Micsig tbook mini Series Abbreviated User Manual
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Micsig tbook mini Series Abbreviated User Manual

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Summary of Contents for Micsig tbook mini Series

  • Page 2 Version Info Version Date Remarks V1.0 2016.10 V2.0 2020.04...
  • Page 3 Preface Preface Dear customers, Congratulations! Thank you for buying Micsig instrument. Please read this manual carefully before use and particularly pay attention to the “Safety Precautions”. If you have read this manual, please keep it properly for future reference. The information contained herein are furnished in an “as-is” state, and may be subject to change in future versions...

  • Page 4: Table Of Contents

    Table of Contents Table of Contents TABLE OF CONTENTS ..............................I CHAPTER 1. SAFETY PRECAUTIONS ......................... 4 1.1 S AFETY RECAUTIONS ............................4 1.2 S ..........................5 AFETY ERMS AND YMBOLS CHAPTER 2. QUICK START GUIDE OF OSCILLOSCOPE ....................7 2.1 I NSPECT ACKAGE...
  • Page 5 5.2 E ..............................45 RIGGER 5.3 P ............................47 ULSE IDTH RIGGER 5.4 L OGIC RIGGER ..............................51 5.5 N ) ........................53 RIGGER PTIONAL 5.6 R ) ..........................55 RIGGER PTIONAL 5.7 S ..............................56 LOPE RIGGER 5.8 T ) ..........................

  • Page 6: Table Of Contents

    Table of Contents 11.2 C ..............................103 ONTACT US 11.3 F ............................... 103 ANAGER 11.4 S ETTINGS ................................. 104 11.5 Q UICKGUIDE ..............................109 11.6 P ................................109 HOTO 11.7 V ................................111 IDEO 11.8 T ................................112 11.9 S 、L ......................

  • Page 7: Chapter 1. Safety Precautions

    Do not operate with suspected failures. If you suspect that there is damage to this product, have it inspected by service personnel designated by Micsig. ⚫ Use adapter correctly. Supply power or charge the equipment by power adapter designated by Micsig, and charge the battery according to the recommended charging cycle. ⚫...

  • Page 8: Safety Terms And Symbols

    Chapter 1. Safety Precautions EN61326:1997+A1+A2+A3, but do not meet Class B standards. Measurement Category The TO1000 series oscilloscope is intended to be used for measurements in Measurement Category I. Measurement Category Definition Measurement category I is for measurements performed on circuits not directly connected to the MAINS. Examples are measurements on circuits not derived from MAINS, and specially protected (internal) MAINS derived circuits.
  • Page 9 Hazardous Voltage Caution Refer to Manual Protective Ground Terminal Chassis Ground Measurement Ground Terminal Please read the following safety precautions to avoid personal injury and prevent damage to this product or any products connected to it. To avoid possible hazards, this product can only be used within the specified scope.

  • Page 10: Chapter 2. Quick Start Guide Of Oscilloscope

    Chapter 2. Quick Start Guide of Oscilloscope This chapter contains checks and operations of the oscilloscope. You are recommended to read them carefully to understand appearance, power on/off, settings and related calibration requirements of the tBook mini series oscilloscope. ⚫...

  • Page 11: Inspect Package Contents

    If any damage to oscilloscope is found by the appearance inspection or it fails to pass the performance test, please contact Micsig’s agent or local office. If the instrument is damaged due to transportation, please retain the package and contact the transportation company or Micsig’s agent, and Micsig will make arrangement.

  • Page 12: Rear Panel & Side Panel

    Chapter 2. Quick Start Guide of Oscilloscope 2.3 Rear panel & side panel Figure 2-2 Rear panel & side Panel 2.4 Front Panel Figure 2-3 Front Panel of Tablet Oscilloscope...

  • Page 13: Power On/Off The Oscilloscope

    Touch button Description Run/Stop: Touch to start/Stop acquisition Single SEQ: Touch to trigger on a single waveform Auto:Touch to activate automatic waveform setup Note: Automatic setup requires the frequency of the test signal to be at least 20Hz if the signal is sinusoidal. Otherwise, automatic setup may fail and the quick parameter measurement function displayed in the menu will also be unavailable 50%:Touch to set:...

  • Page 14: Understand The Oscilloscope Display Interface

    Chapter 2. Quick Start Guide of Oscilloscope 2.6 Understand the Oscilloscope Display Interface This section provides a brief introduction and description of the tBook mini Series oscilloscope user’s interface. After reading this section, you can be familiar with the oscilloscope display interface content within the shortest possible time.

  • Page 15: Introduction Basic Operations Of Touch Screen

    Channel indicator can indicate the zero-level position of the open channel. Table 2-1 Description of Oscilloscope Display Interface 2.7 Introduction Basic Operations of Touch Screen The tBook mini Series oscilloscope operates mainly by tap, swipe, single-finger drag, and multi-finger drag.
  • Page 16 Chapter 2. Quick Start Guide of Oscilloscope Figure 2-5 Basic Operations of tBook mini series Oscilloscope Tap button on the touch screen to activate the corresponding menu and function. Tap any blank space on the screen to exit the menu.

  • Page 17: Mouse Operation

    The opening methods of channel menu and math menu are slightly different from that of the main menu. Tap the channel icon and math icon to open the corresponding menu. Three-finger slide: to quickly turn on/off Zoom. Refer to “3.5 Zoom Mode”...

  • Page 18: Use Auto

    Chapter 2. Quick Start Guide of Oscilloscope 2.10 Use Auto Once the oscilloscope is properly connected and a valid signal is input, tap the Auto Set button quickly configure the oscilloscope to be the best display effects for the input signal. Auto is divided into Auto Set and Auto Range.
  • Page 19 Figure 2-10 Auto Set Waveform Auto Range - Continuously automatic, the oscilloscope continuously adjusts the vertical scale, horizontal time base and trigger level in a real-time manner according to the magnitude and frequency of signal. It is defaulted as off and needs to be opened in the menu. This function is mutually exclusive with “Auto Set”. Open the main menu and tap “Auto”...

  • Page 20: Load Factory Settings

    Chapter 2. Quick Start Guide of Oscilloscope It can quickly view several continuous signals without adjusting the oscilloscope. This function is very useful if you need to use two probes at the same time, or if you can only use the probe with one hand because the other hand is full.
  • Page 21 Figure 2-13 Probe Connection Open the channel (if the channel is closed). Adjust the oscilloscope channel attenuation coefficient to match the probe attenuation ratio. button or manually adjust the waveform vertical sensitivity and horizontal time base. Observe the shape of the waveform, see Figure 2-14. Figure 2-14 Probe Compensation If the waveform on the screen is shown as “under-compensation”...

  • Page 22: Modify The Language

    Chapter 2. Quick Start Guide of Oscilloscope Figure 2-15 Probe Adjustment The safety ring on the probe provides a safe operating range. Fingers should not exceed the safety ring when using the probe, so as to avoid electric shock. Connect the probe to all other oscilloscope channels (Ch2 of a 2-channel oscilloscope, or Ch 2, 3 and 4 of a 4-channel oscilloscope).

  • Page 23: Chapter 3 Horizontal System

    Chapter 3 Horizontal System This chapter contains the detailed information of the horizontal system of the oscilloscope. You are recommended to read this chapter carefully to understand the set functions and operation of the horizontal system of the tBook mini series oscilloscope. ⚫...

  • Page 24: Move The Waveform Horizontally

    Chapter 3 Horizontal System 3.1 Move the Waveform Horizontally Put one finger on the waveform display area to swipe left and right, for the coarse adjustment of the waveform position horizontally of all analog channels; after moving the waveform, tap the fine adjustment button in the lower left corner of the screen for fine adjustment.
  • Page 25 Figure 3-3 Adjust the Horizontal Time Base Method 2: Time Base Knob to turn on the time base knob (see Figure 3-4 horizontal time base knob), and then turn the knob to adjust the appropriate time base. The time base shown on the left is the currently selected time base. Figure 3-4 Horizontal Time Base Knob...

  • Page 26: Pan And Zoom Single Or Stopped Acquisitions

    Chapter 3 Horizontal System Method 3: Double-tap Double tap on the screen with one finger to enlarge the waveform horizontally with the double-tap point as the center. Each time you double-tap, the horizontal time base decreases by one gear. 3.3 Pan and Zoom Single or Stopped Acquisitions After the oscilloscope is stopped, the stopped display screen may contain several acquired data with useful information, but only the data in the last acquisition can be horizontally moved and zoomed.
  • Page 27 Figure 3-6 ROLL Mode In ROLL mode, press to stop waveform display; press again to clear waveform display and restart acquisition; press to execute single sequence, it will stop automatically after completing a full screen acquisition. ROLL mode is generally used to observe waveforms with frequencies below 5 Hz. ROLL mode is defaulted as open.
  • Page 28 Chapter 3 Horizontal System XY——XY Mode The vertical amount of CH1 is displayed on the horizontal axis in XY mode, and the vertical amount of CH2 is displayed on the vertical axis (see Figure 3-8 XY Mode). You can use XY mode to compare the frequency and phase relationship of two signals. XY mode can be used for sensors to display stress-displacement, flow-pressure, voltage-frequency or voltage- current, for example: plotting a diode curve.

  • Page 29: Zoom Mode

    sinθ = Figure 3-9 XY Time Base Mode Signal, Center on the Display Screen Tap the “Cursor” button to open the horizontal cursor. Set the cursor y2 at the top of the signal and the cursor y1 at the bottom of the signal. Record the Δy value in the upper right corner of the screen.
  • Page 30 Chapter 3 Horizontal System into two parts (see Figure 4-11 Zoom Interface). The upper part of the display screen shows the normal display window view and the lower part shows the zoomed display window. Figure 3-11 Zoom Interface Zoom window view is the enlarged portion of the normal display window. You can use “Zoom” to view a portion of the normal window that is horizontally expanded to learn more about signal analysis.
  • Page 31 Figure 3-12 Open Zoom Function by Three Fingers Sliding Down Zoom window is framed in a box on the normal window, and the other portion is covered by gray shade not displayed in the zoom window. This box shows the normal scan portion that was zoomed in the lower bottom. Tap the time base button to adjust the time base of the zoom window.

  • Page 32: Chapter 4 Vertical System

    Chapter 4 Vertical System Chapter 4 Vertical System This chapter contains the detailed information of the vertical system of the oscilloscope. You are recommended to read this chapter carefully to understand the set functions and operation of the vertical system of the tBook mini series oscilloscope.

  • Page 33: Open/Close Waveform (Channel, Math, Reference Waveforms)

    4.1 Open/Close Waveform (Channel, Math, Reference Waveforms) The channel icons on the right side of the oscilloscope waveform display area (tap to switch to math channel and reference channel) correspond to the six channels of CH1, CH2, CH3, CH4, math function and reference channel. Click these six soft keys can cyclically realize the functions: open the channel, open the channel menu, and close the channel.
  • Page 34 Chapter 4 Vertical System Figure 4-4 Channel Open, Close and Switching Figure 4-5 Using the Current Channel Selection Button Tap the current channel icon at the bottom of the screen to pop up the current channel switching menu and press the button to light it up, as shown in Figure 4-5.

  • Page 35: Adjust Vertical Sensitivity

    4.2 Adjust Vertical Sensitivity Tap the vertical sensitivity buttons on the right side of the channel icon to adjust the vertical display of the waveform corresponding to the channel, so that the waveform is displayed on the screen at an appropriate size.

  • Page 36: Open Channel Menu

    Chapter 4 Vertical System 4.4 Open Channel Menu Tap the channel icon (channel is open) to open the channel menu. The channel menu is shown in Figure 4-7. Channel waveform inversion, channel bandwidth limit, probe type, probe attenuation factor, channel coupling mode, and sampling mode can be set in the vertical menu. Figure 4-7 Channel Switching Icon and Menu 4.4.1 Set Channel Coupling Tap the icon under “Coupling Mode”...
  • Page 37 Figure 4-8 DC Coupling Figure 4-9 AC Coupling...

  • Page 38: Set Bandwidth Limit

    Chapter 4 Vertical System Figure 4-10 GND Coupling Note: This setting is only valid for the current channel. To switch from the current channel, just tap the channel icon, channel indicator icon or horizontal position pointed by the channel indicator icon for direct switching. You do not need to exit the menu.

  • Page 39: Waveform Inversion

    Figure 4-11 Full Bandwidth Figure 4-12 20M Bandwidth Figure 4-13 High Pass Figure 4-14 Low Pass 4.4.3 Waveform Inversion After selecting “Invert”, the voltage value of the displayed waveform is inverted. Inversion affects the way the channel is displayed. When using a basic trigger, you need to adjust the trigger level to keep the waveform stable.

  • Page 40: Set Probe Type

    Chapter 4 Vertical System Figure 4-15 Before Inversion Figure 4-16 After Inversion 4.4.4 Set Probe Type Probe types are divided into voltage probe and current probe. Probe type adjustment steps: Open the channel menu, find the “Probe Type” checkbox in the channel menu, then select: ⚫...

  • Page 41: Set Probe Attenuation Coefficient

    4.4.5 Set Probe Attenuation Coefficient When measuring with a probe, the correct measurement result can only be obtained by setting the correct probe attenuation ratio. In order to match the actual probe attenuation ratio, it is necessary to adjust the channel attenuation factor correspondingly under the channel menu.

  • Page 42: Chapter 5 Trigger System

    Chapter 5 Trigger System Chapter 5 Trigger System This chapter contains the detailed information of the trigger system of the oscilloscope. You are recommended to read this chapter carefully to understand the set functions and operation of the trigger system of the tBook mini series oscilloscope.

  • Page 43: Trigger And Trigger Adjustment

    5.1 Trigger and Trigger Adjustment What is Trigger? The oscilloscope can capture a waveform only when it meets a preset condition first. This action of capturing the waveform according to the condition is Trigger. The so-called capture waveform is that the oscilloscope grabs a signal and displays it.
  • Page 44 Chapter 5 Trigger System (2) Grab the segment you want to observe from a fast and complex signal Figure 5-3 Abnormal Signal in Periodic Signals Figure 5-4 Abnormal Signal Captured by Setting Trigger Level What is Forced Trigger? When the oscilloscope does not meet the trigger condition, the artificial or automatic oscilloscope trigger is the forced trigger.
  • Page 45 Figure 5-5 Oscilloscope Trigger Mode Setting If a signal feature is not understood, the oscilloscope should be set as “Auto” mode, which can ensure that the oscilloscope can also display the waveform when other trigger settings are not correct. Although the waveform is not necessarily stable, it can provide the intuitive judgment for our further adjustment of the oscilloscope.
  • Page 46 Chapter 5 Trigger System Adjust trigger position (horizontal delay) Fingers swipe left and right in the waveform display area, the trigger point will move horizontally, the horizontal delay time changes, and the delay time is displayed at the top center of the screen, that is, the distance between the trigger point and the center line of the waveform display area is displayed.
  • Page 47 Figure 5-8 Trigger Level Adjust trigger level The trigger level can be coarsely adjusted and finely adjusted. Coarse adjustment: Slide up and down in the trigger level adjustment area. Fine adjustment: After moving the trigger level, tap the fine adjustment button in the lower left corner of the screen for fine adjustment of the trigger level.

  • Page 48: Edge Trigger

    Chapter 5 Trigger System Oscilloscope Trigger Position Hold-off Time Figure 5-9 Trigger Rejection Time Set trigger hold-off time: Tap “Trigger” on the main menu to open the trigger menu. Under “Common”, tap the box after “Rejection Time” to open the rejection time adjustment interface. The trigger time is displayed on the upper left, the fine adjustment time scale is displayed on the upper right, and the coarse time scale is displayed below, as shown in Figure 5-10.
  • Page 49 namely the intersection point of the trigger level line and the signal edge. The stable waveform can be obtained by correctly setting the edge trigger coupling mode. Edge trigger menu is shown in the table below: Trigger Setting Description Option Set CH1 as trigger signal source Set CH2 as trigger signal source Trigger...

  • Page 50: Pulse Width Trigger

    Chapter 5 Trigger System Trigger coupling description When the edge trigger setup menu is opened, the trigger coupling option is displayed below the menu. Trigger coupling includes DC, AC, HFRei., LFRej., NoiseRej, see Figure 5-12: Figure 5-12 Trigger Coupling Menu DC coupling - allows DC and AC signals to enter the trigger path.
  • Page 51 Trigger Description Setting Option Trigger on setting the negative pulse width of signals Negative Trigger when the signal pulse width is smaller than pulse <T width T Trigger when the signal pulse width is greater than pulse >T Trigger width T Condition Trigger when the signal pulse width is equal to pulse width T =T...
  • Page 52 Chapter 5 Trigger System Pulse width trigger setting description: Pulse polarity selection The selected pulse polarity icon is displayed in the upper right corner of the display screen. The positive pulse is higher than current trigger level (CH1 positive pulse indication icon ), and the negative pulse is lower than current trigger level (CH1 negative pulse indication icon When triggered on positive polarity pulse, if the restrictions are true, the trigger will happen on the high-to-...
  • Page 53 ⚫ Greater than the time value (>) For example, for positive pulse, if it is set as T>80ns, the trigger will happen stably only when the pulse width is greater than 80ns (Figure 5-16 Trigger Time T>80ns). Trigger Figure 5-16 Trigger Time T>80ns ⚫...

  • Page 54: Logic Trigger

    Chapter 5 Trigger System Figure 5-19 Pulse Width Time Adjustment Interface 5.4 Logic Trigger Trigger happens when the level between analog channels satisfies a certain logical operation (AND, OR, NAND, NOR) and the signal voltage reaches the set trigger level and the trigger logic width (8ns~10s). Logic trigger menu descriptions are shown in the table below: Trigger Setting...
  • Page 55 Logic Time 8ns~10ns Set trigger logic time Notes: Conditions of greater than, smaller than, equal to or not equal to indicating that the error is 6%. Logic trigger operation steps between channels: Tap “Trigger” on the main menu to open the trigger menu, select logic trigger in the trigger type, and set the logic trigger as follows, as shown in Figure 5-20: ⚫...

  • Page 56: Nth Edge Trigger (Optional )

    Chapter 5 Trigger System Figure 5-21 Logic Trigger Trigger pulse width time can be set as 8ns~10s. Tap the time setting box ( ) to pop up the time adjustment interface and adjust the logic time. Please refer to the Pulse Width Adjustment section for details. 5.5 Nth Edge Trigger When the trigger signal is triggered on the Nth edge after the specified idle time, it is Nth edge trigger.
  • Page 57 set the Nth edge trigger as follows, as shown in Figure 5-22: ⚫ Trigger source: CH1; ⚫ Time: 10ms; ⚫ Edge signal: rising; ⚫ Nth edge: 3 Figure 6-22 Nth Edge Trigger Menu Adjust the trigger level to ensure that the waveform can be triggered stably, for example the trigger level is set to -3.2V.

  • Page 58: Runt Trigger (Optional )

    Chapter 5 Trigger System 5.6 Runt Trigger By setting the high and low thresholds, trigger on a pulse that cross one threshold but fail to cross a second threshold. There are two types available: positive short pulse and negative short pulse. Positive Short Pulse Up Level Low Level...

  • Page 59: Slope Trigger

    Figure 5-24 Runt Trigger Setting Menu 5.7 Slope Trigger Slope Trigger means trigger when the waveform reaches a set time condition from one level to another. Positive slope time: Time takes for the waveform to go from low to high. Negative slope time: Time takes for the waveform to go from high to low.
  • Page 60 Chapter 5 Trigger System Trigger Setting Description Option Set CH2 as trigger signal source Source Set CH3 as trigger signal source Set CH4 as trigger signal source Set trigger on positive signal slope Rising Set trigger on negative signal slope Edge Falling Set trigger on detecting a signal slope change...

  • Page 61: Timeout Trigger (Optional )

    Figure 5-26 Slope Trigger Setting Menu The slope hold time can be set as 8ns~10s. Note: A stable trigger waveform can only be obtained by selecting the channel to which signals are connected as trigger source. 5.8 Timeout Trigger Timeout trigger happens when the time from the intersection of signal and trigger level and above (or below) the trigger level reaches the set time, as shown in Figure 5-27: Duration Set Level...
  • Page 62 Chapter 5 Trigger System Timeout trigger menu descriptions are shown in the table below: Trigger Setting Description Option Set CH1 as trigger signal source Trigger Set CH2 as trigger signal source Source Set CH3 as trigger signal source Set CH4 as trigger signal source Select to count time when the rising edge of input signal gets Positive through the trigger level...

  • Page 63: Video Trigger

    Figure 5-28 Time-out Trigger 5.9 Video Trigger The triggering method for video signals depends on video formats. Generally, there are PAL/625, SECAM, NTSC/525, 720P, 1080I and 1080P formats. The video trigger can be triggered at different voltage scales, and the appropriate voltage scale can be adjusted as needed to observe the waveform. The video trigger menu descriptions are shown in the table below: Trigger Setting...
  • Page 64 Chapter 5 Trigger System Trigger Setting Description Option Base on 1080P (24Hz, 25Hz, 30Hz, 50Hz, 60Hz) 1080P signal trigger Line Trigger lines Trigger on the rising edge of the first tooth pulse in Odd fields odd fields Trigger on the rising edge of the first tooth pulse in Even fields even fields Trigger on the rising edge of the first tooth pulse...

  • Page 65: Serial Bus Trigger

    Figure 5-29 Video Trigger Prompts: ⚫ In order to better observe the waveform details in the video signal, first set the memory depth to be larger. ⚫ During the trigger debugging of the video signal, since the digital oscilloscope has multi-level gray scale display function, different brightness can reflect the frequency of different parts of the signal.

  • Page 66: Chapter 6 Analysis System

    Chapter 6 Analysis System Chapter 6 Analysis System This chapter contains the detailed information of the analysis system of the oscilloscope. You are recommended to read this chapter carefully to understand the set functions and operation of the analysis system of the tBook mini series oscilloscope.

  • Page 67: Automatic Measurement

    6.1 Automatic Measurement Measurement setting Slide down from top, open the main menu, tap “Measure” or click on the right side of the screen to enter the measurement menu. There are 23 measurement items on the measurement menu. Measurement menu, selected measurement item display and measurement item display are shown in Figure 6-1: Figure 6-1 Automatic Measurement Menu Automatic measurement...
  • Page 68 Chapter 6 Analysis System All measurements Slide from bottom, open the pull-up menu, see Figure 6-2, click to open all measurement items, display the current channel measurement value. Switch the current channel to open all the measurement items of other channels, as shown in Figure 6-3;...
  • Page 69 Time delay between rising or falling edges of channels may be measured, and there are nine effective measurement combinations Delay Figure 6-4 Delay Measurement Schematics Open the automatic measurement menu and tap to pop up the phase selection menu. The left channel is defaulted as the current channel, and other channels can be selected by the channel area that has been opened (except the reference channel);...
  • Page 70 Chapter 6 Analysis System Positive overshoot Positive overshoot =[(max - high) / amplitude]*100% Negative overshoot Negative overshoot =[(low - min) / amplitude]*100% Phase Timing measurement. The amount of time that one waveform leads or lags another waveform, expressed in degrees where 360°comprises one waveform cycle. Peak-peak In the entire waveform measurement, peak-peak = max - min Amplitude...

  • Page 71: Frequency Meter Measurement

    Note: If the waveform required for measurement is not fully displayed on the screen, “Forward Clipping” or “Negative Clipping” is displayed at the position of the measured value. When the math function is operated, if source channel waveform is fully displayed, and the math waveform appears to be off the screen, the measured value of math waveform will not be influenced.
  • Page 72 Chapter 6 Analysis System Figure 6-7 Cursor Measurement Description Note: △ reading: indicates the difference between two cursor positions. Voltage readings after Y1, Y2: indicate the position of activated horizontal cursors relative to the zero potential. Time readings after X1, X2: indicate the position of activated vertical cursors relative to the trigger point. 1/△X: frequency S reading.
  • Page 73 Figure 6-8 Open Cursor Selection Box and Close Cursor Vertical cursor movement descriptions: Use a single finger to press and hold the cursor indicator on the screen to make coarse adjustment to the cursor; tap the fine adjustment button in the lower left corner of the screen to fine-adjust the cursor that has just been adjusted.
  • Page 74 Chapter 6 Analysis System Figure 6-9 Cursor Measurement Pulse Width In the XY horizontal mode, X cursor displays CH1 value (V or A), and Y cursor displays CH2 value (V or A). Figure 6-10 In XY Mode, Cursor Measurement...

  • Page 75: Chapter 7 Screen Capture, Memory Depth And Waveform Storage

    Chapter 7 Screen Capture, Memory Depth and Waveform Storage This chapter contains the detailed information of the screen capture function and memory depth of the oscilloscope. You are recommended to read this chapter carefully to understand the storage system of the tBook mini series oscilloscope.

  • Page 76: Screen Capture Function

    Chapter 7 Screen Capture, Memory Depth and Waveform Storage 7.1 Screen Capture Function The screen capture function can store the display information of the current display screen to the local or U disk in picture format. When the U disk is not inserted, the file is stored locally by default. When the U disk is inserted, the file is automatically stored in the U disk.

  • Page 77: Waveform Storage

    Figure 7-2 Video Recording Please refer to “11.7 Video” for details of viewing videos. 7.3 Waveform Storage The oscilloscope can save the analog channel or math channel waveform locally or in USB device. The file type can be WAV, CSV or BIN. The oscilloscope provides four reference channels, which can be called to load WAV format files into the reference channel and open the reference channel to display the reference waveform.
  • Page 78 Chapter 7 Screen Capture, Memory Depth and Waveform Storage Figure 7-3 Save CH1 Reference Waveform Interface Location: Stored locally and in USB device. File types: WAV, CSV, and BIN. File name: The initial file name is displayed as year + month + day + storage serial number. Press the file name box to pop up the virtual keyboard, tap “Backspace”...
  • Page 79 In the main menu, tap to enter the save menu. In the Save menu, tap to open the Save Reference Waveform menu and make the following settings: ⚫ Storage location: locally. ⚫ Selecting the file type: WAV. ⚫ Entering the file name: CH1. Tap “Save”...
  • Page 80 Chapter 7 Screen Capture, Memory Depth and Waveform Storage Figure 7-4 Delete Reference Files CSV files CSV file structure CSV format contains the basic information of the saved data: save time, file name, data length, sampling interval, trigger time, source, vertical scale, vertical offset, vertical accuracy, horizontal time base, horizontal accuracy, probe multiples.
  • Page 81 600 and may actually contain up to 60,000 points. However, once the number of points sampled exceeds 60,000, some extraction method is required. The extraction factor used to generate the CSV record is configured to provide the best estimate of all samples represented by each point in the record. Therefore, Min and Max values do not appear in CSV files.

  • Page 82: Chapter 8 Math And Reference

    This chapter contains the detailed information of the MATH operation and reference channel of the oscilloscope. You are recommended to read this chapter carefully to understand the setting functions and operations of the MATH and reference channels of the tBook mini series oscilloscope. ⚫...

  • Page 83: Dual Waveform Calculation

    8.1 Dual Waveform Calculation Figure 8-1 MATH Channel Waveform Display math waveform on the lower right corner of the screen to enter the second channel selection area. Tap the soft key to open the math channel. After the math waveform is opened, the current channel selector is automatically opened.
  • Page 84 Chapter 8 MATH and Reference please refer to “Chapter 3 Horizontal System” and “Chapter 4 Vertical System”. The vertical sensitivity, unit and time base corresponding to the math waveform are displayed in the channel area of the math channel. For details, see “2.6 Understand the Oscilloscope Display Interface”.

  • Page 85: Fft Measurement

    Multiplication or division When multiplication or division is selected, the values of function sources 1 and 2 values will be multiplied or divided point by point and the results will be displayed. Multiplication is useful when viewing the power relationship, if one of the channels is proportional to the current. 8.2 FFT Measurement FFT is used to calculate the Fast Fourier Transform using the analog input channel.
  • Page 86 Chapter 8 MATH and Reference Each window is alternatively used between frequency resolution and amplitude accuracy, and the appropriate window may be selected according to the characteristics of the following windows. ⚫ Rectangular window This is the best window type for resolution frequencies that are very close to the same value, but this type is the least effective at accurately measuring the amplitude of these frequencies.
  • Page 87 Note: Signals with DC components or deviations can cause errors or deviations in the FFT waveform components. AC coupling can be selected to reduce DC components. Spectrum type Select , the vertical axis reads V or A; select , the vertical axis reads dB. When the spectrum is linear, the waveform is shown in Figure 8-4.

  • Page 88: Reference Waveform Call

    Chapter 8 MATH and Reference Vertical sensitivity on the right side of the screen to set the vertical sensitivity (V/div or dB/div) for the channel so that waveform is displayed on the screen at an appropriate size. The vertical sensitivity factor is stepped in 1- 2-5 (using 1:1 probe).
  • Page 89 channel is turned on as the current channel waveform, and the reference waveform channel icon highlighted. The displayed state changes from “Close” to “Open”. As in Figure 8-6, the brighter reference waveform is shown as the current reference channel. If there are already files loaded into the reference channel, tap to open the reference channel of all loaded reference files;...
  • Page 90 Chapter 8 MATH and Reference switching the current reference channel, the scale and time base on the reference button change with the change of current reference channel.

  • Page 91: Chapter 9 Display Settings And Function Buttons

    This chapter contains the detailed information of the display settings and function buttons of the oscilloscope. You are recommended to read this chapter carefully to understand the display settings and function buttons of the tBook mini series oscilloscope. ⚫ Waveform setting ⚫...

  • Page 92: Waveform Settings

    Chapter 9 Display Settings and Function Buttons 9.1 Waveform Settings Open the display menu, tap button to open the waveform display menu. This menu is used to set the display mode and brightness of waveform. The waveform display mode is divided into two types: dots and vectors. The waveform brightness percentage is adjustable, and the waveform display setting is shown in Figure 9-2.

  • Page 93: Horizontal Expansion Center

    Figure 9-4 20MHz Sine Wave Variable Persistence 500ms Erase persistence To erase the previously acquired results from the display, tap key or adjust the horizontal time base and vertical sensitivity. The oscilloscope will erase the persistence display and start the cumulative acquisition again.

  • Page 94: Waveform Refresh Rate (High Refresh Mode)

    Chapter 9 Display Settings and Function Buttons 9.6 Waveform refresh rate (high refresh mode) Waveform refresh rate refers to how many waveforms the oscilloscope can display per second. The "dead zone" of oscilloscope refers to the time when the oscilloscope processes and displays the collected waveform. In the high refresh rate mode, the dead time is greatly reduced, and abnormal signals, such as abnormal jitter, short pulse, low-frequency interference and instantaneous error, can be detected quickly and accurately.

  • Page 95: Measurement

    oscilloscope can recognize the type of input signal and adjust the control mode, It automatically adjusts the vertical scale, horizontal scale and trigger setting, and adjust the waveform to the best display state. For details, please refer to “2.10 Use Auto”...

  • Page 96: Chapter 10 Sampling System

    Chapter 10 Sampling System Chapter 10 Sampling System This chapter contains the detailed information of the sampling system of the oscilloscope. You are recommended to read this chapter carefully to understand the setting and operation of the sampling system of the tBook mini series oscilloscope.

  • Page 97: Sampling Overview

    10.1 Sampling Overview To understand the sampling and sampling modes of the oscilloscope, you need to understand the sampling principle, aliasing, oscilloscope bandwidth and sampling rate, oscilloscope rise time, required oscilloscope bandwidth, and the influence of memory depth on the sampling rate. Sampling principle According to the Nyquist sampling principle, for a bandwidth-limited signal with the maximum frequency f the equidistant sampling frequency f...
  • Page 98 Chapter 10 Sampling System Frequency Figure 10-2 Theoretical Brick-Wall Frequency Response However, digital signals have frequency components that exceed the fundamental frequency (the square wave consists of sine waves at fundamental frequency and an infinite number of odd harmonics), and for bandwidths of 500MHz and below, the oscilloscope typically has Gaussian frequency response.

  • Page 99: Run/Stop Key And Single Seq Key

    signal rather than the frequency of the signal. The following steps can be used to calculate the required oscilloscope bandwidth: Determine the fastest edge speed. Rise time information is typically obtained from the published device specifications used in the design. Calculate the maximum “actual”...

  • Page 100: Select Sampling Mode

    Chapter 10 Sampling System ⚫ To capture and display single acquisition (whether the oscilloscope is running or stopped), tap the single sequence key for a single acquisition. 10.3 Select Sampling Mode Open the channel menu, tap the sampling mode option under “Sample”, and choose among the four sampling modes: normal, average, peak and envelope in the pop-up box.
  • Page 101 Figure 10-4 Sine Wave with Burr, Normal Sampling Mode Figure 10-5 Sine Wave with Burr, Peak Sampling Mode Use peak detection mode to find burrs Connect signal to the oscilloscope to be stably displayed. To find burr, select the peak sampling mode in Sampling Mode option in the Channel menu. In the menu, tap “Display”...
  • Page 102 Chapter 10 Sampling System Use the zoom mode to represent the characteristics of burr: Tap the “Zoom” button in the main menu to open the zoom window. To get a better resolution of burr, expand the time base to set the expanded portion of the normal window view around burr.

  • Page 103: Record Length And Sampling Rate

    waveform superpositions can be set to 2, 4 , 8, 16, 32, 64, 128, 256 or ∞. Figure 10-7 AM Signal in Envelope Sampling Mode (64) 10.4 Record Length and Sampling Rate The record length is the data volume for each captured waveform. For example, if the record length is 700K, it means that 700K sample points are captured by one trigger.
  • Page 104 140us, which is 10 times of the current display time on the entire screen. For a single channel in a channel pair, the maximum sampling rate of the tBook mini series oscilloscope is 1GSa/s. If any two channels are opened, the sampling rate of the two channels will halved. For example, when CH1 and CH3 are opened, the sampling rates of CH1 and CH3 are both 500 MSa/s.

  • Page 105: Chapter 11 Homepage Functions

    This chapter contains the functions of the oscilloscope homepage and describes the functions of all icons on the homepage and settings. You are recommended to read this chapter carefully to understand the homepage functions of the tBook mini series oscilloscope. ⚫...

  • Page 106: Oscilloscope (See Chapters 2~13)

    11.1 Oscilloscope (see Chapters 2~13) 11.2 Contact us on the home page to find out the contact information of MICSIG. 11.3 File Manager on the home page to enter the file manager interface. The file format includes picture, ref (reference waveform), CSV, bin and video.

  • Page 107: Settings

    11.4 Settings in the homepage to enter the system setting interface. The setting interface includes brightness, SOUNDS, language, shutdown time, USB, LAN, WLAN, WLAN AP, upgrade and INFORMATION. The system setting interface is shown in Figure 11-3. Figure 11-3 System setting interface Brightness Brightness adjustment method: adjust the brightness of the screen display, drag the "Brightness"...
  • Page 108 Chapter 11 Homepage Functions oscilloscope program and write the oscilloscope information. 2) USB storage device: the oscilloscope can be used as a USB storage device. After connecting with the computer, the files in the oscilloscope can be viewed, modified, deleted, and stored in the oscilloscope at the same time. The oscilloscope provides LAN port.
  • Page 109 Figure 11-5 WLAN Connection Setting Tap the upper right switch to turn on the WLAN function. The oscilloscope automatically scans the surrounding wireless network and displays the name of the surrounding wireless network according to the list. Tap the wireless network you need to connect, and the password input box will pop up. After entering the password with the virtual keyboard, tap enter to connect, and the oscilloscope is connected to the wireless network.
  • Page 110 U-disk upgrade and online upgrade. Figure 11-7 Upgrade Local upgrade 1) Contact micsig company or download the relevant upgrade package from the website (the latest upgrade package download address: http://www.micsig.com/html/list_60.html). 2) Use USB cable to connect oscilloscope and PC.
  • Page 111 6) Click "upgrade" to start the upgrade, and restart automatically after the upgrade. U disk upgrade 1) Contact micsig company or download the relevant upgrade package from the website (the latest upgrade package download address: http://www.micsig.com/html/list_60.html). 2) Unzip the upgrade package and store it in the root directory of the U disk.

  • Page 112: Quickguide

    The installable options include: 28m storage depth, HDMI, vertical scale 500uv, automatic range, frequency meter, WLAN, warranty (5 / 8 / 10 years), etc. If you need the optional function service, please contact Micsig for license and enter the install option function at the license bar.
  • Page 113 Figure 11-10 Picture Viewing Interface In the picture viewing interface, the picture can be displayed in full screen. When the full screen is displayed, drag the picture left and right to view the previous and next picture. Tap the return key to exit the full screen display.

  • Page 114: Video

    Chapter 11 Homepage Functions be automatically displayed in the picture viewing interface. 11.7 Video in the homepage interface to enter the video viewing interface. Figure 11-12 Video Viewing Interface In the video viewing interface, tap video to play back the selected video file, and click return to exit playback. During video playback, you can pause and quickly switch to the previous video and the next video through the shortcut key.

  • Page 115: Time

    In the video viewing interface, tap the "select" button at the bottom of the screen, click the video to select it, and "√" will be displayed on the left side of the video, and click the trash can icon at the bottom right corner of the screen to delete the video.
  • Page 116 Chapter 11 Homepage Functions Figure 11-14 Shutdown Interface Shut down: tap to shutdown the oscilloscope. Restart: click to restart the oscilloscope. Lock screen: tap , the oscilloscope screen will be locked, and the upper right corner of the screen is displayed .
  • Page 117 Figure 11-15 Locking Interface...

  • Page 118: Chapter 12 Serial Bus Trigger And Decode (Optional)

    (Optional) This chapter contains the detailed information of serial bus decoding. You are recommended to read this chapter carefully to understand the setting and operation of tBook mini series bus trigger and decode. This chapter mainly include the below contents: ⚫...
  • Page 119 Figure 12-1 Bus Type Selection Menu Open the pull-up menu and tap key to open or close the text mode, as shown in Figure 12-2. Figure 12-2 Bus Decode Text Mode Description: Two decode channels S1&S2 in the text interface must be configured identically to be opened, and each channel is displayed in chronological order with different colors;...

  • Page 120: Uart (Rs232/Rs422/Rs485) Bus Trigger And Decode

    Chapter 12 Serial Bus Trigger and Decode (Optional) S1/S2/S1&S2 are the channel configuration bus information, and X knob is rotated or the label is switched to change the bus channel; Clicking save during the text acquisition process can save all currently acquired data. If the date volume is too large, “wait”...
  • Page 121 Display — Choose hexadecimal, binary or ASCII code display. Figure 12-4 UART Bus Configuration Menu When word is displayed in ASCII, 7-bit ASCII format is used. Valid ASCII characters are between 0x00 and 0x7F. To display in ASCII, at least 7 bits in the “#Bits” must be chosen. If ASCII is chosen and the data exceeds 0x7F, the data will be displayed in hexadecimal.
  • Page 122 Chapter 12 Serial Bus Trigger and Decode (Optional) Note: When there is parity bit, the data word length indicates the total length of data bit plus parity bit. When there is no parity bit, the data word length is considered to be the length of data bit. For example, if the data word length is 8bit, when there is no parity bit, it means that the total length of data bits is 8bit;...
  • Page 123 ⚫ UART serial decode The measured signal word length is 8bit; parity bit, none; baud rate, 19.2kb/s, hexadecimal; trigger mode as data bit:55; follow the steps as below: (1) Tap S1 to open the decode channel, and click S1 again to open the bus configuration menu; (2) Select the bus type as “UART”, click “Ch1”, “Idle High”, “Check None”, “8bit”, “19.20kb/s”, display “hexadecimal”, then close menu;...
  • Page 124 Chapter 12 Serial Bus Trigger and Decode (Optional) (6) Decode data and the corresponding waveform area (7) Signal source Ch1 UART decode data packet description: (1) Decode data packet displays real-time data about the bus activities; (2) Decode data displays as hexadecimal system in white; (3) When the word length is 5-8 bits, the decode data displays as two bits of hexadecimal;...

  • Page 125: Lin Bus Trigger And Decode

    (6) Roller bar. In the decode data area, the stop bit error data is displayed in yellow, and the decode error data is displayed in red; 12.2 LIN Bus Trigger and Decode For correctly decoding LIN bus data and making trigger stable, the bus configuration, trigger mode set and trigger level need to be adjusted.
  • Page 126 Chapter 12 Serial Bus Trigger and Decode (Optional) Figure 12-10 LIN Trigger Mode Configuration Menu Sync-Rising – When the “Sync Interval” of LIN bus ends, the rising edge triggers. Frame ID — Triggered when a frame with an ID equal to the set value is detected. Select “Frame ID”, click data on the touch screen, and use the pop-up virtual keyboard to modify it.
  • Page 127 Figure 12-12 LIN Graphic Interface LIN decode data packet description: (1) Decode data packet displays real-time data about the bus activities. (2) Decode data displays as hexadecimal system. (3) “Frame ID” displays in yellow, “Data” displays in white, and “Parity sum” displays in green. If the parity sum has error, it is displayed in red “E”.
  • Page 128 Chapter 12 Serial Bus Trigger and Decode (Optional) LIN text interface description, as shown in Figure 12-13: “Ch”: bus channel. “Time”: Time intervals between the last frames to current frames. “ID”: Frame ID value. “Data”: Frame data. “Error Check”: Frame parity sum, the sum of parity error displays in red. “Trigger”: “Yes”...

  • Page 129: Can Bus Trigger And Decode

    12.3 CAN Bus Trigger and Decode For correctly decoding CAN bus data and making trigger stable, the bus configuration, trigger mode set and trigger level need to be adjusted. ⚫ Bus configuration to open the bus configuration menu, the signal source needs to be set, and the signal type and baud rate are set according to measured signal;...
  • Page 130 Chapter 12 Serial Bus Trigger and Decode (Optional) Trigger mode selection menu description: F.start — trigger at the start of the frame; Remote ID — setting the ID matches the remote frame trigger. After selecting the “Remote Frame ID”, and then set the ID value at the bottom of the trigger data area Operation description: Press the numbers on the touch screen and use the virtual keyboard to set;...
  • Page 131 Figure 12-16 CAN Graphic Interface CAN decode data packet description: (1) Decode data packet displays real-time data about the bus activities. (2) Decode data displays as hexadecimal system. (3) “Frame ID” displays in yellow, “Data” displays in white, and “DLC” and “ CRC” codes display in green.

  • Page 132: Spi Bus Trigger And Decode

    Chapter 12 Serial Bus Trigger and Decode (Optional) Figure 12-17 CAN Text Interface CAN text interface description, as shown in Figure 12-17: “Ch”: bus channel. “Time”: Time intervals between the last frames to current frames. “ID”: CAN frame ID value displayed in hexadecimal, maximum 29 bits. “Type”: Frame type, “SFF”...
  • Page 133 to open the bus configuration menu, the following need to be set: Clock source, data source, chip select signal, and data bits, as shown in Figure 12-18: Figure 12-18 SPI Bus Configuration Menu ⚫ Trigger mode Open the trigger configuration menu and select the appropriate trigger type; when selecting the SPI bus trigger, as shown in Figure 12-19: Figure 12-19 SPI Trigger Mode Configuration Menu The operation method is the same as CAN frame ID to be matched in the configuration, and will not be...
  • Page 134 Chapter 12 Serial Bus Trigger and Decode (Optional) trigger mode matches the “Data” at 0001, please follow the steps below: (1) Tap S1 to open the decode channel, and click S1 again to open the bus configuration menu; (2) Select the bus type as “SPI”, click clock as “Ch1” rising edge, the data is “Ch2” high level, and the data word length is “4bit”;...
  • Page 135 Figure 12-21 SPI Text Interface SPI text interface description, as shown in Figure 12-21: “Ch”: bus channel. “Time”: Time intervals between the last frames to current frames. “Data”: According to the data word length setting, the decode data is displayed. For example, if the data word length is 8bit, only one byte displays in the data column;...

  • Page 136: I2C Bus Trigger And Decode

    Chapter 12 Serial Bus Trigger and Decode (Optional) 12.5 I2C Bus Trigger and Decode For correctly decoding I2C bus data and making trigger stable, the bus configuration, trigger mode set and trigger level need to be adjusted. ⚫ Bus configuration to open the bus configuration menu, Bus configuration includes the serial clock (SCL) and the serial data (SDA) corresponding to the channel settings.
  • Page 137 Trigger mode menu description: Start — trigger when SCL is high and SDA has a falling edge (includes restart). Stop — trigger when SCL is high and SDA has a rising edge. LostAck — Trigger when the bus Ack bit is high. Restart —...
  • Page 138 Chapter 12 Serial Bus Trigger and Decode (Optional) Figure 12-24 I2C Graphic Interface I2C decode data packet description: (1) Decode data packet displays real-time data about the bus activities. (2) Decode data displays as hexadecimal system. (3) Address content display: Read address displays in green, write address displays in yellow, and data displays in white.

  • Page 139: Arinc429 Bus Trigger And Decode

    I2C text interface description, as shown in Figure 12-25: “Ch”: bus channel. “Time”: intervals between the last read/write operations to current read/write operations “Addr”: in address bar, “R” means the read operation, and “W” means write operation “Data”: data sent by one read and write operation is in the data bar. “Ack”: in Ack bar, “X”...
  • Page 140 Chapter 12 Serial Bus Trigger and Decode (Optional) ⚫ Trigger mode Open the trigger configuration menu and select the appropriate trigger type; when the ARINC429 bus trigger is selected, click the trigger type and relationship on the screen, as shown in Figure 12-27: Figure 12-27 ARINC429 Trigger Mode Configuration Menu If LABEL, SDI (source identifier), DATA or SSM (symbol/status mark) trigger are used, after selecting trigger mode, use the pop-up virtual keyboard to modify it, enter the value, and click “Enter”...
  • Page 141 baud rate is 12.5kb/s, and the trigger mode is LABEL, operate as follows: (1) Tap S1 to open the decode channel, and click S1 again to open the bus configuration menu; Select bus type “429”, source as “CH1”, decode format as “Label+Data”, display in “hexadecimal”, baud rate as 12.5kb/s.

  • Page 142: 1553B Bus Trigger And Decode

    Chapter 12 Serial Bus Trigger and Decode (Optional) Figure 12-29 ARINC429 Text Interface ARINC429 text interface description, as shown in Figure 12-29: “Ch”: bus channel. “Time”: intervals between the last read/write operations to current read/write operations “LABLE”: label, information identifier, displayed in octal. “SDI”: source/target identifier, displayed in binary (displays XX if not identified separately).
  • Page 143 Figure 12-30 1553B Bus Configuration Menu ⚫ Trigger mode Open the trigger configuration menu and select the appropriate trigger type. When the trigger type is 1553B bus trigger, click the trigger type on the screen, as shown in Figure 12-31: Figure 12-31 1553B Trigger Mode Configuration Menu Trigger configuration menu description: Command/status word sync header: Triggered at the beginning of the command/status word (at the end...
  • Page 144 Chapter 12 Serial Bus Trigger and Decode (Optional) Manchester coding error: Triggered when a Manchester coding error is detected. Data word: Triggered when the specified data word is detected. Odd parity error: Triggered when the odd parity bit is incorrect for data in the word. All errors: Triggered when an error is detected.
  • Page 145 of green or white. (5) The sync error is displayed together with the word “SYNC”. Figure 12-33 1553B Text Interface 1553B text interface description, as shown in Figure 12-33: “Ch”: bus channel. “Time”: intervals between the last read/write operations to current read/write operations. “Type”: frame type (data frame DATA, command/status frame C/S, others N/A).

  • Page 146: Chapter 13 Remote Control

    Chapter 13 Remote Control Chapter 13 Remote Control This chapter contains the application of host computer, FTP and SCPI commands. You are recommended to read this chapter carefully to understand remote control functions of the tBook mini series oscilloscope. ⚫ Host computer ⚫...

  • Page 147: Host Computer

    The host computer download address http://www.micsig.com/html/list_64.html. Driver download address http://www.ni.com/download/ni-visa-16.0/6184/en/.. Download the host computer software on official website of Micsig, open RemoteDisplaySetup.exe file, and complete the software installation. Figure 13-1 RemoteDisplay Software 13.1.2 Connection of Host Computer...

  • Page 148: Main Interface Introduction

    Chapter 13 Remote Control the entered IP address. 13.1.3 Main Interface Introduction Figure 13-2 Host Computer Interface Click to exit the host computer software Host computer on/off button The button has two states: Oscilloscope connection status Green: Connect to selected oscilloscope when clicked button Red: Disconnect from oscilloscope when clicked Click to take photo quickly.

  • Page 149: Operation Interface Introduction

    9. Host computer waveform control area Waveform control area button has the same function with that button on the oscilloscope 13.1.4 Operation Interface Introduction The host computer and the oscilloscope are synchronously displayed, and the waveform operation mode and the menu opening and closing mode are the same as those on the oscilloscope;...

  • Page 150: Mobile Remote Control

    Figure 13-5 View Pictures 13.2 Mobile Remote Control Micsig tBook mini series oscilloscopes support remote control on mobile phone. You need to download Android app from the official website of Micsig (address: http://www.micsig.com/html/list_64.html) and install it. After App is successfully connected, Android device can be used to control the oscilloscope and display the...

  • Page 151: Ftp

    13.3 FTP Through FTP, internal files of oscilloscope can be quickly viewed, called and managed from PC or mobile phone. The tBook mini series oscilloscopes can open FTP via WIFI, oscilloscope portable hotspot, LAN, etc. WLAN Turn on WLAN on oscilloscope (refer to 11.4 Settings - WLAN...
  • Page 152 Chapter 13 Remote Control oscilloscope are in the same network. Input the IP address (FTP:// IP address) displayed on the oscilloscope, and then connect. Figure 13-8 FTP Address Input Enter the username and password of FTP server. The default username and the password are “ftp”. Click Login, and view, call or manage files in the oscilloscope after successful login.
  • Page 153 Figure 13-10 View Files WLAN AP Open the WLAN AP on oscilloscope (refer to 11.3 Settings - WLAN AP), connect PC to theWLAN AP of oscilloscope, Enter oscilloscope IP address on PC (ftp://IP address), the default IP is 192.168.1.254.Then connect to FTP server and enter the username and password.

  • Page 154: Scpi

    SCPI command can be used to programmatically control TO1000 Series digital oscilloscopes via the USB interface. TO1000 Series may communicate with computer through USB device. Note: For more details, the TO1000 series oscilloscope commands can be downloaded from the official website of Micsig.

  • Page 155: Chapter 14 Reference

    This chapter contains the measurement category suitable for the oscilloscope and the environmental level of pollution degree supported. You are recommended to read this chapter carefully to understand the conditions of use of the tBook mini series oscilloscope. ⚫ Measurement Category ⚫...

  • Page 156: Measurement Category

    Maximum input voltage of the analog input Category I 300Vrms, 400Vpk. 14.2 Pollution Degree Pollution Degree tBook mini series oscilloscopes can operate in environments with pollution degree 2 (or pollution degree 1). Pollution Degree Pollution degree 1: No pollution or only dry, non-conductive pollution Categories occurs.

  • Page 157: Software And Firmware Updates

    For example: outdoor locations. 14.3 Software and Firmware Updates Micsig often releases software and firmware updates for its products. To search for the firmware update for your oscilloscope, please download it from the website (download address of the latest upgrade package: http://www.micsig.com/html/list_60.html)

  • Page 158: Chapter 15 Troubleshooting

    Restart the oscilloscope after the checks above; ⚫ Contact Micsig if the problem persists, and we will provide service to you. If acquired waveforms do not display on the screen when the signal source is connected, please follow the steps below: ⚫...
  • Page 159 ⚫ Check whether the coupling mode setting in the channel menu is correct. If there is no display after pressing button: ⚫ Check whether the trigger mode is “Normal”, and whether the trigger level is beyond the scope of the waveform.
  • Page 160 Chapter 15 Troubleshooting automatically standby at the set time. 13. Oscilloscope will automatically shut down after no operation for a period of time: ⚫ Check whether the shutdown time setting is Disabled; if it is not Disabled, it will automatically shut down when the set time is reached.

  • Page 161: Chapter 16 Services And Support

    Service Time Commitments : Micsig will give a reply of the time and cost for repair within 2 working days after receiving the product returned by the user for repair. After the reply is confirmed, the repair period for a general fault is 5 working days and shall not exceed 10 working days for any special fault.

  • Page 162: Annex

    Annex Annex Annex A:Technical specifications In addition to other notes, all technical specifications are applicable to all models of tbook Mini. To meet the technical specifications, two conditions must be met: The oscilloscope must work continuously for more than 30 minutes within the specified operating temperature range.
  • Page 163 Mechanical specifications 2 channels 4 channels Dimension (h * w * d) 250mm*200mm*55mm Oscilloscope (bare) 1040g 1125g Oscilloscope specifications single channel 1GSa/s Sampling rate range Double channel 500Msa/S Three / four channels 250Msa/S single channel 28/14m, double channel 14/7m, Recording length three/four channe l7/3.5m Bandwidth limit 20MHz(-3dB)、high pass filter, low pass filter...
  • Page 164 Annex N edge rising edge, falling edge Runt polarity: positive, negative, arbitrary Slope rising edge, falling edge, arbitrary Timeout positive, negative, arbitrary odd field, even field, all fields, all lines, lines Video System: pal, NTSC, SECAM, 720p, 1080i, 1080p UART(RS232/RS422/RS485) is triggered on the UART(RS232/RS422 transmission start bit, stop bit, data, 0 data, 1 data, X /RS485)
  • Page 165 1553B (matching) in synchronization, word type 1 (command, status, data), command word (DB setting RT address, T/R, sub address / mode, data word number / mode code and parity), data word (user specified 16 bit data value), error (synchronization, parity, Manchester, discontinuous data), idle time (the 1553B(optional)...
  • Page 166 Annex User settings Display Maximum refresh rate 80k/s Persist none,auto、100ms~10s、∞ Waveform display range 14*10grids Waveform display mode point、line Language Chinese、English...

  • Page 167: Annex B:maintenance And Care Of Oscilloscope

    Annex B:Maintenance and Care of Oscilloscope General maintenance Do not put or leave the instrument in a place where the LCD display will be exposed to direct sunlight for long period. Caution: To avoid damage to the oscilloscope or probes, do not expose them to sprays, liquids, or solvents. Clean oscilloscope Examine the oscilloscope and probes as often as operating conditions require.

  • Page 168: Annex C: Accessories

    Annex Annex C: Accessories Standard accessories 4 pcs or 2 pcs for 10X standard probes (incl. grounding nut, grounding crocodile clip, standard rubber plug) Power adapter (12V DC, 5A) Power cord tBook mini calibration certificate tBook mini packing list Optional accessories Oscilloscope suitcase/handbag Battery Leather carry strap...
  • Page 169 The company will assume no responsibility for accident or hazard caused by the improper operation of the user. The copyright of this manual shall belong to Micsig. Any organization or individual may not duplicate, copy or excerpt the contents without Micsig’s authorization. Micsig reserves the right to claim against such...

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