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Related Manuals for Extech Instruments MS6100
Summary of Contents for Extech Instruments MS6100
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Page 1: Digital Storage Oscilloscope
www.burntec.com User Manual MS6000 Series Digital Storage Oscilloscope... -
Page 2: Table Of Contents
www.burntec.com Chapter 1 – Contents CHAPTER 1 - CONTENTS ..................2 ................5 ENERAL AFETY UMMARY ................6 AFETY ERMS AND YMBOLS ....................6 ERMS ON RODUCT ..................6 YMBOLS ON RODUCT ..............7 RODUCT AND ATTERY ISPOSAL... - Page 3 www.burntec.com CHAPTER 4 - BASIC OPERATION ...............19 ....................20 ISPLAY 4.1.1 XY Format ....................22 ..................23 ORIZONTAL ONTROLS 4.2.1 Scan Mode Display (Roll Mode)............26 ..................26 ERTICAL ONTROLS 4.3.1 Math FFT ....................29 ...
- Page 4 www.burntec.com CHAPTER 8 - GENERAL CARE AND CLEANING..........87 ....................87 ENERAL ......................87 LEANING MS6000-EU-EN-V1.3 7/12...
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Page 5: General Safety Summary
www.burntec.com - Safety Tips 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. -
Page 6: Safety Terms And Symbols
www.burntec.com Safety Terms and Symbols The following terms may appear in this manual: WARNING Warning statements point out 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 7: Product And Battery Disposal
www.burntec.com Product and Battery Disposal Battery Recycling and Disposal You, as the end user, are legally bound (EU Battery ordinance) to return all used batteries, disposal in the household garbage is prohibited! You can hand over your used batteries / accumulators at collection points in your community or wherever batteries / accumulators are sold! Disposal: Follow the valid legal stipulations in respect of the disposal of the device at the end of its... -
Page 8: Chapter 2 - Overview
Brief Introduction on MS6000 Series Model Channels Bandwidth Sample Rate MS6060 60MHz 1GS/s 5.6 inch color MS6100 100MHz 1GS/s 5.6 inch color MS6200 200MHz 1GS/s 5.6 inch color Table 2-1 Model List of MS6000 Series MS6000 Series oscilloscopes bandwidths range from 60MHz to 200MHz, and provide real-time and equivalent sample rates respectively up to 1GSa/s and 25GSa/s. -
Page 9: Chapter 3 - Getting Started Guide
www.burntec.com Chapter 3 - Getting Started Guide Installation To keep proper ventilation of the oscilloscope in operation, leave a space of more than 5 cm (2”) from the top and the two sides of the product. Functional Check Follow the steps below to perform a quick functional check to your oscilloscope. Power ON the oscilloscope Press the ON/OFF button. -
Page 10: Observing A Waveform
www.burntec.com Observing a waveform Press the AUTO button and a 1 KHz square wave of approx. 5V peak-to-peak will appear in the display. Press the CH1 button and remove Channel 1. Move the Probe to the CH2 BNC, push the CH2 button and repeat these steps to observe the test signal on Channel 2. -
Page 11: Manual Probe Compensation
www.burntec.com Manual Probe Compensation Upon the first connection of a probe to an input channel, manually perform this adjustment to match the probe to the input channel. Uncompensated probes may lead to errors or faults in measurement. To adjust the probe compensation, follow the steps below. Set the switch on the probe to 10X and connect the probe to Channel 1 on the oscilloscope. -
Page 12: Probe Attenuation Setting
www.burntec.com Probe Attenuation Setting Probes are of various attenuation factors which affect the vertical scale of the signal. Ensure that the attenuation switch on the probe matches the CH probe option in the oscilloscope. Switch settings are 1X and 10X. To set the probe attenuation to match the probe setting, push the vertical menu button (such as the CH1 button) and select the probe option that matches the attenuation factor of the probe in use. -
Page 13: Main Features
www.burntec.com - Main Features This chapter provides some general information the user should be aware of before using this oscilloscope. It contains: 4.1 Oscilloscope setup 4.2 Trigger 4.3 Data Acquisition 4.4 Waveform scaling and positioning 4.5 Waveform measurement 3.12 Oscilloscope Setup While operating the oscilloscope, the AUTOSET feature will, in most cases, be used. - Page 14 www.burntec.com Slope and Level: (Set Trig Type to Edge or Slope) The Slope and Level controls help to define the trigger. The Slope option determines whether the trigger point is on the rising or falling edge of a signal. To perform the trigger slope control, press the TRIG button and then select Edge trigger (F1), and use the Slope button (F3) to select rising or falling.
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Page 15: Data Acquisition
www.burntec.com 3.14 Data Acquisition When an analog signal is acquired, the oscilloscope will convert it to a digital one. There are two kinds of acquisitions: 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 time base. Real-Time Acquisition: Normal: In this mode, the oscilloscope samples the signal in evenly spaced intervals to establish the waveform. -
Page 16: Waveform Scaling And Positioning
www.burntec.com 3.15 Waveform Scaling and Positioning The display of waveforms on the screen can be changed by adjusting their scale and position. Once the scale changes, the waveform display will increase or decrease in size. Once the position changes, the waveform will move up, down, right, or left. -
Page 17: Waveform Measurement
www.burntec.com 3.16 Waveform Measurement The oscilloscope displays graphs of voltage versus time (YT) and can help to measure the displayed waveform. There are several ways to take measurements, using the graticule, the cursors or performing an automatic measurement. Graticule: This method allows a quick, visual estimate and takes a simple measurement through the graticule divisions and the scale factor. - Page 18 www.burntec.com Automatic Measurement: The oscilloscope performs all of the calculations automatically in this mode. As this measurement uses the waveform record points, it is more precise than the graticule and cursor measurements. Automatic measurements show the measurement results by readouts which are periodically updated with the new data acquired by the oscilloscope.
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Page 19: Chapter 4 - Basic Operation
www.burntec.com Chapter 4 - Basic Operation The front panel of the oscilloscope is divided into several functional areas. A quick overview of all control buttons on the front panel as well as the displayed information on the screen and relative testing operations is provided in this chapter. -
Page 20: Display Area
www.burntec.com Display Area Display Format: : YT : XY : Vectors : Dots Gray indicates auto persistence; Green indicates persistence display is enabled. When the icon is set to green, the time for persistence display will be shown behind it. Acquisition Mode: Normal, Peak Detect or Average Trigger Status: The oscilloscope is acquiring pre-triggered data. - Page 21 www.burntec.com The oscilloscope is in auto mode and is acquiring waveforms in the absence of triggers. The oscilloscope is acquiring and displaying waveform data continuously in scan mode. ● The oscilloscope has stopped acquiring waveform data. The oscilloscope has finished a single sequence acquisition. Tool Icon: If this icon appears, it indicates that the keyboard of the oscilloscope is locked by the host computer via USB control.
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Page 22: Xy Format
www.burntec.com 4.1.1 XY Format The XY format is used to analyze phase differences, such as those represented by Lissajous patterns. This format plots the voltage on CH1 against the voltage on CH2, where CH1 is the horizontal axis and CH2 is the vertical axis. The oscilloscope uses the untriggered Normal acquisition mode and displays data as dots. -
Page 23: Horizontal Controls
www.burntec.com Horizontal Controls Use the horizontal controls to change the horizontal scale and position of waveforms. The horizontal position readout shows the time represented by the center of the screen, using the trigger time as zero. When the horizontal scale is changed, the waveform will expand or contract to the screen center. The readout near the upper right of the screen shows the current horizontal position in seconds. - Page 24 www.burntec.com 3. Each option in HORI MENU is described as follows: Options Settings Comments Window Control (F1) Double Window Selects either Single or Double window mode (see figures (Menu page 1) Single Window below table). Press this option button in single-window mode to enter the dual-window mode.
- Page 25 www.burntec.com Single-window Mode Dual-window Mode Location of expanded window data Major Window Minor Window MS6000-EU-EN-V1.3 7/12...
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Page 26: Scan Mode Display (Roll Mode)
www.burntec.com 4.2.1 Scan Mode Display (Roll Mode) With the TIME/DIV control set to 80ms/div or slower and the trigger mode set to Auto, the oscilloscope works in the scan acquisition mode. In this mode, the waveform display is updated from left to right without any trigger or horizontal position control. - Page 27 www.burntec.com Invert (F2) Inverts the waveform relative to the reference level. (menu page 2) Reset (F3) Resets Vertical settings to default (menu page 2) Ground Coupling Ground Coupling is used to display a zero-volt waveform. Internally, the channel input is connected with a zero-volt reference level.
- Page 28 www.burntec.com MATH MENU: Display the waveform math operations. See the table below for details. The MATH menu contains source options for all math operations. Press the M/R button. Operations Source Options Comments Enable (F1) ON enables the Math functions CH1+CH2 Add Channel 1 to Channel 2.
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Page 29: Math Fft
www.burntec.com 4.3.1 Math FFT This chapter elaborates on the Math FFT (Fast Fourier Transform) functionality. The Math FFT mode may be used to convert a normal time-domain (YT) signal to its frequency components (spectrum), and to observe the following: Analyze harmonics in power cords; ... - Page 30 www.burntec.com To set the FFT display, follow the steps below: Push the M/R button; Set the Operate key (F2) to FFT; Select the Math FFT Source (F3) channel. In many situations, the oscilloscope can also generate a useful FFT spectrum despite the YT waveform not being triggered.
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Page 31: Displaying Fft Spectrum
www.burntec.com 4.3.1.2 Displaying FFT Spectrum Push the MATH (M/R) 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 Options Settings Comments... -
Page 32: Selecting Fft Window
www.burntec.com 4.3.1.3 Selecting FFT Window Using FFT windows can eliminate the spectral leakage in the FFT spectrum. The FFT algorithm assumes that the YT waveform repeats all the time. When the number of cycles is integral (1, 2, 3 ...), the YT waveform starts and ends at the same amplitude and there are no discontinuities in the signal shape. - Page 33 www.burntec.com Applying a FFT window to the YT waveform changes the waveform so that the start and stop values are close to each other, thereby reducing the discontinuities. (Figure - Hanning window). MS6000-EU-EN-V1.3 7/12...
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Page 34: Fft Aliasing
www.burntec.com FFT Window Selection: The Math FFT function has Five FFT Window options. There is a trade-off between frequency resolution, Spectral Leakage, and amplitude accuracy for each type of the window choices. Determine which one to choose according to the desired object to be measured and the source signal characteristics. -
Page 35: Magnifying And Positioning Fft Spectrum
www.burntec.com 4.3.1.6 Magnifying and Positioning FFT Spectrum The FFT spectrum may be scaled, and the cursors used, to measure through the FFT Zoom option which enables horizontal magnification. To vertically magnify the spectrum, use the vertical controls. Horizontal Zoom and Position The FFT Zoom option (page 2 of FFT option) may be used to magnify the FFT spectrum horizontally without changing the sample rate. - Page 36 www.burntec.com MS6000-EU-EN-V1.3 7/12...
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Page 37: Trigger Controls
www.burntec.com Trigger Controls The trigger can be defined through the Trigger Menu. There are six types of triggering: Edge, Video, Pulse Width, Swap, Slope and Overtime. Refer to the following tables to view the options for each type of trigger. TRIG MENU Push the TRIG button to display trigger menus. - Page 38 www.burntec.com AC: Blocks DC components and attenuates signals below 10Hz. DC: Passes all components of the signal to the trigger circuit. Coupling HF Reject: Attenuates the high-frequency components above 80kHz. (menu HF Reject LF Reject: Blocks DC components and attenuates the low-frequency page 2) LF Reject components below 8kHz.
- Page 39 www.burntec.com Pulse Width Trigger Use to trigger on aberrant or abnormal pulses. Options Settings Comments With Pulse highlighted, the trigger occurs on pulses that meet Pulse (F1) the trigger condition (defined by the ‘Source’, ‘When’ and ‘Set (menu page 1) Pulse Width’...
- Page 40 www.burntec.com Trigger “When”: The pulse width of the source must be ≥5ns so that the oscilloscope can detect the pulse. , ≠: Within a ±5% tolerance, triggers the oscilloscope when the signal pulse width is equal to or not equal to the specified pulse width. : Triggers the oscilloscope when the source signal pulse width is less than or greater than the specified pulse width.
- Page 41 www.burntec.com Slope Trigger: Judges trigger according to the rising or falling time (more flexible and accurate than the Edge trigger). Options Settings Comments Slope (F1) Choose which slope the signal is triggered from. Source (F2) Select the input source as the trigger signal. Rising Slope (F3) Select which slope of the signal is triggered on.
- Page 42 www.burntec.com Alter Trigger: (A feature of analog oscilloscopes) provides stable displays of signals at two different frequencies. Mainly it uses a specific frequency to switch between two analog channels CH1 and CH2 so that the channels will generate swap trigger signals through the trigger circuitry. Options Settings Comments...
- Page 43 www.burntec.com Type Pulse Positive Polarity (F2) Select to trigger on positive or negative pulses. Negative ≠ When (F3) < Select the trigger condition. > Set PW (F4) Pulse Width Use Multifunction control to set Pulse width. Page (F5) Set Menu page to 1 or 2 Select the components of the trigger signal applied to the trigger Coupling (F2) HF Reject...
- Page 44 www.burntec.com Overtime Trigger: In Pulse Width trigger mode, it may take some time for a trigger to occur. Since a complete pulse width is not needed to trigger the oscilloscope, it may be desired to trigger just upon the overtime point. This is called Overtime Trigger. Press on TRIG to enter Trigger mode. Options Settings Comments...
- Page 45 www.burntec.com Holdoff: To use Trigger Holdoff, push the HORI button and set the Holdoff Time option (F3). 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.
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Page 46: Menu And Option Buttons
www.burntec.com Menu and Option Buttons As shown below, these four buttons on the front panel are used mainly to recall relative setup menus. SAVE/RECALL: Displays the Save/Recall menu for setups and waveforms. (Save/Recall) MEASURE: Displays the Measure menu. (MEAS) CURSOR: Displays the Cursor menu. (CUSOR ) UTIILITY: Displays the Utility menu. - Page 47 www.burntec.com Press the Save/Recall button to view the Save/Recall main menu. Options Settings Comments SetUp (F2) From the main Setup/Recall menu, Press F2 to engage SetUp mode Local Store the current setups to the USB disk or the Local internal memory Source (F1) of the oscilloscope.
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Page 48: Measure
www.burntec.com 4.5.2 MEASURE Push the MEAS key to view the following menu. There are 23 types of measurements and up to 8 can be displayed at a time. Options Settings Comments Modify (F5) Press F5 to Select the measure Source and Type. Source (F1) Select the measure source. - Page 49 www.burntec.com Middle Voltage at the 50% level of the base to the top Amplitude Amplitude = Base – Top, measured over the entire waveform Negative overshoot = (Base – Min)/Amp x100%, measured over Overshoot the entire waveform Postitive overshoot = (Max – Top)/Amp x100%, measured over Preshoot the entire waveform The Root Mean Square voltage over the entire waveform...
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Page 50: Cursor
www.burntec.com 4.5.3 CURSOR The Cursor Menu is accessed by pressing the CURSOR button. Options Settings Comments Select a measurement cursor and display it. Type (F1) Voltage Voltage measures amplitude while Time measures frequency and Time time. Select a waveform to take the cursor measurement. Source (F2) MATH Use the readouts to show the measurement. -
Page 51: Utility
www.burntec.com 4.5.4 UTILITY Push the UTILITY button to display the Utility Menu as follows. Options Comments Display the software and hardware versions, serial number and other information Sys Info (F1) about the oscilloscope. (menu page 1) Insert a USB disk with an upgrade program; the disk icon at the top left corner is Update (F2) highlighted. - Page 52 www.burntec.com Utility Mode menu continued … (menu page 1 of Pass/Fail) Enable Test - Open / Close (On / Off) Pass/Fail (F3) Source - CH1 or Ch2 (menu page 3) Start (menu page 2 of Pass/Fail) Msg display (F2) - Open/Close – turn On/Off Message display Pass/Fail Out (F3) –...
- Page 53 www.burntec.com Pass/Fail Example: The Pass/Fail Test is one of the enhanced special functions of this oscilloscope. By this function, the Scope can compare the input signal with the established waveform mask (Shown in blue in figure). If the waveform “touches” the mask, a “Fail” signal occurs, otherwise the test passes. When needed, a programmable output can be used for external automatic control applications.
- Page 54 www.burntec.com Pass/Fail test – Mask (Blue) and signal (yellow) display MS6000-EU-EN-V1.3 7/12...
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Page 55: Display
www.burntec.com 4.5.5 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 Double window. Refer to Horizontal Controls for more information. -
Page 56: Acquire
www.burntec.com 4.5.6 ACQUIRE The acquisition modes of an oscilloscope control how waveform points are generated from sample points. Press the Utility button and then the ACQUIRE key on page 4 of the Utility menu. Options Settings Comments Real Time Acquire waveforms by real-time digital technique. Type (F1) Equ-Time Rebuild waveforms by equivalent sample technique. - Page 57 www.burntec.com Peak Detect: Use this mode to detect glitches within 10ns and to limit the possibility of aliasing. This mode is valid at the TIME/DIV setting of 4µs/div or slower. Once the TIME/DIV setting is adjusted to 4µs/div or faster, the acquisition mode will change to Normal because the sample rate is fast enough and Peak Detect is unnecessary.
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Page 58: Fast Action Buttons
www.burntec.com 4.5.7 Fast Action Buttons AUTO: Automatically set the oscilloscope controls to generate a usable display of the input signals. Refer to the following table for relative content. RUN/STOP: Continuously acquire waveforms or stop the acquisition. 4.5.8 AUTOSET Autoset is one of the most useful modes of the digital oscilloscope. When the AUTO button is pressed, the oscilloscope will identify the type of waveform (sine or square) and adjust controls according to the input signal so that it can accurately display the waveform. - Page 59 www.burntec.com The Autoset function examines all channels for signals and displays corresponding waveforms. Autoset determines the trigger source according to the following conditions. If multiple channels receive signals, the oscilloscope will use the channel with the lowest frequency signal as the trigger source. ...
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Page 60: Chapter 5 - Multimeter Operation
www.burntec.com Chapter 5 - Multimeter Operation Multimeter Operation Window Figure 7-1 Multimeter operation window Description 1) Measurement mode indicators: DC: Direct current measurement AC: Alternating current measurement 2) Input jacks and connection diagrams. 3) Manual/Auto range indicators, among which the MANUAL refers to measuring range in manual operation mode and Auto means the measuring range in automatic operation mode. - Page 61 www.burntec.com Operating the Multimeter From the the oscilloscope window, press the OSC/DMM key, the oscilloscope will switch to the multimeter mode window. The screen will then display the measurement mode window that was in use the last time the multimeter was switched OFF. When switching to the multimeter measurement mode for the first time, the default measurement mode is DC voltage.
- Page 62 www.burntec.com Making a Diode Measurement To make a measurement on the diode, perform the following: 1) Press the diode key; the diode symbol 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.
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Page 63: Making A Continuity Measurement
www.burntec.com Making a Continuity Measurement To perform a Continuity test, perform the following: 1) Press the key; the indictor 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 64 www.burntec.com Making a Capacitance Measurement To measure a capacitance, do the following: 1) Press the key; the symbol 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 65 www.burntec.com Making a DC Voltage Measurement To measure a DC voltage, perform the following: 1) Press the V key; the Auto DC icon 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 66 www.burntec.com Making an AC Voltage Measurement To measure the AC voltage, perform the following: 1) Press the V key; the DC icon appears on the screen. 2) Press the F1 key; the AC icon appears on the screen. 3) Insert the black lead into the COM banana jack input and the red lead into the V/Ω/C banana jack input.
- Page 67 www.burntec.com Making a DC Current Measurement To measure a DC current smaller than 600 mA, perform the following: 1) Press the A key; the DC icon appears on the screen. The unit of measure on the main reading screen is mA. Press F2 to switch the measurement between mA and 10A. 600mA is acquiescence.
- Page 68 www.burntec.com To measure a DC current greater than 600 mA, perform the following: 1) Press the A key; the DC icon appears on the screen. The unit of measure on the main reading screen is mA. 2) Press the F2 key to switch to 10A measurement, the unit of measure on the main reading is A.
- Page 69 www.burntec.com Making an AC Current Measurement To measure an AC current smaller than 600 mA, perform the following: 1) Press the A key; the DC icon appears on the screen. The unit of measure on the main reading screen is mA; the mA icon will display on the bottom of the screen, press F2 to switch the measurement between mA and 10A.
- Page 70 www.burntec.com To measure an AC current greater than 600 mA, perform the following: 1) Press the A key; the DC icon appears on the screen. The unit on the main reading screen is mA. 2) Press F2 key to switch to the 10A measurement mode, the unit on the main reading screen is A.
- Page 71 www.burntec.com Taking a Relative Measurement A relative measurement is a measurement taken and compared to a stored reference value. The resultant display represents the measurement minus the reference value. The following example illustrates the relative measurement process. The first step is to store a reference value.
- Page 72 www.burntec.com Selecting Automatic/Manual Range Adjustment The default mode is the automatic range mode. For example: In the DC voltage mode, to switch to the manual range, perform the following steps: 1) Press F3 to enter the manual range mode; the Manual icon is displayed. 2) In the manual range mode, the measuring range is increased each time the F4 is pressed.
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Page 73: Chapter 6 - Troubleshooting
www.burntec.com Chapter 6 Troubleshooting 6.1 Problem Solving If the oscilloscope will not power ON, follow these steps: Check the power cord to verify it has been connected properly; Check the power on/off button to ensure it has been pushed; Restart the oscilloscope. Contact your local Extech distributor or the Extech Technical Support department if the problem persists. -
Page 74: Chapter 7 - Specifications
(sin x)/x Maximum 1M samples per single-channel; maximum 512K Record Length samples per dual-channel MS6060 MS6200 MS6100 TIME/DIV Range 4ns/div to 40s/div, in a 2, 4, 8 2ns/div to 40s/div, in a 2, 4, 8 sequence sequence Sample Rate and ±50ppm over any ≥1ms time interval... - Page 75 >16 averages (Full Bandwidth) ± (1 sample interval + 100ppm × reading + 0.4ns) Sample interval = s/div ÷ 200 MS6060 MS6100 4ns/div to 8ns/div (-8div × s/div) to 20ms 20ns/div to 80μs/div (-8div × s/div) to 40ms Position Range 200μs/div to 40s/div...
- Page 76 www.burntec.com ±3% for Normal or Average acquisition mode, 5V/div to 10mV/div DC Gain Accuracy ±4% for Normal or Average acquisition mode, 5mV/div to 2mV/div Measurement Type: Average of ≥16 waveforms with vertical position at zero Accuracy: ± (3% × reading + 0.1div + 1mV) when 10mV/div or greater is selected DC Measurement Accuracy, Measurement Type: Average of ≥16 waveforms with...
- Page 77 Trigger Coupling Sensitivity MS6060 Source MS6200 MS6100 1div from DC to 1.5div from 10MHz 10MHz; to 100MHz; 1.5div from 10MHz 2div from 100MHz Trigger Sensitivity to Full to Full (Edge Trigger Type) Attenuates signals below 10Hz HF Reject Attenuates signals above 80kHz...
- Page 78 www.burntec.com Source Range Video Trigger Type Peak-to-peak amplitude of 2 CH1, CH2 divisions Signal Formats and Supports NTSC, Field Rates, Video SECAM broadcast systems for Trigger Type any field or any line Holdoff Range 100ns to 10s Pulse Width Trigger Pulse Width Trigger Trigger when <...
- Page 79 www.burntec.com Slope Trigger Trigger when < (Less than), > (Greater than), = (Equal), or ≠ (Not Slope Trigger Mode Equal); Positive slope or Negative slope Equal: The oscilloscope triggers when the waveform slope is equal to the set slope. Not Equal: The oscilloscope triggers when the waveform slope is not equal to the set slope.
- Page 80 www.burntec.com Acquisition Acquisition Modes Normal, Peak Detect, and Average Acquisition Rate, Up to 2000 waveforms per second per channel (Normal acquisition typical mode, no measurement) Single Sequence Acquisition Mode Acquisition Stop Time Upon single acquisition on all Normal, Peak Detect channels simultaneously After N acquisitions on all Average...
- Page 81 www.burntec.com Measurements Voltage difference between cursors: V Cursors Time difference between cursors: T Reciprocal of T in Hertz (1/ΔT) Frequency, Period, Mean, Peak-to-peak, CycleRMS, Minimum, Automatic Maximum, Rise Time, Fall Time, Positive Width, Negative Width, Measurements Delay 1-2↑, Delay 1-2↓, +Duty, -Duty, Base, Top, Middle, Amplitude, Overshoot, Preshoot, RMS, Off General Specifications Display...
- Page 82 www.burntec.com MS6000-EU-EN-V1.3 7/12...
- Page 83 www.burntec.com Environmental Operating: 32 to 122 to 50 ) Temperature Nonoperating: -40 to 159.8 (-40 to +71 ) Cooling Method Convection +104 or below (+40 or below): ≤90% relative humidity Humidity to 122 (+41 to 50 ): ≤60% relative humidity Altitude Operating and Non-operating 3,000m (10,000 feet)
- Page 84 www.burntec.com MS6000-EU-EN-V1.3 7/12...
- Page 85 www.burntec.com Meter Mode Maximum Resolution 6000 Counts DMM Testing Modes Voltage, Current, Resistance, Capacitance, Diode & Continuity Maximum Input Voltage AC : 600V DC : 800V Maximum Input Current AC : 10A DC : 10A Input Impedance 10MΩ Meter Specification Range Accuracy (of rdg.) Resolution...
- Page 86 www.burntec.com ±1%±1digit Resistance 600.0 0.1Ω 6.000K 1Ω 60.00K 10Ω 600.0K 100Ω 6.000M 1KΩ 60.00M ±1.5%±3digits 10KΩ Capacitance 40.00nF ±1.75%±10digits 10pF 400.0nF 100pF 4.000uF 40.00uF 10nF 400.0uF 100nF Note: The smallest capacitance value that can be measured is 5nF Diode 0V~2.0V On-off Test <...
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Page 87: Chapter 8 - General Care And Cleaning
Note: To avoid damage to the surface of the oscilloscope or probes, do not use corrosive or chemical cleaning agents. Copyright © 2012 Extech Instruments Corporation (a FLIR company) All rights reserved including the right of reproduction in whole or in part in any form www.extech.com...