Page 1 User Guide MSO7000/DS7000 Series Digital Oscilloscope Sept. 2019 RIGOL (SUZHOU) TECHNOLOGIES INC.
Page 3: Guaranty And Declaration
Notices RIGOL products are covered by P.R.C. and foreign patents, issued and pending.  RIGOL reserves the right to modify or change parts of or all the specifications  and pricing policies at the company’s sole decision. Information in this publication replaces all previously released materials.
Page 4: Safety Requirement
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 injury or damage to the instrument and any product connected to it. To prevent potential hazards, please follow the instructions specified in this manual to use the instrument properly.
Page 5 Do Not Operate With Suspected Failures. If you suspect that any damage may occur to the instrument, have it inspected by RIGOL authorized personnel before further operations. Any maintenance, adjustment or replacement especially to circuits or accessories must be performed by RIGOL authorized personnel.
Page 6: Safety Notices And Symbols
RIGOL Safety Notices and Symbols Safety Notices in this Manual: WARNING Indicates a potentially hazardous situation or practice which, if not avoided, will result in serious injury or death. CAUTION Indicates a potentially hazardous situation or practice which, if not avoided, could result in damage to the product or loss of important data.
Page 7: Measurement Category
RIGOL Measurement Category Measurement Category MSO7000/DS7000 series digital oscilloscopes can make measurements in Measurement Category I. WARNING This oscilloscope can only be used for measurements within its specified measurement categories. Measurement Category Definitions Measurement category I is for measurements performed on circuits not directly connected to MAINS.
Page 8: Working Environment
RIGOL Working Environment Temperature Operating: 0℃ to +50℃ Non-operating: -30℃ to +70℃ Humidity Operating: Below +30℃: ≤95%RH (without condensation) +30℃ to +40℃: ≤75%RH (without condensation) +40℃ to +50℃: ≤45%RH (without condensation) Non-operating: Below 65℃: ≤95% RH (without condensation) WARNING To avoid short circuit inside the instrument or electric shock, never operate the instrument in a humid environment.
Page 9: Care And Cleaning
RIGOL pollution has no effect. For example, a clean room or air-conditioned office environment. Pollution Degree 2: Normally only nonconductive pollution occurs. Temporary conductivity caused by condensation is to be expected. For example, indoor environment. Pollution Degree 3: Conductive pollution or dry nonconductive pollution that becomes conductive due to condensation occurs.
Page 10: Environmental Considerations
RIGOL Environmental Considerations The following symbol indicates that this product complies with the 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. To avoid the release of such substances into the environment and avoid harm to human health, we recommend you to recycle this product appropriately to ensure that most materials are reused or recycled properly.
Page 11: Mso7000/Ds7000 Series Overview
MSO7000/DS7000 series is a multifunctional and high-performance digital oscilloscope designed on the basis of the unique Ultra Vision II technique developed by RIGOL. Integrating 7 independent instruments into one, the MSO7000/DS7000 series is equipped with super sample bandwidth ratio, extremely high memory depth, clear display, excellent waveform capture rate, and powerful data analysis functions.
Page 12: Document Overview
RIGOL Document Overview Main Topics of this Manual: Chapter 1 Quick Start Introduces the preparations before using the oscilloscope and provides a basic introduction of the instrument. Chapter 2 To Set the Vertical System Introduces the vertical system functions of the oscilloscope.
Page 13 RIGOL Chapter 14 Waveform Recording & Playing Introduces the waveform recording & playing function. Chapter 15 Search and Navigation Function Introduces the navigation function and how to quickly search the relevant events. Chapter 16 Display Control Introduces how to control the display of the oscilloscope.
Page 14 RIGOL Format Conventions in this Manual: 1. Key The key on the front panel is denoted by the format of "Key Name (Bold) + Text Box" in the manual. For example, Utility denotes the "Utility" key. 2. Menu The menu items are denoted by the format of "Menu Word (Bold) + Character Shading".
Page 15 RIGOL Manuals of this Product: Quick Guide, User Guide, Programming Guide, Data sheet, etc. For the latest version of this manual, download it from the official website of RIGOL (www.rigol.com). MSO7000/DS7000 User Guide XIII...
Page 16: Table Of Contents
Contents RIGOL Contents Guaranty and Declaration ................. I Safety Requirement ................. II General Safety Summary................II Safety Notices and Symbols ..............IV Measurement Category ................V Ventilation Requirement ................V Working Environment ................VI Care and Cleaning .................. VII Environmental Considerations ..............VIII MSO7000/DS7000 Series Overview ............
Page 17 Contents RIGOL Drag ..................... 1-27 Rectangle Drawing ................. 1-28 Parameter Setting Method ..............1-30 To Use the Security Lock ............... 1-31 To Use the Built-in Help System ............. 1-32 To View the Option Information and the Option Installation ...... 1-33 Chapter 2 To Set the Vertical System ..........
Page 18 Contents RIGOL Chapter 5 To Trigger the Oscilloscope ..........5-1 Trigger Source ..................5-2 Trigger LEVEL/Threshold Level ..............5-3 Trigger Mode ..................5-4 Trigger Coupling..................5-6 Trigger Holdoff ..................5-6 Noise Rejection ..................5-7 Trigger Type ..................5-8 Edge Trigger ................... 5-9 Pulse Trigger .................
Page 19 Contents RIGOL Ln ....................6-19 Exp ....................6-20 Abs ....................6-21 Low Pass ..................6-22 High Pass ..................6-23 Band Pass ..................6-24 Band Stop ..................6-25 AX+B .................... 6-26 Math Operation Label ..............6-27 Auto Measurement ................6-28 Quick Measurement after AUTO............6-28 Measurement Parameter ..............
Page 20 Contents RIGOL To Reset ....................9-4 Chapter 10 Digital Channel ..............10-1 To Select the Digital Channel ..............10-2 To Enable/Disable the Digital Channel ............ 10-2 To Set the Threshold ................10-3 Auto Arrangement Setting ..............10-4 To Set the Waveform Display Size ............10-4 To Set the Label ...................
Page 21 Contents RIGOL Chapter 14 Waveform Recording & Playing ........14-1 Common Settings ................. 14-2 Record Options ..................14-3 Play Options ..................14-4 Chapter 15 Search and Navigation Function ........15-1 Search Function ................... 15-2 Navigation Function ................15-4 Chapter 16 Display Control ..............16-1 To Select the Display Type ..............
Page 22 Contents RIGOL Storage Type ..................18-2 Load Type ................... 18-4 Internal Storage and Load..............18-4 External Storage and Load ..............18-6 Binary Data Format (.bin) ..............18-6 Binary Header Format ..............18-7 Disk Management ................18-9 To Select a File Type ..............18-10 To Create a Folder ...............
Page 23 Contents RIGOL Chapter 21 Troubleshooting ............... 21-1 Chapter 22 Appendix ................22-1 Appendix A: Accessories and Options ............. 22-1 Appendix B: Warranty ................22-3 Index ....................1 MSO7000/DS7000 User Guide...
Page 25: Chapter 1 Quick Start
Chapter 1 Quick Start RIGOL Chapter 1 Quick Start This chapter introduces the precautions when using the oscilloscope for the first time, the front/rear panels of the oscilloscope, the user interface, touch screen controls, and how to use the built-in help system.
Page 26: General Inspection
The consigner or carrier shall be liable for the damage to the instrument resulting from shipment. RIGOL would not be responsible for free maintenance/rework or replacement of the instrument. 2． Inspect the instrument In case of any mechanical damage, missing parts, or failure in passing the electrical and mechanical tests, contact your RIGOL sales representative.
Page 27: Appearance And Dimensions
Chapter 1 Quick Start RIGOL Appearance and Dimensions Figure 1-1 Front View Unit: mm Figure 1-2 Vertical View Unit: mm MSO7000/DS7000 User Guide...
Page 28: To Prepare For Use
Chapter 1 Quick Start RIGOL To Prepare for Use To Adjust the Supporting Legs Adjust the supporting legs properly to use them as stands to tilt the oscilloscope upwards for stable placement of the oscilloscope as well as better operation and observation.
Page 29: Turn-On Checkout
Chapter 1 Quick Start RIGOL Turn-on Checkout When the oscilloscope is connected to power, press the Power key at the lower-left corner of the front panel to start the oscilloscope. (You can also press Utility  System  Power status, and select "Switch On". After the instrument is connected to power source, it will start directly.
Page 30: To Connect The Probe
To Connect the Probe RIGOL provides the passive probe, the active probe, and the logic probe for MSO7000/DS7000 series. For specific probe models, please refer to MSO7000/DS7000 Series Datasheet .
Page 31 Figure 1-9. 2. Connect the other terminal of the logic probe to the signal terminal under test. RIGOL's MSO7000 series has a standard configuration of a logic probe RPL2316. To apply to different application scenarios, RPL2316 provides three connection...
Page 32 Chapter 1 Quick Start RIGOL RPL2316 Logic methods to connect the signal under test. For details, refer to Probe User Guide Figure 1-9 To Connect the Logic Probe Note: Before you connect the logic probe to the signal under test, connect logic ...
Page 33: Function Inspection
Chapter 1 Quick Start RIGOL Function Inspection Press Default on the front panel, then a prompt message "Restore default?" is displayed. Press OK or tap OK to restore the instrument to its factory default settings. Connect the ground alligator clip of the probe to the "Ground Terminal" as shown in Figure 1-10 below.
Page 34: Probe Compensation
Chapter 1 Quick Start RIGOL The probe compensation signal can only be used for probe compensation adjustment and cannot be used for calibration. Probe Compensation When the probes are used for the first time, you should compensate the probes to make them match the input channels of the oscilloscope.
Page 35: Front Panel Overview
Chapter 1 Quick Start RIGOL Front Panel Overview 3 4 5 6 7 8 9 10 11 12 13 Figure 1-13 Front Panel Table 1-1 Front Panel Description Description Description Capacitive Touch Screen RUN/STOP Key Function Menu Operation Keys Single Trigger Control Key...
Page 36: Rear Panel Overview
Chapter 1 Quick Start RIGOL Rear Panel Overview Figure 1-14 Rear Panel 1. Handle Rotate the handle upright to carry the instrument easily. Rotate it downward if you do not need to carry it. 2. LAN Interface Connect the instrument to network via this interface. The instrument is in compliance with the standards specified in LXI Device Specification 2011.
Page 37 Press Online upgrade or enable the touch screen to tap "Online upgrade", then a "System Update Information" window is displayed, requesting you whether to accept or cancel "RIGOL TERMS OF ONLINE UPGRADE SERVICE". Tap "Accept" to start online upgrade. Tap "Cancel"...
Page 38 Chapter 1 Quick Start RIGOL 6. EXT TRIG Inputs the external signal via the external input terminal. 7. Trigger Out and Pass/Fail TRIG OUT:  The oscilloscope can output a signal that can reflect the current capture rate of the oscilloscope at each trigger via this interface.
Page 39: Front Panel Function Overview
Chapter 1 Quick Start RIGOL Front Panel Function Overview Vertical 1, 2, 3, 4: indicates the analog channel switch key. The four channels are  marked by different colors which are also used to mark both the corresponding waveforms of the specified channel on the screen and the channel input connectors.
Page 40: Horizontal
Chapter 1 Quick Start RIGOL scale, and turn it counterclockwise to increase the scale. During the modification, the display amplitude of the waveform will enlarge or reduce. The scale information in the corresponding status label will change accordingly. Press down this knob to quickly switch the vertical scale adjustment mode between "Coarse"...
Page 41: Wave
Chapter 1 Quick Start RIGOL Wave Math: indicates the math operation key. Press this key to enable the math  operation function. The math operations include A+B, A-B, A× B, A/B, and FFT. Besides, you can also set the math operation label.
Page 42: Trigger
Chapter 1 Quick Start RIGOL Trigger Menu: Press this key to open the trigger operation menu.  This oscilloscope provides various trigger types. Mode: Press this key to switch the trigger mode to Auto  Normal, or Single. Force: Press this key to generate a trigger signal ...
Page 43: Single
Chapter 1 Quick Start RIGOL Single Press this key to set the trigger mode to "Single". Multifunction knob Non-menu Operation:  In non-menu-operation mode, rotate this knob to adjust the brightness of waveform display. The settable screen brightness ranges from 1% to 100%.
Page 44: Function Menu
Chapter 1 Quick Start RIGOL Function Menu Measure: Press this key to enter the measurement setting menu. You can set the measurement source, enable or disable the all measurement function, the statistical analysis function, and etc. You can make a quick measurement for 41 waveform parameters.
Page 45: Quick Key (Shortcut Key)
Chapter 1 Quick Start RIGOL Quick Key (Shortcut Key) Press this key to perform the quick operation, including screenshot, waveform saving, setup saving, all measurement, and statistics reset. Press Utility  More  Quick settings to set the quick shortcut keys.
Page 46: User Interface
Chapter 1 Quick Start RIGOL User Interface MSO7000/DS7000 series has a 10.1-inch WSVGA (1024× 600) LCD, with 256 level gray-scale display. The user interface displays the acquired waveforms, the setting information, and the measurement results. 5 6 7 10 11 12...
Page 47 Chapter 1 Quick Start RIGOL 3. Horizontal Time Base Represents the time length per grid in the horizontal axis of the screen.  Use Horizontal SCALE to modify this parameter. The adjustable range  of the horizontal time base is different for different models.
Page 48 Chapter 1 Quick Start RIGOL 12. Trigger LEVEL/Threshold Level When CH1-CH4 or EXT is selected as the trigger source, you need to set a  proper trigger level. When D0-D15 is selected as the trigger source, you need to set a proper ...
Page 49 Chapter 1 Quick Start RIGOL 17. Digital Channel Status Area Displays the current status of the 16 digital channels. The digital channels currently turned on are displayed in green, and the currently selected digital channel is highlighted in red. The digital channels turned off are displayed in gray.
Page 50: Touch Screen Controls
Chapter 1 Quick Start RIGOL For example, if you select "DC" for channel coupling, is displayed; if you enable the bandwidth limit, is displayed; if you select "50 Ω" for impedance, is displayed. 23. Analog Channel Label/Waveform Different channels are marked with different colors. The color of the channel label is the same as that of the waveform.
Page 51: Pinch & Stretch
Chapter 1 Quick Start RIGOL Figure 1-16 Tap Gesture Pinch & Stretch Pinch or stretch two points on the screen with two fingers to zoom in or out the waveform. To zoom in the waveform, first pinch the two fingers and then stretch the fingers;...
Page 52: Rectangle Drawing
Chapter 1 Quick Start RIGOL Rectangle Drawing Enable the function navigation, and then tap the "Draw rect" icon to switch to the rectangle drawing mode. Drag a finger from upper left to lower right across the screen to draw a rectangle on the screen, as shown in Figure 1-19 (a). Move your finger away from the screen, and then a menu is displayed on the screen.
Page 53 Chapter 1 Quick Start RIGOL Tap the "Draw rect" icon to switch between the rectangle drawing and waveform operation modes. Tap the "Draw rect" icon, if is displayed, it indicates that the rectangle drawing mode is enabled. Tap the "Draw rect" icon, if is displayed, it indicates that the waveform operation mode is enabled.
Page 54: Parameter Setting Method
Chapter 1 Quick Start RIGOL Parameter Setting Method You can use the knob or enable the touch screen to set the parameters of MSO7000/DS7000 series. The common parameter setting methods are as follows: Method 1: For the parameters with the sign...
Page 55: To Use The Security Lock
Chapter 1 Quick Start RIGOL Method 4: For the parameters without the above signs, press the desired menu softkey to switch between the parameter items. This method is applicable to the parameters with only two available options. The above method is commonly used for the parameter settings of the oscilloscope.
Page 56: To Use The Built-In Help System
Chapter 1 Quick Start RIGOL To Use the Built-in Help System The help system of this oscilloscope provides instructions for all the function keys on the front panel and their corresponding menu keys. The steps for opening the built-in help system are as follows: Press Utility ...
Page 57: To View The Option Information And The Option Installation
Chapter 1 Quick Start RIGOL Method 3: Enable the touch screen and tap the desired help option to get the corresponding help information. Help information for other keys and buttons:  Power key: powers on/off the instrument.  Menu Off key: displays or hides menus. Pressing this key can hide the ...
Page 58 Then, you can install the option according to the following steps. 1) Obtain an option license (1) Log in to the RIGOL official website (www.rigol.com), click License Activation to enter the "Registered product license code" interface. (2) In the software license registration interface, input the correct key, serial number (press Utility ...
Page 59 Chapter 1 Quick Start RIGOL Only 1 option license file of one instrument is allowed to be stored in the  same USB storage device, but the USB storage device can store the option license file of several different instruments. You are not allowed to modify the licensed filename.
Page 61: Chapter 2 To Set The Vertical System
Chapter 2 To Set the Vertical System RIGOL Chapter 2 To Set the Vertical System MSO7000/DS7000 series provides four analog input channels (CH1-CH4), and each channel is equipped with an independent vertical control system. The setting methods for the vertical systems of the four channels are the same. This chapter takes CH1 as an example to introduce the setting method for the vertical system.
Page 62: To Enable Or Disable The Analog Channel
Chapter 2 To Set the Vertical System RIGOL To Enable or Disable the Analog Channel Enable the analog channel: Connect a signal to the channel connector of CH1, and then press 1 in the vertical control area (Vertical) on the front panel to enable CH1. Then, the backlight of the channel is illuminated.
Page 63: To Adjust The Vertical Scale
Chapter 2 To Set the Vertical System RIGOL To Adjust the Vertical Scale Vertical scale indicates the voltage value per grid in the vertical axis of the screen. It is often expressed in V/div. While you adjust the vertical scale, the display amplitude of the waveform would enlarge or reduce.
Page 64: Vertical Expansion
Chapter 2 To Set the Vertical System RIGOL Coarse adjustment (take counterclockwise as an example): Rotate Vertical  SCALE to set the vertical scale at 1-2-5 step, i.e. 500 μV/div, 1 mV/div, 2 mV/div, 5 mV/div, 10 mV/div…10 V/div. Vertical Expansion...
Page 65: Channel Coupling
Chapter 2 To Set the Vertical System RIGOL of the screen. The following window is displayed. Tap the icon at the right side of the Offset input field to decrease or increase the offset. You can also tap the Offset input field to input a specific value with the displayed numeric keypad.
Page 66: Bandwidth Limit
Chapter 2 To Set the Vertical System RIGOL Bandwidth Limit MSO/DS7000 series supports the bandwidth limit function. Setting the bandwidth limit can reduce the noises in the displayed waveforms. For example, the signal under test is a pulse with high frequency oscillation.
Page 67: Input Impedance
Chapter 2 To Set the Vertical System RIGOL probe ratio. The probe ratio values available are as shown in Table 2-2. Table 2-2 Probe Ratio Attenuation Ratio Menu (display amplitude of the signal: actual amplitude of the signal) 0.01X 0.01:1 0.02X...
Page 68: Waveform Invert
Chapter 2 To Set the Vertical System RIGOL Note: After the oscilloscope recognizes the probe automatically, the input impedance  will also be auto recognized. You do not have to set it manually. The setting of the input impedance will affect the ranges of channel vertical ...
Page 69: Passive Probe
If not recognized, please refer to "Probe Ratio" to set the probe ratio. Active Probe If an active probe is connected, for example, when RIGOL's RP7150 probe model is connected to the oscilloscope, press Probe to open the probe menu, and you can operate on the menu item.
Page 70: Amplitude Unit
Chapter 2 To Set the Vertical System RIGOL the manufacturer, model, serial number, and the last calibration date. Probe Calibration  Press Calibration to start zero calibration automatically for the probe. Amplitude Unit Select the amplitude display unit for the current channel. The available units are W, A, V, and U.
Page 71: Offset Cal
Chapter 2 To Set the Vertical System RIGOL Note: This parameter is related to the instrument model and the current horizontal time base setting. The larger the horizontal time base is, the larger the setting step will be. Offset Cal...
Page 72 Chapter 2 To Set the Vertical System RIGOL Label Input Area Input Selection Area Virtual Keypad Delete Key Upper-lower Case Switch Figure 2-3 Label Editing Interface For example, set the label to " ". In the virtual keypad, rotate the multifunction knob to select "Caps"...
Page 73: Chapter 3 To Set The Horizontal System
Chapter 3 To Set the Horizontal System RIGOL Chapter 3 To Set the Horizontal System Contents in this chapter: To Adjust the Horizontal Time Base  To Adjust the Horizontal Position  Delayed Sweep  MSO7000/DS7000 User Guide...
Page 74: To Adjust The Horizontal Time Base
Chapter 3 To Set the Horizontal System RIGOL To Adjust the Horizontal Time Base Horizontal time base, also called the horizontal scale, refers to the time of each grid in the horizontal direction of the screen. It is usually expressed in s/div. The adjustable range of the horizontal time base is related to the model type.
Page 75: To Adjust The Horizontal Position
Chapter 3 To Set the Horizontal System RIGOL within the adjustable range. Rotate it clockwise to reduce the horizontal time base, and counterclockwise to increase the horizontal time base. Note: When the delayed sweep is enabled, rotate the Horizontal SCALE knob to adjust the time base for the delayed sweep.
Page 76: Delayed Sweep
Chapter 3 To Set the Horizontal System RIGOL Note: When the delayed sweep is enabled, rotate the Horizontal POSITION knob to adjust the horizontal position of the delayed sweep (press down the knob to quickly reset it). The horizontal position of the delayed sweep at the upper-right corner of the screen changes accordingly.
Page 77 Chapter 3 To Set the Horizontal System RIGOL Waveform before enlargement: The waveform in the area that is not covered by subtransparent blue in the upper part of the screen is the waveform before enlargement. Its horizontal time base (also called main time base) is displayed at the upper-left corner of the screen.
Page 79: Chapter 4 To Set The Sample System
Chapter 4 To Set the Sample System RIGOL Chapter 4 To Set the Sample System Contents in this chapter: Timebase Mode  Acquisition Mode  Sampling Mode  Sample Rate  LA Sample Rate  Memory Depth  LA Memory Depth ...
Page 80: Timebase Mode
Chapter 4 To Set the Sample System RIGOL Timebase Mode MSO7000/DS7000 series supports three available time base modes: YT mode, XY mode, and ROLL mode. By default, the time base mode is YT. Press Acquire  Timebase Mode on the front panel, and then rotate the multifunction knob to select the desired time base mode.
Page 81 Chapter 4 To Set the Sample System RIGOL According to sin=A/B or C/D,  is the phase deviation angle between the two channels. The definitions of A, B, C, and D are shown in the above figure. The phase deviation angle is obtained, that is: =arcsin(A/B) or arcsin(C/D)
Page 82: Roll Mode
Chapter 4 To Set the Sample System RIGOL Note: The maximum sample rate in XY mode is 2.5 GSa/s. In this mode, CH1 and CH2  are forced to be enabled; CH3 and CH4 are forced to be disabled. Generally, a longer sample waveform can ensure better display effect of Lissajous figure.
Page 83: Acquisition Mode
Chapter 4 To Set the Sample System RIGOL Acquisition Mode The acquisition mode is used to control how to generate waveform points from the sample points. MSO7000/DS7000 supports the following four acquisition modes: Normal, Average, Peak, and High Resolution. By default, the acquisition mode is Normal.
Page 84: Peak
Chapter 4 To Set the Sample System RIGOL Figure 4-2 Waveforms before Averaging Figure 4-3 Waveforms after 128 Times of Averaging Peak In this mode, the oscilloscope acquires the maximum and minimum values of the signal within the sample interval to get the envelope of the signal or the narrow pulse that might be lost.
Page 85: Sampling Mode
Chapter 4 To Set the Sample System RIGOL much smoother waveform on the screen and improves the vertical resolution. This is generally used when the sample rate of the digital converter is greater than the storage rate of the acquisition memory.
Page 86 Chapter 4 To Set the Sample System RIGOL Note: The sample rate is displayed both in the status bar at the upper part of the screen and in the CH SampleRate menu. To indirectly modify the sample rate, rotate the Horizontal SCALE knob to adjust the horizontal time base or modify the memory depth.
Page 87: La Sample Rate
Chapter 4 To Set the Sample System RIGOL LA Sample Rate LA sampling is the process of sampling on the compared digital signals at a certain time interval. LA sample rate is the reciprocal of the time interval. For example, if the LA sample rate is 500 MSa/s, it indicates that the oscilloscope will make data acquisition on the digital signals at an interval of 2 ns.
Page 88: La Memory Depth
Chapter 4 To Set the Sample System RIGOL ——indicates the sample rate. The unit is Sa/s. SRate ——indicates the horizontal time base scale. The unit is s/div. TScale ——indicates the number of grids in the horizontal direction. The unit is div.
Page 89: Horizontal Expansion
Chapter 4 To Set the Sample System RIGOL Note: This function should be enabled when the horizontal time base has a large deviation from the period of the signal under test (e.g. when the horizontal time base is greater than five-fold the period of the signal under test).
Page 91: Chapter 5 To Trigger The Oscilloscope
Chapter 5 To Trigger the Oscilloscope RIGOL Chapter 5 To Trigger the Oscilloscope As for trigger, you set certain trigger condition according to the requirement and when a waveform in the waveform stream meets this condition, the oscilloscope captures this waveform as well as the neighboring part, and displays them on the screen.
Page 92: Trigger Source
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Source In the trigger control area (Trigger) on the front panel, press Menu  Source to select the desired source, or rotate the multi-function knob to select a desired source, then press down the knob to select it. You can also press Source continuously to select the trigger source or enable the touch screen to tap the desired trigger source and select it.
Page 93: Trigger Level/Threshold Level
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger LEVEL/Threshold Level The adjustment of the trigger level/threshold level is related to the type of the trigger source. When the trigger source is selected from CH1 to CH4, rotate the Trigger ...
Page 94: Trigger Mode
Chapter 5 To Trigger the Oscilloscope RIGOL Method 1: Enable the touch screen and drag the trigger level line to adjust the trigger level. For details about the operations, refer to descriptions in "Drag" section. Method 2: Enable the touch screen function, and tap the trigger setting label at the upper-right corner of the screen.
Page 95 Chapter 5 To Trigger the Oscilloscope RIGOL MSO7000/DS7000 provides three trigger modes: Auto, Normal, and Single. The default is Auto. In the trigger control area (Trigger) on the front panel, press Mode to quickly switch the current trigger mode. The trigger mode is displayed at the upper-right corner of the screen: A (Auto), N (Normal), and S (Single).
Page 96: Trigger Coupling
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Coupling Trigger coupling decides which kind of components will be transmitted to the trigger module. Please distinguish it from "Channel Coupling". Note: Trigger coupling is only valid when the trigger type is Edge and the trigger source is an analog channel.
Page 97: Noise Rejection
Chapter 5 To Trigger the Oscilloscope RIGOL In the trigger control area (Trigger) on the front panel, press Menu  Holdoff (for some trigger, Holdoff is a sub menu under More, at this time, press Menu  More  Holdoff) and then rotate the multifunction knob at a small step to modify the holdoff time (the holdoff to this time when the waveforms are stably triggered;...
Page 98: Trigger Type
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Type MSO7000/DS7000 series ocilloscope provides the following trigger functions (all the triggers are hardware triggers, except the zone trigger). Edge Trigger  Pulse Trigger  Slope Trigger  Video Trigger  Pattern Trigger ...
Page 99: Edge Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Edge Trigger Triggers on the trigger level/threshold level of the specified edge of the input signal. Trigger Type: Press Menu  Type in the trigger control area (Trigger) on the front panel and rotate the multifunction knob to select "Edge", then press down the knob to...
Page 100: Pulse Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Please refer to descriptions in "Trigger LEVEL/Threshold Level". The current trigger level/threshold level value is displayed at the upper-right corner of the screen. Pulse Trigger Triggers on the positive or negative pulse with a specified width. In this mode, the oscilloscope will trigger when the pulse width of the input signal satisfies the specified pulse width condition.
Page 101 Chapter 5 To Trigger the Oscilloscope RIGOL Polarity: Press Polarity continuously to select the desired polarity. The polarities available are positive polarity ( ) and negative polarity ( ). Trigger Condition: Press When, then rotate the multifunction knob to select the trigger condition, and then press down the knob to select the trigger condition.
Page 102: Slope Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Parameter Setting: Set the trigger parameters (trigger holdoff and noise rejection) under this trigger type. For details, refer to descriptions in "Trigger Holdoff" and "Noise Rejection". Trigger LEVEL/Threshold Level: Rotate the Trigger LEVEL knob to adjust the trigger level or threshold level.
Page 103 Chapter 5 To Trigger the Oscilloscope RIGOL Edge Type: Press Slope continuously to select the input signal edge on which the oscilloscope triggers. Rising: triggers on the rising edge of the input signal.  Falling: triggers on the falling edge of the input signal.
Page 104 Chapter 5 To Trigger the Oscilloscope RIGOL to correctly trigger the signal and obtain a stable waveform. Press Level Select (when "<>" is selected as the trigger condition, Level Select is a sub-menu under More), then rotate the multifunction knob to select the desired level type for adjustment, and then press down the knob to select the type.
Page 105: Video Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Video Trigger The video signal can include image information and timing information, which adopts different standards and formats. MSO7000/DS7000 series can trigger on the standard video signal field or line of NTSC (National Television Standards Committee), PAL (Phase Alternating Line), or SECAM (Sequential Couleur A Memoire).
Page 106 Chapter 5 To Trigger the Oscilloscope RIGOL 1080p/30Hz Progressive Scan 1125 1080p/25Hz Progressive Scan 1125 1080p/24Hz Progressive Scan 1125 1080i/60Hz Interlaced Scan 1125 1080i/50Hz Interlaced Scan 1125 Sync: Press Sync, then rotate the multifunction knob to select the sync type, and then press down the knob to select the type.
Page 107: Pattern Trigger
In the trigger debugging process of video signals, the frequency in different  part of the signal can be reflected by a different brightness, as RIGOL digital oscilloscope provides the intensity graded color display function. Experienced users can quickly judge the signal quality and discover abnormalities during the debugging process.
Page 108 Chapter 5 To Trigger the Oscilloscope RIGOL Pattern Setting: Press Code, and rotate the multifunction knob to select the pattern of the currently selected channel. Press down the knob to select the pattern. You can also press Code continuously to select the pattern or enable the touch screen to select it.
Page 109: Duration Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Note: Only one edge (rising or falling edge) can be specified in the pattern. If one edge item is currently defined and then another edge item is defined in another channel in the pattern, then a prompt message "Invalid input" is displayed. Then the latter defined edge item will be replaced by X.
Page 110 Chapter 5 To Trigger the Oscilloscope RIGOL Figure 5-7 Duration Trigger Trigger Type: Press Type, and then rotate the multifunction knob to select "Duration". Press down the knob to select the trigger type. Then, the current trigger setting information is displayed at the upper-right corner of the screen, as shown in the figure below.
Page 111 Chapter 5 To Trigger the Oscilloscope RIGOL L: sets the pattern of the channel selected to "L", i.g. the voltage level is lower  than the trigger level/threshold level of the channel. X: sets the pattern of the channel selected to "X", i.g. this channel is not used as ...
Page 112: Timeout Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger LEVEL/Threshold Level: Rotate the Trigger LEVEL knob to adjust the trigger level/threshold level. Refer to "Trigger LEVEL/Threshold Level". The current trigger level/threshold level value is displayed at the upper-right corner of the screen.
Page 113: Runt Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL the trigger level. Falling: starts timing when the falling edge of the input signal passes  through the trigger level. Either: starts timing when either edge of the input signal passes through the ...
Page 114 Chapter 5 To Trigger the Oscilloscope RIGOL displayed at the upper-right corner of the screen, as shown in the figure below. You can also press Type continuously to select the trigger type or enable the touch screen to tap the desired trigger type and select it.
Page 115: Window Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL the trigger level deviation (the difference between the upper limit and lower limit of the trigger level) remains unchanged. Note: In Runt trigger, pressing Trigger LEVEL can quickly switch the current level adjustment type.
Page 116 Chapter 5 To Trigger the Oscilloscope RIGOL Press Source to switch the trigger source and select CH1-CH4. For details, refer to descriptions in "Trigger Source". The current trigger source is displayed at the upper-right corner of the screen. Note: Only when we select the channel (that has been input with signals) as the trigger source, can we obtain a stable trigger.
Page 117: Delay Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL current level adjustment type. Rotate the Trigger LEVEL knob to adjust the corresponding trigger level. During the adjustment of trigger level, two trigger level lines appear on the screen, and they move up and down with the change of the trigger level. At the same time,...
Page 118 Chapter 5 To Trigger the Oscilloscope RIGOL Edge A= Edge B= Source A Source B Figure 5-10 Delay Trigger Trigger Type: Press Type, and then use the multifunction knob to select "Delay". Press down the knob to select the trigger type. Then, the current trigger setting information is displayed at the upper-right corner of the screen, as shown in the figure below.
Page 119: Setup/Hold Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL >: triggers when the time difference (△T) between the specified edges of  Source A and Source B is greater than the preset time lower limit. Press Lower to set the delay time lower limit in Delay trigger.
Page 120 Chapter 5 To Trigger the Oscilloscope RIGOL T1 is the setup time is the hold time Data Source Clock Source The data type is H The edge type is Figure 5-11 Setup/Hold Trigger Trigger Type: Press Type, and then rotate the multifunction knob to select "Setup/Hold".
Page 121 Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Condition: Press When and rotate the multifunction knob to select the trigger condition of Setup/Hold trigger. Press down the knob to select the trigger condition. You can also press When continuously or enable the touch screen to select it.
Page 122: Nth Edge Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Nth Edge Trigger Triggers on the Nth edge that appears after the specified idle time. For example, in the waveform shown in the figure below, the instrument should trigger on the second rising edge after the specified idle time (the time between two neighboring rising edges), and the idle time should be within the range between P and M (P<Idle...
Page 123: Rs232 Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Idle Time: Press Idle to set the idle time before the edge counting in Nth edge trigger. Rotate the multifunction knob or use the pop-up numeric keypad to set the idle time. Edge Count: Press Edges to set the value of "N"...
Page 124 Chapter 5 To Trigger the Oscilloscope RIGOL Source: Press Source to open the signal source list and select CH1-CH4 or D0-D15. For details, refer to descriptions in "Trigger Source". The current trigger source is displayed at the upper-right corner of the screen.
Page 125 Chapter 5 To Trigger the Oscilloscope RIGOL setting methods are available for baud rate: Press Baud Rate, then set the user-defined baud rate with the displayed  numeric keypad. Press Baud Rate, then select the preset baud rate from the available options.
Page 126: I2C Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL I2C Trigger (Option) I2C is a 2-wire serial bus used to connect the microcontroller and its peripheral device. It is a bus standard widely used in the microelectronic communication control field. The I2C serial bus consists of SCL and SDA. Its transmission rate is determined by SCL, and its transmission data is determined by SDA, as shown in the figure below.
Page 127 Chapter 5 To Trigger the Oscilloscope RIGOL high level. Stop: triggers when SDA data transitions from low level to high level while SCL is  high level. Restart: triggers when another start condition occurs before a stop condition.  MissedAck: triggers when the SDA data is high level during any acknowledgment ...
Page 128: Spi Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Press Bytes, then rotate the multifunction knob or use the pop-up  numeric keypad to set the length of the data. Its range is from 1 to 5. Press More  Addr Bits, and rotate the multifunction knob to select ...
Page 129 Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Type: Press Type, and then rotate the multifunction knob to select "SPI". Press down the knob to select the trigger type. Then, the current trigger setting information is displayed at the upper-right corner of the screen, as shown in the figure below. You can also press Type continuously to select the trigger type or enable the touch screen to tap the desired trigger type and select it.
Page 130: Can Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Mode: In the trigger control area (Trigger) on the front panel, press Mode to quickly switch the current trigger mode. For details, refer to descriptions in "Trigger Mode". Trigger Parameter Setting: Set the trigger parameter (noise rejection) under this trigger type. For details, refer to descriptions in "Noise Rejection".
Page 131 Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Condition: Press When to select the desired trigger condition. SOF: triggers at the start of a frame.  EOF: triggers at the end of a frame.  Remote ID: triggers on the remote frame with the specified ID. Set the following ...
Page 132 Chapter 5 To Trigger the Oscilloscope RIGOL Baud Rate: Press More  Baud to set the baud rate. Three setting methods are available for baud rate: Press Baud, then set the user-defined baud rate with the displayed numeric  keypad.
Page 133: Flexray Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL FlexRay Trigger (Option) MSO7000/DS7000 can trigger on the specified frame, symbol, error, or position of the FlexRay bus. FlexRay is a type of differential serial bus configured with three consecutive segments (i.g. header, payload, and trailer). Its data transmission rate is up to 10 Mb/s.
Page 134 Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Condition: Press When, and rotate the multifunction knob to select the desired trigger condition, then press down the knob to select it. You can also press When continuously or enable the touch screen to select it.
Page 135: Lin Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Parameter Setting: Set the trigger parameter (noise rejection) under this trigger type. For details, refer to descriptions in "Noise Rejection". Trigger LEVEL/Threshold Level: Rotate the Trigger LEVEL knob to adjust the trigger level/threshold level. Refer to "Trigger LEVEL/Threshold Level".
Page 136 Chapter 5 To Trigger the Oscilloscope RIGOL Data: triggers when the data that meet the preset conditions are found.  Press More  Bit X to set the data bit that needs to be operated on. For  setting methods, refer to descriptions in "I2C Trigger (Option)".
Page 137: I2S Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL One Bit Figure 5-21 Sample Position Press More  Sample Position, then rotate the multifunction knob or use the pop-up numeric keypad to set the sample position. The settable range is from 10% to 90%.
Page 138 Chapter 5 To Trigger the Oscilloscope RIGOL Figure 5-22 Sequential Chart of I2S Bus Trigger Type: Press Type, and then rotate the multifunction knob to select "I2S". Press down the knob to select the trigger type. Then, the current trigger setting information is displayed at the upper-right corner of the screen, as shown in the figure below.
Page 139 Chapter 5 To Trigger the Oscilloscope RIGOL ≠: triggers when the channel's data do not equal the set data value. Press Data  to set the data bit. For setting methods, refer to descriptions in "I2C Trigger (Option)". <: triggers when the channel's data are smaller than the set data value. Press ...
Page 140: Mil-Std-1553 Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger LEVEL/Threshold Level: Rotate the Trigger LEVEL knob to adjust the trigger level/threshold level. Refer to "Trigger LEVEL/Threshold Level". The current trigger level/threshold level value is displayed at the upper-right corner of the screen.
Page 141 Chapter 5 To Trigger the Oscilloscope RIGOL refer to descriptions in "I2C Trigger (Option)". >: triggers when the channel's data word is greater than the set data word.  Press Min to set the lower limit of the data word. For setting methods, refer to descriptions in "I2C Trigger (Option)".
Page 142: Zone Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL During the adjustment of trigger level, two trigger level lines appear on the screen, and they move up and down with the change of the trigger level. At the same time, the real-time trigger level and slope information is displayed at the lower-left corner of the screen (as shown in the figure below, H indicates the upper limit of the trigger level, L indicates the lower limit of the trigger level, and △...
Page 143 Chapter 5 To Trigger the Oscilloscope RIGOL Select Source A or Source B: Press Source A or Source B, then rotate the multifunction knob to select the desired source, and then press down the knob to select the source. You can also press Source A Source B continuously to select the trigger source or enable the touch screen to tap the desired trigger source and select it.
Page 144: Trigger Output Connector
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Output Connector The trigger output connector ([TRIG OUT]) on the rear panel of MSO7000/DS7000 series can output trigger signals (hardware trigger) determined by the current setting. Trigger Output Connector Figure 5-23 Trigger Output Connector Press Utility ...
Page 145: Chapter 6 Operations And Measurements
Chapter 6 Operations and Measurements RIGOL Chapter 6 Operations and Measurements MSO7000/DS7000 can perform math operations, auto measurements, and cursor measurements on sampled and displayed data. Contents in this chapter: Math Operation  Auto Measurement  Cursor Measurement  MSO7000/DS7000 User Guide...
Page 146: Math Operation
Chapter 6 Operations and Measurements RIGOL Math Operation Press Math in the waveform control area (Wave) on the front panel to open the math operation menu. You can also tap the function navigation icon at the lower-left corner of the screen to open the function navigation. Then tap the "Math"...
Page 147: Subtraction
Chapter 6 Operations and Measurements RIGOL to select the channel. You can also press SourceA and SourceB continuously or enable the touch screen to select the channel. The available channels for SourceA and SourceB are CH1-CH4 and Ref1-Ref10. Note: The source of Math2 can be CH1-CH4, Ref1-Ref10, or Math1; the source of Math3 can be CH1-CH4, Ref1-Ref10, Math1, or Math2;...
Page 148: Multiplication
Chapter 6 Operations and Measurements RIGOL SourceA and SourceB are CH1-CH4 and Ref1-Ref10. Note: The source of Math2 can be CH1-CH4, Ref1-Ref10, or Math1; the source of Math3 can be CH1-CH4, Ref1-Ref10, Math1, or Math2; the source of Math4 can be CH1-CH4, Ref1-Ref10, Math1, Math2, or Math3; only the channels that have been enabled currently can be selected.
Page 149: Division
Chapter 6 Operations and Measurements RIGOL of Math3 can be CH1-CH4, Ref1-Ref10, Math1, or Math2; the source of Math4 can be CH1-CH4, Ref1-Ref10, Math1, Math2, or Math3; only the channels that have been enabled currently can be selected. Press Offset to set the vertical offset of the operation results. For setting ...
Page 150: Fft
Chapter 6 Operations and Measurements RIGOL of Math3 can be CH1-CH4, Ref1-Ref10, Math1, or Math2; the source of Math4 can be CH1-CH4, Ref1-Ref10, Math1, Math2, or Math3; only the channels that have been enabled currently can be selected. Press Offset to set the vertical offset of the operation results. For setting ...
Page 151 Chapter 6 Operations and Measurements RIGOL frequency, and resolution are displayed at the bottom of the screen, as shown in the following figure. Of which, FFT resolution is the quotient of the sample rate and the number of FFT points. If the number of FFT points is a fixed value (65535 at most), then the lower the sample rate, the higher the resolution.
Page 152 Chapter 6 Operations and Measurements RIGOL "Start-End" (start frequency to stop frequency): start frequency refers to  the frequency at the left side of the screen. Press Start to set the start frequency of the frequency-domain waveform. For setting methods, refer to descriptions in "Parameter Setting Method".
Page 153 Chapter 6 Operations and Measurements RIGOL Table 6-1 Window Function Window Waveforms Applicable to the Characteristics Function Window Function Rectangular Best frequency Transient or short pulse, the signal resolution levels before and after the Poorest multiplication are basically the same.
Page 154: And" Operation
Chapter 6 Operations and Measurements RIGOL FFT shortcut operation: Enable the touch screen, and then tap the function navigation icon at the lower-left corner of the screen to open the function navigation. Then, tap the "FFT" icon to open the FFT menu. This oscilloscope supports 4 FFTs: FFT1, FFT2, FFT3, and FFT4.
Page 155: Or" Operation
Chapter 6 Operations and Measurements RIGOL threshold of Source A (or Source B) in logic operation. For setting methods, refer to descriptions in "Parameter Setting Method". The thresholds of the digital channels (D0-D15) are respectively set in the LA module.
Page 156: Xor" Operation
Chapter 6 Operations and Measurements RIGOL Press SourceA and SourceB respectively, and rotate the multifunction knob  to select the channel for SourceA and Source B. Then press down the knob to select the channel. You can also press SourceA and SourceB continuously or enable the touch screen to select the channel.
Page 157 Chapter 6 Operations and Measurements RIGOL two binary bits are as shown in Table 6-4. Table 6-4 Logic "XOR" Operation Press Math  Math1  Operator to select "A^B": Press Operation continuously to enable or disable the "XOR" operation ...
Page 158: Not" Operation
Chapter 6 Operations and Measurements RIGOL from the analog signal on the source. For setting methods, refer to descriptions in "Parameter Setting Method". Press More  Label to set the label for math operation results. For details,  refer to descriptions in "Math Operation Label".
Page 159: Intg
Chapter 6 Operations and Measurements RIGOL Press Size, and then rotate the multifunction knob to select the waveform  size. Press down the knob to select it. You can also press Size continuously or enable the touch screen to select it. The available sizes include "Small", "Medium", and "Large".
Page 160: Diff
Chapter 6 Operations and Measurements RIGOL Press More  Invert to enable or disable the inverted display function of the  waveform. Press More  Label to set the label for math operation results. For details,  refer to descriptions in "Math Operation Label".
Page 161: Sqrt
Chapter 6 Operations and Measurements RIGOL Press More  Invert to enable or disable the inverted display function of the  waveform. Press More  Label to set the label for math operation results. For details,  refer to descriptions in "Math Operation Label".
Page 162: Lg (Base 10 Exponential)
Chapter 6 Operations and Measurements RIGOL waveform. Press More  Label to set the label for math operation results. For details,  refer to descriptions in "Math Operation Label". Press More  Color Grade to enable or disable the color grade display of the ...
Page 163 Chapter 6 Operations and Measurements RIGOL Press More  Reset ColorGrade to clear the color grade display and display  the color grade again. Calculates the natural logarithm (Ln) of the selected source point by point and displays the results.
Page 164: Exp
Chapter 6 Operations and Measurements RIGOL Calculates the exponential of the selected source point by point and displays the results. Press Math  Math1  Operator to select "Exp": Press Operation continuously to enable or disable the "Exp" operation function.
Page 165: Abs
Chapter 6 Operations and Measurements RIGOL Calculates the absolute value of the selected source and displays the results. Press Math  Math1  Operator to select "Abs": Press Operation continuously to enable or disable the "Abs" operation function.  Press SourceA, and rotate the multifunction knob to select the channel for ...
Page 166: Low Pass
Chapter 6 Operations and Measurements RIGOL Low Pass Only allows the signals whose frequencies are lower than the current upper limit frequency to pass. Press Math  Math1  Operator to select "LowPass": Press Operation continuously to enable or disable the "LowPass" operation ...
Page 167: High Pass
Chapter 6 Operations and Measurements RIGOL High Pass Only allows the signals whose frequencies are higher than the current lower limit frequency to pass. Press Math  Math1  Operator to select "HighPass": Press Operation continuously to enable or disable the "HighPass" operation ...
Page 168: Band Pass
Chapter 6 Operations and Measurements RIGOL Band Pass Only allows the signals whose frequencies are higher than the current lower limit frequency and lower than the current upper limit frequency to pass. Press Math  Math1  Operator to select "BandPass": Press Operation continuously to enable or disable the "BandPass"...
Page 169: Band Stop
Chapter 6 Operations and Measurements RIGOL Band Stop Only allows the signals whose frequencies are lower than the current lower limit frequency and higher than the current upper limit frequency to pass. Press Math  Math1  Operator to select "Bandstop": Press Operation continuously to enable or disable the "Bandstop"...
Page 170: Ax+B
Chapter 6 Operations and Measurements RIGOL AX+B Applies a linear function to the selected source, and displays the results. Press Math  Math1  Operator to select "AX+B": Press Operation continuously to enable or disable the "AX+B" operation  function.
Page 171: Math Operation Label
Chapter 6 Operations and Measurements RIGOL Math Operation Label Press Label to enter the label setting menu. Press Display continuously to enable or disable the label display of the  waveform. If it is enabled, the label will be displayed at the left side of the waveform.
Page 172: Auto Measurement
Chapter 6 Operations and Measurements RIGOL Auto Measurement MSO7000/DS7000 provides auto measurements for 41 waveform parameters, as well as the statistics and analysis of the measurement results. Quick Measurement after AUTO When the oscilloscope is correctly connected and has detected a valid input signal, press AUTO to enable the waveform auto setting function and open the auto setting function menu.
Page 173 Chapter 6 Operations and Measurements RIGOL If you lock the Auto function and then exit the auto setting function menu, you can press Utility  More  Auto Config to enter the auto setting function menu again to unlock the Auto function.
Page 174: Measurement Parameter
Chapter 6 Operations and Measurements RIGOL Measurement Parameter Press Measure on the front panel to enter the measurement setting menu. You can set the measurement source, enable or disable the all measurement function, the statistical analysis function, and etc. You can also quickly make measurements for 41 waveform parameters.
Page 175 Chapter 6 Operations and Measurements RIGOL 6． -Width: indicates the time between the threshold middle value of a falling edge to the threshold middle value of the next rising edge. 7． +Duty: indicates the ratio of the positive pulse width to the period.
Page 176 Chapter 6 Operations and Measurements RIGOL Rising Edge Count = n Threshold Upper Limit Threshold Lower Limit 4． Falling Edge Count: The number of falling edges that fall from above the threshold upper limit to below the threshold lower limit.
Page 177 Chapter 6 Operations and Measurements RIGOL indicates that the falling edge of Source A occurred after that of Source B. 3． Delay(A →B ): indicates the time difference between the threshold middle values of the rising edge of Source A and the falling edge of Source B. Negative delay indicates that the rising edge of Source A occurred after the falling edge of Source B.
Page 178 Chapter 6 Operations and Measurements RIGOL Note: Source A and Source B can be any channel among CH1-CH4, Math1-Math4, or  D0-D15. You can press Measure  Add to enter the sub-menu to set the parameters. The default threshold middle value is 50%. You can press Measure  Setting ...
Page 179 Chapter 6 Operations and Measurements RIGOL gating area. The formula is shown as follows: ∑ Average Wherein, is the measurement result of the i th point, and n is the number of points being measured. 11. VRMS: indicates the root mean square value on the whole waveform or in the gating area.
Page 180: Measurement Settings
Chapter 6 Operations and Measurements RIGOL The unit is V*s. The area of the waveform above the zero reference (namely the vertical offset) is positive, and the area of the waveform below the zero reference is negative. The area measured is the algebraic sum of the whole period area.
Page 181 Chapter 6 Operations and Measurements RIGOL rightmost item at the bottom of the screen will be disabled. You can also enable the touch screen to select the measurement category and the measurement parameters. When you rotate the multifunction knob to switch from the ...
Page 182 Chapter 6 Operations and Measurements RIGOL Press Mode to select the measurement mode to "Normal" or  "Precision". Normal: executes measurement of up to 1 Mpts.  Precision: executes measurement of up to 500 Mpts, improving the  resolution of measurement results. Note, in this mode, the refresh rate of the waveforms may be reduced.
Page 183: Remove The Measurement Result
Chapter 6 Operations and Measurements RIGOL --Press Top to select "Histogram" or "Max-Min". --Press Base to select "Histogram" or "Max-Min". Modifying the threshold will affect the measurement results of  the time, delay and phase parameters. If you select "Manual" under Amp Method, the measurement ...
Page 184: All Measurement
Chapter 6 Operations and Measurements RIGOL Press Measure  Statistic to enter the sub-menu of "Statistic". Press Statistic to enable or disable the statistical function.  Press Reset Stat. to clear the history statistics data and makes statistics again. ...
Page 185 Chapter 6 Operations and Measurements RIGOL X Cursor (Cursor A) X Cursor (Cursor B) Y Cursor (Cursor A) Y Cursor (Cursor B) X Cursor  X cursor is a vertical solid/dotted line that is used to make horizontal adjustments. It can be used to measure time (s), frequency (Hz), phase (°), and ratio (%).
Page 186: Manual Mode
Chapter 6 Operations and Measurements RIGOL Note: When the Time Base Mode is set to "XY", the XY cursor measurement mode is valid. Manual Mode In this mode, you can adjust the cursor manually to measure the value of the waveforms of the specified source at the current cursor.
Page 187 Chapter 6 Operations and Measurements RIGOL channels are NONE, CH1-CH4, LA, and Math1-Math4. Note: Only channels currently enabled can be selected.  When "LA" is selected under Source, Select is grayed out and disabled. By  default, "X" is selected under Select.
Page 188 Chapter 6 Operations and Measurements RIGOL 5. Set the Horizontal/Vertical Measurement Unit When "X" is selected under Select, you can set the horizontal measurement  unit. When the source can be Math1-Math4, this menu is grayed out and disabled. Press More  Hori. Unit, and rotate the multifunction knob to select the horizontal measurement unit.
Page 189 Chapter 6 Operations and Measurements RIGOL The available units include "Source" and "Percent(%)". Source: measures the amplitude at Y Cursor (taking the channel  ground point as the reference). The measurement results include AY, BY, and △Y (its unit is consistent with that of the current source).
Page 190: Track Mode
Chapter 6 Operations and Measurements RIGOL Track Mode In this mode, you can adjust the two pairs of cursors (Cursor A and Cursor B) to measure the X and Y values on two different sources respectively. The points being measured on Cursor A and Cursor B are marked by respectively.
Page 191 Chapter 6 Operations and Measurements RIGOL 2. Select the Track Axis Press Track to select "X" or "Y" as the current track axis. The default is "X". X: tracks X Cursor and measures the value at X Cursor.  Y: tracks Y Cursor and measures the time of the first point at the left side of ...
Page 192: Xy Mode
Chapter 6 Operations and Measurements RIGOL Track Measurement (before Horizontal Expansion): Track Measurement (after Horizontal Expansion): XY Mode XY mode is only available when the horizontal time base mode is "XY" (refer to "Timebase Mode"). In this mode, two pairs of cursors will appear. You can adjust the cursor positions to measure the X and Y values at the crossing points of the two pairs of cursors.
Page 193 Chapter 6 Operations and Measurements RIGOL BY: indicates the Y value at Cursor B.  △X: indicates the horizontal spacing between Cursor A and Cursor B.  △Y: indicates the vertical spacing between Cursor A and Cursor B.  1. Adjust Cursor Position...
Page 194: Measure Mode
Chapter 6 Operations and Measurements RIGOL Measure Mode Press Mode to select "Measure". In this mode, the cursor position for measurement is displayed. Press Indicator continuously to enable or disable the indicator. If it is enabled, one or multiple cursors are displayed on the screen. Before enabling the indicator, you need to enable at least one parameter for auto measurement.
Page 195: Chapter 7 Digital Voltmeter (Dvm) And Frequency Counter
Chapter 7 Digital Voltmeter (DVM) and Frequency Counter RIGOL Chapter 7 Digital Voltmeter (DVM) and Frequency Counter MSO7000/DS7000 series oscilloscope provides a built-in digital voltmeter (DVM) and frequency counter, which enable you to perform an accurate measurement, improving user experience in counter and frequency measurement.
Page 196: Digital Voltmeter (Dvm)
Chapter 7 Digital Voltmeter (DVM) and Frequency Counter RIGOL Digital Voltmeter (DVM) The built-in DVM of this oscilloscope provides 3-digit voltage measurements on any analog channel. DVM measurements are asynchronous from the oscilloscope’s acquisition system and are always acquiring. Press Measure  Analyze  DVM to open the DVM setting menu, or enable the...
Page 197: To Select Measurement Mode
Chapter 7 Digital Voltmeter (DVM) and Frequency Counter RIGOL Note: Even if the analog channel (CH1-CH4) is not enabled, you can still perform the DVM measurement. To Select Measurement Mode Press Mode in the "DVM" setting menu, then rotate the multifunction knob select the desired mode, and then press down the knob to select the mode.
Page 198: Frequency Counter
Chapter 7 Digital Voltmeter (DVM) and Frequency Counter RIGOL Frequency Counter The frequency counter analysis function provides frequency, period, or edge event counter measurements on any analog channel. Press Measure  Analyze  Counter to open the frequency counter setting menu, or enable the touch screen and then tap the function navigation icon the lower-left corner of the screen to open the function navigation.
Page 199: To Set Resolution
Chapter 7 Digital Voltmeter (DVM) and Frequency Counter RIGOL item. You can also press Measure continuously or enable the touch screen to tap the desired measurement item and select it. To Set Resolution For Period and Frequency measurements, you need to set the readout resolution.
Page 201: Chapter 8 Power Analysis (Option)
Chapter 8 Power Analysis (Option) RIGOL Chapter 8 Power Analysis (Option) MSO7000/DS7000 series oscilloscope provides an optional power analysis function, which can help you easily analyze the efficiency and reliability of the switch-mode power supplies. With the power analysis function, you can analyze the power quality and output ripple noise of the input power.
Page 202: Power Quality
Chapter 8 Power Analysis (Option) RIGOL Power Quality By analyzing the power quality, you can test the quality of AC input lines. The specific measurement parameters for power quality analysis include V_RMS, I_RMS, real power, apparent power, reactive power, power factor, reference frequency, phase angle, impedance, voltage crest factor, and current crest factor.
Page 203 Chapter 8 Power Analysis (Option) RIGOL settings of the upper limit and lower limit. Press Lower, then rotate the multifunction knob or use the pop-up  numeric keypad to set the lower limit. Increasing the lower limit to the current middle value will automatically increase the middle value and upper limit to keep them higher than the lower limit.
Page 204: Ripple
Chapter 8 Power Analysis (Option) RIGOL Figure 8-1 Connection Diagram of Power Quality Analysis Ripple Power ripple is an important parameter for evaluating DC power supply, which indicates the ripple quantity of the output DC voltage. The ripple analysis can measure the current value, average value, minimum value, maximum value, standard deviation, and count value of the ripples on the power output terminal.
Page 205 Chapter 8 Power Analysis (Option) RIGOL the figure below. You can also enable the touch screen to tap the icon at the right-upper corner of the statistical results window to close it. View the Connection Diagram  Press Tips, and then the connection diagram of the ripple analysis is displayed on the screen.
Page 207: Chapter 9 Histogram Analysis
Chapter 9 Histogram Analysis RIGOL Chapter 9 Histogram Analysis MSO7000/DS7000 series oscilloscope supports the standard histogram analysis function, enabling you to judge the trend of waveforms, and quickly locate the potential problems of the signal. DS7000 series can upgrade to MSO7000 series with the MSO upgrade option.
Page 208: To Enable Or Disable The Histogram Function
Chapter 9 Histogram Analysis RIGOL To Enable or Disable the Histogram Function The histogram analysis function supported by the MSO7000/DS7000 series is available to provide a statistical view of waveforms or measurement results. It can be classified into horizontal histogram, vertical histogram, and measurement histogram.
Page 209: To Set The Histogram Height
Chapter 9 Histogram Analysis RIGOL When you select "Measure" as the histogram type, press Measure on the front panel to enter the measurement setting menu, and then add one or multiple measurement items. The added measurement item(s) can be served as the histogram source(s).
Page 210: To Reset
Chapter 9 Histogram Analysis RIGOL Sum: indicates the sum of all bins (buckets) in the histogram.  Peaks: indicates the maximum number of hits in any single bin.  Max: indicates the value that corresponds to the maximum bin that has any hits.
Page 211: Chapter 10 Digital Channel
Chapter 10 Digital Channel RIGOL Chapter 10 Digital Channel MSO7000 series oscilloscope has a standard configuration of the logic analyzer (LA) function, and it has 16 digital channels. The default channel label is D15-D0. The oscilloscope compares the voltages acquired in each sample with the preset logic threshold.
Page 212: To Select The Digital Channel
Chapter 10 Digital Channel RIGOL To Select the Digital Channel Press LA on the front panel to enter the LA setting menu. Press Select to open the channel menu, and rotate the multifunction knob to select the channel. You can also press Select continuously or enable the touch screen to select it.
Page 213: To Set The Threshold
Chapter 10 Digital Channel RIGOL D15-D8 channels. Enable/disable a single digital channel  Press Dx On/Off to open the channel selection list. Rotate the multifunction knob to select a channel, and then press down the knob to enable or disable it.
Page 214: Auto Arrangement Setting
Chapter 10 Digital Channel RIGOL the threshold field, and then the threshold selection list is displayed. Tap to select the preset threshold. Or tap the threshold input field and input the value with the pop-up numeric keypad. Auto Arrangement Setting Press Arrange to select the waveform arrangement order of the currently enabled channels on the screen.
Page 215: Group Setting
Chapter 10 Digital Channel RIGOL ADO, ADDR, BIT, CAS, CLK, CS, DATA, HALT, INT, LOAD, NMI, OUT, PAS, PIN, RDY, RST, RX, TX, WR, MISO, MOSI, and D0-D15. Input a label manually  Press Label to open the label input interface. You can input the label manually.
Page 216: Waveform Color Of The Digital Channel
Chapter 10 Digital Channel RIGOL Waveform Color of the Digital Channel When the digital channel is enabled, its corresponding waveforms and label are displayed on the screen. This oscilloscope supports setting high logic level display color, low logic level display color, and edge display color.
Page 217: Chapter 11 Protocol Decoding
Chapter 11 Protocol Decoding RIGOL Chapter 11 Protocol Decoding You can use the protocol analysis to discover errors, debug hardware, and accelerate development easily, ensuring you to accomplish the projects with high speed and good quality. Protocol decoding is the basis of protocol analysis. Only protocol analyses with correct protocol decoding are acceptable, and only correct protocol decoding can identify more error information.
Page 218: Parallel Decoding
Chapter 11 Protocol Decoding RIGOL Parallel Decoding Parallel bus consists of clock line and data line. As shown in the figure below, CLK is the clock line, whereas Bit0 and Bit1 are the 0 bit and 1st bit on the data line respectively.
Page 219 Chapter 11 Protocol Decoding RIGOL Falling : samples the channel data on the falling edge of the clock. Both : samples the channel data on both the rising edge and the falling edge of the clock. Set the threshold ...
Page 220 Chapter 11 Protocol Decoding RIGOL D8-D15 8 0 (default) Bit0 to Bit7 are set to D15 to D8 (default) respectively. Width is set automatically, and you cannot modify them. D0-D15 16 0 (default) Bit0 to Bit15 are set to D15 to (default) D0 respectively.
Page 221 Chapter 11 Protocol Decoding RIGOL Channel Signal Amplitude Threshold Level Channel Logic Level Set the endian  Press Endian continuously to select "Normal" or "Invert" as the endian of the bus. Polarity  Press Polarity continuously to select Positive or Negative as the polarity for data decoding.
Page 222 Chapter 11 Protocol Decoding RIGOL enable the touch screen to tap the icon at the upper-right corner of the table to close the event table. Besides, you can also rotate the multifunction knob to select a specified line and view the corresponding decoding information.
Page 223: Rs232 Decoding (Option)
Chapter 11 Protocol Decoding RIGOL time, you can view the details in the "Packets" view. If you select "Payload", all data in the specified column will be displayed in the event table. If "…" appears in the specified column of data, it indicates that the decoded data are not fully displayed.
Page 224 Chapter 11 Protocol Decoding RIGOL Figure 11-4 Schematic Diagram of Negative Logic In RS232, baud rate is used to represent the transmission rate (namely bits per second) of the data. You need to set the start bit, data bits, check bit (optional), and stop bit for each frame of data.
Page 225 Chapter 11 Protocol Decoding RIGOL 4． Source setting Press Sources to enter the source setting menu. Set the Tx source and the threshold  Press Tx and rotate the multifunction knob to select the desired  channel, and then press down the knob. You can also press Tx continuously or enable the touch screen to select it.
Page 226 Chapter 11 Protocol Decoding RIGOL is an odd number. For example, when 0x55 (01010101) is sent, "1" should be added to the check bit. Stop Bit  Press Stop Bit and rotate the multifunction knob to set the stop bits after each frame of data.
Page 227 Chapter 11 Protocol Decoding RIGOL Adjust the vertical position of the bus  Press Position, and then rotate the multifunction knob to adjust the vertical display position of the bus. You can also rotate Wave Vertical POSITION to adjust the vertical display position of the bus.
Page 228 Chapter 11 Protocol Decoding RIGOL and "Payload". You can also tap "Packets", "Details", or "Payload" at the top of the event table to select it. If you select "Packets", the time and decoded data are displayed in the event table; if you select "Details", the detailed data in the specified row will be displayed in the event table;...
Page 229 Chapter 11 Protocol Decoding RIGOL EOF Error  This error is generated when the EOF condition is not met. For example, if the Stop Bit is set to 1.5, but the actual stop bits is less than 1.5 bits, then...
Page 230: I2C Decoding (Option)
Chapter 11 Protocol Decoding RIGOL I2C Decoding (Option) I2C serial bus consists of the clock line (SCLK) and the data line (SDA). SCL: samples SDA on the rising or falling edge of the clock. SDA: indicates the data channel. SCLK Figure 11-5 I2C Serial Bus In the decode setting menu, press Decode1 ...
Page 231 Chapter 11 Protocol Decoding RIGOL Press Exchange to select "SCL/SDA" or "SDA/SCL" to exchange the sources of the current clock channel and data channel. 4． Specify whether the address information includes the "R/W" bit For I2C bus, each frame of data starts with the address information. The address information includes the read address and the write address.
Page 232 Chapter 11 Protocol Decoding RIGOL Line Number Time R/W Bit Address Decoded data Acknowledgement Event Table I2C Bus Figure 11-6 I2C Decoding Event Table Note: When you adjust the horizontal time base, the waveform displayed  on the screen will also change, and the total number of lines containing the decoding information in the event table will also be changed.
Page 233 Chapter 11 Protocol Decoding RIGOL time, you can view the details in the "Packets" view. Export: If you select "Packets", you can export time, the corresponding  decoded data, and etc. Press Export, the save setting menu is displayed. You can export the data table of the packets to the internal or external USB storage device (when detected) in CSV format.
Page 234: Spi Decoding (Option)
Chapter 11 Protocol Decoding RIGOL The detected ACK is 1 SPI Decoding (Option) SPI bus is based on the master-slave configuration and usually consists of chip select line (CS), clock line (SCLK), and data line (SDA). Wherein, the data lines include the master input/slave output (MISO) data line and master output/slave input (MOSI) data line.
Page 235 Chapter 11 Protocol Decoding RIGOL 2． Quickly apply SPI trigger settings to SPI decoding Press Copy Trig to copy the SPI trigger settings and apply them to SPI decoding function (set the corresponding SPI decoding parameters automatically). For analog channels, the threshold level settings will also be copied.
Page 236 Chapter 11 Protocol Decoding RIGOL You can also press MISO continuously or enable the touch screen to select it. The available channels include OFF, analog channels (CH1-CH4), and digital channels (D0-D15). When you select an analog channel (CH1-CH4), press Threshold below the MISO menu, then...
Page 237 Chapter 11 Protocol Decoding RIGOL Adjust the vertical position of the bus  Press Position, and then rotate the multifunction knob to adjust the vertical display position of the bus. You can also rotate Wave Vertical POSITION to adjust the vertical display position of the bus.
Page 238 Chapter 11 Protocol Decoding RIGOL Note: When you adjust the horizontal time base, the waveform displayed  on the screen will also change, and the total number of lines containing the decoding information in the event table will also be changed.
Page 239: Lin Decoding (Option)
Chapter 11 Protocol Decoding RIGOL LIN Decoding (Option) The oscilloscope samples the LIN signal, and judges each data point to be logic "1" or logic "0" according to the preset threshold level. The LIN decoding is required to specify the LIN signal protocol version.
Page 240 Chapter 11 Protocol Decoding RIGOL Press Parity bit continuously to select whether the data contains the parity bit. Set the protocol version  Press Version and rotate the multifunction knob to select a protocol version that matches the LIN bus signal. Then, press down the knob to select it.
Page 241 Chapter 11 Protocol Decoding RIGOL Line Number Time Frame ID Decoded Data CRC Error Event Table LIN Bus Figure 11-9 LIN Decoding Event Table Note: When you adjust the horizontal time base, the waveform displayed  on the screen will also change, and the total number of lines containing the decoding information in the event table will also be changed.
Page 242 Chapter 11 Protocol Decoding RIGOL time, you can view the details in the "Packets" view. Export: If you select "Packets", you can export time and the  corresponding decoded data. Press Export, the save setting menu is displayed. You can export the data table of the packets to the internal or external USB storage device (when detected) in CSV format.
Page 243 Chapter 11 Protocol Decoding RIGOL Parity Error Checksum Error  If the checksum error is detected, CRC is displayed in red, as shown in the figure below. Checksum Error Sync Error  If the sync error is detected, SYNC is displayed in red, as shown in the figure below.
Page 244: Can Decoding (Option)
Chapter 11 Protocol Decoding RIGOL Sync Error CAN Decoding (Option) The oscilloscope samples the CAN signal at the specified sample position. The oscilloscope will also judge each data point (logic "1" or logic "0") according to the preset threshold level. You need to specify the CAN signal type and sample position for CAN decoding.
Page 245 Chapter 11 Protocol Decoding RIGOL clock channel, a dotted line displaying the current threshold level is displayed on the screen. The dotted line disappears in about 2 s after you stop modifying the threshold. 4. Signal setting Press Settings to enter the signal setting menu.
Page 246 Chapter 11 Protocol Decoding RIGOL Press Sample Position, then rotate the multifunction knob or use the pop-up numeric keypad to set the sample position. The settable range is from 10% to 90%. 5. Display-related Setting Press Display to enter the display setting menu.
Page 247 Chapter 11 Protocol Decoding RIGOL Line Number Time Frame ID DLC Decoded Data Event Table CAN Bus Figure 11-11 CAN Decoding Event Table Note: When you adjust the horizontal time base, the waveform displayed  on the screen will also change, and the total number of lines containing the decoding information in the event table will also be changed.
Page 248 Chapter 11 Protocol Decoding RIGOL data, it indicates that the decoded data are not fully displayed. At this time, you can view the details in the "Packets" view. Export: If you select "Packets", you can export time and the ...
Page 249: Flexray Decoding (Option)
Chapter 11 Protocol Decoding RIGOL FlexRay Decoding (Option) FlexRay is a type of differential serial bus configured with three consecutive segments (i.g. header, payload, and trailer). The oscilloscope samples the FlexRay signal at the specified sample position and judges each data point as logic "1" or logic "0"...
Page 250 Chapter 11 Protocol Decoding RIGOL desired baud rate. Set the signal type  Press Signal and rotate the multifunction knob to select a signal type that matches the actual FlexRay bus signal. Press down the knob to select it. You can also press Signal continuously or enable the touch screen to select it.
Page 251 Chapter 11 Protocol Decoding RIGOL upper-left side of the bus (when the bus display is enabled). Event table  Press Event Table to enter the event table setting menu. The event table displays the detailed decoding information in time order in the form of a table, so as to better observe the long decoded data.
Page 252 Chapter 11 Protocol Decoding RIGOL continuously or enable the touch screen to select it. The available formats include "Hex", "Dec", "Bin", and "ASCII". Set the view type: Press View, then rotate the multifunction knob  to select the form of the event table to be viewed. Press down the knob to select it.
Page 253: I2S Decoding (Option)
Chapter 11 Protocol Decoding RIGOL TSS Sync Frame Frame PL HCRC CYC Data TCRC I2S Decoding (Option) The oscilloscope samples the I2S signal and judges each data point as logic "1" or logic "0" according to the preset threshold level. I2S decoding is required to specify the serial clock, channel signal, and the data's source channel.
Page 254 Chapter 11 Protocol Decoding RIGOL Set the WS source and the threshold  Press WS and rotate the multifunction knob to select the desired  channel, and then press down the knob to select it. You can also press WS continuously or enable the touch screen to select it. The available channels include CH1-CH4 and D0-D15.
Page 255 Chapter 11 Protocol Decoding RIGOL Endian  Press Endian to select "LSB" or "MSB". By default, it is "LSB". Polarity setting  Press Data Polarity continuously to select Positive or Negative the polarity for data decoding. 5. Display-related setting Press Display to enter the display setting menu.
Page 256 Chapter 11 Protocol Decoding RIGOL Line Number Time Left Channel Data Right Channel Event Table I2S Bus Figure 11-14 I2S Decoding Event Table Note: When you adjust the horizontal time base, the waveform displayed  on the screen will also change, and the total number of lines containing the decoding information in the event table will also be changed.
Page 257: 1553B Decoding (Option)
Chapter 11 Protocol Decoding RIGOL time, you can view the details in the "Packets" view. Export: If you select "Packets", you can export time and the  corresponding decoded data. Press Export, the save setting menu is displayed. You can export the data table of the packets to the internal or external USB storage device (when detected) in CSV format.
Page 258 Chapter 11 Protocol Decoding RIGOL about 2 s after you stop modifying the threshold. 4. Display-related setting Press Display to enter the display setting menu. Set the display format  Press Format, rotate the multifunction knob to select the display format of the bus data.
Page 259 Chapter 11 Protocol Decoding RIGOL Line Number Time Word Type Data Error Event Table 1553B Bus Figure 11-15 1553B Decoding Event Table Note: When you adjust the horizontal time base, the waveform displayed  on the screen will also change, and the total number of lines containing the decoding information in the event table will also be changed.
Page 260 Chapter 11 Protocol Decoding RIGOL data, it indicates that the decoded data are not fully displayed. At this time, you can view the details in the "Packets" view. Export: If you select "Packets", you can export time and the ...
Page 261: Chapter 12 Reference Waveform
Chapter 12 Reference Waveform RIGOL Chapter 12 Reference Waveform MSO7000/DS7000 series oscilloscope provides 10 reference waveform positions (Ref1-Ref10). In the actual test process, you can compare the signal waveform with the reference waveform to locate the failure. Contents in this chapter: To Enable Ref Function ...
Page 262: To Enable Ref Function
Chapter 12 Reference Waveform RIGOL To Enable Ref Function Press Ref on the front panel to enable the reference waveform function, or enable the touch screen and then tap the function navigation icon at the lower-left corner of the screen to open the function navigation. Then, tap the "Ref" icon to enable the reference waveform function.
Page 263: To Save To Internal Memory
Chapter 12 Reference Waveform RIGOL Wave Vertical SCALE and Wave Vertical POSITION to adjust the vertical scale and vertical offset. To Save to Internal Memory Press SaveToRef to save the displayed waveform for the specified source to the internal memory as the reference waveform.
Page 264: To Reset The Reference Waveform
Chapter 12 Reference Waveform RIGOL To Reset the Reference Waveform Press More  Reset, and the reference waveform is restored to the position where the source channel waveform is located when the SaveToRef operation was executed. Color Setting MSO7000/DS7000 series oscilloscope provides five colors (gray, green, blue, red, and orange) to mark the reference waveforms of different channels in order to distinguish the reference waveforms of different reference waveform channels.
Page 265: To Export To Internal Or External Memory
Chapter 12 Reference Waveform RIGOL To Export to Internal or External Memory You can also save the current reference waveform to the internal memory or external USB storage device. The file format of the reference waveform is ".ref", ".bin", or ".csv".
Page 267: Chapter 13 Pass/Fail Test
Chapter 13 Pass/Fail Test RIGOL Chapter 13 Pass/Fail Test During the product design and manufacturing process, you usually need to monitor the variations of the signal or judge whether the product is up to standard. The pass/fail test function of MSO7000/DS7000 series oscilloscope can accomplish this task perfectly.
Page 268: To Enable Or Disable The Pass/Fail Test Function
Chapter 13 Pass/Fail Test RIGOL To Enable or Disable the Pass/Fail Test Function Press Utility  PassFail to open the pass/fail test setting menu, or enable the touch screen and then tap the function navigation icon at the lower-left corner of the screen to open the function navigation.
Page 269: To Create A Mask
Chapter 13 Pass/Fail Test RIGOL To Create a Mask Press Mask  Create to self-define the mask of the pass/fail test. Press Range and rotate the multifunction knob to select the mask range. Press down the knob to select it. You can also press Range continuously or enable the touch screen to select it.
Page 270: To Set The Output Form Of The Test Results
Chapter 13 Pass/Fail Test RIGOL them to the current pass/fail test function. To Set the Output Form of the Test Results Press Option to enter the "Option" menu. You can set what the oscilloscope will execute when test results are detected according to your needs.
Page 271: To Enable Or Disable The Display Of The Statistics Of The Test Results
Chapter 13 Pass/Fail Test RIGOL To Enable or Disable the Display of the Statistics of the Test Results Press Information continuously to enable or disable the display of the statistics of the test results. You can also enable the touch screen to tap the icon at the right-upper corner of the statistics window to close it.
Page 273: Chapter 14 Waveform Recording & Playing
Chapter 14 Waveform Recording & Playing RIGOL Chapter 14 Waveform Recording & Playing Waveform recording & playing function can play the recorded waveforms of the analog input channels (CH1-CH4) and the digital channels (D0-D15), enabling you to analyze the waveforms better.
Page 274: Common Settings
Chapter 14 Waveform Recording & Playing RIGOL Common Settings Press Utility  Record to enter the waveform recording function setting menu. You can also enable the touch screen and then tap the function navigation icon the lower-left corner of the screen to open the function navigation. Then, tap the "Record"...
Page 275: Record Options
Chapter 14 Waveform Recording & Playing RIGOL current frame is displayed on the screen. 4. Set Transition Press Jump To continuously to select to jump to the recorded end frame Last) or the recorded start frame ( First). For settings of the start and end frames, refer to descriptions in "Play Options".
Page 276: Play Options
Chapter 14 Waveform Recording & Playing RIGOL the currently selected "memory depth" (refer to "Memory Depth"). The current memory depth refers to the number of waveform points per frame. Memory Depth = Sample Rate x Horizontal Time Base x Number of Grids in the Horizontal Direction.
Page 277 Chapter 14 Waveform Recording & Playing RIGOL numeric keypad to set the start frame of playback. By default, it is 1, and the maximum value is the number of recorded frames. 5. End Frame Press End Frame, then rotate the multifunction knob or use the pop-up numeric keypad to set the end frame of playback.
Page 279: Chapter 15 Search And Navigation Function
Chapter 15 Search and Navigation Function RIGOL Chapter 15 Search and Navigation Function The search function allows you to search for relevant events based on the search condition that you set. The navigation function includes the recording & playing navigation, time navigation, and event navigation.
Page 280: Search Function
Chapter 15 Search and Navigation Function RIGOL Search Function The search function enables you to search the channel edge, Pulse trigger, Runt trigger, Slope trigger, RS232 trigger, I2C trigger, or SPI trigger. Press Search on the front panel to enable the search setting menu. You can also enable the touch screen...
Page 281 Chapter 15 Search and Navigation Function RIGOL knob or use the pop-up numeric keypad to set the thresholds of SCL and SDA. SPI: Press Type to select "SPI" as the search type. For SPI Setup menu  settings, refer to descriptions in "SPI Trigger (Option)". Press Threshold to enter the threshold setting menu.
Page 282: Navigation Function
Chapter 15 Search and Navigation Function RIGOL to descriptions in "Navigation Function". 6. Save You can save the event mark data to the internal memory or external USB storage device in "*.csv" format. Press More  Save to enter the file saving interface. Please refer to descriptions in "Store and Load"...
Page 283 Chapter 15 Search and Navigation Function RIGOL can use the navigation combination keys to quickly navigate the specific event in the event mark table. Press to navigate to the previous event (the serial number in the mark table decreases); press to navigate to the next event (the serial number in the mark table increases);...
Page 285: Chapter 16 Display Control
Chapter 16 Display Control RIGOL Chapter 16 Display Control In the display control setting menu, you can set the parameters such as the waveform display type, persistence time, intensity, grid type, grid brightness, and etc. Contents in this chapter: To Select the Display Type ...
Page 286: To Select The Display Type
Chapter 16 Display Control RIGOL To Select the Display Type Press Display to enter the display control setting menu. Press Type continuously to set the waveform display mode to "Vector" or "Dots". Vector display: indicates that the sample points are connected by lines and ...
Page 287: To Set The Waveform Intensity
Chapter 16 Display Control RIGOL To Set the Waveform Intensity Press Intensity, then rotate the multifunction knob at a small step value or use the pop-up numeric keypad to set the waveform intensity. Note that in the non-menu operation mode, you can also rotate the multifunction knob to adjust the waveform brightness of the channel.
Page 288: To Set The Grid Brightness
Chapter 16 Display Control RIGOL To Set the Grid Brightness Press Brightness, then rotate the multifunction knob at a small step value or use the pop-up numeric keypad to set the grid intensity. The default is 20%, and the range available is from 1% to 100%.
Page 289: Chapter 17 Function/Arbitrary Waveform Generator (Mso7000 Option)
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) MSO7000 series has an optional built-in dual-channel, 25 MHz signal source, which integrates the signal source and the oscilloscope into one, providing great convenience for engineers who need to use the signal source and oscilloscope at the same time.
Page 290: To Output Basic Waveforms
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL To Output Basic Waveforms Press GI on the front panel or enable the touch screen to tap the GI label at the bottom of the screen to enable/disable the output of the [GI] connector on the front panel, and enter the Function/Arbitrary Waveform Generator setting interface.
Page 291: To Output Square
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL continuously to select it. Also, you can enable the touch screen to select it. Rotate the multifunction knob or use the pop-up numeric keypad to set the offset or low level value of the current signal. When Impedance is set to "HighZ", the available range is from (-2.5 V+currently set amplitude value/2) to (2.5 V-...
Page 292: To Output Ramp
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL To Output Ramp Press Wave, rotate the multifunction knob to select "Ramp". Press down the knob to select it. You can also press Wave continuously or enable the touch screen to select it. At this time, you can set the parameters for the ramp waveform. For setting methods, refer to descriptions in "To Output Sine".
Page 293: To Output Dc
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL Press Settings  Duty Cycle, then rotate the multifunction knob or use the pop-up numeric keypad to set the duty cycle of the current pulse signal. Its settable range is from 10% to 90%.
Page 294: Sinc
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL offset or low level value of the current signal. 3. Set the impedance Press Impedance continuously to set the output impedance of the Function/Arbitrary Waveform Generator. It can be set to "HighZ" or "50Ω".
Page 295: Exp.fall
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL Exp.Fall Press Wave, rotate the multifunction knob to select "Exp.Fall". Press down the knob to select it. You can also press Wave continuously or enable the touch screen to select it. At this time, you can set the parameters for the Exp.Fall waveform (as shown in the figure below).
Page 296: Lorentz
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL knob to select it. You can also press Wave continuously or enable the touch screen to select it. At this time, you can set the parameters for the Gauss waveform (as shown in the figure below). For setting methods, refer to descriptions in "To Output Sine".
Page 297: To Output The Arbitrary Waveform
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL Figure 17-9 Haversine To Output the Arbitrary Waveform MSO7000 series oscilloscope allows you to define the arbitrary waveform and save it to the internal or external memory. The user-defined waveform can contain 1 to 16,384 data points (i.g.
Page 298: To Create The Waveform
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL 2. Load the Waveform Press Load Stored to enter the waveform loading interface. In the disk management interface, select the waveform from the internal memory or the external memory. The waveform file is suffixed with "*.arb". Then, press Load to load the selected waveform.
Page 299 Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL maximum number of editable points supported by the system is 16,384 (16 kpts). Linear interpolation  Press Linear Interp to enable or disable the linear interpolation between the defined points of the waveform.
Page 300: To Edit Waveforms
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL To Edit Waveforms You can edit the waveforms in the current volatile memory. Press Edit to enter the waveform editing menu. Set the frequency or period  First select Frequency or Period, then rotate the multifunction knob select "Frequency"...
Page 301: Modulation
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL Voltage  Press Voltage, then rotate the multifunction knob or use the pop-up numeric keypad to set the voltage value of the current point. Its available range is from -2.5 V to +2.5 V.
Page 302 Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL AM (Amplitude Modulation), namely the amplitude of the carrier waveform changes with the amplitude of the modulating waveform, as shown in the figure below. Modulating Signal Carrier Signal Modulated Waveform Figure 17-10 Amplitude Modulation 1.
Page 303: Fsk
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL FM (Frequency Modulation), namely the frequency of the carrier waveform changes with that of the modulating waveform, as shown in the figure below. Modulating Signal Carrier Signal Modulating Waveform Figure 17-11 Frequency Modulation 1.
Page 304: Sweep
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL rate of data transmission. 1. Set the Modulation Polarity Press Polarity continuously to select "Positive" or "Negative" of the modulating waveform to control the frequency output. 2. Set the Modulation Rate Press FSK Rate, then rotate the multifunction knob or use the pop-up numeric keypad to set the frequency of the modulation signal.
Page 305 Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL Set start frequency and end frequency  Start frequency and end frequency indicate the upper and lower limits of the sweep frequency. The Function/Arbitrary Waveform Generator always sweeps from the start frequency to the end frequency, and then returns back to the start frequency.
Page 306: Burst
Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL use the pop-up numeric keypad to set the step value. By default, it is 2. Its available range is from 2 to 1000. Set the trigger source  The trigger sources of the sweep can be Internal, External, or Manual.
Page 307 Chapter 17 Function/Arbitrary Waveform Generator (MSO7000 Option) RIGOL Type continuously or enable the touch screen to select it. The available burst types include N Cycle and Infinite. N Cycle: outputs the burst waveforms with a specified number of cycles ...
Page 309: Chapter 18 Store And Load
Chapter 18 Store and Load RIGOL Chapter 18 Store and Load You can save the current settings, waveforms, screen image, and parameters of the oscilloscope in internal memory or external storage device (such as USB storage device) in various formats and load the stored settings or waveforms when needed.
Page 310: Storage System
Chapter 18 Store and Load RIGOL Storage System Press Storage on the front panel to enter the store and load setting interface. It provides 3 USB HOST interfaces on the front panel and one USB HOST interface on the rear panel, which can all be connected to the USB storage device for external storage.
Page 311 Chapter 18 Store and Load RIGOL 2. Wave Press Save Wave to enter the waveform storage setting interface. Save the main setting information (e.g. "On/Off" state of the channel, vertical scale, and horizontal time base) and waveform data of all enabled channels (analog channel and digital channel) to the external memory.
Page 312: Load Type
Chapter 18 Store and Load RIGOL Load Type This oscilloscope provides two load types: waveform load and setup load. The descriptions of each load type are as follows. 1. Waveform Load Press Load Wave to load the waveforms from the internal memory or the external USB disk.
Page 313 Chapter 18 Store and Load RIGOL overwritten and asking you whether to continue or not. 6) Press Save to save the set setup file to the selected folder in "*.stp" format. After saving the reference waveform, press Ref  More  Export to enter the disk management interface of reference waveform file storage.
Page 314: External Storage And Load
Chapter 18 Store and Load RIGOL External Storage and Load Before external storage and recall, ensure that the USB disk is properly connected. The external memory supports image saving, waveform saving, setup saving, waveform loading, and setup loading. 1. Save the Specified Type of File in the External USB Storage Device...
Page 315: Binary Header Format
1. File Header There is only one file header in a binary file. The file header contains the following information. Cookie Two-byte characters, RG, indicating that the file is the RIGOL binary data file format. Version Two bytes, indicating the file version.
Page 316 Chapter 18 Store and Load RIGOL Number of A 4-byte integer, indicating the number of waveform points in Points the data. Count A 4-byte integer, indicating the number of hits at each time interval during waveform recording when using a certain sample mode (e.g.
Page 317: Disk Management
Chapter 18 Store and Load RIGOL 3. Waveform Data Header A waveform may have multiple data sets. Each waveform data set has a waveform data header. The waveform data header consists of information about the waveform data set. The header is stored before the data set.
Page 318: To Select A File Type
Chapter 18 Store and Load RIGOL To Delete a File or Folder  To Copy and Paste a File or Folder  To Rename a File or Folder  To Clear the Internal Memory Safely  To Select a File Type Except the image storage, waveform storage, and setup storage, the oscilloscope can also save the files of advanced applications.
Page 319 Chapter 18 Store and Load RIGOL This oscilloscope supports Chinese/English input method. The length of the folder name is limited to 10 bytes (one Chinese character occupies two bytes). The following part introduces how to input a folder name using Chinese/English input method.
Page 320 Chapter 18 Store and Load RIGOL Rotate the multifunction knob to select "F" and press down the knob. The character is displayed in the English selection area. In the English selection area, rotate the multifunction knob to select "F" and press it down. Then, "F" is displayed in the name input area, "F" is input successfully.
Page 321 Chapter 18 Store and Load RIGOL Pinyin Input Area Chinese Character Selecting Area 1. Chinese Input Method If the current input method is "中/繁/En", please go to Step 2. If the current input method is "En/中/繁" or "繁/En/中", rotate the multifunction knob select the input switch key and press the knob continuously to switch to "...
Page 322: To Delete A File Or Folder
Chapter 18 Store and Load RIGOL 5. Modify or Delete the Unwanted Characters that Have Been Entered. When inputting the filename, you can modify or delete the filename characters input in the "Name Input Area" as well as delete the pinyin characters input in the "Pinyin Input Area".
Page 323: To Copy And Paste A File Or Folder
Chapter 18 Store and Load RIGOL When you delete a directory where a file or a folder exists, the directory  cannot be deleted. The touch screen function only allows you to select the directory and open it.  You are unable to delete the directory with the touch screen function.
Page 324: Factory Settings
Chapter 18 Store and Load RIGOL is displayed. Press OK to clear all the files stored in the internal memory. Factory Settings Press Default on the front panel, then a prompt message "Restore default?" is displayed. Press OK or tap OK to restore the oscilloscope to the factory default settings, as shown in the table below.
Page 325 Chapter 18 Store and Load RIGOL Attenuation Input Impedance 1 MΩ Invert Fine Channel Unit Display Label Built-in Label Ch-Ch Skew Offset Cal Acquire Acquisition Mode Normal Memory Depth Auto Anti-Aliasing Trigger Trigger Type Edge Trigger Source Selection Edge Type...
Page 326 Chapter 18 Store and Load RIGOL Start Phase 0° Setting Type Impedance HighZ Cursor Mode Manual Select Source 100 mV -100 mV Vertical Unit Source Hori. Unit Region Main Track AX Source BX Source -1 μs 1 μs Track -233.3 mV 100 mV -233.3 mV...
Page 327 Chapter 18 Store and Load RIGOL File Type *.stp Disk File Type Utility Sound PassFail Enable Source Operate Stop Range Screen X Mask 0.24 div Y Mask 0.48 div File Type *.pf File Type *.pf File Name RigolDS0 Window Show...
Page 328 Chapter 18 Store and Load RIGOL Aux Out TrigOut Key Locker Unlocked HDMI Output HDMI Resolution 1280x720 SelfCal Window Open Auto Config Peak to Peak Overlay Coupling Printer Copies Paper Size Ink Saver Printer HP/Laserjet Email Attachment Screen Screen Saver...
Page 329 Chapter 18 Store and Load RIGOL A× B Operation SourceA SourceB Offset Scale 500 uU A÷B Operation SourceA SourceB Offset Scale 500 mU Operation Source Offset 0 dB Scale 1 dB Unit dBm/dBV Start-End Start Freq 0 Hz Stop Freq...
Page 330 Chapter 18 Store and Load RIGOL Thre.CH1 Thre.CH2 Thre.CH3 Thre.CH4 Sensitivity 0.3 Div Operation SourceA SourceB Wave Size Medium Thre.CH1 Thre.CH2 Thre.CH3 Thre.CH4 Sensitivity 0.3 Div Operation SourceA Wave Size Medium Thre.CH1 Thre.CH2 Thre.CH3 Thre.CH4 Sensitivity 0.3 Div Intg Operation...
Page 331 Chapter 18 Store and Load RIGOL Operation Source Offset Scale Invert Operation Source Offset Scale Invert Operation Source Offset Scale Invert Operation Source Offset Scale 20 mV Invert Low Pass Operation Source Offset Scale 20 mV ωc 6.25 MHz Invert...
Page 332 Chapter 18 Store and Load RIGOL ωc1 12.5 MHz Invert Band Stop Operation Source Offset Scale 20 mV ωc1 6.25 MHz ωc1 12.5 MHz Invert AX+B Operation Source Offset Scale 20 mV Invert Logic Analyzer (LA) Select None D7-D0 D15-D8...
Page 333 Chapter 18 Store and Load RIGOL Threshold Polarity Endian Data 8 bits Stop Bit 1 bit Parity None Package Separator 0(NUL) Bus Status Clock SCL Thre SDA Thre Exchange SCL/SDA Without Bus Status Mode Timeout Timeout 1 μs Threshold Slope...
Page 334 Chapter 18 Store and Load RIGOL FlexRay Bus Status Source Threshold Channel Selection Baud 10 Mbps Signal Sample Position Bus Status SCLK SCLK Thre SCLK Edge Rising SCLK Thre Data Data Thre Word Size Receive Alignment WS Low Left Endian...
Page 335: Chapter 19 System Utility Function Setting
Chapter 19 System Utility Function Setting RIGOL Chapter 19 System Utility Function Setting In the system function setting menu, you can set the parameters for the remote interface and the system-related parameters. Contents in this chapter: Remote Interface Configuration ...
Page 336: Remote Interface Configuration
Remote Interface Configuration MSO7000/DS7000 series can communicate with the PC via the USB, LAN, or GPIB (requiring to work with RIGOL's USB-GPIB interface converter) interface. Before using the remote interfaces, configure the corresponding interface according to the introductions in the following section.
Page 337 Chapter 19 System Utility Function Setting RIGOL Connected!  Invalid IP!  IP lost!  Please wait...  IP Configuration Type The configuration type of the IP address can be DHCP, Auto IP, or Static IP. For different IP configuration types, the configurations for IP address and other network parameters are different.
Page 338 Chapter 19 System Utility Function Setting RIGOL Press IP, and then the numeric keypad is displayed. Use the numeric keys to input the desired IP address. This setting will be saved to the non-volatile memory; if "Power On" is set to "Last", then DHCP and Auto IP are disabled at the next power-on.
Page 339: To Set Mdns
Chapter 19 System Utility Function Setting RIGOL When the three IP configuration types are all turned on, the priority of the  parameter configuration from high to low is "DHCP", "Auto IP", and "Static IP". The three IP configuration types cannot be all turned off at the same time.
Page 340: To Set The Gpib Address
Chapter 19 System Utility Function Setting RIGOL To Set the GPIB Address Before using the GPIB bus to control the oscilloscope, use the USB-GPIB interface converter (an option that requires to be ordered separately) to extend the GPIB interface, and then use the GPIB cable to connect the instrument to the PC. Press Utility ...
Page 341: System-Related
Chapter 19 System Utility Function Setting RIGOL System-related Beeper When the beeper is enabled, you can hear the sound of the beeper when you perform the following operations: Press a key or a menu key on the front panel ...
Page 342: Power Status
Chapter 19 System Utility Function Setting RIGOL Power Status Use the power line to connect the oscilloscope to the AC power and then turn on the power switch to power on the instrument. You can set the power status after it is powered on.
Page 343: Help
Chapter 19 System Utility Function Setting RIGOL Help Press Utility  System  Help to enter the "Help" function menu. You can also enable the touch screen and then tap the function navigation icon at the lower-left corner of the screen to open the function navigation. Then, tap the "Help"...
Page 344: Auto Config
Chapter 19 System Utility Function Setting RIGOL Figure 19-2 Self-calibration Interface Press Start, and then the oscilloscope will start to execute the self-calibration  program. After the self-calibration program is launched, the Exit menu is no longer grayed  out and is enabled. Press Exit to give up the self-calibration operation at any time.
Page 345 Chapter 19 System Utility Function Setting RIGOL DEVICE interface on the rear panel. Then, you can set the print parameters on the oscilloscope to control the printer to output the corresponding picture. Press Utility  More  Printer to enter the printer setting menu. After the printer is properly connected, you need to set the network configurations for printing, and then set the printer parameters.
Page 346: Email
Chapter 19 System Utility Function Setting RIGOL The Paper Size menu is grayed out and disabled. The paper size supported by the oscilloscope is only A4. Ink Saver  Press Ink Saver continuously to enable or disable the ink saver setting. If disabled, you need to set Color.
Page 347: Key Locker
Chapter 19 System Utility Function Setting RIGOL methods for the password, refer to descriptions in "To Create a Folder". Email test  Press Test to test whether the e-mail server is properly set. Restore default settings  Press Default to restore the settings of receiver and mail settings to defaults.
Page 348 Chapter 19 System Utility Function Setting RIGOL panel to capture the screen. Operation Type  Press Operation and then rotate the multifunction knob to select "Save Image". Press down the knob to select it. You can also press Operation continuously to select among the options, or enable the touch screen to tap the desired operation type.
Page 349 Chapter 19 System Utility Function Setting RIGOL channel. Press Channel and then rotate the multifunction knob to select the storage channel. You can also press Channel continuously to select the channel or enable the touch screen to tap the desired channel. The available storage channels include CH1-CH4 and D0-D15.
Page 350 Chapter 19 System Utility Function Setting RIGOL 6. Print When the Quick shortcut key is set to "Print", press Quick on the front panel to print the screen image of the oscilloscope. Press Operation and then rotate the multifunction knob to select "Print".
Page 351: Self-Check
The file types include "*.png", "*.bmp", "*.jpg", and "*.tif". If you select "Text" under Screen Saver, press Text, and then the  filename input interface is displayed, e.g. inputting "RIGOL Scope". For details, refer to descriptions in "To Create a Folder". 2. Set the Wait Time...
Page 352 The press SINGLE to switch to the next touch screen test interface, as shown in the figure below. At this time, you can pinch or stretch the RIGOL logo on the screen to zoom it out or in to check whether the gestures work normally.
Page 353: System Time
Chapter 19 System Utility Function Setting RIGOL System Time The system time is displayed at the lower-right side of the screen in "hh:mm (hour:minute)" format. When you save the waveform, the output file will contain the time information. Press Utility  More  More  Time to open the time setting menu.
Page 355: Chapter 20 Remote Control
Remote Control via LAN  Remote Control via GPIB  This chapter will illustrate how to use RIGOL's Ultra Sigma software to remotely control the oscilloscope via various interfaces. CAUTION Before setting up communication, please turn off the instrument to avoid causing damage to the communication interfaces.
Page 356: Remote Control Via Usb
Chapter 20 Remote Control RIGOL Remote Control via USB 1. Connect the device Use a USB cable to connect the oscilloscope (USB DEVICE interface) with the PC (USB HOST interface). 2. Install the USB driver This oscilloscope is a USB-TMC device. After you connect the oscilloscope to the PC properly and power it on for the first time (the oscilloscope will be automatically configured with the USB interface).
Page 357 Chapter 20 Remote Control RIGOL MSO7000/DS7000 User Guide 20-3...
Page 358 PC via the USB interface. You can also click to search for the resource. 4. View the device resource The searched instrument resource will be under the directory of "RIGOL Online Resource", with the model of the instrument and the USB interface information being displayed as follows.
Page 359 Chapter 20 Remote Control RIGOL 5. Control the instrument remotely Right-click the resource name "MSO7054 (USB0::0x1AB1::0x0514::MSO70141234567890::INSTR)" and select "SCPI Panel Control" to turn on the remote command control panel, through which you can send commands and read data. MSO7000/DS7000 User Guide...
Page 360: Remote Control Via Lan
Click to add it. 4. View the device resource The resources found will appear under the "RIGOL Online Resource" directory. For example, MSO7054 (TCPIP::172.16.3.14::INSTR). 5. Control the instrument remotely Right-click the resource name "MSO7054 (TCPIP::172.16.3.14::INSTR)" and select "SCPI Panel Control"...
Page 361: Remote Control Via Gpib
Chapter 20 Remote Control RIGOL Remote Control via GPIB 1. Connect the device Use the USB-GPIB interface converter to extend the GPIB interface for the oscilloscope, and then use the GPIB cable to connect the oscilloscope to the PC to realize remote control.
Page 362 5. View the device resource The searched instrument resource will be under the directory of "RIGOL Online Resource", as shown in the following figure. 6. Control the instrument remotely Right-click the resource name "MSO7054 (GPIB0::18::INSTR)", and select "SCPI...
Page 363: Chapter 21 Troubleshooting
The commonly encountered failures of the oscilloscope and their solutions are listed below. If the following problems occur, locate and resolve the problems according to the following steps. If the problems still persist, contact RIGOL and provide your instrument information to us.
Page 364 (3) Check whether there is a strong magnetic field around the instrument. If the instrument is close to the strong magnetic field (e.g. a magnet), please move the instrument away from the magnet field. (4) If the problem still persists, please contact RIGOL. 21-2 MSO7000/DS7000 User Guide...
Page 365: Chapter 22 Appendix
Chapter 22 Appendix RIGOL Chapter 22 Appendix Appendix A: Accessories and Options Order Information Order No. Model MSO7054 (500 MHz, 10 GSa/s, 100 Mpts, 4+16 CH MSO) MSO7054 MSO7034 (350 MHz, 10 GSa/s, 100 Mpts, 4+16 CH MSO) MSO7034 MSO7024 (200 MHz, 10 GSa/s, 100 Mpts, 4+16 CH MSO)
Page 366 MIL-STD-1553 serial bus trigger and analysis (MIL-STD-1553) DS7000-AERO Measurement Application Option Dual-channel 25 MHz Arbitrary Waveform Generator (only for MSO model) MSO7000-AWG Built-in Power Analysis DS7000-PWR Note: For all the accessories and options, please contact the local office of RIGOL. 22-2 MSO7000/DS7000 User Guide...
Page 367: Appendix B: Warranty
If a product proves defective within the warranty period, RIGOL guarantees free replacement or repair for the defective product. To get repair service, please contact with your nearest RIGOL sales or service office. There is no other warranty, expressed or implied, except such as is expressly set forth herein or other applicable warranty card.
Page 369: Index
Index RIGOL Index +Duty ........6-31 Hanning ........6-9 +Rate ........6-35 Haversine ......... 17-9 +Width ........6-30 Horizontal Expansion ....4-11 Acquisition Mode ......4-5 Horizontal Position ...... 3-3 AM ........17-14 I2C Decoding ......11-14 Anti-Aliasing ......4-10 I2C Trigger .......
Page 370 Index RIGOL Pulse Width Setting....5-11 Trigger LEVEL/Threshold Level ..5-3 Qualifier ........5-24 Trigger Mode ......5-4 Ramp ........17-4 Trigger Position ......5-26 -Rate ........6-35 tVmax ........6-31 Rectangular ....... 6-9 tVmin ........6-31 Rise Time ........ 6-30 Vamp ......

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