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Summary of Contents for VOLTCRAFT DSO4000B Series
- Page 1 DSO4000B(C) Series Digital Storage Oscilloscope User Manual (Version 1.0) Digital Storage Oscilloscope...
- Page 2 Copyright Declaration All rights reserved; no part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, without prior written permission from Hantek Technologies Co., Ltd (hereinafter referred to as ‘Hantek’). Hantek reserves all rights to modify this document without prior notice. Please contact Hantek for the latest version of this document before placing an order.
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Page 3: General Safety Summary
General Safety Summary Read the following safety precautions to avoid injury and prevent damage to this product or any products connected to it. To evade potential hazards, use this product only as specified. Only qualified personnel should perform maintenance. Avoid fire or personal injury. Use suitable power cord. -
Page 4: Safety Terms And Symbols
Safety Terms and Symbols Terms on the product. The following terms may appear on the product: Danger It represents that harms may be caused to you at once if you perform the operation. Warning It represents that latent harms may be caused to you if you perform the operation. - Page 5 Brief Introduction to the Series of digital storage oscilloscope DSO4000B(C) Series oscilloscopes cover the bandwidths from 80MHz to 200MHz, and provide the real-time up to 1GSa/s. In addition, they have 7 inch color TFT LCD as well as WINDOWS-style interfaces and menus for easy operation. What’s more, the plenty menu information and the easy-to-operate buttons allow you to gain information as much as possible in measurement;...
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Page 6: Table Of Contents
Contents Copyright Declaration ....................II General Safety Summary ..................III Safety Terms and Symbols ................... IV Product Scrapping ....................IV Brief Introduction to the Series of digital storage oscilloscope ....... IV Contents ........................V Chapter 1 Introduction ..................1 General Inspection ................... 2 Prepare Instrument for Use ............... - Page 7 2.7.1 Vertical Controls ................. 12 2.7.2 Math FFT ................... 15 Trigger System ..................20 2.8.1 Trigger Controls ................. 21 2.8.2 Holdoff ....................40 SAVE/RECALL ..................40 2.10 MEASURE System ................. 42 2.10.1 Scale measurement............... 42 2.10.2 Cursor measurement ..............43 2.10.3 Automatic Measurement ..............
- Page 8 Appendix C Harmful and Poisonous Substances or Elements ......100 Digital Storage Oscilloscope...
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Page 9: Chapter 1 Introduction
Chapter 1 Introduction General Inspection Prepare Instrument for Use Accidence of front panel and the user interface Functional Check Probe Introduction... -
Page 10: General Inspection
1.1 General Inspection Please check the instrument as following steps after receiving an oscilloscope: Check the shipping container for damage: Keep the damaged shipping container or cushioning material until the contents of the shipment have been checked for completeness and the instrument has been checked mechanically and electrically. -
Page 11: Prepare Instrument For Use
1.2 Prepare Instrument for Use Adjust the Supporting Legs Adjust the supporting legs properly to use them as stands to tilt the oscilloscope upwards for stable placement of the oscilloscope as well as better operation and observation. Connect the Power Cord Connect the power cord as desired. -
Page 12: Accidence Of Front Panel And The User Interface
1.3 Accidence of front panel and the user interface This section will make you understand the front operation panel of this series of digital oscilloscope at first before use. 1.3.1 User Interface Figure 1-2 Interface display Hantek logo Trigger Status: Auto: The oscilloscope works in auto mode and is acquiring waveforms in the absence of triggers. - Page 13 Readout shows main time base setting. Sample rate. Main Time Base Window Tigger time Trigger level, Readout tells trigger level Operating Menu shows different information for respective function keys. If this icon lights up/active, it means the USB disk has been connected. 10.
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Page 14: Functional Check
1.4 Functional Check Follow the steps below to perform a quick functional check to your oscilloscope. 1.4.1 Connect the oscilloscope Set the switch on the probe to 10X and connect the probe to Channel 1 on the oscilloscope. First, align the slot in the probe connector with the protuberance on the CH1 BNC and push to connect;... -
Page 15: Probe Introduction
1.5 Probe Introduction 1.5.1 Safety When using the probe, keep your fingers behind the guard on the probe body to avoid electric shock. Do not touch metallic portions of the probe head while it is connected to a voltage source. Connect the probe to the oscilloscope and connect the ground terminal to ground before you start any measurements. -
Page 16: Probe Attenuation Setting
the PROBE COMP Ground connector. Display the channel and then press the AUTOSET button. Check the shape of the displayed waveform. Compensated correctly Overcompensated Undercompensated If necessary, use a nonmetallic screwdriver to adjust the variable capacity of your probe until the shape of the waveform turns to be the same as the above figure. Repeat this step as necessary. - Page 17 switch to 10X. Digital Storage Oscilloscope...
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Page 18: Chapter 2 Function Introduction
Chapter 2 Function Introduction This chapter provides some general information that you need to learn before using an oscilloscope. It contains: Menu and control keys Connector Default setups Multi-functional Knobs and Buttons Oscilloscope Setup Horizontal Controls ... -
Page 19: Menu And Control Keys
2.1 Menu and control keys As shown in the figure below: Figure 2-1 Control keys All the keys are described as follows: [CH1], [CH2], [CH3], [CH4]: display setup menus of channel 1 and channel 2. [Math]: display “Arithmetical operation” waveform menu. ... -
Page 20: Connector
[Run/STtop]: continuously acquire waveform or stop acquisition [Single]: Acquire a single trigger, finish acquisition and then stop. 2.2 Connector Figure 2-2 Connector CH1, CH2, CH3, CH4: for an input connector of a measured signal. EXT TRIG: be used as an input connector of an external trigger source. Use [TRIG MENU] to select “EXT”... -
Page 21: Multi-Functional Knobs And Buttons
2.4 Multi-functional Knobs and Buttons V0: Multi-functional knob. Under different menu options, it supports selecting menu options (MEASURE), moving cursors and levels (Slope Trigger). Press this knob to reset data (trigger holdoff, overtime of the overtime trigger and slope trigger), select menu options and so on. Easy to operate. F7: Push this button in single-window mode to switch between dotted line display and cross display. -
Page 22: Horizontal Controls
oscilloscope automatically and set the trigger coupling, type, position, slope, level and mode, etc., to acquire a stable waveform display. Saving a Setup: By default, the oscilloscope will save the setup each time before being closed, and automatically recall the setup once being turned on. (Note: If you modify the setup, please wait for more than 5 seconds before turning off the oscilloscope to ensure the proper storage of new settings.) You can save 10 settings permanently in the oscilloscope and reset them as necessary. -
Page 23: Scan Mode Display (Roll Mode)
Multi-functional Knob 2.SEC/DIV Knob: Used to change the horizontal time scale so as to magnify or compress the waveform horizontally. If the waveform acquisition is stopped (by using the RUN/STOP or SINGLE SEQ button), the SEC/DIV control will expand or compress the waveform. - Page 24 Position Volt/div Vertical Position Knob: Move the channel waveform up and down on the screen. In dual-window mode, move the waveforms in both windows at the same time in a same direction. Push this knob to return waveforms to the vertical center position on the screen.
- Page 25 Selects a value according to the probe attenuation Probe factor so as to ensure correct vertical readouts. Attenuation 100X Reduce bandwidth to 6MHz when using a 1X probe. 1000X Invert Inverts the waveform relative to the reference level. Coupling If the channel adopts a DC coupling mode, you can quickly measure the DC component of the signal by observing the difference between the waveform and the signal ground.
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Page 26: Math Fft
Zoom: Use the FFT Zoom button to adjust the window size. Scale: x1, x2, x5, x10. Note: All selected menus are highlighted in orange. 2.7.2 Math FFT This chapter elaborates how to use the Math FFT (Fast Fourier Transform). You can use the Math FFT mode to convert a time-domain (YT) signal into its frequency components (spectrum), and to observe the following types of signals: ... - Page 27 Turn the VOLTS/DIV knob to ensure the entire waveform remains on the screen. If the entire waveform is invisible, the oscilloscope may display wrong FFT results by adding high-frequency components. Turn the SEC/DIV knob to provide the resolution you need in the FFT spectrum. If possible, set the oscilloscope to display multiple signal cycles.
- Page 28 2.7.2.2 Displaying FFT Spectrum Push the MATH MENU button to display the Math menu. Use the options to select the Source channel, the Window algorithm and the FFT Zoom factor. Only one FFT spectrum can be displayed at a time. Math FFT Settings Comments...
- Page 29 Applying a window to the YT waveform changes the waveform so that the start and stop values are close to each other, which reduces the discontinuities. The Math FFT function has three FFT Window options. There is a trade-off between frequency resolution and amplitude accuracy for each type of window.
- Page 30 2.7.2.5 Eliminating Aliases To eliminate aliases, use the following methods. Turn the SEC/DIV knob to set a faster sample rate. Because the Nyquist frequency increases as you increase the sample rate, the aliased frequency components will be displayed correct. If too many frequency components appear on the screen, you may use the FFT Zoom option to magnify the FFT spectrum.
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Page 31: Trigger System
point on the left edge of the screen). Turn the VERTICAL POSITION knob clockwise to move up the spectrum. 2.7.2.7 Using Cursors to Measure FFT Spectrum You may use cursors to take two measurements on the FFT spectrum: amplitude (in dB) and frequency (in Hz). -
Page 32: Trigger Controls
Before this update, the oscilloscope still displays the old waveforms. This mode shall be used when you want to only view the effectively triggered waveforms. In this mode, the oscilloscope displays waveforms only after the first trigger. To perform a single sequence acquisition, push the SINGLE SEQ button. - Page 33 Force Trigger Used to complete an acquisition regardless of an adequate trigger signal. This button becomes useless if the acquisition is already stopped. TRIG Type DSO4000B(C) provides multiple advanced trigger functions, including various serial bus triggers. Edge trigger Pulse trigger ...
- Page 34 2. Press the Type softkey, turn the Universal Knob to set select “Edge” and then push the knob to confirm. 3. Press the Source softkey, turn the Universal Knob to select CH1, CH2, CH3, CH4, as the trigger source. 4. Press the Slope softkey, turn the Universal Knob to select the desired trigger edge (rising, falling or rising &...
- Page 35 waveform will trigger. > (greater than a time value): trigger when the positive or negative slope time of the input signal is greater than the specified time value. For example, for a positive pulse, if you set t (pulse real width) >100ns, the waveform will trigger.
- Page 36 Triggers when pulse is less Triggers when pulse is greater than than width setting width setting Threshold level Triggers when pulse is equal to width Triggers when pulse is not equal to setting ±5% width setting ±5% Threshold level Tolerance Tolerance = Trigger Point =, ≠: Within a ±5% tolerance, triggers the oscilloscope when the signal pulse...
- Page 37 2. Press the Type softkey, then turn the Universal Knob to select Video and push down the knob to confirm. 3. Press the Source softkey’ turn the Universal Knob to select CH1~CH4 as the trigger source. 4. Press the Standard softkey to select the desired video standard. DSO4000 supports the following video standards: 2.8.1.4 Slope Trigger The slope trigger looks for a rising or falling transition from one level to another level in...
- Page 38 the input signal is lower than the specified time value. > (greater than a time value): trigger when the positive or negative slope time of the input signal is greater than the specified time value. !=(not equal to a time value): trigger when the positive or negative slope time of the input signal is not equal to the specified upper limit of time and lower than the specified lower limit of time value..
- Page 39 2.8.1.6 Window Trigger Windows trigger provides a high trigger level and a low trigger level. The instrument triggers when the input signal passes through the high trigger level or the low trigger level. If the lower and the upper trigger levels are both within the waveform amplitude range, the oscilloscope will trigger on both rising and falling edge.
- Page 40 pattern trigger can be expanded to incorporate delays similar to other triggers. Pattern durations are evaluated using a timer. The timer starts on the last edge that makes the pattern ―true‖. Potential triggers occur on the first edge that makes the pattern false, provided that the time qualifier criterion has been met.SDS2000Xprovides 4 patterns: logical AND, OR, NAND and NOR combination of the channels.
- Page 41 3. Press the Source softkey, turn the Universal Knob to select CH1~CH4 as the trigger source. 4. Press the Slope softkey to select rising or falling edge. 5. Press the When softkey, turn the Universal Knob to select desired condition. ...
- Page 42 2. Press the Type softkey, then turn the Universal Knob to select Under Amp and push down the knob to confirm. 3. Press the Source softkey, turn the Universal Knob to select CH1~CH4as the trigger source. 4. Press the Polarity softkey to select Positive or Negative pulse to trigger. 5.
- Page 43 Press the When softkey and set up the desired trigger condition: Start - The oscilloscope triggers when a start bit occurs. Stop - Triggers when a stop bit occurs on measured signal. The trigger occurs on the first stop bit regardless of using 1, 1.5 or 2 stop bit. Spec Data - Triggers on a data byte that you specify.
- Page 44 For example3, baud: 19200; Parity: No; Data Bit: 8; Data: 0x55 We set: Idle: High; baud: 19200; Data: 0x55; When: Spec Data; When: equal(=) Digital Storage Oscilloscope...
- Page 45 2.8.1.10 LIN Triggering LIN triggering can trigger on the rising edge at the Sync Break exit of the LIN single-wire bus signal (that marks the beginning of the message frame), the Frame ID, or the Frame ID and Data. A LIN signal message frame is shown below: 1.
- Page 46 2.8.1.11 CAN Triggering 1. Press the [TRIG MENU] button on the front panel to enter the TRIGGER system function menu. 2. Press the Type softkey, then turn the Universal Knob to select CAN and push down the knob to confirm. 3.
- Page 47 Note: The Identifier means Remote Id and Data ID. • Remote Data - The oscilloscope will trigger on data frames matching the specified remote data. a. Press the Data softkey to select the ID number. b. Press the Data softkey to move the current bit, and turn the universal to select the byte to be set.
- Page 48 2.8.1.12 SPI Triggering In SPI trigger, when timeout condition is satisfied, the oscilloscope triggers when the specified data is found. When using SPI trigger, you need to specify the SCL clock sources and SDA data sources. Below is the sequential chart of SPI bus. 1.
- Page 49 knob to modify the trigger level of the SDA channel. 2.8.1.13 IIC Trigger IIC (Inter-IC bus) signals setup consists of connecting the oscilloscope to the serial data (SDA) line and the serial clock (SCL) line and then specifying the input signal threshold voltage levels.
- Page 50 Trigger condition: Trigger Condition: Press When softkey to select the desired trigger condition. • Start: trigger when SDA data transitions from high level to low level while SCL is high level. • Stop: trigger when SDA data transitions from low level to high level while SCL is high level.
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Page 51: Holdoff
2.8.2 Holdoff Holdoff: To use Trigger Holdoff, push the HORIZONTAL Menu button and set the Holdoff Time option by pressing F4. The Trigger Holdoff function can be used to generate a stable display of complex waveforms (such as pulse trains). Holdoff is the time between when the oscilloscope detects one trigger and when it is ready to detect another. - Page 52 The scope saves the waveform data in memory in “.lwf format. 3. Reference The scope saves the waveform data in memory in “.REF” format. At recall, the reference waveform will be displayed on the screen directly. 4. CSV It saves the waveform data in external memory in “.CSV” format. The stored files contain the waveform data of the displayed analog channels and the main setting information of the oscilloscope.
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Page 53: Measure System
External save and recall Before using external storage and recall, make sure that the USB flash device is connected correctly. External storage supports all the types of files in save, but in recall, CSV are not supported. Save the specified type of file in the external USB flash device. 1. -
Page 54: Cursor Measurement
graticule divisions involved and multiplying by the scale factor. If you counted 6 major vertical graticule divisions between the minimum and maximum values of a waveform and knew you had a scale factor of 50mV/division, you could easily calculate your peak-to-peak voltage as follows: 6 divisions x 50mV/division = 300mV. -
Page 55: Automatic Measurement
Moving Cursors: Press the key near Select Cursor to select a cursor and turn Universal Knob to move it. Cursors can be moved only when the Cursor Menu is displayed. 2.10.3 Automatic Measurement Automatic Measurement: The oscilloscope performs all the calculations automatically in this mode. - Page 56 To Make All Measurement All measurement could measure all parameters of the current measurement source and display the results on the screen. Do the following steps to make all parameters measurement. 1. Press the [MEASURE] button on the front panel to enter the MEASURE function menu.
- Page 57 Measure the time between the first falling edge - Width and the next rising edge at the waveform 50% level. Measure the first cycle waveform. Positive Duty + Duty Cycle is the ratio between positive pulse width and period. Measure the first cycle waveform. Negative Duty - Duty Cycle is the ratio between positive pulse width and period.
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Page 58: Acquire
The time between the first falling edge of source 1 and the first rising edge of source 2. The time between the first rising edge of source 1 and the first falling edge of source 2. Do not take any measurement. Taking Measurements: For a single waveform (or a waveform divided among multiple waveforms), up to 8 automatic measurements can be displayed at a time. - Page 59 again to acquire another waveform. When you acquire an analog signal, the oscilloscope will convert it into a digital one. There are two kinds of acquisition: Real-time acquisition and Equivalent acquisition. The real-time acquisition has three modes: Normal, Peak Detect, and Average. The acquisition rate is affected by the setting of time base.
- Page 60 Options Settings Comments Acquire and accurately display most waveforms. Normal Detect glitches and eliminate the possibility of Mode Peak Detect aliasing. (Real Time) Average Reduce random or uncorrelated noise in signal display. The number of averages is selectable. YT format shows the vertical voltage in relation to time (horizontal scale);...
- Page 61 Peak Detect: Use this mode to detect glitches within 10ns and to limit the possibility of aliasing. This mode is valid at the SEC/DIV setting of 4µs/div or slower. Once you set the SEC/DIV setting to 4µs/div or faster, the acquisition mode will change to Normal because the sample rate is fast enough that Peak Detect is unnecessary.
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Page 62: Display
2.12 DISPLAY The waveform display is affected by settings of the oscilloscope. A waveform can be measured once it is captured. The different styles to display a waveform on the screen give significant information about it. There are two modes to display waveforms Single-window and Dual-window. Refer to Horizontal Controls for more information. -
Page 63: Utility System
2.13 UTILITY System Push the UTILITY button to display the Utility Menu as follows. Options Comments Language Set the language Enable the DVM measure function. Acquire Enter acquire function. System Info Display the software and hardware versions, serial number and some other information about the oscilloscope. -
Page 64: 2 B S Elf Calibration
needs about 5 minutes. The firmware is upgraded by the following steps: 1. Plug the USB flash disc in which a firmware program is saved in USB Host interface on the front panel of the oscilloscope. 2. Press [UTILITY] to skip to the “UTILITY” menu. 3. - Page 65 Page 1/2 Skip to page 2 to the pass/fail menu. Page 2 of the pass/fail function menu: Option Setup Description Pass Output a negative pulse train when the test is passed. Fail Output Output a negative pulse train when the test is Pass Ring failed.
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Page 66: Fast Action Buttons
2.14 Fast Action Buttons AUTOSET: Automatically set the oscilloscope controls to generate a usable display of the input signals. Refer to the following table for relative content. SINGLE SEQ: Acquire a single waveform and then stop the acquisition. RUN/STOP: Continuously acquire waveforms or stop the acquisition. HELP: Display the Help menu. - Page 67 Trigger Mode Auto Trigger Source Adjusted; Autoset can not be used for the EXT TRIG signal Trigger Slope Adjusted Trigger Type Edge Trigger Video Sync Adjusted Trigger Video Adjusted Standard Vertical Bandwidth Full DC (if GND was chosen before); AC for the video signal; Vertical Coupling otherwise, unchanged VOLTS/DIV...
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Page 68: Default Setup
When you use the Autoset function and the oscilloscope determines that the signal is similar to a square wave or pulse, the oscilloscope displays the following options. Square Wave Options Details Display multiple cycles that have appropriate vertical and Multi-cycle Square horizontal scales. - Page 69 SEC/DIV 200μs — Operation Math Source CH1-CH2 Position 0div Vertical Scale 20dB FFT Operation Source Window Hanning FFT Zoom Source Measure Type None Type Edge Source Slope Rising Trigger (Edge) Mode Auto Coupling Level 0.00v Polarity Normal Sync All lines Trigger (Video) Standard NTSC...
- Page 70 Mode Auto Coupling Level 0.00v Type Edge Slope Rising Mode Auto Coupling Level 0.00v Source Polarity Positive Trigger (OT) Mode Auto Time 20ns Coupling Bandwidth Limit Unlimited VOLTS/DIV Coarse Probe Voltage Vertical System, Voltage Probe Attenuation All Channels Invert Position 0.00div (0.00V) VOLTS/DIV 1.00V...
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Page 71: Waveform Generator
Chapter 3 Waveform Generator The series oscilloscope is equipped with waveform generator function, with one channel of arbitrary waveform output. User can edit the arbitrary waveform or choose the regular waveforms such as Sine, Ramp, Square, Trapezia, DC, Exponent, AM/FM. Push the Wave Gen button to display the DDS Menu. - Page 72 Offset: Set the output wave vertical level offset. Duty: The duty of the output wave. Generate the Exponent waveform To output an Exponent Waveform, please do the following steps: 1. Press F1 button, then turn the Universal Knob to select "Exp". 2.
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Page 73: Chapter 4 Troubleshooting
Chapter 4 Troubleshooting 4.1 Problem Settlement If the oscilloscope does not start up at power on, follow these steps: 1) Check the power cord to verify it has been connected properly; 2) Check the power on/off button to ensure it has been pushed; 3)... - Page 74 If the waveform is rolling continuously on the screen but can not be triggered, follow these steps: Check the trigger source to make sure it consistent with the input channel; Check the trigger level to assure its correct adjustment. You may push the TRIGGER LEVEL knob or press the SET TO 50% button to reset the trigger level back to the center of the signal;...
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Page 75: Chapter 5 Services And Support
Chapter 5 Services and Support Thank you for choosing HANTEK. Please contact us through the following ways should you have any inquiry regarding our products. We shall do our best to help you. 1. Contact your local HANTEK distributor; 2. Contact your local HANTEK field office;... -
Page 76: Chapter 6 General Care And Cleaning
Chapter 6 General Care and Cleaning 6.1 General Care Do not put or leave the device in a place where the LCD display will be exposed to direct sunlight for long periods of time. Note: To avoid damage to the oscilloscope or probes, do not expose them to sprays, liquids, or solvents. -
Page 77: Appendix A: Technical Specifications
Appendix A: Technical Specifications All specifications herein mentioned apply to the DSO5000 series oscilloscopes. Before checking an oscilloscope from HANTEK to see if it complies with these specifications, make sure it meets the following conditions: The oscilloscope must have been operating continuously for twenty minutes under the specified operating temperature. - Page 78 Vertical 8-bit resolution, A/D Converter each channel sampled simultaneously VOLTS/DIV Range 500μV/div to 10V/div at input BNC 500μV/div to 20mV/div, ±400mV 50mV/div to 200mV/div, ±2V Position Range 500mV/div to 2V/div, ±40V 5V/div to 10V/div, ±50V Selectable Analog Bandwidth 20MHz Limit, typical Low Frequency Response ≤10Hz at BNC (-3db)
- Page 79 Trigger Mode Auto, Normal CH1~CH4 ±4 divisions from center of screen Level 0~3.3V Holdoff Range 20ns ~ 10s 0.2div × volts/div within ±4 divisions from CH1~CH4 Trigger Level center of screen Accuracy ± (6% of setting + 40mV) Edge Trigger Slope Rising, Falling, Rising&Falling Source...
- Page 80 Resolution Window Trigger Source CH1~CH4 Pattern Trigger Pattern 0: Lower level; 1: High level; Level CH1~CH4 Interval Trigger Slope Rising, Falling Condition(When) <, >, !=, = Source CH1~CH4 Time Range 8ns ~ 10s Resolution Under Amp Polarity Positive, Negative Condition(When) <, >, !=, = Source CH1~CH4...
- Page 81 Interval Field, Sync Field, Id field, Sync Id Error, Identifier, Id Condition(When) and Data Source CH1~CH4 Data format Baud Rate 110/300/600/1200/2400/4800/9600/14400/19200/38400/576 (Selectable) 00/115200/230400/380400/460400 bit/s Baud Rate (Custom) 300bit/s~334000bit/s CAN Trigger Start Bit, Remote Frame, Data Frame Id, Frame Id, Condition(When) DataFrame Id A, Error Frame, All Error, Ack Error, Overload Fram Source...
- Page 82 Input Impedance, 1MΩ±2% in parallel with 20pF±3pF DC coupled Probe 1X, 10X Attenuation Supported Probe Attenuation 1X, 10X, 100X, 1000X Factors Overvoltage Category Maximum Voltage 300V (10×), Installation CAT I and CAT II Category CAT III 150V (1×) Installation Category II: derate at 20dB/decade above 100kHz to Maximum Input 13V peak AC at 3MHz* and above.
- Page 83 Display 800 horizontal by 480 vertical pixels Resolution Display Contrast Adjustable (16 gears) with the progress bar Probe Compensator Output Output Voltage, About 5Vpp into ≥1MΩ load typical Frequency, 1kHz typical Power Supply 100-120VAC (±10%), 45Hz to 440Hz, CATⅡ Supply Voltage 120-240VAC (±10%), 45Hz to 66Hz, CATⅡ...
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Page 84: Appendix B: Accessories
Ramp: 0.1Hz~100KHz EXP: 0.1Hz~5MHz 5mV~3.5Vp-p(50Ω) Amplitude 10mV~7Vp-p(High impedance) 2K~200MHz adjustable Frequency Resolution 0.10% Channel 1CH waveform output Waveform Depth 4KSa Vertical Resolution 12 bit Frequency Stability <30ppm 50 Ω Output Impedance Appendix B: Accessories All the following accessories are available by contacting your local HANTEK distributor. Standard Accessories •... - Page 85 Appendix C Harmful and Poisonous Substances or Elements Harmful and poisonous substances or elements Component Cr(Vi) PBDE Shell and Chassis Display Module Circuit Board Power Supply Electric Wire and Cable Assembly Connector Fastener and Installed Hardware Other Accessories (including probes) Others ‘X’...
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