Page 1 RIGOL User’s Guide MSO1000Z/DS1000Z Series Digital Oscilloscope Jul. 2014 RIGOL Technologies, Inc.
Page 3 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 company’s sole decision. Information in this publication replaces all previously corresponding material.
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 use the instrument only specified by this manual.
Page 5 Do Not Operate with Suspected Failures. If you suspect damage occurs to the instrument, have it inspected by qualified service personnel before further operations. Any maintenance, adjustment or replacement especially to circuits or accessories must be performed by RIGOL authorized personnel. Keep Well Ventilation.
Page 6: Safety Terms And Symbols
RIGOL Safety Terms and Symbols Terms Used in this Manual. These terms may appear in this manual: WARNING Warning statements indicate the conditions or practices that could result in injury or loss of life. CAUTION Caution statements indicate the conditions or practices that could result in damage to this product or other property.
Page 7: Allgemeine Sicherheits Informationen
RIGOL Allgemeine Sicherheits Informationen Überprüfen Sie diefolgenden Sicherheitshinweise sorgfältigumPersonenschädenoderSchäden am Gerätundan damit verbundenen weiteren Gerätenzu vermeiden. Zur Vermeidung vonGefahren, nutzen Sie bitte das Gerät nur so, wiein diesem Handbuchangegeben. Um Feuer oder Verletzungen zu vermeiden, verwenden Sie ein ordnungsgemäßes Netzkabel.
Page 8 Wenn Sie am Gerät einen Defekt vermuten, sorgen Sie dafür, bevor Sie das Gerät wieder betreiben, dass eine Untersuchung durch qualifiziertes Kundendienstpersonal durchgeführt wird.Jedwede Wartung, Einstellarbeiten oder Austausch von Teilen am Gerät, sowie am Zubehör dürfen nur von RIGOL autorisiertem Personal durchgeführt werden. Belüftung sicherstellen.
Page 9: Sicherheits Begriffe Und Symbole
RIGOL Sicherheits Begriffe und Symbole Begriffe in diesem Guide. Diese Begriffe können in diesem Handbuch auftauchen: WARNING Die Kennzeichnung WARNING beschreibt Gefahrenquellen die leibliche Schäden oder den Tod von Personen zur Folge haben können. CAUTION Die Kennzeichnung Caution (Vorsicht) beschreibt Gefahrenquellen die Schäden am Gerät hervorrufen können.
Page 10: Measurement Category
RIGOL Measurement Category Measurement Category MSO1000Z/DS1000Z 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 11: Ventilation Requirement
RIGOL Ventilation Requirement This oscilloscope uses fan to force cooling. Please make sure that the air intake and exhaust areas are free from obstructions and have free air. When using the oscilloscope in a bench-top or rack setting, provide at least 10 cm clearance beside, above and behind the instrument for adequate ventilation.
Page 12: Working Environment
RIGOL Working Environment Temperature Operating: 0℃ to +50℃ Non-operating: -40℃ to +70℃ Humidity 0℃ to +30℃: ≤95％ relative humidity +30℃ to +40℃: ≤75％ relative humidity +40℃ to +50℃: ≤45％ relative humidity WARNING To avoid short circuits inside the instrument or electric shocks, please do not operate in humid environment.
Page 13 RIGOL Pollution degree 2: Normally only dry, non-conductive pollution occurs. Occasionally a temporary conductivity caused by condensation may occur. For example, general indoor environment. Pollution degree 3: Conductive pollution occurs, or dry, non-conductive pollution occurs which becomes conductive due to condensation which is expected. For example, sheltered outdoor environment.
Page 14: General Care And Cleaning
RIGOL General Care and Cleaning General Care: Do not store or leave the instrument at places where the instrument will be exposed to direct sunlight for long periods of time. Cleaning: Clean the instrument regularly according to its operating conditions. To clean the exterior surface: Disconnect the instrument from all power sources.
Page 15: Mso1000Z/Ds1000Z Series Overview
It allows users to measure analog and digital signals at the same time. MSO1000Z/DS1000Z series is a multifunctional and high-performance digital oscilloscope designed on the basis of the UltraVision technique developed by RIGOL. Featuring extremely high memory depth, wide dynamic range, clear display,...
Page 16: Document Overview
RIGOL Document Overview Main Topics of this Manual: Chapter 1 Quick Start Introduce the preparations before using the oscilloscope and provide a basic introduction of the instrument. Chapter 2 To Set the Vertical System Introduce the vertical system functions of the oscilloscope.
Page 17 RIGOL Chapter 14 Store and Recall Introduce how to store and recall the measurement result and the setting of the oscilloscope. Chapter 15 Accessibility Setting Introduce how to set the remote interfaces and system-related functions. Chapter 16 Remote Control Introduce how to control the oscilloscope remotely.
Page 18 RIGOL Content Conventions in this Manual: MSO1000Z/DS1000Z series includes the following models. This manual takes MSO1104Z-S for example to illustrate the functions and performances of MSO1000Z/DS1000Z series. Number of Number of Analog Number of Source Model Analog Digital Bandwidth Channels...
Page 19: Table Of Contents
Contents RIGOL Contents Guaranty and Declaration ................. I Safety Requirement ................II General Safety Summary ................II Safety Terms and Symbols ............... IV Allgemeine Sicherheits Informationen ............V Sicherheits Begriffe und Symbole ............. VII Measurement Category ................VIII Ventilation Requirement ................IX Working Environment ................
Page 20 RIGOL Contents To Use the Built-in Help System ............. 1-25 Chapter 2 To Set the Vertical System ..........2-1 To Enable the Analog Channel ..............2-2 Channel Coupling ................... 2-2 Bandwidth Limit ..................2-3 Probe Ratio ................... 2-3 Waveform Invert ..................2-4 Vertical Scale ..................
Page 21 Contents RIGOL Setup/Hold Trigger (Option) ............5-27 Nth Edge Trigger (Option) ............... 5-29 RS232 Trigger (Option) ..............5-31 I2C Trigger (Option) ............... 5-33 SPI Trigger (Option) ............... 5-35 Trigger Output Connector ..............5-37 Chapter 6 MATH and Measurement ............ 6-1 Math Operation ..................
Page 22 RIGOL Contents To Set the Waveform Display Size ............7-4 Reorder Setting ..................7-4 Auto View....................7-4 To Set the Threshold ................7-4 To Set the Label ..................7-5 Probe Calibration ..................7-5 Digital Channel Delay Calibration ............. 7-6 Chapter 8 Protocol Decoding .............
Page 23 Contents RIGOL To Output Pulse ................13-5 To Output DC ................13-5 To Output Noise ................13-6 To Output Built-in Waveform ..............13-6 To Output Arbitrary Waveform ............. 13-10 To Select Waveform ..............13-11 To Create Waveform ..............13-12 To Edit Waveform ................ 13-14 Modulation ..................
Page 24 RIGOL Contents Chapter 17 Troubleshooting ............17-1 Chapter 18 Specifications ............18-1 Chapter 19 Appendix ..............19-1 Appendix A: Accessories and Options ............. 19-1 Appendix B: Warranty ................19-2 Index ......................1 XXII MSO1000Z/DS1000Z User’s 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 and the using method of the built-in help system.
Page 26: General Inspection
RIGOL would not be responsible for free maintenance/rework or replacement of the unit. 2. Inspect the instrument. In case of any damage, or defect, or failure, notify your RIGOL sales representative. 3. Check the Accessories Please check the accessories according to the packing lists. If the accessories are incomplete or damaged, please 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 Top View Unit: mm MSO1000Z/DS1000Z User’s Guide...
Page 28: To Prepare The Oscilloscope For Use
RIGOL Chapter 1 Quick Start To Prepare the Oscilloscope 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: Power-On Inspection
To Connect the Probe RIGOL provides passive probe for the DS1000Z series as well as passive probe and logic probe for MSO1000Z series. For detailed technical information of the probes, please refer to the corresponding Probe User’s Guide.
Page 30 RIGOL Chapter 1 Quick Start Connect the logic probe: 1. Connect the single-wire terminal of the logic probe to the digital channel interface at the front panel of MSO1000Z in the correct direction. 2. Connect the signal under test to the other terminal of the logic probe. MSO1000Z...
Page 31: Function Inspection
Chapter 1 Quick Start RIGOL Function Inspection Press Storage  Default to restore the oscilloscope to its default configuratiuon. Connect the earth alligator clip of the probe to the “Ground Terminal” as shown in the figure below. Use the probe to connect the input terminal of CH1 of the oscilloscope and the “Compensation Signal Output Terminal”...
Page 32: Probe Compensation
RIGOL Chapter 1 Quick Start 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. Non-compensated or poorly compensated probes may cause measurement inaccuracy or error. The probe compensation procedures are as follows.
Page 33: Front Panel Overview
Chapter 1 Quick Start RIGOL Front Panel Overview 9 10 11 12 16 17 19 20 Figure 1-10 Front Panel Overview Table 1-1 Front Panel Descriptions Description Description Measurement Menu Softkeys Power Key USB HOST Interface Function Menu Softkeys Digital Channel Input Interface...
Page 34: Rear Panel Overview
RIGOL Chapter 1 Quick Start Rear Panel Overview Figure 1-11 Rear Panel Overview 1． Handle Pull up the handle vertically for easy carry of the instrument. When you do not need the handle, press it down. 2． LAN Connect the instrument to network via this interface for remote control. This oscilloscope conforms to the LXI CORE 2011 DEVICE class instrument standards and can quickly build test system with other instruments.
Page 35 Chapter 1 Quick Start RIGOL Pass/Fail:  The instrument can output a positive pulse via this connector when a failed waveform is detected during the pass/fail test. The instrument continuously outputs a low level via this connector when no failed waveform is detected.
Page 36: Front Panel Function Overview
RIGOL Chapter 1 Quick Start Front Panel Function Overview VERTICAL CH1, CH2, CH3, CH4: analog channel setting keys. The 4 channels are marked by different colors which are also used to mark both the corresponding waveforms on the screen and the channel input connectors. Press any key to open the corresponding channel menu and press again to turn off the channel.
Page 37: Logic Analyzer
Chapter 1 Quick Start RIGOL Logic Analyzer Press this key to open the logic analyzer control menu. You can turn on or off any channel or channel group, modify the display size of the digital channel, modify the logic threshold of the digital channel as well as group the 16 digital channels.
Page 38: Horizontal
RIGOL Chapter 1 Quick Start HORIZONTAL HORIZONTAL POSITION: modify the horizontal position. The trigger point would move left or right relative to the center of the screen when you turn the knob. During the modification, waveforms of all the channels would move left or right and the horizontal position message (e.g.
Page 39: Trigger
Chapter 1 Quick Start RIGOL TRIGGER MODE: press this key to switch the trigger mode to Auto, Normal or Single and the corresponding state backlight of the current trigger mode would be illuminated. TRIGGER LEVEL: modify the trigger level. Turn clockwise to increase the level and turn counterclockwise to reduce the level.
Page 40: Run/Stop
RIGOL Chapter 1 Quick Start RUN/STOP Press this key to “RUN” or “STOP” waveform sampling. In the “RUN” state, the key is illuminated in yellow. In the “STOP” state, the key is illuminated in red. SINGLE Press this key to set the trigger mode to “Single”. In single trigger mode, press FORCE to generate a trigger signal immediately.
Page 41: Function Menus
Chapter 1 Quick Start RIGOL Function Menus Measure: press this key to open the measurement setting menu. You can set the measurement source and turn on or off the frequency counter, all measure, statistic function etc. Press MENU at the left of the screen to open the measurement menus of 33 waveform parameters.
Page 42: Print
RIGOL Chapter 1 Quick Start Print Press this key to print the screen or save the screen to a USB storage device. ― If a PictBridge printer is connected currently and the printer is in idle state, pressing this key can print the screen.
Page 43: User Interface
Chapter 1 Quick Start RIGOL User Interface MSO1000Z/DS1000Z provides 7.0 inch, WVGA (800*480) 160,000 color TFT LCD. 21 22 Figure 1-12 User Interface 1. Auto Measurement Items Provide 16 horizontal (HORIZONTAL) and 17 vertical (VERTICAL) measurement parameters. Press the softkey at the left of the screen to activate the corresponding measurement item.
Page 44 RIGOL Chapter 1 Quick Start 3. Status Available states include RUN, STOP, T’D (triggered), WAIT and AUTO. 4. Horizontal Time Base Represent the time per grid on the horizontal axis on the screen.  Use HORIZONTAL SCALE to modify this parameter. The range ...
Page 45 Chapter 1 Quick Start RIGOL level value will change with the up and down of Note: In slope trigger, runt trigger and window trigger, two trigger level labels ) are displayed. 12. CH1 Vertical Scale Display the voltage value per grid of CH1 waveform vertically.
Page 46 RIGOL Chapter 1 Quick Start 19. Source1 Waveform Display the type of waveform currently set for Source1.  When the modulation of source1 is enabled, will be displayed below the  Source1 waveform. When the impedance of source1 is set to 50 Ω, will be displayed below ...
Page 47: Parameter Setting Method
Chapter 1 Quick Start RIGOL Parameter Setting Method MSO1000Z/DS1000Z supports the following two parameter setting methods. Method one: For the parameters with displayed on the menu, you can turn the multifunction knob directly to set the desired values. Method two:...
Page 48: To Use The Security Lock
RIGOL Chapter 1 Quick Start To Use the Security Lock If needed, you can use the security lock (please buy it yourself) to lock the oscilloscope to a fixed location. The method is as follows, align the lock with the lock hole and plug it into the lock hole vertically, turn the key clockwise to lock the oscilloscope and then pull the key out.
Page 49: 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 (including the menu keys) at the front panel. Press Help to open the help interface and press again to close the interface. The help interface mainly consists of two parts.
Page 51: Chapter 2 To Set The Vertical System
Chapter 2 To Set the Vertical System RIGOL Chapter 2 To Set the Vertical System The contents of this chapter: To Enable the Analog Channel  Channel Coupling  Bandwidth Limit  Probe Ratio  Waveform Invert  Vertical Scale ...
Page 52: To Enable The Analog Channel
RIGOL Chapter 2 To Set the Vertical System To Enable the Analog Channel MSO1000Z/DS1000Z provides 4 analog input channels (CH1-CH4). As the setting methods of the vertical systems of the four channels are the same, this chapter takes CH1 as an example to illustrate the setting method of the vertical system.
Page 53: Bandwidth Limit
Chapter 2 To Set the Vertical System RIGOL Bandwidth Limit MSO1000Z/DS1000Z supports the bandwidth limit function which can reduce the display noise. For example, the signal under test is a pulse with high frequency oscillation. When the bandwidth limit is disabled, the high frequency components of the ...
Page 54: Waveform Invert
RIGOL Chapter 2 To Set the Vertical System Waveform Invert Press CH1  Invert to enable or disable waveform invert. When waveform invert is enabled, the waveform display rotates 180 degree relative to the ground potential. When waveform invert is disabled, the waveform display is normal (as shown in the figure below).
Page 55: Amplitude Unit
Chapter 2 To Set the Vertical System RIGOL Note: You can also press VERTICAL SCALE to quickly switch between “Coarse” and “Fine” adjustments. When changing the vertical scale of the analog channel by ratating VERTICAL SCALE, you can select to expand or compress the waveform around the “Center” or “Ground”.
Page 56 RIGOL Chapter 2 To Set the Vertical System For example, set the label to “ ”. Press Keyboard to select the “Keyboard” area. Select “A ” using and press down to switch it to “ A”. Select “C” using and press down to input the character.
Page 57: Delay Calibration Of The Analog Channel
Chapter 2 To Set the Vertical System RIGOL Delay Calibration of the Analog Channel When using an oscilloscope for actual measurement, the transmission delay of the probe cable may bring relatively greater error (zero offset). MSO1000Z/DS1000Z supports user to set a delay time to calibrate the zero offset of the corresponding channel.
Page 59: Chapter 3 To Set The Horizontal System
Chapter 3 To Set the Horizontal System RIGOL Chapter 3 To Set the Horizontal System The contents of this chapter: Delayed Sweep  Time Base Mode  MSO1000Z/DS1000Z User’s Guide...
Page 60: Delayed Sweep
RIGOL Chapter 3 To Set the Horizontal System Delayed Sweep Delayed sweep can be used to enlarge a length of waveform horizontally to view waveform details. Press MENU in the horizontal control area (HORIZONTAL) at the front panel and press Delayed to enable or disable delayed sweep.
Page 61: Time Base Mode
Chapter 3 To Set the Horizontal System RIGOL You can also press down HORIZONTAL SCALE (delayed sweep shortcut key) to directly switch to the delayed sweep mode. Time Base Mode Press MENU in the horizontal control area (HORIZONTAL) at the front panel and then press Time Base to select the time base mode of the oscilloscope.
Page 62 RIGOL Chapter 3 To Set the Horizontal System According to sinθ=A/B or C/D (wherein, θ is the phase deviation angle between the two channels and the definitions of A, B, C and D are as shown in the figure above), the phase deviation angle is obtained, that is: θ=±arcsin (A/B) or ±arcsin( C/D)
Page 63: Roll Mode
Chapter 3 To Set the Horizontal System RIGOL Note: The maximum sample rate of XY mode is 500 MSa/s. Generally, longer sample  waveform can ensure better display effect of Lissajous figure. But due to the limitation of the memory depth, you have to reduce the waveform sample rate to acquire longer waveform (refer to the introduction in “Memory Depth”).
Page 65: Chapter 4 To Set The Sample System
Chapter 4 To Set the Sample System RIGOL Chapter 4 To Set the Sample System The contents of this chapter: Acquisition Mode  Sin(x)/x  Sample Rate  Memory Depth  Antialiasing  MSO1000Z/DS1000Z User’s Guide...
Page 66: Acquisition Mode
RIGOL Chapter 4 To Set the Sample System Acquisition Mode The acquisition mode is used to control how to generate waveform points from sample points. Press Acquire  Mode at the front panel and use to select the desired acquisition mode (the default is normal), then press down the knob to select this mode.
Page 67: High Resolution
Chapter 4 To Set the Sample System RIGOL Figure 4-1 The Waveform before Average Figure 4-2 The Waveform after 256 Averages High Resolution This mode uses a kind of ultra-sample technique to average the neighboring points of the sample waveform to reduce the random noise on the input signal and generate much smoother waveforms on the screen.
Page 68: Sin(X)/X
RIGOL Chapter 4 To Set the Sample System Sin(x)/x Press Sin(x)/x to enable or disable the dynamic sine interpolation function which can acquire better restoration of the original waveform. Note: If the number of channels currently turned on is less than three, Sin(x)/x is grayed out and disabled.
Page 69 Chapter 4 To Set the Sample System RIGOL 3. Waveform Leakage: when the sample rate is too low, the waveform rebuilt from the sample data does not reflect all the actual signal information. Pulse disappeared MSO1000Z/DS1000Z User’s Guide...
Page 70: Memory Depth
RIGOL Chapter 4 To Set the Sample System Memory Depth Memory depth refers to the number of waveform points that the oscilloscope can store in a single trigger sample and it reflects the storage ability of the sample memory. MSO1000Z/DS1000Z provides up to 24 Mpts memory depth (option) and 12 Mpts standard memory depth.
Page 71: Antialiasing
Chapter 4 To Set the Sample System RIGOL (option). For digital channels:  ― When 8 channels are enabled, the memory depths available include Auto, 6kPoints, 60kPoints, 600kPoints, 6MPoints, 12MPoints and 24MPoints (option). ― When 16 channels are enabled, the memory depths available include Auto, 3kPoints, 30kPoints, 300kPoints, 3MPoints, 6MPoints and 12MPoints (option).
Page 73: 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 neighbouring part and displays them on the screen.
Page 74: Trigger Source
RIGOL Chapter 5 To Trigger the Oscilloscope Trigger Source Press MENU  Source in the trigger control area (TRIGGER) at the front panel to select the desired trigger source. Analog channels CH1-CH4, digital channels D0-D15 or the AC Line can all be used as trigger source.
Page 75: Trigger Mode
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Mode Trigger mode affects the way in which the oscilloscope searches for a trigger. The following is the schematic diagram of the acquisition memory. As shown in the figure below, the position of the trigger event is determined by the reference time point and the delay setting.
Page 76: Trigger Coupling
RIGOL Chapter 5 To Trigger the Oscilloscope bar and stable waveform is displayed. Otherwise, “WAIT” is displayed and the waveform of the last trigger (there is a last trigger) or no waveform (there is not a last trigger) is displayed.
Page 77: Trigger Holdoff
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Holdoff Trigger holdoff can be used to stably trigger complex waveforms (such as modulated waveform). Holdoff time is the amount of time that the oscilloscope waits for re-arming the trigger module after generating a correct trigger. The oscilloscope will not trigger even if the trigger condition is met during the holdoff time and will only re-arm the trigger module after the holdoff time expires.
Page 78: Trigger Type
RIGOL Chapter 5 To Trigger the Oscilloscope Trigger Type MSO1000Z/DS1000Z provides various trigger functions, including various serial bus triggers. Edge Trigger  Pulse Trigger  Slope Trigger  Video Trigger  Pattern Trigger  Duration Trigger  TimeOut Trigger (Option) ...
Page 79: Edge Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Edge Trigger Trigger on the trigger threshold of the specified edge of the input signal. Trigger Type: Press Type, rotate to select “Edge” and press down . At this point, the trigger setting information is displayed at the upper right corner of the screen.
Page 80: Pulse Trigger
RIGOL Chapter 5 To Trigger the Oscilloscope Pulse Trigger Trigger 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 81 Chapter 5 To Trigger the Oscilloscope RIGOL of pulse width. : trigger when the negative pulse width of the input signal is greater than  the specified pulse width. : trigger when the negative pulse width of the input signal is lower than ...
Page 82: Slope Trigger
RIGOL Chapter 5 To Trigger the Oscilloscope Slope Trigger In slope trigger, the oscilloscope triggers on the positive or negative slope of the specified time. This trigger mode is applicable to ramp and triangle waveforms. Trigger Type: Press Type, rotate to select “Slope”...
Page 83: Time Setting
Chapter 5 To Trigger the Oscilloscope RIGOL : trigger when the negative slope time of the input signal is greater than  the specified lower limit of time and lower than the specified upper limit of time. Time Setting: When the Slope Condition is set to ...
Page 84 RIGOL Chapter 5 To Trigger the Oscilloscope Figure 5-5 Trigger Level Information Display Note: Under the “Slope” trigger menu, you can also press down the trigger level knob continuously to switch the vertical window. During the adjustment of trigger level, two orange trigger level lines and two trigger...
Page 85: Video Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Video Trigger The waveform of video signal includes image signal and timing signal and different signals adopt different standards and formats. MSO1000Z/DS1000Z provides basic measurement function for video signals. The oscilloscope triggers 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 86 In the trigger debugging process of vedio signals, the frequencies in different  parts of the signal can be reflected by different brightnesses as RIGOL digital oscilloscopes provides the multi-level gray scale display function. Experienced users can quickly judge the signal quality and discover abnormalities.
Page 87: Pattern Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Pattern Trigger Identify a trigger condition by looking for a specified pattern. This pattern is a logical “AND” combination of channels. Each channel can have a value of high (H), low (L), don’t care (X), rising or falling edge. When a rising or falling edge is specified for one channel, the oscilloscope will trigger at the edge of the specified channel if the input signals for other channels are consistent with the pattern currently set.
Page 88 RIGOL Chapter 5 To Trigger the Oscilloscope Note: When digital channels D7-D0 are enabled, CH4 is automatically disabled; its the  corresponding pattern cannot be set and is replaced by X. When D15-D8 are enabled, CH3 is automatically disabled; its corresponding pattern cannot be set and is replaced by X.
Page 89: Duration Trigger
Chapter 5 To Trigger the Oscilloscope RIGOL Duration Trigger In duration trigger, the instrument identifies a trigger condition by looking for the duration of a specified pattern. This pattern is a logical “AND” combination of the channels. Each channel can have a value of high (H), low (L) or don’t care (X). The instrument triggers when the duration (△T) of this pattern meets the preset time, as...
Page 90 RIGOL Chapter 5 To Trigger the Oscilloscope : set the pattern of the channel selected to “Don’t Care”, namely this channel is  not used as a part of the pattern. When all channels in the pattern are set to “Don’t Care”, the oscilloscope will not trigger.
Page 91: Timeout Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL TimeOut Trigger (Option) In timeout trigger, the instrument triggers when the time interval (△T) from when the rising edge (or falling edge) of the input signal passes through the trigger level to when the neighbouring falling edge (or rising edge) passes through the trigger level is greater than the timeout time set, as shown in the figure below.
Page 92 RIGOL Chapter 5 To Trigger the Oscilloscope Timeout Time: Timeout time represents the minimum time that the clock signal must be in the idle state before the oscilloscope starts searching for the data meets the trigger condition. Press TimeOut to set the timeout time of timeout trigger and the range is from 16 ns to 10 s.
Page 93: Runt Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Runt Trigger (Option) This trigger mode is used to trigger pulses that pass through one trigger level but fail to pass through the other trigger level as shown in the figure below. Figure 5-9 Runt Trigger...
Page 94 RIGOL Chapter 5 To Trigger the Oscilloscope pulse width of runt trigger and the range is from 16.0 ns to 10.0 s; press Lower Limit to set the minimum pulse width of runt trigger and the range is from 8.00 ns to 10 s.
Page 95: Window Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Window Trigger (Option) Window trigger provides a high trigger level and a low trigger level. The instrument triggers when the input signal passes through the high trigger level or the low trigger level.
Page 96 RIGOL Chapter 5 To Trigger the Oscilloscope Trigger Mode: Press Sweep to open the trigger mode list and select auto, normal or single. For the details, please refer to “Trigger Mode”. The corresponding status light of the current trigger mode turns on.
Page 97: Delay Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Delay Trigger (Option) In delay trigger, you need to set signal source A and signal source B. The oscilloscope triggers when the time difference (△T) between the specified edges of source A (Edge A) and source B (Edge B) meets the preset time limit, as shown in the figure below.
Page 98 RIGOL Chapter 5 To Trigger the Oscilloscope >: trigger 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 Limit to set the delay time lower limit in delay trigger and the range is from 8.00 ns to 10 s.
Page 99: Setup/Hold Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Setup/Hold Trigger (Option) Setup time (△T1) indicates the time that the data stays stable and constant before the rising edge of the clock signal appears. The hold time (△T2) indicates the time that the data stays stable and constant after the clock signal appears, as shown in the figure below.
Page 100 RIGOL Chapter 5 To Trigger the Oscilloscope Setup: the oscilloscope triggers when the setup time is less than the specified  setup time. After selecting this type, press Setup to set the setup time and the range is from 8 ns to 1 s.
Page 101: Nth Edge Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL Nth Edge Trigger (Option) Trigger 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 neighbouring rising edges) and the idle time should be set to P<Idle Time<M.
Page 102 RIGOL Chapter 5 To Trigger the Oscilloscope Idle Time: Press Idle to set the idle time before the edge counting in Nth edge trigger. The range available is from 16 ns to 10 s. Edge Number: Press Edge to set the value of “N” in Nth edge trigger and the range available is from 1 to 65535.
Page 103: Rs232 Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL RS232 Trigger (Option) RS232 bus is a serial communication mode used in the data transimmision between PCs or between PC and terminal. In RS232 serial protocol, a character is transimitted as a frame of data which consists of 1 bit start bit, 5~8 bits data bits, 1 bit check bit and 1~2 bits stop bit(s).
Page 104 RIGOL Chapter 5 To Trigger the Oscilloscope --press Data Bits to select “5 bits”, “6 bits”, “7 bits” or “8 bits”; --press Data and use to set the data value of RS232 trigger. According to the setting in Data Bits and the ranges can be from 0 to 31, from 0 to 63, from 0 to 127 or from 0 to 255 respectively.
Page 105: 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 and 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 106 RIGOL Chapter 5 To Trigger the Oscilloscope occurs, the oscilloscope will trigger on the read/write bit. After this trigger condition is selected: --press AddrBits to select “7 bits”, “8 bits” or “10 bits”; --press Address to set the address value of I2C trigger. According to the setting in AddrBits, the range can be from 0 to 0x7F, from 0 to 0xFF or from 0 to 0x3FF;...
Page 107: Spi Trigger (Option)
Chapter 5 To Trigger the Oscilloscope RIGOL SPI Trigger (Option) In SPI trigger, after the CS or timeout condition is satisfied, the oscilloscope triggers when the specified data is found. When using SPI trigger, you need to specify the SCL clock sources and SDA data sources. Below is the sequential chart of SPI bus.
Page 108 RIGOL Chapter 5 To Trigger the Oscilloscope “ ” (high level is valid) or “ ” (low level is valid). Timeout: the clock (SCL) signal need to maintain a certain idle time before the  oscilloscope searches for a trigger. The oscilloscope will trigger on when the data (SDA) satisfying the trigger conditions is found.
Page 109: Trigger Output Connector
Chapter 5 To Trigger the Oscilloscope RIGOL Trigger Output Connector The trigger output connector ([Trigger Out]) at the rear panel can output trigger signals determined by the current setting. Trigger Output Connector A signal which reflects the current oscilloscope capture rate can be output from [Trigger Out] connector each time a trigger is generated by the oscilloscope.
Page 111: Chapter 6 Math And Measurement
Chapter 6 MATH and Measurement RIGOL Chapter 6 MATH and Measurement MSO1000Z/DS1000Z can make math operation, cursor measurement and auto measurement after data is sampled and displayed. The contents of this chapter: Math Operation  Auto Measurement  Cursor Measurement ...
Page 112: Math Operation
RIGOL Chapter 6 MATH and Measurement Math Operation MSO1000Z/DS1000Z can realize various math operations, including: Algebra operations: A+B, A-B, A×B and A/B  Spectrum operation: FFT  Logic operations: A&&B, A||B, A^B and !A  Function operations: Intg, Diff, Sqrt, Lg, Ln, Exp and Abs ...
Page 113: Subtraction
Chapter 6 MATH and Measurement RIGOL You can also use HORIZONTAL POSITION and HORIZONTAL  SCALE to adjust the horizontal position and scale of the operation results. Subtraction Subtract the waveform voltage values of signal source B from that of source A point by point and display the results.
Page 114: Division
RIGOL Chapter 6 MATH and Measurement CH4 or fx (please refer to the introduction in “Fx Operation”)). Press Offset and use to adjust the vertical position of the operation results.  Press Scale and use to adjust the vertical scale of the operation results.
Page 115 Chapter 6 MATH and Measurement RIGOL ― Press Invert to enable or disable the inverted display function of the waveform. ― Press Auto Scale to enable or disable the auto scale function. When auto scale is enabled, the instrument will adjust the vertical scale of the operation results to the optimal value according to the current configuration.
Page 116: Fft
RIGOL Chapter 6 MATH and Measurement FFT (Fast Fourier Transform) is used to transform time domain signals to frequency domain components (frequency spectrum). MSO1000Z/DS1000Z oscilloscope provides FFT operation function which enables users to observe the time domain waveform and spectrum of the signal at the same time. FFT operation can facilitate...
Page 117: Horizontal Scale
Chapter 6 MATH and Measurement RIGOL waveform corresponding to the horizontal center of the screen. 4. Horizontal Scale Press Hz/Div and use to adjust the horizontal scale of the frequency domain waveform. 5. Vertical Position Press Offset and use to adjust the vertical position of the operation results.
Page 118 RIGOL Chapter 6 MATH and Measurement of signal. require to accurately measurement. Triangle Better frequency Narrow band signal with stronger resolution. interference noise. 8. Set the Display Mode Press View to select “Half” (default) or “Full” display mode. Half: the source channel and the FFT operation results are displayed ...
Page 119: And" Operation
Chapter 6 MATH and Measurement RIGOL “AND” Operation Perform logic “AND” operation on the waveform voltage values of the specified sources point by point and display the results. In operation, when the voltage value of the source channel is greater than the threshold of the corresponding channel, it is regarded as logic “1”;...
Page 120: Or" Operation
RIGOL Chapter 6 MATH and Measurement “Fx Operation”). Note: Smooth is grayed out and disabled. It is only available for differential operation. You can also use HORIZONTAL POSITION and HORIZONTAL  SCALE to adjust the horizontal position and scale of the operation results.
Page 121: Xor" Operation
Chapter 6 MATH and Measurement RIGOL 0.96 Div. ― Press Auto Scale to enable or disable the auto scale function. When auto scale is enabled, the instrument will adjust the vertical scale of the operation results to the optimal value according to the current configuration.
Page 122: Not" Operation
RIGOL Chapter 6 MATH and Measurement disable waveform invert, etc. ― Press Start and use to set the start point of the operation results. ― Press End and use to set the end point of the operation results. ― Press Invert to enable or disable the inverted display function of the waveform.
Page 123: Intg
Chapter 6 MATH and Measurement RIGOL Press Options to set the start and end points of the operation results, enable or  disable waveform invert, etc. ― Press Start and use to set the start point of the operation results.
Page 124: Diff
RIGOL Chapter 6 MATH and Measurement ― Press fx Operator, fx A and fx B to set the operator and signal sources of the inner layer operation of Fx operation (please refer to the introduction in “Fx Operation”). Note: Sens. and Smooth are grayed out and disabled. Sens. is only available when a digital channel is selected as the source.
Page 125: Sqrt
Chapter 6 MATH and Measurement RIGOL Because the differential operation is very sensitive to noise, you can set the “Acquisition Mode” to “Average”. Sqrt Calculate the square root of the selected source point by point and display the results. When the operation is invalid, “NAN” is displayed at the bottom of the screen.
Page 126: Lg (Use 10 As The Base)
RIGOL Chapter 6 MATH and Measurement Lg (Use 10 as the Base) Calculate the logarithm of the selected source (use10 as the base) point by point and display the results. When the operation is invalid, “NAN” is displayed at the bottom of the screen.
Page 127: Exp
Chapter 6 MATH and Measurement RIGOL Press Scale Reset to adjust the vertical scale of the operation results to the  optimal value according to the current configuration. Press Options to set the start and end points of the operation results, enable or ...
Page 128: Abs
RIGOL Chapter 6 MATH and Measurement “Fx Operation”). Note: Sens. and Smooth are grayed out and disabled. Sens. is only available when a digital channel is selected as the source. Smooth is only available for differential operation. You can also use HORIZONTAL POSITION and HORIZONTAL ...
Page 129: Fx Operation
Chapter 6 MATH and Measurement RIGOL Fx Operation MSO1000Z/DS1000Z supports the fx operation function which can achieve more complex operations. The procedures are as follows: Split the complex operation Users can split a more complex operation into inner and outer layers (the inner layer can only be one of the algebra operations;...
Page 130: Auto Measurement
RIGOL Chapter 6 MATH and Measurement Auto Measurement MSO1000Z/DS1000Z provides auto measurements of 33 waveform parameters and the statistics and analysis of the measurement results. What’s more, you can also use the frequency counter to realize more precise frequency measurement.
Page 131: One-Key Measurement Of 33 Parameters
Chapter 6 MATH and Measurement RIGOL One-key Measurement of 33 Parameters Press MENU at the left of the screen to turn on the measurement menu of the 33 parameters and then press the corresponding menu softkey to quickly realize “One-key” measurement. The measurement result can be displayed at the bottom of the screen in two font sizes (press Measure ...
Page 132 RIGOL Chapter 6 MATH and Measurement Time Parameters FallTime RiseTime Threshold Upper Limit Threshold -Width +Width Middle Value Threshold Lower Limit Period Figure 6-3 Time Parameters 1. Period: defined as the time between the middle threshold points of two consecutive, like-polarity edges.
Page 133 Chapter 6 MATH and Measurement RIGOL Delay and Phase Period Source 1 Delay Source 2 Figure 6-4 Delay and Phase Source 1 and source 2, the same as source A and source B in the measurement setting menu can be any channel of CH1-CH4 or D0-D15. For the setting method, please refer to the introduction in “Measurement Setting”.
Page 134 RIGOL Chapter 6 MATH and Measurement Voltage Parameters Overshoot Vmax Vupper Vtop Vmid Vamp Vbase Vlower Vmin Preshoot Figure 6-5 Voltage Parameters 1. Vmax: the voltage value from the highest point of the waveform to the GND. 2. Vmin: the voltage value from the lowest point of the waveform to the GND.
Page 135: Other Parameters
Chapter 6 MATH and Measurement RIGOL Wherein, is the th point being measured, is the number of points being measured. 13. Overshoot: the ratio of the difference of the maximum value and top value of the waveform to the amplitude value.
Page 136: Frequency Counter Measurement
RIGOL Chapter 6 MATH and Measurement Frequency Counter Measurement The hardware frequency counter supplied with MSO1000Z/DS1000Z oscilloscope can make more precise measurement of the input signal frequency. Press Measure  Counter to select CH1-CH4 or D0-D15 as the measurement source. The measurement result is displayed at the upper right corner of the screen and you can identify the current measurement source according to the color of the icon and channel number.
Page 137: To Clear The Measurement
Chapter 6 MATH and Measurement RIGOL Press Max and use to set the upper limit of the measurement.  Reducing the upper limit to the current middle value will automatically reduce the middle value and lower limit to keep them lower than the upper limit.
Page 138: All Measurement
RIGOL Chapter 6 MATH and Measurement All Measurement All measurement could measure all the time and voltage parameters (each measurement source has 28 items) of the current measurement source and display the results on the screen. Press Measure  Measure All to enable or disable the all measurement function.
Page 139: Statistic Function
Chapter 6 MATH and Measurement RIGOL Statistic Function Make statistic and display the current, average, minimum (or standard deviation) and maximum (or count) values of at most 5 measurement items that are turned on last. Press Measure  Statistic to turn the statistic function on or off. When the statistic function is enabled, press Stat.Sel.
Page 140: Measurement Result Display Type
RIGOL Chapter 6 MATH and Measurement Table Measurement Result Display Type The measurement results can be displayed at the bottom of the screen in two font sizes. Press Measure  Font Size to select “Normal” or “Large”. The display effects are as shown in the figures below.
Page 141: Manual Mode
Chapter 6 MATH and Measurement RIGOL Manual Mode In this mode, a pair of cursors will appear. You can adjust the cursors manually to measure the X (or Y), X increment (or Y increment) between cursors and the reciprocal of X increment on the waveform of the selected source (CH1-CH4, LA or MATH).
Page 142 RIGOL Chapter 6 MATH and Measurement Its unit is the same as that of the current signal source. BX-AX: the horizontal difference between cursors A and B.  BY-AY: the vertical difference between cursors A and B.  |dX|: when the horizontal unit selects “s”, |dx| represents the time difference ...
Page 143 Chapter 6 MATH and Measurement RIGOL adjustment and the adjustable range is limited within the screen. Adjust cursorB: press CursorB and use to adjust the position of  cursorB. The measurement result will change accordingly during the adjustment and the adjustable range is limited within the screen.
Page 144 RIGOL Chapter 6 MATH and Measurement Note: ― When the cursor measurement source is LA and the main time base is measured (namely the “Main” region is selected), the measurement results are as shown in the figure below. There are no measurement values in digital channels and the measurement values are replaced by “*”.
Page 145: Track Mode
Chapter 6 MATH and Measurement RIGOL Track Mode In this mode, one or two pairs of cursors will appear. 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.
Page 146 RIGOL Chapter 6 MATH and Measurement A. During the adjustment, the measurement result will change accordingly. The adjustable range is limited within the screen. Adjust cursor B: press CursorB and use to adjust the position of cursor  B. During the adjustment, the measurement result will change accordingly.
Page 147: Auto Mode
Chapter 6 MATH and Measurement RIGOL Auto Mode In this mode, one or more cursors will appear. You can use auto cursor measurement to measure any of the 33 waveform parameters. Before using this mode, you need to at least enable one auto measurement parameter and the number of cursors will change with the measurement parameter enabled.
Page 148: Xy Mode
RIGOL Chapter 6 MATH and Measurement XY Mode XY mode is only available when the horizontal time base mode is “XY”. In this mode, two pairs of cursors will appear. You can adjust the cursor positions and the instrument will automatically calculate the chord length and curvature of the ellipses corresponding to the crossing points of the two pairs of cursor lines.
Page 149 Chapter 6 MATH and Measurement RIGOL absAA argAA Center X-axis Point Y-axis Figure 6-9 XY Cursor Measurement Definition 1. Select Values Press Values and use to turn the value(s) to be measured on or off. The measurement items opened are displayed at the upper left corner of the screen.
Page 150 RIGOL Chapter 6 MATH and Measurement 3. Display Lissajous Legend This oscilloscope provides the lissajous schematic diagram under different frequencies and phases. Phase difference between two signals Frequency ratio between two signals Figure 6-10 Lissajous Schematic Diagram MSO1000Z/DS1000Z User’s Guide...
Page 151: Chapter 7 Digital Channel
RIGOL Chapter 7 Digital Channel MSO1000Z series mixed signal digital oscilloscope provides 4 analog channels as well as 16 digital channels. For the digital channels, the oscilloscope compares the voltages acquired in each sample with the preset logic threshold. If the voltage of the sample point is greater than the logic threshold, it will be stored as logic 1;...
Page 152: To Select The Digital Channel
RIGOL Chapter 7 Digital Channel To Select the Digital Channel Press LA to open the logic analysis control menu. You can select any of the digital channels or user-defined digital channel groups. Press Current to open the channel/group dropdown menu and rotate the multifunction knob to select the desire channel or channel group.
Page 153: Group Set
Chapter 7 Digital Channel RIGOL Note: ― When you have turned off channels D7-D0 at the same time using D7-D0, you can still turn on or off any of the channels via the channel selection menu. When you have turned on channels D7-D0 at the same time using D7-D0, the channels in the list switch to ON status automatically.
Page 154: To Set The Waveform Display Size
RIGOL Chapter 7 Digital Channel To Set the Waveform Display Size Press WaveSize to open the waveform size selection list. You can use or press WaveSize to set the waveform display size of the channel currently turned on to S (small) and L (large).
Page 155: To Set The Label
Chapter 7 Digital Channel RIGOL Press Low Type to open the threshold selection list to select the threshold of D7-D0. The selectable preset values include TTL (1.40 V), CMOS (2.50 V), ECL (-1.30 V), PECL (3.70 V), LVDS (1.20 V) and 0V. You can also press D7-D0 and use to set the desired threshold.
Page 156: Digital Channel Delay Calibration
RIGOL Chapter 7 Digital Channel Digital Channel Delay Calibration When using the oscilloscope for actual measurement, the transmission delay of the probe cable may cause relatively larger error (zero offset). Zero offset is defined as the offset of the crossing point of the waveform and threshold level line relative to the trigger position.
Page 157: Chapter 8 Protocol Decoding
Chapter 8 Protocol Decoding RIGOL Chapter 8 Protocol Decoding Protocol analysis can be used by users to discover errors, debug hardware and accelerate development easily, so as to guarantee quick and high-quality accomplishment of projects. Protocol decoding is the basis of protocol analysis. Only protocol analyses with correct protocol decoding are acceptable and only correct protocol decoding can provide more error information.
Page 158: Parallel Decoding
RIGOL Chapter 8 Protocol Decoding Parallel Decoding Parallel bus consists of clock line and data line. As shown in the figure below, CLK is the clock line, while Bit0 and Bit1 are the 0 bit and 1st bit on the data line respectively.
Page 159 Chapter 8 Protocol Decoding RIGOL In additional, you can also modify the settings of Width, Bit X and CH manually. Note: This function is only available for MSO1000Z-S and MSO1000Z model oscilloscope. 4. Data Line Setting Set the bus width ...
Page 160 RIGOL Chapter 8 Protocol Decoding Press MATH  Decode Options  ASC List, characters, numbers and ASCII table of the common control characters will be displayed on the screen. You can instantly query the corresponding ASCII value. 7. Noise Rejection Press NRJ to enable or disable the noise rejection function.
Page 161 Chapter 8 Protocol Decoding RIGOL 12. Event Table The event table displays the decoded data and the corresponding line number and time in table format. It can be used to observe relatively longer decoded data. Press Evt.Table  EventTable to select “ON”...
Page 162: Rs232 Decoding (Option)
RIGOL Chapter 8 Protocol Decoding RS232 Decoding (Option) RS232 serial bus consists of the transmitting data line (TX) and the receiving data line (RX). DeviceA DeviceB Figure 8-3 RS232 Serial Bus Schematic Diagram The industry standard of RS232 uses “Negative Logic”, namely high level is logic “0”...
Page 163 Chapter 8 Protocol Decoding RIGOL Start Bit: represent when the data starts outputting. Data Bits: represent the number of data bits actually contained in each frame of data. Check Bit: used to check the correctness of the data transmission. Odd Checkout: the total number of “1” in the data bit and check bit is an odd.
Page 164 RIGOL Chapter 8 Protocol Decoding Press Data to set the data width of each frame. It can be set to 5, 6, 7 or 8  and the default is 8. Press Stop to set the stop bit after each frame of data. It can be set to 1 bit, ...
Page 165 Chapter 8 Protocol Decoding RIGOL Press Format to enable or disable the format display function. When “ON”  is selected, the current bus display format will be displayed on the right side of the label display (the bus display is turned on). You can use “Format” to set the display format of the bus.
Page 166 RIGOL Chapter 8 Protocol Decoding (01111101, LSB) The check bit detected is 0 Wherein, there are even number of 1 in the 5-bit data 10111 and the check bit should be 1; but the check bit detected on the TX is 0, thus check error occurs.
Page 167: I2C Decoding (Option)
Chapter 8 Protocol Decoding RIGOL I2C Decoding (Option) I2C serial bus consists of the clock line (SCLK) and the data line (SDA). SCLK Device Host SCLK Figure 8-5 I2C Serial Bus Press MATH Decode1  Decoder to select “I2C” and open the I2C decoding function menu.
Page 168 RIGOL Chapter 8 Protocol Decoding 7. Event Table The event table displays the decoded data, the corresponding line number and time in table format. Press Evt. Table  EventTable to select “ON” (Note: This operation is only available when MATH  Decode1 / Decode2 ...
Page 169 Chapter 8 Protocol Decoding RIGOL 9. Address Information during Decoding In I2C bus, the front part of each frame of data contains the address information and blue patches are used to represent the address ID. In the ID, “Write” is used to represent writing address and “Read”...
Page 170 RIGOL Chapter 8 Protocol Decoding ACK=1 Figure 8-7 I2C Error Expressions during Decoding 8-14 MSO1000Z/DS1000Z User’s Guide...
Page 171: Spi Decoding (Option)
Chapter 8 Protocol Decoding RIGOL 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 line includes MISO and MOSI. SCLK...
Page 172 RIGOL Chapter 8 Protocol Decoding 5. Mode Timeout: you can perform frame synchronization according to the timeout  and the timeout must be greater than half of the clock cycle. CS: it contains a chip select line (CS). You can perform frame ...
Page 173 Chapter 8 Protocol Decoding RIGOL time and data are displayed in the event table; if “Details” is selected, the detailed data of the specified row will be displayed in the event table; if “Payload” is selected, all data of the specified column will be displayed in the event table.
Page 175: Chapter 9 Reference Waveform
Chapter 9 Reference Waveform RIGOL Chapter 9 Reference Waveform In the actual test process, you can compare the waveform with the reference waveform to determine the cause of failure. The contents of this chapter: To Enable REF Function  To Select REF Source ...
Page 176: To Enable Ref Function
RIGOL Chapter 9 Reference Waveform To Enable REF Function Press REF in the vertical control area (VERTICAL) at the front panel to enable the REF function. MSO1000Z/DS1000Z provides 10 reference waveform channels. Press Channel and to set the desired reference channel to on or off and the channel icon (for...
Page 177: To Set The Color
Chapter 9 Reference Waveform RIGOL To Set the Color MSO1000Z/DS1000Z series oscilloscope provides five colors (light gray, green, light blue, magenta and orange) to mark the reference waveforms of different channels in order to distinguish them. Press Current and use to select any of the reference channels (Ref1-Ref10) enabled.
Page 179: Chapter 10 Pass/Fail Test
Chapter 10 Pass/Fail Test RIGOL Chapter 10 Pass/Fail Test During the product design and manufacture process, you usually need to monitor the change of the signal or judge whether the product is up to standard. The pass/fail test function of MSO1000Z/DS1000Z oscilloscope can fulfill this task perfectly.
Page 180: To Enable Pass/Fail Test
RIGOL Chapter 10 Pass/Fail Test To Enable Pass/Fail Test Press Utility  Pass/Fail  Enable to select “ON”. The blue shadow area denotes the failure area and if the waveform measured at certain time point during the measurement process passes through the failure area, it will be treated as failed frame.
Page 181: Test And Output
Chapter 10 Pass/Fail Test RIGOL Test and Output You can set the output form of the test results by the following method. Press Stat.Disp to select “ON” or “OFF”. When “ON” is selected, the test results will be displayed at the upper right corner of the screen as shown in the figure below.
Page 182: To Load The Test Mask
RIGOL Chapter 10 Pass/Fail Test To Load the Test Mask Users can also load the test mask files (*.pf) stored in the internal Flash memory or external USB storage device to the internal memory. Press Load to enter the file recall interface. Please refer to the relative descriptions in “Store and Recall”...
Page 183: Chapter 11 Waveform Record
Chapter 11 Waveform Record RIGOL Chapter 11 Waveform Record Waveform record can record the waveforms of the analog input channels (CH1-CH4) and the digital channels (D0-D15). Waveform playback can provide better waveform analysis effect. Note: The horizontal time base must be set to Y-T mode during waveform record.
Page 184: Common Settings
RIGOL Chapter 11 Waveform Record Common Settings Press Utility  Record  Record to turn on or off the waveform record function. 1. Record Waveform Before recording the waveform, you can refer to the introduction in “Record Option” to set the waveform recording parameters. Press Record to start recording the waveform.
Page 185: Playback Option
Chapter 11 Waveform Record RIGOL Playback Option Waveform playback can play back the waveforms currently recorded. During the playback, the information as shown in the figure below is displayed at the upper right corner of the screen. The data at the left side of the figure indicates the specific frame currently displayed on the screen.
Page 186: Record Option
RIGOL Chapter 11 Waveform Record Record Option Before recording the waveform, you can press Record Opt to set the following parameters. 1. Interval Press Interval to set the time interval between the frames in waveform recording and the range available is from 100 ns to 10 s. For the setting method, please refer to the introduction in “Parameter Setting Method”.
Page 187: Chapter 12 Display Control
Chapter 12 Display Control RIGOL Chapter 12 Display Control You can set the type, persistence time and brightness of waveform display as well as the grid type and grid brightness of the screen display. The contents of this chapter: To Select the Display Type ...
Page 188: To Select The Display Type
RIGOL Chapter 12 Display Control To Select the Display Type Press Display  Type to set the waveform display mode to “Vectors” or “Dots”. Vectors: the sample points are connected by lines and displayed, as shown in  the figure below. Normally, this mode can provide the most vivid waveform to view the steep edge of the waveform (such as square waveform).
Page 189: To Set The Waveform Intensity
Chapter 12 Display Control RIGOL 3. Infinite In this mode, the oscilloscope displays the waveform newly acquired without clearing the waveforms acquired formerly. The waveforms acquired formerly will be displayed in relatively low-brightness color and the waveform newly acquired will be displayed in normal brightness and color. Infinite persistence can be used to measure noise and jitter and to capture incidental events.
Page 191: Chapter 13 Signal Source
Chapter 13 Signal Source RIGOL Chapter 13 Signal Source MSO1000Z/DS1000Z combines signal generator and oscilloscope in one instrument by providing a built-in dual-channel, 25MHz signal generator, thus providing convenience for engineers who need to use the signal generator and oscilloscope at the same time.
Page 192: To Output Basic Waveform
RIGOL Chapter 13 Signal Source To Output Basic Waveform MSO1000Z/DS1000Z built-in signal source can output a variety of basic waveforms, including sine, square, ramp, pulse, DC and noise. To Output Sine Press Src1Conf to open the waveform setting menu. Press Wave and select “Sine”.
Page 193: To Output Square
Chapter 13 Signal Source RIGOL 6. Align phase Pressing AlignPhase will re-configure the two channels to output according to the preset frequency and phase. For two signals of which the frequencies are the same or are multiples, this operation can align their phases. Acquire the waveforms of the two channels using the oscilloscope and display the waveforms stably.
Page 194 RIGOL Chapter 13 Signal Source Symmetry=t/T*100% Figure 13-1 Symmetry Definition Press Symmetry to set the symmetry of the ramp waveform. For the setting method, please refer to the introduction in “Parameter Setting Method”. The range is from 0% to 100%.
Page 195: To Output Pulse
Chapter 13 Signal Source RIGOL To Output Pulse Press Src1Conf to open the waveform setting menu. Press Wave and select “Pulse”. At this point, you can set the pulse parameters. For the detailed setting method, refer to the introduction in “To Output Sine”. This section only introduces “DutyCycle”.
Page 196: To Output Noise
RIGOL Chapter 13 Signal Source To Output Noise Press Src1Conf to open the waveform setting menu. Press Wave and select “Noise”. At this point, you can output a noise signal with the specified amplitude, offset and impendance. 1. Source 1 output Press Output to turn on or off the signal output.
Page 197 Chapter 13 Signal Source RIGOL Figure 13-3 Built-in Waveform-Sinc Figure 13-4 Built-in Waveform-ExpRise Figure 13-5 Built-in Waveform-ExpFall MSO1000Z/DS1000Z User’s Guide 13-7...
Page 198 RIGOL Chapter 13 Signal Source Figure 13-6 Built-in Waveform-ECG Figure 13-7 Built-in Waveform-Gauss Figure 13-8 Built-in Waveform-Lorentz 13-8 MSO1000Z/DS1000Z User’s Guide...
Page 199 Chapter 13 Signal Source RIGOL Figure 13-9 Built-in Waveform-Haversine 3. Set the frequency Press Frequency to set the frequency of the signal. For the setting method, please refer to the introduction in “Parameter Setting Method”. The range is from 100 mHz to 1 MHz.
Page 200: To Output Arbitrary Waveform
RIGOL Chapter 13 Signal Source 8. Modulation Press Src1Mod to enter the modulation setting interface. For detailed introduction of the modulation function, please refer to “Modulation”. Note: When “Pulse”, “DC” or “Noise” is selected, the modulation menu will be hidden automatically.
Page 201: To Select Waveform
Chapter 13 Signal Source RIGOL 6. Align Phase The align phase operation is for the two channels. Pressing AlignPhase will re-configure the two channels to output according to the preset frequency and phase. For two signals of which the frequencies are the same or are multiples, this operation can align their phases.
Page 202: To Create Waveform
RIGOL Chapter 13 Signal Source Channel Signal  Select the signals of analog channel (CH1-CH4) turned on currently for output. Press Select  CHSignal to set the desired channel signal. ― Press Source to select the waveform of any of the channels turned on (CH1-CH4).
Page 203 Chapter 13 Signal Source RIGOL OFF: the waveform editor will keep a constant voltage level between two  points and create a ladder-like waveform. 3. Zoom Press Zoom to turn on or off the zoom function. ON: the waveform editing window only displays the current point.
Page 204: To Edit Waveform
RIGOL Chapter 13 Signal Source 8. Delete Press Delete to delete the current point from the waveform and connect the remaining points using the current interpolation mode. Note: Point 1 cannot be deleted. 9. APPly Press Apply to finish editing the current waveform and output the edited waveform.
Page 205: Modulation
Chapter 13 Signal Source RIGOL 5. Time Press Time to set the duration of the current point. This setting is limited by the times of the previous point and following point. The time of point 1 is fixed at 0 s.
Page 206 RIGOL Chapter 13 Signal Source 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 Waveform Carrier Waveform Modulated Waveform Figure 13-10 Amplitude Modulation 1. Select the Carrier Waveform Press Src1Conf to enter the waveform setting interface.
Page 207 Chapter 13 Signal Source RIGOL 5. Set the Modulation Depth The modulation depth refers to the strength of the AM and is expressed in percentage. Press Depth to set the modulation depth of the modulating waveform. The range is from 0% to 120%. When it is set to 0%, the output amplitude is half of the carrier amplitude.
Page 208 RIGOL Chapter 13 Signal Source 4. Set the Modulation Frequency Press Frequency to set the frequency of the modulating waveform. The range is from 1 Hz to 50 kHz. 5. Set the Modulation Deviation Press Deviation to set the deviation of the frequency of the modulating waveform relative to the carrier frequency.
Page 209: Chapter 14 Store And Recall
Chapter 14 Store and Recall RIGOL Chapter 14 Store and Recall Users can save the current settings, waveforms, screen image and parameters of the oscilloscope in internal memory or external USB mass storage device (such as USB storage device) in various formats and recall the stored traces, settings or waveforms when needed.
Page 210: Storage System
RIGOL Chapter 14 Store and Recall Storage System Press Storage to enter the store and recall setting interface. The internal memory (Local Disk) of this oscilloscope is 90.5 MByte. It provides a USB Host interface at the front panel to connect USB storage device for external storage.
Page 211 Chapter 14 Store and Recall RIGOL 4. Setups Save the settings of the oscilloscope to internal or external memory in “*.stp” format. The stored settings can be recalled. 5. CSV Save the waveform data displayed on the screen or of the specified channels in external memory in a single “*.csv”...
Page 212: Internal Storage And Recall
RIGOL Chapter 14 Store and Recall Internal Storage and Recall “Setups” and “Param” (internal recall is not supported) in Storage support internal storage. In the following part, the storage and recall method and procedures of internal storage are introduced. 1. Save the specified oscilloscope setting in internal memory.
Page 213: External Storage And Recall
Chapter 14 Store and Recall RIGOL External Storage and Recall Before using external storage and recall, make sure that a USB storage device is connected correctly. External storage supports all the types of files in Storage but in recall, “Picture”, “CSV” and “Param” are not supported. In the following part, we will take “Traces”...
Page 214: Disk Management
RIGOL Chapter 14 Store and Recall Disk Management Press Storage  DiskManage to turn on the disk management interface as shown in Figure 14-1 and use to select the desired disk. The disk currently selected is displayed in blue shading. Press down to open the disk selected.
Page 215: To Create A New File Or Folder
Chapter 14 Store and Recall RIGOL To Create a New File or Folder This operation is only valid in external storage. Before using external disk, make sure that a USB storage device is connected correctly. First, press Storage  DiskManage and use to select and open the external disk (“Disk D”).
Page 216 RIGOL Chapter 14 Store and Recall English Input Method For example, create a file or folder with the name “Filename”. Press Keyboard. 1) Use to select English input method “En” and uppercase input state “A ”. to input the letter “F”. If the input is wrong, press Delete to delete 2) Use the character input.
Page 217 Chapter 14 Store and Recall RIGOL Chinese Input Method For example, create a file or folder with the name “文件名”. Press Keyboard. 1) Use to select Chinese input method “中”. Note: Chinese is added in the menu items at the right of the screen.
Page 218: To Delete A File Or Folder
RIGOL Chapter 14 Store and Recall To Delete a File or Folder Folder operation is valid only in external storage. Before using the external disk, make sure that a USB storage device is connected correctly. 1. Delete a file in internal memory.
Page 219: Factory
Chapter 14 Store and Recall RIGOL Factory Press Storage Default to return the oscilloscope to its factory state (refer to the table below). Table 14-1 Factory Parameter Factory Horizontal Setting (HORIZONTAL) Vertical Setting (VERTICAL) Acquisition Setting (Acquire) Trigger Setting (TRIGGER)
Page 220 RIGOL Chapter 14 Store and Recall Sin(x)/x Memory Depth Auto Anti-Aliasing Trigger Setting (TRIGGER) Trigger Type Edge Source Slope Rising Edge Trigger Mode Auto Trigger Coupling Trigger Holdoff 16 ns Noise Reject Display Setting (Display) Display Type Vectors Persistence Time...
Page 221 Chapter 14 Store and Recall RIGOL CursorA Source CursorB Source CursorA -4.000 μs CursorB 4.000 μs 2.000 V -2.000 V 2.000 V -2.000 V Storage Setting (Storage) Storage Type Picture Utility Function Setting (Utility) Sound Pass/Fail Test Enable Test Source...
Page 222 RIGOL Chapter 14 Store and Recall A×B Operation Source A Source B Offset 0.00 U Scale 2.00 U Operation Source A Source B Offset 0.00 U Scale 50.0 mU Operation Source Center Frequency 5.00 MHz Horizontal Scale 5.00 MHz Offset 0.00 dBV...
Page 223 Chapter 14 Store and Recall RIGOL Threshold A 0.00 V Threshold B 0.00 V Operation Source A Offset 0.00 V Scale 1.00 V Threshold A 0.00 V Intg Operation Source Offset 0.00 U Scale 10.0 μU Diff Operation Source Offset 0.00 V/s...
Page 224 RIGOL Chapter 14 Store and Recall Current Channel D7-D0 D15-D8 Wave Size ReOrder D0-D15 Delay Calibration 0.00 s Switch Channel Channel Selection D7-D0 Threshold Settings Low Type D7-D0 1.40 V High Type D15-D8 1.40 V Label Select Channel Preset Label Protocol Decoding (MATH...
Page 225 Chapter 14 Store and Recall RIGOL MOSI Mode Timeout Timeout 1.00 us Edge Rising Edge Polarity Width Order Decode Configuration Label Line Format Endian Width Data Source Traces Reference Waveform Setting (REF) Channel Setting Ref1 Current Channel Ref1 Source Offset 0.00 nV...
Page 227: Chapter 15 Accessibility Setting
Chapter 15 Accessibility Setting RIGOL Chapter 15 Accessibility Setting The contents of this chapter: Remote Interface Configuration  System-related  MSO1000Z/DS1000Z User’s Guide 15-1...
Page 228: Remote Interface Configuration
RIGOL Chapter 15 Accessibility Setting Remote Interface Configuration MSO1000Z/DS1000Z provides three remote control interfaces: USB Device (TMC and SICD static image capture devices share this port), LAN and GPIB (expanded from the USB HOST interface by the USB-GPIB interface converter). The priority order of the three ports is USB Device, LAN and GPIB.
Page 229: Lan Configuration
Chapter 15 Accessibility Setting RIGOL LAN Configuration Press Utility  IO Setting  LAN Conf. to turn on the LAN setting interface. You can view the network connection status and configure the network parameters. Network Status Current IP Config Type...
Page 230 RIGOL Chapter 15 Accessibility Setting DHCP Press Configure and use to select “DHCP”. Then press down to select this type. When DHPC is valid, the DHCP server in the current network will assign the network parameters (such as the IP address) for the oscilloscope.
Page 231 Chapter 15 Accessibility Setting RIGOL DHCP and Auto IP will be “Off” and the oscilloscope will load the preset subnet mask automatically at the next power-on. Set the Gate You can set this paramter in Auto IP and Static IP mode.
Page 232: Usb Device
RIGOL Chapter 15 Accessibility Setting MAC Address For each oscilloscope, the MAC address is unique. When attributing IP address for the oscilloscope, the MAC address is usually used to identify the instrument. VISA Address Display the VISA address currently used by the oscilloscope.
Page 233: System-Related
Chapter 15 Accessibility Setting RIGOL System-related Sound When the sound is enabled, you can hear the sound of the beeper when you press a function key or a menu softkey or when the prompt message pops up. Press Utility  Sound to select (off) or (on).
Page 234: Self-Calibration
RIGOL Chapter 15 Accessibility Setting Self-calibration The self-calibration program can quickly make the oscilloscope reach the best working state to get the most precise measurement values. You can perform self-calibration at any time especially when the change of the environment temperature is up to or more than 5℃.
Page 235 Chapter 15 Accessibility Setting RIGOL MSO1000Z/DS1000Z digital oscilloscope supports the PictBridge printer function. Printers that support PictBridge can be connect directly via the USB Device connector at the rear panel of the oscilloscope. You can set the printer parameters using the oscilloscope to output the corresponding picture.
Page 236: Aux Output
RIGOL Chapter 15 Accessibility Setting select the desired file type. You can also press this key continuously to switch among the options. The file types include “Default”, “Jpeg” or “Bmp”. Note: The file types available are related to the property of the printer connected.
Page 237: Option Management
Option Management This oscilloscope provides multiple options to fulfill your measurement requirements. Please contact your RIGOL sales representative or RIGOL technical support to order the corresponding options. You can view the options currently installed on the oscilloscope or activate the newly bought option serial number through this menu.
Page 238: Auto Options
RIGOL Chapter 15 Accessibility Setting Auto Options As mentioned before, pressing AUTO at the front panel can enable the waveform automatic setting function. The oscilloscope will automatically adjust the vertical scale, horizontal time base and trigger mode according to the input signal to realize optimum waveform display.
Page 239: Chapter 16 Remote Control
Use PC software provided by RIGOL or other manufacturers Users can use the PC software Ultra Sigma of RIGOL, Measurement & Automation Explorer of NI (National Instruments Corporation) or Agilent IO Libraries Suite of Agilent (Agilent Technologies, Inc.) to send commands to control the oscilloscope remotely.
Page 240: Remote Control Via Usb
RIGOL Chapter 16 Remote Control Remote Control via USB 1. Connect the device Connect the USB Device interface of the oscilloscope at the rear panel with the USB HOST interface of your PC using a USB cable 2. Install the USB driver This oscilloscope is a USB-TMC device.
Page 241 Chapter 16Remote Control RIGOL MSO1000Z/DS1000Z User’s Guide 16-3...
Page 242 RIGOL Chapter 16 Remote Control 3. Search for device resource Start up Ultra Sigma and the software will automatically search for the oscilloscope resources currently connected to the PC. You can also click to search for the resources. 16-4 MSO1000Z/DS1000Z User’s Guide...
Page 243 Chapter 16Remote Control RIGOL 4. View the device resource The resources found will appear under the “RIGOL Online Resource” directory and the model number and USB interface information of the instrument will also be displayed as shown in the figure below.
Page 244: Remote Control Via Lan
Click “OK” to add the instrument resource. 4. View device resource The resources found will appear under the “RIGOL Online Resource” directory as shown in the figure below. 16-6 MSO1000Z/DS1000Z User’s Guide...
Page 245 Chapter 16Remote Control RIGOL 5. Communication test Right click the resource name “MSO1104Z (TCPIP::172.16.3.94::INSTR)” to select “SCPI Panel Control” to turn on the remote command control panel (as shown in the figure below) through which you can send commands and read data.
Page 246: Remote Control Via Gpib
RIGOL Chapter 16 Remote Control Remote Control via GPIB 1. Connect the device Use the USB to GPIB interface converter to extend a GPIB interface for the oscilloscope. Then connect the oscilloscope to your PC using a GPIB cable 2. Install the driver of GPIB card Install the driver of the GPIB card which has been connected to the PC correctly.
Page 247 5. View device resource Click “OK” to return back to the main interface of Ultra Sigma. The GPIB instrument resources found will appear under the “RIGOL Online Resource” directory. 6. Communication Test Right-click the resource name “MSO1104Z (GPIB0::1::INSTR)” to select “SCPI Panel Control”...
Page 249: Chapter 17 Troubleshooting
The commonly encountered failures and their solutions are listed below. When you encounter those problems, please solve them following the corresponding steps. If the problem remains still, please contact RIGOL and provide your device information (Utility  System  System Info).
Page 250 RIGOL Chapter 17 Troubleshooting 6. The display of waveform is ladder-like: (1) The horizontal time base might be too low. Increase the horizontal time base to increase the horizontal resolution and improve the display. (2) If the display type is “Vectors”, the lines between the sample points may cause ladder-like display.
Page 251: Chapter 18 Specifications
Chapter 18 Specifications RIGOL Chapter 18 Specifications All the specifications are guaranteed except the parameters marked with “Typical” and the oscilloscope needs to operate for more than 30 minutes under the specified operation temperature. Sample Sample Mode Real-time Sample Analog channe: 1 GSa/s (single-channel), 500 Msa/s...
Page 252 RIGOL Chapter 18 Specifications Horizontal Timebase Scale 5 ns/div to 50 s/div Max Record 24 Mpts (optional) Length Timebase ≤±25 ppm Accuracy Clock Drift ≤±5 ppm/year Max Delay Negative delay: ≥1/2 screen width Range Positive delay: 1 s to 5000 s...
Page 253 Chapter 18 Specifications RIGOL Vertical (Digital Channel) Threshold Adjustable threshold of 8 channels per group Threshold TTL (1.4 V) Selection 5.0 V CMOS (+2.5 V), 3.3 V CMOS (+1.65 V) 2.5 V CMOS (+1.25 V), 1.8 V CMOS (+0.9 V) ECL (-1.3 V)
Page 254 RIGOL Chapter 18 Specifications Pulse Width 8 ns to 10 s Range Window Trigger (Option) Window Type Rising, Falling, Rising/Falling Trigger Position Enter, Exit, Time Window Time 8 ns to 10 s Nth Edge Trigger (Option) Edge Type Rising, Falling...
Page 255 Chapter 18 Specifications RIGOL Data Bits 5 bit, 6 bit, 7 bit, 8 bit I2C Trigger (Option) Trigger Start, Restart, Stop, Missing ACK, Address, Data, A&D Condition Address Bits 7 bits, 8 bits, 10 bits Address Range 0x0 to 0x7F, 0x0 to 0xFF, 0x0 to 1023...
Page 256 RIGOL Chapter 18 Specifications Math Operation Waveform A+B, A-B, A×B, A/B, FFT, A&&B, A||B, A^B, !A, intg, Diff, Sqrt, Operation Lg, Ln, Exp, Abs FFT Window Rectangle, Hanning, Blackman, Hamming, Flat Top, Triangle Function FFT Display Half, Full FFT Vertical...
Page 257 Chapter 18 Specifications RIGOL (Non-harmonic) Total Harmonic Distortion S/N Ratio 40 dB Square/Pulse Frequency Range 0.1 Hz to 15 MHz Rise/Fall Time <15 ns Overshoot <5% Duty Cycle 10% to 90% Duty Cycle 1% or 10 ns (the larger of the two) Resolution Min.
Page 258: General Specifications
RIGOL Chapter 18 Specifications General Specifications Probe Compensation Output Output Voltage About 3 V, peak-peak Frequency 1 kHz Power Power Voltage 100 V-240 V, 45 Hz-440 Hz Power Maximum 50 W Fuse 2 A, T degree, 250 V Environment Temperature Operating: 0 ℃...
Page 259: Chapter 19 Appendix
Window trigger, Nth edge trigger, delay trigger, timeout AT-DS1000Z Options trigger, Setup/Hold trigger Serial RS232/UART decoding kit Protocol I2C decoding kit SA-DS1000Z Analysis SPI decoding kit Options Note: All the options or accessories can be ordered from you local RIGOL Office. MSO1000Z/DS1000Z User’s Guide 19-1...
Page 260: Appendix B: Warranty
To get repair service, please contact with your nearest RIGOL sales and service office. RIGOL does not provide any other warranty items except the one being provided by this summary and the warranty statement. The warranty items include but not being subjected to the hint guarantee items related to tradable characteristic and any particular purpose.
Page 261: Index
Index RIGOL Index - Duty ........6-22 Hamming ........6-7 - Width ........6-22 Hanning ........6-7 + Duty ........6-22 Haversine ......... 13-9 + Width ........6-22 High Resolution ......4-3 +Rate ........6-25 I2C Decoding ......8-11 Acquisition Mode ......4-2 I2C Trigger .......
Page 262 RIGOL Index Ramp ........13-3 Trigger Mode ......5-3 -Rate ........6-25 Trigger Position ......5-23 Rectangle ........6-7 Trigger Source ......5-2 Rise Time ........ 6-22 tVmax ........6-22 Roll ........... 3-5 tVmin ........6-22 RS232 Decoding ......8-6 USB .........

This manual is also suitable for:

Ds1000z series

Rigol MSO1000Z series User Manual

Safety Requirement

MSO1000Z/DS1000Z Series Overview

Document Overview

Chapter 1 Quick Start

Chapter 2 To Set the Vertical System

Chapter 3 To Set the Horizontal System

Chapter 4 To Set the Sample System

Chapter 5 To Trigger the Oscilloscope

Chapter 6 MATH and Measurement

Chapter 7 Digital Channel

Chapter 8 Protocol Decoding

Chapter 9 Reference Waveform

Chapter 10 Pass/Fail Test

Chapter 11 Waveform Record

Chapter 12 Display Control

Chapter 13 Signal Source

Chapter 14 Store and Recall

Chapter 15 Accessibility Setting

Chapter 16 Remote Control

Chapter 17 Troubleshooting

Chapter 18 Specifications

Chapter 19 Appendix

Appendix A: Accessories and Options

Appendix B: Warranty

Index

Quick Links

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Summary of Contents for Rigol MSO1000Z series