Hantek DPO6000 Series Product Manual

Digital fluorescent oscilloscope

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DPO6000, MPO6000 Series

Digital Fluorescent Oscilloscope

Product Manual

V 1.3

Table of Contents

Summary of Contents for Hantek DPO6000 Series

Page 1 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V 1.3...
Page 2: Copyright Statement
Qingdao Hantek Electronic Co., Ltd. Statement Qingdao Hantek Electronic Co., Ltd. reserves the right to amend this document without prior notice. Qingdao Hantek Electronic Co., Ltd. promises that the information provid- ed is correct and reliable, but does not guarantee that this document is infallible. Please make sure that the specifications of relevant technical documents used are the latest and valid version yourself before using this product.
Page 3: Technical Support
Technical Support If you have any question or ambiguity in the process of using products of Qingdao Hantek Electronic Co., Ltd., you can get the service and support through the following ways: A: Please contact the local dealer of Qingdao Hantek Electronic Co., Ltd.;...
Page 4: General Safety Summary
Summary of general safety matters General Safety Summary Read the following safety precautions carefully to avoid injury and prevent damage to this product or any product connected to this product. To avoid possible danger, be sure to use this product as specified. Avoid fire and personal injury.
Page 5: Safety Terms And Symbols
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Poor ventilation will increase the temperature of the instrument and cause damage to the instrument. Good ventilation should be maintained during use, and the vents and fans should be checked regularly. Use a suitable fuse.
Page 6: Measurement Category Definition
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 It indicates that the user may not immediately harm the user if they do this. CAUTION It indicates that the user may cause damage to this product or other property if this operation is performed.
Page 7: Ventilation Requirements
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Refers to measurement at the source of the low-voltage equipment. Examples are elec- tricity meters, measurements on major overcurrent protection devices, and measure- ments on pulse control units. Ventilation requirements The oscilloscope is forcedly cooled by a fan. Ensure that the intake and exhaust areas are free of obstructions and free-flowing air.
Page 8: Equipment Recycling
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 CAUTION To avoid damaging the oscilloscope or probe, do not place it in mist, liquid or solvent. Clean According to the requirements of operating conditions, check the oscilloscope and probe frequently. Please clean the outer surface of the instrument according to the fol- lowing steps: Use a lint-free cloth to remove dust from the outside of the oscilloscope and probe.
Page 9 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 ★200MHz, 100MHz and 80MHz analog channel bandwidths are available ★4 analog channels, 16 (4*4) digital channels (MPO6000 series; DPO6000 series can be upgraded to use digital channels by purchasing LP104 digital probe) ★Two / three-channel signal source (MPO6000EDU is three channels) Built-in 13 kinds...
Page 10: Quick Start
★New and exquisite industrial design, convenient operation Product model list The MPO6000 / DPO6000 series includes the following models. Unless otherwise specified, this manual uses the MPO6204EDU as an example to explain the functions and operation methods of the oscilloscope.
Page 11: Physical Dimension
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Attachments" at the end of this note. Physical dimension 318 mm Front view Top view Ready to use the instrument Adjusting the bracket Properly adjust the stand so that it is upright, tilt the oscilloscope upward, and place the oscilloscope stably, so as to better operate and observe the display screen.
Page 12 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Adjust the support feet cord Connect the power as required The specifications of the AC power source that this oscilloscope can input are: 100- 120Vac, 50/60/400Hz; 100-240Vac, 50/60Hz; 50W max. Connect the oscilloscope to an AC power source using the power cord provided in the accessory (shown below).
Page 13 6MHz. When the "Attenuation" switch is set to X10, the oscilloscope has full band- width. Connect the probe DPO6000 series oscilloscopes are equipped with passive probes as standard, and MPO6000 series are equipped with passive and digital probes as standard. Connect the passive probe: 1.
Page 14 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 2. Connect the probe ground alligator clip or ground spring to the circuit ground termi- nal, and then connect the probe to the circuit under test. Connect the logic probe: 1. Connect one end of the digital probe to the digital channel input interface on the front panel of the oscilloscope (the digital probe has no direction).
Page 15: Front Panel Overview
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Front panel overview The following content briefly describes and introduces the front panel part of the 6000 series oscilloscope, so that users can become familiar with the 6000 series digital oscil- loscope in the shortest time.
Page 16: Rear Panel Overview
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Rear panel overview 1. Handle Pull the handle vertically to carry the oscilloscope conveniently. When not needed, just press down on the handle. 2. AC power jack AC power input. Please use the power cord provided to connect the oscilloscope to AC power, and press the power button on the front panel to turn it on.
Page 17: Front Panel Functions
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 connected to a computer, users can send SCPI commands or custom programming to control the oscilloscope through the host computer software. When the printer is con- nected, the user prints the waveform displayed on the screen through the printer. 6.
Page 18: Vertical Offset
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Analog input channel switch. Press any button to open the corre- sponding channel menu, and press again to close the channel. Math: Press the "Math" button to open the Math setup menu, and press again to close the Math function.
Page 19 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Trigger level: Modify the trigger level. Turn clockwise to increase the level, and turn counterclockwise to decrease the level. During the modification, the trigger level line moves up and down, and at the same time, the value in the trigger level message box at the top right of the screen changes in real time.
Page 20 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 V0： The multi-function knob can perform various settings, such as adjust- ing the waveform brightness, trigger time, selecting the trigger type, selecting the trigger source, the signal source waveform, frequency, offset, amplitude, etc .; the multi-function indicator does not light up when the menu is not operated.
Page 21: User Interface
This section will let users know the front operation panel of this series of digital oscillo- scopes before using. 1. Hantek trademark Open the "Touch Screen" in "Utility", and touch the Hantek logo in the upper left corner of the screen-> scan the QR code to quickly enter the wizard interface. 2. Running status: AUTO: The oscilloscope works in automatic mode and acquires waveforms without triggers.
Page 22 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 data. STOP: The oscilloscope stops acquiring waveform data. ARM: pre-trigger state. 3. The main time base of the current window Represents the length of time represented by each division on the horizontal axis of the screen.
Page 23: Sampling System
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 14. Logic analyzer status display If the icon is lit, the LA channel is connected. 15. Gen3 status display [MPO6000EDU series] If the icon is lit, the Gen3 channel is turned on. 16.
Page 24 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Waveform aliasing If the sampling cannot be satisfied (Fs> 2Fmax), the waveform frequency when recon- structing the sampled data is smaller than the frequency of the actual signal. The most common aliasing is dithering on the fast edge. The following two measures can avoid aliasing: 1.
Page 25: Sampling Rate
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Sampling rate and memory depth Sampling rate The highest sampling rate of DPO6000 / MPO6000 is 1GSa/s. In the actual use of the oscilloscope, the sampling rate is determined by the current horizontal time base scale and storage depth.
Page 26: Linear Interpolation
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 and reconstruct accurate waveforms. The interpolation method is divided into sine in- terpolation, linear interpolation and step interpolation. Linear interpolation Connect straight lines directly at adjacent points. This method is limited to reconstruct- ing straight-edge signals, such as square waves.
Page 27 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Sine interpolation Use mathematical processing to calculate the results in the actual sample interval. This method bends the signal waveform to produce a more realistic common shape than pure square waves and pulses. When the sampling rate is 3 to 5 times the system bandwidth, sine interpolation is recommended.
Page 28: Operational Control
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 signal waveform more realistically. For signal interpolation, we use sine interpolation by default. Operational control You can use the two buttons Run/Stop and Single on the front panel of the oscilloscope to start or stop the oscilloscope's sampling system.
Page 29 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Average In this mode, the oscilloscope averages the waveforms of multiple samples to reduce random noise on the input signal and improve vertical resolution. The higher the num- ber of averages, the lower the noise and the higher the vertical resolution, but the slower the response of the displayed waveform to waveform changes.
Page 30: High Resolution
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 High resolution This mode uses an oversampling technique to average the neighboring points of the sampled waveform to reduce random noise on the input signal and produce a smoother waveform on the screen. It is usually used when the sampling rate of the digitizer is higher than the storage rate of the acquisition memory.
Page 31: Time Base Mode
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 By selecting the horizontal time base knob {turn the front panel horizontal time base knob}. By changing the acquisition method {press Utility-> Acquisition-> Acquisition Mode on the front panel} Note: The current waveform sampling rate is displayed in the status bar at the top of the screen.
Page 32 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 YT dual window display mode XY mode In this mode, the oscilloscope converts the two input channels from voltage-time dis- play to voltage-voltage display. The X-axis Y-axis combination can be CH1-CH2 or CH3-CH4.
Page 33 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 The signal must be centered horizontally Ⅱ Ⅰ Ⅲ Ⅳ Phase difference measurement schematic �� According to sin �� = or sin �� = , θ is the phase difference angle between the chan- ��...
Page 34 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Test example: measure the phase difference between the input signals of the two channels. 1. Connect a sinusoidal signal to CH1, and then connect a sinusoidal signal of the same frequency, same amplitude and 90 ° phase difference to CH2. 2.
Page 35: Roll Mode
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Roll mode In this mode, the waveform scrolls from right to left to refresh the display. The adjust- ment range of the horizontal gear is 100ms to 100s. Note: When scroll mode is turned on, "Horizontal Shift", "Dual Window Mode", "Protocol Decoding", "Pass / Fail Test", "Segment Acquisition", "Persistence Time", and "Trigger- ing Oscilloscope"...
Page 36: Bandwidth Limitation
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 ➢ When the coupling method is DC: both the DC and AC components contained in the signal under test can pass. ➢ When the coupling mode is AC: The DC component contained in the measured signal is blocked.
Page 37: Probe Ratio
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Waveform inversion Press 1-> Invert to turn the waveform inversion on or off. When the waveform inversion is turned off, the waveform is displayed normally; when the waveform inversion is turned on, the waveform voltage value is inverted (as shown in the figure below). Inverted Off Inverted On Probe ratio...
Page 38: Trigger System
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Note: "Coarse adjustment" and "Fine adjustment" can be selected not only through the amplitude scale menu, but also by pressing the vertical voltage scale quickly. Analog channel delay setting When using an oscilloscope for actual measurements, the propagation delay of the probe cable may introduce large errors (zero drift).
Page 39: Trigger Source
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 displays or blank screens into meaningful waveforms. Here are some basic concepts of triggers. Trigger source Press the data source in the Trig Menu-> in the trigger control area on the front panel to select the required trigger data source.
Page 40: Trigger Holdoff
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 non-trigger acquisition is completed. Normal mode will update the displayed waveform only if the oscilloscope has a valid trigger. The oscilloscope will display the original waveform before replacing it with a new waveform.
Page 41: Edge Trigger
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 (10) Delay trigger (11) Setup/Hold trigger (12) UART trigger [optional] (13) LIN triggering [optional] (14) CAN trigger [optional] (15) SPI triggering [optional] (16) IIC trigger [optional] Edge trigger Edge trigger types identify triggers by looking for a specified edge (rising, falling, rising, or falling) and voltage level on the waveform.
Page 42: Pulse Width Trigger
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 trigger slope to rising edge. Pulse width trigger Pulse width trigger sets the oscilloscope to trigger on a positive or negative pulse of a specified width. You can set the trigger source, polarity (positive pulse width, negative pulse width), limit conditions, and pulse width in this menu.
Page 43: Video Trigger
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Trigger level knob: The analog channel can modify the trigger level value. The trigger mark moves up and down with the rotation of the knob. Turn the trigger level knob to adjust the trigger level to obtain a stable trigger.
Page 44: Slope Trigger
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Trigger level knob: The analog channel can modify the trigger level value. The trigger mark moves up and down with the rotation of the knob. Turn the trigger level knob to adjust the trigger level to obtain a stable trigger.
Page 45 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Time] Set slope time reference (8ns~10s), the slope time is the horizontal time interval between the intersection of the high and low levels and the rising or falling edge of the waveform.
Page 46: Window Trigger
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 trigger level to obtain a stable trigger. Digital channel: You can change the trigger threshold of the digital channel by setting the threshold voltage. Window trigger Window triggering provides high and low trigger levels. When the input signal passes the high or low trigger level, the oscilloscope triggers.
Page 47: Interval Trigger
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 and OR combination between channels. Each channel can have a value of high (1), low (0), or inactive (X). In the pattern trigger mode, the oscilloscope will compare the actual pattern of the channel with the preset pattern, and trigger on the last channel that is the same as the preset pattern (the pattern is true).
Page 48 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 meets the set time condition (＞, ＜, ＝, ≠). Positive interval time Negative interval time Trigger point Trigger point Trigger level Press the front panel Trig Menu button to open the trigger function menu. [Type] Select the interval and press V0 to confirm.
Page 49 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Trigger point Trigger level 1 Positive under Amp pulse Trigger level 2 Negative under Amp pulse Trigger point ➢ Positive runt: The pulse crosses the low level but not the high level. ➢...
Page 50: Delay Trigger
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Holdoff] Set the holdoff time. Trigger level knob: You can modify the trigger level value. Trigger the mark and move up and down with the knob. Turn the trigger level knob to adjust the trigger level to ob- tain a stable trigger.
Page 51: Setup/Hold Trigger
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 edges is equal to the set width (pulse width error is 5%). ≠ [Not equal to the set width value]: Trigger when the time difference between the set edges is not equal to the set width (pulse width error is 5%). [Width] Set the reference value of the time difference between the edges set by the two data sources (8ns~10s).
Page 52 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Data] Select CH1～CH4 or LA as the trigger source. Note: LA must be inserted when LA is used as the trigger source. [Data type] Select high level or low level. [Clock] Select CH1～CH4 or LA as the trigger source of the clock channel. Note: LA must be inserted when LA is used as the trigger source.
Page 53 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Note: LA must be inserted when LA is used as the trigger source. [Baud rate] Select the baud rate. DPO6000 / MPO6000 series machines provide users with common baud rates as fol- lows: 1200 2400...
Page 54 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Decode] Switch the decoding function. [Label position] The position where the decoded data is drawn on the screen (only available when the decode function is turned on). [Table] Data recording mode. Trigger level knob: The analog channel can modify the trigger level value.
Page 55 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 UART decoding explanation: 1. The decoded data is displayed in hexadecimal; 2. The decoded data shows purple; 3. When “?” Or “Please adjust the time base” appears, you need to adjust the time base to get the decoding result.
Page 56 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Baud rate] Select the baud rate. DPO6000 / MPO6000 series machines provide users with common baud rates as fol- lows: 1200 2400 4800 9600 14400 19200 38400 57600 115200 230400 380400 460400 Custom If the user finds the required baud rate in the table above, you can select Custom and...
Page 57 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Decode] Switch the decoding function. [Label position] The position where the decoded data is drawn on the screen (only available when the decode function is turned on). [Table] Data recording mode. Trigger level knob: The analog channel can modify the trigger level value.
Page 58 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 LIN decoding explanation: 1. Decoded data is displayed in hexadecimal; 2. The "Identifier" and "Checksum" display colors are purple, and the "Data" display color is orange; 3. When "?" Appears, adjust the time base to get the decoding result; 4.
Page 59 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 CAN trigger settings: Press the front panel Trig Menu button to open the trigger function menu. [Type] Select CAN and press V0 to confirm [Data source] Select CH1～CH4 or LA as the trigger source. Note: LA must be inserted when LA is used as the trigger source.
Page 60 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Data 2] Data when CAN is triggered [Data 3] Data when CAN is triggered [Data 4] Data when CAN is triggered [Idle level] The level value (level / high level) during the CAN frame interval. The de- fault setting is: low level.
Page 61: Spi Trigger [Optional]
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 12efabcd; data 1: 0 × a8; data 2: 0 × a9; data 3: 0 × aa; data 4: 0 × ab; Idle level: low; mode: normal. Adjust the trigger level. The trigger result is displayed as follows: CAN decoding explanation: 1.
Page 62: Trigger Settings
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Clock Source] Select CH1～CH4 or LA as the trigger source. Note: LA must be inserted when LA is used as the trigger source. [Slope] Select the required triggering edge (rising edge, falling edge, double edge) and press V0 to confirm.
Page 63 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 SPI decoding explanation: 1. The decoded data is displayed in hexadecimal; 2. The "Data" display color is purple; 3. When “?” Or “Please adjust the time base” appears, you need to adjust the time base to get the decoding result.
Page 64 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 10-bit addressing The 10-bit addressing and 7-bit addressing of the IIC bus are compatible, so that de- vices with 7-bit address and 10-bit address mode can be used on the same bus at the same time.
Page 65 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Mode] Select the acquisition mode (auto, normal) and press V0 to confirm. [Holdoff] Set the holdoff time. [Decode] Switch decoding function [Label position] The position where the decoded data is drawn on the screen (only available when the decode function is turned on).
Page 66: Protocol Decoding
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Protocol decoding Users can easily find errors, debug hardware, and accelerate development progress through protocol analysis. DPO6000 / MPO6000 series machines provide decoding of 5 common protocols, including UART, LIN, CAN, IIC and SPI. Note: Only when the user correctly configures the protocol trigger setting parameters can the correct decoding result be obtained.
Page 67 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 [Offset]: Set the vertical offset of the operation waveform relative to the time axis; [Scale]: Set the unit volt value in the vertical direction. The setting of the operation waveform in the horizontal direction is the same as that of the data source waveform.
Page 68 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 ◆ Represents noise characteristics in DC power supply ◆ Analysis of vibration Steps: 1. Press the Math button on the front panel to open the Math function menu. Turn the multi-function knob V0 to select “FFT” for fast Fourier transform operation. 2.
Page 69: Square Root
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 source waveform. [Auto Scale]: The system can automatically set to the best display state of the FFT waveform. Note: 1. Signals with DC components or deviations can cause errors or deviations in the FFT waveform components.
Page 70 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 displays the result. The operation steps are the same as those of the [Addition] operation. The square root operation is performed on a single data source. The units of the calculation waveform "offset" and "scale" are user-defined (represented by U).
Page 71 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Measurement Measurement parameter description DPO6000 / MPO6000 series oscilloscopes provide automatic measurement of 42 kinds of waveform parameters, and statistics and analysis functions of measurement results. In addition, users can also use the digital multimeter [DVM] to achieve more accurate frequency measurement.
Page 72 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 5. Positive pulse width [+ Width]: The time difference from the middle value of the threshold of the rising edge of the pulse to the middle value of the threshold of the next falling edge.
Page 73 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Threshold upper limit Threshold lower limit 3. Rise Pulse Count: The number of rising edges rising from below the lower threshold to above the upper threshold. Threshold upper limit Threshold upper limit 4.
Page 74 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Delay and phase parameters Signal source A Signal source B Period Data source A and data source B, that is, data source A and data source B in the measurement setting menu, can be any channel from CH1-CH4 or D0-D15, please re- fer to the description in "Measurement Settings"...
Page 75: Voltage Parameters
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 The calculation formula of the phase is: �� ° Phase = × 360 ��1 Among them, Phase means "phase ↑ A-> B" or "phase ↓ A-> B" Delay means "Delay FRR" or "Delay FFF" Period1 represents the period of digital data source source 1.
Page 76 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 ∑ �� Average = �� Among them, xi is the measurement result of the i-th point, and n is the number of measured points. 10. Root Mean Square [Vrms]: The root mean square value over the entire waveform or gated area.
Page 77: Measurement Statistics
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 large or too small). [Setting]: Set the data source A and data source B to perform the measurement of "Delay and Phase Parameters". [Gating]: User-defined measurement range, indicated by cursor A and cursor B. Measurement statistics Statistic and display the current value, average value, maximum value, minimum value, root mean square error and count value of the waveform parameters of the selected...
Page 78: Automatic Measurement
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 play results include the range. The range of the range is determined by the vertical scale and vertical offset of the channel. The range is the screen range. The upper spe- cific value is the measurement result, the middle is the range, and the lower is the fre- quency of the measurement.
Page 79: Cursor Measurement
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Data source: Set the channel to be set automatically: "Display only", "All". Display only: After the system performs the automatic setting, only the waveform of the opened channel with signal input is displayed; all: After the system performs the automatic set- ting, the waveforms of all channels with signal input are displayed.
Page 80 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Move Cursor: Select the cursor type and turn the multi-function knob V0 to move the cursor. The cursor can only be moved when the cursor menu is open. Bode plots (signal source series) The Bode plots are a semi-logarithmic plot of the transfer function versus frequency of a linear non-time-varying system.
Page 81 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Application of Bode plots When studying the frequency response of the amplifier circuit, because the frequency range of the signal is very wide (from a few hertz to several hundred megahertz or more), the amplification factor of the amplifier circuit is also very large (up to one million times).
Page 82: Digital Channel
Press the front panel Utility-> Bode plots-> Run. Digital channel The MPO6000 series has 4 analog channels and 16 digital channels; DPO6000 series oscilloscopes can be upgraded to use 16-channel digital channels by purchasing the LP104 digital probe. For digital channels, the oscilloscope compares the voltage from each sample to a preset logic threshold.
Page 83: Waveform Generator
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Set the digital channel thresholds type Press the front panel Utility-> Logic Analyzer-> Type [TTL (1.4 V)] 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) PECL (+3.7 V)
Page 84 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Wave Editor Software. This chapter explains how to use the signal source built into the oscilloscope. Since the functions and setting methods of the two / three channels of the signal source are the same, this chapter uses signal source 1 as an example.
Page 85 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Load impedance can set the load input impedance of the signal source. You can choose "High impedance" or "50Ω". 9. Align phase Press WaveGen-> Align phase on the front panel. After pressing “Align phase”, the signal source channel will be reconfigured so that it will output according to the set frequency and phase.
Page 86 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Menu: Import from CSV file: Import CSV file to the arbitrary waveform editor interface. Export as CSV file: Save the waveform data as a CSV file. Import from ARB file: Import ARB file to the arbitrary waveform editor interface. Export as ARB file: Save the waveform data as an ARB file.
Page 87 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 : Standard waveform shape. Use the numeric controls below the toolbar to draw standard waveforms according to the specified settings. : Number of cycles. The number of waveform cycles. This control is used in conjunction with standard waveform shape buttons.
Page 88: Amplitude Modulation
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 6. The GEN OUT BNC port will output a waveform. The user can also call up the .arb file in the USB storage device to output the waveform: Press the [Wave Gen] button on the front panel to enter the waveform generator func- tion menu.
Page 89: Frequency Modulation
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 4. Set the modulation frequency Press WaveGen-> Modulation-> Frequency on the front panel. 5. Set the modulation depth Press WaveGen-> Modulation-> Depth on the front panel. Frequency modulation Frequency modulation (FM), that is, the frequency of the carrier wave changes with the modulation wave.
Page 90: Pulse Width Modulation
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 5. Set the modulation frequency offset Press WaveGen-> Modulation-> Deviation on the front panel. Pulse Width modulation The modulated waveform of the Pulse Width Modulation (PWM) consists of a carrier wave and a modulation waveform, and the pulse width of the carrier wave changes with the instantaneous voltage of the modulation waveform.
Page 91: Pass / Fail Test
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Run the [Pass / Fail] test, turn on the "Output" and select "Output to DDS", the system will automatically turn on the "Burst" switch under the corresponding signal source, and the "Count" defaults to 1. According to the test results, the specified signal source out- puts a waveform with a set number of cycles.
Page 92 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 displayed on the rear panel [Aux Port] will disappear immediately. Off: When the oscilloscope detects a waveform that matches the set “Mode”, the test continues. The information displayed on the screen continues to update in real time. If “On”...
Page 93 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Trigger 4 Trigger n Trigger 3 Trigger 1 Trigger 2 Acquisition 1 Acquisition 2 Acquisition 3 Acquisition 4 Acquisition n ≤memory depth The MPO6000EDU oscilloscope is taken as an example. The total storage depth is 128Mpts.
Page 94: Display Control
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 corner of the screen. The data on the left of the figure is the specific frame displayed on the current screen. During playback, this value is constantly changing. The data on the right indicates the maximum number of frames that have been recorded.
Page 95: Screen Brightness
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 grid brightness. The default is 50% and the adjustable range is from 1% to 100%. Screen brightness Press Display-> Screen Brightness to set the screen brightness. Turn V0 to adjust the grid brightness.
Page 96: Store And Recall
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Store and recall Users can save the current oscilloscope settings, waveforms, reference waveforms, CSV files, and screen images in various formats in the internal flash memory or USB storage device. The reference waveform can be compared with other waveforms to de- termine the cause of the failure.
Page 97: Utility Function
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Recall the .ref reference waveform file from the internal or external memory of the oscil- loscope. Recall directory The recall path includes internal flash memory and external memory. The internal flash memory can recall up to 9 files (No.
Page 98: Trigger Output
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Start the upgrade process. 3. Use multi-function knob V0 to select the .upk file to be upgraded, and press multi- function knob V0 to select the upgrade file. 4. After the upgrade is completed, a prompt message will pop up on the screen to re- mind the user that the upgrade has been successful and the oscilloscope will restart automatically.
Page 99 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Network Wlan0 "Status", "DHCP", “Auto IP” select "On" to search for nearby wireless networks and display them in the "Scan Results" list on page 3. Use the V0 knob to select the wire- less network to be connected, press the button to confirm, or manually enter the wire- less network name, enter the password in "PSK", and press "OK".
Page 100: Touch Calibration
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 should be set in the starting IP and ending IP segments. The subnet mask and router settings are the same as the oscilloscope. Eth0 "Network" select "eth0" to set the network port communication to remotely control the oscilloscope.
Page 101: Remote Control
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Conditional Search The condition search function is used to search for the position that meets the trigger condition after the trigger point after the waveform trigger, and is identified by the lower triangle symbol.
Page 102 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 You can see the running IO software in the lower right corner of the screen after the in- stallation is complete. Double-click to open the IO software; you can see the connected device information displayed under My Instrument-USB.
Page 103 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Click "Interactive IO"; send any command, the computer and the oscilloscope get communication. Double-click to open the host computer software, click File-> Connection-> Connection Method, and select USB connection. At this time, the lower left corner of the host com- puter software is displayed as connected.
Page 104 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 At this point, the oscilloscope screen displays "Keyboard lock. Press the help key three times to unlock the keyboard." If you want to control the oscilloscope by pressing keys, you need to close the host computer software first and press Help three times to unlock the keyboard.
Page 105 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Double-click to open the IO software and select the recognized device.
Page 106 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Click "Interactive IO", send any command, the computer and the oscilloscope get communication.
Page 107 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Double-click to open the PC software, click File-> Connection-> Connection Method, and select LAN connection. At this time, the lower left corner of the host computer soft- ware is displayed as connected.
Page 108 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 At this point, the oscilloscope screen displays "Keyboard lock. Press the help key three times to unlock the keyboard." If you want to control the oscilloscope by pressing keys, you need to close the host computer software first and press Help three times to unlock the keyboard.
Page 109 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 The IO software "My instrument" COM list shows the connected devices, click "interac- tive IO", and send any command, the computer and the device get communication. Double-click to open the host computer software, click File-> Connection-> Communi- cation type, and select COM connection.
Page 110: Common Faults And Solutions
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 At this point, the oscilloscope screen displays "Keyboard lock. Press the help key three times to unlock the keyboard." If you want to control the oscilloscope by pressing keys, you need to close the host computer software first and press Help three times to unlock the keyboard.
Page 111: Technical Specifications
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 2. No waveform is displayed on the input signal screen after the oscilloscope is turned on. (1) Check whether the oscilloscope probe is correctly connected to the BNC connector of the signal input channel. (2) Check whether the channel switch is on (CH1～CH4 menu button).
Page 112 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 ➢ The oscilloscope must fall within the factory calibration period. All specifications are guaranteed to meet the requirements except those marked as "Typical." Oscilloscope technical specifications Acquire Acquisition meth- Normal, average, peak, high resolution 1 G Sa/s (single channel) Real-time 500 M Sa/s (dual channel)
Page 113 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 300V CAT II Analog channels 300VRMS (10X) Input voltage Digital channel-25V～25V Horizontal Waveform Interpo- Sine, Linear, Step lation Horizontal scale 2ns/div～100s/div 1,2,5 steps Time base mode Y-T, X-Y, Roll 1, 2 channel combination 1 XY X-Y number 3, 4 channels combined 1 XY Zero offset...
Page 114 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Selectable analog bandwidth limit, 20MHz typically frequency ≤10Hz at BNC response (-3db) DSO6084 DSO6104 DSO6204 Rise time at BNC, typical ≤4.4ns ≤1.8ns ＜3.5ns In the "normal" or "average" acquisition mode, the accuracy from 10V/div to 10mV/div is ±...
Page 115 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Dynamic range ± 5.0V + threshold Minimum voltage 500 mVpp swing Vertical resolution 1 bit Trigger Trigger level range ± 4 divisions from the center of the screen Trigger mode Auto, Normal, Single Holdoff range 8ns～10s Trigger level accu-...
Page 116 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Synchronize Scan line, line number, odd field, even field, all fields Scope trigger Scope Rising, falling Condition <, >, !=, = Data source CH1～CH4 Time range 8ns～10s Overtime trigger CH1～CH4, D1.0～D1.3, Data source D2.0～D2.3, D3.0～D3.3,...
Page 117 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 D2.0～D2.3, D3.0～D3.3, D4.0～D4.3 Time range 8ns～10s Delay trigger Edge type Rising, falling CH1～CH4, D1.0～D1.3 Data source D2.0～D2.3, D3.0～D3.3, D4.0～D4.3 Condition <, >, !=, = Time range 8ns～10s Setup/hold trigger Edge type Rising, falling CH1～CH4, D1.0～D1.3...
Page 118 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 CH1～CH4, D1.0～D1.3 Data source D2.0～D2.3, (RX/TX) D3.0～D3.3, D4.0～D4.3 Data format Data length 1 byte Data bits 5 bit, 6 bit, 7 bit, 8 bit Parity None, Odd, Even Idle level high, low Baud rate 110/300/600/1200/2400/4800/9600/14400/19200/38400/57600/115200/23 0400/380400/460400 bit/s...
Page 119 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 D2.0～D2.3, D3.0～D3.3, D4.0～D4.3 Data format Baud rate 10000, 20000, 33300, 500000, 62500, 83300, 100000, 125000, 250000, 500000, 800000, 1000000 (optional) Baud rate (cus- 5kbit/s～1Mbit/s tom) SPI trigger CH1～CH4, D1.0～D1.3 Data source D2.0～D2.3, D3.0～D3.3, D4.0～D4.3...
Page 120 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 urement maximum, rise time, fall time, positive pulse width, negative pulse width, bottom value, top value, middle value, amplitude, Overshoot, preshoot, positive duty cycle, negative duty cycle, cycle average, cycle root mean square, falling edge overshoot, rising edge preshoot, BWidth, FRF, FFR, LRR, LRF, LFR, LFF, FRR , FFF, maximum time, minimum time, positive phase difference, negative phase difference, variance, positive pulse...
Page 121 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Aux trigger output / pass failure (MPO6000EDU model Aux trigger output / pass failure Optional interface UART HDMI Arbitrary signal generator (with signal source series) 2/3 channels Number of chan- nels Arb1, Arb2, Arb3, Arb4 Sampling rate 200MSa/s...
Page 122: General Technical Specifications
DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Range 1uHz~75MHz Frequency Accuracy (less than 10 kHz) 50 ppm (more than 10 kHz) Resolution 0.1 Hz or 4 bits, whichever is greater 10mV~7Vpp (high impedance) Amplitude Output range 5mV~3.5Vpp(50Ω) ±7 V, high impedance Range ±3.5 V，50 Ω...
Page 123 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Cooling method Convection Altitude with and without operation 3000m (10,000 feet) 0.31 g RMS from 50Hz to 500Hz, Random vibration 10 minutes per axis Mechanical 2.46g RMS from 5Hz to 500Hz, when not operating shock 10 minutes per axis...
Page 124 DPO6000, MPO6000 Series Digital Fluorescent Oscilloscope Product Manual V1.3 Appendix B: Hazardous substances or elements contained in the product Toxic or harmful substances or elements 1 Part Name 2 Cr(Vi) PBDE Product shell, chas- Display module Circuit board com- ponents Power components Wire and cable as- sembly...

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