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Rigol DG4062 Arbitrary Waveform Generator User manual
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RIGOL User’s Guide DG4000 Series Function/Arbitrary Waveform Generator Mar. 2014 RIGOL Technologies, Inc. RIGOL Guaranty and Declaration Copyright © 2011 RIGOL Technologies, Inc. All Rights Reserved. Trademark Information RIGOL is a registered trademark of RIGOL Technologies, Inc. Publication Number UGB04107-1110 Notices RIGOL products are protected by patent law in and outside of P.R.C. RIGOL reserves the right to modify or change parts of or all the specifications and pricing policies at company’s sole decision. Information in this publication replaces all previously corresponding material. RIGOL shall not be liable for losses caused by either incidental or consequential in connection with the furnishing, use or performance of this manual as well as any information contained. Any part of this document is forbidden to be copied or photocopied or rearranged without prior written approval of RIGOL. Product Certification RIGOL guarantees this product conforms to the national and industrial standards in China as well as the ISO9001:2008 standard and the ISO14001:2004 standard. Other international standard conformance certification is in progress. Contact Us If you have any problem or requirement when using our products or this manual, please contact RIGOL. E-mail: [email protected] Websites: www.rigol.com DG4000 Series User’s Guide I RIGOL Safety Requirement General Safety Summary Please review the following safety precautions carefully before putting the instrument into operation so as to avoid any personal injuries or damages to the instrument and any product connected to it. To prevent potential hazards, please use the instrument only specified by this manual. Use Proper Power Cord. Only the power cord designed for the instrument and authorized for use within the local country could be used. Ground The Instrument. The instrument is grounded through the Protective Earth lead of the power cord. To avoid electric shock, it is essential to connect the earth terminal of power cord to the Protective Earth terminal before any inputs or outputs. Connect the Probe Correctly. If a probe is used, do not connect the ground lead to high voltage since it has the isobaric electric potential as ground. Observe All Terminal Ratings. To avoid fire or shock hazard, observe all ratings and markers on the instrument and check your manual for more information about ratings before connecting. Use Proper Overvoltage Protection. Make sure that no overvoltage (such as that caused by a thunderstorm) can reach the product, or else the operator might expose to danger of electrical shock. Do Not Operate Without Covers. Do not operate the instrument with covers or panels removed. Do Not Insert Anything into the Holes of Fan. Do not insert anything into the holes of the fan to avoid damaging the instrument. II DG4000 Series User’s Guide RIGOL Use Proper Fuse. Please use the specified fuses. Avoid Circuit or Wire Exposure. Do not touch exposed junctions and components when the unit is powered. Do Not Operate With Suspected Failures. If you suspect damage occurs to the instrument, have it inspected by qualified service personnel before further operations. Any maintenance, adjustment or replacement especially to circuits or accessories must be performed by RIGOL authorized personnel. Keep Well Ventilation. Inadequate ventilation may cause increasing of temperature or damages to the device. So please keep well ventilated and inspect the intake and fan regularly. Do Not Operate in Wet Conditions. In order to avoid short circuiting to the interior of the device or electric shock, please do not operate in a humid environment. Do Not Operate in an Explosive Atmosphere. In order to avoid damages to the device or personal injuries, it is important to operate the device away from an explosive atmosphere. Keep Product Surfaces Clean and Dry. To avoid the influence of dust and/or moisture in air, please keep the surface of device clean and dry. Electrostatic Prevention. Operate in an electrostatic discharge protective area environment to avoid damages induced by static discharges. Always ground both the internal and external conductors of the cable to release static before connecting. Proper Use of Battery. If a battery is supplied, it must not be exposed to high temperature or in contact with fire. Keep it out of the reach of children. Improper change of battery (note: lithium battery) may cause explosion. Use RIGOL specified battery only. DG4000 Series User’s Guide III RIGOL Handling Safety. Please handle with care during transportation to avoid damages to buttons, knob interfaces and other parts on the panels. IV DG4000 Series User’s Guide RIGOL Safety Terms and Symbols Terms Used in this Manual. These terms may appear in this manual: WARNING Warning statements indicate the conditions or practices that could result in injury or loss of life. CAUTION Caution statements indicate the conditions or practices that could result in damage to this product or other property. Terms Used on the Product. These terms may appear on the Product: DANGER WARNING CAUTION indicates an injury or hazard may immediately happen. indicates an injury or hazard may be accessible potentially. indicates potential damage to the instrument or other property might occur. Symbols Used on the Product. These symbols may appear on the product: Hazardous Voltage Safety Warning DG4000 Series User’s Guide Protective Earth Terminal Chassis Ground Test Ground V RIGOL Allgemeine Sicherheits Informationen Überprüfen Sie diefolgenden Sicherheitshinweise sorgfältigumPersonenschädenoderSchäden am Gerätundan damit verbundenen weiteren Gerätenzu vermeiden. Zur Vermeidung vonGefahren, nutzen Sie bitte das Gerät nur so, wiein diesem Handbuchangegeben. Um Feuer oder Verletzungen zu vermeiden, verwenden Sie ein ordnungsgemäßes Netzkabel. Verwenden Sie für dieses Gerät nur das für ihr Land zugelassene und genehmigte Netzkabel. Erden des Gerätes. Das Gerät ist durch den Schutzleiter im Netzkabel geerdet. Um Gefahren durch elektrischen Schlag zu vermeiden, ist es unerlässlich, die Erdung durchzuführen. Erst dann dürfen weitere Ein- oder Ausgänge verbunden werden. Anschluss einesTastkopfes. Die Erdungsklemmen der Sonden sindauf dem gleichen Spannungspegel des Instruments geerdet. SchließenSie die Erdungsklemmen an keine hohe Spannung an. Beachten Sie alle Anschlüsse. Zur Vermeidung von Feuer oder Stromschlag, beachten Sie alle Bemerkungen und Markierungen auf dem Instrument. Befolgen Sie die Bedienungsanleitung für weitere Informationen, bevor Sie weitere Anschlüsse an das Instrument legen. Verwenden Sie einen geeigneten Überspannungsschutz. Stellen Sie sicher, daß keinerlei Überspannung (wie z.B. durch Gewitter verursacht) das Gerät erreichen kann. Andernfallsbestehtfür den Anwender die GefahreinesStromschlages. Nicht ohne Abdeckung einschalten. Betreiben Sie das Gerät nicht mit entfernten Gehäuse-Abdeckungen. Betreiben Sie das Gerät nicht geöffnet. Der Betrieb mit offenen oder entfernten Gehäuseteilen ist nicht zulässig. Nichts in entsprechende Öffnungen stecken (Lüfter z.B.) Passende Sicherung verwenden. Setzen Sie nur die spezifikationsgemäßen Sicherungen ein. VI DG4000 Series User’s Guide RIGOL Vermeiden Sie ungeschützte Verbindungen. Berühren Sie keine unisolierten Verbindungen oder Baugruppen, während das Gerät in Betrieb ist. Betreiben Sie das Gerät nicht im Fehlerfall. Wenn Sie am Gerät einen Defekt vermuten, sorgen Sie dafür, bevor Sie das Gerät wieder betreiben, dass eine Untersuchung durch qualifiziertes Kundendienstpersonal durchgeführt wird.Jedwede Wartung, Einstellarbeiten oder Austausch von Teilen am Gerät, sowie am Zubehör dürfen nur von RIGOL autorisiertem Personal durchgeführt werden. Belüftung sicherstellen. Unzureichende Belüftung kann zu Temperaturanstiegen und somit zu thermischen Schäden am Gerät führen. Stellen Sie deswegen die Belüftung sicher und kontrollieren regelmäßig Lüfter und Belüftungsöffnungen. Nicht in feuchter Umgebung betreiben. Zur Vermeidung von Kurzschluß im Geräteinneren und Stromschlag betreiben Sie das Gerät bitte niemals in feuchter Umgebung. Nicht in explosiver Atmosphäre betreiben. Zur Vermeidung von Personen- und Sachschäden ist es unumgänglich, das Gerät ausschließlich fernab jedweder explosiven Atmosphäre zu betreiben. Geräteoberflächen sauber und trocken halten. Um den Einfluß von Staub und Feuchtigkeit aus der Luft auszuschließen, halten Sie bitte die Geräteoberflächen sauber und trocken. Schutz gegen elektrostatische Entladung (ESD). Sorgen Sie für eine elektrostatisch geschützte Umgebung, um somit Schäden und Funktionsstörungen durch ESD zu vermeiden. Erden Sie vor dem Anschluß immer Innen- und Außenleiter der Verbindungsleitung, um statische Aufladung zu entladen. Die richtige Verwendung desAkku. Wenneine Batterieverwendet wird, vermeiden Sie hohe Temperaturen bzw. Feuer ausgesetzt werden.Bewahren Sie es außerhalbder Reichweitevon Kindern auf.UnsachgemäßeÄnderung derBatterie(Anmerkung:Lithium-Batterie)kann zu einer Explosion führen. VerwendenSie nur von RIGOLangegebenenAkkus. Sicherer Transport. Transportieren Sie das Gerät sorgfältig (Verpackung!), um Schäden an Bedienelementen, Anschlüssen und anderen Teilen zu vermeiden. DG4000 Series User’s Guide VII RIGOL Sicherheits Begriffe und Symbole Begriffe in diesem Guide. Diese Begriffe können in diesem Handbuch auftauchen: WARNING Die Kennzeichnung WARNING beschreibt Gefahrenquellen die leibliche Schäden oder den Tod von Personen zur Folge haben können. CAUTION Die Kennzeichnung Caution (Vorsicht) beschreibt Gefahrenquellen die Schäden am Gerät hervorrufen können. Begriffe auf dem Produkt. Diese Bedingungen können auf dem Produkt erscheinen: DANGER WARNING CAUTION weist auf eine Verletzung oder Gefährdung hin, die sofort geschehen kann. weist auf eine Verletzung oder Gefährdung hin, die möglicherweise nicht sofort geschehen. bedeutet, dass eine mögliche Beschädigung des Instruments oder anderer Gegenstände auftreten kann. Symbole auf dem Produkt. erscheinen: GefährlicheS pannung VIII SicherheitsHinweis Diese Symbole können auf dem Produkt Schutz-erde Gehäusemasse Erde DG4000 Series User’s Guide RIGOL General Care and Cleaning General Care: Do not store or leave the instrument in where the instrument will be exposed to direct sunlight for long periods of time. Cleaning: Clean the instrument regularly according to its operating conditions. To clean the exterior surface, perform the following steps: 1. Disconnect the instrument from all power sources. 2. Clean the loose dust on the outside of the instrument with a lint- free cloth (with a mild detergent or water). When cleaning the LCD, take care to avoid scarifying it. CAUTION To avoid damages to the instrument, do not expose them to liquids which have causticity. WARNING To avoid injury resulting from short circuit, make sure the instrument is completely dry before reconnecting to a power source. DG4000 Series User’s Guide IX RIGOL Environmental Considerations The following symbol indicates that this product complies with the requirements in WEEE Directive 2002/96/EC. Product End-of-Life Handling The equipment may contain substances that could be harmful to the environment or human health. In order to avoid release of such substances into the environment and harm to human health, we encourage you to recycle this product in an appropriate system that will ensure that most of the materials are reused or recycled appropriately. Please contact your local authorities for disposal or recycling information. X DG4000 Series User’s Guide RIGOL DG4000 Series Overview DG4000 is a dual-channel economical, high-performance and multifunctional generator that combines many functions in one, including Function Generator, Arbitrary Waveform Generator, Pulse Generator, Harmonics Generator, Analog/Digital modulator and Counter. All the models of DG4000 provide two channels with equivalent functions and adjustable phase between the two channels. Main Features: Adopt the Direct Digital Synthesizer (DDS) technology and provide stable, precise, pure and low distortion signals. 7 inches, 16M true color TFT LCD, displaying parameters and graphics of the two channels at the same time. 160MHz, 100MHz or 60MHz maximum output frequency (for Sine), 500MSa/s sample rate, 14bits vertical resolution. Precisely adjust the phases of the two channels. 150 waveforms or functions: Sine, Square, Ramp, Pulse, Noise, Sinc, Exponential Rise, Exponential Fall, ECG, Gauss, Haversine, Lorentz, Dual Tones, Harmonics, Video Signal, Radar Signal, DC etc. Enable to edit 16kpts arbitrary waveform and support point by point output of arbitrary waveform. Rise Time and Fall Time of the Pulse could be adjusted separately. Enable to output harmonic with specified order and amplitude, enable to output up to 16th order of harmonic. Support to superpose Gauss Noise onto basic waveforms. Various modulation types: AM, FM, PM, ASK, FSK, PSK, BPSK, QPSK, 3FSK, 4FSK, OSK and PWM modulations. Support frequency sweep and Burst output. Dual channels can perform internal/external modulation and internal/external/manual trigger separately or at the same time. Dual channels can output sync signal separately or at the same time. Support to enable Frequency Coupling, Phase Coupling and Amplitude Coupling separately or at the same time. Provide 7digits/s, 200MHz counter; enable to measure various parameters of external signal such as frequency, period, duty cycle, positive pulse width and negative pulse width; provide statistic function of measurement results. Support waveform copy and state copy between channels. Enable to store and recall 10 arbitrary waveform data files and 10 instrument DG4000 Series User’s Guide XI RIGOL XII state files as well as recall Csv and Txt files stored in USB storage device. Plenty of standard interfaces: USB Host, USB Device and LAN Abundant I/O: waveform output, sync signal output, modulation input, 10MHz clock input/output, trigger input/output. Support USB storage device using FAT file system. Support remote control through 10/100M Ethernet web. Conform to LXI-C instrument standards (Version 1.2). Provide Chinese and English built-in help and input methods. Provide powerful waveform editing PC software. Provide security lock hole. DG4000 Series User’s Guide RIGOL Document Overview Subjects in this Manual: Chapter 1 Quick Start This chapter introduces the front/rear panel, user interface and parameter setting method, as well as announcements during first use of the instrument. Chapter 2 Basic Waveform Output This chapter introduces how to output basic waveforms, e.g. Sine and Square. Chapter 3 Arbitrary Waveform Output This chapter introduces how to output built-in or user-defined waveforms. Chapter 4 Harmonics Output This chapter introduces how to output harmonics with specified order. Chapter 5 Modulated Waveform Output This chapter introduces how to output modulated waveforms, e.g. AM, FSK and PWM. Chapter 6 Sweep This chapter introduces how to generate a frequency Sweep. Chapter 7 Burst This chapter introduces how to generate a Burst waveform. Chapter 8 Counter This chapter introduces how to use the counter. Chapter 9 Store and Recall This chapter introduces how to store and recall the waveform data or the instrument state settings. Chapter 10 Utility and System Settings This chapter introduces some utility functions and setting methods of system parameters. Chapter 11 Remote Control This chapter introduces how to control the instrument remotely. Chapter 12 Troubleshooting This chapter lists commonly encountered failures that may appear during the use of the generator and their solutions. DG4000 Series User’s Guide XIII RIGOL Chapter 13 Specifications This chapter lists the performances and general specifications of the instrument. Chapter 14 Appendix This chapter provides the information about the options and accessories, as well as other points for attention. Format Conventions in this Manual: 1. Buttons: The function key at the front panel is denoted by the format of “Text Box + Button Name (Bold)” in the manual, for example, Sine. 2. Menu Softkey: The menu softkey is denoted by the format of “Character Shading + Menu Word (Bold)” in the manual, for example, Freq. 3. Connector The connector at the front or rear panel is denoted by the format of “Brackets+Connector Name (Bold)” in the manual, for example, [Sync]. 4. Operation Steps: The next step of the operation is denoted by an arrow “” in the manual. For example, Sine Freq represents pressing the function key Sine at the front panel and then pressing the menu softkey Freq. Content Conventions in this Manual: DG4000 series cover the following models. This manual takes DG4162 as an example. XIV Model Channels Max. Frequency Sample Rate DG4062 2 60MHz 500MSa/s DG4102 2 100MHz 500MSa/s DG4162 2 160MHz 500MSa/s DG4000 Series User’s Guide RIGOL Contents Guaranty and Declaration .........................................................................I Safety Requirement ................................................................................ II General Safety Summary ........................................................................... II Safety Terms and Symbols ........................................................................ V Allgemeine Sicherheits Informationen ........................................................ VI Sicherheits Begriffe und Symbole ............................................................VIII General Care and Cleaning ....................................................................... IX Environmental Considerations .................................................................... X DG4000 Series Overview........................................................................ XI Document Overview............................................................................ XIII Chapter 1 Quick Start ......................................................................... 1-1 General Inspection ................................................................................ 1-2 To Adjust the Supporting Legs ................................................................ 1-3 Appearance and Dimensions ................................................................... 1-4 Front Panel ........................................................................................... 1-6 Rear Panel ...........................................................................................1-13 To Connect to Power.............................................................................1-16 To Replace the Fuse .............................................................................1-17 User Interface ......................................................................................1-18 Parameter Setting Method .....................................................................1-21 Numeric Keyboard..........................................................................1-21 Direction keys and Knob .................................................................1-22 To Use the Built-In Help ........................................................................1-23 To Use the Security Lock .......................................................................1-24 To Use the Rack Mount Kit ....................................................................1-25 Kit Parts List ..................................................................................1-25 Installation Tool .............................................................................1-26 Installation Space ..........................................................................1-27 Installation Procedure ....................................................................1-29 Chapter 2 Basic Waveform Output ..................................................... 2-1 To Select Output Channel ....................................................................... 2-2 DG4000 Series User’s Guide XV RIGOL To Select Basic Waveform ....................................................................... 2-3 To Set Frequency ................................................................................... 2-4 To Set Amplitude.................................................................................... 2-5 To Set DC Offset Voltage ......................................................................... 2-7 To Set Start Phase.................................................................................. 2-8 Align Phase ........................................................................................... 2-9 To Set Duty Cycle ................................................................................. 2-11 To Set Symmetry.................................................................................. 2-12 To Set Parameters for Pulse .................................................................. 2-13 Pulse Width/Duty Cycle .................................................................. 2-13 Leading/Trailing Edge Time............................................................. 2-14 Delay ........................................................................................... 2-15 Recover Delay ............................................................................... 2-15 To Enable Output ................................................................................. 2-17 Basic Waveform Output Example ........................................................... 2-18 Chapter 3 Arbitrary Waveform Output ............................................... 3-1 To Enable Arbitrary Waveform ................................................................. 3-2 Point By Point Output Mode .................................................................... 3-3 To Select Arbitrary Waveform .................................................................. 3-4 Built-In Waveform............................................................................ 3-4 Stored Waveform ............................................................................. 3-9 Volatile Waveform ............................................................................ 3-9 To Create New Arbitrary Waveform ........................................................ 3-10 Example: Edit Points ...................................................................... 3-13 Example: Edit Block ....................................................................... 3-15 To Edit Arbitrary Waveform ................................................................... 3-17 Chapter 4 Harmonic Output ............................................................... 4-1 Overview............................................................................................... 4-2 To Set Fundamental Waveform Parameters ............................................... 4-2 To Set Harmonic Order ........................................................................... 4-3 To Select Harmonic Type ......................................................................... 4-3 To Set Harmonic Amplitude ..................................................................... 4-4 To Set Harmonic Phase ........................................................................... 4-5 Chapter 5 Modulated Waveform Output ............................................ 5-1 AM ....................................................................................................... 5-2 To Select AM Modulation .................................................................. 5-2 XVI DG4000 Series User’s Guide RIGOL To Select Carrier Waveform Shape .................................................... 5-2 To Set Carrier Frequency ................................................................. 5-2 To Select Modulating Waveform Source ............................................. 5-3 To Set Modulating Waveform Frequency ............................................ 5-4 To Set Modulation Depth ................................................................. 5-4 FM ....................................................................................................... 5-5 To Select FM Modulation .................................................................. 5-5 To Select Carrier Waveform Shape .................................................... 5-5 To Set Carrier Frequency ................................................................. 5-5 To Select Modulating Waveform Source ............................................. 5-6 To Set Modulating Waveform Frequency ............................................ 5-7 To Set Frequency Deviation.............................................................. 5-7 PM ....................................................................................................... 5-8 To Select PM Modulation .................................................................. 5-8 To Select Carrier Waveform Shape .................................................... 5-8 To Set Carrier Frequency ................................................................. 5-8 To Select Modulating Waveform Source ............................................. 5-9 To Set Modulating Waveform Frequency ........................................... 5-10 To Set Phase Deviation ...................................................................5-10 ASK.....................................................................................................5-11 To Select ASK Modulation ...............................................................5-11 To Select Carrier Waveform Shape ...................................................5-11 To Set Carrier Amplitude .................................................................5-11 To Select Modulating Waveform Source ............................................ 5-12 To Set ASK Rate.............................................................................5-12 To Set Modulating Amplitude ...........................................................5-13 To Set Modulating Polarity ..............................................................5-13 FSK .....................................................................................................5-14 To Select FSK Modulation ................................................................5-14 To Select Carrier Waveform Shape ...................................................5-14 To Set Carrier Frequency ................................................................5-14 To Select Modulating Waveform Source ............................................ 5-15 To Set FSK Rate .............................................................................5-16 To Set Hop Frequency ....................................................................5-16 To Set Modulating Polarity ..............................................................5-16 PSK .....................................................................................................5-17 To Select PSK Modulation................................................................5-17 DG4000 Series User’s Guide XVII RIGOL To Select Carrier Waveform Shape................................................... 5-17 To Set Carrier Phase ...................................................................... 5-17 To Select Modulating Waveform Source............................................ 5-18 To Set PSK Rate ............................................................................ 5-18 To Set PSK Phase........................................................................... 5-19 To Set Modulating Polarity .............................................................. 5-19 BPSK .................................................................................................. 5-20 To Select BPSK Modulation ............................................................. 5-20 To Select Carrier Waveform Shape................................................... 5-20 To Set Carrier Phase ...................................................................... 5-20 To Select Modulating Waveform Source............................................ 5-21 To Set BPSK Rate........................................................................... 5-21 To Set BPSK Phase......................................................................... 5-22 QPSK .................................................................................................. 5-23 To Select QPSK Modulation ............................................................. 5-23 To Select Carrier Waveform Shape................................................... 5-23 To Set Carrier Phase ...................................................................... 5-23 To Select Modulating Waveform Source............................................ 5-24 To Set QPSK Rate .......................................................................... 5-24 To Set QPSK Phases ....................................................................... 5-24 3FSK ................................................................................................... 5-25 To Select 3FSK Modulation.............................................................. 5-25 To Select Carrier Waveform Shape................................................... 5-25 To Set Carrier Frequency ................................................................ 5-25 Modulation Source ......................................................................... 5-26 To Set 3FSK Rate ........................................................................... 5-26 To Set Hop Frequencies .................................................................. 5-26 4FSK ................................................................................................... 5-27 To Select 4FSK Modulation.............................................................. 5-27 To Select Carrier Waveform Shape................................................... 5-27 To Set Carrier Frequency ................................................................ 5-27 Modulation Source ......................................................................... 5-28 To Set 4FSK Rate ........................................................................... 5-28 To Set Hop Frequencies .................................................................. 5-28 OSK .................................................................................................... 5-29 To Select OSK Modulation ............................................................... 5-29 To Select Carrier Waveform Shape................................................... 5-30 XVIII DG4000 Series User’s Guide RIGOL To Set Carrier Frequency ................................................................5-30 To Select Modulating Waveform Source ............................................ 5-30 To Set OSK Rate ............................................................................5-31 To Set Oscillate Period ....................................................................5-31 PWM ...................................................................................................5-32 To Select PWM Modulation ..............................................................5-32 To Select Carrier Waveform Shape ...................................................5-32 To Set Pulse Width/Duty Cycle ........................................................5-32 To Select Modulating Waveform Source ............................................ 5-33 To Set Modulating Waveform Frequency ........................................... 5-33 To Set Pulse Width/Duty Cycle Deviation .......................................... 5-34 Chapter 6 Sweep ................................................................................ 6-1 To Enable Frequency Sweep ................................................................... 6-2 Start Frequency and End Frequency ........................................................ 6-2 Center Frequency and Frequency Span .................................................... 6-3 Sweep Type .......................................................................................... 6-4 Linear Sweep.................................................................................. 6-4 Log Sweep ..................................................................................... 6-5 Step Sweep .................................................................................... 6-6 Sweep Time .......................................................................................... 6-7 Return Time.......................................................................................... 6-8 Mark Frequency .................................................................................... 6-8 Start Hold ............................................................................................. 6-9 End Hold .............................................................................................6-10 Sweep Trigger Source ...........................................................................6-10 Trigger Output Edge .............................................................................6-11 Chapter 7 Burst .................................................................................. 7-1 To Enable Burst Mode ............................................................................ 7-2 Burst Type ............................................................................................ 7-2 N Cycle Burst.................................................................................. 7-2 Infinite Burst .................................................................................. 7-3 Gated Burst .................................................................................... 7-4 Burst Phase .......................................................................................... 7-6 Burst Period .......................................................................................... 7-6 Gated Polarity ....................................................................................... 7-6 Burst Delay ........................................................................................... 7-7 DG4000 Series User’s Guide XIX RIGOL Burst Trigger Source ............................................................................... 7-7 Trigger Output Edge ............................................................................... 7-8 Chapter 8 Counter.............................................................................. 8-1 To Enable the Counter ............................................................................ 8-2 To Set the Counter ................................................................................. 8-3 Statistic ................................................................................................. 8-5 Chapter 9 Store and Recall ................................................................ 9-1 Storage System Overview ....................................................................... 9-2 To Select File Type ................................................................................. 9-4 To Select Browser Type ........................................................................... 9-5 File Operation ........................................................................................ 9-6 Save ............................................................................................... 9-6 Recall ............................................................................................. 9-8 Copy .............................................................................................. 9-9 Paste .............................................................................................. 9-9 Delete ............................................................................................ 9-9 New Directory ............................................................................... 9-10 Chapter 10 Utility and System Settings ....................................... 10-1 Overview............................................................................................. 10-2 Channel Setting ................................................................................... 10-3 Sync ............................................................................................. 10-3 Sync Polarity ................................................................................. 10-4 Output Polarity .............................................................................. 10-5 Resistance Setting ......................................................................... 10-5 Noise Setting................................................................................. 10-6 Noise Scale ................................................................................... 10-6 To Use the External Power Amplifier (Option) ......................................... 10-7 To Configure the Remote Interface ...................................................... 10-12 LAN Setting ................................................................................. 10-12 To Set USB Device Type ............................................................... 10-17 System Setting................................................................................... 10-18 Number Format ........................................................................... 10-18 Language ................................................................................... 10-19 Power On Setting......................................................................... 10-19 Power Setting.............................................................................. 10-19 Brightness .................................................................................. 10-20 XX DG4000 Series User’s Guide RIGOL Beeper ........................................................................................ 10-20 Screen Saver ............................................................................... 10-20 Clock Source ............................................................................... 10-20 System Information...................................................................... 10-22 Print.................................................................................................. 10-23 Test/Cal ............................................................................................. 10-25 Channel Coupling ............................................................................... 10-26 Channel Copy..................................................................................... 10-29 User-defined Waveform Key ................................................................ 10-30 Restore Default .................................................................................. 10-32 Chapter 11 Remote Control .......................................................... 11-1 Remote Control Overview ......................................................................11-2 Remote Control Mode ...........................................................................11-3 User-defined Programming .............................................................11-3 To Use PC Software ........................................................................11-7 Chapter 12 Troubleshooting ......................................................... 12-1 Chapter 13 Specifications............................................................. 13-1 Chapter 14 Appendix .................................................................... 14-1 Appendix A: Options and Accessories .....................................................14-1 Appendix B: Power Amplifier Specifications ............................................. 14-2 Appendix C: Warranty ...........................................................................14-4 Index ....................................................................................................... 1 DG4000 Series User’s Guide XXI Chapter 1 Quick Start RIGOL Chapter 1 Quick Start This chapter introduces the front/rear panel, user interface and parameter setting method, as well as announcements during first use of the instrument. Subjects in this chapter: General Inspection To Adjust the Supporting Legs Dimensions Front Panel Rear Panel To Connect to Power To Replace the Fuse User Interface Parameter Setting Method To Use the Built-In Help To Use the Security Lock To Use the Rack Mount Kit DG4000 Series User’s Guide 1-1 RIGOL Chapter 1 Quick Start General Inspection 1. Inspect the shipping container for damage. If there are damages in the container or foam, keep them until the whole machine and the accessories pass the electrical and mechanical tests. If your instrument has damaged during shipping, please contact your shipper and carrier for compensation. RIGOL will provide no free repair or replacement. 2. Inspect the instrument. In case of any mechanical damage or defect, or if the instrument does not operate properly or pass the electrical and mechanical tests, contact your local sales representative of RIGOL. 3. Check the Accessories If the contents are incomplete or damaged, please contact your local sales representative of RIGOL. 1-2 DG4000 Series User’s Guide RIGOL Chapter 1 Quick Start To Adjust the Supporting Legs DG4000 allows users to unfold the supporting legs as stands to tilt the generator upwards for easier operation and observation during operation (as shown in Figure 1-1). Users can fold the supporting legs for easier storage or carry when the instrument is not in use (as shown in Figure 1-2). Supporting Legs Figure 1-1 Unfold the Supporting Legs Figure 1-2 Fold the Supporting Legs DG4000 Series User’s Guide 1-3 RIGOL Chapter 1 Quick Start Appearance and Dimensions The appearance and dimensions of DG4000 are as shown in Figure 1-3 and Figure 1-4 and the unit is mm. Figure 1-3 Front View 1-4 DG4000 Series User’s Guide RIGOL Chapter 1 Quick Start 153 160.7 116.7 104.9 100 12 Figure 1-4 Side View DG4000 Series User’s Guide 1-5 RIGOL Chapter 1 Quick Start Front Panel The front panel of DG4000 is shown below. 18. LCD 1. Power Key 2. USB Host 17. Shortcuts/Utility 16. Return 3. Menu Softkey 15. Modes 14. Waveforms 5. CH1 Output 4. Page Up/Down 6. CH1 Sync Output 13. Direction 12. Knob Keys 7. CH2 Output 8. CH2 Sync Output 9. Channels Control 10. Counter 11. Numeric Keyboard Figure 1-5 DG4000 Front Panel 1. Power Key The power softkey is used to turn the generator on or off. When the power softkey is turned off, the generator is in standby mode and the generator is in power-off mode only when the power cable at the rear panel is pulled out. Users can enable or disable the function of this softkey. When enabled, users need to press this softkey to start the instrument after power-on; when disabled, the instrument starts automatically after power-on. 2. USB Host Support FAT file format USB storage device. Read the waveform or state files from the USB storage device, or store the current instrument state and edited waveform data into the USB storage device, or store the content currently displayed on the screen in specified picture format (.Bmp or .Jpeg) in USB storage device. 1-6 DG4000 Series User’s Guide Chapter 1 Quick Start RIGOL 3. Menu Softkey Correspond to the left menus respectively. Press any softkey to activate the corresponding menu. 4. Page Up/Down Open the previous or next page of the current function menu. 5. CH1 Output BNC connector with 50Ω nominal output impedance. When Output1 is enabled (the backlight turns on), this connector output waveform according to the current configuration of CH1. 6. CH1 Sync Output BNC connector with 50Ωnominal output impedance. When the sync output of CH1 is enabled, this connector outputs the sync signal corresponding to the current settings of CH1 (refer to the introduction in Sync). 7. CH2 Output BNC connector with 50Ωnominal output impedance. When Output2 is enabled (the backlight turns on), this connector output waveform according to the current configuration of CH2. 8. CH2 Sync Output BNC connector with 50Ωnominal output impedance. When the sync output of CH2 is enabled, this connector outputs the sync signal corresponding to the current settings of CH2 (refer to the introduction in Sync). 9. Channels Control CH1: used to select CH1. When CH1 is selected (the backlight turns on), users can set the waveform and parameters of CH1. CH2: used to select CH2. When CH2 is selected (the backlight turns on), users can set the waveform and parameters of CH2. Trigger1: in sweep or burst mode, it is used to trigger CH1 to generate a DG4000 Series User’s Guide 1-7 RIGOL Chapter 1 Quick Start sweep or burst output manually (only when Output1 is enabled). Trigger2: in sweep or burst mode, it is used to trigger CH2 to generate a sweep or burst output manually (only when Output2 is enabled). Output1: enable or disable the output of CH1. Output2: enable or disable the output of CH2. CH1 CH2: execute channel copy (refer to the introductions in Channel Copy). 10. Counter Press Counter to turn the counter on or off. When the counter is turned on, the backlight of the key is illuminated and the left indicator flickers. If the counter interface is currently displayed, press this key again to disable counter function; if the screen currently displays interfaces other than the counter interface, press this key again to switch to counter interface (refer to the introductions in Counter). 11. Numeric Keyboard It is used to input parameters and consists of numbers (0 to 9), decimal point (.), operators (+/-) and buttons (“Enter”, “Cancel” and “Del”). If a negative is required, please input an operator “-” before the numbers. In addition, the decimal point “.” can be used to switch units quickly and the operators “+/-” can be used to switch between uppercase and lowercase (for the use method of the numeric keyboard, refer to the introduction in Parameter Setting Method). 12. Knob During parameter setting, it is used to increase (clockwise) or decrease (counterclockwise) the current highlighted number. It is used to select file storage location or select the file to be recalled when storing or recalling file. It is used to switch the character in the soft keyboard when entering filename. It is used to select built-in waveform when defining the shortcut waveform of User. 1-8 DG4000 Series User’s Guide Chapter 1 Quick Start RIGOL 13. Direction Keys When using the knob and direction keys to set parameters, the direction keys are used to switch the digits of the number. During filename input, they are used to move the cursor. 14. Waveforms Sine----Sine Generate a Sine waveform with frequency from 1μHz to 160MHz. When the function is enabled, the backlight of the button turns on. Enable to change Frequency/Period, Amplitude/High Level, Offset/Low Level and Start Phase of the Sine waveform. Square----Square Generate a Square waveform with frequency from 1μHz to 50MHz and variable duty cycle. When the function is enabled, the backlight of the button turns on. Enable to change Frequency/Period, Amplitude/High Level, Offset/Low Level, Duty Cycle and Start Phase of the Square waveform. Ramp----Ramp Generate a Ramp waveform with frequency from 1μHz to 4MHz and variable symmetry. When the function is enabled, the backlight of the button turns on. Enable to change Frequency/Period, Amplitude/High Level, Offset/Low Level, Symmetry and Start Phase of the Ramp waveform. Pulse----Pulse Generate a Pulse waveform with frequency from 1μHz to 40MHz and variable pulse width and edge time. When the function is enabled, the backlight of the button turns on. Enable to change Frequency/Period, Amplitude/High Level, Offset/Low Level, Pulse Width/Duty Cycle, Leading Edge Time, Trailing Edge Time and Delay of the Pulse waveform. Noise----Noise Generate a Gauss Noise with 120MHz bandwidth. When the function is enabled, the backlight of the button turns on. DG4000 Series User’s Guide 1-9 RIGOL Chapter 1 Quick Start Enable to change Amplitude/High Level and Offset/Low Level of the Noise. Arb----Arbitrary Waveforms Generate an arbitrary waveform with frequency from 1μHz to 40MHz. Provide point by point output mode. Generate 150 built-in waveforms: DC, Sinc, Exponential Rise, Exponential Fall, ECG, Gauss, Haversine, Lorentz, Pulse, Dual-Tone etc.; output arbitrary waveforms stored in USB storage device. Generate arbitrary waveforms (16 kpts) edited from the front panel or through PC software and then downloaded to the instrument by the users. When the function is enabled, the backlight of the button turns on. Enable to change Frequency/Period, Amplitude/High Level, Offset/Low Level and Start Phase of the arbitrary waveform. Harmonic——Harmonic Generate harmonics with frequency from 1μHz to 80MHz. Output up to 16th order of harmonic. Users can set the harmonic “Order”, “Type”, “Ampl” and “Phase”. User----User-defined Waveform Key Users can define the frequently used built-in waveform or stored waveform as shortcut (Utility UserKey). And then, in any operation interface, press User to quickly open the desired waveform and set its parameters. 15. Modes Mod----Modulation Generate the modulated waveforms. Provide various analog modulation and digital modulation modes and can generate AM, FM, PM, ASK, FSK, PSK, BPSK, QPSK, 3FSK, 4FSK, OSK or PWM modulated signal. Support internal and external modulations. Sweep----Sweep Generate the frequency sweeping signal of Sine, Square, Ramp and Arbitrary Waveforms (except DC). Support three sweep types: Linear, Log and Step. Support three trigger sources: Internal, External and Manual. 1-10 DG4000 Series User’s Guide Chapter 1 Quick Start RIGOL Provide the “Mark” function. When the function is enabled, the backlight of the button turns on. Burst----Burst Generate burst waveforms of Sine, Square, Ramp, Pulse and Arbitrary waveform (except DC). Support three burst types: N Cycle, Infinite and Gated. Noise can also be used to generate Gated burst. Support three trigger sources: Internal, External and Manual. When the function is enabled, the backlight of the button turns on. Note: when the instrument is working in remote mode, you can return it back to local mode by pressing Burst. 16. Return This key is used to return to the previous menu. 17. Shortcuts/Utility Print: used to execute print function. Save the content shown on the screen as image in USB storage device. Edit: this key is the shortcut of “Arb Edit Wform” and is used to enter the ArbEdit interface quickly. Preset: used to return the instrument state to default or user-defined states (refer to the introduction in Restore Default). Utility: used to set the system parameters. When this function is enabled, the backlight of the button turns on. Store: store or recall the instrument state or user-defined arbitrary data. Support normal file operations. Provide a built-in non-volatile memory (C Disk) and an external USB storage device (D Disk). When the function is enabled, the backlight of the button turns on. Help: to get context help information about any front-panel key or menu softkey, press this key until it is illuminated and then press the desired key. DG4000 Series User’s Guide 1-11 RIGOL Chapter 1 Quick Start 18. LCD 800 × 480 TFT color LCD is used to display the current function menu and parameters setting, system state as well as prompt messages. CAUTION Overvoltage protection of the output channel will take effect once any of the following conditions is met. Amplitude setting in the generator is greater than 4Vpp; the input voltage is greater than ±11.25V (±0.1V) and frequency is lower than 10kHz. Amplitude setting in the generator is lower than or equal to 4Vpp; the input voltage is greater than ±4.5V (±0.1V) and frequency is lower than 10kHz. The message “OverLoad protect, The output is off!” will appear on the screen when overvoltage protection takes effect. 1-12 DG4000 Series User’s Guide RIGOL Chapter 1 Quick Start Rear Panel The rear panel of DG4000 is as shown in the figure below. 8. 7. 6. 5. 4. 3. 2. 1. Figure 1-6 DG4000 Rear Panel 1. AC Power Input This generator can accept AC power supply of 100-240V, 45-440Hz. Power Fuse: 250V, T2 A. 2. LAN Connect the generator to the local area network for remote control through this interface. This generator conforms to LXI-C instrument standards and can quickly build test system with other devices to easily realize system integration. 3. Security Lock Hole Users can use the security lock (buy it by themselves) to lock the instrument at a fixed location. DG4000 Series User’s Guide 1-13 RIGOL Chapter 1 Quick Start 4. USB Device PC can be connected through this interface to control the generator remotely through PC software. 5. 10MHz In/Out BNC female connector with 50Ω nominal impedance. The function of this connector is determined by the type of clock used by the generator. DG4000 can use internal or external clock (refer to the introduction in Clock Source ). When internal clock source is used, the connector (used as 10MHz Out) can output 10MHz clock signal generated by the internal crystal oscillator of the generator. When external clock source is used, the connector (used as 10MHz In) accepts a 10MHz external clock signal. This connector is usually used to synchronize multiple instruments (refer to the introduction in Sync). 6. CH1: Mod/FSK/Trig BNC female connector with 50Ω nominal impedance. Its function is determined by the current working mode of CH1. Mod: If AM, FM, PM, PWM or OSK is enabled for CH1 and external modulation source is used, this connector accepts an external modulation signal. FSK: If ASK, FSK or PSK is enabled for CH1 and external modulation source is used, this connector accepts an external modulation signal (users can set the polarity of the signal). Trig In: If CH1 is in sweep or burst mode and external trigger source is used, this connector accepts an external trigger signal (users can set the polarity of the signal). Trig Out: If CH1 is in sweep or burst mode and internal or manual trigger source is used, this connector outputs a trigger signal with specified edge. 7. 1-14 CH2: Mod/FSK/Trig BNC female connector with 50Ω nominal impedance. Its function is determined by the current working mode of CH2. DG4000 Series User’s Guide Chapter 1 Quick Start 8. RIGOL Mod: If AM, FM, PM, PWM or OSK is enabled for CH2 and external modulation source is used, this connector accepts an external modulation signal. FSK: If ASK, FSK or PSK is enabled for CH2 and external modulation source is used, this connector accepts an external modulation signal (users can set the polarity of the signal). Trig In: If CH2 is in sweep or burst mode and external trigger source is used, this connector accepts an external trigger signal (users can set the polarity of the signal). Trig Out: If CH2 is in sweep or burst mode and internal or manual trigger source is used, this connector outputs a trigger signal with specified edge. External Signal Input (Counter) BNC female connector with 50Ω nominal impedance. It is used to accept an external signal to be measured by the counter. DG4000 Series User’s Guide 1-15 RIGOL Chapter 1 Quick Start To Connect to Power DG4000 accepts AC power supply: 100 to 240V, 45Hz to 440Hz. Please use the power cable provided in the accessories to connect the instrument to AC power (as shown in Figure 1-7). At this point, the generator is powered on and the power button at the lower-left corner of the front panel is in breathing state. Figure 1-7 To Connect to Power CAUTION If the power fuse needs to be changed, please return the instrument back to our factory and the RIGOL authorized operator will change it for you. 1-16 DG4000 Series User’s Guide RIGOL Chapter 1 Quick Start To Replace the Fuse To replace the fuse, please use the specified fuse and follow the steps below. 1. 2. 3. 4. 5. Turn off the instrument, cut off the power supply and remove the power cord. Use a small straight screwdriver to prize out the fuse seat. Take out the fuse seat. Replace the specified fuse. Install the fuse seat again. Fuse Seat Fuse Figure 1-8 To Replace the Fuse WARNING To avoid electric shock, please make sure that the instrument has been turned off and the power supply has been cut off before replacing the fuse. Besides, please make sure that the fuse to be installed meets the requirement. DG4000 Series User’s Guide 1-17 RIGOL Chapter 1 Quick Start User Interface DG4000 user interface displays the parameters and waveforms of the two channels at the same time. The figure below is the interface when both CH1 and CH2 select Sine. Different contents will be displayed when different functions are enabled. 4. Channel Configuration 3. Channel State 2. Status Bar 1. Current Function 5. Frequency 6. Amplitude 7. Offset 8. Phase 9. Waveform 10. Counter 11. Menu 12. Menu Page Number Figure 1-9 User Interface 1. Current Function Display the name of the function currently selected. For example, “Sine” indicates that “Sine” waveform function is currently selected and “ArbEdit” indicates that “Arbitrary Waveform Edit” function is currently selected. 2. Status Bar The following indicators would be displayed according to the current configuration. When the instrument is connected into LAN successfully, this indicator will light. When the generator works in remote mode, this indicator will light. When the generator detects connected USB storage device, this indicator will light. 1-18 DG4000 Series User’s Guide Chapter 1 Quick Start RIGOL 3. Channel Status Display areas of CH1 and CH2. Indicate whether the channel is selected and turned on (ON/OFF).The area of the channel currently selected is highlighted and the on/off state of the channel currently turned on is “ON”. Note: When a channel is “Selected”, it does not mean that the channel is turned on. When CH1 is selected, users can configure the parameters of CH1 and the backlight of CH1 turns on. When CH1 is turned on, CH1 can output waveform according to the current configuration and the backlight of Output1 turns on. 4. Channel Configurations Display the current output configuration in each channel, including output resistance, mode and type of modulating source or trigger source. Output Resistance High Impedance: display “HighZ” Load: display the resistance value, the default is “50Ω” Mode Modulation: display “Mod” Sweep: display “Sweep” Burst: display “Burst” Modulating/Trigger Source Type Internal modulating/trigger: display “Internal” External modulating/trigger: display “External” Manual Trigger: display “Manual” 5. Frequency Display the current waveform frequency in each channel. Press the corresponding softkey Freq and use the numeric keyboard or direction keys and knob to modify this parameter. The parameter that can be modified currently will be highlighted and the lightspot above the number indicates current cursor location. 6. Amplitude Display the current waveform amplitude in each channel. Press the corresponding softkey Ampl and use the numeric keyboard or direction keys and knob to modify this parameter. The parameter that can be modified DG4000 Series User’s Guide 1-19 RIGOL Chapter 1 Quick Start currently will be highlighted and the lightspot above the number indicates current cursor location. 7. Offset Display the current waveform DC offset in each channel. Press the corresponding softkey Offset and use the numeric keyboard or direction keys and knob to modify this parameter. The parameter that can be modified currently will be highlighted and the lightspot above the number indicates current cursor location. 8. Phase Display the current waveform phase in each channel. Press the corresponding softkey Start Phase and use the numeric keyboard or direction keys and knob to modify this parameter. The parameter that can be modified currently will be highlighted and the lightspot above the number indicates current cursor location. 9. Waveform Display the currently selected waveform shape in each channel. 10. Counter Only available when the counter is turned on and can display the current measurement state of the counter briefly or in detail. Brief: only display frequency, period and the number of measurements performed. Detail: display the configurations of the counter, five measurement values (Frequency, Period, Duty Cycle, Positive Pulse Width and Negative Pulse Width) and the number of measurements performed. 11. Menu Display the operation menu corresponding to the function currently selected. For example, the “Sine” function menu is displayed in the above figure. 12. Menu Page Number Display the total number of pages and the current page number of the menu, such as “1 of 1” or “1 of 2”. 1-20 DG4000 Series User’s Guide RIGOL Chapter 1 Quick Start Parameter Setting Method Users can use the numeric keyboard or knob and direction keys to set parameters. Numeric Keyboard The numeric keyboard consists of: Number Keys The 0 to 9 number keys are used to directly input the desired parameter value. Decimal Point Press this key to insert a decimal point “.” at the current position of the cursor. Operator Key The operator key “+/-” is used to modify the operator of the parameter. Press this key to set the parameter operator to “-”; press this key again to switch the operator to “+”. Note that the operator key is used to switch between uppercase and lowercase in filename edit. Enter Key Press this key to finish parameter input and add the default unit for the parameter. Cancel Key (1) During parameter input, press this key to clear the input in the active function area and exit parameter input. (2) Turn the display in the active function area off. Del Key (1) During parameter input, press this key to delete the character at the left of the cursor. (2) During filename edit, press this key to delete the characters input. DG4000 Series User’s Guide 1-21 RIGOL Chapter 1 Quick Start Direction keys and Knob Functions of the direction keys: 1. During parameter input, use the direction keys to move the cursor to select the digit to be edited. 2. During filename edit, use the direction keys to move the cursor. Functions of the knob: When the parameter is in editable state, turn the knob to increase (clockwise) or reduce (counterclockwise) the parameter with specified step. 1-22 During filename edit, use the knob to select the characters in the soft keyboard. In Arb Select WformBuiltIn and Utility UserKey, use the knob to select arbitrary waveform. In store and recall, use the knob to select the storage location of the file or to select the file to be recalled. DG4000 Series User’s Guide Chapter 1 Quick Start RIGOL To Use the Built-In Help To get context help information about any front-panel key or menu softkey, press Help to illuminate the key and then press the desired key to get corresponding help. Pressing Help twice will get the following common help. 1. View the last displayed message. 2. View error queue of the remote commands. 3. Get the help information of a key. 4. Generate a basic waveform. 5. Generate an arbitrary waveform. 6. Generate a modulated waveform. 7. Generate a frequency Sweep. 8. Generate a Burst waveform. 9. Storage management. 10. Synchronize multiple Generators. 11. Seamlessly connected with the RIGOL DS. 12. Get technical support from RIGOL. DG4000 Series User’s Guide 1-23 RIGOL Chapter 1 Quick Start To Use the Security Lock Use the security lock (option) to lock the generator at a fixed location. As shown in the figure below, align the lock with the lock hole and plug it into the lock hole vertically, turn the key clockwise to lock the instrument and then pull the key out. Security Lock Hole Figure 1-10 Security Lock Hole 1-24 DG4000 Series User’s Guide RIGOL Chapter 1 Quick Start To Use the Rack Mount Kit This instrument can be installed into a standard 19 inches cabinet. Figure 1-11 Rack Mount Kit Kit Parts List The part list of the rack mount kit (as shown in Figure 1-11) of DG4000 is as shown in the table below. Wherein, the “No.” column corresponds to Figure 1-12 and Figure 1-13. Table 1-1 Kit Parts List No. Name Qty Part No. 1-1 1-2 1-3 1-4 1-5 1-6 2-1 Front Panel Support Board Left Plate Right Plate Pressure Feet Built-in Fitting M4 Screw 1 1 1 1 2 2 18 RM-DG4-01 RM-DG4-02 RM-DG4-03 RM-DG4-04 RM-DG4-05 RM-DG4-06 RM-SCREW-01 2-2 M6 Screw 4 RM-SCREW-02 2-3 M6 Screw 4 RM-SCREW-03 DG4000 Series User’s Guide Description M4 x 6 Phil-Slot Pan Head Machine Screw Nail M6 x 20 Phil-Slot Pan Head Machine Screw Nail M6 x 4 Square Machine Female Screw Contain Lock Blade 1-25 RIGOL Chapter 1 Quick Start Figure 1-12 Parts of Rack Mount Kit 2-1 2-2 2-3 Figure 1-13 Screws and Nuts Installation Tool PH2 Phillips Screwdriver (recommended). 1-26 DG4000 Series User’s Guide Chapter 1 Quick Start RIGOL Installation Space The following requirements must be fulfilled by the machine cabinet in which the instrument is mounted. The machine cabinet must be a standard 19-inch one. At least 4U (177.8 mm) space should be provided by the machine cabinet. The depth inside the machine cabinet should not be less than 180 mm. The dimension of the instrument after being installed is as shown below. DG4000 Series User’s Guide 1-27 RIGOL 1-28 Chapter 1 Quick Start DG4000 Series User’s Guide Chapter 1 Quick Start RIGOL Installation Procedure Only authorized operators can execute the installation operation. Improper installation might result in damage of the instrument or incorrect installation of the instrument on the rack. 1. Install the right and left plates: align the detents of the right and left plates with the openings on the support board and insert them into the support board respectively, then fix them with four M4 screws. 2. Install the front panel of the rack mount kit: fix the front panel onto the frame installed in the previous step using six M4 screws. DG4000 Series User’s Guide 1-29 RIGOL Chapter 1 Quick Start 3. Fix the bottom of the instrument: fix the instrument onto the support board using two pressure feet and four M4 screws. 4. Fix the top of the instrument: fix the top of the instrument using two built-in fittings and four M4 screws. 1-30 DG4000 Series User’s Guide Chapter 1 Quick Start RIGOL 5. Load into the machine cabinet: mount the rack with the instrument fixed to it into a standard 19-inch machine cabinet with four M6 screws and four M6 square nuts. 6. Post-installation notice: the rack occupies a height of 4U. The holes pointed out by the arrows are installation holes. Note that they should be aligned with during installation. DG4000 Series User’s Guide 1-31 Chapter 2 Basic Waveform Output RIGOL Chapter 2 Basic Waveform Output DG4000 can output basic waveforms (including Sine, Square, Ramp, Pulse and Noise) from one of the channels separately or from the two channels at the same time. At start-up, the instrument outputs a sine waveform with 1kHz frequency and 5Vpp amplitude by default. This chapter introduces how to configure the instrument to output various basic waveforms. Subjects in this chapter: To Select Output Channel To Select Basic Waveform To Set Frequency To Set Amplitude To Set DC Offset Voltage To Set Start Phase Align Phase To Set Duty Cycle To Set Symmetry To Set Parameters for Pulse To Enable Output Basic Waveform Output Example DG4000 Series User’s Guide 2-1 RIGOL Chapter 2 Basic Waveform Output To Select Output Channel Users can configure DG4000 to output basic waveform from a single channel or from dual channels at the same time. Please select the desired channel before configuring waveform parameters. At start-up, CH1 is selected by default. Press CH1 or CH2 at the front panel and the corresponding area in the user interface is illuminated. At this point, users can configure the waveform and parameters of the channel selected. Note: CH1 and CH2 can not be selected at the same time. Users can first select CH1 and then select CH2 after configuring the waveform and parameters of CH1. 2-2 DG4000 Series User’s Guide Chapter 2 Basic Waveform Output RIGOL To Select Basic Waveform DG4000 can output 5 kinds of basic waveforms including Sine, Square, Ramp, Pulse and Noise. At start-up, Sine is selected by default. 1. Sine Press Sine at the front panel to select sine waveform and the backlight of the button turns on. At this point, “Sine” and the parameter setting menu of sine waveform are displayed on the right of the user interface. 2. Square Press Square at the front panel to select square waveform and the backlight of the button turns on. At this point, “Square” and the parameter setting menu of square waveform are displayed on the right of the user interface. 3. Ramp Press Ramp at the front panel to select ramp waveform and the backlight of the button turns on. At this point, “Ramp” and the parameter setting menu of ramp waveform are displayed on the right of the user interface. 4. Pulse Press Pulse at the front panel to select pulse and the backlight of the button turns on. At this point, “Pulse” and the parameter setting menu of pulse are displayed on the right of the user interface. 5. Noise Press Noise at the front panel to select noise and the backlight of the button turns on. At this point, “Noise” and the parameter setting menu of noise are displayed on the right of the user interface. DG4000 Series User’s Guide 2-3 RIGOL Chapter 2 Basic Waveform Output To Set Frequency Frequency is one of the most important parameters of basic waveforms. For different instrument models and different waveforms, the setting ranges of frequency are different. For detailed information, please refer to “Frequency Characteristics” in Specifications. The default frequency is 1kHz. The frequency displayed on the screen is the default value or the frequency previously set. When the instrument function is changed, if this frequency is valid under the new function, the instrument will still use this frequency; otherwise, the instrument would display prompt message and set the frequency to the frequency upper limit of the new function automatically. Press Freq/Period to highlight “Freq”. At this point, use the numeric keyboard or direction keys and knob to input the frequency value. Then, select the desired unit from the pop-up menu. For the input method of frequency value, refer to the introduction in Parameter Setting Method. The frequency units available are MHz, kHz, Hz, mHz and μHz. Press this softkey again to switch to period setting. At this point, “Period” is highlighted. The period units available are sec, msec, μsec and nsec. 2-4 DG4000 Series User’s Guide Chapter 2 Basic Waveform Output RIGOL To Set Amplitude The amplitude range is limited by the “Resistance” and “Freq/Period” settings. Please refer to “Output Characteristics” in Specifications. The default value is 5Vpp. The amplitude displayed on the screen is the default value or the amplitude previously set. When the instrument configuration (such as frequency) is changed, if this amplitude is valid, the instrument will still use this amplitude; otherwise, the instrument would display prompt message and set the amplitude to the amplitude upper limit of the new configuration automatically. Users can also use “High Level” or “Low Level” to set the amplitude. Press Ampl/HiLevel to highlight “Ampl”, and then use the numeric keyboard or direction keys and knob to input the amplitude value. Then, select the desired unit from the pop-up menu. For the input method of amplitude value, refer to the introduction in Parameter Setting Method. The amplitude units available are Vpp, mVpp, Vrms, mVrms and dBm (valid in HighZ). Press this softkey again to switch to high level setting. At this point, “HiLevel” is highlighted. The high level units available are V and mV. DG4000 Series User’s Guide 2-5 RIGOL Chapter 2 Basic Waveform Output Unit Switch Vpp is the unit for signal peak-peak value and Vrms is the unit for signal effective value. The default unit is Vpp. Users can quickly switch the current amplitude unit from the front panel. For different waveforms, the relations between Vpp and Vrms are different. The relation of the two units is as shown in the figure below (take sine waveform as an example). Vamp Vrms=0.707Vamp Vpp=2Vamp According to the figure above, the conversion relation between Vpp and Vrms fulfills the following equation: Vpp = 2 2Vrms For example, to convert 2Vpp to the corresponding value in Vrms, press · in the numeric keyboard and select Vrms menu. For sine waveform, the converted value is 707.2mVrms. 2-6 DG4000 Series User’s Guide Chapter 2 Basic Waveform Output RIGOL To Set DC Offset Voltage The DC offset range is limited by the “Resistance” and “Ampl/HiLevel” settings. Please refer to the “Output Characteristics” in Specifications. The default value is 0VDC. The DC offset voltage displayed on the screen is the default value or the offset previously set. When the instrument configuration (such as resistance) is changed, if this offset is valid, the instrument will still use this offset; otherwise, the instrument would display prompt message and set the offset to the offset upper limit of the new configuration automatically. Press Offset/LoLevel to highlight “Offset”, and then use the numeric keyboard or direction keys and knob to input the offset value. Then, select the desired unit from the pop-up menu. For the input method of offset value, refer to the introduction in Parameter Setting Method. The DC offset voltage units available are VDC and mVDC. Press this softkey again to switch to low level setting. At this point, “LoLevel” is highlighted. The low level units available are V and mV. DG4000 Series User’s Guide 2-7 RIGOL Chapter 2 Basic Waveform Output To Set Start Phase The setting range of start phase is from 0° to 360° and the default is 0°. The start phase displayed on the screen is the default value or the phase previously set. When the instrument function is changed, the new function will still use this phase. Press Start Phase to highlight the softkey, and then use the numeric keyboard or direction keys and knob to input the start phase value. Then, select the unit “°” from the pop-up menu. For the input method of phase value, refer to the introduction in Parameter Setting Method. 2-8 DG4000 Series User’s Guide RIGOL Chapter 2 Basic Waveform Output Align Phase DG4000 series dual-channel generators enable to align the phases of the two channels. Pressing down this softkey will re-configure the two channels, and enable the generator to output with specified frequency and start phase. For two signals whose frequencies are the same or in multiple, this operation will align their phases. For example, assume a sine waveform (1kHz, 5Vpp, 0 °) is output from CH1, while another (1kHz, 5Vpp, 180°) from CH2. Use an oscilloscope to sample and display the two signals, and then toggle the channel output switch of the generator, you will see that the waveforms shown on the oscilloscope do not always have a phase deviation of 180°. At this point, press Align Phase on the generator and the waveforms shown on the oscilloscope will have a phase deviation of 180° without any adjustment of the start phase of the generator. CH1 CH2 Figure 2-1 Before Aligning Phase CH1 CH2 Figure 2-2 After Aligning Phase DG4000 Series User’s Guide 2-9 RIGOL Chapter 2 Basic Waveform Output Note: the Align Phase menu is grayed out and disabled when one of the two channels is in modulation mode. 2-10 DG4000 Series User’s Guide Chapter 2 Basic Waveform Output RIGOL To Set Duty Cycle Duty Cycle is defined as the percentage that the high level takes up in the whole period as shown in the figure below. This parameter is only available when square waveform is selected. Duty Cycle=t/T*100% t T The duty cycle range is limited by the “Freq/Period” setting. Please refer to “Signal Characteristics” in Specifications. The default value is 50%. Press Duty Cycle to highlight the softkey, and then use the numeric keyboard or direction keys and knob to input the duty cycle value. Then, select the unit “%” from the pop-up menu. For the input method of duty cycle value, refer to the introduction in Parameter Setting Method. DG4000 Series User’s Guide 2-11 RIGOL Chapter 2 Basic Waveform Output To Set Symmetry Symmetry is defined as the percentage that the rising period takes up in the whole period as shown in the figure below. This parameter is only available when ramp is selected. Symmetry=t/T*100% t T The setting range of symmetry is from 0% to 100% and the default is 50%. Press Symmetry to highlight the softkey, and then use the numeric keyboard or direction keys and knob to input the symmetry value. Then, select the unit “%” from the pop-up menu. For the input method of symmetry value, refer to the introduction in Parameter Setting Method. 2-12 DG4000 Series User’s Guide RIGOL Chapter 2 Basic Waveform Output To Set Parameters for Pulse To output a pulse, users need to set the “Pulse Width/Duty Cycle”, “Leading edge”, “Trailing edge”, “Delay” and “Recover Delay” in addition to the basic parameters (such as frequency, amplitude, DC offset voltage, start phase, high level, low level and align phase) introduced above. tRise tFall 90% 50% 10% Pulse Width脉宽 Pulse Period Pulse Width/Duty Cycle Pulse Width is defined as the time from the 50% threshold of a rising edge amplitude to the 50% threshold of the next falling edge amplitude as shown in the figure above. Pulse Width range is limited by the “Minimum Pulse Width” and the “Pulse Period” (for the ranges of “Minimum Pulse Width” and “Pulse Period”, please refer to “Signal Characteristics” in Specifications). The default value is 500μs. Pulse Width ≥ Minimum Pulse Width Pulse Width ≤ Pulse Period - Minimum Pulse Width × 2 Pulse Duty Cycle is defined as the percentage that the Pulse Width takes up in the whole period. DG4000 Series User’s Guide 2-13 RIGOL Chapter 2 Basic Waveform Output Pulse Width and Duty Cycle are correlative. Once a parameter is changed, the other will be automatically changed. Pulse Duty Cycle is limited by the “Minimum Pulse Width” and the “Pulse Period”. Pulse Duty Cycle ≥ 100 × Minimum Pulse Width ÷ Pulse Period Pulse Duty Cycle ≤ 100 × (1 - 2 × Minimum Pulse Width ÷ Pulse Period) Press Width/Duty to highlight “Width”, and use the numeric keyboard or direction keys and knob to input the desired value. Then, select the desired unit from the pop-up menu. For the input method of the value, refer to the introduction in Parameter Setting Method. Selectable Pulse Width units: sec, msec, μsec, nsec. Press this softkey again to switch to duty cycle setting (at this point, it is set to 20% automatically). Leading/Trailing Edge Time The Leading (rising) edge time is defined as the duration of the pulse amplitude rising from 10% to 90% threshold, while the Trailing (falling) edge time is defined as the duration of the pulse amplitude moving down from 90% to 10% threshold as shown in the figure above. The range of leading/trailing edge time is limited by the currently specified pulse width limit as shown in the formula below. DG4000 will automatically adjust the edge time to match the specified pulse width if the value currently set exceeds the limit value. Leading/Trailing Edge Time ≤ 0.625 × Pulse Width Press Leading (or Trailing) to highlight the softkey. Use the numeric keyboard or direction keys and knob to input the desired value and select the desired unit from the pop-up menu. For the input method of the value, refer to the introduction in Parameter Setting Method. Selectable Leading/Trailing Edge Time units: sec, msec, μsec, nsec. Leading edge time and trailing edge time are independent from each other and users can set them separately. 2-14 DG4000 Series User’s Guide Chapter 2 Basic Waveform Output RIGOL Delay Delay is defined as the delayed time of the output of a channel relative to the output of the other channel. The range of delay is from 0s to pulse period and the default is 0s. CH1 Output CH2 Output Delay Press Delay to highlight the softkey. Use the numeric keyboard or direction keys and knob to input the desired value and select the desired unit from the pop-up menu. For the input method of the value, refer to the introduction in Parameter Setting Method. Selectable Delay Time units: sec, msec, μsec, nsec. Recover Delay Press Pulse, then use to open the 2/2 menu page and press Restore, the generator will align the delay between the two channels. Assume that CH1 and CH2 output pulse waveforms with the same parameters. Use the oscilloscope to sample the waveforms of the two channels and display them stably. Then, toggle the output switch of the generator. The two waveforms displayed on the oscilloscope have a certain delay. At this point, press Restore on the generator and the waveforms will be displayed on the oscilloscope without any delay. DG4000 Series User’s Guide 2-15 RIGOL Chapter 2 Basic Waveform Output CH1 CH2 Figure 2-3 Before Restore CH1 CH2 Figure 2-4 After Restore Note that Restore is grayed out and disabled if any of the two channels is in modulation mode. 2-16 DG4000 Series User’s Guide Chapter 2 Basic Waveform Output RIGOL To Enable Output After configuring the parameters of the waveform selected, waveform output could be enabled. Note: before enabling waveform output, you can also configure parameters (such as Resistance and Polarity) related to the channel output through “CH1/CH2Set” menu in Utility. For details, please refer to the introduction in Channel Setting. Press Output1 or/and Output2 at the front panel and the backlight of the button turns on. The instrument outputs the configured waveform from the [Output1] or/and [Output2] connector at the front panel. DG4000 Series User’s Guide 2-17 RIGOL Chapter 2 Basic Waveform Output Basic Waveform Output Example Configure the generator to output a pulse waveform with 1.5MHz frequency, 500mVpp amplitude, 5mVDC DC offset, 200ns pulse width, 75ns leading (rising) edge time, 100ns trailing (falling) edge time and 5ns delay. 1. Press CH1 at the front panel and the backlight turns on, indicating that CH1 is selected. 2. Press Pulse at the front panel and the backlight turns on, indicating that Pulse waveform is selected. 3. Press Freq/Period to highlight “Freq”. The lightspot above the number indicates current cursor location (as shown in the figure below). Use the numeric keyboard or direction keys and knob to input the frequency value “1.5” and select the unit “MHz” from the pop-up menu. Figure 2-5 To Set Waveform Parameters 4. 2-18 Press Ampl/HiLevel to highlight “Ampl”. The lightspot above the number indicates current cursor location. Use the numeric keyboard or direction keys and knob to input the amplitude value “500” and select the unit “mVpp” from the pop-up menu. DG4000 Series User’s Guide Chapter 2 Basic Waveform Output RIGOL 5. Press Offset/LoLevel to highlight “Offset”. The lightspot above the number indicates current cursor location. Use the numeric keyboard or direction keys and knob to input the offset value “5” and select the unit “mVDC” from the pop-up menu. 6. Press Width/Duty to highlight “Width”. The lightspot above the number indicates current cursor location. Use the numeric keyboard or direction keys and knob to input “200” and select the unit “nsec” from the pop-up menu. At this point, the pulse duty cycle changes accordingly. 7. Press Leading to highlight it. The lightspot above the number indicates current cursor location. Use the numeric keyboard or direction keys and knob to input “75” and select the unit “nsec” from the pop-up menu. Press Trailing to highlight it. The lightspot above the number indicates current cursor location. Use the numeric keyboard or direction keys and knob to input “100” and select the unit “nsec” from the pop-up menu. 8. Press Delay to highlight it. The lightspot above the number indicates current cursor location. Use the numeric keyboard or direction keys and knob to input “5” and select the unit “nsec” from the pop-up menu. 9. Press Output1 at the front panel to turn CH1 output on. At this point, CH1 outputs waveform with the specified parameters. Connect the output terminal of CH1 to the oscilloscope and the waveform is as shown in the figure below. Figure 2-6 To Output Pulse Waveform DG4000 Series User’s Guide 2-19 Chapter 3 Arbitrary Waveform Output RIGOL Chapter 3 Arbitrary Waveform Output DG4000 provides 150 kinds of built-in arbitrary waveforms stored in non-volatile memory and allows users to store 10 user-defined arbitrary waveforms in non-volatile memory and 1 user-defined arbitrary waveform in volatile memory. Users can also store the user-defined arbitrary waveform in external memory (such as USB storage device). User-defined waveforms can contain 1 (DC voltage) to 16384 (16k) data points, namely 1pts to 16kpts. DG4000 can output the built-in and user-defined arbitrary waveforms from a single channel or from two channels at the same time. This chapter introduces how to configure the generator to output arbitrary waveforms. Subjects in this chapter: To Enable Arbitrary Waveform Point By Point Output Mode To Select Arbitrary Waveform To Create New Arbitrary Waveform To Edit Arbitrary Waveform DG4000 Series User’s Guide 3-1 RIGOL Chapter 3 Arbitrary Waveform Output To Enable Arbitrary Waveform Press Arb to enable arbitrary waveform function and open the operation menu of arbitrary waveform. 1. Freq/Period: set the output “Frequency/Period” of the arbitrary waveform. 2. Ampl/HiLevel: set the output “Amplitude/High Level” of the arbitrary waveform. 3. Offset/LoLevel: set the output “Offset/Low Level” of the arbitrary waveform. 4. Phase: set the “Start Phase” of the arbitrary waveform. 5. Align Phase: refer to Align Phase. 6. Point By Point: enable the point by point output mode of arbitrary waveform. 7. Select Wform: select arbitrary waveform stored in internal or external memory. 8. Create New: users can define waveform with up to 16 kpts. 9. Edit Wform: edit the stored arbitrary waveform. Refer to Basic Waveform Output to configure the parameters and output. This chapter will focus on “Point By Point”, “Select Waveform”, “Create New” and “Edit Waveform”. Tip Users can also press User at the front panel to quickly set arbitrary waveform parameters including frequency/period, amplitude/high level, offset/low level, start phase and align phase. At this point, the waveform output is the waveform defined in Utility UserKey (refer to introduction in User-defined Waveform Key). 3-2 DG4000 Series User’s Guide Chapter 3 Arbitrary Waveform Output RIGOL Point By Point Output Mode DG4000 supports point by point output of arbitrary waveform. Press Arb to open the arbitrary waveform setting menu and press Point By Point to enable the point by point output mode of arbitrary waveform. In point by point output mode, the generator calculates the frequency (30.517578125kHz) of the output signal automatically according to the wave table length (16,384) and sample rate. The generator outputs waveform points one by one at this fixed frequency. Point by point output mode can prevent the loss of important waveform points. DG4000 Series User’s Guide 3-3 RIGOL Chapter 3 Arbitrary Waveform Output To Select Arbitrary Waveform DG4000 allows users to select arbitrary waveforms stored in internal or external memory for output. Press Arb, use to open the 2/2 menu page, and then press Select Wform to select “Builtin”, “Stored Wforms” or “Volatile Wform” for arbitrary waveform output. Built-In Waveform Select from the 150 kinds of built-in arbitrary waveforms of DG4000 as shown in the table below. Press BuiltIn and select a kind (“Common”, “Project”, “SectMod, “Bioelect”, “Medical”, “Standard”, “Maths”, “Trigonome”, “Anti Trigonome” or “Window”); the corresponding waveforms are displayed on the interface; use the knob to select the desired waveform; use to open the 2/2 menu page and press Select to select the specified waveform. Table 3-1 Built-in Waveform Table Name Explanation Common DC DC signal AbsSine Absolute value of a Sine AbsSineHalf Absolute value of half a Sine AmpALT Gain oscillation curve AttALT Attenuation oscillation curve GaussPulse Gauss pulse NegRamp Negative ramp NPulse Negative pulse PPulse Positive pulse SineTra Sine-Tra waveform SineVer Sine-Ver waveform StairDn Stair-down waveform StairUD Stair-up and stair-down waveform StairUp Stair-up waveform Trapezia Trapezoid waveform Project 3-4 DG4000 Series User’s Guide Chapter 3 Arbitrary Waveform Output BandLimited Bandwidth-limited signal BlaseiWave Time-velocity curve of explosive vibration Butterworth Butterworth filter Chebyshev1 Chebyshev1 filter Chebyshev2 Chebyshev2 filter Combin Combination function CPulse C pulse CWPulse CW pulse DampedOsc Time-displacement curve of damped oscillation DualTone Dual-tone signal Gamma Gamma signal GateVibar Gate self-oscillation signal LFMPulse Linear FM pulse MCNoise Mechanical construction noise Discharge Discharge curve of Ni-MH battery Pahcur Current waveform of DC brushless motor Quake Analog quake waveform Radar Analog radar waveform Ripple Ripple wave of battery RoundHalf RoundHalf wave RoundsPM RoundsPM waveform StepResp Step-response signal SwingOsc Kinetic energy- time curve of swing oscillation TV TV signal Voice Voice signal RIGOL Sec-Mod AM Sectioned sine AM signal FM Sectioned sine FM signal PFM Sectioned pulse FM signal PM Sectioned sine PM signal PWM Sectioned PWM signal Bioelect Cardiac Cardiac signal EOG Electro-Oculogram EEG Electroencephalogram EMG Electromyogram DG4000 Series User’s Guide 3-5 RIGOL Chapter 3 Arbitrary Waveform Output Pulseilogram Pulsilogram ResSpeed Speed curve of the respiration Medical LFPulse Waveform of the low frequency pulse electrotherapy Tens1 Waveform 1 of the nerve stimulation electrotherapy Tens2 Waveform 2 of the nerve stimulation electrotherapy Tens3 Waveform 3 of the nerve stimulation electrotherapy Standard Ignition Ignition waveform of the automotive motor ISO16750-2 SP Automotive starting profile with ringing ISO16750-2 VR Automotive supply voltage profile for resetting ISO7637-2 TP1 Automotive transients due to disconnects ISO7637-2 TP2A Automotive transients due to inductance in wiring ISO7637-2 TP2B Automotive transients due ignition switching off ISO7637-2 TP3A Automotive transients due to switching ISO7637-2 TP3B Automotive transients due to switching ISO7637-2 TP4 Automotive supply profile during starting ISO7637-2 TP5A Automotive transients due to battery disconnect ISO7637-2 TP5B Automotive transients due to battery disconnect SCR SCR firing profile Surge Surge signal Math Airy Airy function Besselj BesselI function Bessely BesselII function Cauchy Cauchy distribution function Cubic Cubic function Dirichlet Dirichlet function Erf Error function Erfc Complementary error function ErfcInv Inverted complementary error function ErfInv Inverted error function ExpFall Exponential fall function ExpRise Exponential rise function Gauss Gauss distribution HaverSine HaverSine function 3-6 DG4000 Series User’s Guide Chapter 3 Arbitrary Waveform Output Laguerre 4-times Laguerre polynomial Laplace Laplace distribution Legend 5-times Legend polynomial Log Logarithm function with the base 10 LogNormal Logarithmic Gaussian distribution Lorentz Lorentz function Maxwell Maxwell distribution Rayleigh Rayleigh distribution Versiera Versiera Weibull Weibull distribution ARB_X2 Square function RIGOL Trigonome CosH Hyperbolic cosine CosInt Integral cosine Cot Cotangent CotHCon Concave hyperbolic cotangent CotHPro Protuberant hyperbolic cotangent CscCon Concave cosecant CscPro Protuberant cosecant CscHCon Concave hyperbolic cosecant CscHPro Protuberant hyperbolic cosecant RecipCon Concave reciprocal RecipPro Protuberant reciprocal SecCon Concave secant SecPro Protuberant secant SecH Hyperbolic secant Sinc Sinc function SinH Hyperbolic sine SinInt Integral sine Sqrt Square root Tan Tangent TanH Hyperbolic tangent Anti Trigonome ACos Arc cosine ACosH Arc hyperbolic cosine ACotCon Concave arc cotangent DG4000 Series User’s Guide 3-7 RIGOL Chapter 3 Arbitrary Waveform Output ACotPro Protuberant arc cotangen ACotHCon Concave arc hyperbolic cotangent ACotHPro Protuberant arc hyperbolic cotangent ACscCon Concave arc cosecant ACscPro Protuberant arc cosecant ACscHCon Concave arc hyperbolic cosecant ACscHPro Protuberant arc hyperbolic cosecant ASecCon Concave arc secant ASecPro Protuberant arc secant ASecH Arc hyperbolic secant ASin Arc Sinc ASinH Arc hyperbolic sine ATan Arc tangent ATanH Arc hyperbolic tangent Window Bartlett Bartlett window BarthannWin Modified Bartlett-Hann window Blackman Blackman window BlackmanH BlackmanH window BohmanWin Bohman window Boxcar Rectangle window ChebWin Chebyshev window FlattopWin Flat Top weighted window Hamming Hamming window Hanning Hanning window Kaiser Kaiser window NuttallWin Nuttall-defined minimum 4-term Blackman-Harris window ParzenWin Parzen window TaylorWin Taylor window Triang Triangle window (Fejer window) TukeyWin Tukey (tapered cosine) window 3-8 DG4000 Series User’s Guide Chapter 3 Arbitrary Waveform Output RIGOL Stored Waveform Select arbitrary waveforms stored in internal non-volatile memory (C Disk) or external memory (D Disk). Press this softkey to enter the Store/Recall Interface and the Store key at the front panel is illuminated. Please select and read the desired arbitrary waveform file. For more details, please refer to Store and Recall. Waveform data in volatile memory will be changed after the file is read. To return to arbitrary waveform setting interface, press Arb. Volatile Waveform Select arbitrary waveform currently stored in the volatile memory. Note that this menu would be unavailable if there is no waveform data in volatile memory currently. To fill up the volatile memory, you can create a waveform through “Create New” or select a waveform from “Built-In” or “Stored Wforms”. When “Volatile Wforms” is selected, users can edit the volatile waveform using the Edit Wfrom menu. The new waveform data will overwrite the previous data in the volatile memory. You can also save the new volatile waveform in non-volatile memory. Note: only when Output1 or/and Output2 is pressed and the backlight of the button turns on, can the instrument output the specified arbitrary waveform from the corresponding output terminal. DG4000 Series User’s Guide 3-9 RIGOL Chapter 3 Arbitrary Waveform Output To Create New Arbitrary Waveform Press Arb, use to open the 2/2 menu page, and then press Create New to open the arbitrary waveform creation interface. 1. Cycle Period Press this softkey and use the numeric keyboard or direction keys and knob to set the cycle period of the new waveform. Cycle period is the boundary time of the waveform and the range is from 25.0ns to 1Ms. Note that the time of the last point that can be defined should be lower than the cycle period. 2. High VLimit Press this softkey and use the numeric keyboard or direction keys and knob to set the level upper limit of the new waveform. The level upper limit is the maximum voltage that can be set during waveform edit. The level upper limit must be greater than the “Low VLimit” currently set and lower than or equal to +5V (50Ω). 3. Low VLimit Press this softkey and use the numeric keyboard or direction keys and knob to set the level lower limit of the new waveform. The level lower limit is the minimum voltage that can be set during waveform edit. The level lower limit must be greater than or equal to -5V (50Ω) and lower than the “High VLimit” currently set. 4. Init #Points When creating a new waveform, the waveform editor will automatically create a waveform with two points. By default, point 1 is located at 0 seconds and point 2 at half of the specified cycle period. In addition, the levels of the two points are equal to the specified “Low VLimit”. Press this softkey and use the numeric keyboard or direction keys and knob to set the initial points of the new waveform. DG4000 allows users to create arbitrary waveform with 1 to 16384 (16K) points. If in need, you can “Insert Point” or “Delete Point” later. 3-10 DG4000 Series User’s Guide Chapter 3 Arbitrary Waveform Output RIGOL 5. Interp Press this softkey to enable or disable the interpolation between the defined waveform points. Off: The waveform editor will hold a constant voltage level between two points and create a step waveform. Linear: The waveform editor will automatically connect the two defined points with a straight line. 6. Edit Points Define a waveform by specifying the time and voltage of each waveform point. Press this softkey to enter the “Edit Points” interface. PointID: Set the ID of the point to be edited. The default is 1. You can use the numeric keyboard or direction keys and knob to modify this parameter. Time: Set the time of the current point in a period. This setting is limited by the times of the previous and the next points. Note that the time of point 1 is fixed at 0 s. Voltage: Set the voltage of the current point in mV or V. The range of the voltage is limited by the “High VLimit” and “Low VLimit”. Note that the waveform editor will automatically set the voltage of the last point to the voltage of point 1 to create a continuous waveform. Insert Point: Insert a waveform point at the middle position of the currently edited point and the next edited point. Delete Point: Delete the current point from the waveform and connect the remaining points using the current interpolation method. Note that point 1 cannot be deleted. 7. Edit Block Define a waveform by editing the time and voltage of the start and end points and automatically setting the points between them through linear interpolation. Press Interp to select “Linear”, and then press this softkey to enter the “Edit Block” interface. Note that if “Linear” is not selected in Interp, this menu is grayed out and disabled. X1: Set the ID of the start point of the block (namely the time position of the start point). Note that this value should be lower than the “Init Points” and be equal to or lower than X2. Y1: Set the voltage of the start point in mV or V. The setting range of DG4000 Series User’s Guide 3-11 RIGOL Chapter 3 Arbitrary Waveform Output voltage is limited by “High VLimit” and “Low VLimit”. X2: Set the ID of the end point of the block (namely the time position of the end point). Note that this value should be lower than or equal to the “Init Points” and be greater than or equal to X1. Y2: Set the voltage of the end point in mV or V. The setting range of voltage is limited by “High VLimit” and “Low VLimit”. Execute: Edit the points between the start and end points according to the current setting. Delete: Delete the points that can be edited between X1 and X2 and connect the start and end points using the current interpolation method. Note that point 1 cannot be deleted. 8. Save The currently created waveform is stored in the volatile memory by default. When creating a new waveform, the previous waveform in volatile memory will be overwritten. Users can store the waveform created in internal non-volatile memory (C Disk) or external memory (D Disk). Press Save to enter the file storage interface (refer to Store and Recall) to store the waveform created. Tips Users can also use the PC software to edit arbitrary waveform and use the following methods to store the waveform in internal memory or external memory: Use SCPI command (For details, please refer to DG4000 Programming Guide). :TRACe:DAC VOLATILE,<binary_block_data> Save the waveform file stored in USB storage device (identified as “D Disk” in the instrument) to internal memory (C Disk) through the file management system. 3-12 DG4000 Series User’s Guide Chapter 3 Arbitrary Waveform Output RIGOL Example: Edit Points The following example introduces how to use “Edit Points” to create an arbitrary waveform fulfilling the following conditions. Parameter Value Cycle Period 12μs High VLimit 4V Low VLImit -2V Interp Linear Point 1 0s, 0V Point 2 4μs, 4V Point 3 8μs, 0V Point 4 10μs, -2V Operation Procedures: 1. Press Arb and use to open the 2/2 menu page; then press Create New Cycle Period, use the numeric keyboard to input “12” and select the unit “μs” from the pop-up menu. 2. Press High VLimit, use the numeric keyboard to input “4” and select the unit “V” from the pop-up menu. 3. Press Low VLimit, use the numeric keyboard to input “-2” and select the unit “V” from the pop-up menu. 4. Press Init #Points, use the numeric keyboard to input “4” and press OK. Note: at this point, a -2 V level line appears. 5. Press Interp to select “Linear”. 6. Press Edit Points to enter the “Edit Points” interface. DG4000 Series User’s Guide 3-13 RIGOL Chapter 3 Arbitrary Waveform Output Press PointID to define the first point (the time is 0 by default). Press Voltage, use the numeric keyboard to input “0” and select the unit “V” from the pop-up menu. Press PointID again, use the numeric keyboard or knob to select point 2; then press Time and Voltage to input 4μs and 4 V respectively. Refer to step 2) to input point 3 and 4 in the table. After finishing editing all the points, press OK to return to the previous menu. At this point, press Save to enter the file storage interface (refer to Store and Recall) to save the edited arbitrary waveform. 1) 2) 3) 4) 7. View the edited waveform. V 2 4 2 0 -2 1 3 4 8 12 1 μs 4 Note: As can be seen from the above figure, the waveform editor will always connect from the first point to the voltage level of the last point to create a continuous waveform. 3-14 DG4000 Series User’s Guide Chapter 3 Arbitrary Waveform Output RIGOL Example: Edit Block The following example introduces how to use “Edit Block” to create an arbitrary waveform fulfilling the following conditions. Parameter Value Cycle Period 12μs High VLimit 4V Low VLimit -2V Interp Linear X1Y1 2, 4V X2Y2 4, -2V Operation Procedures: 1. Press Arb and use to open the 2/2 menu page; then press Create New Cycle Period, use the numeric keyboard to input “12” and select the unit “μs” from the pop-up menu. 2. Press High VLimit, use the numeric keyboard to input “4” and select the unit “V” from the pop-up menu. 3. Press Low VLimit, use the numeric keyboard to input “-2” and select the unit “V” from the pop-up menu. 4. Press Init #Points, use the numeric keyboard to input “4” and press OK. Note: at this point, a -2 V level line appears. 5. Press Interp to select “Linear”. 6. Press Edit Block to enter the “Edit Block” interface. 1) Press X1 and use the numeric keyboard to input “2”; then press Y1, use the numeric keyboard to input “4” and select the unit “V” from the pop-up menu. Use the same method to set X2 and Y2. DG4000 Series User’s Guide 3-15 RIGOL Chapter 3 Arbitrary Waveform Output 2) Press Excute to apply the setting defined in step 1). The waveform editor will automatically use straight lines to connect the start point (point 2, the level is 4 V) with the stop point (point 4, the level is -2 V) and automatically generate point 1 and point 3 to create a continuous waveform. 3) After finishing editing all the points, press to return to the previous menu. At this point, press Save to enter the file storage interface (refer to Store and Recall) to save the edited arbitrary waveform. 7. View the edited waveform. V 2 4 2 3 0 -2 4 1 8 12 μs 4 Note: As can be seen from the above figure, after the start point (point 2) and stop point (point 4) are inserted numerical values in the current interpolation method, the waveform editor will automatically generate point 1 and point 3 to create a continuous waveform. 3-16 DG4000 Series User’s Guide Chapter 3 Arbitrary Waveform Output RIGOL To Edit Arbitrary Waveform Arbitrary waveforms stored in internal non-volatile memory or external memory can be edited. Press Arb and use to open the 2/2 menu page, then press Edit Wform to open waveform editing menu. Users can also press Edit at the front panel to quickly open this interface. Only “Select Wform” which will be introduced in this section, is new in this menu compared to Create New. For other menu functions and operations, please refer to To Create New Arbitrary Waveform. Press Edit Wform Select Wform to select the waveform to be edited. 1. To Edit Built-In waveforms Select a waveform from the built-in waveforms to edit. You can store the edited waveform without overwriting the original built-in waveform. 2. To Edit Stored Waveforms Select a waveform from internal non-volatile memory (C Disk) or external memory (D Disk) to edit. You can overwrite the old waveform or save the new waveform as a new file. DG4000 Series User’s Guide 3-17 Chapter 4 Harmonic Output RIGOL Chapter 4 Harmonic Output DG4000 can be used as a harmonic generator to output harmonic with specified order, amplitude and phase. It is usually used in the test of harmonic detector device or harmonic filter device. This chapter introduces how to configure the generator to output harmonics. Subjects in this chapter: Overview To Set Fundamental Waveform Parameters To Set Harmonic Order To Select Harmonic Type To Set Harmonic Amplitude To Set Harmonic Phase DG4000 Series User’s Guide 4-1 RIGOL Chapter 4 Harmonic Output Overview According to Fourier transform, time domain waveform is the superposition of a series of sine waveforms as shown in the equation below: f (t ) = A1 sin( 2πf1t + ϕ1 ) + A2 sin( 2πf 2 t + ϕ 2 ) + A3 sin( 2πf 3 t + ϕ 3 ) + ...... Generally, component with f 1 frequency is called fundamental waveform, f 1 is fundamental waveform frequency, A1 is fundamental waveform amplitude and ϕ1 is fundamental waveform phase. The frequencies of other components (called harmonics) are all integral multiples of the fundamental waveform frequency. Components whose frequencies are odd multiples of the fundamental waveform frequency are odd harmonics and components whose frequencies are even multiples of the fundamental waveform frequency are even harmonics. DG4000 can output up to 16th order of harmonic. After selecting CH1 or CH2, press Harmonic at the front panel to enter the harmonic setting menu. Users can set the parameters of fundamental waveform, set the type of harmonic, specify the highest order of harmonic and set the amplitude and phase of each order of harmonic. After finishing harmonic parameter setting, press Output1 or/and Output2 and the backlight of the button turns on, the instrument outputs the specified harmonic from the corresponding output terminal. To Set Fundamental Waveform Parameters DG4000 allows users to set various fundamental waveform parameters such as frequency, period, amplitude, DC offset voltage, high level, low level and start phase. It also supports align phase operation. Please refer to introductions in Basic Waveform Output to set fundamental waveform parameters. 4-2 DG4000 Series User’s Guide Chapter 4 Harmonic Output RIGOL To Set Harmonic Order The highest order of harmonic output from DG4000 can not be greater than this setting value. After entering the harmonic setting menu, press Order (at this point, “Order” on the screen is highlighted) and use the numeric keyboard or the direction keys and knob to input the harmonic order. The range is limited by the maximum output frequency of the instrument as well as the fundamental waveform frequency. Range: integers within 2 to maximum output frequency of the instrument÷fundamental waveform frequency. The maximum is 16. To Select Harmonic Type DG4000 can output even harmonic, odd harmonic, all orders of harmonic or user-defined orders of harmonic. After entering the harmonic setting menu, press Type to select the desired harmonic type. 1. Even Press this key and the instrument would output fundamental waveform and even harmonics. 2. Odd Press this key and the instrument would output fundamental waveform and odd harmonics. 3. All Press this key and the instrument would output fundamental waveform and all the harmonics in order. 4. User Press this key and the instrument would output the user-defined orders of harmonics. The highest order is 16. DG4000 Series User’s Guide 4-3 RIGOL Chapter 4 Harmonic Output 16 bits binary data is used to represent the output status of the 16 orders of harmonics respectively, wherein, 1 represents enabling the output of the corresponding harmonic and 0 represents disabling the output of the corresponding harmonic. Users only need to use the numeric keyboard to modify the value of each data bit (note: the leftmost bit representing fundamental waveform is always X and can not be modified). For example, set the 16 bits data to X001 0000 0000 0001, thus 4th and 16th orders of harmonics are output. Note: the actual harmonics output is determined by the “Order” currently specified. To Set Harmonic Amplitude After entering the harmonic setting menu, press Ampl to set the amplitude of each order of harmonic. 1. Sn: press this softkey to select the sequence number of the harmonic to be set. 2. Ampl: press this softkey to set the amplitude of the harmonic selected. Use the numeric keyboard or direction keys and knob to input the amplitude value and then select the desired unit from the pop-up menu. For the input method of amplitude value, refer to the introduction in Parameter Setting Method. The amplitude units available are Vpp, mVpp, Vrms, mVrms and dBm (not available in HighZ). 4-4 DG4000 Series User’s Guide Chapter 4 Harmonic Output RIGOL To Set Harmonic Phase After entering the harmonic setting menu, press Phase to set the phase of each order of harmonic. 1. Sn: press this softkey to select the sequence number of the harmonic to be set. 2. Phase: press this softkey to set the phase of the harmonic selected. Use the numeric keyboard or the direction keys and knob to input the phase value and then select the unit “°” from the pop-up menu. For the input method of phase value, refer to the introduction in Parameter Setting Method. DG4000 Series User’s Guide 4-5 Chapter 5 Modulated Waveform Output RIGOL Chapter 5 Modulated Waveform Output DG4000 supports AM, FM, PM, ASK, FSK, 3FSK, 4FSK, PSK, BPSK, QPSK, PWM and OSK modulations. DG4000 can output modulated waveform from a single channel or from two channels at the same time. The modulated waveform consists of carrier waveform and modulating waveform. The carrier waveform can be Sine, Square, Ramp, Arbitrary waveform (except DC) or Pulse (only in PWM). The modulating waveform can be from internal or external modulation source. Subjects in this chapter: AM FM PM ASK FSK PSK BPSK QPSK 3FSK 4FSK OSK PWM DG4000 Series User’s Guide 5-1 RIGOL Chapter 5 Modulated Waveform Output AM Modulated waveform usually consists of carrier waveform and modulating waveform. For amplitude modulation (AM), the amplitude of the carrier waveform varies with the instantaneous voltage of the modulating waveform. To Select AM Modulation Press Mod Type AM to enable AM function. When Mod is enabled, Sweep or Burst will be disabled automatically (if enabled currently). After AM is enabled, the instrument will generate AM waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape AM carrier waveform could be Sine, Square, Ramp or Arbitrary waveform (except DC). The default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select a desired carrier waveform shape. Pulse, Noise and DC could not be used as carrier waveform. To Set Carrier Frequency Different carrier waveforms have different frequency ranges as shown in the table below. For all the carrier waveforms, the default value is 1kHz. Carrier Waveform Frequency Range Sine 1μHz to 160MHz Square 1μHz to 50MHz Ramp 1μHz to 4MHz Arbitrary Waveform 1μHz to 40MHz 5-2 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL After the carrier waveform is selected, you can press Freq/Period to highlight “Freq”, and then use the numeric keyboard or direction keys and knob to input the desired frequency value. To Select Modulating Waveform Source DG4000 can accept modulating waveform from internal or external modulation source. Press Mod Source to select “Int” or “Ext” modulation source. 1. Internal Source When internal modulation source is selected, press Shape to select Sine, Square, Triangle, UpRamp, DnRamp, Noise or Arb as modulating waveform. The default is Sine. Square: 50% duty cycle. Triangle: 50% symmetry. UpRamp: 100% symmetry. DnRamp: 0% symmetry. Arb: when arbitrary waveform is selected as modulating waveform, the generator would limit the waveform length to 2kpts automatically. Note: Noise can be used as modulating waveform but can not be used as carrier waveform. 2. External Source When external modulation source is selected, the Shape menu will be grayed out and disabled. The generator accepts the external modulating signal from the [Mod/FSK/Trig] connector at the rear panel. The AM modulating amplitude is controlled by the ±2.5 V signal level of the connector. [Mod/FSK/Trig] DG4000 Series User’s Guide 5-3 RIGOL Chapter 5 Modulated Waveform Output To Set Modulating Waveform Frequency When internal modulation source is selected, press AM_Freq to set the modulating waveform frequency. Input the desired frequency value using the numeric keyboard or direction keys and knob. The modulating waveform frequency ranges from 2mHz to 50kHz, and the default value is 100Hz. Notice that, this menu will be grayed out and disabled when external modulation source is selected. To Set Modulation Depth Modulation depth expressed as a percentage indicates the amplitude variation degree. The AM modulation depth ranges from 0% to 120%. Press AM Depth to set AM modulation depth. In 0% modulation, the output amplitude is half of the specified value. In 100% modulation, the output amplitude is equal to the specified value. In >100% modulation, the output amplitude of the instrument would not exceed 10Vpp (50Ω load). When “Ext” modulation source is selected, the output amplitude of the instrument is also controlled by the ±2.5V signal level at the [Mod/FSK/Trig] connector at the rear panel. For example, set the modulation depth to 100%, the output amplitude is the maximum when the modulating signal is +2.5V and the minimum when the modulating signal is -2.5V. 5-4 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL FM Modulated waveform consists of carrier waveform and modulating waveform. For frequency modulation (FM), the frequency of the carrier waveform varies with the instantaneous voltage of the modulating waveform. To Select FM Modulation Press Mod Type FM to enable FM function. When Mod is enabled, Sweep or Burst will be disabled automatically (if currently enabled). After FM is enabled, the instrument will generate FM waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape FM carrier waveform could be Sine, Square, Ramp or Arbitrary waveform (except DC). The default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select a desired carrier waveform shape. Pulse, Noise and DC could not be used as carrier waveform. To Set Carrier Frequency Different carrier waveforms have different frequency ranges as shown in the table below. For all the carrier waveforms, the default value is 1kHz. Carrier Waveform Frequency Range Sine 1μHz to 160MHz Square 1μHz to 50MHz Ramp 1μHz to 4MHz Arbitrary Waveform 1μHz to 40MHz DG4000 Series User’s Guide 5-5 RIGOL Chapter 5 Modulated Waveform Output After the carrier waveform is selected, you can press Freq/Period to highlight “Freq”, and then use the numeric keyboard or direction keys and knob to input the desired frequency value. To Select Modulating Waveform Source DG4000 can accept modulating waveform from internal or external modulation source. Press Mod Source to select “Int” or “Ext” modulation source. 1. Internal Source When internal modulation source is selected, press Shape to select Sine, Square, Triangle, UpRamp, DnRamp, Noise or Arb as modulating waveform. The default is Sine. Square: 50% duty cycle. Triangle: 50% symmetry. UpRamp: 100% symmetry. DnRamp: 0% symmetry. Arb: when arbitrary waveform is selected as modulating waveform, the generator would limit the waveform length to 2kpts automatically. Note: Noise can be used as modulating waveform but can not be used as carrier waveform. 2. External Source When external modulation source is selected, the Shape menu will be grayed out and disabled. The generator accepts the external modulating signal from the [Mod/FSK/Trig] connector at the rear panel. The frequency deviation is controlled by the ±2.5 V signal level of the connector. [Mod/FSK/Trig] 5-6 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL To Set Modulating Waveform Frequency When internal modulation source is selected, press FM_Freq to set the modulating waveform frequency. Input the desired frequency value using the numeric keyboard or direction keys and knob. The modulating waveform frequency ranges from 2mHz to 50kHz, and the default value is 100Hz. Notice that, this menu will be grayed out and disabled when external modulation source is selected. To Set Frequency Deviation Frequency deviation is the deviation of the modulating waveform frequency relative to the carrier frequency. Press Deviation to set the FM frequency deviation. Frequency deviation must be lower than or equal to the carrier frequency. The sum of frequency deviation and carrier frequency must be lower than or equal to the sum of the current carrier frequency upper limit and 1kHz. When “Ext” modulation source is selected, frequency deviation is controlled by the ±2.5V signal level at the [Mod/FSK/Trig] connector at the rear panel. Positive signal level corresponds to frequency increase and negative signal level corresponds to frequency decrease. The lower the level, the less offset is generated. For example, if the frequency deviation is set to 1kHz, +2.5V signal level corresponds to a 1kHz increase of frequency and -2.5V signal level corresponds to a 1kHz decrease of frequency. DG4000 Series User’s Guide 5-7 RIGOL Chapter 5 Modulated Waveform Output PM Modulated waveform consists of carrier waveform and modulating waveform. For phase modulation (PM), the phase of the carrier waveform varies with the instantaneous voltage of the modulating waveform. To Select PM Modulation Press Mod Type PM to enable PM function. When Mod is enabled, Sweep or Burst will be automatically disabled (if currently enabled). After PM is enabled, the instrument will generate PM waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape PM carrier waveform could be Sine, Square, Ramp or Arbitrary waveform (except DC). The default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select the desired carrier waveform shape. Pulse, Noise and DC could not be used as carrier waveform. To Set Carrier Frequency Different carrier waveforms have different frequency ranges as shown in the table below. For all the carrier waveforms, the default value is 1kHz. Carrier Waveform Frequency Range Sine 1μHz to 160MHz Square 1μHz to 50MHz Ramp 1μHz to 4MHz Arbitrary Waveform 1μHz to40 MHz 5-8 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL After the carrier waveform is selected, you can press Freq/Period to highlight “Freq”, and then use the numeric keyboard or direction keys and knob to input the desired frequency value. To Select Modulating Waveform Source DG4000 can accept modulating waveform from internal or external modulation source. Press Mod Source to select “Int” or “Ext” modulation source. 1. Internal Source When internal modulation source is selected, press Shape to select Sine, Square, Triangle, UpRamp, DnRamp, Noise or Arb as modulating waveform. The default is Sine. Square: 50% duty cycle. Triangle: 50% symmetry. UpRamp: 100% symmetry. DnRamp: 0% symmetry. Arb: when arbitrary waveform is selected as modulating waveform, the generator would limit the waveform length to 2kpts automatically. Note: Noise can be used as modulating waveform but can not be used as carrier waveform. 2. External Source When external modulation source is selected, the Shape menu will be grayed out and disabled. The generator accepts the external modulating signal from the [Mod/FSK/Trig] (as shown in the figure below) connector at the rear panel. The phase deviation is controlled by the ±2.5 V signal level of the connector. [Mod/FSK/Trig] DG4000 Series User’s Guide 5-9 RIGOL Chapter 5 Modulated Waveform Output To Set Modulating Waveform Frequency When internal modulation source is selected, press PM_Freq to set the modulating waveform frequency. Input the desired frequency value using the numeric keyboard or direction keys and knob. The modulating waveform frequency ranges from 2mHz to 50kHz, and the default value is 100Hz. Notice that, this menu will be grayed out and disabled when external modulation source is selected. To Set Phase Deviation Phase deviation is the deviation of the modulating waveform phase relative to the carrier waveform phase. Press Deviation to set the PM phase deviation. Use the numeric keyboard or direction keys and knob to input the desired phase value. The range of phase deviation is from 0º to 360º. When “Ext” modulation source is selected, the phase deviation is controlled by the ±2.5V signal level at the [Mod/FSK/Trig] connector at the rear panel. For example, if the phase deviation is set to 180º, +2.5V signal level corresponds to a 180º phase variation. The lower the external signal level, the less deviation would be generated. 5-10 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL ASK When using ASK (Amplitude Shift Keying) modulation, you can configure the generator to “shift” its output amplitude between two preset amplitude values (“carrier amplitude” and “modulating amplitude”). The “shift” rate (ASK Rate) is determined by the internal signal level or signal level at the [Mod/FSK/Trig] connector at the rear panel. To Select ASK Modulation Press Mod Type ASK to enable ASK function. When Mod is enabled, Sweep or Burst will be disabled automatically (if enabled currently). After ASK is enabled, the instrument will generate ASK waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape ASK carrier waveform could be Sine, Square, Ramp or arbitrary waveform (except DC). The default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select the desired carrier waveform shape. Pulse, Noise and DC could not be used as carrier waveform. To Set Carrier Amplitude After selecting carrier waveform shape, press Ampl/HiLevel to highlight “Ampl”, and then use the numeric keyboard or direction keys and knob to input the desired amplitude. The available amplitude range is limited by Resistance and Freq/Period. Please refer to the “Output Characteristics” described in Specifications. DG4000 Series User’s Guide 5-11 RIGOL Chapter 5 Modulated Waveform Output To Select Modulating Waveform Source Press Mod Source to select “Int” or “Ext” modulating waveform source. 1. Internal Source When internal source is selected, the modulating waveform is set as a Square with 50% duty cycle, and the rate at which the output amplitude “shifts” between “carrier amplitude” and “modulating amplitude” is determined by “ASK Rate”. 2. External Source When external source is selected, the generator accepts the external modulating signal from the [Mod/FSK/Trig] connector at the rear panel. [Mod/FSK/Trig] Note: the [Mod/FSK/Trig] connector is different when controlling ASK and AM/FM/PM modulations externally. In ASK modulation, the [Mod/FSK/Trig] connector has adjustable edge polarity. To Set ASK Rate When internal source is selected, press ASK Rate to set the rate at which the output amplitude shifts between “carrier amplitude” and “modulating amplitude”. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 100Hz. Note: when “Ext” modulation source is selected, this menu would be grayed out and disabled. 5-12 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL To Set Modulating Amplitude Press ModAmp to set the modulating amplitude. Use the numeric keyboard or direction keys and knob to input the desired amplitude value. The range of amplitude (HighZ) is from 0 to 10V and the default is 2V. To Set Modulating Polarity Press Polarity to select the “Pos” or “Neg” polarity of the modulating waveform to control the output amplitude. In internal modulation, set the polarity to “Pos” and the generator would output the greater of the carrier amplitude and modulating amplitude when the modulating waveform is logic high and output the lower when the modulating waveform is logic low. The situation is the opposite when the polarity is set to “Neg”. In external modulation, set the polarity to “Pos” and the generator would output the greater of the carrier amplitude and modulating amplitude when logic high level is input and output the lower when the logic low level is input. The situation is the opposite when the polarity is set to “Neg”. DG4000 Series User’s Guide 5-13 RIGOL Chapter 5 Modulated Waveform Output FSK When FSK (Frequency Shift Keying) modulation is selected, you can configure the generator to “shift” its output frequency between two preset frequencies (“carrier frequency” and “hop frequency”). The “shift” frequency (FSK Rate) is determined by the internal signal level or signal level at the [Mod/FSK/Trig] connector at the rear panel. To Select FSK Modulation Press Mod Type FSK to enable FSK function. When Mod is enabled, Sweep or Burst will be automatically disabled (if enabled currently). After FSK is enabled, the instrument will generate FSK waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape FSK carrier waveform could be Sine, Square, Ramp or arbitrary waveform (except DC), and the default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select desired carrier waveform shape. Pulse, Noise and DC could not be used as carrier waveform. To Set Carrier Frequency Different carrier waveforms have different frequency ranges as shown in the table below. For all the carrier waveforms, the default value is 1kHz. 5-14 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output Carrier Waveform Frequency Range Sine 1μHz to 160MHz Square 1μHz to 50MHz Ramp 1μHz to 4MHz Arbitrary Waveform 1μHz to 40MHz RIGOL After the carrier waveform is selected, you can press Freq/Period to highlight “Freq”, and then use the numeric keyboard or direction keys and knob to input the desired frequency value. To Select Modulating Waveform Source Press Mod Source to select “Int” or “Ext” modulating waveform source. 1. Internal Source When internal source is selected, the modulating waveform is set as a Square with 50% duty cycle, and the frequency at which the output frequency shifts between “carrier frequency” and “hop frequency” is determined by “FSK Rate”. 2. External Source When external source is selected, the generator accepts the external modulating signal from the [Mod/FSK/Trig] connector at the rear panel. [Mod/FSK/Trig] Note: the [Mod/FSK/Trig] connector is different when controlling FSK and AM/FM/PM modulations externally. In FSK modulation, the [Mod/FSK/Trig] connector has adjustable edge polarity. DG4000 Series User’s Guide 5-15 RIGOL Chapter 5 Modulated Waveform Output To Set FSK Rate When internal source is selected, press FSK Rate to set the frequency at which the output frequency shifts between “carrier frequency” and “hop frequency”. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 100Hz. Note: when “Ext” modulation source is selected, this menu is grayed out and disabled. To Set Hop Frequency Alternating frequency (“hop” frequency) is the modulating frequency. The range of hop frequency depends on the carrier waveform currently selected. Press HopFreq to highlight it and input the desired frequency value using the numeric keyboard or direction keys and knob. Sine: 1μHz to 160MHz Square: 1μHz to 50MHz Ramp: 1μHz to 4MHz Arb: 1μHz to 40MHz To Set Modulating Polarity Press Polarity to select the “Pos” or “Neg” polarity of the modulating waveform to control the output frequency. In internal modulation, set the polarity to “Pos” and the generator would output the carrier frequency when the modulating waveform is logic low and output the hop frequency when the modulating waveform is logic high. The situation is the opposite when the polarity is set to “Neg”. In external modulation, set the polarity to “Pos” and the generator would output the carrier frequency when logic low level is input and output the modulating frequency when logic high level is input. The situation is the opposite when the polarity is set to “Neg”. 5-16 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL PSK When PSK (Phase Shift Keying) modulation is selected, you can configure the generator to “shift” its output phase between two preset phase values (“carrier phase” and “modulating phase”). The “shift” frequency (PSK Rate) is determined by the internal signal level or signal level at the [Mod/FSK/Trig] connector at the rear panel. To Select PSK Modulation Press Mod Type PSK to enable PSK function. When Mod is enabled, Sweep or Burst will be automatically disabled (if enabled currently). After PSK is enabled, the instrument will generate PSK waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape PSK carrier waveform could be Sine, Square, Ramp or arbitrary waveform (except DC), and the default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select the desired carrier waveform shape. Pulse, Noise and DC could not be used as carrier waveform. To Set Carrier Phase After carrier waveform shape is selected, press Start Phase to highlight it and use the numeric keyboard or direction keys and knob to input the desired phase. The available phase ranges from 0º to 360º and the default value is 0º. DG4000 Series User’s Guide 5-17 RIGOL Chapter 5 Modulated Waveform Output To Select Modulating Waveform Source Press Mod Source to select “Int” or “Ext” modulating waveform source. 1. Internal Source When internal source is selected, the modulating waveform is set as a Square with 50% duty cycle, and the frequency at which the output phase shifts between “carrier phase” and “modulating phase” is determined by “PSK Rate”. 2. External Source When external source is selected, the generator accepts the external modulating signal from the [Mod/FSK/Trig] connector (as shown in the figure below) at the rear panel. [Mod/FSK/Trig] Note: the [Mod/FSK/Trig] connector is different when controlling PSK and AM/FM/PM modulations externally. In PSK modulation, the [Mod/FSK/Trig] connector has adjustable edge polarity. To Set PSK Rate When internal source is selected, press PSK Rate to set the frequency at which the output phase shifts between “carrier phase” and “modulating phase”. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 100Hz. Note: when “Ext” is selected, this menu is grayed out and disabled. 5-18 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL To Set PSK Phase PSK phase is the modulating phase. Press Phase to set the modulating phase. Use the numeric keyboard or direction keys and knob to input the desired phase value. The phase range is from 0º to 360º and the default is 180º. To Set Modulating Polarity Press Polarity to select the “Pos” or “Neg” polarity of the modulating waveform to control the output phase. In internal modulation, set the polarity to “Pos” and the generator would output the carrier phase when the modulating waveform is logic low and output the modulating phase when the modulating waveform is logic high. The situation is the opposite when the polarity is set to “Neg”. In external modulation, set the polarity to “Pos” and the generator would output the carrier phase when logic low level is input and output the modulating phase when logic high level is input. The situation is the opposite when the polarity is set to “Neg”. DG4000 Series User’s Guide 5-19 RIGOL Chapter 5 Modulated Waveform Output BPSK When BPSK (Binary Phase Shift Keying) is selected, you can configure the generator to “shift” its output phase between two preset phases (“carrier phase” and “modulating phase”). The “shift” frequency (BPSK rate) is determined by the internal signal level of the instrument. To Select BPSK Modulation Press Mod Type BPSK to enable BPSK function. When Mod is enabled, Sweep or Burst will be automatically disabled (if enabled currently). After BPSK is enabled, the instrument will generate BPSK waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape BPSK carrier waveform could be Sine, Square, Ramp or arbitrary waveform (except DC), and the default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select desired carrier waveform shape. Pulse, Noise and DC could not be used as carrier waveform. To Set Carrier Phase After carrier waveform shape is selected, press Start Phase to highlight it and use the numeric keyboard or the direction keys and knob to input the desired phase. The phase range is from 0º to 360º and the default is 0º. 5-20 DG4000 Series User’s Guide RIGOL Chapter 5 Modulated Waveform Output To Select Modulating Waveform Source BPSK uses internal modulation source. Press Data Source to select PN15, PN21, 01 or 10and the default is PN15. Explanation: PN sequence (Pseudo-noise Sequence), a kind of periodic bianary sequence, has the statistical characteristics similar to a random noise but can be produced and processed repeatedly. The most commonly used PN sequence is m sequence generated by shift registers with linear feedback and its period is relevant to the linear feedback logic and the initial state of each register. The period of the m sequence generated by n-level shift register is 2n-1. As In the figure below is a 4-level linear feedback shift register of which the feedback logic is a3⊕a2. For PN15 and PN21, 15 and 21are levels of the registers. + Output a3 a2 a1 a0 To Set BPSK Rate BPSK uses internal modulation source. Press Rate to set the frequency at which the output phase shifts between “carrier phase” and “modulating phase”. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 100Hz. DG4000 Series User’s Guide 5-21 RIGOL Chapter 5 Modulated Waveform Output To Set BPSK Phase BPSK phase is the modulating phase. Press Phase to set the modulating phase. Use the numeric keyboard or direction keys and knob to input the desired phase value. The phase range is from 0º to 360º and the default is 180º. 5-22 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL QPSK When QPSK (Quadrature Phase Shift Keying) is selected, you can configure the generator to “shift” its output phase among four preset phases (“carrier phase” and three “modulating phases”). The “shift” frequency (QPSK rate) is determined by the internal signal level of the instrument. To Select QPSK Modulation Press Mod Type QPSK to enable QPSK function. When Mod is enabled, Sweep or Burst will be automatically disabled (if enabled currently). After QPSK is enabled, the instrument will generate QPSK waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape QPSK carrier waveform could be Sine, Square, Ramp or arbitrary waveform (except DC), and the default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select desired carrier waveform shape. Pulse (basic waveform), Noise and DC could not be used as carrier waveform. To Set Carrier Phase After carrier waveform shape is selected, press Start Phase to highlight it and use the numeric keyboard or direction keys and knob to input the desired phase. The phase range is from 0º to 360º and the default is 0º. DG4000 Series User’s Guide 5-23 RIGOL Chapter 5 Modulated Waveform Output To Select Modulating Waveform Source QPSK uses internal modulation source. Press Data Source to select PN15 or PN21 and the default is PN15. To Set QPSK Rate QPSK uses internal modulation source. Press Rate to set the frequency at which the output phase shifts between “carrier phase” and “modulating phase”. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 100Hz. To Set QPSK Phases QPSK phases are the modulating phases. Press Phase1, Phase2 and Phase3 to set the modulating phases respectively. Use the numeric keyboard or direction keys and knob to input the desired phase value. The phase range is from 0º to 360º and the default values of Phase1, Phase2 and Phase3 are 450º, 135º and 225º respectively. 5-24 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL 3FSK When 3FSK (3 Frequency Shift Keying) modulation is selected, you can configure the generator to “shift” its output frequency among three preset frequencies (“carrier frequency” and two “modulating frequencies”). The “shift” frequency (3FSK rate) is determined by the internal signal level of the instrument. To Select 3FSK Modulation Press Mod Type 3FSK to enable 3FSK function. When Mod is enabled, Sweep or Burst will be automatically disabled (if enabled currently). After 3FSK is enabled, the instrument will generate 3FSK waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape 3FSK carrier waveform could be Sine, Square, Ramp or arbitrary waveform (except DC), and the default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select desired carrier waveform shape. Pulse (basic waveform), Noise and DC could not be used as carrier waveform. To Set Carrier Frequency Different carrier waveforms have different frequency ranges as shown in the table below. For all the carrier waveforms, the default value is 1kHz. DG4000 Series User’s Guide 5-25 RIGOL Chapter 5 Modulated Waveform Output Carrier Waveform Frequency Range Sine 1μHz to 160MHz Square 1μHz to 50MHz Ramp 1μHz to 4MHz Arbitrary Waveform 1μHz to 40MHz After the carrier waveform is selected, you can press Freq/Period to highlight “Freq”, and then use the numeric keyboard or direction keys and knob to input the desired frequency value. Modulation Source 3FSK uses internal modulation source and the modulating waveform is Sine. To Set 3FSK Rate 3FSK uses internal modulation source. Press KeyFreq to set the frequency at which the output frequency shifts between “carrier frequency” and the two “hop frequencies”. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 100Hz. To Set Hop Frequencies Alternating frequencies (“hop” frequencies) are the modulating frequencies. The ranges of hop frequencies depend on the carrier waveform currently selected. Press HopFreq1 and HopFreq2 to highlight them and input the desire frequency values using the numeric keyboard or direction keys and knob respectively. Sine: 1μHz to 160MHz Square: 1μHz to 50MHz Ramp: 1μHz to 4MHz Arb: 1μHz to 40MHz 5-26 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL 4FSK When 4FSK (4 Frequency Shift Keying) modulation is selected, you can configure the generator to “shift” its output frequency among four preset frequencies (“carrier frequency” and three “hop frequencies”). The “shift” frequency (4FSK rate) is determined by the internal signal level of the instrument. To Select 4FSK Modulation Press Mod Type 4FSK to enable 4FSK function. When Mod is enabled, Sweep or Burst will be automatically disabled (if enabled currently). After 4FSK is enabled, the instrument will generate 4FSK waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape 4FSK carrier waveform could be Sine, Square, Ramp or arbitrary waveform (except DC), and the default is Sine. Press the front panel key Sine, Square, Ramp or Arb Select Wform (or User, the pre-defined waveform can not be DC) to select the desired carrier waveform shape. Pulse (basic waveform), Noise and DC could not be used as carrier waveform. To Set Carrier Frequency Different carrier waveforms have different frequency ranges as shown in the table below. For all the carrier waveforms, the default value is 1kHz. DG4000 Series User’s Guide 5-27 RIGOL Chapter 5 Modulated Waveform Output Carrier Waveform Frequency Range Sine 1μHz to 160MHz Square 1μHz to 50MHz Ramp 1μHz to 4MHz Arbitrary Waveform 1μHz to 40MHz After the carrier waveform is selected, you can press Freq/Period to highlight “Freq”, and then use the numeric keyboard or direction keys and knob to input the desired frequency value. Modulation Source 4FSK uses internal modulation source and the modulating waveform is Sine. To Set 4FSK Rate 4FSK uses internal modulation source. Press KeyFreq to set the frequency at which the output frequency shifts between “carrier frequency” and three “hop frequencies”. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 100Hz. To Set Hop Frequencies Alternating frequencies (“hop” frequencies) are the modulating frequencies. The ranges of hop frequencies depend on the carrier waveform currently selected. Press HopFreq1, HopFreq2 and HopFreq3 to highlight them and input the desire frequency values using the numeric keyboard or direction keys and knob respectively. Sine: 1μHz to 160MHz Square: 1μHz to 50MHz Ramp: 1μHz to 4MHz Arb: 1μHz to 40MHz 5-28 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL OSK When OSK (Oscillation Shift Keying) modulation is selected, users can configure the generator to output a sine signal with intermittent oscillation as shown in the figure below (the carrier waveform is 100Hz and the OSK rate is 10kHz). The start-oscillation and stop-oscillation of the internal crystal oscillator are controlled by the internal signal level or signal level at the [Mod/FSK/Trig] connector at the rear panel. When the internal crystal oscillator starts to oscillate, the instrument starts to output the carrier waveform and when the internal crystal stops oscillating, the output stops. Figure 5-1 OSK Modulated Waveform To Select OSK Modulation Press Mod Type OSK to enable OSK function. When Sine is currently selected, OSK in the Type is not available. When Mod is enabled, Sweep or Burst will be automatically disabled (if enabled currently). After OSK is enabled, the instrument will generate OSK waveform with the currently specified carrier and modulating waveforms. DG4000 Series User’s Guide 5-29 RIGOL Chapter 5 Modulated Waveform Output To Select Carrier Waveform Shape OSK carrier waveform can only be sine waveform. Press Sine at the front panel. To Set Carrier Frequency After carrier waveform shape is selected, press Freq/Period to highlight “Freq” and use the numeric keyboard or direction keys and knob to input the desired frequency. The range is from 1μHz to 160MHz. To Select Modulating Waveform Source Press Mod Source to select “Int” or “Ext” modulation source. 1. Internal Source When internal source is selected, the modulating waveform is set as a Square with 50% duty cycle. At this point, the intermittence time and oscillate time of the output signal is determined by the OSK “Rate”. 2. External Source When external source is selected, the generator accepts external modulating signal from the [Mod/FSK/Trig] connector at the rear panel. [Mod/FSK/Trig] 5-30 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL To Set OSK Rate When internal source is selected, press Rate to set the OSK rate. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 1kHz. To Set Oscillate Period Oscillate period is the oscillation period of internal crystal oscillator. Press OscTime to highlight it and use the numeric keyboard or direction keys and knob to input the desired period. The range is from 8ns to 499.750μs. DG4000 Series User’s Guide 5-31 RIGOL Chapter 5 Modulated Waveform Output PWM A PWM (Pulse Width Modulation) modulated waveform consists of carrier waveform and modulating waveform. The pulse width of the carrier waveform varies with the instantaneous voltage of the modulating waveform. To Select PWM Modulation PWM can only be used to modulate pulse. To select PWM modulation, press Pulse at the front panel first and then press Mod to enable PWM function. If the Pulse function key has not been selected, PWM in Type menu is unavailable. When Mod is enabled but the modulation type is not PWM, pressing Pulse will select PWM automatically. When Mod is enabled, Sweep or Burst will be automatically disabled (if enabled currently). After PWM is enabled, the instrument will generate PWM waveform with the currently specified carrier and modulating waveforms. To Select Carrier Waveform Shape As mentioned before, PWM can only be used to modulate Pulse. To select Pulse waveform, press Pulse at the front panel. To Set Pulse Width/Duty Cycle After the carrier waveform shape is selected, press Width/Duty to highlight “Width” or “Duty” and input the desired value using the numeric keyboard or direction keys and knob. 5-32 DG4000 Series User’s Guide Chapter 5 Modulated Waveform Output RIGOL To Select Modulating Waveform Source Press Mod Source to select “Int” or “Ext” modulating waveform source. 1. Internal Source When internal modulation source is selected, press Shape to select Sine, Square, Triangle, UpRamp, DnRamp, Noise or Arb as modulating waveform. The default is Sine. Square: 50% duty cycle. Triangle: 50% symmetry. UpRamp: 100% symmetry. DnRamp: 0% symmetry. Arb: when arbitrary waveform is selected as modulating waveform, the generator would limit the waveform length to 2kpts automatically. Note: Noise can be used as modulating waveform but can not be used as carrier waveform. 2. External Source When external modulation source is selected, the Shape menu will be grayed out and disabled. The generator accepts the external modulating signal from the [Mod/FSK/Trig] connector at the rear panel. The “WidthDev” (or “DutyDev”) is controlled by the ±2.5 V signal level of the connector. To Set Modulating Waveform Frequency When internal modulation source is selected, press PWM Freq to set the frequency of the modulating waveform. Use the numeric keyboard or direction keys and knob to input the desired frequency value. The frequency range is from 2mHz to 1MHz and the default is 100Hz. Note: when “Ext” modulation source is selected, this menu is grayed out and disabled. DG4000 Series User’s Guide 5-33 RIGOL Chapter 5 Modulated Waveform Output To Set Pulse Width/Duty Cycle Deviation Press WidthDeV (or “DutyDev”) and input the desired value using the numeric keyboard or direction keys and knob. Width deviation represents the variation (in seconds) of the modulated waveform pulse width relative to the original pulse width. Pulse width deviation range: 0s to 500ks. The width deviation can not exceed the current pulse width. The width deviation is limited by the minimum pulse width and current edge time setting. Duty cycle deviation represents the variation (in %) of the modulated waveform duty cycle relative to the original pulse duty cycle. Duty cycle deviation range: 0% to 50%。 The duty cycle deviation can not exceed the current pulse duty cycle. The duty cycle is limited by the minimum duty cycle and current edge time setting. When “Ext” modulation source is selected, width deviation (or duty deviation) is controlled by the ±2.5V signal level at the [Mod/FSK/Trig] connector at the rear panel. For example, if the width deviation is set to 10s, the +2.5V signal level corresponds to a 10s variation in pulse width. 5-34 DG4000 Series User’s Guide Chapter 6 Sweep RIGOL Chapter 6 Sweep DG4000 can output sweep from a single channel or from dual channels at the same time. In sweep mode, the generator varies its output from the start frequency to end frequency within the specified sweep time. DG4000 supports linear, log and step sweep modes, allows users to set start hold, end hold and return time, supports internal, external or manual trigger source and can generate sweep output for Sine, Square, Ramp and arbitrary waveform (except DC). Subjects in this chapter: To Enable Frequency Sweep Start Frequency and End Frequency Center Frequency and Frequency Span Sweep Type Sweep Time Return Time Mark Frequency Start Hold End Hold Sweep Trigger Source Trigger Output Edge DG4000 Series User’s Guide 6-1 RIGOL Chapter 6 Sweep To Enable Frequency Sweep Press Sweep at the front panel to enable the sweep function (the backlight of the key goes on), and Mod or Burst function will be automatically disabled (if currently enabled). The instrument will generate the sweep waveform from the corresponding channel (if currently turned on) according to the current configuration. You can also reset the sweep function menu. Please refer to the introduction in the following text for details. Start Frequency and End Frequency Start frequency and end frequency are the upper and lower limits of the frequency for frequency sweep. The generator sweeps from the start frequency to the end frequency and then returns back to the start frequency. Start Frequency < End Frequency: the generator sweeps from low frequency to high frequency. Start Frequency > End Frequency: the generator sweeps from high frequency to low frequency. Start Frequency = End Frequency: the generator outputs with a fixed frequency. When frequency sweep is enabled, press Start/Center to highlight “Start”. Notice that, “End” in End/Span will also be highlighted. Use the numeric keyboard or direction keys and knob to input the desired frequencies. By default, the start frequency is 100Hz and the end frequency is 1kHz. Different sweep waveform corresponds to different start frequency and end frequency range. Sine: 1μHz to 160MHz Square: 1μHz to 50MHz Ramp: 1μHz to 4MHz Arb: 1μHz to 40MHz The generator will renewedly sweep from the specified “start frequency” after start frequency or end frequency is changed. 6-2 DG4000 Series User’s Guide Chapter 6 Sweep RIGOL Center Frequency and Frequency Span You can also set the frequency boundaries of frequency sweep through center frequency and frequency span. Center Frequency = (|Start Frequency + End Frequency|) / 2 Frequency Span = End Frequency – Start Frequency When frequency sweep is enabled, press Start/Center to highlight “Center”. Notice that, “Span” in End/Span will also be highlighted. Use the numeric keyboard or direction keys and knob to enter the desired frequency values. By default, the center frequency is 550Hz and the frequency span is 900Hz. Different sweep waveform corresponds to different center frequency and frequency span range and center frequency and frequency span are interrelative. Define the minimum frequency of the waveform currently selected as Fmin , the maximum frequency as Fmax and Fm = ( Fmin + Fmax ) / 2 . The range of center frequency is from Fmin to Fmax and the parameters for different waveforms are as follows: Sine: 1μHz to 160MHz Square: 1μHz to 50MHz Ramp: 1μHz to 4MHz Arb: 1μHz to 40MHz Frequency span range is influenced by the center frequency: Center frequency < Fm : frequency span range is ±2× (center frequency – Fmin ); Center frequency ≥ Fm : frequency span range is ±2× ( Fmax – center frequency). Take sine as an example. Fmin is 1μHz, Fmax is 160MHz and Fm is about 80MHz. DG4000 Series User’s Guide 6-3 RIGOL Chapter 6 Sweep If the center frequency is 550Hz, the frequency span range is ±2× (550Hz–1μHz) = ±1.099999998kHz; if the center frequency is 155MHz, the frequency span range is ±2× (160MHz–155MHz) = ±10MHz. The generator will renewedly sweep from the specified “Start Frequency” after “Center Frequency” or “Frequency Span” is changed. Tip In large-scale sweep, the amplitude characteristic of the output signal might change. Sweep Type DG4000 provides three sweep types, including Linear, Log and Step, and the default is Linear. Linear Sweep The output frequency of the instrument varies linearly in the way of “several Hertz per second”. The variation is controlled by “Start Frequency”, “End Frequency” and “Sweep Time”. When Sweep is enabled, press SwpType to select “Linear”. A line is displayed on the waveform on the screen, indicating that the output frequency changes in linear mode. 6-4 DG4000 Series User’s Guide RIGOL Chapter 6 Sweep Figure 6-1 Linear Sweep Log Sweep The output frequency of the instrument varies in a logarithmic fashion, that is, the output frequency changes in the way of “octave per second” or “decade per second”. The change is controlled by “Start Frequency”, “End Frequency” and “Sweep Time”. When Log Sweep is enabled, users could set the following parameters: Start Frequency ( Fstart ), End Frequency ( Fstop ) and Sweep Time ( Tsweep ) The function prototype of Log Sweep is Fcurrent = P T . P and T could be expressed by the above-mentioned parameters: P = 10 DG4000 Series User’s Guide lg( Fstop / Fstart ) / Tsweep 6-5 RIGOL Chapter 6 Sweep T = t + lg( Fstart ) / lg( P ) Wherein, t is the time from the start of the sweep and its range is from 0 to Tsweep . Fcurrent is the instantaneous frequency of the current output. When Sweep is enabled, press SwpType to select “Log”. An exponential function curve is displayed on the waveform on the screen, indicating that the output frequency changes in a logarithmic mode. Figure 6-2 Log Sweep Step Sweep The output frequency of the instrument “steps” from “Start Frequency” to “End Frequency”. The duration of the output signal on each frequency point is 6-6 DG4000 Series User’s Guide RIGOL Chapter 6 Sweep determined by “Sweep Time” and “Step Number”. When Sweep is enabled, press SwpType to select “Step”. A step waveform is displayed on the waveform on the screen, indicating that the output frequency changes in “steps”. At this point, press to open the 2/2 menu page. Press StepNum and use the numeric keyboard or knob to input the step number. The default is 2 and the range is from 2 to 2048. Note: in “Linear” and “Log” sweep modes, StepNum is grayed out and disabled. Figure 6-3 Step Sweep Sweep Time When Sweep is enabled, press SwpTime and use the numeric keyboard or knob to change the sweep time. The default value is 1s and the available range is from 1ms to 300s. The generator will renewedly sweep and output from the specified “Start Frequency” once the sweep time is changed. DG4000 Series User’s Guide 6-7 RIGOL Chapter 6 Sweep Return Time The generator will always sweep from “Start Frequency” to “End Frequency” and stay within “End Hold” time. Return time describes the time needed for the output to return to “Start frequency” from “End frequency” after “End hold”. When Sweep is enabled, press ReturnTime and use the numeric keyboard or knob to change the return time. The default value is 0s and the available range is from 0s to 300s. The generator will renewedly sweep from the specified “Start Frequency” once the return time is changed. Mark Frequency The sync signal on the [Sync] connector corresponding to the channel at the front panel always changes from low-level to high-level at the start of each sweep, and changes from high-level to low-level at the middle of the sweep period when “Mark” function is disabled or at the specified mark frequency point when “Mark” function is enabled. When Sweep is enabled, press MarkFreq and select “On”, as shown in the figure below, use the numeric keyboard or knob to modify the mark frequency. The default value is 550Hz and the available range is limited by “Start Frequency” and “End Frequency”. The generator will renewedly sweep and output from the specified “Start Frequency” once the Mark Frequency is changed. Note: in step sweep mode, MarkFreq is grayed out and disabled. 6-8 DG4000 Series User’s Guide RIGOL Chapter 6 Sweep Figure 6-4 Mark Frequency Start Hold Start Hold is the duration that the output signal outputs with the “Start Frequency” after the sweep starts. After the Start Hold, the generator will output with varying frequency in the current sweep type. When Sweep is enabled, use to open the 2/2 menu page, then press Start Hold and use the numeric keyboard or knob to change the Start Hold. The default value is 0s and the available range is from 0s to 300s. The generator will renewedly sweep and output from the specified “Start Frequency” once the Start Hold is changed. DG4000 Series User’s Guide 6-9 RIGOL Chapter 6 Sweep End Hold End Hold is the duration that the output signal outputs with the “End Frequency” after the generator has swept from the “Start Frequency” to the “End Frequency”. When Sweep is enabled, use to open the 2/2 menu page, then press End Hold and use the numeric keyboard or knob to change the End Hold. The default value is 0s and the available range is from 0s to 300s. The generator will renewedly sweep and output from the specified “start frequency” once the End Hold is changed. Sweep Trigger Source The sweep trigger source could be internal, external or manual. The generator will generate a sweep output when a trigger signal is received and then wait for the next trigger. When Sweep is enabled, use to open the 2/2 menu page and press Source to select “Int”, “Ext” or “Manual”. The default is “Int”. 1. Internal Trigger The generator outputs continuous sweep waveform. The trigger period is determined by the specified sweep time, return time, start hold and end hold times. 2. External Trigger The generator accepts the trigger signal input from the [Mod/FSK/Trig] connector at the rear panel. A sweep will be generated once the connector gets a TTL pulse with specified polarity. To set the TTL pulse polarity, press SlopeIn to select “Leading” or “Trailing”. The default is “Leading”. Note that in “Int” and “Manual” trigger modes, the corresponding menu is TrigOut. The [Mod/FSK/Trig] connector at the rear panel is used as the output terminal of trigger signal. 6-10 DG4000 Series User’s Guide Chapter 6 Sweep RIGOL [Mod/FSK/Trig] 3. Manual Trigger A sweep will be generated from the corresponding channel once you press Trigger1 or Trigger2 at the front panel. Trigger Output Edge In Sweep mode, when “Int” or “Manual” trigger source is selected, the generator will output a TTL compatible signal with specified edge from the [Mod/FSK/Trig] connector at the rear panel. [Mod/FSK/Trig] Internal Trigger: the generator outputs a Square waveform with 50% duty cycle from the [Mod/FSK/Trig] connector at the beginning of the Sweep. The trigger period depends on the specified sweep time, return time, start hold and end hold. Manual Trigger: the generator outputs a Pulse waveform with greater than 1μs pulse width at the beginning of the Sweep from the [Mod/FSK/Trig] connector. External Trigger: the [Mod/FSK/Trig] connector is used as the input terminal of external trigger signal and has no trigger output. DG4000 Series User’s Guide 6-11 RIGOL Chapter 6 Sweep When “Int” or “Manual” trigger is selected, press TrigOut to set the edge type of the trigger output signal. The default is “Off”. Off: disable the trigger output signal. Leading: output the trigger signal at the rising edge. Trailing: output the trigger signal at the falling edge. 6-12 DG4000 Series User’s Guide Chapter 7 Burst RIGOL Chapter 7 Burst DG4000 can output waveform with specified number of cycles (called Burst) from a single channel or from dual channels at the same time. DG4000 supports control of burst output by internal, manual or external trigger source; supports three kinds of burst types including N cycle, infinite and gated. The generator can use Sine, Square, Ramp, Pulse, Noise (only for gated burst) or arbitrary waveform (except DC) to generate burst. Subjects in this chapter: To Enable Burst Mode Burst Type Burst Phase Burst Period Gated Polarity Burst Delay Burst Trigger Source Trigger Output Edge DG4000 Series User’s Guide 7-1 RIGOL Chapter 7 Burst To Enable Burst Mode Press Burst at the front panel to enable Burst function (the backlight of the key goes on), and Mod or Sweep function will be automatically disabled (if currently enabled). The generator will output burst waveform from the corresponding channel (if currently turned on) according to the current configuration. You can also reset the burst function menu. Please refer to the introduction in the following text for details. Burst Type DG4000 could output three types of bursts, including N Cycle, Infinite and Gated. The default is N Cycle. Table 7-1 Relations among burst type, trigger source and carrier waveform Burst Type Trigger Source Carrier Waveform N Cycle Int/Ext/Manual Sine/Square/Ramp/Pulse/Arbitrary waveform (except DC) Infinite Ext/Manual Sine/Square/Ramp/Pulse/Arbitrary waveform (except DC) Gated Ext Sine/Square/Ramp/Pulse/Noise/Arbitrary waveform (except DC) N Cycle Burst In N Cycle mode, the generator will output waveform with specified number of cycles after receiving trigger signal. Waveform functions that support N cycle burst include Sine, Square, Ramp, Pulse and arbitrary waveform (except DC). For N cycle burst, “Int”, “Ext” or “Manual” trigger source could be used. Besides, users can set the “Start Phase”, “Burst Period” (internal trigger), “Delay”, “SlopeIn” (external trigger) and “TrigOut” (internal and manual triggers). 7-2 DG4000 Series User’s Guide RIGOL Chapter 7 Burst When Burst is enabled, press Type to select “N_Cyc”. The parameter “Cycles” on the screen is highlighted and could be edited. At this point, use the numeric keyboard or knob to change the Cycles, the default is 1 and the available range is from 1 to 1 000 000 (external or manual trigger) or 1 to 500 000 (internal trigger). Figure 7-1 N Cycle Burst Infinite Burst In Infinite mode, the cycle number of the waveform is set as an infinite value. The generator outputs a continuous waveform after receiving trigger signal. Waveform functions that support infinite burst include Sine, Square, Ramp, Pulse and arbitrary waveform (except DC). For infinite burst, “Ext” or “Manual” trigger source could be used. Besides, users can set the “Start Phase”, “Delay”, “SlopeIn” (external trigger) and “TrigOut” (manual trigger). DG4000 Series User’s Guide 7-3 RIGOL Chapter 7 Burst When Burst is enabled, press Type to select “Infinite” and the instrument will set the trigger source to “Manual” automatically. An infinite cycle pulse sketch will appear on the screen. Figure 7-2 Infinite Burst Gated Burst In Gated Mode, the generator controls the waveform output according to the external signal level from the [Mod/FSK/Trig] connector at the rear panel. Waveform functions which support Gated Burst are Sine, Square, Ramp, Pulse, Noise and arbitrary waveforms (except DC). When the gated signal is “True”, the generator outputs a continuous waveform; when the gated signal is “False”, the generator completes the current period, and then stops and holds on the voltage level corresponding to the initial burst phase 7-4 DG4000 Series User’s Guide RIGOL Chapter 7 Burst of the selected waveform. For Noise waveform, the output will stop immediately once the gated signal becomes “False”. Gated Burst could only be triggered by “Ext” trigger source. Users can also set the “Start Phase”. When Burst is enabled, press Type to select “Gated” and then press Polarity to set the gated polarity as “Pos” (or “Neg”). The generator outputs burst waveform only when the gated signal is positive. Figure 7-3 Gated Burst DG4000 Series User’s Guide 7-5 RIGOL Chapter 7 Burst Burst Phase Burst phase is defined as the phase of the start point of the burst. When Burst is enabled, press Start Phase and then use the numeric keyboard or knob to input the desired phase, the default value is 0 ° and the available range is from 0 ° to 360 °. For Sine, Square and Ramp, 0 ° is the point where the waveform passes through 0 V (or DC offset value) positively. For arbitrary waveform, 0 ° is the first point of the waveform. For Pulse and Noise, Start Phase is unavailable. Burst Period Burst period is only available for N cycle burst in internal trigger and is defined as the time from the start of a burst to the start of the next burst. Burst period ≥ 1μs + waveform period × number of bursts. Here, waveform period is the period of burst function (such as Sine and Square). If the burst period is too short, the generator will increase this period automatically to allow the output of the specified number of cycles. When Burst is enabled, press Type “N_Cyc” Source “Int” Burst Period and use the numeric keyboard or knob to input the desired period value. The default is 10ms, and the available range is from 2μs to 500s. Gated Polarity Polarity is only available in gated burst mode. The instrument outputs burst when the gated signal at the [Mod/FSK/Trig] connector at the rear panel is “High Level” or “Low Level”. When Burst is enabled, press Type “Gated” Polarity to select “Pos” or “Neg”. The default is “Pos”. 7-6 DG4000 Series User’s Guide Chapter 7 Burst RIGOL Burst Delay Burst delay is only available for N cycle and infinite burst mode. It is defined as the time from when the generator receives the trigger signal to starts to output the N Cycle (or Infinite) burst. When Burst is enabled, press Type “N_Cyc” or “Infinite”, then press to open the 2/2 menu page and press Delay. Use the numeric keyboard or knob to input the desired delay. The delay is no less than 0s and no greater than 85s. The default is 0s. Burst Trigger Source Burst trigger source could be internal, external or manual. The generator will generate a burst output when a trigger signal is received and then wait for the next trigger. When Burst is enabled, press Source to select “Int”, “Ext” or “Manual”. The default setting is “Int”. 1. Internal Trigger When internal trigger is selected, the generator can only output N cycle burst and the burst frequency is determined by the “Burst Period”. 2. External Trigger When external trigger is selected, the generator can output N cycle, infinite or gated burst. The generator accepts the trigger signal from the [Mod/FSK/Trig] connector at the rear panel. A burst will be generated once the connector receives a TTL pulse with specified polarity. To set the TTL pulse polarity, press SlopeIn to select “Leading” or “Trailing” and the default setting is “Leading”. Note that in “Int” and “Manual” triggers, the corresponding menu is TrigOut. The [Mod/FSK/Trig] connector at the rear panel is used as the output terminal of trigger signal. DG4000 Series User’s Guide 7-7 RIGOL Chapter 7 Burst [Mod/FSK/Trig] 3. Manual Trigger When manual trigger is selected, the generator can output infinite or gated burst. A burst will be generated from the corresponding channel (if currently turned on) once you press Trigger1 or Trigger2 at the front panel. If the corresponding channel is not turned on, the trigger will be ignored. Trigger Output Edge In burst mode, when the trigger source is “Int” or “Manual”, the generator would output a TTL-compatible signal with specified edge from the [Mod/FSK/Trig] connector at the rear panel. [Mod/FSK/Trig] 7-8 In internal trigger, the generator outputs a square waveform with variable duty cycle (related to the carrier period and number of cycles) from the [Mod/FSK/Trig] connector at the start of burst. The trigger period is the same with the specified burst period. In manual trigger, the generator outputs a pulse with greater than 1μs pulse width from the [Mod/FSK/Trig] connector at the start of burst. In external trigger, the [Mod/FSK/Trig] connector is used as the input terminal of external trigger signal and has no trigger output. DG4000 Series User’s Guide Chapter 7 Burst RIGOL When “Int” or “Manual” trigger is selected, press TrigOut to specify the edge of the trigger output signal and the default is “Off”. Off: disable the trigger output signal. Leading: output the trigger signal at the rising edge. Trailing: output the trigger signal at the falling edge. DG4000 Series User’s Guide 7-9 Chapter 8 Counter RIGOL Chapter 8 Counter DG4000 provides a 7 digits/s counter which can measure various parameters (such as frequency, period, duty cycle, positive pulse width and negative pulse width) of external input signal and support statistic of measurement results. When the statistic function is enabled, the instrument calculates the maximum, minimum, average and standard deviation of the measurement values automatically and displays the variation tendency of the measurement values in “Digital” or “Curve” mode. In addition, the dual channels can still output normally when the counter is enabled. Subjects in this chapter: To Enable the Counter To Set the Counter Statistic DG4000 Series User’s Guide 8-1 RIGOL Chapter 8 Counter To Enable the Counter Press Counter at the front panel (the backlight of the key turns on) to enable counter function and enter counter setting interface as shown in the figure below. If the counter is currently turned on and the screen displays the counter interface, press Counter again to disable counter function. If the counter is currently turned on and the screen displays interfaces other than the counter interface, press Counter to switch to the counter interface. Gate Time Attenuation Coupling HF Reject Trigger Sensitivity Input Impedance Trigger Level Figure 8-1 Counter Parameter Setting Interface Note: the CH2 sync output will be disabled when the counter is enabled. 8-2 DG4000 Series User’s Guide Chapter 8 Counter RIGOL To Set the Counter You need to configure appropriate parameters for the counter. 1. TrigSens Set the trigger sensitivity of the measurement system. The default is 50% and the range available is from 0% to 100%. Press TrigSens. Use the numeric keyboard to input the desired value and select the unit “%” from the pop-up menu. 2. TrigLevel Set the trigger level of the measurement system. The system triggers and gets the measurement readings when the input signal reaches the specified trigger level. The default is 0V and the range available is from -2.5V to 2.5V. Press TrigLevel. Use the numeric keyboard to input the desired value and select the desired unit (V or mV) from the pop-up menu. 3. Impedance Set the input impedance to “50Ω” or “HighZ” and the default is “HighZ”. 4. Coupling Set the coupling mode of the input signal to “AC” or “DC” and the default is “AC”. 5. Atten Set the attenuation coefficient of the input signal to “X1” or “X10”. 6. HFReject High-frequency reject can be used to filter out the high-frequency components and improve the measurement accuracy in low-frequency signal measurement. Press HFReject to enable or disable the high-frequency reject function. DG4000 Series User’s Guide 8-3 RIGOL Chapter 8 Counter Note: enable high-frequency reject when low-frequency signal with lower than 1kHz frequency is measured to filter out high-frequency noise interference; disable high-frequency reject when high-frequency signal with greater than 1kHz frequency is measured. 7. Gate Time Press Gate Time to set the gate time of the measurement system and the default is “1ms”. GateT1 1ms GateT2 10ms GateT3 100ms GateT4 1s GateT5 10s GateT6 >10s 8. Measure Press Measure to select the type of parameter to be measured by the counter. The counter can measure the following parameters: frequency (“Freq”), period (“Peri”), duty cycle (“Duty”), positive pulse width (“+Width”) and negative pulse width (“–Width”) and the default is “Freq”. 9. Statist Press Statist to enable or disable statistic function. For detail information, please refer to “Statistic”. 10. Auto Press this key to set the counter parameters automatically. After the counter parameters are set, the generator measures the external input signal using the preset parameters. 8-4 DG4000 Series User’s Guide RIGOL Chapter 8 Counter Statistic When the statistic function is enabled, the instrument calculates the maximum, minimum, average and standard deviation of the measurement values automatically and displays the variation tendency of the measurement values in “Digital” or “Curve” mode. 1. To enable the statistic Press Statist Statist to enable or disable statistic function and the default is “OFF”. 2. To select display mode After the statistic function is enabled, press Display to set the display mode of the statistic result to “Digital” or “Curve”, as shown in Figure 8-2 and Figure 8-3. Figure 8-2 Statistic results (in “Digital” display mode) DG4000 Series User’s Guide 8-5 RIGOL Chapter 8 Counter Figure 8-3 Statistic results (in “Curve” display mode) 3. 8-6 To clear the statistic results Press Clear to remove the current statistic result. DG4000 Series User’s Guide Chapter 9 Store and Recall RIGOL Chapter 9 Store and Recall DG4000 can store the current instrument state and user-defined arbitrary waveform data in internal or external memory and recall them when needed. Subjects in this chapter: Storage System Overview To Select File Type To Select Browser Type File Operation DG4000 Series User’s Guide 9-1 RIGOL Chapter 9 Store and Recall Storage System Overview DG4000 could store the current instrument state or user-defined arbitrary waveform data in internal or external memory and recall them when needed. DG4000 provides an internal non-volatile memory (C Disk) and an external memory (D Disk). C Disk: provide 10 storage locations (STATE 1 to STATE 10) for state files and 10 storage locations (ARB 1 to ARB 10) for arbitrary waveform files. Users can store instrument states and arbitrary waveform files (created by users or downloaded using remote commands) to C Disk and copy the files in USB storage device to C Disk. D Disk: available when USB storage device is detected at the USB Host interface at the front panel. Press Store (the key backlight goes on) at the front panel to enable the Store/Recall function and open the Store/Recall interface as shown in the figure below. Figure 9-1 Store and Recall Interface 9-2 DG4000 Series User’s Guide Chapter 9 Store and Recall RIGOL Note that: DG4000 can only identify filenames consist of Chinese characters, English letters, number and underscore. If other characters are used to name the file or folder, the name might be displayed in the store and recall interface abnormally. DG4000 Series User’s Guide 9-3 RIGOL Chapter 9 Store and Recall To Select File Type Press Store File Type to select the desired file type. The file types available include State File, Arb File, Txt File, Csv File and All File. 1. State File Store the instrument state in internal or external memory in “*.RSF” format. At most 10 instrument states can be stored in internal memory. The 10 instrument states stored correspond to “User1” to “User10” in Utility Preset (refer to Restore Default). The state file stored includes waveforms selected, frequency, amplitude, DC offset, duty cycle, symmetry, phase and modulation, sweep, burst parameters used of the two channels and counter parameters. 2. Arb File Store the user-defined arbitrary waveform in internal or external memory in “*.RAF” format. At most 10 arbitrary files can be stored in internal memory. 3. Txt File Read the Txt files stored in external memory. The data of each line (can not be longer than 64 characters) is considered as an arbitrary waveform point and the data of all the lines in the file are normalized to form an arbitrary waveform. The arbitrary waveform is stored in volatile memory. The instrument will enter the Arb interface automatically when the “Read” operation is finished. Note: when “Dir” is selected in Browser, this menu is grayed out and disabled. 4. Csv File Read the csv files in external memory. The instrument will enter the Arb interface automatically when the “Read” operation is finished. The arbitrary waveform is stored in volatile memory. Note: when “Dir” is selected in Browser, this menu is grayed out and disabled. 9-4 DG4000 Series User’s Guide Chapter 9 Store and Recall RIGOL 5. All File Display all the files and folders in the currently selected directory. When this menu is selected, the store function is not available. To Select Browser Type Press Store Browser to switch between “Dir” and “File”. Use the knob to select the desired directory or file. Dir: when this type is selected, use the knob to switch between C Disk and D Disk (when USB storage device is inserted). File: when this type is selected, use the knob to switch files or folders under the current directory. DG4000 Series User’s Guide 9-5 RIGOL Chapter 9 Store and Recall File Operation When “File” is select as the browser type, users can perform a series of operations on files including Save, Read, Copy, Paste, Delete and New Directory. Save 1. To Select File Type Follow the introduction in To Select File Type to select the type of files to be saved. Note that if the current File Type is “All File”, the save operation is unavailable. 2. To Open the Filename Input Interface In Store/Recall interface, set the Browser as “File” and then press Save to enter the filename input interface as shown in the figure below. Filename Input Area Virtual Soft Keyboard Figure 9-2 Filename Input Interface (English) 9-6 DG4000 Series User’s Guide RIGOL Chapter 9 Store and Recall 3. To Input Filename Press InType to select “Chinese” or “English”. The length of the file or folder name is limited within 27 characters. English Input (include number input): Press +/- on the numeric keyboard to switch between uppercase and lowercase. Use the knob to select the desired character from the “virtual soft keyboard”, then press Select to select the character and the character selected would be displayed in the “Filename Input Area”. Use the same method to input all the characters needed. You can press Delete to delete the character at the cursor currently in the “Filename Input Area”. Chinese Input: Press +/- on the numeric keyboard to switch to lowercase. Pinyin Input Area Filename Input Area Virtual Soft Keyboard Chinese Character Display Area Figure 9-3 Filename Input Area (Chinese) Use the knob to select the desired character from the “virtual soft keyboard”, then press Select to select the character and the character DG4000 Series User’s Guide 9-7 RIGOL Chapter 9 Store and Recall selected would be displayed in the “Pinyin Input Area”. After inputting the pinyin of a Chinese character, use the numeric keyboard to select the No. of the desired Chinese character (if the desired Chinese character is not currently displayed, use the direction key to open the next page) and the Chinese character selected would be displayed in the “Filename Input Area”. Use the same method to input all the Chinese characters needed. You can press Delete to delete the character in the “Pinyin Input Area” and then the Chinese character at the cursor currently in the “Filename Input Area”. 4. To Save File After finishing inputting filename in the filename input interface, press Save, the generator will save the file under the currently selected directory with the specified filename and file type and display corresponding prompt message when the save operation succeeds. Recall 1. To Select File Type Follow the introduction in To Select File Type to select the type of file to be recalled. Note that if the current File Type is “All File”, the file to be recalled is the currently selected file. 2. To Select the File to be Recalled Set Browser as “Dir” and use the knob to select the directory in which the file to be recalled is stored. Then set Browser as “File”, and use the knob to select the file to be recalled. 3. To Recall File Press Read, the generator will read the currently selected file and display corresponding prompt message when the read operation succeeds. 9-8 DG4000 Series User’s Guide Chapter 9 Store and Recall RIGOL Copy 1. To Select the File to be Copied Set Browser as “Dir” and use the knob to select the directory in which the file to be copied is stored. Then set Browser as “File”, and use the knob to select the file to be copied. 2. To Copy File Press Copy, the generator will copy the file currently selected. Paste 1. To Copy a File Copy a file following the introduction in Copy. 2. To Select Paste Destination Set Browser as “Dir” and use the knob to select a paste destination directory. 3. To Paste File Press Paste, the generator will paste the copied file in the directory currently marked by the cursor and display corresponding prompt message when the paste operation succeeds. Delete 1. To Select File or Folder to be Deleted Set Browser as “Dir” and use the knob to select the directory in which the file or folder to be deleted is stored. Then set Browser as “File”, and use the knob to select the file or folder to be deleted. 2. To Delete File or Folder Press Delete, the generator will delete the currently selected file or folder (empty folder). DG4000 Series User’s Guide 9-9 RIGOL Chapter 9 Store and Recall New Directory DG4000 allows users to create new folders in external memory. Please make sure that a USB storage device is inserted and identified by the instrument. 1. To Select Memory In Store/Recall interface, set Browser as “Dir” and use the knob to select “D disk”. 2. New Directory Set Browser as “File”, use to open the 2/2 menu page and press New Directory to enter the folder name input interface ( same as shown in Figure 9-2 or Figure 9-3). Note: when “C Disk” is selected, this menu is unavailable. 3. To Input Folder Name Input the new folder name following the introduction in Save. 4. To Save Folder After finishing inputting the new folder name in the folder name input interface, press Save and the generator will create a new empty folder under the current directory. 9-10 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL Chapter 10 Utility and System Settings DG4000 allows users to configure the parameters of dual channels, configure remote interfaces and set system parameters. Subjects in this chapter: Overview Channel Setting To Use the External Power Amplifier (Option) To Configure the Remote Interface System Setting Print Test/Cal Channel Coupling Channel Copy User-defined Waveform Key Restore Default DG4000 Series User’s Guide 10-1 RIGOL Chapter 10 Utility and System Settings Overview Press Utility at the front panel to open the operation interface as shown in the figure below. This interface displays the current channel output configuration, channel coupling configuration and system parameters. Figure 10-1 Utility Interface 1. 2. 3. CH1Set: set the output parameters of CH1. CH2Set: set the output parameters of CH2. PA Setup: set the external power amplifier parameters (only available when the external power amplifier is connected). 4. I/O Setup: set the remote control interface parameters. 5. System: set the system parameters. 6. Print: set parameters related to screen print. 7. Test/Cal: calibrate DG4000 manually. 8. Coupling: set channel coupling parameters. 9. CH Copy: set channel copy parameters. 10. UserKey: define the shortcut of frequently used built-in waveform. 11. Preset: restore the generator to its default state or user-preset states. 10-2 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL Channel Setting This section takes CH1 for example to illustrate how to set the channel. The setting method for CH2 is quite the same. Sync DG4000 could output the sync signals of basic waveforms (except Noise), arbitrary waveforms (except DC), Harmonics, Sweep signal, Burst signal and modulated signal from a single channel or two channels at the same time. The sync signal is output from the [Sync] connector at the front panel. 1. Sync On/Off Enable or disable sync signal at the [Sync] connector. Press Utility CH1Set Sync to select “On” or “Off” for the sync signal output. The default is “On”, namely transmitting the sync signal to the [Sync] connector. If sync signal is disabled, the output level at the [Sync] connector is logic low. 2. Sync Signals of Various Waveforms For Sine, Square, Ramp and Pulse, the sync signal is a Square with 50% duty cycle. It is TTL high level relative to 0V (or DC offset) when the output is positive and TTL low level relative to 0V (or DC offset) when the output is negative. For arbitrary waveform, the sync signal is a square with variable duty cycle. The sync signal is TTL high level when the amplitude of the output waveform reaches certain value. For harmonics, sync signal is a square with variable duty cycle and takes the harmonic order as reference. For AM, FM, PM and PWM, in internal modulation mode, the sync signal is a Square with 50% duty cycle and takes modulating frequency as reference. It is TTL high level in the first half period of the modulation waveform. In external modulation mode, there is no sync signal output. For ASK, FSK, PSK, BPSK, QPSK, 3FSK and 4FSK, the sync signal takes ASK/FSK/PSK/BPSK/QPSK/3FSK/4FSK Rate as reference and is a Square DG4000 Series User’s Guide 10-3 RIGOL Chapter 10 Utility and System Settings with 50% duty cycle. For ASK, FSK and PSK, in external modulation mode, there is no sync signal output. For OSK, the sync signal is a square with 50% duty cycle and takes OSK rate as reference. The sync signal is TTL high level when the internal crystal oscillator starts to oscillate. In external modulation mode, there is no sync signal output. For Sweep, when “Mark” is disabled, the sync signal is a Square with 50% duty cycle. It is TTL high level at the start of the sweep and changes to TTL low level at mid-point of the Sweep and its frequency corresponds to the specified sweep time, return time, start hold and end hold times. When “Mark” is enabled, the sync signal is TTL high level when sweep starts and transforms to TTL low level at the marked frequency point. For a N cycle burst, the sync signal is TTL high level when burst starts and transforms to TTL low level while the specified number of cycles end (if the waveform has a relative start phase, the crossing point may not be zero). For an infinite burst, its sync signal is the same as the sync signal of a continuous waveform. For an external Gated burst, its sync signal follows its gated signal. Note that the sync signal will not transform to TTL low level until the last period is finished (if the waveform has a relative start phase, the crossing point may not be zero). Sync Polarity Set the sync signal on the [Sync] connector as normal or inverted. Press Utility CH1Set Polarity to select “Pos” or “Neg”. Pos: output normal sync signal. Neg: output inverted sync signal. Notice that the sync signal related to the waveform is not inverted even when the waveform is inverted. 10-4 DG4000 Series User’s Guide RIGOL Chapter 10 Utility and System Settings Output Polarity Set the signal on the [Output1] connector as normal or inverted. Waveform inverts relatively to the offset voltage. Press Utility CH1Set Output to select “Normal” or “Invert”. The default is “Normal”. The waveform of the first half period of the cycle is positive in “Normal” mode and negative in “Invert” mode. Normal Invert Normal Invert 0V Offset 0V Pay attention to the following after the waveform inverts: None of the offset voltage would change. Waveform is not inverted in graphic mode. Sync signal related to the waveform is not inverted. Resistance Setting Resistance setting is applicable to output amplitude and DC offset voltage. DG4000 has a 50Ω fixed serial output resistance for the [Output1] connector at the front panel. If the actual load does not match the specified value, the voltage level displayed would not match the voltage level of the component under test. To ensure correct voltage level, the load resistance setting must match the actual load. Press Utility CH1Set Resi to select “HighZ” or “Load”. The default is “HighZ”. If “Load” is selected, use the numeric keyboard to set specific resistance value. The default is 50Ω and the available range is from 1Ω to 10kΩ. Resistance setting will be displayed on the screen. As shown in the figure below, CH1 resistance setting is a specified value “50 Ω” and CH2 resistance setting is “HighZ”. DG4000 Series User’s Guide 10-5 RIGOL Chapter 10 Utility and System Settings Resistance Setting Figure 10-2 Resistance Setting The generator will adjust the output amplitude and offset voltage automatically once the resistance setting is changed. For example, the current amplitude is 5Vpp. At this point, change the output resistance from 50Ω to HighZ and the amplitude displayed on the screen will double to 10Vpp. If the output resistance is changed from HighZ to 50Ω, the amplitude will reduce to half of the previous value (2.5Vpp). Notice that only the displayed values change with the parameter and the real output from the generator does not change. Noise Setting DG4000 supports to superpose a gauss noise onto its output signal. This function is called noise superposition. The signal superposed with noise can be used to test the anti-noise capability of instrument. Press Utility CH1Set Noise to enable or disable noise superposition function. The default is “OFF”. When Mod, Sweep or Burst is enabled, this menu is grayed out and disabled. Noise Scale Set the percentage of the amplitude of the noise superposed onto the output signal takes up in the signal amplitude. Press Utility CH1Set Noise Scale. Use the numeric keyboard to input the desired value and select the unit “%” from the unit menu. The range available is from 0% to 50% and the default is 10%. Note that Noise Scale is grayed out and disabled when noise superposition function is disabled. 10-6 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL To Use the External Power Amplifier (Option) You can connect external power amplifier to DG4000 and set the power amplifier parameters to amplify the signal before output. To use the external power amplifier, install the PA1011 option. PA1011 is an optional accessory for RIGOL DG series function/arbitrary waveform generators. PA1011 provides 1MHz maximum full power bandwidth and greater than 80V/µs output slew rate. It can be used with any of the DG series products to quickly build test platform or be used with other signal generators as an independent power amplifier. Main features of PA1011: Flexible and easy communication with the RIGOL DG series signal generator or PC via the USB interface. Users can set the gain (X1 or X10), polarity (normal or invert), output offset and output switch of the amplifier via the RIGOL DG series signal generator or the PC software. Provide up to 50kΩ input impedance. An integrated output protection circuit (output overcurrent protection and internal temperature abnormity protection) ensures the stable, reliable and safe operation of the instrument. Small in size, portable and easy to use. DG4000 Series User’s Guide 10-7 RIGOL Chapter 10 Utility and System Settings Front Panel: Status Indicator Signal Output Terminal Signal Input Terminal Status Indicator Power: illuminated in red indicating that the power is successfully connected. Output: illuminated in green indicating that the output is enabled. Link: illuminated in yellow indicating that the USB connection is successful. CAUTION The input impedance of the instrument (Zi) is 50kΩ. The range of the input voltage is from -10V to +10V when the voltage gain is X1 and from -1.25V to +1.25V when the voltage gain is X10. When the input exceeds these ranges, the instrument might be damaged or hazardous might occur. CAUTION The output impedance of the instrument (Zo) is less than 2Ω. The range of the output voltage is from -12V to +12V. The actual output voltage can reach ±12.5V, but the total harmonic distortion of the waveform will increase. 10-8 DG4000 Series User’s Guide RIGOL Chapter 10 Utility and System Settings Rear Panel: USB Device Power Input Terminal Fan Cooling Apertures CAUTION Do not use other type of adapter to provide power for PA1011; otherwise, the instrument performance might be affected or the instrument might be permanently damaged. CAUTION Make sure that the vents at the side and the fan cooling apertures at the rear panel of PA1011 are not blocked during operation to avoid affecting the normal operation of the instrument. PA1011 Accessories: Name Qty. Explanation Power Cord 1 Connect AC power to the power adapter. Power Adapter 1 Output 12V, 4A signal. USB Cable 1 Connect PA1011 and DG4000. BNC Cable 1 Connect PA1011 and DG4000. CD 1 Provide the PC software installation program of PA1011. DG4000 Series User’s Guide 10-9 RIGOL Chapter 10 Utility and System Settings Connect DG4000 and PA1011: Output BNC Cable PA1011 DG4000 USB Host Input USB Cable USB Device Output After the power amplifier is successfully connected, press Utility PA Setup to open the parameter setting interface of the power amplifier. 1. Switch Press this key to enable or disable the external power amplifier. When enabled, PA amplifies the input signal and then output it. When disabled, there is no output from PA. 2. Gain Press this key to set the amplification gain of the signal output from the power amplifier to “X1” or “X10”. Wherein, “X1” indicates output without gain and “X10” indicate amplifying the signal for 10 times and then output it. 3. Output Press this key to set the output signal of the power amplifier to “Normal” or “Invert”. 4. Offset Press this key to enable or disable the output offset at the output terminal of the power amplifier. When it is enabled, use the numeric keyboard or knob to set the offset and the range is from -12V to +12V (the default is 0V). 5. Store Press this key to store the current working state of the power amplifier to its internal memory. When the power amplifier is enabled the next time, it will automatically recall the last working state stored. 10-10 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL Tip For the specifications of PA1011, refer to Appendix B. DG4000 Series User’s Guide 10-11 RIGOL Chapter 10 Utility and System Settings To Configure the Remote Interface DG4000 is configured with USB and LAN interfaces and supports users to configure the interface parameters for remote communication. Press Utility I/O Setup to open the I/O setting menu and set the LAN interface parameters for remote communication or select the type of device connected to the USB interface. LAN Setting Press Utility I/O Setup LAN to open the LAN parameters configuration interface as shown in the following figure. Users can examine network status and configure network parameters. Current IP Configure Mode Network Status IP Configure Mode status MAC Address VISA Descriptor Figure 10-3 LAN Setting Interface Network Status Different prompt messages will be provided by the generator based on the current network status. Connected: LAN connection is successful. Disconnect: LAN connection is unsuccessful. 10-12 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL MAC Address MAC (Media Access Control) address, also called hardware address, is used for defining the position of the network device. For a generator, the MAC address is always unique. It is always used to identify the instrument while assigning IP address for instrument. MAC address (48 bits, namely 6 bytes) is usually expressed in hexadecimal format, such as 00-14-0E-42-12-CF. VISA Descriptor VISA (Virtual Instrument Software Architecture) is an advanced application programming interface developed by NI (National Instrument) for communications with various instrument buses. It uses the same method to communicate with instruments regardless of the types of the instrument interfaces (GPIB, USB, LAN/Ehternet or RS232). The GPIB, USB, LAN/Ethernet or RS232 instrument is called “resource”. VISA descriptor is the resource name and describes the accurate name and location of the VISA resource. If LAN interface is currently used for communication with the instrument, the VISA descriptor is TCPIP0::172.16.2.13::INSTR. IP Configure Mode IP configure mode could be DHCP, AutoIP or ManualIP. If the network is disconnected currently, there will be nothing to display behind “IP Configure Mode:”. In different IP configuration modes, the configuration modes of network parameters (such as IP address) are different. 1. DHCP In DHCP mode, DHCP server in the current network assigns LAN parameters, e.g. IP address, for the generator. Press DHCP to select “On” or “Off” to turn DHCP mode on or off. 2. AutoIP In AutoIP mode, the generator acquires IP address within 169.254.0.1 DG4000 Series User’s Guide 10-13 RIGOL 3. Chapter 10 Utility and System Settings and 169.254.255.254 and subnet mask 255.255.0.0 automatically according to the current network configuration. Press AutoIP to select “On” or “Off” to turn AutoIP mode on or off. To enable this mode, set DHCP as “Off”. ManualIP In ManualIP mode, the LAN parameters of the generator, e.g. IP address, are defined by users. Press ManualIP to select “On” or “Off” to turn ManualIP mode on or off. To enable this mode, set DHCP and AutoIP as “Off”. The IP address format is nnn.nnn.nnn.nnn. The first nnn ranges from 0 to 223 (except 127) and the other three nnn range from 0 to 255. It is recommended that users acquire an available IP from their network administrator. Press IP Address and use the numeric keyboard and direction keys to enter your desired IP. The setting is stored in non-volatile memory and will be loaded automatically when the generator is powered on the next time if DHCP and AutoIP are set as “Off”. Tips 10-14 If all the three IP configuration modes are “On”, the priority of parameters configuration from high to low is “DHCP”, “AutoIP” and “ManualIP”. The three IP configuration modes cannot be set as “Off” at the same time. DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL To Set Subnet Mask In ManualIP mode, the subnet mask could be manually set. The format of subnet mask is nnn.nnn.nnn.nnn, where nnn ranges from 0 to 255. It is recommended that users acquire an available subnet mask from their network administrator. Press SubMask and use the numeric keyboard and direction keys to enter your desired subnet mask. The setting is stored in non-volatile memory and will be automatically loaded when the generator is powered on the next time if DHCP and AutoIP are set as “Off”. To Set Default Gateway In ManualIP mode, the default gateway could be manually set. The format of default gateway is nnn.nnn.nnn.nnn, where the first nnn ranges from 0 to 223 (except 127) and the other three nnn range from 0 to 255. It is recommended that users acquire an available default gateway from their network administrator. Press Default Gateway and use the numeric keyboard and direction keys to enter your desired gateway address. The setting is stored in non-volatile memory and will be automatically loaded when the generator is powered on the next time if DHCP and AutoIP are set as “Off”. To Set Domain Name Server (DNS) In ManualIP mode, the DNS could be manually set. The DNS format is nnn.nnn.nnn.nnn, where the first nnn ranges from 0 to 223 (except 127) and the other three nnn range from 0 to 255. It is recommended that users acquire an available DNS address from their network administrator. Press DNS Server and use the numeric keyboard and direction keys to enter your desired DNS address. The setting is stored in non-volatile memory and will be automatically loaded when the generator is powered on the next time if DHCP and AutoIP are set as “Off”. DG4000 Series User’s Guide 10-15 RIGOL Chapter 10 Utility and System Settings Default Configuration Press Default Config and the prompt message “Restore network settings to preset values of LXI?” is displayed. Press OK to restore the network parameters to their default values. By default, DHCP and AutoIP are enabled and ManualIP is disabled. Current Configuration Press Current Config to examine the MAC address of the current instrument, the current LAN parameters and LAN status information. OK Press Ok to enable the current setting of LAN parameters. 10-16 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL To Set USB Device Type The USB Device interface at DG4000 rear panel could be connected with PC or PictBridge printer to control the instrument remotely or to print the contents displayed on the screen. Press Utility I/O Setup USB Dev: Select “PC”: users can use PC software to edit arbitrary waveform and download it to the internal memory of the generator. Users can also use the SCPI commands to control the generator. Select “Printer”: press Utility Print Dest to select “Printer”. Users can press Print to print the contents currently displayed in the interface. DG4000 Series User’s Guide 10-17 RIGOL Chapter 10 Utility and System Settings System Setting Number Format You can set the display formats of the decimal point and thousands separator in number parameters. This setting is stored in non-volatile memory. Press Utility System Number Format to enter the number format setting interface. Decimal Point: could be set as dot “.” or comma “,” and the default is dot “.”. Thousands separator: could be set as “On”, “Off” or “Space”. The default is “On”. Number format has 6 combinations, as shown in the figure below: Dot + On (Comma) Dot + Space Dot + Off Comma + On (Dot) Comma + Space Comma + Off Note: Decimal point and thousands separator cannot be set as dot or comma at the same time. 10-18 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL Language At present, DG4000 supports simplified Chinese and English system languages, including Chinese/English menu, help information, prompt messages, interface display and Chinese/English input method. Press Utility System Language to select the desired language. This setting is stored in non-volatile memory and will not be influenced by “Preset”. Power On Setting Set the configuration to be used when the instrument is powered on the next time to “Default” or “Last”. The default setting is “Default”. Last: include all the system parameters, except output configuration, clock source. Default: denote the factory default except some parameters (such as: Language). Press Utility System PowerOn to select the desired configuration type. This setting is stored in non-volatile memory and will not be influenced by “Preset”. Power Setting Set the start-up mode when the generator is powered on to “Auto” or “Manual” and the default is “Auto”. Auto: the instrument starts automatically after power-on. Manual: users need to press the power switch at the front panel to start the instrument after power-on. Press Utility System PowerSet to select the desired type. DG4000 Series User’s Guide 10-19 RIGOL Chapter 10 Utility and System Settings Brightness Press Utility System Light and use the numeric keyboard or knob to set the brightness of the screen. The range is from 1% to 100%. This setting is stored in non-volatile memory and will not be influenced by “Preset”. Beeper When the beeper in DG4000 is enabled, a beep is generated when an error occurs during front panel or remote operation. Press Utility System Beep to select “On” or “Off” and the default is “On”. The current setting is stored in non-volatile memory and will not be influenced by “Preset”. Screen Saver Enable or disable screen saver mode. Press Utility System ScrnSvr to select “On” or “Off” and the default is “Off”. The current setting is stored in non-volatile memory and will not be influenced by “Preset”. Clock Source DG4000 provides internal 10MHz clock source and accepts external clock source from the [10MHz In/Out] connector at the rear panel. It can also output clock source from the [10MHz In/Out] connector. Press Utility System CLK to select “Int” or “Ext”. The default is “Int”. If 10-20 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL “Ext” is selected, the instrument will detect whether a valid external clock signal is input from the [10MHz Out/In] connector at the rear panel. If no valid clock source is detected, the prompt message “Not detect a valid external clock!” would be displayed and the clock source would be switched to “Int”. Users can also synchronize two or more instruments by setting the clock source. When two instruments are synchronized, the “Align Phase” function can not be used. “Align phase” is only applicable to be used to adjust the phase relation between two output channels of the same instrument and can not be used to change the phase relation between the output channels of two instruments. Users can change the phase relation between two instruments by change the “Start Phase” of each channel. Sync methods for two or more instruments: Synchronization between two instruments: Connect the [10MHz In/Out] connector of Generator A (“Internal” clock) to the [10MHz In/Out] connector of Generator B (“External” clock) and set the output frequencies of A and B as a same value to realize synchronization between two instruments. Synchronization among multi-instruments (Method 1): Connect the [10MHz In/Out] connector of Generator A (“Internal” clock) to the [10MHz In/Out] connector of Generator B (“External” clock), then connect the [10MHz In/Out] connector of Generator B with the [10MHz In/Out] connector of Generator C (“External” clock), etc. Finally, set the output frequencies of all the generators as a same value to realize synchronization among multi-instruments. Synchronization among multi-instruments (Method 2): Divide the 10MHz clock source of a Generator (“Internal” clock) into multiple channels, and then connect them to the [10MHz In/Out] connectors of other generators (“External” clock) respectively, and finally set the output frequencies of all the generators as a same value to realize synchronization among multi-instruments. DG4000 Series User’s Guide 10-21 RIGOL Chapter 10 Utility and System Settings System Information Press Utility System Sys Info and the model, serial number, software, FPGA, hardware and keyboard version numbers are displayed in the system information interface. 10-22 DG4000 Series User’s Guide RIGOL Chapter 10 Utility and System Settings Print Users could store the contents displayed on the screen into external USB storage device in picture format or print them via PictBridge printer. Press Utility Print to open the print setting interface. 1. To Print the Screen Using PictBridge Printer First, connect the pictBridge printer. Connect the USB Device interface of the signal generator to the USB Host interface of the Printer using USB cable (as shown in the figure below). USB Cable DG4000 PictBridge Printer USB Host USB Device Press Utility I/O Setup USB Dev to set the device type to “Printer”. Press Utility Print Dest to select “Printer”. Then, press PictBridge to enter the print setting menu. Copies: press this softkey and use the knob to input the number of copies to be printed. The range is from 1 to 1000. Palette: press this softkey to set the color of the image to “Gray” or “Color”. Inverted: press this softkey to enable or disable inverted print. 2. To Store Screen to USB Storage Device Please connect a USB storage device first. When the connection succeeds, an icon will be displayed in the status bar on the screen and the corresponding prompt message will be displayed. Press Utility Print Dest to select “U Disk” and then press Format to set to store the screen picture in “Bmp” or “Jpeg” format. 3. To Execute Print Press Print at the front panel and the generator will print the screen via the PictBridge printer or store the screen in USB storage device in picture format according to the preset configuration. DG4000 Series User’s Guide 10-23 RIGOL Chapter 10 Utility and System Settings Note: if no PictBridge printer is currently connected to the generator or no USB storage device is detected, the print operation would fail and the prompt message “PictBridge equipment is not connected.” or “USB flash driver not detected. Print invalid.” would be displayed. 10-24 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL Test/Cal Press Utility at the front panel, use to select the 2/2 page menu and press Test/Cal to open the Test/Cal interface. You can calibrate DG4000 manually after inputing the correct calibration password. 1. Secure Code Press this key and use the knob and direction keys to enter the correct calibration password. 2. Secure By default, this menu is “On”. It will be “Off” only when the correct calibration password is entered. 3. CaliSelf This menu is available after the correct calibration password is entered. You can refer to the DG4000 Calibration Guide to calibrate the instrument manually. 4. Preset Press this softkey and the calibration values are restored to their default values. Note: manual calibration by users is not recommended. If calibration is required, please contact RIGOL customer service department or the local distributor. DG4000 Series User’s Guide 10-25 RIGOL Chapter 10 Utility and System Settings Channel Coupling DG4000 supports to enable frequency, phase and amplitude couplings separately or at the same time. When coupling is enabled, set CH1 or CH2 as the “base” channel and set the frequency, phase or amplitude deviation of the two channels. Then when the frequency, phase or amplitude of the base channel is changed, the corresponding parameter of the other channel will change automatically and always keeps the specified frequency, phase or amplitude deviation. Press Utility at the front panel, use to open the 2/2 menu page and press Coupling to enter the channel coupling interface. 1. To Set the Coupling Base Press Base to set “CH1” or “CH2” as the base source of coupling. Here, “CH2” is selected. Note that the coupling base can not be changed when the coupling function is enabled. At this point, this menu is grayed out and disabled. 2. To Enable Coupling Function Press Coupling to turn “On” or “Off” the coupling function. The default is “Off”. Press FreqCoup to turn frequency coupling “On” or “Off”. After frequency coupling is enabled, use the numeric keyboard to input the desired frequency deviation. Here, it is set to “100Hz”. Press PhaseCou to turn phase coupling “On” or “Off”. After phase coupling is enabled, use the numeric keyboard to input the desired phase deviation. Here, it is set to “10°”. Press AmpCoup to turn amplitude coupling “On” or “Off”. After amplitude coupling is enabled, use the numeric keyboard to input the desired amplitude deviation. Here, it is set to “1Vpp”. Parameter relations between CH1 and CH2: FCH1=FCH2 + 100Hz PCH1=PCH2 + 10° ACH1=ACH2 + 1Vpp Green “*” marks are displayed on the left of the frequency, phase and amplitude of the coupling base source as shown in the figure below, indicating that the 10-26 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL generator is in frequency, phase and amplitude couplings. Change the frequency, phase and amplitude of CH2 to 100Hz, 0° and 1Vpp respectively and the parameters of CH1 will change to 200Hz, 10° and 2Vpp automatically. Coupling Mark Figure 10-4 Channel Coupling Key Points: Channel coupling is only available when the waveforms of the two channels are basic waveforms, including Sine, Square, Ramp and Arbitrary waveform (except DC). If the sum of the frequency, phase or amplitude of the base channel and the corresponding deviation set exceeds the upper limit of frequency, phase or amplitude of the non-base channel, the generator will adjust the frequency, phase or amplitude of the non-base channel to avoid parameter overrange. The frequency, phase and amplitude of the non-base channel can not be modified directly. When the phase of the base channel is changed, the phase (phase displayed on the interface) of the non-base channel will change accordingly. At this point, align phase between the two channels can be realized without executing the Align Phase operation. DG4000 Series User’s Guide 10-27 RIGOL Chapter 10 Utility and System Settings Channel coupling and channel copy are mutually exclusive. The prompt message “Channel copy not allowed in Coupling mode.” would be displayed if users execute channel copy operation (press CH1=CH2 at the front panel) when channel coupling is enabled. 10-28 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL Channel Copy DG4000 supports state copy or waveform copy function between its two channels, namely copy the state (parameters and output configuration) or arbitrary waveform parameters of one channel to the other or swap the states of the two channels. Press Utility CH Copy to set the parameters of channel copy. This setting will not be affected by the preset operation. 1. Copy Type Press Utility CH Copy Type at the front panel to set the content of channel copy to “Sate” or “Wave”. State: include waveform (except volatile waveform) and waveform parameters (such as frequency and amplitude), functions (such as modulation, sweep and burst) as well as output configurations (such as sync, resistance and polarity) of the channel. Wave: arbitrary waveform data (except waveform parameters). Available only when both of the two channels select arbitrary waveforms. 2. Copy Direction Press Utility CH Copy Direction to set the direction of channel copy as “CH1->CH2”, “CH2->CH1” or “Swap” (only available when the copy type is set to “State”, swap the states of CH1 and CH2). Then, press CH1 CH2 at the front panel under any interface to execute the channel copy operation. Note: Channel coupling and channel copy are mutually exclusive. Channel copy (press CH1 CH2 at the front panel) is forbidden when channel coupling is enabled. DG4000 Series User’s Guide 10-29 RIGOL Chapter 10 Utility and System Settings User-defined Waveform Key The User key at the front panel of DG4000 provides a shortcut for users. You can define this shortcut key as the desired built-in waveform or waveform stored. You can recall and set the desired waveform under any operation interface once you press this shortcut key. To modify the waveform recalled by this shortcut key, press Utility UserKey to open the user-defined waveform interface. Use the knob to select the desired waveform (such as: AbsSine) from the interface, use to open the 2/2 menu page and then press Select. Note: to define User as the shortcut key of the stored waveform, press Utility UserKey, use to open the 2/2 menu page and press Stored to select the desired file. Stored is only available when “.RAF” file is currently stored in the instrument. Figure 10-5 User-defined Waveform Interface At this point, pressing User under any interface would output AbsSine signal from the corresponding channel (if currently turned on) and you can also modify the AbsSine signal parameters. 10-30 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL Figure 10-6 Press User Key to Quickly Edit Waveform Parameters DG4000 Series User’s Guide 10-31 RIGOL Chapter 10 Utility and System Settings Restore Default Restore the generator to its default state or user-preset states. Default State: the parameter values are as shown in the table below. Note that items marked with “*” will not be affected by the preset operation. User-preset States: correspond to the 10 state files stored in internal memory. Press Utility Preset to select “Default” or one of “User1” to “User10”. Press Preset at the front panel under any state to switch the instrument to the specified state. Note that before selecting “User1” to “User10”, make sure that valid state file is stored in the corresponding storage location. Table 10-1 Factory Default Values Parameters Defaults Channel Parameters Current Carrier Waveform Sine Output Resistance HighZ Sync Output On Sync Polarity Pos Output Polarity Normal Noise OFF Noise Scale 10% Coupling Off Coupling Base CH1 Phase Deviation 0° Frequency Deviation 0μHz Amplitude Deviation 0Vpp Basic Waveform Frequency 1kHz Amplitude 5Vpp Amplitude Unit Vpp Offset 0VDC Start Phase 0° 10-32 DG4000 Series User’s Guide Chapter 10 Utility and System Settings Square Duty Cycle 50% Ramp Waveform Symmetry 50% Pulse Duty Cycle 50% Pulse Width 500μs Pulse Leading Edge 1.9531μs Pulse Trailing Edge 1.9531μs RIGOL Arb Waveform Built-in Arbitrary Waveform Sinc Point By Point Output Off Harmonic Order 2 Type Even Amplitude 1.264,7Vpp 0° Phase AM Modulation Modulation Source Int Modulating Waveform Sine AM Frequency 100Hz Modulation Depth 100% FM Modulation Modulation Source Int Modulating Waveform Sine FM Frequency 100Hz Frequency Deviation 1kHz PM Modulation Modulation Source Int Modulating Waveform Sine PM Frequency 100Hz Phase Deviation 90° PWM Modulation DG4000 Series User’s Guide 10-33 RIGOL Chapter 10 Utility and System Settings Modulation Source Int Modulating Waveform Pulse Modulating Frequency 100Hz Width Deviation 200μs Duty Cycle Deviation 20% ASK Modulation Modulation Source Int ASK Rate 100Hz Modulating Amplitude 2Vpp ASK Polarity Pos FSK Modulation Modulation Source Int FSK Rate 100Hz Hop Frequency 10kHz FSK Polarity Pos PSK Modulation Modulation Source Int PSK Rate 100Hz PSK Phase 180° PSK Polarity Pos BPSK Modulation Rate 100Hz Phase 180° Modulating Waveform Sine QPSK Modulation Rate 100Hz Phase 1 45° Phase 2 135° Phase 3 225° Modulating Waveform Sine 10-34 DG4000 Series User’s Guide Chapter 10 Utility and System Settings RIGOL 3FSK Modulation Key Frequency 100Hz Hop Frequency 1 100Hz Hop Frequency 2 100Hz 4FSK Modulation Key Frequency 100Hz Hop Frequency 1 100Hz Hop Frequency 2 100Hz Hop Frequency 3 100Hz OSK Modulation Modulation Source Int Rate 1kHz Oscillate Time 100μs Sweep Sweep Type Linear Step 2 Sweep Time 1s Start Hold 0s End Hold 0s Return Time 0s Start Frequency 100Hz End Frequency 1kHz Center Frequency 550Hz Frequency Span 900Hz Mark Frequency Off Trigger Source Int Trigger Output Off Slope Input Leading Burst Burst Mode N Cycle Cycle Number 1 Start Phase 0° DG4000 Series User’s Guide 10-35 RIGOL Chapter 10 Utility and System Settings Delay 0s Gated Polarity Pos Trigger Source Int Trigger Output Off Trigger Input Leading Trigger Period 10ms System Parameter DHCP On Auto IP On Manual IP Off Beeper On Power On Setting Default Screen Saver On Clock Source Internal Decimal Point Dot Thousand Separator Comma Brightness* Factory Delivery Setting Language* Factory Delivery Setting Print Destination USB Storage Device Picture Format Bmp Counter Sensitivity 50% Trigger Level 0V Input Resistance HighZ Coupling AC Attenuation ×1 HF Reject OFF Gate Time 1ms Measurement Item Frequency Statistic Function OFF Display Format Digital 10-36 DG4000 Series User’s Guide Chapter 11 Remote Control RIGOL Chapter 11 Remote Control Users can control DG4000 through remote interfaces. This chapter provides basic information and method of remote control of the instrument. Subjects in this chapter: Remote Control Overview Remote Control Mode DG4000 Series User’s Guide 11-1 RIGOL Chapter 11 Remote Control Remote Control Overview DG4000 can communicate with PC through USB or LAN interface to realize remote control on the basis of SCPI commands (Standard Commands for Programmable Instruments). DG4000 supports SCPI 1999.1. When the instrument is working in remote mode, the indicator in the upper right corner of the user interface will light and the keys at the front panel are locked. Now you can return the instrument to local mode by pressing Burst. 11-2 DG4000 Series User’s Guide Chapter 11 Remote Control RIGOL Remote Control Mode Remote control of DG4000 on the basis of SCPI commands mainly contains the following two modes: 1. To control DG4000 by programming 2. To control DG4000 by using PC software User-defined Programming Users can program and control DG4000 by using the SCPI commands on the basis of NI-VISA (National Instrument – Virtual Instrument Software Architecture) library. 1. Install NI-VISA Library You need to install the VISA library of NI (download from http://www.ni.com/visa/) on your PC. NI-VISA is an application program interface developed by NI according to the VISA standards. You can use NI-VISA to realize the communication between the generator and PC through instrument buses (such as USB). VISA defines a set of software commands with which users can control the instrument without the need to understand how the interface bus works. For details, please refer to NI-VISA Help. 2. Build Communication between Instrument and PC You need to build the communication between the generator and PC. USB Interface: use USB cable to connect the generator and PC. At this point, the hardware update wizard dialog box is displayed. Then, follow the instructions to install the “USB Test and Measurement Device”. Steps: 1) Select “Install the software automatically (Recommended)”; 2) Click “Next”; DG4000 Series User’s Guide 11-3 RIGOL Chapter 11 Remote Control 1 2 3) 4) Select “Don’t search. I will choose the driver to install”; Click “Next”; 3 4 5) 6) 11-4 Select “USB Test and Measurement Device”; Click “Next”; DG4000 Series User’s Guide RIGOL Chapter 11 Remote Control 5 6 7) When the installation is finished, click “Finish”. DG4000 Series User’s Guide 11-5 RIGOL Chapter 11 Remote Control 7 3. 11-6 LAN Interface: connect your generator to the local area network of the PC and set the network parameters correctly following the instructions in LAN Setting. Programming Then, you can select a familiar software developing tool for programming. The developing tools available include Visual C++ 6.0, Visual Basic 6.0, LabVIEW 8.6 and etc. For detailed information about SCPI commands and programming method of DG4000, refer to DG4000 Programming Guide. DG4000 Series User’s Guide Chapter 11 Remote Control RIGOL To Use PC Software You can control DG4000 remotely by sending SCPI commands using PC software. PC software supported by DG4000 includes: General PC software Ultra Sigma of RIGOL Measurement & Automation Explore of NI (National Instrument Corporation) Agilent IO Libraries Suite of Agilent (Agilent Technologies, Inc.) This section introduces in details how to use Ultra Sigma to send commands through USB and LAN interfaces to control DG4000. Please refer to Ultra Sigma Help to install the software and the components required correctly. 1. To Control the Instrument through USB 1) Connect the devices Connect the generator (use the USB Device interface at the rear panel) with your PC using USB cable. 2) Install the USB drive As the generator is a USB-TMC device, after you connect the generator to the PC and turn both on, the PC will display the hardware update wizard dialog box. Please install the “USB Test and Measurement Device” driver following the directions of the wizard. 3) Search device resource Start up Ultra Sigma, the software starts searching the generator resources currently connected to the PC automatically, or click to search manually. The status bar of Ultra Sigma at present is as shown in the figure below: 4) View the resource The resources that have been searched successfully are shown under the “RIGOL Online Resource” catalog and the instrument model and VISA descriptor are also displayed, such as DG4000 Series User’s Guide 11-7 RIGOL Chapter 11 Remote Control DG4162 (USB0::0x1AB1::0x04B0::DG41620000::INSTR). 5) Communicate Test Right click the resource name “DG4162 (USB0::0x1AB1::0x04B0::DG41620000::INSTR)” and select “SCPI Control Panel” to open the remote command control panel through which users can send commands and read data. 11-8 DG4000 Series User’s Guide RIGOL Chapter 11 Remote Control 2. To Control the Instrument through LAN 1) Connect the devices Connect the generator to your LAN using network cable. 2) Configure LAN parameters Set the LAN parameters of the generator according to the introductions in To Configure the Remote Interface. 3) Search device resource Start-up Ultra Sigma and click , then click in the pop-up window, the software starts searching the generator resources connected to LAN. Instrument resources searched will be displayed in the right of the window. Select your desired resource and click DG4000 Series User’s Guide , as shown in the following figures. 11-9 RIGOL Chapter 11 Remote Control 4) View the resource The resources that have been searched successfully are shown under the “RIGOL Online Resource” catalog and the instrument model and VISA descriptor are also displayed, such as DG4162 (TCPIP::172.16.3.16::INSTR). 11-10 DG4000 Series User’s Guide Chapter 11 Remote Control RIGOL 5) Communication test Right click the resource name “DG4162 (TCPIP::172.16.3.16::INSTR)” and select “SCPI Control Panel” to open the remote command control panel through which users can send commands and read data. 6) Load LXI webpage The generator conforms to LXI-C standards. You can load LXI webpage DG4000 Series User’s Guide 11-11 RIGOL Chapter 11 Remote Control conveniently through Ultra Sigma (right-click the resource name and select “LXI-Web”). On the webpage, some important information about the generator such as the model, manufacturer, serial number, description, MAC address and IP address is shown. Tip You can also load LXI webpage by input the IP address of the generator in the address bar of the PC browser. 11-12 DG4000 Series User’s Guide Chapter 12 Troubleshooting RIGOL Chapter 12 Troubleshooting This chapter lists the commonly encountered failures of DG4000 and their solutions. When you encounter those problems, please solve them following the corresponding steps. If the problem persists, please contact RIGOL and provide your device information (Utility System Sys Info). 1. The screen is still dark (no display) after power on: (1) (2) (3) (4) 2. Check if the power is correctly connected. Check if the power switch is really on. Restart the instrument after finishing the above inspections. If it does not work correctly, contact RIGOL for our service. The settings are correct but no waveform is generated: (1) Check if the BNC cable is correctly connected to the channel output terminal ([Output1] or [Output2]). (2) Check if the BNC cable can work correctly. (3) Check the Output1 or Output2 button, if it is turned on. (4) Set PowerOn as “Last” and then restart the instrument after finishing the above inspections. (5) If it does not work correctly, contact RIGOL for our service. 3. The USB storage device cannot be recognized: (1) Check if the USB storage device can work normally. (2) Make sure the USB storage device is USB flash storage device. The generator doesn’t support hard drive-based USB storage device. (3) Restart the instrument, reinsert the U-disk and check it. (4) If the USB storage device still can not be recognized, please contact RIGOL. DG4000 Series User’s Guide 12-1 RIGOL Chapter 13 Specifications Chapter 13 Specifications All the specifications can be guaranteed if the following two conditions are met unless where noted. The generator is within the calibration period and has performed self-calibration. The generator has been working continuously for at least 30 minutes under the specified temperature (18℃ ~ 28℃). All the specifications are guaranteed unless those marked with “typical”. Model DG4162 DG4102 DG4062 Channel 2 2 2 Maximum Frequency 160MHz 100MHz 60 MHz Sample Rate 500MSa/s Waveforms Standard waveforms Sine, Square, Ramp, Pulse, Noise, Harmonics Arbitrary Waveforms 150 kinds, including Sinc, Exponential Rise, Exponential Fall, ECG, Gauss, HaverSine, Lorentz, Dual-Tone, DC, etc. Frequency Characteristics Sine 1μHz to 160MHz 1μHz to 100MHz 1μHz to 60MHz Square 1μHz to 50MHz 1μHz to 40MHz 1μHz to 25MHz Ramp 1μHz to 4MHz 1μHz to 3MHz 1μHz to 1MHz Pulse 1μHz to 40MHz 1μHz to 25MHz 1μHz to 15MHz Harmonic 1μHz to 80MHz 1μHz to 50MHz 1μHz to 30MHz Noise (-3dB) 120MHz bandwidth 80MHz bandwidth 60MHz bandwidth Arbitrary Waveform 1μHz to 40MHz 1μHz to 25MHz 1μHz to 15MHz Resolution 1μHz Accuracy ±2ppm, 18℃ to 28℃ Sine Wave Spectrum Purity Harmonic Distortion Typical (0dBm) DC-1MHz: <-60dBc DG4000 Series User’s Guide 13-1 RIGOL Chapter 13 Specifications 1MHz-10MHz: <-55dBc 10MHz-100MHz: <-50dBc 100MHz-160MHz: <-40dBc Total Harmonic Distortion <0.1% (10Hz-20kHz,0dBm) Spurious (non-harmonic) Typical (0dBm) Phase Noise ≤10MHz <-65dBc >10MHz <-65dBc+6dB/octave Typical (0dBm, 10kHz deviation) 10MHz: ≤-115dBc/Hz Signal Characteristics Square Rise/Fall Time Overshoot Typical (1Vpp) Typical (1Vpp) Typical (1Vpp) <8ns <10ns <12ns Typical (100KHz, 1Vpp) <3% Duty Cycle ≤10MHz: 20.0% to 80.0% 10MHz-40MHz: 40.0% to 60.0% >40MHz: 50.0% (fixed) Non-symmetry 1% of period +5ns Jitter (rms) Typical (1MHz, 1Vpp, 50Ω) ≤5MHz 2ppm+500ps >5MHz 500ps Ramp Linearity ≤1% of peak output (Typical, 1kHz, 1VPP, 100% Symmetry) Symmetry 0% to 100% Pulse Period 25ns to 1000000s 40ns to 1000000s 66.7ns to 1000000s Pulse Width ≥10ns ≥12ns ≥18ns Leading/ ≥5ns ≥7ns ≥11ns Trailing Edge Time Overshoot Typical (1Vpp) <3% Jitter (rms) Typical (1Vpp) ≤5MHz 13-2 2ppm+500ps DG4000 Series User’s Guide RIGOL Chapter 13 Specifications >5MHz 500ps Arb Waveform Length 16k points Vertical Resolution 14bits Sample Rate 500MSa/s Minimum Rise/Fall Time Typical (1Vpp) <5ns Jitter (rms) Typical (1Vpp) ≤5MHz 2ppm+500ps >5MHz 500ps Interpolation Method Off, Linear Edit Method Edit Points, Edit Block Harmonic Harmonic Order ≤16 Harmonic Type Even, Odd, All, User Harmonic Amplitude can be set for all harmonics Harmonic Phase can be set for all harmonics Output Characteristics Amplitude (into 50 Ω) Range ≤20MHz: 1mVpp ≤20MHz: 1mVpp to ≤20MHz: 1mVpp to to 10Vpp 10Vpp 10Vpp ≤70MHz: 1mVpp ≤70MHz: 1mVpp to ≤60MHz: 1mVpp to 5Vpp 5Vpp to 5Vpp ≤120MHz: 1mVpp ≤100MHz: 1mVpp to to 2.5Vpp 2.5Vpp ≤160MHz: 1mVpp to 1Vpp Accuracy Typical (1kHz Sine, 0V Offset, >10mVpp, Auto) ± 1% of setting ± 2mVpp Flatness Typical Typical Typical (relative to 1kHz Sine wave, ≤10MHz: ±0.1dB ≤10MHz: ±0.1dB ≤10MHz: ±0.1dB 500mVpp, 50Ω) ≤60MHz: ±0.2dB ≤60MHz: ±0.2dB ≤60MHz: ±0.2dB ≤100MHz: ±0.4dB ≤100MHz: ±0.4dB ≤160MHz: ±0.8dB Units Vpp, Vrms, dBm Resolution 1mV or 3bits DG4000 Series User’s Guide 13-3 RIGOL Chapter 13 Specifications Offset (into 50 Ω) Range ±5Vpk ac + dc Accuracy ±(1% of setting + 5mV + 0.5% of amplitude) Waveform Output Impedance 50Ω (Typical) Protection Short-circuit protection, automatically disable waveform output when overload occurs Modulation Characteristics Modulation Type AM, FM, PM, ASK, FSK, PSK, BPSK, QPSK, 3FSK, 4FSK, OSK, PWM AM Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal/External Modulating Waveform Sine, Square, Ramp, Noise, Arb Depth 0% to 120% Modulating Frequency 2mHz to 50KHz FM Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal/External Modulating Waveform Sine, Square, Ramp, Noise, Arb Modulating Frequency 2mHz to 50KHz PM Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal/External Modulating Waveform Sine, Square, Ramp, Noise, Arb Phase Deviation 0° to 360° Modulating Frequency 2mHz to 50KHz ASK Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal/External Modulating Waveform Square with 50% duty cycle Key Frequency 2mHz to 1MHz FSK Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal/External Modulating Waveform Square with 50% duty cycle 13-4 DG4000 Series User’s Guide RIGOL Chapter 13 Specifications Key Frequency 2mHz to 1MHz 3FSK Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal Modulating Waveform Square with 50% duty cycle Key Frequency 2mHz to 1MHz 4FSK Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal Modulating Waveform Square with 50% duty cycle Key Frequency 2mHz to 1MHz PSK Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal/External Modulating Waveform Square with 50% duty cycle Key Frequency 2mHz to 1MHz BPSK Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal Modulating Waveform Sine, Square, Ramp, Noise, Arb (2mHz to 50kHz) Key Frequency 2mHz to 1MHz QPSK Carrier Waveform Sine, Square, Ramp, Arb (except DC) Source Internal Modulating Waveform Sine, Square, Ramp, Noise, Arb (2mHz to 50kHz) Key Frequency 2mHz to 1MHz OSK Carrier Waveform Sine Source Internal/External Oscillation Time 8ns to 499.75μs Key Frequency 2mHz to 1MHz PWM Carrier Waveform Pulse Source Internal/External Modulating Waveforms Sine, Square, Ramp, Noise, Arb Width Deviation 0% to 100% of Pulse Width DG4000 Series User’s Guide 13-5 RIGOL Modulating Frequency Chapter 13 Specifications 2mHz to 50KHz [Mod/FSK/Trig] Input Maximum Input Range ±2.5V Input Bandwidth 5MHz Input Impedance 1kΩ Burst Characteristics Carrier Waveform Sine, Square, Ramp, Pulse, Noise, Arb (except DC) Carrier Frequency 2mHz to 100MHz Burst Count 1 to 1 000 000 or Infinite Start/Stop Phase 0° to 360° Internal Period 2μs to 500s Gated Source External Trigger Trigger Source Internal, External or Manual Trigger Delay 0ns to 85s 2mHz to 100MHz 2mHz to 60MHz Sweep Characteristics Carrier Waveform Sine, Square, Ramp, Arb (except DC) Type Linear, Log or Step Direction Up or Down Start/Stop Frequency 1μHz to 160MHz Sweep Time 1ms to 300s Hold/Return Time 0ms to 300s Trigger Source Internal, External or Manual Mark Falling edge of Sync signal (programmable) 1μHz to 100MHz 1μHz to 60MHz Counter Specifications Function Frequency, Period, Positive/Negative Pulse Width, Duty Cycle Frequency Resolution 7 digits/second (Gate Time =1s) Frequency Range 1μHz to 200MHz Period Measurement Measurement Range 5ns to 16 days Voltage Range and Sensitivity (Not modulation signal) DC Coupling AC Coupling 13-6 DC Offset Range ±1.5VDC 1μHz to 100MHz 50mVRMS to ±2.5Vac+dc Input 100MHz to 200MHz 100mVRMS to ±2.5Vac+dc Attenuation: 1μHz to 100MHz 50mVRMS to ±2.5Vpp 100MHz to 200MHz 100mVRMS to ±2.5Vpp “closed” DG4000 Series User’s Guide RIGOL Chapter 13 Specifications Pulse Width and Duty Cycle Measurement Frequency/Amplitude 1μHz to 25MHz Range Pulse Width Duty Cycle 50mVRMS to ±2.5Vac+dc DC Coupling Minimum ≥20ns Input Attenuation: Resolution 2ns “closed” Range (Display) 0% to 100% Input Characteristics ±7Vac+dc Breakdown Input Range Voltage (Attenuation: closed) ±70Vac+dc (Attenuation: open) 5Vrms Input Adjustment Open: “×10”; Closed: “×1” Impedance 50Ω 1MΩ Coupling AC DC Trigger Level Range Gate Time Impedance=50Ω Attenuation HF Reject Input Trigger Impedance=1MΩ ON: input bandwidth=250KHz; OFF: input bandwidth=225MHz -2.5V to +2.5V Trigger Sensitivity 0% (140mV hysteresis voltage) to 100% Range (2mV hysteresis voltage) GateTime1 1ms GateTime2 10ms GateTime3 100ms GateTime4 1s GateTime5 10s GateTime6 >10s Programming Time Configuration Times (Typical) Function Change USB2.0 LAN 500ms 510ms DG4000 Series User’s Guide 13-7 RIGOL Chapter 13 Specifications Frequency Change 50ms 50ms Amplitude Change 300ms 310ms Select User Arb 500ms 510ms Trigger Characteristics Trigger Input Level TTL-compatible Slope Rising or falling (selectable) Pulse Width > 50ns Latency Sweep: <100ns (typical) Burst: <300ns (typical) Trigger Output Level TTL-compatible Pulse Width > 60ns (typical) Maximum Rate 1MHz Clock Reference Phase Offset Range 0° to 360° Resolution 0.03° External Reference Input Lock Range 10MHz ± 50Hz Level 250mVpp to 5Vpp Lock Time < 2s Impedance (Typical) 1kΩ, AC coupling Internal Reference Output Frequency 10MHz ± 50Hz Level 3.3Vpp Impedance (Typical) 50Ω, AC coupling Sync Output Level TTL-compatible Impedance 50 Ω, nominal value General Specifications Power 13-8 DG4000 Series User’s Guide RIGOL Chapter 13 Specifications Power Voltage 100V to 240V (45Hz to 440Hz) Power Consumption Less than 50W Fuse 250V, T2A Display Type 7-inch TFT LCD Resolution 800 Horizontal × RGB × 480 Vertical Resolution Color 16M color Environment Temperature Range Operating: 10℃ to 40℃ Non-Operating: -20℃ to 60℃ Cooling Method Cooling by fans compulsively Humidity Range Less than 35℃: ≤90% Relative Humidity (RH) 35℃ to 40℃: ≤60% Relative Humidity (RH) Altitude Operating: Less than 3000 meters Non-Operating: Less than 15000 meters Mechanical Dimensions (W×H×D) 313 mm ×160.7 mm×116.7mm Weight without package: 3.2 kg with package: 4.5 kg Interfaces USB Host, USB Device, LAN IP Protection IP2X Calibration Interval Recommend 1 year for standard interval DG4000 Series User’s Guide 13-9 RIGOL Chapter 14 Appendix Chapter 14 Appendix Appendix A: Options and Accessories Model Standard Accessories Options Description Order Number DG4162 (160 MHz, dual-channel) DG4162 DG4102 (100 MHz, dual-channel) DG4102 DG4062 (60 MHz, dual-channel) DG4062 Power Cord - USB Cable CB-USB BNC Cable (1 meter) CB-BNC-BNC-1 Quick Guide - Resource CD (including User’s Guide and Application Software) - Warranty Card - 40dB Attenuator ATT-40dB Rack Mount Kit RMK-DG-4 NOTE: All the options or accessories can be ordered from you local RIGOL Office. DG4000 Series User’s Guide 14-1 RIGOL Chapter 14 Appendix Appendix B: Power Amplifier Specifications Unless otherwise noted, all the specifications can be guaranteed under the following two conditions. The instrument has been working continuously for at least 30 minutes under the specified operation temperature. All the specifications are guaranteed except those marked with “Typical”. Signal Input Input Impedance 50kΩ Built-in Bias Voltage (output equivalent) ±12V External Input ±10Vmax (gain: X1) ±1.25Vmax (gain: X10) Power Amplifier Specifications Running Mode Constant voltage Gain Switch between 10V/1V and 10V/10V (DC gain error <5%) Polarity Switch Normal/Invert Effective Value of Sine Output Power (RL=7.5Ω) 10W (Typical, Sine input, 100kHz, X10) Output Voltage 12.5Vpeak (Sine input, 100kHz) Output Current 1.65Apeak (Sine input, 100kHz) Output Impedance <2Ω Full Power Bandwidth DC to 1MHz[1] Output Slew Rate ≥80V/µs (Typical)[2] Overshoot <7% Bias Voltage Specification Bias Voltage Gain Error 5%±100mV Others Power DC 12V±5%, 4Apeak Output Protection Output overcurrent protection, internal temperature abnormity protection 14-2 DG4000 Series User’s Guide RIGOL Chapter 14 Appendix Operating Temperature 0 ℃ to +35 ℃[3] Dimensions (W×H×D) 142.2mm×48.1mm×215.4mm Net Weight 850g±20g Note [1] : Full power bandwidth refers to the maximum frequency when the power amplifier can generate the AC output with the maximum possible amplitude and without distortion. Full power bandwidth FPB = SR 2πVmax SR: Slew Rate (output slew rate) Vmax: the maximum output amplitude without distortion of the power amplifier Note[2]: Definition of Output Slew Rate: input a large step-function signal into the power amplifier and the output slope of the signal would be saturated to a fixed constant at a certain position. This constant is called the Slew Rate of the power amplifier. Note[3]: The specifications above are obtained under 25 ℃. The range of the environment temperature of PA1011 during operation is from 0 ℃ to +35 ℃. You are recommended to reduce the output power and working power of PA1011 when the environment temperature exceeds 35 ℃. DG4000 Series User’s Guide 14-3 RIGOL Chapter 14 Appendix Appendix C: Warranty RIGOL warrants that the mainframe and accessories of its product will be free from defects in materials and workmanship within the warranty period. If the product is proven to be defective within the warranty period, RIGOL guarantees free replacement or repair of the product. For detailed warranty rules, please refer to the RIGOL official website or the instruction in the warranty card. To get repair service or a complete version of the warranty instruction, please contact RIGOL maintenance center and local office. RIGOL does not provide any other explicit or implicit warranty items including but not limited to any implicit warranty items about tradability and applicability for special purpose of the product, except the ones being provided by this summary and other applicable warranty cards. RIGOL will shoulder no responsibility for indirect, special or consequential damage. 14-4 DG4000 Series User’s Guide Index RIGOL Index 3FSK ....................................... 5-25 4FSK ....................................... 5-27 AC Power Input ........................ 1-13 align phases ............................... 2-9 AM ............................................ 5-2 amplitude................................... 2-5 amplitude coupling.................. 10-26 ASK ......................................... 5-11 AutoIP ................................... 10-13 BPSK ....................................... 5-20 built-in waveform ........................ 3-4 Burst ......................................... 7-2 Burst delay ................................. 7-7 Burst period ............................... 7-6 Burst phase ................................ 7-6 Burst Polarity .............................. 7-6 Center Frequency ....................... 6-3 Channel Copy ......................... 10-29 clock source ........................... 10-20 counter ...................................... 8-1 coupling ................................. 10-26 Coupling Base ........................ 10-26 DC offset ................................... 2-7 Default Gateway ..................... 10-15 Delay ....................................... 2-15 DHCP..................................... 10-13 DNS ...................................... 10-15 Duty Cycle ............................... 2-11 Duty cycle deviation .................. 5-34 Edit Block................................. 3-11 Edit Points................................ 3-11 end frequency ............................ 6-2 End Hold .................................. 6-10 External Power Amplifier ........... 10-7 DG4000 Series User’s Guide FM ............................................ 5-5 Frequency ................................. 2-4 frequency coupling .................. 10-26 Frequency deviation ................... 5-7 frequency span .......................... 6-3 Frequency Sweep ....................... 6-2 front panel................................. 1-6 FSK .......................................... 5-14 Gated Burst ............................... 7-4 harmonic ................................... 4-1 Harmonic Amplitude ................... 4-4 Harmonic Order ......................... 4-3 harmonic type ............................ 4-3 Infinite Burst ............................. 7-3 Leading edge ............................ 2-14 Linear Interpolation ................... 3-11 Linear Sweep ............................. 6-4 Log Sweep................................. 6-5 MAC Address .......................... 10-13 ManualIP ................................ 10-14 Mark Frequency ......................... 6-8 Modulating Polarity .................... 5-13 Modulation depth ....................... 5-4 N Cycle ..................................... 7-2 Network Status ....................... 10-12 Noise Scale ............................... 10-6 Noise Setting ............................ 10-6 noise superposition.................... 10-6 Oscillate period ......................... 5-31 OSK ......................................... 5-29 Output Polarity .......................... 10-5 Paste ........................................ 9-9 phase coupling ........................ 10-26 Phase deviation ......................... 5-10 1 RIGOL PictBridge ............................... 10-23 PM ............................................ 5-8 Point By Point Output .................. 3-3 Power Key ................................. 1-6 PSK ......................................... 5-17 Pulse Width.............................. 2-13 PWM ....................................... 5-32 QPSK....................................... 5-23 rear panel ................................ 1-13 remote control ......................... 11-2 Resistance setting..................... 10-5 Restore Delay........................... 2-15 Return Time ............................... 6-8 Start Frequency .......................... 6-2 Start Hold .................................. 6-9 start phase ................................ 2-8 Step Sweep................................ 6-6 Subnet Mask ........................... 10-15 Supporting Legs ......................... 1-3 2 Index Sweep Time ............................... 6-7 sweep trigger source ................. 6-10 Symmetry................................. 2-12 Sync Output ............................. 10-3 Sync Polarity ............................. 10-4 Test/Cal.................................. 10-25 To Create New Arbitrary Waveform3-10 To Edit Arbitrary Waveform ........ 3-17 To Recall File .............................. 9-8 To Save File ................................ 9-6 To Set Harmonic Phase ................ 4-5 Trailing edge ............................. 2-14 USB Device............................... 1-14 USB Host.................................... 1-6 user interface ........................... 1-18 User-defined Waveform Key ..... 10-30 VISA Descriptor ...................... 10-13 Volatile Waveform ....................... 3-9 Width deviation......................... 5-34 DG4000 Series User’s Guide
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