Hantek 1060 User Manual
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Hantek 1060 User Manual

Hantek 1060 User Manual

Handheld scopemeter dso1000 series
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  • Page 3 USER’S MANUAL 060 / 200 / 500 / 600 / 600H...

  • Page 4: Table Of Contents

    Content Safety Notice …………………………………………………..3 Digital Scope Meters………………………..…………………5 CHAPTER 1: Getting Start…………………………………... 6 General Check………………………………………..6 User’s Interface……………………………………...…6 Input Connections…………………………………..11 Function Check……………………………………….12 To compensate probes……………………………..13 To display a signal automatically…………………..15 Using the Scope Meter……………………………..15 CHAPTER 2: Operating Scope……………………………..18 Set Vertical System…………………………………...18 Set Horizontal System………………………………..32 Set Trigger System…………………………………...36 Save / Recall Waveforms and Setups……………...42 Utility Function………………………………………...46...

  • Page 5: Safety Notice

    General Safety Notice 1. Safety Terms and Symbols Terms in this manual: These terms may appear in this manual: WARNING: Warning statements identify conditions or practices that could result in injury or loss of life. CAUTION: Caution statements identify conditions or practices that could result in damage to this product or other property.
  • Page 6 and certified for the country of use. ■ Connect and Disconnect Properly. Do not connect or disconnect probes or test leads while they are connected to a voltage source. ■ Connect and Disconnect Properly. Connect the probe output to the measurement device before connecting the probe to the circuit under test.

  • Page 7: Digital Scope Meters

    Digital Scope Meters DSO1000 Series digital scope meters offer exceptional waveform viewing and measurements in a compact, lightweight package. DSO1000 series is ideal for production test, field service, research, design, education and training involving applications of analog circuit tests and troubleshooting. Product features: ■...

  • Page 8: Chapter 1: Getting Start

    CHAPTER 1: Getting Start This chapter covers the following topics: ■ General Check ■ Functional Check ■ The User Interface ■ Input Connections ■ To compensate probes ■ To display a signal automatically ■ Using the Scope Meter General Check When you have got a new DSO1000 series scope meter, it is suggested that you should perform a general inspection on the instrument according to the following steps: ■...
  • Page 9 Figure 1-1 Scope Meter Front Panel...
  • Page 10 Figure 1-2 Front Panel Description Description 1. LCD Display 2. F1~F5: Sets or switch options for the menu 3. Arrow Keys 4. Hori: Shows Horizontal menu 5. TRIG: Shows Trigger menu 6. Level: Adjust the trigger level...

  • Page 11: Display Screen

    7. RUN/STOP: key for running or stopping the operation 8. AUTO: Be used for auto setting under the oscilloscope operation mode 9. TIME/DIV: Decrease or Increase the time base 10. POSITION: Adjust the horizontal trigger position 11. CH2: Shows the CH2 menu 12.
  • Page 12 LCD Display screen Description 1. Shows running status. 2. Shows delay time 3. Shows location of the current waveform in the memory. 4. Shows the trigger position in the memory. 5. Shows the trigger mode. 6. Shows the trigger source. 7.

  • Page 13: Input Connections

    Input Connections See the following Figure 1-4: Figure 1-4 Input Connections Description: 1. The power adapter is supplied for AC power supply and battery recharging. 2. Multi-meter input jacks, including four circular banana jacks .The four circular jacks are used for voltage,resistance,mA range current and A range current inputs. 3.

  • Page 14: Function Check

    Function Check Perform this quick functional check to verify that your scope meter is operating correctly. 1. Turn on the instrument. Use the power adapter designed for your scope meter only. Use a power source that delivers 100 to 240 VACRMS, 50Hz. Turn on the scope meter. 2.

  • Page 15: To Compensate Probes

    To compensate probes Perform this adjustment to match the characteristics of the probe and the channel input. This should be performed whenever attaching a probe to any input channel the first time. CH1→Probe→10X 1. From CH1 menu, set the Probe attenuation to 10X (press Set the switch to 10X on the probe and connect it to CH1 of the scope meter.
  • Page 16 Over compensated Under Compensated 3. If necessary, use a non-metallic tool to adjust the trimmer capacitor of the probe for the flattest square wave being displayed on the scope meter. 4. Repeat if necessary. WARNNING: To avoid electric shock while using the probe, be sure the perfection of the insulated cable, and do not touch the metallic portions of the probe head while it is connected with a voltage source.

  • Page 17: To Display A Signal Automatically

    To display a signal automatically The scope meter has an Auto feature that automatically sets up the scope meter to best display the input signal. Using Auto requires signals with a frequency greater than or equal to 50 Hz and a duty cycle greater than 1%. Press the AUTO button, the scope meter turns on and scales all channels that have signals applied, and it selects a time base range based on the trigger source.
  • Page 18 Figure 1-6 The Login window Menu Operation The following example shows how to use the tools menus to select a function, as shown in the following figure. Figure 1-7 The Menu...
  • Page 19 MENU ON/OFF 1. Press the key to display the Function Menu on the bottom of the MENU ON/OFF screen and the corresponding optional settings on the bottom. Press again to hide the Function Menu. 2. Choose one key from and press it to change function setting. Set up the vertical system 1.

  • Page 20: Chapter 2: Operating Scope

    CHAPTER 2: Operating Scope The end user should know how to determine the system setup from the status bar of a Scope Meter. This chapter will detail the scope meter function of the test tool. ■ Set Vertical System ■ Set Horizontal System ■...
  • Page 21 Menu Setting Description Turn on Channel Enable Turn off Channel The dc component in the input signal is blocked Coupling The ac and dc components of the input signal are allowed Disconnect the input signal Select one according to the probe attenuation factor to ensure correct vertical scale reading Probe 100X...
  • Page 22 2. Set Channel Coupling With CH1 taken for example, input a sine wave signal containing a dc offset. Press CH1→Coupling→AC to set “AC” coupling. It will pass AC component but block the DC component of the input signal. The waveform is displayed as Figure 2-3 Figure 2-3 Waveform Display Press CH1→Coupling→DC, to set “DC”...
  • Page 23 Figure 2-4 Waveform Display CH1→Coupling→GND Press , to set “GND” coupling, it disconnects the input signal. The screen displays as Figure 2-5:...
  • Page 24 Figure 2-5 Waveform Display 3. Set Probe Attenuation The scope meter allows adjusting the probe attenuation scale factor correspondingly in the channel operation menu in order to comply with the probe attenuation scale. The attenuation factor changes the vertical scaling of the scope meter so that the measurement results reflect the actual voltage levels at the probe tip.
  • Page 25 Figure 2-7 Turn Invert off Figure 2-8 Turn Invert on 5. Set Band-Width Limit...
  • Page 26 With CH1 taken for example, input a signal containing high frequency component. Press CH1→F5→F4→OFF, to set up bandwidth limit to “OFF” status. The scope meter is set to full bandwidth and passing the high frequency component in the signal. The waveform is displayed as Figure 2-9: Figure 2-9 Turn BW limit Off Press CH1→F5→F4→ON, to set up bandwidth limit to “ON”...
  • Page 27 Figure 2-10 Turn BW limit On 6. Math Setting The mathematic functions include “add”, “subtract”, “multiply”, “division”, and “FFT” for Channel 1 and Channel 2. The mathematic result can be measured by the grid and the cursor. The mathematic window is displayed as figure 2-11 The Math menu (Page 1/2) Figure 2-11 The Math menu The Math menu (Page 2/2)
  • Page 28 Turn on math Enable Turn off math A + B Add source A and source B A - B Subtract source B from source A Operate A X B Multiply source B by source A A / B Divide source A by source B Fast Fourier Transform Source A Define CH1 or CH2 as source A...
  • Page 29 ■ Analyze vibration Figure 2-13 The multiplication The FFT menu (Page 1/2) The FFT menu (Page 2/2) Figure 2-14 The FFT menu The FFT menu table Menu Setting Description Turn on FFT Enable Turn off FFT Operate Fast Fourier Transform...
  • Page 30 Define CH1 or CH2 as FFT source Source Rectangle Hanning Window Select window for FFT Hamming Blackman Go to the next menu page Back to the previous menu page Vrms Set “Vrms” as vertical unit Scale dBVrms Set “dBVrms” as vertical unit Full Display waveform in full screen Display...
  • Page 31 Better frequency, poorer Sine, periodic, and narrow-band Hanning magnitude accuracy than random noise. Transients or Rectangular. Hamming has bursts where the signal levels Hamming slightly better frequency before and after the events are resolution than Hanning. significantly different. Best magnitude, worst frequency Single frequency waveforms, to Blackman resolution.
  • Page 32 Figure 2-16 The Internal menu REF menu table when using internal memory Menu Setting Description Turn on REF Enable Turn off REF Select channel1 as REF channel Source Select channel2 as REF channel MATH Select MATH as REF channel Internal Select memory location in scope Location External...
  • Page 33 Figure 2-18 The External menu External menu table Menu Setting Description To create afile New File To delete chosen file Delete File To load chosen file Load Go to the Storage menu page Display a Reference Waveform Figure 2-19 Reference display 1.

  • Page 34: Set Horizontal System

    NOTE: The Reference function is not available in X-Y mode. Set Horizontal System The horizontal system changes the horizontal scale and position of waveforms. The horizontal center of the screen is the time reference for waveforms. Changing the horizontal scale causes the waveform to expand or contract with respect to the screen center.
  • Page 35 Figure 2-21 The TIME/DIV button 2. POSITION Press this button to adjust the horizontal position of all channel waveforms. The resolution of this control varies with the time base. Figure 2-22 The POSITION button Figure 2-23 The horizontal/Time base marks Marks Indicator 1.
  • Page 36 horizontal resolution) analysis of signal. The ALT Mag time base setting cannot be set slower than the main time base setting. Figure 2-24 ALT Mag Mode Description: 1. Wave to be horizontally expanded. 2,3.The base of ALT Mag. 4.The main time base. The following describes the ALT Mag display.
  • Page 37 bottom means the ALT Mag time. X-Y Format This format is useful for studying phase relationships between two signals. Channel 1 in the horizontal axis (X) and channel 2 in the vertical axis (Y) Figure 2-25 X-Y display format The following modes or functions will not work in X-Y format. ■...

  • Page 38: Set Trigger System

    Set Trigger System The trigger determines when the scope meter starts to acquire data and display a waveform. When a trigger is set up properly, it can convert unstable displays or blank screens into meaningful waveforms. When the scope meter starts to acquire a waveform, it collects enough data so that it can draw the waveform to the left of the trigger point.
  • Page 39 Auto Acquire waveform even no trigger occurred Sweep Normal Acquire waveform when trigger occurred Single When trigger occurs, acquire one waveform then stop Reject high frequency signals Reject Pulse Trigger Setting Pulse trigger occurs according to the width of pulse. The abnormal signals can be detected through setting up the pulse width condition.
  • Page 40 The Pulse Trigger Table (Page 2/2) Menu Setting Description Back to the previous menu page Auto Acquire waveform even no trigger occurred. Sweep Normal Acquire waveform when trigger occurred. Single When trigger occurs, acquire one waveform and then stop. Reject high frequency signals. Reject Set the trigger level to the center of the signal.
  • Page 41 Go to the next menu page The ALT Trigger menu (Type edge)(Page 2/2) Figure 2-29 ALT Mode Screen Description: 1. The Slope type of CH1 Trigger. 2. The horizontal trigger position of CH1 Trigger. 3. The trigger level value of CH1. 4.
  • Page 42 13. The volt value of CH1. 14. The volt value of CH2. The ALT Trigger menu (Type edge)(Page 2/2) Figure 2-31 The ALT Trigger menu The Alternative menu table (Type edge)(Page 2/2) Menu Setting Description Back to the previous menu page Reject high frequency signals or not HF Reject Set the trigger level to the center of the signal.
  • Page 43 Go to the next menu page The ALT Trigger menu (Type Pulse)(Page 2/2) Figure 2-33 The ALT Trigger menu The Alternative menu table (Trigger Type: Pulse Page 2/2) Menu Setting Description Back to the previou menu page Setting Value Set the width of the pulse. HF Reject Reject high frequency signals or not Set the trigger level to the center of the signal...

  • Page 44: Save / Recall Waveforms And Setups

    In Single mode, after pressing the RUN/STOP key, the scope meter waits for trigger. While the trigger occurs, the scope meter acquires one waveform then stop. Save / Recall Waveforms and Setups Save/Recall Press the button, the interface menu for settings shows as follows. The Save/Recall Menu Table Menu Setting...
  • Page 45 Internal Go to menu for internal memoryoperation External Go to menu for external memoryoperation Bitmap The Bitmap menu Figure 2-36 The Bitmap menu The Bitmap menu table Menu Setting Description External Go to menu for external memoryoperation The CSV menu Figure 2-37 The CSV menu The CSV menu table Menu...
  • Page 46 Menu Setting Description Load Recall factory setups or files. Internal Memory SAVE/RECALL →Internal Press to go to the following menu. Menu Setting Description IN_01 (N) Internal Set up the location of files in internal memory. IN_15 (N) Recall waveform files and setup files from the Load internal memory location.
  • Page 47 Figure 2-39 File System Factory The scope meter has default settings and can be recalled at anytime by Memory location Specify the memory location to save/recall the waveforms and setups. Load Recall saved waveforms, setups and default settings. Save Save waveforms and setups. NOTE: 1.

  • Page 48: Utility Function

    Utility Function Utility Utility Press the button to show the menu of the settings in the system. The Utility menu (Page 1/4) Figure 2-40 The Utility menu The Utility menu (Page 2/4) Figure 2-41 The Utility menu The Utility menu (Page 3/4) Figure 2-42 The Utility menu The Utility menu (Page4/4) Figure 2-43 The Utility menu...
  • Page 49 Go to the next menu page The Utility menu table (Page 2/4) Menu Setting Description Back to the previous menu page Pass/Fail Go to Pass/Fail menu page Record Go to Record menu page Acquire Go to the Acquire menu page Go to the next menu page The Utility menu table (Page 3/4) Menu...
  • Page 50 Go to the first previou menu page Calibrate The calibration adjusts the internal circuitry to get the best accuracy. Use these functions to calibrate the vertical and horizontal systems. For maximum accuracy at any time, run this calibration if the ambient temperature changes by 5°C or more.
  • Page 51 Pass/Fail The Pass/Fail function monitors changes of signals and output pass or fail signals by comparing the input signal is within the pre-defined mask. Utility→Pass/Fail Press to go to the following menu. The Pass/Fail menu (Page 1/2) Figure 2-45 The Pass/Fail menu The Pass/Fail menu (Page 2/2) Figure 2-46 The Pass/Fail menu The Pass/Fail menu table (Page 1/2)
  • Page 52 Stop Stop test when output occur. output Continue test when output occur. Mask Go to Mask menu Back to the previous menu page Mask setting Utility→Pass/Fail→Mask Press Setting to go to the following menu. The Mask menu (Page 1/2) Figure 2-47 The Mask menu The Mask menu (Page 2/2) Figure 2-48 The Mask menu The Mask setting menu table (Page 1/2)
  • Page 53 Recall mask setting file from internal memory. Load Back to the previous menu page The Mask setting menu (Page 2/2) When the save as external memory Menu Setting Description Save Go to save menu (same as REF save menu). Load Recall mask setting file from external memory.
  • Page 54 Start Record stopped, press to Start recording Operate Stop Press to stop recording Go to the next menu page The Record menu table (Page 2/2) Menu Setting Description Back to the previous menu page Interval <1.00ms-1000s> Set time interval between record frames Back to the Utility menu page Play back : Play back the recorded waveforms.
  • Page 55 Menu Setting Description Back to the previous menu page Start Frame <1-1000> Set start frame Cur Frame <1-1000> Select current frame to be played End Frame <1-1000> Set End frame Back to the previous menu page Storage : Store recorded waveforms to non-volatile memory according to the setup frames.
  • Page 56 Back to the Utility menu page The Storage menu when the save as external memory (Page 2/2) Menu Setting Description Create File Create a new file Delete File Delete a selected file Load Recall recorded waveform from external memory location Language: DSO1000 series scope meters have multi-language user menu, choose as your desire.

  • Page 57: Signal Measurement

    Signal Measurement MEAS Press the button to display the menu of the automatic measurements settings. The measure menu (Page 1/5) Figure 2-55 The Measure menu The measure menu (Page 2/5) Figure 2-56 The Measure menu The measure menu (Page 3/5) Figure 2-57 The Measure menu The measure menu (Page 4/5) Figure 2-58 The Measure menu...
  • Page 58 The Measure menu table Menu Setting Description Select CH1 or CH2 as source Source channel for measurement. Voltage Select to measure voltage Type Time parameter. Turn on all measurement result. Meas All Turn off all measurement result. Clear measurement result on screen. Clear Go to the next menu page The Voltage Measurement menu table...

  • Page 59: Cursor Measurement

    The Time Measurement menu table Menu Description Reciprocal of the period of the first cycle in the waveform Frequency Period Time to take for the first signal cycle to complete in the waveform Rising The time taken from lower threshold to upper threshold Falling The time taken from upper threshold to lower threshold +Width...
  • Page 60 Shown as vertical line to measure the horizontal parameters. Type Shown as horizontal line to measure the vertical parameters. Source Select the measurement signal source. MATH Select Cursor A or not Cursor A Select Cursor B or not Cursor B The scope meter measures the Y or X coordinate values of the cursors, and the increments between the two cursors.
  • Page 61 Figure 2-61 The Automatic Cursor Mode...
  • Page 62 Figure 2-62 The Manual Cursor Mode Do as the following steps: 1. Select menu Mode->Manual. 2. Select menu Type->X/Y to get the vertical or horizontal of Cursor A or Cursor B. 3. Select menu Source->CH1/CH2/MATH to Get the Cursor Source. 4.

  • Page 63: Chapter 3: Using Examples

    Chapter 3 Using examples Example 1: Simple Measurement To acquire and display a signal, please do the steps as followings: 1. Connect signal to CH1 by using probe. 2. Press the key AUTO on key panel. The Scope Meter set the vertical, horizontal, and triggers controls at the best status automatically.
  • Page 64 Example 2: The Application of the X-Y Operation X-Y Plot acts to analyze correlation of data of two channels. Lissajous diagram is displayed in the screen when you use X-Y Plot,which enables to compare frequencies,amplitudes and phases of counterpart waveform against the reference waveform.
  • Page 65 Sinθ = A/B or C/D, where θ = phase shift (in degrees) between the two signals. From the formula above: θ = ±arcsine (A/B) or ±arcsine (C/D) θ must be in the range of (0~π/2) or (3π/2~2π) if the main axis of the ellipse is between I and III quadrant, .
  • Page 66 Example 3: The FFT Cursor Measurements FFT measurement includes: Amplitude measurement (Vrms or dBVrms) and the Frequency measurement (Hz). Do these steps as followings: 1. Press the key CURSOR to show Cursor menu. 2.Select Mode->Manual to enter the Manual Cursor Mode window. 3.
  • Page 67 Figure 3-4 FFT Measurement (Cursor Type X) Example 4: The Pass/Fail Test The Pass/Fail Test is one of the enhanced special functions of the Scope Meter. By this function, the Scope Meter could compare the input signal with the established waveform mask.
  • Page 68 Figure 3-5 The Pass/Fail Window Example 5: Reduce the noise on a signal See the signal with random noise in figure 3-6. To reduce random noise, do the following steps: 1. Set the Probe and the channel attenuations to “x10”. 2.
  • Page 69 Figure 3-6 Signal with random noise Figure 3-7 Signal after reducing random noise...
  • Page 70 Example 6: Capture a Single signal To capture a single event, it needs to gather some pre-test knowledge of the signal in order to set up the trigger level and slope correctly. For example, if the event is derived from TTL logic, a trigger level of 2 Volts should work on a rising edge. Do these steps as followings: 1.

  • Page 71: Chapter 4: Multimeter

    CHAPTER 4: Multimeter About this chapter This chapter provides an introduction to the multimeter functions of Protek1000 Series. The introduction gives guides to show how to use the menus and perform basic measurements. Connecting the Meter Use the 4-mm safety banana jack inputs for the Meter functions: 10A , mA, COM,V/Ω/C. Multimeter Operation Window Figure 4-1 Multimeter operation window Description...

  • Page 72: Measuring Resistance Values

    3)The symbol of Mutimeter current mode 4) Manual/Auto range indictors, among which the MANUAL refers to measuring range in manual operation mode and Auto means the measuring range in automatic operation mode. 5) The reading value of measurement. 6) The bar graph indictor. 7) DC or AC Measurement mode control.
  • Page 73 Figure 4-2 Resistance Measurement Figure 4-3 Diode Measurement...

  • Page 74: Making A Capacitance Measurement

    Making On-off Test To perform an On-off test, do the following: 1) Press the On-off key and then On-off indictor appears on the top of the screen. 2) Insert the black lead into the COM banana jack input and the red lead into the V/Ω/C banana jack input.

  • Page 75: Making A Dc Voltage Measurement

    Figure 4-5 Capacitance Measurement Making a DC Voltage Measurement To measure a DC voltage, do the following: 1. Press the V key and DC appears at the top of the screen. 2. Insert the black lead into the COM banana jack input and the red lead into the V/Ω/C banana jack input.

  • Page 76: Making A Dc Current Measurement

    Then, the screen will look like the following figure 4-6. Figure 4-6: AC voltage Measurement Making a DC Current Measurement To measure a DC current which is less than 600 mA , do the following: 1) Press the A key and then DC appears at the screen. The unit on the main reading screen is mA.
  • Page 77 banana jack input. 4) Connect the red and black leads to the measured point and the DC current value of the measured point will be displayed on the screen. 5) Press F2 to return to 600 mA measurement. Then, the screen will look like the following figure 4-8. Figure 4-7 DC current Measurement for 600 mA Making an AC Current Measurement To measure an AC current which is less than 600 mA, do the following:...
  • Page 78 Figure 4-8 DC Current Measurement for 10A...
  • Page 79 Figure 4-9 AC Current Measurement for 600 mA 3) Press the F1 key once and AC will display on the bottom of the screen. 4) Insert the black lead into the COM banana jack input and the red lead into the 10A banana jack input.
  • Page 80 the screen. The saved reference value is displayed beside. Then, the screen will look like the following figure 4-11. Figure 4-11 Relative Measurement Selecting Automatic/Manual Range Adjustment The default range mode of the instrument is automatic range. Suppose you are using the DC voltage mode, to switch to the manual range, perform the following steps: 1) Press F3 key to enter the manual range mode and then Manual is displayed on the top of the screen.
  • Page 81          Figure 4-12 The Manual Mode window...

  • Page 82: Chapter 5: Troubleshooting

    Chapter 5: Troubleshooting 1.The scope meter cannot start. 1) Check the power cable connection. 2) Ensure the power switch is turned on. 3) After the above inspection, restart the scope meter. 4) If the problem still remains, please contact us for help. 2.

  • Page 83: Chapter 6: Specifications

    Chapter 6: Specifications Vertical Channels DSO1060: 60MHz DSO1200: 200MHz Bandwidth DSO1500: 500MHz DSO1600: 600MHz DSO1600H: 600MHz DSO1060: 5.8ns DSO1200: 1.7ns Rise Time DSO1500: 0.7ns DSO1600: 0.58ns DSO1600H: 0.58ns Input Impedance Resistance: 1M;Capacitance: 15pF DSO1060: 10mv/div to 5v/div DSO1200: 10mv/div to 5v/div Input Sensitivity DSO1500: 2mv/div to 10v/div DSO1600: 2mv/div to 10v/div...
  • Page 84 DSO1060: 5ns/div ~ 1000s/div DSO1200: 2ns/div ~ 1000s/div Time Base Range DSO1500: 1ns/div ~ 1000s/div DSO1600: 1ns/div ~ 1000s/div DSO1600H: 1ns/div ~ 1000s/div Trigger Source CH1,CH2 DSO1060: Edge, Pulse Width, Alternative Mode DSO1200,DSO1500,DSO1600,DSO1600H : Edge, Pulse Width, Alternative, Vedio. X-Y Mode X-Axis Input Channel 1 Y-Axis Input...
  • Page 85 METER SPECIFICATION Range Accuracy Resolution DC Voltage 60.00mV ±1%±1digit 10uV 600.0mV 100uV 6.000V 10mV 60.00V 100mV 600.0V 800V AC Voltage 60.00mV ±1%±3digit 10uV 600.0mV 100uV 6.000V 60.00V 10mV 600.0V 100mV DC Current 60.00mA ±1.5%±1digit 10uA 600.0mA ±1.5%±1digit 100uA 6.000A ±2%±3digit 10.00A 10mA AC Current...

  • Page 86: Power Source

    Capacitance 40.00nF ±3%±1digit 10pF 400.0nF ±1%±1digit 100pF 4.000uF 40.00uF 10nF 400.0uF 100nF Attention:The smallest capacitance value that can be measured is 5nF. Diode 0V~2.0V On-off Test <30Ω  Display TFT LCD Type 5.7 Inch width LED Backlight Display Display Resolution 240 (Vertical) X 320 (Horizontal) Dots Interface USB host/Device 2.0 Full Speed Supported Optional...

  • Page 87: Chapter 7: Appendix

    To get repair service or obtain a copy of the whole warranty statement, please contact with your nearest sales and service office. Hantek does not provide any other warranty items except the one being provided by this summary and the warranty statement. The warranty items include but not being sub- jected to the hinted guarantee items related to tradable characteristic and any particular purpose.
  • Page 88 during charging). The battery can supply power for 6 hours after being charged com- pletely. Notice: To avoid superheat of battery during charging, the environment temperature is not al- lowed to exceed the permissible value given in technical specification. Note: No hazard will occur even connecting the charger for a long time, e.g.

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