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Hantek DPO6000 Series Manual

Hantek DPO6000 Series Manual

Digital phosphor oscilloscope
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DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1
DPO6000,MPO6000 Series
Digital Phosphor Oscilloscope
V 1.1

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Summary of Contents for Hantek DPO6000 Series

  • Page 1 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope V 1.1...
  • Page 2 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1...

  • Page 3: 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 provided 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 by yourself before using this product.If you require the cooperation of products,...

  • Page 4: Technical Support

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 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 distributor of Qingdao Hantek Electronic Co., Ltd.;...
  • Page 5 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Summary of general safety matters 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.

  • Page 6: Measurement Category

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Do Not Operate With Suspected Failures. If you suspect that any damage may occur to the instrument, have it inspected by the qualified maintenance personnel. Do Not Operate in Wet Conditions. To avoid short circuit inside the instrument or electric shock, never operate the instrument in a humid environment.

  • Page 7: Ventilation Requirement

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 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. Examples are measurements on circuits not derived from MAINS, and specially protected (internal) MAINS derived circuits.
  • Page 8 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Do not store or leave the instrument where its LCD may be exposed to direct sunlight for long periods of time. CAUTION To avoid damage to the oscilloscope or probe, do not expose it to fog,liquids or solvent.
  • Page 9 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 DPO6000Z/MPO6000 Series Overview DPO6000/MPO6000 Series is a Oscilloscope featuring extremely high memory depth, wide dynamic range, clear display,high waveform capture rate and as many as 16 kinds of triggering functions, 5 kinds of serial decoding functions it is a useful commissioning instrument for various fields such as communication,aerospace, defense, embedded systems, computers, research and education.
  • Page 10 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 This list of product models MPO6000/DPO6000 series include the following modes. Unless otherwise specified, this manual takes MPO6204EDU as an example to illustrate the functions and operation methods of MPO6000/DPO6000 series. Analog Signal...

  • Page 11: Quick Start

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 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. 1.1.General Inspection 1.1.1.Inspect the packaging If the packaging or foam plastic cushioning has been damaged, do not dispose it until the machine and accessories have passed both electrical and mechanical tests.
  • Page 12 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 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. To Adjust the Supporting Legs 1.3.2.To Connect to Power Cord According to your Demand The power requirements of the oscilloscope are AC 100-120 V, 50/60/400 Hz or AC 100-240 V, 50/60Hz,50W max.
  • Page 13 1X and 10X.When the Attenuation switch is set to 1X, the probe limits the bandwidth of the oscilloscope to 6MHz. To use the full bandwidth of the oscilloscope, be sure to set the switch to 10X. 1.3.5.To Connect the Probe DPO6000 series oscilloscope standard equipped passive probe,MPO6000 series standard equipped passive probe and digital probe.
  • Page 14 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 1.Set the Probe option attenuation in the channel menu to 10X. Set the switch on the probe to 10X and connect the probe to Channel 1 on the oscilloscope. If you use the probe hook-tip, ensure it is firmly inserted onto the probe.
  • Page 15 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 To turn on/off the menu Signal source 1 output channel Signal source function(only the oscilloscopes with signal source CH1~CH4 signal input channel function) Multifunction knob Signal source 2 output channel LA1~LA4 signal input channel The functions buttons of menu (only MPO series oscilloscopes) Probe compensation signal...
  • Page 16 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 You can connect the oscilloscope to a PictBridge printer or PC via this interface.When a PC is connected, users can send SCPI commands using the PC software or control the oscilloscope via user-defined programming. When a printer is connected, users can print the waveform displayed on the screen using the printer.

  • Page 17: Front Panel Function Overview

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 2.Front Panel Function Overview 2.1.Main keys introduction 2.1.1.HORIZONTAL Horizontal Offset : 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,waveform of all the channels would move left or right and the horizontal position message at the upper-right corner of the screen would change accordingly.
  • Page 18 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Signal Source key: Press this key to enter the source setting interface to set the output signal waveform and parameters Note: This function is only applicable to digital oscilloscopes with signal source function. 2.1.4.TRIGGER Trigger level: modify the trigger level.
  • Page 19 2.2.User Interface This section will let you understand the front operating panel of this series of digital oscilloscopes before using them. 1.Hantek brand Open in touch screen is to display QR code,scan to enter download help page quickly. 2.Trigger Status: Auto:The oscilloscopes work in auto mode,will acquire waveform without trigger.
  • Page 20 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 READY: All pre-trigger data has been acquired and the oscilloscope is ready to accept the trigger. TD:The oscilloscope has been triggered. Roll:In roll mode,the oscilloscopes will acquire and display waveform data continuously. Stop:The oscilloscopes will stop acquiring waveform data. ARM:Pre-trigger state.
  • Page 21 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 If the icon is lit or activated,the Gen2 channel is turned on. 17.Display Gen1 status(some modes) If the icon is lit or activated,the Gen1 channel is turned on. 18.Display CH4 status If the icon is lit or activated,the channel 4 is turned on. 19.Display CH3 status If the icon is lit or activated,the channel 3 is turned on.

  • Page 22: To Set The Sample System

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 3.To Set the Sample System To understand the waveform acquisition system of oscilloscope, it is necessary to understand the sampling principle first and find out the relationship between bandwidth, sampling rate and storage depth. 3.1.Sampling principle According to Nyquist sampling principle, in order to restore the analog signal without distortion, the sampling frequency should be more than twice of the highest frequency in...
  • Page 23 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 3.2.Sample rate and memory depth 3.2.1.Sample rate The highest sample rate of DPO6000/MPO6000 is 1GSa/s.In the actual use of oscilloscopes, the sample rate is determined by the current horizontal timebase gear and memory depth. The sample rate can be changed by adjusting the horizontal timebase through the horizontal gear knob, or by changing the memory depth, and the sample rate value can be changed in real time and displayed in the status bar in the upper left corner of the screen.
  • Page 24 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 3.3.2.Step interpolation: Insert the previous sample point value between adjacent samples.This interpolation algorithm is the same as the normal actual sampling of oscilloscope ADC, and adopts the sampling and holding method to interpolate data, so as to improve the signal sampling rate.For example, interpolation of digital waveform.

  • Page 25: Operational Control

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Through the comparison of the acquisition signal waveform by above three interpolation methods, it can be clearly seen, These three interpolation methods, sine interpolation method is relatively smooth fitting signal waveform,and relatively truly reflecting the signal waveform, therefore, when we do signal interpolation, we use sine interpolation by default.
  • Page 26 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 In this mode, the oscilloscope samples the signal at equal time interval to rebuild the waveform. For most of the waveform, the best display effect can be obtained using this mode. 3.5.2.Peak In this mode, the oscilloscope acquires the maximum and minimum values of the signal within the sample interval to get the envelope of the signal or the narrow pulse of the signal that might be lost.

  • Page 27: Sample Rate

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Example of waveform after 1024 average times: 3.5.4.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 waveform on the screen.

  • Page 28: Horizontal System

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 4.Horizontal System 4.1.Time Base Mode Press utility-acquisition-display mode menu at the front panel,F2 display mode control menu and users can select the time base mode they need. DPO6000/MPO6000 series oscilloscopes provide 3 kinds of time base modes:YT mode,XY mode,roll mode(The default is YT mode).
  • Page 29 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 4.1.2.XY Mode In this mode, the oscilloscope changes the two channels from voltage-time display mode to voltage-voltage display mode, where,the X-axis and Y-axis combination of XY display mode can be CH1-CH2 or CH3-CH4.The phase deviation between two signals with the same frequency can be easily measured via Lissajous method.
  • Page 30 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 deviation angle obtained should be within quadrant II and III, namely within (π/2 to π) or (π to 3π/2). The XY function can be used to measure the phase deviation occurred when the signal under test passes through a circuit network. Connect the oscilloscope to the circuit to monitor the input and output signals of the circuit.
  • Page 31 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 4.1.2.2.XY dual-window display mode 4.1.3.ROLL mode In this mode, the waveform scrolls from right to left to update the display. The range of horizontal scale adjustment is from 100ms to 100s. Note: When Roll mode is enabled, the waveform "horizontal position" , ‘‘Dual-window mode’’,"Protocol Decoding", "Pass/Fail Test", "Segment acquisition", "To Set the Persistence Time","To Trigger the Oscilloscope"...

  • Page 32: To Set The Vertical System

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 5.To Set the Vertical System 5.1.To Enable the Analog Channel DPO6000/MPO6000 series provide 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 33: Probe Ratio

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 waveform invert is turned off waveform invert is turned on 5.5.Probe Ratio DPO6000/MPO6000 series allow user to set the probe attenuation ratio manually. Press CH1 Probe and use to select the desired probe ratio. The probe ratio values available are as shown in the table below.

  • Page 34: Delay Calibration Of The Analog Channel

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 100mV/div……10V/div. Fine adjustment: further adjust the vertical scale within a relatively smaller range to improve vertical resolution. If the amplitude of the input waveform is a little bit greater than the full scale under the current scale and the amplitude would be a little bit lower if the next scale is used, fine adjustment can be used to improve the amplitude of waveform display to view signal details.

  • Page 35: Trigger System

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 6.Trigger System Trigger can be understood as an event (or action);For example, when taking a photo, the action of pressing the shutter is the trigger, which is an event that starts the camera to record the image.

  • Page 36: Trigger Holdoff

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Normal Mode Updates the displayed waveform only when the oscilloscope detects a valid trigger condition. Before this update, the oscilloscope still displays the old waveform. This mode shall be used when you want to only view the effectively triggered waveform. In this mode, the oscilloscope displays waveform only after the first trigger.
  • Page 37 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Press【Trig Menu】on the front panel to turn on the trigger function menu. 【type】select Edge and press V0 to confirm. source】select CH1~CH4 or LA to be trigger source 【Data Note:When use LA as trigger source,LA must be inserted. 【Slope】select desired trigger edges(rising edge、falling edge、double edge), press V0 to confirm.
  • Page 38 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 【50%】set the trigger level as the vertical central point of the peak-peak value of the trigger signal.Trigger level value is displayed on the top right corner. 【Mode】select acquisition mode(auto、normal),press V0 to confirm. 【Holdoff】set holdoff time. Trigger level knob:analog channel can modify the trigger level value.
  • Page 39 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Press 【Trig Menu】on the frontal panel to turn on trigger function menu. 【Type】select slope and press V0 to confirm. source】select CH1~CH4 to be trigger source. 【Data 【Slope】select the desired trigger edge(rising edge or falling edge ) 【Level】high/low level setting function,press this softkey again to select low level(V2)or high level(V1),then rotate trigger level knob to adjust the vertical position of high(low) level to obtain the desired slope time T.The corresponding displacement information changes in...
  • Page 40 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 If the high level and low level are both in the scope of the waveform,then the waveform triggers on the rising or falling edge at the same time. If the high level is in the scope of the waveform,the low level isn’t in the scope of the waveform,then the waveform only triggers on the rising edge.
  • Page 41 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 【Holdoff】set the holdoff time. Trigger level knob:press channel button first then remove trigger level knob to modify the trigger level value of the corresponding channel. Trigger symbol moves up and down according to the rotation of the knob.Rotate the trigger level knob to adjust the trigger level to acquire the stable trigger.
  • Page 42 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Set under AMP trigger: Press 【Trig Menu】on the frontal panel to turn on trigger function menu. 【Type】select Under Amp and press V0 to confirm. source】select CH1~CH4 to be trigger source. 【Data 【Polarity】select the positive polarity or negative polarity of the trigger. 【When】select the desired slope conditions,and press V0 to confirm.
  • Page 43 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Digital channel:can change trigger threshold of the digital channel by setting the threshold voltage. 6.5.11.Setup/Hold Trigger In setup/hold trigger, you need to set the data signal line and clock signal line. The setup time starts when the data signal passes the trigger level and ends at the coming of the specified clock edge;...
  • Page 44 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 and 1~2 bits stop bit. The format is shown in the figure above.DPO6000/MPO6000 series oscilloscope can be triggered when detecting the frame start and stop bit of UART signal, error frame, check error or specified data. Press 【Trig Menu】on the frontal panel to enter trigger function menu.
  • Page 45 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Trigger setting 2: Data source:CH3;Baud rate:19200;When:Data;Free level:high;Parity check:none;Data number:8;Data:0×55.Adjust the trigger level, and the trigger result is shown as follows: UART decoding interpretation: 1. Decoded data is displayed in hexadecimal; 2. Display color of decoded data is purple; 3.
  • Page 46 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 LIN trigger can be triggered at the rising edge of the synchronization interrupt exit of the LIN single-line bus signal (which marks the beginning of the message frame), frame ID, or frame ID and data.LIN signal message frame is shown as below: Press 【Trig Menu】...
  • Page 47 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Trigger setting 2: Data source:CH3;Baud rate:19200;When:identifier;Free level:high;Adjust the trigger level, and the trigger result is shown as follows: LIN decoding interpretation: 1. Decoded data is displayed in hexadecimal; 2. The display color of "identifier" and "checksum" is purple, and the display color of "data" is orange;...
  • Page 48 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 has become the standard bus of automotive computer control system and embedded industrial control LAN, and has J1939 protocol designed for large trucks and heavy machinery vehicles with CAN as the underlying protocol. CAN trigger setting: Press 【Trig Menu】...
  • Page 49 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Digital channel:can change trigger threshold of the digital channel by setting the threshold voltage. Trigger setting1: Data source:CH3;Baud rate:1000000;When:start bit;Free level:low.Adjust the trigger level, and the trigger result is shown as follows: Trigger setting 2: Data source: CH3;Baud rate:1000000;When:data frames and data;Identifier:12efabcd;...
  • Page 50 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 6.5.15.SPI Trigger(optional) SPI is the short of Serial Peripheral Interface.It is a synchronous serial interface technology launched by Motorola corporation, is a high-speed, full duplex, synchronous communication bus. In SPI trigger, when a timeout condition is met, the oscilloscope will trigger when the specified data is found.
  • Page 51 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 SPI decoding interpretation: 1. Decoded data is displayed in hexadecimal; 2. The display color of "data" is purple; 3. When "?"or"please adjust the time base"appears ,the time base needs to be adjusted to get the decoded result.
  • Page 52 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Press 【Trig Menu】 on the frontal panel to turn on the trigger function menu. 【Type】select IIC and press V0 to confirm. width】select 7-bit or 10-bit. 【Address source】select CH1~CH4 or LA to be trigger source. 【Clock Note:when use LA to be trigger source,LA must be inserted.

  • Page 53: Protocol Decoding

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 IIC decoding interpretation: 1. Decoded data is displayed in hexadecimal; 2. The display colors of "address" and "data" are purple;"W" means write operation, "R" means read operation, "D" means decode data, "~A" means no confirmation bit; 3.

  • Page 54: Math Operation

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 7.Math Operation 7.1.Addition Add the waveform voltage values of signal source 1 and 2 point by point and display the results. Operating steps 1.press 【Math】 on the frontal panel to enter math function menu. 2.Press the soft keys of source 1 and source 2, respectively, and rotate the multifunctional knob V0 to select the source of Math operation.All four analog channels can be used as source 1 and source 2.
  • Page 55 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 transform. FFT is used to transform time domain signals to frequency components (frequency spectrum). Select FFT function and plotted FFT spectrum shows the relationship between dB V and frequency.The horizontal reading changes from time to frequency (Hz) and the vertical reading from V to dB.The FFT operations can be used for the following purposes: Measure harmonic components and distortion in the system.

  • Page 56: Square Root

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 7.6.Integral Calculate the integral of the selected source. For example,you can use integral to measure the pulse energy or the area under a waveform. 1. Press 【Math】 on the frontal panel to turn on math function menu. 2.
  • Page 57 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 8.Measurement 8.1.Measurement parameter specification DPO6000/MPO6000 series oscilloscopes provide auto measurements of 42 waveform parameters and the statistics and analysis of the measurement results. What’s more, you can also use the digital multimeter(DVM) to realize more precise frequency measurement. 8.1.1.Time parameter 1.Period[Pk-Pk]:defined as the time between the middle threshold points of two consecutive, like-polarity edges.
  • Page 58 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 limit to below the threshold lower limit. 25.[Rise Pulse Count]:the number of rising edges that rise from below the threshold lower limit to above the threshold upper limit. 26.[Fall Pulse Count]:the number of falling edges that fall from above the threshold upper limit to below the threshold lower limit.
  • Page 59 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Source A and source B, namely 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". 1.FRR[First Delay Rise Rise]: ↑A→↑B:the time difference between the first rising edges of source A and source B.
  • Page 60 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 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. 3.Pk-Pk:the voltage value from the highest point to the lowest point of the waveform. Peak-peak value=maximum value –...

  • Page 61: Auto Measurement

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 waveform rapidly and intuitively,Simple measurement can be made by the division and scale coefficient of the grid. For example, a simple measurement can be made by calculating the relevant primary and secondary scales and multiplying by the proportionality coefficient. If calculated between the maximum and minimum of the waveform there are 6 main vertical scale divisions, and given that the scaling coefficient is 50mV/ min, the peak-to- peak voltage can be calculated as follows:...

  • Page 62: Cursor Measurement

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 root mean square error of up to 4 open measurement items. 1. Press Meas on the frontal panel to enter measurement function menu. 2.press statistic softkey and select open. All Measurement All measurement could measure all the parameters of the current signal source and display the results on the screen.
  • Page 63 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Press Meas→ DVM→types【AC RMS,DC RMS,DC】ON the frontal panel. After DVM measurement is turned on, the following figure is displayed.DVM display results include the range, which is determined by the vertical tap position and vertical offset of the channel.
  • Page 64 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 9.Baud diagram(the modes with signal source) The bode diagram is a semi-log coordinate graph of the transfer function of a linear time-invariant system with respect to frequency, its horizontal axis is frequency,The vertical axis is represented on a log scale. The frequency response of the system can be observed by using the bode diagram.Also known as amplitude frequency response and phase frequency response curve graph.A bode diagram is usually a combination of two diagrams,An amplitude-frequency diagram shows the change in the decibel value of the...
  • Page 65 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 9.3.Enable baud diagram Press Utility→ DVM→enable【on,off】on the frontal panel. 9.4.Source of the baud diagram setting Press Utility→ baud diagram→setting on the frontal panel The following settings can be completed by source of the baud diagram setting. Input source can set CH1-CH4.

  • Page 66: Digital Channel

    10.Digital Channel MPO 6000 series oscilloscopes provide 4 analog channels as well as 16 digital channels. DPO6000 series oscilloscopes can be upgraded to use 16 digital channels by buying LP104 digital probe. For the digital channels, the oscilloscope compares the voltages acquired in each sample with the preset logic threshold.
  • Page 67 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 PECL(+3.7 V) LVDS(+1.2 V) User defined【-7V~7V】on the frontal panel. - 65 -...

  • Page 68: Waveform Generator

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 11.Waveform generator DPO6000C/ MPO6000D built-in 2 channels(MPO6000EDU built-in 3 channels ),25MHZ signal source combines the signal source and oscilloscope,which greatly facilitates the engineers who need to use both signal source and oscilloscope.The built-in signal source can output 13 kinds of basic waveform, including sine, square, pulse, triangle,noise,DC, sinc,exponential,half-distortion, Lorentz, dual tone and multi-frequency, Gauss, Ecg, meanwhile provides 4 arbitrary waveform.Users can edit,load and output the arbitrary...
  • Page 69 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 The channels of the signal source will be re-configured after pressing Align phase 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. The oscilloscope acquires the waveform of the two channels and displays the waveform stably.
  • Page 70 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Press WaveGen → impedance on the frontal panel to set the load input impedance of the signal generator. It can be set to "High Z" or "50Ω". 10.Align phase Press WaveGen →Align phase on the frontal panel. The channels of the signal source will be re-configured after pressing Align phase to output according to the preset frequency and phase.
  • Page 71 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 8.Symmetry Symmetry only applies to triangular waves.Symmetry represents the amount of time that the triangular wave is rising in each period. 9.Set the load impedance Press WaveGen → impedance on the frontal panel Press impedance softkey to set the load input impedance of the signal generator.
  • Page 72 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Press impedance softkey to set the load input impedance of the signal generator. It can be set to "High Z" or "50Ω". 7.Align phase Press WaveGen →Align phase on the frontal panel . The channels of the signal source will be re-configured after pressing Align phase 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 73 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 10.Set the load impedance Press WaveGen → impedance on the frontal panel. Press impedance softkey to set the load input impedance of the signal generator. It can be set to "High Z" or "50Ω". 11.Align phase Press WaveGen →Align phase on the frontal panel .
  • Page 74 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 2.Select the data source Press WaveGen→ data source. 3.Turn on/off the channel of signal source Press WaveGen-→enable on the frontal panel. 4.Set the frequency Press WaveGen →frequency on the frontal panel. Note: For different waveform, the frequency ranges are different. See oscilloscope technical specifications for details.
  • Page 75 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 1.Select waveform Press WaveGen→ waveform→ index on the frontal panel. 2.Select the data source Press WaveGen→ data source. 3.Turn on/off the channel of signal source Press WaveGen-→enable on the frontal panel. 4.Set the frequency Press WaveGen →frequency on the frontal panel.
  • Page 76 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 For detailed introduction of burst function, please refer to the section "Burst". 11.1.9.To Output Semi-distortion 1.Select waveform Press WaveGen→ waveform→ semi-distortion on the frontal panel. 2.Select the data source Press WaveGen→ data source. 3.Turn on/off the channel of signal source Press WaveGen-→enable on the frontal panel.
  • Page 77 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 11.Burst Press WaveGen →Burst on the frontal panel. For detailed introduction of burst function, please refer to the section "Burst". 11.1.10.To Output Lorentz 1.Select waveform Press WaveGen→ waveform→ lorentz on the frontal panel. 2.Select the data source Press WaveGen→...
  • Page 78 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 "Modulation". Note:when select the waveform to be ‘‘pulse’’ ‘‘DC’’ or ‘‘noise’’,there is no such setting. 11.Burst Press WaveGen →Burst on the frontal panel. For detailed introduction of burst function, please refer to the section "Burst". 11.1.11.To Output Dual tone multiple frequency 1.Select dual tone multiple frequency Press WaveGen→...
  • Page 79 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Press WaveGen → Modulation on the frontal panel to enter the modulation setting interface.For detailed introduction of the modulation function, please refer to the section "Modulation". Note:when select the waveform to be ‘‘pulse’’ ‘‘DC’’ or ‘‘noise’’,there is no such setting. 11.Burst Press WaveGen →Burst on the frontal panel.
  • Page 80 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 10.Modulation Press WaveGen → Modulation on the frontal panel to enter the modulation setting interface.For detailed introduction of the modulation function, please refer to the section "Modulation". Note:when select the waveform to be ‘‘pulse’’ ‘‘DC’’ or ‘‘noise’’,there is no such setting. 11.Burst Press WaveGen →Burst on the frontal panel.
  • Page 81 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 between the two waveform automatically. 10.Modulation Press WaveGen → Modulation on the frontal panel to enter the modulation setting interface.For detailed introduction of the modulation function, please refer to the section "Modulation". Note:when select the waveform to be ‘‘pulse’’ ‘‘DC’’ or ‘‘noise’’,there is no such setting. 11.Burst Press WaveGen →Burst on the frontal panel.
  • Page 82 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 two waveform is changed. At this point, press AlignPhase softkey and the waveform shown on the oscilloscope will restore to the phase deviation of the current phase between the two waveform automatically. 9.Recall Press WaveGen →...
  • Page 83 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 with the Standard waveform shapes buttons. Select one of the standard waveform shapes and then set the number of cycles, and it will draw the requested number of cycles of the waveform. : Minimum. When one of the Standard waveform shapes buttons is pressed, this control sets the minimum signal level.
  • Page 84 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 4. The waveform will output from GEN OUT BNC port. - 82 -...
  • Page 85 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 12.Modulation The built-in signal generator of DPO6000/MPO6000 series oscilloscope supports AM,FM,PM.PWM modulation function. The modulated waveform consists of the carrier waveform and modulating waveform. The carrier waveform is the waveform output from the signal generator and the modulating signal can be the built-in sine, square, sawtooth waveform.
  • Page 86 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 3.Set the Modulating Waveform Press WaveGen→ modulation→waveform sin,square,triangular. 4.Set the Modulation Frequency Press WaveGen→ modulation→modulation frequency 5.Set the Modulation Offset Press WaveGen→ modulation→modulation offset 12.4.Duty Modulation Modulated waveform of PWM(Pulse Width Modulation)consists of carrier waveform and modulation waveform.
  • Page 87 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 13.Burst DPO6000/MPO6000 can output waveform with a specified number of cycles from a single channel or two channels at the same time. When DPO6000/MPO6000 trigger,manual trigger source control pulse string output. 1.Enable Burst Function Press WaveGen→...

  • Page 88: Pass/Fail Test

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 14.Pass/Fail Test The template test function is mainly used for the evaluation of signal quality, by setting a template in the oscilloscope to test the waveform in real time, count the number of test times, the number of failed data frames, the failure rate, the test time and so on in the specified test conditions, and display test results and output test data.
  • Page 89 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 results and outputs a pulse.And the beeper sounds (not related to the on/off state of the sound). Fail ring:when a failed waveform is detected, the instrument displays the statistic results and outputs a pulse and the beeper sounds (not related to the on/off state of the sound).
  • Page 90 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 15.Segmentation Acquisition When triggering several times in the acquisition process of the segmented storage, the data obtained from the sampling of each trigger is stored in the storage space of each segment. 15.1.The principle of segmentation storage. As shown in the figure below,the data acquired when the first trigger occurs is stored in the first segment storage space, and the data acquired when the second trigger occurs is stored in the second segment storage space.
  • Page 91 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 16.Historical Waveform When you start to use the oscilloscope, the oscilloscope will automatically acquire and store data, can acquire up to 8000 frames. Open the historical waveform can observe the waveform stored before, and measure and analyze them.It is also possible to acquire individual details or time-varying waveform at different speeds by setting time intervals and waveform navigation.

  • Page 92: Display Control

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 17.Display Control You can set the type, persistence time,brightness of waveform,the grid type and grid brightness of the screen display as well as the color display type of waveform. 17.1.To Select the Display Type Press Display →display type to set the waveform display mode to "Vectors"...
  • Page 93 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Color temperature function uses color changes to reflect the size of frequency of the waveform. The higher the frequency of the waveform, the warmer the color.The lower the frequency, the colder the color. Below is a gradient of cool and warm colors. Press Display on the frontal panel →...

  • Page 94: Store And Recall

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 18.Store and Recall Users can save the current settings, reference waveform, CSV file,and screen image of the oscilloscope in internal memory or external USB storage device in various formats. The saved settings, waveform,reference waveform and so on can be recalled when the USB storage device is connected to USB HOST port on the frontal panel.The series oscilloscope supports the storage of settings, waveform,reference waveform, CSV file,the default is setting.

  • Page 95: Auxiliary Function Setting

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 19.Auxiliary Function Setting 19.1.Language This oscilloscope supports menus in multiple languages as well as provides Chinese and English help information, prompt messages and interface display.Press Utility  Language,rotate V0 to select the desired language, press V0 to select the language. 19.2.The switch of touch screen(not available for the machine without touch screen function) This series oscilloscope supports to open and close the touch screen manually,press...

  • Page 96: System Settings

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 current capture rate of the oscilloscope at each trigger, Connect this signal to a waveform display device, measure the signal frequency and the measurement result equals the current acquisition rate. Pass/Fail After this type is selected, the oscilloscope will output a pulse signal when the waveform that satisfied with the pass/fail rules and output mode is detected, transferring this signal to other control systems for convenient viewing of test results.

  • Page 97: Remote Control

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 20.Remote control Remote control of the oscilloscope mainly has the following three ways: 1. USB control 2. Control by LAN 3. Via serial port control 20.1.USB control Connect the USB Device interface of the back panel of the oscilloscope with the USB Host interface of the computer with USB data cable.The USB connected icon is displayed in the lower right corner of the oscilloscope screen.
  • Page 98 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Double-click to open the IO program, you can see the connected oscilloscope name displayed below My instrument-usb. The figure shows the connected state of USB device. Click on the "interactive IO",a command is sent arbitrarily, and the computer communicates with the device. Double-click to open the host computer software, click file - connection - connection mode, and select the current connection mode.At this point, the lower left corner of the upper computer software shows the connected state.
  • Page 99 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 20.2.Control by LAN Connect the network port of the back panel of the oscilloscope to the USB Host interface of the computer with the network cable.The lower right corner of the oscilloscope screen shows the connected network icon.
  • Page 100 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Set oscilloscope network parameters: [Utility] -- system Settings -- network, and confirm after setting corresponding IP address, subnet mask, gateway and DNS. Open IO software and select the recognized device. Open the upper computer software and select the corresponding connection mode. - 98 -...
  • Page 101 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 20.3.Via serial port control The network port end of the serial port line is connected to the network port of the back panel of the oscilloscope, and the serial port end is connected to the computer. Open IO program, select "add device"...

  • Page 102: Common Failures And Troubleshooting

    2) Check the power on/off button to ensure it has been pushed; 3) Then restart the oscilloscope. If it still does not work correctly, please contact the local distributer or contact Hantek technology support department directly. 2.There is no display of waveform on the screen when the oscilloscope is turned 1) Check the probe to assure its proper connection to the input BNC;...
  • Page 103 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 LEVEL knob to reset the trigger level back to the center of the signal; 3) Check the trigger mode to confirm it is a right choice for the input signal. The default trigger mode is edge trigger. However, it is not suitable for all kinds of input signals. - 101 -...

  • Page 104: Technical Specifications

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Technical Specifications All specifications apply to the DPO6000/MPO6000 series oscilloscopes,to see the details in the last part of this chapter. Before checking an oscilloscope see if it complies with these specifications, make sure it meets the following conditions: ...
  • Page 105 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 4 analog channels Note:data channels can’t be opened 3 analog channels Note:digital channel LA1/LA2/LA3/LA4/LA1LA2/LA3/LA4 2 analog channels Channel quantity Note:digital channels infinitize 1 analog channel Note:digital channels infinitize 0 analog channel Note:digital channels infinitize DC、AC or GND Input coupling Note:digital channels don’t support...
  • Page 106 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 2ns/div~100s/div 1,2,5 step by step Y-T、X-Y、Roll Time base mode X-Y number Channel 1,2 1 XY channel、channel3 4 1 XY channel Zero offset ±0.5 div× minimum time base gear Sample Rate and ±25ppm Delay Time Accuracy Clock drifting ≤±5 ppm/year single,acquisition mode...
  • Page 107 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 DC offset accuracy ±0.1 div±2 mV±1% offset value DC maximum bandwidth:>40 dB Theisolationofchannels Note: Bandwidth reduced to 6MHz when using a 1X probe. Vertical (digital channels)(used MPO6000DMPO/6000EDU DPO6000B/DPO6000C after buying digital probes LP104) Threshold value 4 channels in 1 group adjustable threshold value TTL(1.4 V)
  • Page 108 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 D3.0~D3.3, D4.0~D4.3 Pulse width trigger Polarity Positive polarity,negative polarity Condition(When) <, >, !=, = CH1~CH4, D1.0~D1.3, Signal source D2.0~D2.3, D3.0~D3.3, D4.0~D4.3 Pulse width range 8ns ~ 10s Video trigger Signal standard NTSC, PAL Signal source CH1~CH4 Synchronization...
  • Page 109 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Signal source CH1~CH4,LA1~LA4 Pattern trigger Pattern 0:low level;1:high level;X:ignore; Level(signal source) CH1~CH4 Interval trigger Slope rise,fall condition(When) <, >, !=, = CH1~CH4, D1.0~D1.3, Signal source D2.0~D2.3, D3.0~D3.3, D4.0~D4.3 Time range 8ns ~ 10s Delay trigger Edge type Rising edge,falling edge...
  • Page 110 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 condition(When) start、stop、data、odd-even check、reception error CH1~CH4, D1.0~D1.3, Signal D2.0~D2.3, source(RX/TX) D3.0~D3.3, D4.0~D4.3 Data format Hex(hexadecimal) Data length 1 byte Data bit width 5 bit, 6 bit, 7 bit, 8 bit Odd-even check none、odd、even Free level high、low 110/300/600/1200/2400/4800/9600/14400/19200/38400/57600/ Baud rate (optional)
  • Page 111 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Start bit、 remote frame ID、 data frame ID、 frame ID、 remote frame condition(When) data、data frame data、wrong frame、all errors、answer error、 overload frame Signal source CH1~CH4 Data format Hex(hexadecimal) 10000, 20000, 33300, 500000, 62500, 83300, 100000, 125000, Baud rate(optional) 250000, 500000, 800000, 1000000 Baud...
  • Page 112 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Reciprocal of △T,in Hertz(1/△T) frequency、 period、 mean、 peak-to-peak、 RMS、 minimum、 mixmum、 rising time、falling time、+ width、- width、base、top、middle、 Auto amplitude、overshoot、preshoot、rising edge phase difference、 measurement falling edge phase difference、 + duty、 - duty、 period mean、 PRMS、 FOVshoot、ROVshoot、BWIDTH、FRF、FFR、LRR、LRF、LFR、...
  • Page 113 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Channel 2/3 channels number Sample rate 200MSa/s Vertical 12 bits resolution Maximum 25 MHz frequency sin、square、pulse、triangular,noise、DC Standard Sinc、index、semi-distortion、Lorentz,dual tone multiple waveform frequency,Gauss,ECG Arbitrary Arb1,Arb2,Arb3,Arb4 waveform Frequency range 0.1Hz~25MHz square/pulse Frequency range 0.1Hz~10MHz triangular wave Frequency range 0.1Hz~1MHz Sampling wave...
  • Page 114 DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Probe compensator output Output voltage about 2Vpp input≥1MΩ load ,typical frequency、typical 1kHz Power supply 100-120VAC (±10%),45Hz to 440Hz,CATⅡ Power supply 120-240VAC (±10%),45Hz to 66Hz,CATⅡ Power <30W consumption Fuse T,3.15A,250V,5x20mm Environment Operating 0~50 °C (32~122 °F) temperature Storage -40~+71 °C (-40~159.8 °F)

  • Page 115: Appendix A: Accessories

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Appendix Appendix A: Accessories This product provides the following accessories,you can get all the accessories from the local distributer. Stardard accessories: 4 passive voltage probes(X1,X10) 1 power cord 1 USB cable 1 LAN cable BNC to BNC cable Note:DPO6004B series doesn’t supply BNC cable,DPO6004 series and MPO6004D series supply 2 BNC to BNC cable,MPO6004EDU series supply 3 BNC to BNC cable.

  • Page 116: Appendix B: Harmful And Poisonous Substances Or Elements

    DPO6000,MPO6000 Series Digital Phosphor Oscilloscope Instruction V1.1 Appendix B: Harmful and Poisonous Substances or Elements Harmful and poisonous substances or elements1 Component2 Cr(Vi) PBDE Shell and chassis Display module Circuit board Power supply Electric wire and cable assembly Connector Fasten installed hardware Orther accessories (including probes)

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