page 710 Ext...

Page 265: ...full setting range for M deviation and a reduced set ting range for modulation bandwidth Phase noise is reduced in the lower modula tion frequency range compared to the default mode Phase Modulation...

Page 266: ...of modulation frequency is limited see data sheet This mode is recommended for low modulation frequencies and or high M deviation Remote command SOURce hw PM MODE on page 760 M Deviation Sets the modu...

Page 267: ...ance Source External only Sets the impedance for the external modulation signal applied at the EXT MOD con nector You can select 50 Ohm or high 100 kOhm Note The selection of 50 Ohm to ground requires...

Page 268: ...e Modula tion or use the MENU key under RF A Mod In the upper section of the menu the modulation source is selected and the modulation switched on The configuration of the selected external and or int...

Page 269: ...MPedance on page 721 Polarity External Source only Selects the polarity of the modulation signal Normal The RF signal is On while the level is high at the modulation input Inverted The RF signal is Of...

Page 270: ...e bottom section The top sections provide access to the LF Sweep mode settings see Chapter 5 5 13 LF Frequency Sweep on page 255 The remote commands required to define these settings are described in...

Page 271: ...The LF sweep mode is activated and the sweep mode is selected The buttons are used to reset the LF sweep all sweep modes or to execute the LF sweep Single mode The sweep range sweep spacing and dwell...

Page 272: ...e dwell time If one cycle is completed the instrument waits for the next trigger event To trigger the sweep use Execute Single Sweep button or the cor responding remote control commands for example TR...

Page 273: ...l trigger signal The step width corresponds to the step width set for the rotary knob Example SOUR LFO SWE FREQ MODE AUTO TRIG0 SWE SOUR EXT SOUR LFO FREQ MODE SWE External trigger Extern Start Stop G...

Page 274: ...y STARt on page 739 Stop Freq Sets the stop frequency Remote command SOURce hw LFOutput FREQuency STOP on page 740 Current Freq Displays the current frequency In sweep Step mode the parameter is edita...

Page 275: ...p this value is added to the current frequency Depending on the Spacing mode you have set the corresponding parameter is dis played Step Lin The step width is a constant value in Hz Remote command SOU...

Page 276: ...and List Mode 5 5 14 1 Overview The R S SMJ offers three different sweep types frequency sweep level sweep and LF sweep to be activated alternatively Each type has 6 modes which differ with respect t...

Page 277: ...od Configure RF Fre quency Sweep or use the MENU key under RF A Mod In the top section of the dialog the RF sweep is activated and the sweep mode is selected The buttons are used to reset the RF sweep...

Page 278: ...Activates RF sweep mode Note Activating a sweep mode automatically deactivates other sweeps and the list mode Remote command SOURce hw FREQuency MODE on page 716 Mode RF Frequency Sweep Selects the R...

Page 279: ...O TRIG FSW SOUR AUTO SOUR FREQ MODE SWE Single Generates a single sweep cycle after a trigger event The sweep steps within the cycle are performed automatically con trolled by the dwell time If one cy...

Page 280: ...FREQ SPAC LIN SOUR SWE FREQ STEP LIN 100MHz SOUR FREQ MODE MAN set sweep mode Step SOUR FREQ MODE SWE activate sweep mode the frequency is set to Start Freq SOUR FREQ MAN UP set the frequency to the...

Page 281: ...n the con nectors for external trigger signal input see Chapter 2 2 Rear Panel Tour on page 27 Example SOUR SWE FREQ MODE AUTO TRIG FSW SOUR EAUT SOUR FREQ MODE SWE External trigger Remote command SOU...

Page 282: ...Sweep Selects the mode for the calculation of the frequency sweep intervals Linear Takes the frequency value entered as an absolute value in Hz Logarithmic Takes the value entered as a lograithmic va...

Page 283: ...f1 1 step_log 100 If f2 stop_f f2 is set to stop_f start_f stop_f f2 f1 1 step_log 100 If f2 stop_f f2 is set to stop_f When the shape Triangle is set the frequency values on the slope from stop_f ba...

Page 284: ...ngs on page 144 The pin assignment of the AUX I O interface is shown in the User Marker AUX I O Configuration menu the assignment of the USER pins 2 4 and USER 1 BNC con nector can be changed 5 5 14 3...

Page 285: ...mode during the execution the signal generator stops the sweep and starts with the next trigger event at the initial value The Reset Sweep button sets the sweep to the start value Auto Sets an automat...

Page 286: ...nd SOUR POW MAN has no effect the command only triggers the next sweep step However the value has to be in the currently set sweep range start to stop In remote con trol only a step by step sweep from...

Page 287: ...TRIG PSW SOUR EAUT SOUR POW MODE SWE External trigger Remote command SOURce hw SWEep POWer MODE on page 784 TRIGger hw PSWeep SOURce on page 806 SOURce hw POWer MODE on page 768 Reset Sweep Level Swe...

Page 288: ...the sweep resembles a triangle Each subsequent sweep starts at the start level again Remote command SOURce hw SWEep POWer SHAPe on page 786 Step Level Sweep Sets the step width for the individual swe...

Page 289: ...an not be activated simultaneously they deactivate each other The lists can be created in the List Editor Each list is stored in its own file with the predefined file extension lsw The name of the lis...

Page 290: ...ecessary hardware settings are automatically determined on activation of the list mode The data determined in this way is stored along with the list and is available whenever the list is used again Th...

Page 291: ...in dis crete steps by varying the index The duration of a list step is deter mined by the time between two index entries Button Reset restarts the list at the starting point Extern Single Single cycle...

Page 292: ...hw LIST DWELl on page 752 Current Index List Mode Sets the list index in Step mode Remote command SOURce hw LIST INDex on page 754 Blank RF Output Default ON List Mode Activates deactivates RF output...

Page 293: ...dit List Mode Data List Mode Calls the editor for editing the selected list A list consists of any number of frequency level value pairs The currently selected list is displayed Frequency Hz Enter the...

Page 294: ...trument s hard disk as a separate file with the file prefix lsw The file name and the directory to which the file is saved are user selectable Save The list is saved under its current name List Range...

Page 295: ...ted as text or CSV files and used for list mode On the other hand internally created list mode lists can be exported as text or CSV files Mode List Mode Selects if list mode lists should be imported o...

Page 296: ...ation in Remote command SOURce hw LIST DEXChange SELect on page 752 Import Export List Mode Starts the export or import of the selected file When import is selected the ASCII file is imported as list...

Page 297: ...fill Selects either the frequency or the level column to be filled with the value defined below Remote command n a Start value Sets the start value for the frequency or the level entries Remote comma...

Page 298: ...outputs a signal which for example compensates signal distortion in a connected test object DUT Impairment is integrated in the basic unit The generation of noise requires the option R S SMJ K62 AWGN...

Page 299: ...routine should be called in the case of temperature fluctuations of several degrees To call the routine press the SETUP key and select System Internal Adjustment and execute the desired adjustment pro...

Page 300: ...is setting requires the additional equipment options for generating the various baseband signals Remote command SOURce hw IQ SOURce on page 726 State I Q Mod Activates deactivates I Q modulation If An...

Page 301: ...n and Gain Imbal ance on page 289 The entry is made in dB default or where 1 dB offset is roughly 12 according to the following Imbalance dB 20log GainQ GainI Positive values mean that the Q vector is...

Page 302: ...pifct q t sin 2pifct The instrument family is based on the following definition s t i t cos 2pifct q t sin 2pifct I Q Swap must now be set to On so that an I Q modulator defined according to IS2000 ca...

Page 303: ...plies a lower average power the crest factor specifies how many dB have to be added internally so that the correct output power is achieved Remote command SOURce hw IQ CREStfactor on page 724 Baseband...

Page 304: ...s and the option R S SMJ K62 Noise Generator for AWGN Selecting the menu item I Q Impairments Digital Baseband opens the I Q impair ment settings dialog This dialog covers the settings for I Q impairm...

Page 305: ...gs are made in the I Q Mod function block see Chapter 5 6 I Q Modulation I Q Mod Block on page 282 5 7 1 1 Gain and Gain Imbalance An I Q gain is a multiplication of all I Q amplitudes by a common fac...

Page 306: ...e interfering signals at the RF carrier frequency e g an unsuppressed RF car rier subchannel The effect of a positive I and Q offset in the I Q constellation diagram is shown on Figure 5 15 Figure 5 1...

Page 307: ...ct AWGN IMP Configure I Q Impairements or use the MENU key under AWGN IMP I Q impairment is activated and set in the I Q Impairments section Internal compensation of signal distortions of the RF outpu...

Page 308: ...er 5 7 1 1 Gain and Gain Imbal ance on page 289 The entry is made in dB default or where 1 dB offset is roughly 12 according to the following Imbalance dB 20log GainQ GainI Positive values mean that t...

Page 309: ...ratio The Gaussian noise is generated by means of feedback shift registers with subsequent probability transformation The switching configuration is such that virtually ideal statis tical characterist...

Page 310: ...fering signal is configured in the top section of the menu The power of the interfering signal is configured in the Noise power Configuration And Output Results section In Additive Noise and CW interf...

Page 311: ...equency range the signal is superimposed with a noise signal whose power corresponds exactly to the set C N or S N ratio Note The noise signal is not generated arbitrarily for a particular bandwidth b...

Page 312: ...n R S SMJ B18 Baseband Digital I Q Out If the instrument is not equipped with this option the parameters of the analog signal path are displayed Analog Out put The parameters of the analog signal path...

Page 313: ...gnals the bit rate used for calculation is defined by the selected standard in the Custom Digital Mod dialog With Digital Standard signals the bit rate to be used for calculating the Eb N0 can be ente...

Page 314: ...l i e the carrier power The RFI power remains constant The power of the noise signal which is derived from the entered C N or S N value is displayed under Noise Power The value is displayed automatica...

Page 315: ...ndwidth Note The peak envelope power PEP specified in the header corresponds to the PEP value of the carrier The PEP value of the overall signal is displayed in the menu under Carrier Noise PEP Remote...

Page 316: ...Power System Bandwidth Carrier Interferer Power Signal Interferer Power In Additive Noise and CW Interferer modes displays the overall power of the noise interferer signal plus useful signal Note This...

Page 317: ...signal can be output single ended or differential non inverted The single ended or differential output requires option R S SMJ B16 Differential Out put The analog signal is output at the I Q output c...

Page 318: ...points The equipment options for the basic unit R S SMJ with frequency option R S SMJ B10x include the option R S SMJ B13 Baseband Main Module and the option R S SMJ B16 Differential Output for I Q Ou...

Page 319: ...n inverting and non inverting output can be set to balance a difference of the best operating points Single Ended Single ended output at I OUT and Q OUT A bias between I Q OUT and ground can be define...

Page 320: ...m overall output voltage 0 5 LevelEMF BiasEMF 0 5 Off set is 3 7 V Remote command SOURce hw IQ OUTPut LEVel on page 730 Resulting I Q Level Vp EMF Displays the resulting output off load voltage of bot...

Page 321: ...e set value is set half in the positive and half in the negative direction A positive offset is set with half of the value in positive direction at the non invert ing outputs in negative direction at...

Page 322: ...ith the option R S SMJ B18 Digital I Q Out Two path instruments require a second option R S SMJ B18 Digital I Q Out for digital output If an R S EX IQ BOX is connected the R S SMJ recognizes this modu...

Page 323: ...lock reference signal is used The clock signal is directly fed in via pin CLK2 of the digital output interface option R S SMJ B18 Digital I Q Out The sample rate is estimated and displayed in the fiel...

Page 324: ...mmand SOURce hw IQ OUTPut DIGital POWer PEP on page 734 Level Digital I Q Out The signal level is expressed in terms of an rms level value The level entry fields and the corresponding unit are display...

Page 325: ...d SOURce IQ OUTPut DIGital OFLow HOLD STATe on page 732 Reset Digital I Q Out Executes a reset of the overflow hold state and LED Remote command SOURce IQ OUTPut DIGital OFLow HOLD RESet on page 732 P...

Page 326: ...n page 310 From baseboard version DacBoard 1141 8190 02 or higher monitoring the mea surement with or without interfering is possible See Chapter 5 7 4 2 Baseband Signal Power Measurement on page 311...

Page 327: ...hw BB POWer PEAK on page 695 Power Digital Impairments Indicates the power of the baseband signal relative to full scale of 0 5 V in terms of dB full scale Remote command SOURce hw BB POWer RMS on pag...

Page 328: ...l in the range of 1 s 3 h The time is to be entered in format hh mm ss Remote command SOURce hw BB MEASurement DURation on page 693 Remaining Time Digital Impairments Measurement Indicates the remaini...

Page 329: ...B11 The three Baseband Generator options feature different ARB memory sizes see data sheet Apart from the memory size however the options offer the same functionality either one can be installed In a...

Page 330: ...nerator ARB see Chapter 5 8 3 Arbitrary Waveform Generator ARB on page 367 Internally the Multi Carrier CW menu for defining multi carrier waveforms is available see Chapter 5 8 4 Multi Carrier Contin...

Page 331: ...data can be generated and stored in the form of binary lists A sep arate file is created for each list and held on the instrument s hard disk The file name can be defined by the user The Data Source s...

Page 332: ...for example 3bits symbol only data lines D0 D1 and D2 are used The clock reference symbol clock used to read in the data can be either internal or external External parallel data is output on the DATA...

Page 333: ...e of the external clock refer ence A symbol clock can be supplied externally or if internally generated or externally asynchronous data is being fed in a multiple of a symbol clock can be supplied In...

Page 334: ...signals of an 8 PSK modula tion 3 bits per symbol on the parallel interface The data source is a data list with 15 bits 001 010 100 101 110 5 symbols Figure 5 19 Data and clock output signals on the p...

Page 335: ...rface The setup and hold times see following diagram tsetup and thold that must be maintained in the R S SMJ to ensure that the serial data is accepted correctly can be found in the data sheet The fol...

Page 336: ...ock when paral lel data is being supplied from an external source and an external reference clock is being used Figure 5 23 External parallel data with high and low active external symbol clock The se...

Page 337: ...Modu lation only When generated internally the signals are output on the AUX I O interface Power Ramping and Level Attenuation The R S SMJ uses the two control signals Burst Gate and Lev_Att to trigge...

Page 338: ...ings on the Generated Signal The Figure 5 24 explains the power ramping function in principle The Burst Gate sig nal defines the start of the rising and falling edges of the envelope of the output sig...

Page 339: ...for the next trigger to start signal generation anew The status of signal generation Running or Stopped is displayed for all trigger modes in the corresponding trigger menu of the digital standard cu...

Page 340: ...d but marker 4 can be placed on one of the USER outputs according to choice Marker Connector Location Markers 1 2 MARKER 1 2 BNC connectors front panel Marker 3 MARKER 3 pin of the AUX I O connector r...

Page 341: ...eased to 2 3 4 symbol periods Marker Mode Pattern Periodic marker where each period is defined by a bit pattern with a maximum length of 64 bits A 1 0 in the pattern denotes an On Off signal segment w...

Page 342: ...fil tering Both values are pre measured internally so that the displayed values match the true values in the signal When external signals are used they are replaced by PRBS data during pre measurement...

Page 343: ...ion FSK deviation cannot be set since it is permanently set to of the symbol rate Table 5 3 Modulation type and associated mapping ASK 1 bit per symbol SOUR BB DM FORM ASK PSK BPSK 1 bit per symbol SO...

Page 344: ...l coding pi 4 rotation SOUR BB DM FORM P4DQ pi 8 D8PSK 3 bits per symbol Differential coding pi 8 rotation SOUR BB DM FORM P8D8 8PSK 3 bits per symbol SOUR BB DM FORM PSK8 8PSK EDGE 3pi 8 8PSK 3 bits...

Page 345: ...ion SOUR BB DM FORM QAM32EDge 64QAM 6 bits per symbol SOUR BB DM FORM QAM64 128QAM 7 bits per symbol SOUR BB DM FORM QAM128 256QAM 8 bits per symbol SOUR BB DM FORM QAM256 1024QAM 10 bits per symbol S...

Page 346: ...on of nearly any arbitrarily chosen constellation diagram The output of mapwiz is a mapping file vam that can be imported on a R S SMJ The program was developed on a 32 bit Microsoft Windows platform...

Page 347: ...PSK EDGE X QPSK45 Off set X X X X Pi 4 QPSK X X X Pi 4 DQPSK X X X X 8PSK X X X X X AQPSK X X X X OQPSK X X X X 8PSK_EDGE X Pi 8 D8PSK X X X MSK X X X X X 2FSK X X X X X 4FSK X X X X X 8FSK X X X X 16...

Page 348: ...45 45 Coding algorithms Common coding types are listed in the following table Table 5 6 Coding algorithms Coding Coding algorithm Applicable for K bit symbol NONE bn an k 1 8 Differential bn an bn 1...

Page 349: ...Differential coding according to VDL Modulation symbol dn 000 001 010 011 100 101 110 111 Phase difference 0 45 135 90 270 315 225 180 Phase differential coding INMARSAT and PHASE DIFF correspond to...

Page 350: ...BB DM FILT TYPE RCOS SOUR BB DM FILT PAR RCOS 0 99 Gauss FSK B x T SOUR BB DM FILT TYPE GAUS SOUR BB DM FILT PAR GAUS 2 5 Pure Gauss B x T SOUR BB DM FILT TYPE PGA SOUR BB DM FILT PAR PGA 2 5 Gauss Li...

Page 351: ...28 cdma2000 3X SOUR BB DM FILT TYPE DM3x APCO25 Roll Off Factor SOUR BB DM FILT TYPE APCO25 SOUR BB DM FILT PAR APC 0 5 APCO25 H CPM SOUR BB DM FILT TYPE APCO25Hcpm APCO25 LSM SOUR BB DM FILT TYPE APC...

Page 352: ...andards However depending on the selected filter form one or more filter parameters are additionally provided for even precise adjustment of the filter characteristic like more steeper edges or custom...

Page 353: ...of a brick like filter The roll off factor affects the steepness of the filter flanks A Rolloff Factor 0 would result in the steepest theoretically possible flanks values near to 1 make the flanks mo...

Page 354: ...refer to the description Introduction to filtwiz Filter Editor on the Rohde Schwarz Internet page 5 8 2 5 Conflicting Settings Custom Digital Mod Having selected a modulation procedure not every combi...

Page 355: ...fault settings and user defined standards The data source is selected and set in the Data Source section The List Management button opens a submenu for calling the data editor and the file manager The...

Page 356: ...digital modulation Switching on digital modulation turns off all the other digital standards The digital modulation is generated in realtime no precalculated signal and therefore all parameter change...

Page 357: ...ect windows for saving and recalling the complete settings in the Custom Digital Modulation menu can be called The Digital Modulation settings are stored as files with the predefined file extension dm...

Page 358: ...source is selected and set in the Data Source section The parameters offered depend on the data source selected The More button opens a submenu for calling the data editor and the file manager Data So...

Page 359: ...e PARDATA pins on the AUX I O interface Remote command SOURce hw BB DM SOURce on page 630 List Management Calls the menu for managing data and control lists see List Management on page 351 Remote comm...

Page 360: ...s Cut Off 6 2 KHz APCO25 8FSK APCOPH1Lsm APCO Phase1 WCQPSK pi 4 DQPSK 4 8 ksym s Cosine roll off 1 BW 7 2 KHz APCO25 8FSK APCOPH1Wcqpsk Bluetooth 2FSK Deviation 160 0 kHz 1 0 Msym s Gauss B T 0 5 OFF...

Page 361: ...DM STANdard ULISt DELete on page 665 SOURce hw BB DM STANdard ULISt LOAD on page 666 SOURce hw BB DM STANdard ULISt STORe on page 666 Symbol Rate Selects the symbol rate The value range is dependent...

Page 362: ...ing window in which the mapping table can be selected see User Mapping on page 330 The button is only available if modulation type USER is selected The button File Manager calls the File Manager menu...

Page 363: ...pping of the currently selected modulation type and the digital modulation delay in the case of an external data source The Modulation CW Switching section can be used to enable switching of the signa...

Page 364: ...the corresponding peak I Q value associated with this data item on the I Q connectors Remote command SOURce hw BB DM MDELay on page 650 Current Modulation Type Displays the currently selected modulati...

Page 365: ...BB DM FILTer PARameter SPHase on page 645 Cut Off Frequency Factor available for filter parameter Lowpass and APCO25 LSM only Sets the value for the cut off frequency factor The cut off frequency of t...

Page 366: ...and delete files Remote command SOURce hw BB DM FLISt SELect on page 662 SOURce hw BB DM FLISt CATalog on page 655 SOURce hw BB DM FLISt DELete on page 661 Current Filter Response Displays the filter...

Page 367: ...Management menu is called from the Custom Digital Modulation main menu The data and control lists are selected and created in the File Select menu which is called up by means of the Data List and Cont...

Page 368: ...w list contains no data it can be edited in the list editor Remote command SOURce hw BB DM DLISt SELect on page 661 SOURce hw BB DM CLISt SELect on page 658 File Manager Calls the File Manager The Fil...

Page 369: ...three offset positions are specified at the beginning of the row An existing list can be edited in the insert or overwrite mode Remote command SOURce hw BB DM DLISt SELect on page 661 SOURce hw BB DM...

Page 370: ...hexadecimal value To increase readability the hexa decimal values in turn are displayed in pairs of two The hex functions are automati cally assigned to the numeric keys at the front panel Remote comm...

Page 371: ...in the check box shows the marker for which the CList marker type has been selected and the control signal for which the Internal source has been selected In the Select Ramp to Edit section the signal...

Page 372: ...tion where a ramp is required The ramp is generated by pressing Enter e g clicking on the rotary knob Any number of ramps can be defined per marker Each of the generated ramp positions will be saved e...

Page 373: ...the displayed signal area and can subse quently be shifted as required Ramp Up Down The marker control signal contains a ramp from low to high and from high to low The ramps are symmetrically shifted...

Page 374: ...ter Visible Bits Visible determines the number of symbols bits to be displayed Ramps outside the displayed area are not lost by zooming Remote command n a Save Save As Pressing the Save button saves t...

Page 375: ...ls in the internal control list are used for control pur poses See also Control and Marker List Editor on page 354 The signals are output on the LEV_ATT and BURST pin on the AUX I O interface of path...

Page 376: ...e to a delay the envelope length increases and a negative value causes an advance the envelope length decreases The setting is expressed in symbols Remote command SOURce hw BB DM PRAMp FDELay on page...

Page 377: ...odulation main menu The Trigger In section is where the trigger for the modulation signal is set Various parameters will be provided for the settings depending on which trigger source inter nal or ext...

Page 378: ...igger event internal with Execute Trigger or external causes a restart Armed_Ret rigger The digital modulation signal is generated only when a trigger event occurs Then the signal is generated continu...

Page 379: ...te command SOURce hw BB DM TRIGger ARM EXECute on page 635 Execute Trigger Executes trigger manually A manual trigger can be executed only when an internal trigger source and a trigger mode other than...

Page 380: ...g 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 proces...

Page 381: ...OURce hw BB DM TRIGger EXTernal ch INHibit on page 640 Marker Mode Provides the settings necessary to define the marker output signal for synchronizing external instruments Marker x Marker configurati...

Page 382: ...i ple thereof via the CLOCK connector The chip 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 Externa...

Page 383: ...I Q modulation source forming an inte gral part of the R S SMJ It can be used to output any externally calculated modulation signals or internally generated multi carrier signals or waveform files Th...

Page 384: ...ftware or sig nals calculated using a mathematical program such as Matlab For more information also on the required options refer to the Rohde Schwarz web site at http www rohde schwarz com See also t...

Page 385: ...d frequency The first sine signal is mapped on the I samples the second on the Q samples The two signals differ by a selectable phase offset For a 90 deg offset the result is a unit vector in the I Q...

Page 386: ...e stages involved in the processing and resampling of a waveform in the ARB Figure 5 26 Processing of the waveform files in the ARB The R S SMJ uses a 100 MHz system clock and a sample rate of 100 MSa...

Page 387: ...en the number of enabled marker signals the available memory size and the resulting waveform length Example Calculating the maximum waveform length The calculation in this example is based on an instr...

Page 388: ...elay Unit Samples ARB Trigger In External Delay 100 Samples The parameter Actual External Delay 100 us displays the time delay in seconds Step 2 Enable the following settings ARB Trigger In External D...

Page 389: ...ing the test signal and for calculating a multi segment waveform or a multi carrier waveform ARB MOD Main Menu The upper part of the menu is used for powering up selecting and configuring ARB modulati...

Page 390: ...d Waveform If a multi segment waveform is loaded the section Multi Segment Waveform Options is indicated In this section the segment to be output is selected If no waveform file is loaded ARB modulati...

Page 391: ...le This file is loaded when the ARB modula tion is enabled State On The File Manager button leads to the file manager Remote command SOURce hw BB ARBitrary WAVeform SELect on page 617 Waveform Info Op...

Page 392: ...ng buffer level but this buffer state should not be misunderstood as buffer underrun Remote command SOURce hw BB ARBitrary WAVeform HDDStreaming BLEVel on page 616 Clock Frequency Displays or enters t...

Page 393: ...the menu for calculating multi segment waveforms see Chapter 5 8 3 3 Multi Segment Waveforms on page 394 Remote command n a Multi Carrier Calls the menu for calculating multi carrier waveforms see Cha...

Page 394: ...n 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 The Clock Settin...

Page 395: ...ccurs Then the signal is generated continuously Every subsequent trigger event cau ses a restart Button Arm stops signal generation A subsequent trigger event internal with Execute Trigger or external...

Page 396: ...and SOURce hw BB ARBitrary TRIGger ARM EXECute on page 583 Execute Trigger Executes trigger manually A manual trigger can be executed only when an internal trigger source and a trigger mode other than...

Page 397: ...ronous 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 This mode is recommended for triggering of...

Page 398: ...xpressed 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 ext...

Page 399: ...ill be execu ted In Same Segment mode the processing of the multi segment waveform file is similar to the processing of a non multi segment waveform i e there is no switch ing to consequtive segment t...

Page 400: ...ggering below The regular trigger mode for starting the waveform generation and triggering the whole multi segment sequence is set with the parameters in the Trigger In section of the Trigger Marker C...

Page 401: ...in Next Segment signal output is stopped and the new segment is not output until a trigger occurs In the case of Trigger Retrigger output starts at once and the segment is generated continuously a tri...

Page 402: ...rigger event switches over to outputting the subsequent segment following a system imposed signal gap If the segment index is changed in Next Segment output of the current segment is stopped and the n...

Page 403: ...s output seamlessly after the output of the current segment is com plete In the case of External Trigger Armed_Auto output starts after the first trigger event The segment is then generated continu ou...

Page 404: ...in this dialog box are textbook examples not measured waveforms They are intended to visualize the trigger and next segment settings more clearly Remote command n a Marker Mode Provides the settings...

Page 405: ...restarting the marker and sig nal Remote command SOURce hw BB ARBitrary TRIGger OUTPut ch DELay on page 585 Current Range without Recalculation Displays the dynamic range within which the delay of th...

Page 406: ...iplier Enters the multiplication factor for clock type Multiple Remote command SOURce hw BB ARBitrary CLOCk MULTiplier on page 582 Measured External Clock Provided for permanent monitoring of the enab...

Page 407: ...nters the frequency of the test signal Remote command SOURce hw BB ARBitrary TSIGnal SINE FREQuency on page 595 Samples per Period Sine Test Signal Enters the number of sample values required from the...

Page 408: ...be used to configure a rectangular test signal A rectangular test signal with a duty factor of 0 5 is created Amplitude and offset are adjustable Both paths I and Q get the same signal Frequency Rect...

Page 409: ...ate on page 593 Const IQ Test Signal To access the Sine Test Signals dialog in the ARB MOD dialog set the parameter Create Test Signal to Const I Q and press Create Test Signal The dialog can be used...

Page 410: ...ments To fulfill the requirements of these test systems and to enable rapid alternation between different waveforms with differing test signals the R S SMJ provides the functionality to generate multi...

Page 411: ...erface displays information on clock rate number of samples and creation day Additionally you can acquire informa tion about the waveform in the dedicated Waveform Info dialog The ARB Sequencer Mode I...

Page 412: ...cing list file per multi segment waveform file The sequencing list file carries information only about the segment number the corresponding waveform file names are retrieved from the assigned multi se...

Page 413: ...gnals are mapped to the same connector Figure 5 29 Marker priority used by assigning of marker signals to a hardware connector Impact of the Trigger Settings and Next Segment Settings The ARB dialog i...

Page 414: ...sed to cyclically output the segments in the multi segment file Defining Next Segment Source As with the standard trigger system provided are the following two sources for the next segment signal Inte...

Page 415: ...ate a multi segment signal without signal gaps between the segments is to use the provided ARB sequencer mode see Multi Segment Wave form Settings on page 400 The Table 5 11 shows two examples of the...

Page 416: ...Table 5 12 Trigger examples in the ARB dialog Next Segment Mode Next Segment Next Segment Mode Next Segment Seamless Multi Segment Waveform Settings To access the Multi Segment dialog select Baseband...

Page 417: ...orm files Segment Indication of segment index The segment index is used to select the segment to be output The segment index also defines the sequence of the output during triggering in the Next Segme...

Page 418: ...e Deletes the selected segment Remote command SOURce hw BB ARBitrary WSEGment CONFigure DELete on page 622 Shift Seg Up Down Shifts the selected segment up and down Blank Segment The Blank Segment sec...

Page 419: ...and SOURce hw BB ARBitrary WSEGment CONFigure LEVel MODE on page 622 Clock Selects the clock rate mode for the multi segment waveform Unchanged A segment is output with the clock rate defined in the f...

Page 420: ...individual segment waveform files are not considered Disable No additional marker is generated Marker 1 2 3 4 Generates a restart marker signal at the beginning of the first seg ment for the correspon...

Page 421: ...are provided for handling of the multi segment files Save List Saves the current entries of the table in a configuration file including the level mode clock mode segment marker mode and output file n...

Page 422: ...d with the command SOURce hw BB ARBitrary WSEGment CREate or SOURce hw BB ARBitrary WSEGment CLOad The file name of the waveform file is always determined with the command SOURce hw BB ARBitrary WSEGm...

Page 423: ...wvs and is automatically assigned to but independent from the multi segment file By default both files have the same name and are located in the same file directory More than one sequencing list files...

Page 424: ...f segments of the selected multi segment waveform file n a Repetition Cycles Sequencing Play List Sets the number of times the selected segment is cyclically repeated before the next segment in the se...

Page 425: ...ng Graphic Displays the play list graph according to the current configuration The graph shows the segment sequence the segment number and the number of times the segment is repeated considered are on...

Page 426: ...t come of the previous test When using remote control via an external computer the fol lowing settings enable switching times of approx 20 ms for segments with the same sample rate and approx 200 ms f...

Page 427: ...r tests Even complex multi carrier scenarios composed of signals from different digital standards can be created and used for these tests Example for the creation of a multi carrier waveform file 1 Co...

Page 428: ...ivate creation and optionally loading of multi carrier waveform files into the main ARB menu Default Settings and State The upper part of the dialog is used for calling the default settings and saving...

Page 429: ...press ing the Save button The Fast Save checkbox determines whether the instrument per forms an absolute or a differential storing of the settings Enable this function to accelerate the saving proces...

Page 430: ...to the center RF frequency shows no phase jump assuming that the carrier is unmodulated For odd number of carriers RoundedCarrierSpacing 1 OutputSignalDuration round CarrierSpacing Output SignalDurat...

Page 431: ...ncy of the final lowpass filter if baseband clipping is enabled When the cut off frequency is set as half of the output sample rate a final lowpass filter improves the spectrum of the clipped multicar...

Page 432: ...ode User Shorter I Q files are repeated periodically and only the first part of longer I Q files is used Remote command SOURce hw BB ARBitrary MCARrier TIME on page 611 Power Reference Defines the way...

Page 433: ...s with dif ferent crest factor A multi carrier signal is composed from two waveform files with the following characteristics 3GPP FDD signals with the same Sample Rate but different Crest Factors Peak...

Page 434: ...name of the multi carrier waveform which has to be calculated can be entered The multi carrier waveform is calculated and saved under this name by clicking the Create or Create and Load button Remote...

Page 435: ...d loads it subsequently in the ARB main menu This multi carrier waveform is saved with the file name specified in Output File If no file name is specified the File Manager opens so that the file name...

Page 436: ...of the carrier range to which the assistant settings are intended to apply Remote command SOURce hw BB ARBitrary MCARrier EDIT CARRier STARt on page 608 Carrier Stop Defines the stop index of the car...

Page 437: ...carrier marked by Carrier Start Remote command SOURce hw BB ARBitrary MCARrier EDIT CARRier DELay STARt on page 605 Delay Step Sets the step width that is used to increment the delay The resulting de...

Page 438: ...f a carrier Remote command SOURce hw BB ARBitrary MCARrier CARRier ch STATe on page 601 Carrier Freq MHz Carrier Table Sets the carrier frequency Note The carrier frequnecy can only be set in Arbitrar...

Page 439: ...ates an occurred conflict by a means of a red LED A conflict arises when the car riers overlap Example A conflict is indicated both in the table as well as in the graph as shown in the follow ing figu...

Page 440: ...eparately set and switched on or multiple carriers can be jointly configured Auto matic start phase setting is provided in order to minimize the crest factor Multi Carrier CW signals can be very easil...

Page 441: ...n this standard turns off all the other digital standards and digital modula tion modes Since Multi Carrier CW signals are computed in arbitrary waveform mode changes to the settings of individual car...

Page 442: ...Setup The Carrier Setup section is used to configure the Multi Carrier CW Number of Carriers Sets the number of carriers for the Multi Carrier CW signal By default the multi carrier table already lis...

Page 443: ...ed by the signal to be linear A very high crest factor arises when the carriers have an identical start phase since the carriers are periodically superposed and very high peak voltages occur in relati...

Page 444: ...ich the following settings are intended to apply Remote command SOURce hw BB MCCW EDIT CARRier STOP on page 681 Carrier State Switches the carriers in the carrier range on off Remote command SOURce hw...

Page 445: ...triggers markers and clocks Carrier Table Calls the table for configuring individual carriers This configuration can be checked with the aid of the Carrier Graph The table displays the settings of all...

Page 446: ...nfiguration The carriers are on the X axis and the colored bars represent those carriers which are in the On state Power is on the Y axis and the height of the bars corresponds to the chosen power of...

Page 447: ...d for all trigger modes The Marker Mode section is where the marker signals at the MARKER output con nectors are configured The Marker Delay section is where a marker signal delay can be defined eithe...

Page 448: ...only when a trigger event occurs Then the signal is generated continuously Every subsequent trigger event cau ses a restart Button Arm stops signal generation A subsequent trigger event internal with...

Page 449: ...w BB MCCW TRIGger ARM EXECute on page 682 Execute Trigger Executes trigger manually A manual trigger can be executed only when an internal trigger source and a trigger mode other than Auto have been s...

Page 450: ...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 Remote...

Page 451: ...t ch MODE on page 689 SOURce hw BB MCCW TRIGger OUTPut ch PULSe DIVider on page 690 SOURce hw BB MCCW TRIGger OUTPut ch PULSe FREQuency on page 691 SOURce hw BB MCCW TRIGger OUTPut ch PATTern on page...

Page 452: ...k or multiple thereof via the CLOCK connector The polarity of the clock input can be changed with the aid of Global Trigger Clock Settings Remote command SOURce hw BB MCCW CLOCk SOURce on page 692 Clo...

Page 453: ...nce and the polarity of the clock and trigger inputs The parameters in this dialog affect all digital modulations and standards and are described in chapter Global Trigger Clock Input Settings in the...

Page 454: ...Instrument Function R S SMJ100A 438 Operating Manual 1403 7458 32 14 Baseband Signal Baseband Block...

Page 455: ...instrument For a description of the interface refer to Chapter 6 1 4 GPIB Interface IEC IEEE Bus Interface on page 444 Note Within this interface description the term GPIB is used as a synonym for the...

Page 456: ...vel VXI or GPIB function calls and thus makes the transport interface trans parent for the user A VISA installation is a prerequisite for remote control using the following interfaces LAN Interface us...

Page 457: ...dardized sta tus registers reset and self test Instrument control commands refer to functions depending on the features of the instrument such as frequency settings Many of these commands have also be...

Page 458: ...etwork protocol used host address is the IP address or host name of the device LAN device name defines the protocol and the instance number of a sub instru ment inst0 selects the VXI 11 protocol optio...

Page 459: ...the reques ted command but is delivered to the TCP IP buffers For more information see also the application note 1MA208 Fast Remote Instrument Control with HiSLIP 6 1 3 2 VXI 11 Protocol The VXI 11 s...

Page 460: ...utomatic transition from local state to remote state by a subsequent remote command after NREN was sent GET Group Execute Trigger Triggers a previously active instrument function e g a sweep The effec...

Page 461: ...ddressing Command Effect on the instrument DCL Device Clear Aborts the processing of the commands just received and sets the com mand processing software to a defined initial state Does not change the...

Page 462: ...command 1 Manually press the SETUP key and select Remote GPIB Select parameter GPIB channel address and set the GPIB address 2 Using remote control command SYST COMM GPIB ADDR 18 6 1 5 LXI Browser Int...

Page 463: ...a different location For information on how to disable the frequency and level display refer to Annotation Frequency on page 151 and Annotation Amplitude on page 151 Refer to Chapter 6 2 3 Examples on...

Page 464: ...YST KLOC ON to protect the instrument against unauthorized readings 3 To prevent unintentional return to manual operation disable the LOCAL key of the instrument with the LLO command see Chapter 6 1 3...

Page 465: ...the modules NIGLOBAL Niglobal bas and VBIB32 Vbib_32 bas are added to the projects Drivers for instrument e g IVI COM and LabVIEW drivers are available in the down load area of the product website htt...

Page 466: ...e the complete resource string The host address is either the R S SMJ s hostname or IP address See also Chapter 6 1 3 LAN Interface on page 441 In this example it is assumed that A LAN remote control...

Page 467: ...h OK 5 In the menu bar select Find Resource to search for the instrument in the LAN 6 Select VXI 11 and Find Resources R S VISA scans the network for connected instruments and lists all detected instu...

Page 468: ...S VISA indicates the instru ments IP address in the Resource field of the main application window 8 As an alternative to the IP address you can assign an alias name to the R S SMJ a In the menu bar se...

Page 469: ...receive its responses Note If the connection cannot be set up R S VISA displays an error in the log view For information on how to proceed when network failures occur see Chap ter 9 5 Resolving Netwo...

Page 470: ...REQ 4 GHz and select Write To check the performed setting SOUR1 FREQ and select Read The instrument response is 4000000000 i e the frequency is returned in Hz While remote control is active the Remote...

Page 471: ...e only a telnet program is required The telnet program is part of every operating system 1 To establish a Telnet connection with the R S SMJ start the telnet program 2 Enter the access string to conne...

Page 472: ...les The following program example shows a simple TcpClient class that is intended to explain on how to get started with programming of sockets The example sets up a socket communication to R S SMJ and...

Page 473: ...onst int getCurrentPort const private string currentHostName int currentPort int currentSocketDescr SockAddrStruct serverAddress HostInfoStruct currentHostInfo bool clientIsConnected int receiveBuffer...

Page 474: ...name no data record of requested type break case WSAEINPROGRESS throw string A blocking Windows Sockets 1 1 call is in progress or the service provider is still processing a callback function break ca...

Page 475: ...ntPort 0 currentHostInfo NULL clientIsConnected false void TcpClient transmit string txString if clientIsConnected throw string connection must be established before any data can be sent n char transm...

Page 476: ...HostName const return currentHostName int TcpClient getCurrentPort const return currentPort TelnetClient cpp TelnetClient cpp Defines the entry point for the console application include iostream inclu...

Page 477: ...le WinSock DLL endif client connectToServer hostname port bool terminate false while terminate char buffer 1024 if useSingleCommand input singleCommand send string else cout cin getline buffer 1024 in...

Page 478: ...monics keywords Queries are formed by appending a question mark directly to the header The commands can be either device specific or device independent common com mands Common and device specific comm...

Page 479: ...umeric value SENSe LIST FREQuency numeric_value numeric_value Long and short form The mnemonics feature a long form and a short form The short form is marked by upper case letters the long form corres...

Page 480: ...The instrument must recognize the long command to comply with the SCPI standard Some commands are considerably shortened by these optional mnemonics Example Definition HCOPy IMMediate Command HCOP IM...

Page 481: ...SENSE BANDwidth BWIDth RESolution numeric_value The two following commands with identical meaning can be created SENS BAND RES 1 SENS BWID RES 1 Mnemonics in square brackets are optional and may be in...

Page 482: ...ies the unit can be entered Allowed unit prefixes are G giga MA mega MOHM MHZ K kilo M milli U micro N nano If the unit is missing the basic unit is used Example SENSe FREQ STOP 1 5GHz SENSe FREQ STOP...

Page 483: ...must be entered follow ing the quotation mark Example SENSe LIST FREQ MAXimum Returns the maximum numeric value as a result Boolean Parameters Boolean parameters represent two states The ON state log...

Page 484: ...l when the length of the transmission is not known or if speed or other considerations prevent segmentation of the data into blocks of definite length 6 3 4 Overview of Syntax Elements The following t...

Page 485: ...COP IMM This command line contains two commands Both commands are part of the HCOP command system i e they have one level in common When abbreviating the command line the second command begins with th...

Page 486: ...ted as sequential commands Sequential commands are not implemented in the instru ment however the execution time of most commands is so short that they act as sequential commands when sent in differen...

Page 487: ...ing command sequence results in initiating a sweep and after some time setting the OPC bit in the ESR INIT OPC Sending the following commands still initiates a sweep INIT OPC CLS However since the ope...

Page 488: ...rminated before other commands are executed Command synchronization using WAI or OPC appended to an overlapped com mand is a good choice if the overlapped command takes only little time to process The...

Page 489: ...errup ted entries Using several threads in the controller application As an alternative provided the programming environment of the controller application supports threads separate threads can be used...

Page 490: ...rd Event Status Summary Bit MAV Message Available in Output Queue QUES Questionable Status Summary Bit 2 Error Event Queue 1 0 not used Note This legend explains the abbreviations to the Status Byte R...

Page 491: ...in the overview Error Event Queue The error event queue contains all errors and events that have occurred in the past When reading the queue the instrument starts with the first occurred error event...

Page 492: ...ed NTR bit decides whether the EVENt bit is set to 1 NTR bit 1 the EVENt bit is set NTR bit 0 the EVENt bit is not set This part can be written into and read as required Its contents are not affected...

Page 493: ...an informative error mes sage This procedure is to be recommended since it considerably reduces the problems involved with remote control 3 QUEStionable status register summary bit The bit is set if a...

Page 494: ...hence cannot be executed 3 Device dependent Error This bit is set if a device dependent error occurs An error message with a number between 300 and 399 or a positive error number which denotes the err...

Page 495: ...system is to monitor the status of one or several devices in a measuring system To do this and react appropriately the controller must receive and evaluate the information of all devices The following...

Page 496: ...5 7 3 Query of an instrument status Each part of any status register can be read using queries There are two types of commands The common commands ESR IDN IST STB query the higher level registers The...

Page 497: ...command processing and input buffer Yes Yes Yes 1 The first command in a command line that immediately follows a PROGRAM MESSAGE TERMINA TOR clears the output buffer 6 6 General Programming Recommend...

Page 498: ...malfunction The program should react appropriately to the service request Error queues The error queue should be queried after every service request in the controller pro gram as the entries describe...

Page 499: ...Parameters required only to refine a query are indicated as Query parameters Parameters that are only returned as the result of a query are indicated as Return values Conformity Commands that are tak...

Page 500: ...standard event register ESR and the EVENt part of the QUEStionable and the OPERation registers to zero The command does not alter the mask and transition parts of the registers It clears the output bu...

Page 501: ...urn values ISTflag 0 1 Usage Query only OPC Operation complete Sets bit 0 in the event status register when all preceding commands have been execu ted This bit can be used to initiate a service reques...

Page 502: ...ably configured The query reads out the contents of the power on status clear flag Parameters Action 0 1 0 The contents of the status registers are preserved 1 Resets the status registers RCL Number R...

Page 503: ...uest enable register to the indicated value This command deter mines under which conditions a service request is triggered Parameters Contents Contents of the service request enable register in decima...

Page 504: ...ng actions are available Activating the default state of all internal instrument functions RST on page 486 Functions that concern the integration of the instrument into a measurement setup are not cha...

Page 505: ...Since Factory Preset resets the Remote Channel and network settings to the default values executing Factory Preset via remote control terminates the connection to the instrument if these settings had...

Page 506: ...identifies the tag It is always expressed in capital letters The Data is tag specific and in most cases it is in ASCII plain text The Length specifies the number of bytes in a WAVEFORM tag a DATA LIST...

Page 507: ...leStartOffsetSegN 1 500 MWV_SEGMENT_CLOCK_MODE Mode 500 MWV_SEGMENT_CLOCK ClockSeg0 ClockSeg1 ClockSegN 1 501 MWV_SEGMENT_LEVEL_OFFS RMSOffs_dBSg0 PeakOffs_dBSg0 RMSOffs_dBSgN 1 PeakOffs_dBSgN 1 502 M...

Page 508: ...ult result UINT32 start i return result Example TYPE SMU WV 106656 BB ARB WAV TAG TYPE Queries the content of the TYPE tag Response SMU WV 106656 This is a valid waveform CLOCK frequency mandatory for...

Page 509: ...ntent of the COPYRIGHT tag of the selected wave form file Response Rohde Schwarz copyright resides with Rohde Schwarz Usage Setting only DATA BITLENGTH BitLength mandatory for data lists The tag conta...

Page 510: ...g only EMPTYTAG Length EmptySequence mandatory in automatically generated one and multi segment waveforms This tag is empty i e contains no data and is used as placeholder Setting parameters Length An...

Page 511: ...000 The EMPTYTAG con tains 15946 blanks and has a length of 15946 1 bytes Usage Setting only CONTROL LENGTH ControlLength optional recommended for marker and control lists The tag specifies the length...

Page 512: ...icates that the RMS level of the signal is 3 dBs below the full scale full scale max amplitude of vector of I Q samples SIQ max sqrt I2 Q2 max 0 dB PeakOffset_dB Defines the peak level offset of the s...

Page 513: ...e data for the marker and control signals in the control list or the marker signals of ARB waveforms Traces are processed different depending on the selected CONTROL LENGTH See also Chapter 7 4 2 How...

Page 514: ...Queries the content of the LEVATT LIST 1 tag of the selected control list file Response 0 0 10 1 20 0 30 1 Level attenuation applies to data values 10 to 19 high and from data value 30 onward Usage Se...

Page 515: ...COUNT MWV_SEGMENT_START and MWV_SEGMENT_LENGTH Further MWV_SEGMENT_ tags are also available for example for level and clock information Example One segment waveform WAVEFORM 401 I0 Q0 I1 Q1 I2 Q2 I99...

Page 516: ...format Example MWV_SEGMENT_START 0 100 2 segments with 100 samples in segment 0 and 200 samples in segment 1 The start offset of first segment is 0 samples start offset of next segment 1 is the sampl...

Page 517: ...gment output waveform USER All segments have an indentical clock rate which is given by the user Note Only upsampling is allowed no downsampling If an individual original waveform has a lower clock ra...

Page 518: ...ional for multi segment waveforms The tag contains a list of file names for every segment in the multi segment waveform in ASCII format Example MWV_SEGMENT_FILES D user sine wv D user rect wv Usage Se...

Page 519: ...as follow Length Size of 1 byte Number of marker elements mx 4 bit 8 bits byte The value is rounded up for byte alignment mx Marker element in 4 bit binary format Example CONTROL LIST WIDTH4 51 m0m1 m...

Page 520: ...0 99 0 3 Do not use the CONTROL LENGTH tag The length of the repeated patterns is determined by the last sample number in the TRACE LIST that is the last Pos State Example How the CONTROL LENGTH tag i...

Page 521: ...e decimal values in SICO txt are normalized such that they are between 1 0 and 1 0 The data is converted into binary format The appropriate man datory tags are added and the data is packed into the WA...

Page 522: ...rmat consisting of 16 bit signed integer numbers The numeric range between 1 0 and 1 0 corresponds to the modulation range of the waveform 16 bit D A converter of 32767 to 32767 1 0 32767 0x7FFF 0 0 0...

Page 523: ...instrument does not eval uate a checksum Tip The tags TYPE CLOCK LEVEL OFFS and WAVEFORM are mandatory for each waveform All other tags are optional and can be inserted after the TYPE tag in arbitrar...

Page 524: ...t containing 20 sine and cosine pairs converting them into binary data and creating the waveform file SICO wv SICO cpp Defines the entry point for the console application include stdafx h include stdl...

Page 525: ...Peak fprintf fp_dest LEVEL OFFS f f 1 0f 20 0f log10 1 0f sqrt 2 0f 0 0f fprintf fp_dest WAVEFORM d samples 4 1 for i 0 i samples i Read I Q pair from ASCII file if fscanf fp_sour f f i_float q_float...

Page 526: ...KER LIST 2 0 0 350 1 457 0 MARKER LIST 1 0 0 108 1 160 0 CONTROL LENGTH 1000 The tags to the traces in the C List editor are HOP LIST CW MODE LIST LEVATT LIST 1 BURST LIST MARKER LIST 4 MARKER LIST 3...

Page 527: ...ng binary data waveforms data and control lists Use hex data editor Always use a hex data editor to edit files containing binary data Editing of binary data file with a text editor even if you only ch...

Page 528: ...ger BERT IMMediate 521 BLER RESult BERT RESult Queries the result of the last BER measurement BLER measurement The response consists of seven results separated by commas In the first measurement follo...

Page 529: ...stopped by the command BERT BLER STOP 0 Measurement has not been terminated clock detected Status of clock line 1 Clock line active 0 Clock line not active data detected Status of data line 1 Data lin...

Page 530: ...NGle Single measurement A single measurement must be started with TRIG BERT A single measurement is terminated once the set number of data bits blocks or number of errors is reached RST AUTO Example B...

Page 531: ...rameters Polarity NORMal INVerted NORMal High level stands for a logic 1 low level for a logic 0 INVerted Low level stands for a logic 1 high level for a logic 0 RST NORMal Example BERT SET DATA INV s...

Page 532: ...Data Enable on page 191 BERT SETup IGNore Ignore Activates deactivates ignoring of pure 0 or 1 bit sequences at least 32 bits long Activating excludes faulty frames from the measurement In the case o...

Page 533: ...mple BERT SET MCO 1E6 sets a measurement over 1000000 data bits Example BLER SET MCO 1E3 sets a measurement over 1000 data blocks Manual operation See Max Data Bits on page 189 BLER SETup MERRor MErro...

Page 534: ...l operation See PRBS on page 190 BLER SETup TYPE Type Queries the CRC polynomial used CCITT CRC 16 G x x16 x12 x5 x1 is the CRC polynomial supported Parameters Type CRC16 RST CRC16 Example BLER SET TY...

Page 535: ...mmands are automatically set to ON by BERT STARt or BLER STARt and to OFF by BERT STOP or BLER STOP Parameters State 0 1 OFF ON RST 0 Example BERT SEQ SING selects a single measurement BERT STAT ON sw...

Page 536: ...is output in percent PPM The error rate is output in parts per million RST ENGineering Example BERT UNIT PPM selects the unit ppm for the display of the error rate Manual operation See Bit Error Rate...

Page 537: ...T starts a single bit error rate measurement Usage Event 7 6 CALibration Subsystem The CALibration system contains the commands for adjustment Adjustment is trig gered by the query commands The respon...

Page 538: ...r Response 0 the adjustments have been performed successfully Usage Query only Manual operation See Adjust FM Offset on page 248 CALibration hw FREQuency MEASure Starts all adjustments which affect th...

Page 539: ...nd quadrature Return values Local 0 1 RST 0 Example CAL IQM LOC starts adjustment for the I Q modulator for the currently set fre quency Response 0 adjustment has been performed successfully Usage Que...

Page 540: ...tment Manual operation See High Accuracy Level Adjustment on page 131 CALibration hw ROSCillator DATA Data Sets the calibration value for the custom defined external adjustment Parameters Data integer...

Page 541: ...eters Slope NEGative POSitive RST POSitive Example CLOC INP SLOP NEG The active slope of the external clock signal is the falling slope Manual operation See Clock Input Slope on page 143 CLOCk OUTPut...

Page 542: ...ing specified a complete list of all mod ules is returned the various entries are separated by commas The length of the list is variable and depends on the instrument equipment configuration If the co...

Page 543: ...ssemblies Response MBRD SSYN IQOP3 IQOP3_LCM Usage Query only DIAGnostic INFO OTIMe The command queries the number of operation hours Return values OTIMe float Example DIAG INFO OTIM queries the opera...

Page 544: ...sks instead of the level values in the status bar Parameters State 0 1 OFF ON RST 1 Example DISP ANN AMPL ON suppresses the level display Manual operation See Annotation Amplitude on page 151 DISPlay...

Page 545: ...Play DIALog CLOSe ALL Closes all open dialogs Example DISP DIAL CLOS ALL Usage Event DISPlay DIALog ID Returns the dialog identifiers of the open dialogs in a string separated by blanks Return values...

Page 546: ...s via front panel external mouse or external keyboard are made To determine the wait time use command DISPlay PSAVe HOLDoff This mode is recommended for protecting the display especially if you operat...

Page 547: ...nds with queries the most significant byte of each IEEE754 floating point number first and the least significant byte last RST NORMal Example FORM BORD SWAP the data is transferred with the most signi...

Page 548: ...e register content is returned as a hexadecimal number 7 11 HCOPy Subsystem The HCOPy subsystem contains the commands to generate a hardcopy of the display HCOPy DATA 533 HCOPy DEVice 533 HCOPy DEVice...

Page 549: ...py to the remote client Usage Query only HCOPy DEVice Device The command selects the destination to which the hardcopy snapshot should be transferred to The hardcopy either can be printed out by selec...

Page 550: ...ll be stored The path is specified together with the file name Access to the file via remote control is possible using the commands of the MMEM Subsystem In contrast command HCOPy DATA transfers the h...

Page 551: ...page 155 HCOPy FILE NAME AUTO DIRectory CLEar Deletes all files with extensions bmp img png and xpm in the directory set for automatic naming Example HCOP FILE AUTO DIR CLE deletes all image files wit...

Page 552: ...eries the file name Response gen101012008001 bmp Usage Query only Manual operation See File Info on page 155 HCOPy FILE NAME AUTO FILE DAY Queries the day of the current system date which will be used...

Page 553: ...The number is assigned in such a way that always the lowest possible value for an unique file name within the selected path is used On initially switching on the device the number will be reset to the...

Page 554: ...x is entered with command HCOP FILE AUTO PREF Parameters State 0 1 OFF ON RST 1 Example HCOP FILE AUTO PREF STAT OFF deactivates the usage of the prefix in the automatic file name Manual operation See...

Page 555: ...trieve the data using command HCOP DATA This command is an alias to command HCOPy DEVice LANGuage Parameters Format BMP JPG XPM PNG RST BMP Example HCOP IMAG FORM XPM selects the image format XPM Manu...

Page 556: ...ample HCOP PRIN LIST returns a list of the available printers Usage Query only HCOPy PRINter NAME Name The command selects the printer Parameters Name string Example HCOP PRIN NAME printer1 selects pr...

Page 557: ...d right 1 5 inches HCOPy PRINter PAGE ORIentation Orientation The command defines the orientation of the printer page Parameters Orientation PORTrait LANDscape RST PORTrait Example HCOP PRIN PAGE ORI...

Page 558: ...nguage Parameters Language US DE RST US Example KBO LANG US selects keyboard language American English Usage SCPI confirmed Manual operation See Layout Keyboard Settings on page 144 KBOard LAYout Layo...

Page 559: ...nction is made between uppercase and lowercase letters The file and the optional file extension are separated by a dot All letters and numbers are permitted numbers are however not permitted at the be...

Page 560: ...ions Table 7 1 List of the automatically assigned file extensions in the instrument Function Digital Standard List type Contents File suffix Instrument State Settings Instrument settings savrcl User C...

Page 561: ...setting of the CDMA2000 menu cdma2k TD SCDMA2000 Settings Complete setting of the TD SCDMA2000 menu tdscdma Settings Test Model for TD SCDMA2000 tdtmd 1xEV DO Settings Complete setting of the 1xEV DO...

Page 562: ...ab Settings DAB ETI Files eti xeti NFC Settings Complete setting of the NFC menu nfc 7 13 3 Examples In these examples the current instrument setting is stored in the file test1 savrcl in the director...

Page 563: ...To query only the number of subdirectories in the current or specified directory perform MMEM DCAT LENG E user Response 2 2 To query the number of files in the current or specified directory perform M...

Page 564: ...leInfo NameFileN SuffixFileN SizeFileN List of files separated by commas NameFileN Name of the file SuffixFileN Type of the file Possible suffixes are ASCii BINary DIRectory SizeFileN Size of the file...

Page 565: ...can also be used to copy a complete directory together with all its files Setting parameters SourceFile string String containing the path and file name of the source file DestinationFile string Strin...

Page 566: ...x Length where Length is the file size in decimal format Parameters for setting and query Filename string String parameter to specify the name of the file Example MMEMory DATA D user test txt 15hallo...

Page 567: ...ample See Working with Files and Directories on page 547 Usage Query only MMEMory DELete Filename Removes a file from the specified directory Setting parameters Filename string String parameter to spe...

Page 568: ...for mass memory storage in the specified directory If no direc tory is specified a subdirectory is created in the default directory This command can also be used to create a directory tree Setting par...

Page 569: ...rectory Setting parameters Directory string String parameter to specify the directory to be deleted Example See Working with Files and Directories on page 547 Usage Event MMEMory STORe STATe savrcl_st...

Page 570: ...OWer Queries the minimum level which can be set when the attenuator is fixed see OUTPut hw AMODe Return values Lower float Increment 0 01 Example OUTP AFIX RANG LOW queries the minimum level for the F...

Page 571: ...xed mode with uninterrupted level for RF output Manual operation See Attenuator Mode on page 218 OUTPut hw BLANk LIST STATe State The command activates deactivates RF output blanking Parameters State...

Page 572: ...ircuit which deactivates the output in the case of an exter nally applied overvoltage This does not change the value of OUTPut STATe Example OUTP PROT CLE resets the protective circuit for RF output U...

Page 573: ...state of the RF output when the instrument is switched on Parameters Pon OFF UNCHanged OFF deactivates the output when the instrument is switched on RF OFF UNCHanged restores the initial state of the...

Page 574: ...generator The measure ment is started and the measurement result retrieved with the READ command The description of this commands is included in the following Up to four sensors can be connected to th...

Page 575: ...ch POWer APERture TIMe ApTime Defines the aperture time size of the acquisition interval for the corresponding sensor Parameters ApTime float Range depends on connected power sensor to depends on conn...

Page 576: ...th local state on or off For long measurement times it is recommended to use a SRQ MAV bit for command synchronization Suffix ch 1 3 Return values Power string Example SENS UNIT DBM selects unit dBm f...

Page 577: ...rameters State 0 1 OFF ON RST ON Example SENS1 POW DISP PERM STAT ON the permanent viewer is switched on Manual operation See Permanent Display State on page 236 SENSe ch POWer DISPlay PERManent PRIor...

Page 578: ...e The time window is fixed to 20 ms Parameters User float Range 1 to 65536 RST 1 Example SENS FILT TYPE USER selects user filter mode SENS FILT LENG 16 sets a filter length of 16 The resulting measure...

Page 579: ...Timeout on page 239 SENSe ch POWer FILTer SONCe The command activates the search for the optimum filter length for the current mea surement conditions The found filter length can be retrieved with co...

Page 580: ...ent is entered with command SENSe FILTer NSRatio To avoid very long settling times when the power is low the averaging factor can be limited with the Timeout parameter command SENSe FILTer NSRatio MTI...

Page 581: ...ample SENS POW OFFS 10 0 sets a level offset of 10 dB Manual operation See Level Offset on page 237 SENSe ch POWer OFFSet STATe State The command activates the addition of the level offset to the meas...

Page 582: ...or is selected by suffix in the keyword SENSe or READ of the command header Suffix 1 denotes the sensor connected to the SENSOR connector suffix 2 the sensor connected first to one of the USB interfac...

Page 583: ...aced or if measurements of signals with very low power are to be per formed The RF power source must be switched off or disconnected from the sensor before starting the autozero function Example SENS...

Page 584: ...SOURce PM Subsystem 760 SOURce POWer Subsystem 762 SOURce PULM Subsystem 771 SOURce ROSCillator Subsystem 774 SOURce SWEep Subsystem 777 7 16 1 SOURce AM Subsystem The AM subsystem contains the comma...

Page 585: ...ge 245 SOURce hw AM BBANd STATe State Activates the broadband amplitude modulation Parameters State 0 1 OFF ON RST 0 Example AM BBAN ON activates BB AM modulation Manual operation See State on page 24...

Page 586: ...odulation sources Resolu tion of frequency setting RST 1E3 Example AM INT FREQ 5kHz sets the frequency of the LF generator signal to 5 kHz SOURce hw AM SENSitivity Queries the input sensitivity of the...

Page 587: ...T Example AM SOUR INT selects the internal modulation source Manual operation See AM Source on page 243 SOURce hw AM STATe State Activates amplitude modulation Parameters State 0 1 OFF ON RST 0 Exampl...

Page 588: ...ied with this command Valid units are bps kbps and mabps as well as b s kb s and mab s Parameters BRate float Range 400 bps to 250E6 bps Increment 0 001 RST 100000 Example SOURce1 AWGN BRATe queries...

Page 589: ...sets the ratio of minimum real noise bandwidth to system bandwidth The overall bandwidth is calculated as follows and may not exceed the total bandwidth specified in the data sheet Overall Bandwidth S...

Page 590: ...isplay of output results for the analog DACIF or the digital BBOUT signal path Parameters OResults ANALog DIGital RST ANALog Example SOURce AWGN MODE ONLY activates the generation of a pure noise for...

Page 591: ...o of bit energy to noise power density of 10 dB Manual operation See Eb N0 AWGN on page 298 SOURce hw AWGN FREQuency RESult In CW inerferer mode queries the actual frequency of the sine The actual fre...

Page 592: ...WGN STATe ON selects the generation of a pure noise and activates it Manual operation See Mode AWGN on page 295 SOURce hw AWGN POWer CARRier Carrier available for Additive Noise and CW Interferer SOUR...

Page 593: ...DE CN the noise power is set on the basis of the value entered for the carrier noise ratio AWGN CNR Manual operation See Set Power via AWGN on page 297 SOURce hw AWGN POWer NOISe Noise Sets or queries...

Page 594: ...ower Total Bandwidth AWGN on page 300 SOURce hw AWGN POWer RMODe RMode In Additive Noise and CW Interferer SOUR AWGN MODE ADD CW modes and Display Mode set to RF AWGN DISP MODE RF selects the mode for...

Page 595: ...er Power on page 300 SOURce hw AWGN POWer SUM PEP In Additive Noise and CW Interferer SOUR AWGN MODE ADD CW modes queries the peak envelope power of the overall signal comprised of noise signal plus u...

Page 596: ...em 666 SOURce BB IMPairment Subsystem 669 SOURce BB MCCW Subsystem 672 SOURce BB MEASurement Subsystem 692 SOURce BB POWer Subsystem 695 SOURce BB PROGress Subsystem General Commands 696 7 16 3 1 SOUR...

Page 597: ...eform first Parameters State 0 1 OFF ON RST 0 Example SOURce1 BB ARBitrary WAV SELect wave1 loads waveform file from the default directory SOURce1 BB ARBitrary TRIGger SEQ RETR sets trigger mode Retri...

Page 598: ...internally from this The multiplier is entered with the command BB ARB CLOCk MULTiplier Parameters Mode SAMPle MSAMple RST SAMPle Example BB ARB CLOC MODE SAMP selects clock type Sample i e the suppl...

Page 599: ...ary TRIGger OUTPut DELay FIXed 585 SOURce hw BB ARBitrary TRIGger OUTPut ch DELay 585 SOURce hw BB ARBitrary TRIGger OUTPut ch DELay MAXimum 586 SOURce hw BB ARBitrary TRIGger OUTPut ch DELay MINimum...

Page 600: ...ARBitrary TRIGger EXECute The command executes a trigger The internal trigger source must be selected using the command ARB TRIGger SOURce INTernal and a trigger mode other than AUTO must be selected...

Page 601: ...ts external triggering BB ARB TRIG EXT SYNC OUTP ON enables synchronous output to external trigger Manual operation See Sync Output to External Trigger on page 380 SOURce hw BB ARBitrary TRIGger OUTPu...

Page 602: ...rement 1E 3 RST 0 Example BB ARB TRIG OUTP DEL FIX ON restricts the marker signal delay setting range to the dynamic range BB ARB TRIG OUTP DEL MIN queries the minimum of the dynamic range Response 0...

Page 603: ...output deliberately just part of the waveform an exact sequence of the wave form or a defined number of repetitions of the waveform Parameters SLength integer Range 1 to dynamic RST 1 Default unit sa...

Page 604: ...ple SOUR BB ARB SEQ AUTO selects trigger mode AUTO SOUR BB ARB TRIG SMOD SAME the same segment of the waveform is output repeatedly Manual operation See Next Segment Mode on page 383 SOURce hw BB ARBi...

Page 605: ...DELay ExtTimeDelay Specifies the trigger delay in seconds for external triggering The value affects all external trigger signals Parameters ExtTimeDelay float Range 0 to 688 Increment 1E 9 RST 0 Manua...

Page 606: ...r the trigger event the waveform is output continuously Waveform output is stopped with command SOUR BB ARB TRIG ARM EXEC and started again when a trig ger event occurs ARETrigger The waveform is outp...

Page 607: ...ined with the SOUR BB ARB TRIG OUTP PULS DIV command and can be queried with the SOUR BB ARB TRIG OUTP PULS FREQ command PATTern A marker signal is generated with the aid of a user definable bit patte...

Page 608: ...tern BB ARB TRIG OUTP2 MODE PATT activates the marker signal according to a bit pattern on output MARKER 2 Manual operation See Marker Mode on page 388 SOURce hw BB ARBitrary TRIGger OUTPut ch PULSe D...

Page 609: ...ry TSIGnal CIQ CREate 593 SOURce hw BB ARBitrary TSIGnal RECTangle CREate 593 SOURce hw BB ARBitrary TSIGnal SINE CREate 593 SOURce hw BB ARBitrary TSIGnal CIQ CREate NAMed 594 SOURce hw BB ARBitrary...

Page 610: ...ion See Generate Signal HD Sine Test Signal on page 392 SOURce hw BB ARBitrary TSIGnal CIQ I I SOURce hw BB ARBitrary TSIGnal CIQ Q TSig Sets the value for the Q component of the test signal Parameter...

Page 611: ...001 RST 0 Default unit FS Example BB ARB TSIG RECT OFFS 0 5 sets the DC component Manual operation See Offset DC Rect Test Signal on page 393 SOURce hw BB ARBitrary TSIGnal RECTangle SAMPles Samples...

Page 612: ...degrees Manual operation See Phase Offset Q Sine Test Signal on page 391 SOURce hw BB ARBitrary TSIGnal SINE SAMPles Samples The command sets the sample rate for the sine signal in samples per period...

Page 613: ...ce hw BB ARBitrary MCARrier CLOad 603 SOURce hw BB ARBitrary MCARrier CLOCk 604 SOURce hw BB ARBitrary MCARrier CREate 604 SOURce hw BB ARBitrary MCARrier EDIT CARRier DELay STEP 605 SOURce hw BB ARBi...

Page 614: ...ot be set Manual operation See Mode on page 413 SOURce hw BB ARBitrary MCARrier CARRier SPACing Spacing The command sets the frequency spacing between adjacent carriers of the multi car rier waveform...

Page 615: ...ON RST 0 Example BB ARB MCAR CARR2 CONF queries the multi carrier conflict state Response 0 no conflict has occurred Usage Query only Manual operation See on page 423 SOURce hw BB ARBitrary MCARrier...

Page 616: ...the max bandwidth see data sheet Range 40E6 to 40E6 RST 0 Example BB ARB MCAR CARR MODE ARB activates ARB multi carrier mode BB ARB MCAR CARR FREQ 5 0 sets 5 0 MHz carrier frequency Manual operation...

Page 617: ...individual carriers in a composed multi carrier signal are leveled Parameters Reference RMS PEAK RST RMS Manual operation See Power Reference on page 416 SOURce hw BB ARBitrary MCARrier CARRier ch ST...

Page 618: ...factor optimization The setting SOUR BB ARB MCAR CARR PHAS has an effect Manual operation See Crest Factor Mode on page 414 SOURce hw BB ARBitrary MCARrier CLIPping CFACtor CFactor Sets the value of t...

Page 619: ...of the unclip ped multi carrier signal and the input parameter Target Crest Factor Note that clipping reduces also the RMS level Hence the resulting crest factor of the clipped signal is slightly abov...

Page 620: ...on the num ber of carriers carrier spacing and input sample rate of the leftmost or rightmost carri ers Return values Clock float Range 400 to Max Increment 1E 3 Example BB ARB MCAR CLOC queries the A...

Page 621: ...page 421 SOURce hw BB ARBitrary MCARrier EDIT CARRier DELay STARt Start The command sets the start delay for the individual carriers in the defined carrier range If the command BB ARB MCAR EDIT CARR D...

Page 622: ...BB ARB MCAR EDIT CARR FILE D user IQ_wcdma Manual operation See Input Waveform File on page 421 SOURce hw BB ARBitrary MCARrier EDIT CARRier PHASe STEP Step The command sets the step width by which t...

Page 623: ...nual operation See Phase Start on page 421 SOURce hw BB ARBitrary MCARrier EDIT CARRier POWer STEP Step The command sets the step width by which the starting power of the carriers in the defined carri...

Page 624: ...op integer Range 0 to 511 RST 0 Example BB ARB MCAR EDIT CARR STOP 4 the carrier range stops at carrier 4 Manual operation See Carrier Stop on page 420 SOURce hw BB ARBitrary MCARrier EDIT CARRier STA...

Page 625: ...amples Return values Samples integer Range 0 to INT_MAX RST 0 Example BB ARB MCAR SAMP queries the file size of the currently calculated multi carrier waveform Usage Query only Manual operation See Fi...

Page 626: ...mmand stores the current settings of submenu Multi Carrier in a file in the specified directory The file extension may be omitted the files are stored with the file extension arb_multcarr Setting para...

Page 627: ...ier table irre spective of their state ON OFF Parameters Mode LONG SHORt LCM USER LONG The resulting signal period is defined by the longest I Q file in the carrier table Shorter I Q files are periodi...

Page 628: ...files in the default directory The default directory is set using command MMEM CDIRectory When the names of the waveform files are returned they are sep arated by commas Only files with the file exten...

Page 629: ...ds out the I Q data part or the marker information of the specified file Waveform files can also be created with the command SOURce hw BB ARBitrary WAVeform DATA In this case the complete content of t...

Page 630: ...876543218978 the specified I Q data is added to a file named wave wv in the specified directory MMEMory DATA UNPRotected NVWFM var user wave wv MMEMory DATA UNPRotected NVMKR var user wave wv 185 7uuf...

Page 631: ...cess waveform files located in another directory the complete file path and file name are required Parameters Filename string Specifies the name of the waveform file the binary data will be copied to...

Page 632: ...T_MAX RST 1 Example MMEM CDIR D user waveform sets the default directory BB ARB WAV FREE queries the free disk space in directory Usage Query only SOURce hw BB ARBitrary WAVeform HDDStreaming BLEVel Q...

Page 633: ...f samples in the waveform file selected using com mand ARB WAV SEL Only the file name has to be entered Only files with the file extension wv will be read out Return values Points waveform filename Ra...

Page 634: ...gure CATalog 620 SOURce hw BB ARBitrary WSEGment CONFigure CLOCk 620 SOURce hw BB ARBitrary WSEGment CONFigure CLOCk MODE 621 SOURce hw BB ARBitrary WSEGment CONFigure COMMent 621 SOURce hw BB ARBitra...

Page 635: ...parameters FilenameInput string Example MMEM CDIR D user sets the default directory BB ARB WSEG CONF SEL multi_sin creates the configuration file multi_sin inf_mswv in the default directory BB ARB WS...

Page 636: ...ment file Usage Setting only Manual operation See Clock Rate on page 402 SOURce hw BB ARBitrary WSEGment CONFigure CATalog Queries the available configuration files in the specified default directory...

Page 637: ...ve form file HIGHest The segments are output at the highest available clock rate USER The segments are output with the clock rate defined with com mand SOURce hw BB ARBitrary WSEGment CONFigure CLOCk...

Page 638: ...s command selects the level mode for the multi segment waveform Parameters Mode UNCHanged ERMS UNCHanged The segments are output exactly as defined in the files ERMS The segments are output so that al...

Page 639: ...Gment Mode Enables disables the generation of an additional marker restart signal in the output waveform file If additional marker generation is enabled the existing marker signals in the individual s...

Page 640: ...lt directory BB ARB WSEG CONF SEL multi1 creates the configuration file multi1 inf_mswv in default directory BB ARB WSEG CONF OFIL mseg1_2 defines the file name mseg1_2 wv for the multi segment wave f...

Page 641: ...ilename Selects the configuration file in the default directory A path can also be specified in which case the files in the specified directory are selected If a configuration file with the specified...

Page 642: ...segment waveform BB ARB WSEG CRE D user new inf_mswv creates multi segment waveform multi_wv1 wv using the set tings of the configuration file new inf_mswv Usage Setting only Manual operation See Sav...

Page 643: ...t in the mutli segment file A manual trigger can be executed only when an internal next segment source BB ARB WSEG NEXT SOUR INT has been selected To perform a switchover to any segment within the mul...

Page 644: ...completing the current segment like for instance which segment is processed after the processing of the current one is finished Example BB ARB WSEG SEQ SEL D user play_list_1 selects the sequencing li...

Page 645: ...RBS LENGth 629 SOURce hw BB DM PRESet 630 SOURce hw BB DM SOURce 630 SOURce hw BB DM SRATe 631 SOURce hw BB DM STANdard 632 SOURce hw BB DM STATe 632 SOURce hw BB DM SWITching SOURce 632 SOURce hw BB...

Page 646: ...ternal pseudo random sequence of 511 bits will be gener ated Manual operation See Data Source on page 342 SOURce hw BB DM PRESet Sets the default settings for digital modulation RST values specified f...

Page 647: ...IS the internal data generator is used BB DM DLIS SEL test the data list test dm_iqd is used Manual operation See Data Source on page 342 SOURce hw BB DM SRATe SRate Sets the symbol rate The value ran...

Page 648: ...h commands BB DM STAN ULIS see DM Lists on page 654 Parameters Standard USER BLUetooth DECT ETC GSM GSMEdge NADC PDC PHS TETRa W3GPp TDSCdma CFORward CREVerse WORLdspace TFTS APCOPH1C4fm APCOPH1CQpsk...

Page 649: ...l operation See State Mod CW on page 348 Clock Settings SOURce hw BB DM CLOCk MODE 633 SOURce hw BB DM CLOCk MULTiplier 634 SOURce hw BB DM CLOCk SOURce 634 SOURce hw BB DM CLOCk MODE Mode The command...

Page 650: ...ied clock has a rate which is a multiple of the symbol rate BB DM CLOC MULT 12 the multiplier for the external clock rate is 12 Manual operation See Symbol Clock Multiplier on page 366 SOURce hw BB DM...

Page 651: ...TRIGger EXTernal RDELay 640 SOURce hw BB DM TRIGger EXTernal ch INHibit 640 SOURce hw BB DM TRIGger SEQuence 641 SOURce hw BB DM TRIGger ARM EXECute The command stops signal generation for trigger mo...

Page 652: ...ignal 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 This mode is recommended for...

Page 653: ...hout restarting the marker and signal Parameters Delay float Range 0 to 16777215 Increment 0 001 RST 0 Example BB DM TRIG OUTP2 DEL 16 sets a delay of 16 symbols for the signal on connector MARKER 2 M...

Page 654: ...ODE ARET selects the Armed_Retrigger mode BB DM TRIG RMOD queries the current status of signal generation Response RUN the signal is generated an external trigger was executed Usage Query only Manual...

Page 655: ...T SAMPle Example SOURce1 BB DM TRIGger SEQuence RETR SOURce1 BB DM TRIGger SOURce EXT SOURce1 BB DM TRIGger DELay UNIT TIME SOURce1 BB DM TRIGger EXTernal TDELay 100 SOURce1 BB DM TRIGger EXTernal RDE...

Page 656: ...delayed for Return values ResTimeDelay float Range 0 to 688 Increment 250E 12 RST 0 Example see SOURce hw BB DM TRIGger DELay UNIT on page 639 Usage Query only Manual operation See Actual Trigger Dela...

Page 657: ...vent causes a restart Signal genera tion is stopped with comman SOUR BB DM TRIG ARM EXEC and started again when a trigger event occurs SINGle The modulation signal is generated only when a trigger eve...

Page 658: ...pecifications in the commands SOURce BB DM TRIGger OUTPut OFFT and SOURce BB DM TRIGger OUTPut ONT is generated RST RATio Example BB DM TRIG OUTP2 MODE PULS selects the pulsed marker signal on output...

Page 659: ...TT B000000011111111 15 sets a bit pattern BB DM TRIG OUTP2 MODE PATT activates the marker signal according to a bit pattern on output MARKER 2 Manual operation See Marker x on page 365 SOURce hw BB DM...

Page 660: ...644 SOURce hw BB DM FILTer OSAMpling AUTO 645 SOURce hw BB DM FILTer PARameter COSine ROLLoff 645 SOURce hw BB DM FILTer PARameter GAUSs 645 SOURce hw BB DM FILTer PARameter LPASs 645 SOURce hw BB DM...

Page 661: ...hw BB DM FILTer PARameter GAUSs Gauss SOURce hw BB DM FILTer PARameter LPASs LPass SOURce hw BB DM FILTer PARameter LPASSEVM LPassEvm SOURce hw BB DM FILTer PARameter PGAuss PGauss SOURce hw BB DM FIL...

Page 662: ...s the bandwidth of the cosine filter Parameters FiltParm float Range 400 to 25E6 Increment 1E 3 RST 270833 333 Example BB DM FILT TYPE COS BB DM FILT PAR COS BAND 7200 Manual operation See Bandwidth o...

Page 663: ...ce hw DM FILTer PARameter Parameter Sets the filter parameter of the currently selected filter type To set the filter type use command SOURce hw BB DM FILTer TYPE on page 647 Parameters Parameter floa...

Page 664: ...ample BB DM FORM ASK selects the ASK modulation type BB DM ASK DEPT 50 PCT sets a modulation depth of 50 percent Manual operation See ASK Depth on page 346 SOURce hw BB DM CODing Coding The command se...

Page 665: ...M256 QAM1024 MSK FSK2 FSK4 USER FSKVar QAM128 QEDGe QAM16EDge QAM32EDge AQPSk QAM4096 RST MSK Example BB DM FORM QPSK selects modulation type QPSK Manual operation See Modulation Type on page 346 SOUR...

Page 666: ...nit Hz Example BB DM FORM FSKV selects Variable FSK modulation BB DM FSK VAR TYPE FSK16 selects 16FSK modulation BB DM FSK VAR SYMB0 DEV 135000 sets the frequency deviation of the least significant sy...

Page 667: ...AMp TIME 653 SOURce hw BB DM PRAMp STATe 653 SOURce hw BB DM PRAMp ATTenuation Attenuation Sets the level attenuation for signal ranges that are flagged with level attribute attenu ated by the LEV_ATT...

Page 668: ...0 01 RST 0 Default unit symbol Example BB DM PRAM FDEL 1 The falling edge starts 1 symbol later Manual operation See Fall Delay on page 360 SOURce hw BB DM PRAMp RDELay RDelay Sets the delay in the ri...

Page 669: ...the aid of SOURce BB DM CLISt commands EXTernal The digital control signals LEV_ATT and BURST are supplied via the control signal inputs on the AUX I O connector RST INTernal Example BB DM PRAM SOUR...

Page 670: ...f User Mapping User mapping settings vam It is not possible to use other file extensions with the commands Attempting to do so will cause an error message If the file extension is changed in any other...

Page 671: ...FAST 665 SOURce hw BB DM STANdard ULISt CATalog 665 SOURce hw BB DM STANdard ULISt DELete 665 SOURce hw BB DM STANdard ULISt LOAD 666 SOURce hw BB DM STANdard ULISt STORe 666 SOURce hw BB DM CLISt CA...

Page 672: ...urce file has to be available in the default directory The default directory is set using command MMEM CDIRectory A path can be specified in which case the source file is copied into the file list nam...

Page 673: ...e value in which the 16 bits represent the binary values 16 bit unsigned integer 2 bytes LSByte first When binary data transmission is in use com mand SYSTem COMMunicate GPIB LTERminator EOI should be...

Page 674: ...mple BB DM CLIS DEL c_list3 deletes control list c_list3 Usage Setting only Manual operation See File Manager on page 352 SOURce hw BB DM CLISt POINts The command queries the number of lines 2 bytes i...

Page 675: ...erpreted as End thereby prematurely terminating the data transmission The command LTER STAN resets the mode The query reads out the data part of the data list If the query is expanded by using the two...

Page 676: ...LIS DATA APP 1 1 1 0 0 0 1 1 0 1 adds the specified numeric data to the existing data in data list d_list2 Usage Setting only Manual operation See Data List Editor on page 353 SOURce hw BB DM DLISt DE...

Page 677: ...ed The modulation data in this data list is used when the data source is selected using the command SOURce BB DM SOURce DLISt Parameters Select list name Example BB DM DLIS SEL d_list2 selects data li...

Page 678: ...FILT TYPE USER selects the User filter type MMEM CDIR D user Filter_List sets the default directory for the user defined filters BB DM FLIS SEL user_filter3 selects the user defined filter Manual oper...

Page 679: ...list with the specified name does not yet exist it is created The file extension may be omitted Only files with the file extension vam will be selected or created Parameters Filename string Example B...

Page 680: ...ettings 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 omit ted Only files with t...

Page 681: ...d MMEM CDIRectory Only files with the file extension dm_stu will be listed Return values Catalog string Example MMEM CDIR D user dig_mod sets the default directory BB DM STAN ULIS CAT reads out all th...

Page 682: ...ttings 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 e...

Page 683: ...gnal is determined Maximum resolution corre sponds to a display covering the entire signal bandwidth The higher the resolution is the shorter the length of the displayed signal segment will be for the...

Page 684: ...arameters User float Range 0 01 to 100 Increment 0 01 RST 10 Default unit PCT Example BB GRAP SRAT MODE USER sets the sample rate mode BB GRAP SRAT USER 20 sets the sample rate factor Manual operation...

Page 685: ...OFTware Example BB GRAP TRIG SOUR MARK sets the trigger source Manual operation See Trigger Source on page 171 7 16 3 5 SOURce BB IMPairment Subsystem This subsystem contains the commands for the digi...

Page 686: ...BB IMP LEAK I 3 PCT sets the leakage for the I component to 3 percent Manual operation See I Q Offset Digital Impairments on page 292 SOURce hw BB IMPairment LEAKage Q Q This command sets the carrier...

Page 687: ...ge 292 SOURce hw BB IMPairment OPTimization MODE Mode This command sets the optimization mode Parameters Mode FAST QHIGh FAST Optimization is reached by compensation for I Q skew QHIGh Optimization is...

Page 688: ...BB MCCW CARRier COUNt 673 SOURce hw BB MCCW CARRier LIST PHASe 673 SOURce hw BB MCCW CARRier LIST POWer 674 SOURce hw BB MCCW CARRier LIST STATe 675 SOURce hw BB MCCW CARRier PHASe 675 SOURce hw BB M...

Page 689: ...he total bandwidth is not respected when entering the number of carriers The number of carriers entered therefore defines the maximum carrier spacing BB MCCW CARRier SPACing Parameters Count integer R...

Page 690: ...Pow0 Pow1 SOURce hw BB MCCW CARRier LIST POWer Start Count Sets the power of the carrier with the aid of a value list The first value in the list is assigned to the carrier with index 0 the second val...

Page 691: ...he values every time Values not set by the value list are set with the default values provided they have already been explicitly set by a previous com mand If this is the case the values continue to a...

Page 692: ...ple BB MCCW CARR POW 15 50 dB sets the power of carrier 15 to 50 dB Manual operation See Carrier Table on page 429 SOURce hw BB MCCW CARRier SPACing Spacing The command sets the carrier spacing The ca...

Page 693: ...channel index 1 in the table Parameters CarrierIndex integer Range 0 to lastCarrier State select RST 0 Example BB MCCW CARR STAT 15 ON switches carrier 16 on Manual operation See Carrier Table on page...

Page 694: ...e computation time is independent of the number of carriers In other carrier configurations the achievable crest factor is worse SLOW The crest factor entered using SOURceBB MCCW CFACtor is maintained...

Page 695: ...W EDIT CARR STOP 400 the carrier range stops at carrier 400 BB MCCW EDIT CARR STAT ON sets all the carriers in the carrier range to ON BB MCCW EDIT CARR EXEC adopts the settings for all the carriers i...

Page 696: ...by the phase value specified in the BB MCCW EDIT CARR PHAS STEP command The phase settings are only valid if optimization of the crest factor is disabled SOURce BB MCCW CFACtor MODE OFF Parameters St...

Page 697: ...See Power Start on page 428 SOURce hw BB MCCW EDIT CARRier STARt Start Selects the first carrier in the carrier range to which the settings with the BB MCCW EDIT CARR commands shall apply Parameters...

Page 698: ...bit 686 SOURce hw BB MCCW TRIGger SEQuence 686 SOURce hw BB MCCW TRIGger ARM EXECute Stops signal generation for trigger modes Armed_Auto and Armed_Retrigger A subse quent internal or external trigger...

Page 699: ...nstrument 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 signa...

Page 700: ...ing a trigger event SOURce hw BB MCCW TRIGger RMODe Queries the current status of signal generation for all trigger modes with Multi Carrier CW on Return values RMode STOP RUN RUN The signal is genera...

Page 701: ...m will be output after the next trigger event Manual operation See Signal Duration on page 432 SOURce hw BB MCCW TRIGger SOURce Source Selects the trigger source Parameters Source INTernal BEXTernal E...

Page 702: ...s generated continuously RETRigger The multi carrier signal is generated continuously A trigger event internal or external causes a restart AAUTo The multi carrier signal is generated only when a trig...

Page 703: ...ce hw BB MCCW TRIGger OUTPut ch OFFTime 689 SOURce hw BB MCCW TRIGger OUTPut ch ONTime 689 SOURce hw BB MCCW TRIGger OUTPut ch PATTern 690 SOURce hw BB MCCW TRIGger OUTPut ch PULSe DIVider 690 SOURce...

Page 704: ...tor MARKER 2 Manual operation See Marker x Delay on page 435 SOURce hw BB MCCW TRIGger OUTPut ch DELay MAXimum Queries the maximum marker delay for setting BB MCCW TRIGger OUTPut DELay FIXed ON Return...

Page 705: ...P PULSe DIVider command and can be queried with the SOUR BB MCCW TRIG OUTP PULSe FREQuency command PATTern A marker signal is generated with the aid of a user definable bit pattern The bit pattern is...

Page 706: ...it pattern BB MCCW TRIG OUTP2 MODE PATT activates the marker signal according to a bit pattern on output MARKER 2 Manual operation See Marker Mode on page 435 SOURce hw BB MCCW TRIGger OUTPut ch PULSe...

Page 707: ...g pulse frequency is 33 kHz Usage Query only Manual operation See Marker Mode on page 435 Clock Settings SOURce hw BB MCCW CLOCk MODE 691 SOURce hw BB MCCW CLOCk MULTiplier 691 SOURce hw BB MCCW CLOCk...

Page 708: ...Ternal The internal clock reference is used EXTernal The external clock reference is supplied to the CLOCK connec tor RST INTernal Example BB MCCW CLOC SOUR EXT selects an external clock reference The...

Page 709: ...surement of the digital I Q baseband signal in the range of 1 s 3 h Parameters Duration hh mm ss Range 1s to 3h RST 1s Example BB MEAS DUR 00 15 30 sets the measurement duration to 15 minutes and 30 s...

Page 710: ...e digital I Q baseband signal is completed Return values RTime string hh mm ss Example BB MEAS RTIM Queries the remaining measurement duration Usage Query only Manual operation See Remaining Time Digi...

Page 711: ...TAT ON starts measuring the real power values of the digital I Q base band signal Manual operation See State Digital Impairments Measurement on page 311 7 16 3 8 SOURce BB POWer Subsystem This subsyst...

Page 712: ...ation See Power Digital Impairments on page 311 7 16 3 9 SOURce BB PROGress Subsystem General Commands In the R S SMJ some calculation processes may take longer time While operating the instrument man...

Page 713: ...gment integer Indicates the task progress in percent Range 0 to 100 RST 100 Example see Example Querying the status of the Create Waveform file process on page 696 Usage Query only SOURce hw BB PROGre...

Page 714: ...urements allow to take into account the changing VSWR for the differ ent attenuator settings see SOURce hw CORRection CSET DATA POWer MLEVel ch on page 700 SOURce CORRection CSET CATalog 699 SOURce hw...

Page 715: ...n tables UCOR1 UCOR2 and UCOR3 are availa ble Usage Query only Manual operation See Directory File List and File Name on page 160 SOURce hw CORRection CSET DATA FREQuency Frequency Transfers the frequ...

Page 716: ...B 0 8dB 0 75dB enters the level values in the table ucor1 Manual operation See Edit User Cor Data User Correction on page 224 SOURce hw CORRection CSET DATA POWer POINts Queries the number of level va...

Page 717: ...User Correction list The Multi Level Correction measurements are made in addition to a Single Level Correction measurement When the user correction list is activated it is possible to select which of...

Page 718: ...POW SGAM MAG 0 1 0 2 0 3 0 4 sets the magnitude values SOURce hw CORRection CSET DATA SGAMma MAGNitude POINts Queries the number of magnitude entries in the selected multi level user correction table...

Page 719: ...mand fills the selected user correction list with the level values measured by the power sensor for the given frequencies To select the used power sensor set the suffix in key word SENSe Example CORR...

Page 720: ...ry for the ASCII files with frequency and level value pairs CORR DEXC AFIL EXT TXT selects that ASCII files with extension txt are listed CORR DEXC AFIL CAT queries the available files with extension...

Page 721: ...EXC SEL D user import_ucor_imp selects that the ASCII file ucor csv is imported into user cor rection list ucor_imp Manual operation See Select ASCII Source Destination User Correction on page 228 SOU...

Page 722: ...e 227 SOURce hw CORRection DEXChange EXECute Starts the export or import of the selected file When import is selected the ASCII file is imported as user correction list When export is selected the use...

Page 723: ...R CORR DEXC SEL in which case the files are stored or loaded in the specified directory Parameters Filename string Example CORR DEXC MODE IMP selects that ASCII files with frequency and level value pa...

Page 724: ...UR CORR CSET DATA POW MLEV STAT ON Parameters State 0 1 OFF ON RST 0 Example SOUR CORR MLEV STAT ON activates the use of multi level correction data for user correc tion Manual operation See Use Multi...

Page 725: ...ta with Sensor on page 230 7 16 5 SOURce FM Subsystem The FM subsystem contains the commands for checking the frequency modulation The settings for the internal modulation source LF generator are made...

Page 726: ...ses the modulation signal as it is with AC and DC RST AC Example FM EXT COUP AC selects the coupling mode AC for the external frequency modu lation signal Manual operation See FM External Coupling on...

Page 727: ...igned to the voltage value for full modulation of the input signal The sensitivity depends on the set SOURce hw FM DEViation Return values Sensitivity float Range 0 to max Increment 0 01 Example FM DE...

Page 728: ...tate Activates frequency modulation Note Activation of FM deactivates phase modulation PM Parameters State 0 1 OFF ON RST 0 Example FM STAT ON Activates FM modulation Manual operation See State on pag...

Page 729: ...range is defined with the parameters SOURce hw FREQuency STARt and SOURce hw FREQuency STOP A defined offset and the multiplier factor affect the sweep frequency range and there fore all correlated pa...

Page 730: ...nual operation See Out State LO Coupling on page 214 SOURce hw FREQuency CW FIXed Fixed Sets the frequency of the RF output signal In CW mode see FREQ MODE CW FIXed the instrument operates at a fixed...

Page 731: ...Lude EXCLude INCLude Takes the frequency value of the loaded settings EXCLude Retains the current frequency when an instrument configuration is loaded RST INCLude Example FREQ RCL INCL takes the frequ...

Page 732: ...or the generating the RF output signal The selected mode determines the parameters to be used for further frequency settings Parameters Mode CW FIXed SWEep LIST CW FIXed Sets the fixed frequency mode...

Page 733: ...es not change but rather the value queried with SOUR FREQ according to the following formula fFREQ fRFout fMULTiplier fOFFSet Parameters Offset float Increment 0 01 RST 0 Example FREQ OFFS 500kHz sets...

Page 734: ...of setting RST 400E6 Example FREQ CENT 400 MHz sets the center frequency of the frequency sweep to 400 MHz FREQ SPAN 200 MHz sets a span of 200 MHz This sets the sweep range to 300 MHz to 500 MHz Manu...

Page 735: ...ed fSTOP fCENTer fSPAN 2 Note A defined offset affects the sweep range and consequently all correlating param eters The set frequencies are only absolute values if the Offset 0 Offset 0 shifts the fre...

Page 736: ...he rotary knob Parameters Mode DECimal USER RST DECimal Example FREQ STEP 50 kHz sets the step width for the frequency setting to 50 kHz FREQ STEP MODE USER actives this step width for frequency varia...

Page 737: ...Threshold Sets the high low threshold of the data inputs in the baseband section In the case of positive polarity this threshold determines the point as of which a signal is high active or low inacti...

Page 738: ...EGative POSitive RST POSitive Example INP TRIG BBAN SLOP NEG activates the falling slope of the external trigger signal at the TRIGGER connectors Manual operation See Baseband Trigger Input Slope on p...

Page 739: ...signal is high active for a signal voltage of 1 volt and higher Manual operation See Threshold Trigger Control Input on page 142 SOURce INPut TRIGger SLOPe Slope Sets the polarity of the active slope...

Page 740: ...e baseband gain for the external analog wideband I Q signal Thus the modula tion of the I Q modulator can be optimized for any measurement requirement The gain settings for an internal or external bas...

Page 741: ...on See Gain Imbalance I Q Mod on page 285 SOURce hw IQ IMPairment LEAKage I I Sets the carrier offset for the I channel of the I Q modulation Parameters I float Range 10 to 10 Increment 0 01 RST 0 Def...

Page 742: ...IQRatio for the analog signal in the I Q modulator Parameters State 0 1 OFF ON RST 0 Example IQ IMP OFF deactivates I Q impairment Manual operation See State Impairments I Q Mod on page 284 SOURce hw...

Page 743: ...page 285 SOURce hw IQ WBSTate WbState Selects optimized setting for wideband modulation signals 5 MHz State ON Parameters WbState 0 1 OFF ON RST 0 Example IQ WBST ON activates optimized setting for w...

Page 744: ...IQG DB6 sets gain 6dB best for low noise Manual operation See Baseband Gain Gain I Q Mod on page 287 7 16 9 SOURce IQ OUTput Subsystem 7 16 9 1 Analog I Q Outputs This subsystem contains the commands...

Page 745: ...OURce hw IQ OUTPut ANALog BIAS Q Q Specifies the amplifier bias of the respective I Q component Parameters Q float Range 3 6 to 3 6 Increment 0 002 RST 0 Example IQ OUTP ANAL BIAS Q 0 1 V sets a bias...

Page 746: ...302 SOURce hw IQ OUTPut LEVel Level Sets the off load voltage Single ended Output Value range 20 mV 2 V EMF The maximum overall output voltage SOUR IQ OUTP POW PEP SOUR IQ OUTP BIAS I Q is 3 7 V Diff...

Page 747: ...VATTenuated FIXed The settings are fixed and cannot be changed VARiable The settings can be changed command SOURce hw IQ OUTPut LEVel on page 730 RST FIXed Options VARiable requires option R S SMJ B16...

Page 748: ...OUTPut DIGital POWer STEP MODE 735 SOURce hw IQ OUTPut POWer VIA 735 SOURce hw IQ OUTPut DIGital SRATe 735 SOURce hw IQ OUTPut DIGital SRATe FIFO STATus 736 SOURce hw IQ OUTPut DIGital SRATe SOURce 73...

Page 749: ...ntly clipped Return values State 0 1 OFF ON RST 0 Example IQ OUTP DIG OFL STAT queries the overflow state Response 0 no overflow Usage Query only Manual operation See Overflow Digital I Q Out on page...

Page 750: ...output level to 10 dBFS Manual operation See Peak Level Digital I Q Out on page 308 SOURce hw IQ OUTPut DIGital POWer STEP INCRement Increment Sets the step width for the frequency setting if the fre...

Page 751: ...Q Out on page 308 SOURce hw IQ OUTPut POWer VIA Via Activates the selected I Q output level entry fields of the currently selected signal path in the status bar Parameters Via PEP LEVel PEP The signa...

Page 752: ...le SOUR BBIN SRAT FIFO STATus queries the FIFO Status of the sample rate Usage Query only Manual operation See FIFO Status Digital I Q Output on page 307 SOURce hw IQ OUTPut DIGital SRATe SOURce Sourc...

Page 753: ...Output Subsystem The SOURce LFOutput subsystem contains the commands for setting the LF signal source in CW and Sweep mode and for analog modulation Example The following example shows how to set an L...

Page 754: ...rithmic 745 SOURce LFOutput VOLTage 746 SOURce LFOutput FREQuency Frequency Sets the frequency of the LF signal in LFO FREQ MODE CW FIXed mode Note If signal Source Internal is set the instrument perf...

Page 755: ...tput FREQuency MODE Mode Sets the instrument operating mode and determines the commands to be used for fre quency settings Parameters Mode CW FIXed SWEep CW FIXed Sets the CW frequency mode CW and FIX...

Page 756: ...z linear with 15 ms dell time until the signal switches to the subsequent step Manual operation See Start Freq on page 258 SOURce hw LFOutput FREQuency STOP Stop Sets the stop frequency for the LF swe...

Page 757: ...RST 15E 3 Example LFO SWE DWEL 20 ms sets a dwell time of 20 ms Manual operation See Dwell Time LF Sweep on page 259 SOURce hw LFOutput SWEep FREQuency EXECute Immediately starts an LF frequency swee...

Page 758: ...with SOURce hw LFOutput FREQuency MANual takes no effect With manual control the frequency increases or decreases depending on the direction of the rotary encoder by the value specified under SOUR LFO...

Page 759: ...p spacing LFO SWE POIN 11 sets 11 sweep steps for linear sweep spacing The sweep step width STEP is automatically set to 2 kHz SOURce hw LFOutput SWEep FREQuency RUNNing Queries the current status of...

Page 760: ...e logarithmic sweep the step width is a constant fraction of the current frequency This fraction is added to the current fre quency The logarithmic step width is entered in see SOURce hw LFOutput SWEe...

Page 761: ...logarithmically calculated fraction of the current fre quency according to step_logstep 1 fstep step_logstep x fstep fstep 1 fstep step_logstep 1 with fSTARt fSTOP and step the current number of the...

Page 762: ...lected list is created SOURce1 LIST SEL New_list 2 Fill the list with values All list components must be of the same length This does not apply to components of length 1 This is interpreted as if the...

Page 763: ...0 SOURce hw LIST DEXChange AFILe SEParator DECimal 751 SOURce hw LIST DEXChange EXECute 751 SOURce hw LIST DEXChange MODE 752 SOURce hw LIST DEXChange SELect 752 SOURce hw LIST DWELl 752 SOURce hw LIS...

Page 764: ...tension A path can also be specified in com mand SOUR LIST CAT in which case the file in the specified directory is deleted RST does not affect data lists Setting parameters Filename string Example MM...

Page 765: ...e current or specified directory As response you get a string containing the existing ASCII files txt or csv sep arated by commas Return values Catalog string Example MMEM CDIR D user import selects t...

Page 766: ...DEXC MODE IMP determines that ASCII files with frequency and level value pairs are imported into list mode lists LIST DEXC AFIL EXT TXT determines the extension txt for the query LIST DEXC AFIL CAT q...

Page 767: ...Decimal Sets the decimal separator used in the ASCII data between decimal point and comma with floating point numerals Parameters Decimal DOT COMMa RST DOT Example see SOURce hw LIST DEXChange AFILe S...

Page 768: ...the list mode list to be imported or exported The list mode files are stored with the fixed file extensions lsw in a directory of the user s choice The directory applicable to the commands is defined...

Page 769: ...ata RST does not affect data lists Parameters Frequency Frequency 1 Frequency 2 block data The data can be given either as a list of numbers list can be of any length and list entries must be separate...

Page 770: ...selected index are pro cessed in List mode Parameters Index integer RST 0 Example LIST SEL D user list3 selects list3 for use in List mode FREQ MODE LIST activates List mode List3 is processed LIST M...

Page 771: ...urrent list Only the values in the set index range LIST INDex STARt LIST INDex STOP are processed in list mode Parameters Stop integer Range 0 to list length RST 0 Example see SOURce hw LIST INDex STA...

Page 772: ...ers Power Power 1 Power 2 block data The data can be given either as a list of numbers list can be of any length and list entries must be separated by commas or as binary block data When block data is...

Page 773: ...name can be entered here The list is created if it does not yet exist The list selected here is available for the fur ther processing steps editing and is used in the instrument when the list mode is...

Page 774: ...ODE AUTO SINGle BUS MODE SINGLE or STEP EXTernal EXTernal MODE EXT TRIG SINGLE or EXT TRIG STEP Parameters Source AUTO IMMediate SINGle BUS EXTernal AUTO IMMediate The trigger is free running i e the...

Page 775: ...lative to a reference signal of the same frequency SOURce hw PHASe 759 SOURce hw PHASe REFerence 759 SOURce hw PHASe Phase Sets the phase variation relative to the current phase The variation is speci...

Page 776: ...hase modulation signals in RAD The maximum deviation depends on the set RF frequency and the selected modulation mode see data sheet Parameters Deviation float Range see data sheet Increment 1E 6 Exam...

Page 777: ...OURce hw PM SENSitivity Queries the input sensitivity of the externally applied signal for phase modulation The returned value reports the sensitivity in RAD V It is assigned to the voltage value for...

Page 778: ...on FM Parameters State 0 1 OFF ON RST 0 Example PM STAT ON activates PM Manual operation See State on page 249 7 16 15 SOURce POWer Subsystem This subsystem contains the commands for setting the outpu...

Page 779: ...ers OffMode SHOLd SHOLd Level control is activated briefly if the level or frequency changes ALC Off Sample Hold RST SHOLd Example POW ALC OFF deactivates automatic level control for RF output A POW A...

Page 780: ...ET key RST and the Save Recall function This parameter is influenced only by the Factory Preset Parameters Mode UNCHanged FATTenuation UNCHanged Freezes the setting of the attenuator when RF is switch...

Page 781: ...ce hw POWer STEP INCRement The RF output is activated with OUTPut hw STATe on page 557 RF ON RF OFF Parameters Amplitude Minimum level Maximum level Determines the RF output level Range Minimum level...

Page 782: ...CL Rcl Determines whether the RF level is retained or taken from a loaded instrument configu ration when you recall instrument settings with the command RCL Parameters Rcl INCLude EXCLude INCLude Take...

Page 783: ...MAN command As with the Level value entered in the RF Level menu the OFFSet value is also taken into consideration with this command The specified value range is therefore only effective if SOURce PO...

Page 784: ...AN settings Manual operation See State Level Sweep on page 269 SOURce hw POWer PEP Queries the peak envelope power PEP in dBm for digital modulation and all digital standards This value corresponds to...

Page 785: ...te OFFSet affects the level values according to the formula Minimum level OFFSet Maximum level OFFSet Parameters Start float Determines the first level value of the sweep setting range Range full spec...

Page 786: ...the rotary knob Parameters Mode DECimal USER RST DECimal Example POW STEP 2 sets the step width for the level setting to 2 dB POW STEP MODE USER actives this step width for level variation with the ro...

Page 787: ...he RF signal frequency and level SOURce FREQuency CW 4000000000 SOURce POWer LEVel IMMediate AMPLitude 25 Configure the pulse modulation settings Select the internal modulation generator SOURce PULM S...

Page 788: ...l Prior to the selection of the pulse train mode make sure that you have generated and selected a pulse train data list Otherwise the instrument generates an error Reset the instrument to start from a...

Page 789: ...STATe 774 SOURce hw PULM POLarity Polarity Sets the polarity between modulating and modulated signal This command is effective only for an external modulation signal Parameters Polarity NORMal INVert...

Page 790: ...Rce hw PULM STATe State Activates the pulse modulation Parameters State 0 1 OFF ON RST 0 Example PULM STAT ON activates pulse modulation Manual operation See State on page 252 7 16 17 SOURce ROSCillat...

Page 791: ...ng ensures that no improper RF signal due to the missing external reference signal is output and used for measurements In addition to the error message Ext Ref missing the instrument generates the mes...

Page 792: ...adjustment value to 456 Manual operation See Adjustment DAC Value on page 212 SOURce ROSCillator INTernal ADJust STATe State Determines whether the calibrated OFF or a user defined ON adjustment valu...

Page 793: ...WEep Subsystem The SOURce subsystem contains the commands for configuring RF sweep signals The keyword FREQuency can be ommitted then the commands are SCPI compliant To activate a RF sweep mode use th...

Page 794: ...ncy STEP LINear 782 SOURce hw SWEep FREQuency STEP LOGarithmic 783 SOURce hw SWEep POWer DWELl 784 SOURce hw SWEep POWer EXECute 784 SOURce hw SWEep POWer MODE 784 SOURce hw SWEep POWer POINts 785 SOU...

Page 795: ...actly one complete sweep MANual The trigger system is not active Each frequency step of the sweep is triggered individually either by varying the Current Frequency value using the rotary knob under ma...

Page 796: ...ly The sweep range remains the same Parameters Points integer Range 2 max Example FREQ STAR sets the start frequency to 100 MHz FREQ STOP sets the stop frequency to 500 MHz SWE SPAC LIN sets linear sw...

Page 797: ...he start frequency i e the shape of the sweep sequence resembles a sawtooth TRIangle One sweep runs from start to stop frequency and back i e the shape of the sweep resembles a triangle Each subsequen...

Page 798: ...rithmic on page 783 RST LINear Example SWE SPAC LIN selects linear sweep spacing for a frequency sweep at the RF output Manual operation See Spacing Frequency Sweep on page 266 SOURce hw SWEep FREQuen...

Page 799: ...he frequency is increased by a logarithmically calculated fraction of the current fre quency according to step_logn 1 fn step_logn x fn fn 1 fn step_logn 1 with fSTARt fSTOP and n number of sweep step...

Page 800: ...PDate OFF Parameters Dwell float Range 1E 3 to 100 Increment 100E 6 RST 15E 3 Example SWE POW DWEL 12 ms sets a dwell time of 12 ms for a level sweep at the RF output Manual operation See Dwell Time L...

Page 801: ...er triggers one sweep step only The level increases by the value entered under SWEep POWer STEP RST AUTO Example SWE POW MODE AUTO selects Mode Auto for a level sweep at RF output Manual operation See...

Page 802: ...rent state of the level sweep mode Return values State 0 1 OFF ON Example SWE POW RUNN Response 1 signal generation in level sweep active Usage Query only SOURce hw SWEep POWer SHAPe Shape Sets the cy...

Page 803: ...logarithmically calculated fraction of the current level according to step_sizen 1 Leveln step_sizen x Leveln Leveln 1 Leveln step_sizen 1 with LevelSTARt levelSTOP step_size SWE POW STEP LOG and n nu...

Page 804: ...R S SMJ cause the status registers to be changed Setting values A decimal value in the range 0 to 32767 215 1 STATus OPERation CONDition 788 STATus OPERation ENABle 789 STATus OPERation EVENt 789 STA...

Page 805: ...transition Sets the bits of the NTRansition part of the STATus OPERation register If a bit is set a transition from 1 to 0 in the condition part causes an entry to be made in the EVENt part of the reg...

Page 806: ...er being read out since it indicates the current hardware status Parameters Condition string Example STATus QUEStionable CONDition queries the Status Questionable Condition register STATus QUEStionabl...

Page 807: ...ition from 1 to 0 in the condition part causes an entry to be made in the EVENt part of the register Parameters PTransition string Example STAT OPER PTR 32767 all transitions from 0 to 1 in the condit...

Page 808: ...icate NETWork RESource 796 SYSTem COMMunicate HISLip RESource 797 SYSTem COMMunicate SOCKet RESource 797 SYSTem PROTect ch STATe 797 SYSTem STARtup COMPlete 798 SYSTem DISPlay UPDate 798 SYSTem DATE 7...

Page 809: ...rors negative value Negative error numbers denote error messages defined by SCPI Example SYST ERR CODE ALL queries all entries in the error queue Response 0 no errors have occurred since the error que...

Page 810: ...number and a short description of the error Positive error numbers are instrument dependent Negative error numbers are reserved by the SCPI standard Return values Next string Error event_number Error...

Page 811: ...coincidentally have the value LF Line Feed but is not intended as the terminator This setting must be selected for block data with undefined length STANdard An LF Line Feed is recognized as the termin...

Page 812: ...ts the network connection to the instrument terminates the connection and sets it up again Example SYSTem COMMunicate NETWork RESTart Usage Event SYSTem COMMunicate GPIB RESource Queries the visa reso...

Page 813: ...g Example SYSTem COMMunicate HISLip RESource Response TCPIP 192 1 2 3 hislip0 INSTR Usage Query only Manual operation See Visa Resource Strings on page 147 SYSTem COMMunicate SOCKet RESource Queries t...

Page 814: ...are enabled again Manual operation See Protection Level Password on page 149 SYSTem STARtup COMPlete Queries if the startup of the instrument is completed Return values Complete 0 1 OFF ON RST 0 Exam...

Page 815: ...story entries Usage Event SYSTem TIME Hour Minute Second Queries or sets the time for the instrument internal clock The parameter is protected in order to prevent accidental changes It can be accessed...

Page 816: ...ple SYST VERS queries the SCPI version Response 1996 The instrument complies with the SCPI version from 1996 Usage Query only SYSTem BIOS VERSion Queries the BIOS version of the instrument Return valu...

Page 817: ...have an RST value Improper use may destroy the assembly The respective hardware assembly responds directly to the TEST DIRect command any safety mechanisms are bypassed The command is used for servici...

Page 818: ...s LRate float Range 66E6 to 100E6 Increment 1E6 RST 100E6 Example TEST BBOut LRATe 90MHZ sets the LVDS interface rate to 90 MHz Manual operation See BBOUT LVDS Rate on page 139 TEST hw BBOut TTESt STA...

Page 819: ...Other commands associated with the trigger system of the R S SMJ can be found in the modulation and RF signal subsystems TRIGger hw Suffix TRIGger 1 2 is not permitted TRIGger0 activates the LF outpu...

Page 820: ...le is triggered by the GPIB commands SOURce hw SWEep FREQuency EXECute TRIGger hw FSWeep IMMediate or TRG The mode has to be set to AUTO SOURce SWEep FREQuency MODE AUTO EXTernal The sweep is triggere...

Page 821: ...eep on page 257 Immediately starts an LF frequency sweep The command is effective in sweep mode Single LFO SWE MODE AUTO in combina tion with TRIG LFFS SOUR SING TRIGger hw LFFSweep SOURce Source Sets...

Page 822: ...d A second trigger event stops the sweep at the current frequency a third trigger event starts the trigger at the start frequency and so on RST AUTO Example TRIG LFFS SOUR EXT selects triggering with...

Page 823: ...stops the sweep at the current frequency a third trigger event starts the trigger at the start frequency and so on RST AUTO Example TRIG PSW SOUR EXT selects triggering with an external trigger Manual...

Page 824: ...E is set to STEP one step is executed The mode has to be set to AUTO EXTernal The sweep is triggered externally via the INST TRIG connector EAUTo The sweep is triggered externally via the INST TRIG co...

Page 825: ...p on page 257 7 21 UNIT Subsystem The UNIT subsystem contains the commands specifying which units are valid if no unit is indicated in a command These settings are valid for the entire instrument UNIT...

Page 826: ...Remote Control Commands R S SMJ100A 810 Operating Manual 1403 7458 32 14 UNIT Subsystem...

Page 827: ...nstructions when exchanging modules or ordering spares The order no for spare parts is included in the service manual The service manual includes further information particularly on troubleshooting re...

Page 828: ...Maintenance R S SMJ100A 812 Operating Manual 1403 7458 32 14 Storing and Packing...

Page 829: ...ith the command SYSTem ERRor If the error queue is empty 0 No error is returned The status reporting system is descri bed in detail in Chapter 6 5 Status Reporting System on page 473 Section Chapter 9...

Page 830: ...ro tection is tripped and the connection between the RF output and attenuator is interrup ted The overload protection is reset by pressing the RF ON OFF key The RF input is activated when the overload...

Page 831: ...y mode To return to manual operation or to REMOTE state use one of the following com mands LOCS swichtes directly from REM LLO to manual operation REMS changes the remote control state from REM LLO to...

Page 832: ...given values in the selected user correction list Correc tion is performed by the user defined list values being added to the output level for the respective RF frequency With frequencies which are no...

Page 833: ...is displayed until the error is eliminated It covers the status display in the info line After error elimination the message automatically disappears and is also recorded in the history SCPI command...

Page 834: ...to be generated first by an internal or external adjustment or to be loa ded into the instrument 183 Adjustment data inva lid Adjustment data are invalid and must be restored The adjustment data have...

Page 835: ...as to be entered when creating a new list 464 Invalid filename exten sion The file extension is not valid for the required operation Check the file extension For instance the file extension for wavefo...

Page 836: ...l Support If problems occur the instrument generates error messages which in most cases will be sufficient for you to detect the cause of an error and find a remedy Error message types are described i...

Page 837: ...ata from your instru ment refer to the description Resolving Security Issues when working with R S SMJ provided at the product homepage Packing and transporting the instrument If the instrument needs...

Page 838: ...Status Information Error Messages and Troubleshooting R S SMJ100A 822 Operating Manual 1403 7458 32 14 Obtaining Technical Support...

Page 839: ...Control Basics on page 439 All other interfaces are described in Chapter 2 1 Front Panel Tour on page 19 and Chapter 2 2 Rear Panel Tour on page 27 For specifications refer to the data sheet A 1 GPIB...

Page 840: ...fer NDAC Not Data Accepted active LOW signals that the instrument connected is accepting the data on the data bus Interface Functions Instruments which can be controlled via GPIB bus can be equipped w...

Page 841: ...GE low 28 not used not used 29 38 PARDATA0 PARDATA9 Parallel data input output 0 D with 10 bit word width for digital modulation If the data source External Parallel is selected these pins are the dat...

Page 842: ...D 14 VSYNC output 5 GND 10 GND 15 NC A 4 BERT Connector The 9 pin Sub D connector BERT at the rear panel is available for the input signals of the integrated bit error rate tester option BER BLE Measu...

Page 843: ...Hardware Interfaces R S SMJ100A 827 Operating Manual 1403 7458 32 14 Figure A 2 BERT circuit diagram BERT Connector...

Page 844: ...Hardware Interfaces R S SMJ100A 828 Operating Manual 1403 7458 32 14 BERT Connector...

Page 845: ...BLER SETup DENable 515 BLER SETup MCOunt 517 BLER SETup MERRor 517 BLER SETup TIMeout 518 BLER SETup TYPE 518 BLER STARt 518 BLER STATe 519 BLER STOP 519 BLER UNIT 520 CALibration hw ALL MEASure 521 C...

Page 846: ...AME AUTO 534 HCOPy FILE NAME AUTO FILE DAY STATe 536 HCOPy FILE NAME AUTO FILE DAY 536 HCOPy FILE NAME AUTO FILE MONTh STATe 537 HCOPy FILE NAME AUTO FILE MONTh 537 HCOPy FILE NAME AUTO FILE NUMBer 53...

Page 847: ...Wer 560 SENSe ch UNIT POWer 567 SENSe ch POWer APERture DEFault STATe 559 SENSe ch POWer APERture TIMe 559 SENSe ch POWer CORRection SPDevice STATe 560 SENSe ch POWer DISPlay PERManent PRIority 561 SE...

Page 848: ...urce 797 SYSTem DATE 798 SYSTem DISPlay UPDate 798 SYSTem ERRor ALL 792 SYSTem ERRor CODE ALL 793 SYSTem ERRor CODE NEXT 793 SYSTem ERRor COUNt 794 SYSTem ERRor NEXT 794 SYSTem FPReset 489 SYSTem HCLe...

Page 849: ...ncy 775 SOURce ROSCillator EXTernal RFOFf STATe 775 SOURce ROSCillator EXTernal SBANdwidth 775 SOURce ROSCillator SOURce 776 SOURce ROSCillator INTernal ADJust VALue 776 SOURce ROSCillator INTernal AD...

Page 850: ...itrary MCARrier CREate 604 SOURce hw BB ARBitrary MCARrier EDIT CARRier DELay STEP 605 SOURce hw BB ARBitrary MCARrier EDIT CARRier DELay STARt 605 SOURce hw BB ARBitrary MCARrier EDIT CARRier EXECute...

Page 851: ...nal CIQ CREate NAMed 594 SOURce hw BB ARBitrary TSIGnal CIQ I 594 SOURce hw BB ARBitrary TSIGnal CIQ Q 594 SOURce hw BB ARBitrary TSIGnal RECTangle AMPLitude 594 SOURce hw BB ARBitrary TSIGnal RECTang...

Page 852: ...e hw BB ARBitrary WSEGment SEQuence SELect 628 SOURce hw BB ARBitrary WSEGment 618 SOURce hw BB ARBitrary TRIGger SEQuence 590 SOURce hw BB CFACtor 695 SOURce hw BB DM AQPSk ANGLe 647 SOURce hw BB DM...

Page 853: ...662 SOURce hw BB DM MLISt FREE 656 SOURce hw BB DM MLISt POINts 663 SOURce hw BB DM MLISt SELect 663 SOURce hw BB DM PATTern 629 SOURce hw BB DM PRAMp ATTenuation 651 SOURce hw BB DM PRAMp BBONly STAT...

Page 854: ...r EXTernal ch INHibit 640 SOURce hw BB DM TRIGger SEQuence 641 SOURce hw BB GRAPhics MODE 666 SOURce hw BB GRAPhics SMARt STATe 667 SOURce hw BB GRAPhics SRATe MODE 667 SOURce hw BB GRAPhics SRATe USE...

Page 855: ...TRIGger OUTPut ch ONTime 689 SOURce hw BB MCCW TRIGger OUTPut ch PATTern 690 SOURce hw BB MCCW TRIGger OUTPut ch PULSe DIVider 690 SOURce hw BB MCCW TRIGger OUTPut ch PULSe FREQuency 691 SOURce hw BB...

Page 856: ...Rce hw CORRection VALue 708 SOURce hw CORRection ZERoing STATe 709 SOURce hw CORRection STATe 708 SOURce hw DM FILTer PARameter 647 SOURce hw FM EXTernal COUPling 710 SOURce hw FM INTernal FREQuency 7...

Page 857: ...0 SOURce hw IQ OUTPut ANALog TYPE 731 SOURce hw IQ SOURce 726 SOURce hw IQ STATe 726 SOURce hw IQ SWAP STATe 727 SOURce hw IQ WBSTate 727 SOURce hw LFOutput FREQuency MANual 738 SOURce hw LFOutput FRE...

Page 858: ...ce 761 SOURce hw PM STATe 762 SOURce hw PM DEViation 760 SOURce hw POWer ALC OMODe 763 SOURce hw POWer ALC SONCe 763 SOURce hw POWer ALC STATe 763 SOURce hw POWer ATTenuation RFOFf MODE 764 SOURce hw...

Page 859: ...ENGTH ControlLength 495 CONTROL LIST WIDTH4 Length m0m1 mx mM 1 502 COPYRIGHT string 493 DATA BITLENGTH BitLength 493 DATA LIST Length d0d1 dx dN 1 493 DATE yyyy mm dd hh mm ss 494 EMPTYTAG Length Emp...

Page 860: ...ommands R S SMJ100A 844 Operating Manual 1403 7458 32 14 SRE 487 STB 487 TRG 487 TST 487 WAI 488 SENSe ch POWer SNUMber 565 SENSe ch POWer STATus DEVice 566 SENSe ch POWer SVERsion 566 SENSe ch POWer...

Page 861: ...ference oscillator 212 Adjustment frequency Reference oscillator 212 Adjustment Path A 131 Adjustments All 131 ALC automatic level control 220 763 ALC Auto 816 ALC On 220 816 ALC S H 816 ALC Table 816...

Page 862: ...Carrier Table MCCW 429 Carrier Table Assistant 420 608 Carrier Table Assistant MCCW 428 Carrier Noise Ratio 298 Case sensitivity SCPI 463 CCDF display 178 Center Freq 266 Change password Setup securit...

Page 863: ...Recalculation 389 435 586 Current Segment 382 Current Sensors 136 Cursor keys 24 Cursor Length 356 Cursor Position 357 Cut 166 Cut Off Frequency Factor 349 Cut data editor 354 CW continuous wave 321...

Page 864: ...nvalid data 465 819 Filename missing 463 819 Hardware revision out of date 201 818 Invalid EEPROM data 203 818 Invalid filename extension 464 819 No current list 241 818 This modulation forces other m...

Page 865: ...nal HD Test Signal ARB 594 Generate Signal RAM 392 393 394 593 Generate Signal RAM Test Signal ARB 593 GET 445 Getting started 71 Global Trigger Clock Settings 390 437 Global Trigger Clock External In...

Page 866: ...29 TOGGLE 23 WINBAR 23 Key HELP 157 Key LOCAL 153 Key combinations 120 Keyboard Layout 144 Keyboard emulation 122 Keyboard Language 542 Keypad 23 Keywords see Mnemonics 462 L LAN Configuration 43 Inte...

Page 867: ...ker trace Periodical 495 Marker x Delay 389 435 MAX 466 Max Data Bits 189 Max Errors 189 197 Max Received Blocks 197 Maximum deviation 250 FM 247 Measured external clock 390 436 Measured External Cloc...

Page 868: ...tion ARB Baseband Generator 367 Baseband Generator B9 B10 B11 313 Baseband Main Module B13 313 Hardware 133 R S SMBV K18 Digital Baseband Connectivity 306 Software 133 Option R S SMx B16 Differential...

Page 869: ...te level offset 237 Type 235 Unit 236 Use default aperture time 239 zero 236 Power spectrum 179 Power Start 600 Power Start MCCW 428 Power Step 607 Power Step MCCW 428 Power On Count 132 133 Power On...

Page 870: ...GN 296 Resulting I Q Level EMF 304 Retrigger 379 590 DM 362 Reverse power protection 232 Revisions 132 RF frequency Multiplier 203 Settings 202 RF Frequency Set frequency dialog 202 RF frequency vs RF...

Page 871: ...ency RF signal 202 Set Noise power via 297 Set to default 374 412 DM 340 Set to default MCCW 425 Setting commands 441 Setting not possible 96 Setting parameters 98 Settings Check front panel 140 Refer...

Page 872: ...ixed 816 Auto 816 BUSY 814 EXT REF 814 LEVEL OFFSET 814 LevelSweep 815 LFSweep 815 ListMode 816 LOC LLO 815 OvenCold 816 REM LLO 815 REMOTE 815 RFSweep 815 S H 816 SYS CTRL 815 Table 816 UCorr 816 Sta...

Page 873: ...parameters DM 361 Trigger Signal Duration 362 Trigger signals 323 Trigger source LF sweep 255 RF frequency sweep 262 Trigger Source 380 433 DM 363 Level Sweep 269 List Mode 274 Trigger Source Graphics...

Page 874: ...Visual check of signal characteristics 168 VNC connection 53 Voltage threshold 142 VXI protocol 443 W Wait Remote 488 Wait Time 144 Warnings 92 816 Waveform Edit rules 511 Maximum length 371 optimizi...

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