ScopeMeter 190 Series II Fluke 190-062, -102, -104, -202, -204, -502 Users Manual May 2011 © 2011 Fluke Corporation. All rights reserved. Specifications are subject to change without notice. All product names are trademarks of their respective companies.
SCOPE 1 CURSOR 2 METER 1 3 1 SCOPE CURSOR METER ZOOM ZOOM 3 REPLAY REPLAY RECORDER 2 3
LIMITED WARRANTY & LIMITATION OF LIABILITY Each Fluke product is warranted to be free from defects in material and workmanship under normal use and service. The warranty period is three years for the test tool and one year for its accessories. The warranty period begins on the date of shipment. Parts, product repairs and services are warranted for 90 days.
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Table of Contents Chapter Title Page Introduction.............................................................................................................................. 1 Unpacking the Test Tool Kit........................................................................................... 2 Safety Information: Read First ....................................................................................... 5 Safe Use of Li-ion battery pack ........................................................
ScopeMeter 190 Series II Users Manual Displaying an Unknown Signal with Connect-and-View™.............................................. Making Automatic Scope Measurements....................................................................... Freezing the Screen ...................................................................................................... Using Average, Persistence and Glitch Capture............................................................ Acquiring Waveforms.....................
Contents (continued) Triggering on External Waveforms (models 190-xx2) .................................................... 64 Triggering on Video Signals ........................................................................................... 65 Triggering on Pulses ...................................................................................................... 67 5 Using Memory and PC.................................................................................................
ScopeMeter 190 Series II Users Manual Calibrating the Voltage Probes ...................................................................................... Displaying Version and Calibration Information ............................................................. Displaying Battery Information ....................................................................................... Parts and Accessories ...................................................................................................
Introduction Introduction Version Description Read “Safety Information” before using this instrument. 190-062 Two 60 MHz Scope Inputs (BNC), One Meter Input (banana jacks). The descriptions and instructions in this manual apply to all ScopeMeter 190 Series II versions (hereafter referred to as the instrument or as the test tool). The versions are listed below. The version 190-x04 appears in most illustrations. 190-102 Two 100 MHz Scope Inputs (BNC), One Meter Input (banana jacks).
Fluke 190 Series II Users Manual Unpacking the Test Tool Kit Note When new, the rechargeable Li-ion battery is not fully charged. See Chapter 7. The following items are included in your test tool kit: 5 4 2 1 3 14 12345 - 12345 - 12345 6 d a (4x) e (4x) b c (4x) (4x) (4x) 15 7 d (2x) a e 8 9 10 c (2x) b (2x) (2x) g (2x) (2x) CAT II 1000V CAT III 1000V CAT IV 600V f 11 12 13 Figure 1.
Unpacking the Test Tool Kit All Fluke 190 Series II versions include the following items: # 1 2 Description ScopeMeter Test Tool including # Description − side strap 7 Voltage Probe Set (red) − battery pack BP290 (models 190-xx2) or BP291 (models 190-xx4 and 190-5xx) 8 Voltage Probe Set (blue) 9 Voltage Probe Set (gray), not for 190-xx2 Hang Strap (see Chapter 6 for mounting instructions) 10 Voltage Probe Set (green), not for 190-xx2 3 Power Adapter (country dependent) 4 USB interface cab
Fluke 190 Series II Users Manual The Fluke 190-502 includes also: # Description 11 Voltage Probe Set (red) 12 Voltage Probe Set (blue) Each set includes: a) 10:1 Voltage Probe, 500 MHz (red or blue) b) Hook Clip for Probe Tip (black ) c) Ground Lead with Mini Alligator Clip (black) d) Ground Spring for Probe Tip (black) e) Insulation Sleeve (black ) f) Probe Tip to BNC Adapter g) 50 Ohm Terminator 13 4 Test Leads with test pins (one red, one black).
Safety Information: Read First Safety Information: Read First Read all safety information before you use the product. Specific warning and caution statements, where they apply, appear throughout the manual. A “Warning” identifies conditions and actions that pose hazard(s) to the user. A “Caution” identifies conditions and actions that may damage the product.
Fluke 190 Series II Users Manual Warning To avoid electrical shock or fire: • Use only the Fluke power supply, Model BC190 (Power Adapter). • Before use check that the selected/indicated range on the BC190 matches the local line power voltage and frequency. • For the BC190/808 universal Power Adapter only use line cords that comply with the local safety regulations.
Safety Information: Read First • Do not apply input voltages above the rating of the instrument. Use caution when using 1:1 test leads because the probe tip voltage will be directly transmitted to the product. • Do not use exposed metal BNC or banana plug connectors. Fluke offers cables with plastic, safety designed BNC connectors suitable for the ScopeMeter product, see Chapter 7 ‘Optional accessories’. • Do not insert metal objects into connectors.
Fluke 190 Series II Users Manual Voltage ratings that are mentioned in the warnings, are given as limits for “working voltage”. They represent V ac rms (50-60 Hz) for ac sinewave applications and as V dc for dc applications. Measurement Category IV refers to the overhead or underground utility service of an installation. Measurement Category III refers to distribution level and fixed installation circuits inside a building.
Safe Use of Li-ion battery pack Safe Use of Li-ion battery pack The battery pack Fluke model BP290 (26 Wh)/BP291 (52 Wh) has been tested in accordance with the UN Manual of Tests and Criteria Part III Subsection 38.3 (ST/SG/AC.10/11/Rev.3) – more commonly known as the UN T1..T8 – tests, and have been found to comply with the stated criteria. The battery pack has been tested acc. to EN/IEC62133. As a result they can be shipped unrestricted internationally by any means.
Fluke 190 Series II Users Manual Do not short-circuit a battery pack. Do not keep battery packs in a place where the terminals can be shorted by metal objects (e.g. coins, paperclips, pens or other). • Check-in luggage: battery packs are only allowed when installed in the Product. • Hand carried luggage: a number of battery packs as required for normal and individual use is allowed. • Never use a battery pack or charger showing visible damage.
Chapter 1 Using the Scope and Meter About this Chapter This chapter provides a step-by-step introduction to the scope and meter functions of the test tool. The introduction does not cover all of the capabilities of the functions but gives basic examples to show how to use the menus and perform basic operations. 3 Powering the Test Tool 2 Follow the procedure (steps 1 through 3) in Figure 2 to power the test tool from a standard ac outlet. See Chapter 6 for instructions on using battery power.
Fluke 190 Series II Users Manual Resetting the Test Tool If you want to reset the test tool to the factory settings, do the following: 1 2 Turn the test tool off. USER 3 Press and hold the USER key. Press and release. The test tool turns on, and you should hear a double beep, indicating the reset was successful. 4 USER Release the USER key. Now look at the display; you will see a screen that looks like Figure 3. 12 Figure 3.
Using the Scope and Meter Navigating a Menu Navigating a Menu 1 SCOPE ENTER The following example shows how to use the test tool's menus to select a function. Subsequently follow steps 1 through 4 to open the scope menu and to choose an item. 1 SCOPE Press the SCOPE key to display the labels that define the present use for the four blue function keys at the bottom of the screen. 1 3b 3b 3b ENTER ENTER ENTER 3a 3a Note To hide the labels for full screen view, press the CLEAR key.
Fluke 190 Series II Users Manual Hiding Key Labels and Menus Key Illumination You can close a menu or hide key label at any time: Some keys are provided with an illumination LED. For an explanation of the LED function see the table below. CLEAR Hide any key label, press again to display the key label again (toggle function). A displayed menu will be closed. To display menus or key labels, press one of the yellow menu keys, e.g. the SCOPE key. You can also close a menu using the CLOSE.
Using the Scope and Meter Input Connections 1 Input Connections Making Input Connections Look at the top of the test tool. The test tool has four safety BNC jack signal inputs (models 190–xx4), or two safety BNC jack inputs and two safety 4-mm banana jack inputs (models 190-xx2). To make scope measurements connect the red voltage probe to input A, the blue voltage probe to input B, the grey voltage probe to input C and the green voltage probe to input D.
Fluke 190 Series II Users Manual Adjusting the Probe Type Settings To obtain correct measurement results the test tool probe type settings must correspond to the connected probe types. To select the input A probe setting do the following: 1 2 A Open the PROBE ON A menu. F3 3 Figure 6. Scope Connections Display the INPUT A key labels.
Using the Scope and Meter Selecting an Input Channel Tip Selecting an Input Channel To select an input channel, do the following: A Press the required channel key (A…D): B - the channel is turned on C - labels for the F1…F4 keys are shown. Press the channel key again to turn the labels off/on (toggle). D - the channel key illumination is turned on mV RANGE V MOVE If the channel key is illuminated, the RANGE and MOVE UP/DOWN keys are now assigned to the indicated channel.
Fluke 190 Series II Users Manual Displaying an Unknown Signal with Connect-and-View™ 2 The Connect-and-View feature lets the test tool display complex, unknown signals automatically. This function optimizes the position, range, time base, and triggering and assures a stable display of virtually any waveform. If the signal changes, the setup is automatically adjusted to maintain the best display result. This feature is especially useful for quickly checking several signals.
Using the Scope and Meter Making Automatic Scope Measurements Making Automatic Scope Measurements The test tool offers a wide range of automatic scope measurements. In addition to the waveforms you can display four numeric readings: READING 1 … 4. These readings are selectable independently, and the measurements can be done on the input A , input B, input C or input D waveform. To choose a frequency measurement for input A, do the following: 1 2 3 SCOPE 5 1 Select the Hz measurement.
Fluke 190 Series II Users Manual 5 Open the PEAK menu. ENTER 6 ENTER You can freeze the screen (all readings and waveforms) at any time. 1 HOLD RUN Freeze the screen. HOLD appears at the right of the reading area. The key illumination is on. 2 HOLD RUN Resume your measurement. The key illumination is off. Select the Peak-Peak measurement. Figure 8 shows an example of the screen with two readings. The character size will be reduced when more then two readings are on. Figure 8.
Using the Scope and Meter Using Average, Persistence and Glitch Capture Using Average, Persistence and Glitch Capture 5 ENTER Select Average factor: Average 64. This averages the outcomes of 64 acquisitions. ENTER Select Average: Normal (normal average) or Smart (smart average, see below) Using Average for Smoothing Waveforms To smooth the waveform, do the following: 1 2 SCOPE Display the SCOPE key labels. Open the WAVEFORM OPTIONS menu.
Fluke 190 Series II Users Manual Using Persistence, Envelope and Dot-Join to Display Waveforms You can use Persistence to observe dynamic signals. 1 2 SCOPE Open the WAVEFORM OPTIONS menu. F4 3 Figure 9. Smoothing a Waveform Display the SCOPE key labels. ENTER 4 ENTER Jump to Waveform: and open the Persistence... menu. Select Digital Persistence: Short, Medium, Long or Infinite to observe dynamic waveforms like on an analog oscilloscope.
Using the Scope and Meter Using Average, Persistence and Glitch Capture Select Display: Dot-join: Off to display measured samples only. Dot join off may be useful when measuring for example modulated signals or video signals. Select Display: Normal to turn the envelope mode off and the dot-join function on. 1 Displaying Glitches To capture glitches on a waveform, do the following: 1 2 SCOPE Display the SCOPE key labels. Open the WAVEFORM OPTIONS menu.
Fluke 190 Series II Users Manual Suppressing High Frequency Noise Acquiring Waveforms Switching the glitch detection off (Glitch: Off) will suppress the high frequency noise on a waveform. Averaging will suppress the noise even more. Setting the Acquisition Speed and Waveform Memory Depth 1 2 SCOPE F4 3 ENTER 4 Display the SCOPE key labels. 1 Open the WAVEFORM OPTIONS menu. 2 Select Glitch: Off, then select Average: On… to open the AVERAGE menu 3 Select Average 8 .
Using the Scope and Meter Acquiring Waveforms 4 Exit the menu F4 See also Table 2 in Chapter 8. Selecting AC-Coupling After a reset, the test tool is dc-coupled so that ac and dc voltages appear on the screen. Use ac-coupling when you wish to observe a small ac signal that rides on a dc signal. To select ac-coupling, do the following: 1 A Reversing the Polarity of the Displayed Waveform To invert, for example the input A waveform, do the following: 1 2 A Display the INPUT A key labels.
Fluke 190 Series II Users Manual Variable Input Sensitivity 4 Open the INPUT A menu. F4 The variable input sensitivity allows you to adjust any input sensitivity continuously, for example to set the amplitude of a reference signal to exactly 6 divisions. The input sensitivity of a range can be increased up to 2.5 times, for example between 10 mV/div and 4 mV/div in the 10 mV/div range.
Using the Scope and Meter Acquiring Waveforms Working with Noisy Waveforms Using Mathematics Functions +, -, x, XY-mode To suppress high frequency noise on waveforms, you can limit the working bandwidth to 20 kHz or 20 MHz. This function smoothes the displayed waveform. For the same reason, it improves triggering on the waveform. You can add (+), subtract (-), or multiply (x) two waveforms. The test tool will display the mathematical result waveform and the source waveforms.
Fluke 190 Series II Users Manual 4 ENTER Select Function: +, -, x or XYmode. ENTER Select the first waveform: Source 1: A, B, C or D ENTER Select the second waveform: Source 2: A, B, C or D 5 6 The mathematical function key labels will be displayed now: Using Mathematics Function Spectrum (FFT) The Spectrum function shows the spectral content of the input A, B, C or D waveform in the input trace color.
Using the Scope and Meter Acquiring Waveforms 3 ENTER 4 Jump to Waveform: and select Mathematics... to open the Mathematics menu. Select Function: Spectrum. ENTER 5 ENTER 6 ENTER Select the source waveform for the spectrum: Source : A, B, C or D Select Window: Auto (automatic windowing), Hanning, Hamming, or None (no windowing). 1 If it displays WRONG TB the time base setting does not enable the test tool to display an FFT result.
Fluke 190 Series II Users Manual Comparing Waveforms You can display a fixed reference waveform with the actual waveform for comparison. To create a reference waveform and to display it with the actual waveform, do the following: 1 2 SCOPE Display the SCOPE key labels. Open the Waveform Options menu. F4 Figure 11. Spectrum measurement 3 ENTER 30 Jump to the Waveform field and select Reference… to open the WAVEFORM REFERENCE menu.
Using the Scope and Meter Acquiring Waveforms 4 ENTER Select On to display the reference waveform. This can be: - the last used reference waveform (if not available no reference waveform will be shown). - the envelope waveform if the persistence function Envelope is on. Select Recall… to recall a saved waveform (or waveform envelope) from memory and use it as a reference waveform. 6 ENTER 1 Store the momentary waveform and display it permanently for reference.
Fluke 190 Series II Users Manual Pass - Fail Testing Analyzing Waveforms You can use a reference waveform as a test template for the actual waveform. If at least one sample of a waveform is outside the test template, the failed or passed scope screen will be stored. Up to 100 screens can be stored. If the memory is full, the first screen will be deleted in favor of the new screen to be stored. You can use the analysis functions CURSOR, ZOOM and REPLAY to perform detailed waveform analysis.
Using the Scope and Meter Making Automatic Meter Measurements (for models 190-xx4) Making Automatic Meter Measurements (for models 190-xx4) 3 The test tool offers a wide range of automatic meter measurements. You can display four large numeric readings: READING 1 … 4. These readings are selectable independently, and the measurements can be done on the input A, B, C or input D waveform. In METER mode the waveforms are not displayed.
Fluke 190 Series II Users Manual Making Relative Meter Measurements A relative measurement displays the present measurement result relative to a defined reference value. Now the large reading is the actual input value minus the stored reference value. The actual input value is displayed below the large reading (ACTUAL: xxxx), see Figure 13. The following example shows how to perform a relative voltage measurement. First obtain a reference value: 1 METER 2 3 4 34 Display the METER key labels.
Using the Scope and Meter Making Multimeter Measurements (for models 190-xx2) Adjusting the reference value To adjust the reference value, do the following: 5 F3 6 F1 Display the Adjust Reference menu. Select the applicable relative measurement reading. Making Multimeter Measurements (for models 190-xx2) The screen displays the numeric readings of the measurements on the meter input. Making Meter Connections Use the two 4-mm safety red ( ) and black (COM) banana jack inputs for the Meter functions.
Fluke 190 Series II Users Manual Measuring Resistance Values To measure a resistance, do the following: 1 2 3 The resistor value is displayed in ohms. Observe also that the bargraph is displayed. (See Figure 15.) Connect the red and black test leads from the 4-mm banana jack inputs to the resistor. METER F1 Display the METER key labels. Open the MEASUREMENT menu. 4 Highlight Ohms. 5 Select Ohms measurement. Figure 15.
Using the Scope and Meter Making Multimeter Measurements (for models 190-xx2) 1 Making a Current Measurement You can measure current in both Scope mode and Meter mode. Scope mode has the advantage of waveforms being displayed while you perform measurements. Meter mode has the advantage of high measurement resolution. The next example explains a typical current measurement in Meter mode. Warning Figure 16. Measurement Setup 3 F1 Open the MEASUREMENT menu.
Fluke 190 Series II Users Manual Observe the sensitivity of the current probe. Highlight the corresponding sensitivity in the menu, e.g. 1 mV/A. 6 7 ENTER Accept the current measurement. Now, you will see a screen like in Figure 17 Selecting Auto/Manual Ranges To activate manual ranging, do the following during any Meter measurement: 1 2 MANUAL AUTO mV Activate manual ranging. Increase (V) or decrease (mV) the range. RANGE V Observe how the bargraph sensitivity changes.
Using the Scope and Meter Making Multimeter Measurements (for models 190-xx2) Making Relative Meter Measurements A relative measurement displays the present measurement result relative to a defined reference value. The following example shows how to perform a relative voltage measurement. First obtain a reference value: 1 METER 2 3 4 1 Now the large reading is the actual input value minus the stored reference value. The bargraph indicates the actual input value.
Fluke 190 Series II Users Manual Adjusting the reference value To adjust the reference value, do the following: 5 F3 Display the Adjust Reference menu. 6 Select the digit you want to adjust. 7 Adjust the digit. Repeat step 6 and step 7 until finished. 8 40 ENTER Enter the new reference value.
Chapter 2 Using The Recorder Functions About this Chapter This chapter provides a step-by-step introduction to the recorder functions of the test tool. The introduction gives examples to show how to use the menus and perform basic operations. Opening the Recorder Main Menu First choose a measurement in scope or meter mode. Now you can choose the recorder functions from the recorder main menu. To open the main menu, do the following: 1 RECORDER Open the recorder main menu. (See Figure 19). Figure 19.
Fluke 190 Series II Users Manual Plotting Measurements Over Time (TrendPlot™) Use the TrendPlot function to plot a graph of Scope or Meter measurements (readings) as function of time. Starting a TrendPlot Function To start a TrendPlot, do the following: 1 Note 2 Because the navigations for the Trendplot Scope and the Trendplot Meter are identical, only Scope Trendplot is explained in the next sections. 3 4 Make automatic Scope or Meter measurements, see Chapter 1.
Using The Recorder Functions Plotting Measurements Over Time (TrendPlot™) Note When simultaneously TrendPlotting two readings, the screen area is split into two sections of four divisions each. When simultaneously TrendPlotting three or four readings, the screen area is split into three or four sections of two divisions each. 2 When the test tool is in automatic mode, automatic vertical scaling is used to fit the TrendPlot graph on the screen. 5 F1 Set RECORDER to STOP to freeze the recorder function.
Fluke 190 Series II Users Manual Displaying Recorded Data Changing the Recorder Options When in normal view (NORMAL), only the twelve most recently recorded divisions are displayed on screen. All previous recordings are stored in memory. At the lower right of the display, the status line indicates a time. You can choose this time to represent either the start time of the recording (‘Time of Day’) or the time elapsed since the start of the recording (‘From Start’).
Using The Recorder Functions Recording Scope Waveforms In Deep Memory (Scope Record) 2 Recording Scope Waveforms In Deep Memory (Scope Record) The SCOPE RECORD function is a roll mode that logs a long waveform of each active input. This function can be used to monitor waveforms like motion control signals or the power-on event of an Uninterruptable Power Supply (UPS). During recording, fast transients are captured. Because of the deep memory, recording can be done for more than one day.
Fluke 190 Series II Users Manual Displaying Recorded Data Using Scope Record in Single Sweep Mode In Normal view, the samples that roll off the screen are stored in deep memory. When the memory is full, recording continues by shifting the data in memory and deleting the first samples out of memory. Use the recorder Single Sweep function to automatically stop recording when the deep memory is full. In View All mode, the complete memory contents are displayed on the screen.
Using The Recorder Functions Recording Scope Waveforms In Deep Memory (Scope Record) Using Triggering to Start or Stop Scope Record 6 2 Open the RECORDER OPTIONS menu. F2 To record an electrical event that causes a fault, it might be useful to start or stop recording on a trigger signal: Start on trigger to start recording; recording stops when the deep memory is full Stop on trigger to stop recording.
Fluke 190 Series II Users Manual 9 ENTER 10 ENTER 11 Select the desired trigger slope (Slope:) and jump to Level: Select the 0.12V or 1.2V trigger level and accept all recorder options. Apply a trigger signal to the red and black ext. trigger banana inputs. During recording samples are continuously saved in deep memory. The last twelve recorded divisions are displayed on the screen. Use View All to display the full memory contents. Figure 22.
Chapter 3 Using Replay, Zoom and Cursors About this Chapter This chapter covers the capabilities of the analysis functions Cursor, Zoom, and Replay. These functions can be used with one or more of the primary functions Scope, TrendPlot or Scope Record. It is possible to combine two or three analysis functions. A typical application using these functions follows: • First replay the last screens to find the screen of special interest. • Then zoom in on the signal event.
Fluke 190 Series II Users Manual Replaying Step-by-Step To step through the last scope screens, do the following: 1 REPLAY From scope mode, open the REPLAY menu. Observe that the trace is frozen and that REPLAY appears at the top of the screen (see Figure 23). 2 3 F1 F2 Step through the previous screens. Step through the next screens. Observe that the bottom of the waveform area displays the replay bar with a screen number and related time stamp: Figure 23.
Using Replay, Zoom and Cursors Replaying the 100 Most Recent Scope Screens Replaying Continuously You can also replay the stored screens continuously, like playing a video tape. To replay continuously, do the following: 1 REPLAY From Scope mode, open the REPLAY menu. Observe that the trace is frozen and REPLAY appears at the top of the screen. 2 F3 Continuously replay the stored screens in ascending order. 3 Turning Off the Replay Function 4 F4 Turn off REPLAY.
Fluke 190 Series II Users Manual Zooming in on a Waveform To obtain a more detailed view of a waveform, you can zoom in on a waveform using the ZOOM function. To zoom in on a waveform, do the following: 1 ZOOM Display the ZOOM key labels. ZOOM appears at the top of the screen, and the waveform is magnified. 2 3 Enlarge (decrease the time/div) or shrink (increase the time/div) the waveform. Scroll. A position bar displays the position of the zoomed part in relation to the total waveform.
Using Replay, Zoom and Cursors Making Cursor Measurements Making Cursor Measurements Cursors allow you to make precise digital measurements on waveforms. This can be done on live waveforms, recorded waveforms, and on saved waveforms. 3 Note Even when the key labels are not displayed at the bottom of the screen, you still can use the arrow keys. This allows full control of both cursors while having full screen view.
Fluke 190 Series II Users Manual Using Vertical Cursors on a Waveform 7 F2 Highlight the right cursor. To use the cursors for a time measurement (T, 1/T), for a mVs-mAs-mWs measurement, or for an RMS measurement of the trace section between the cursors, do the following: 1 2 3 CURSOR From scope mode, display the cursor key labels. F1 Press to highlight . Observe that two vertical cursors are displayed. Markers (—) identify the selected point where the cursors cross the waveform.
Using Replay, Zoom and Cursors Making Cursor Measurements Notes − For mVs select probe type ‘Voltage’. − For mAs select probe type ‘Current’. − For mWs select mathematical function x, and probe type ‘Voltage’ for one channel and ‘Current’ for the other channel. Using Cursors on a Mathematical Result (+ - x) Waveform 3 Using Cursors on Spectrum Measurements To do a cursor measurent on a spectrum, do the following: 1 2 CURSOR From Spectrum measurement display the cursor key label.
Fluke 190 Series II Users Manual Making Rise Time Measurements To measure rise time, do the following: 1 CURSOR From scope mode, display the cursor key labels. 2 F1 Press to highlight (rise time). Observe that two horizontal cursors are displayed. 3 F4 For multiple traces select the required trace A, B, C, D or M (if a math function is active). 4 F3 Select MANUAL or AUTO (this automatically does steps 5 to 7). 5 6 7 56 Move the upper cursor to 100% of the trace height.
Chapter 4 Triggering on Waveforms About this Chapter • This chapter provides an introduction to the trigger functions of the test tool. Triggering tells the test tool when to begin displaying the waveform. You can use fully automatic triggering, take control of one or more main trigger functions (semi-automatic triggering), or you can use dedicated trigger functions to capture special waveforms.
Fluke 190 series II Users Manual Setting Trigger Level and Slope The Connect-and-View™ function enables hands-off triggering to display complex unknown signals. When your test tool is in manual range, do the following: MANUAL AUTO Perform an auto set. AUTO appears at the top right of the screen. Automatic triggering assures a stable display of virtually any signal. From this point, you can take over the basic trigger controls such as level, slope and delay.
Triggering on Waveforms Using Trigger Delay or Pre-trigger Using Trigger Delay or Pre-trigger You can begin to display the waveform some time before or after the trigger point has been detected. Initially, you have a half screen (6 divisions) of pre-trigger view (negative delay). 4 When a valid trigger signal is found, the trigger key will be lit and the trigger parameters appear in black. When no trigger is found, the trigger parameters appear in gray, ands the key light will be off.
Fluke 190 series II Users Manual Automatic Trigger Options In the trigger menu, settings for automatic triggering can be changed as follows. (See also Chapter 1: “Displaying an Unknown Signal with Connect-and-View”) 1 TRIGGER Display the TRIGGER key labels. Note The TRIGGER key labels can differ depending on the latest trigger function used. 2 Open the TRIGGER OPTIONS menu. F4 3 Open the AUTOMATIC TRIGGER menu.
Triggering on Waveforms Triggering on Edges Triggering on Edges If the signal is unstable or has a very low frequency, use edge triggering to obtain full manual trigger control. To trigger on rising edges of the input A waveform, do the following: 1 2 TRIGGER F4 When Free Run is selected, the test tool updates the screen even if there are no triggers. A trace always appears on the screen. When On Trigger is selected, the test tool needs a trigger to display a waveform.
Fluke 190 series II Users Manual Triggering on Noisy Waveforms To reduce jitter on the screen when triggering on noisy waveforms, you can use a trigger filter. Continue from step 3 of the previous example as follows: 4 ENTER 5 ENTER Select On Trigger, jump to Trigger Filter. Set Noise Reject or HF Reject to On. This is indicated by a taller trigger icon . When Noise Reject is on, an increased trigger gap will be applied.
Triggering on Waveforms Triggering on Edges N-Cycle Triggering N-Cycle triggering enables you to create a stable picture of for example n-cycle burst waveforms. Each next trigger is generated after the waveform has crossed the trigger level N times in the direction that complies with the selected trigger slope. 7 Set the number of cycles N 8 Adjust the trigger level 4 Traces with N-Cycle triggering (N=2) and without N-Cycle triggering are shown in Figure 31.
Fluke 190 series II Users Manual Triggering on External Waveforms (models 190-xx2) Observe that the key labels at the bottom of the screen have been adapted to allow selection of two different external trigger levels: 0.12 V and 1.2 V: Use external triggering when you want to display waveforms on inputs A and B while triggering on a third signal. You can choose external triggering with automatic triggering or with edge triggering. 1 Supply a signal to the red and black 4-mm banana jack inputs.
Triggering on Waveforms Triggering on Video Signals 4 Triggering on Video Signals To trigger on a video signal, first select the standard of the video signal you are going to measure: 1 2 3 Apply a video signal to the red input A. TRIGGER Display the TRIGGER key labels. Open the Trigger Options menu. F4 Figure 32. Measuring Interlaced Video Signals 4 ENTER Select Video on A … to open the TRIGGER ON VIDEO menu. 6 ENTER Select a video standard or Non interlaced… and return.
Fluke 190 series II Users Manual Triggering on Video Frames Triggering on Video Lines Use FIELD 1 or FIELD 2 to trigger either on the first half of the frame (odd) or on the second half of the frame (even).To trigger on the second half of the frame, do the following: Use ALL LINES to trigger on all line synchronization pulses (horizontal synchronization). 7 F1 Choose FIELD 2. The signal part of the even field is displayed on the screen. 7 F2 Choose ALL LINES.
Triggering on Waveforms Triggering on Pulses 4 Triggering on Pulses Use pulse width triggering to isolate and display specific pulses that you can qualify by time, such as glitches, missing pulses, bursts or signal dropouts. 5 ENTER 6 Select
Fluke 190 series II Users Manual Tip The test tool stores all triggered screens in the replay memory. For example, if you setup your triggering for glitches, you can capture 100 glitches with time stamps. Use the REPLAY key to look at all the stored glitches. Finding Missing Pulses The next example covers finding missing pulses in a train of positive pulses. In this example it is assumed that the pulses have a 100 ms distance between the rising edges.
Triggering on Waveforms Triggering on Pulses 4 ENTER 5 4 Select the positive pulse icon to trigger on a positive pulse, then jump to Condition: Select >t, then jump to Update: ENTER 6 ENTER Select On Trigger and exit the menu. The test tool is now prepared to trigger on pulses that are more than a selectable time in duration. Observe that the trigger menu at the bottom of the screen has been adapted to set the pulse condition: Figure 34.
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Chapter 5 Using Memory and PC About this Chapter This chapter provides a step-by-step introduction to the general functions of the test tool that can be used in the three main modes: Scope, Meter, or Recorder. You will find information on computer communication at the end of this chapter. Using the USB Ports The ports are fully isolated from the input channels and are covered with dust covers when not in use.
Fluke 190 series II Users Manual Saving and Recalling Mode You can: • • • Table 1. Test Tool Internal Memory Save screens and setups to internal memory, and recall them again from memory. The test tool has 15 ‘screen and setup’ memories, 2 ‘record and setup’ memories, and 1 screen image memory. See also Table 1. Save up to 256 screens and setups to a USB memory device, and recall them again from memory. Name saved screens and setups according to your own preferences.
Using Memory and PC Saving and Recalling Saving Screens with Associated Setups 3 Select the target memory INT (internal memory) or USB (USB device). F1 To save for example a screen+setup in Scope mode, do the following: 1 SAVE 2 F1 Observe the new SAVE menu if you select USB. Display the SAVE key labels. From this point the screen is frozen. 5 4 ENTER Select Screen+Setup and open the SAVE AS menu. Open the SAVE menu.
Fluke 190 series II Users Manual All memories in use Editing names If no free memory locations are available a message pops up that proposes to you to overwrite the oldest data set. Do one of the following: To name the screen+setup according to your own preferences, continue from step 4 as follows: 5 F1 Open the EDIT NAME menu - press F3 6 F2 Skip to a new character position.
Using Memory and PC Saving and Recalling 10 ENTER Highlight OK SAVE to save the actual screen using the new default name. Notes The ‘record+setup’ memory locations store more than just what is visible on the screen. In TrendPlot or Scope Record mode the full recording is saved. In scope mode you can save all 100 replay screens in a single record+setup memory location. The table below shows what you can store for the various test tool modes. 5 Saving Screens in .
Fluke 190 series II Users Manual Deleting Screens with Associated Setups Recalling Screens with Associated Setups To delete a screen and associated setup, do the following: To recall a screen+setup, do the following: 1 SAVE Display the SAVE key labels. 1 SAVE Display the SAVE key labels. 2 F4 Open the FILE OPTIONS menu. 2 F2 Open the RECALL menu. 3 F1 Select the source, internal memory (INT) or a USB device. 3 F1 Select the source, internal memory (INT) or a USB device.
Using Memory and PC Saving and Recalling 5 Recalling a Setup Configuration Viewing Stored Screens To recall a setup configuration, do the following: To scroll through the memories while looking at the stored screens, do the following: 1 SAVE Display the SAVE key labels. 1 2 F2 Open the RECALL menu. 3 F1 Select the source, internal memory (INT) or a USB device. 4 5 ENTER Accept your choice and jump to the filename field. Select the file to be recalled, ENTER F2 Open the RECALL menu.
Fluke 190 series II Users Manual 9 Exit the View mode. F4 Note: In the VIEW mode the replay screens of a saved ‘record+setup’ cannot be viewed! Only the screen at the instant of saving can be reviewed in this way. To see all replay screens recall them from memory using the RECALL option. 6 7 8 Highlight the file to be renamed. ENTER Skip to a new character position. F2 F3 9 Select another character.
Using Memory and PC Saving and Recalling Copying-Moving Stored Screens and Setup Files 6 Select the file to be copied or moved, You can copy or move a file from internal memory to a USB device or from a USB device to internal memory. Or To copy or to move a file, do the following: 1 SAVE Display the SAVE key labels. 2 F4 Open the FILE OPTIONS menu. 3 F1 Select the source, internal memory (INT) or a USB device. The other memory will become the destination.
Fluke 190 series II Users Manual Using FlukeView® With the FlukeView® software you can upload waveform data and screen bitmaps to your PC or notebook computer for further processing. USB drivers for the test tool and a FlukeView® Demo version with restricted functionality are available on the CD-ROM included in the shipment. Figure 36.
Chapter 6 Tips About this Chapter Using the Standard Accessories This chapter gives you information and tips on how you can make the best use of the test tool. The following illustrations show the use of the standard accessories such as voltage probes, test leads, and the various clips.
Fluke 190 Series II Users Manual A Figure 37. HF Voltage Probe Connection Using Ground Spring Warning To avoid electrical shock or fire, do not connect the ground spring to voltages higher than 30 Vrms from earth ground. 82 Figure 38. HF Voltage Probe Connection Using Probe Tip to BNC Adapter (190-5xx) Warning To avoid electrical shock or fire, do not connect the probe tip to BNC adapter to voltages higher than 30 Vrms from earth ground.
Tips Using the Independently Floating Isolated Inputs 6 Using the Independently Floating Isolated Inputs You can use the independently floating isolated inputs to measure signals that are independently floating from each other. Independently floating isolated inputs offer additional safety and measurement capabilities compared to inputs with common references or grounds. Measuring Using Independently Floating Isolated Inputs Figure 39.
Fluke 190 Series II Users Manual • Additional safety. Since the commons are not directly connected, the chance of causing short circuit when measuring multiple signals is greatly reduced. • Additional safety. When measuring in systems with multiple grounds, the ground currents induced are kept to a minimum. A B C D Because the references are not connected together inside the test tool, each reference of the used inputs must be connected to a reference voltage.
Tips Using the Independently Floating Isolated Inputs ANALOG INPUT ANALOG GROUND Figure 41. Probe Tip DC BUS MOTION/MOTOR CONTROLLER + 6 DIGITAL CONTROLLER DIGITAL GROUND D A Figure 43. Correct connection of reference leads M DIGITAL GROUND DC BUS - D A Figure 42.
Fluke 190 Series II Users Manual ANALOG INPUT ANALOG GROUND DIGITAL CONTROLLER Using the Tilt Stand The test tool is equipped with a tilt stand, allowing viewing from an angle while placed on a table. The typical position is shown in Figure 45. DIGITAL GROUND ® D Kensington lock support A Power adapter input Figure 44. Wrong connection of reference leads Noise that is picked up by reference lead D can be transmitted by parasitic capacitance to the analog input amplifier. Figure 45.
Tips Kensington®-lock 6 Kensington®-lock Fixing the Hangstrap The test tool is provided with a security slot compatible with a Kensington® lock, see Figure 45. A hang strap is supplied with the test tool. The figure below shows how to attach the strap correctly to the test tool. The Kensington Security Slot along with a locking cable provides physical security against thefts of opportunity. Locking cables can be obtained from, for example, laptop computer accessory dealers. Figure 46.
Fluke 190 Series II Users Manual Resetting the Test Tool Suppressing Key Labels and Menu’s If you want to reset the test tool to the factory settings, without clearing the memories, do the following: You can close a menu or hide key label at any time: CLEAR 1 2 Turn the test tool off. USER 3 Press and hold. Press and release. The test tool turns on, and you should hear a double beep, indicating the reset was successful. 4 88 USER Release.
Tips Changing the Information Language Changing the Information Language Adjusting the Contrast and Brightness During operation of the test tool, messages may appear at the bottom of the screen. You can select the language in which these messages are displayed. In this example you can select English or French. To change the language from English to French, do the following: To adjust the contrast and backlight brightness, do the following: 1 2 USER F2 Open the LANGUAGE SELECT menu.
Fluke 190 Series II Users Manual Changing Date and Time The test tool has a date and time clock. For example, to change the date to 19 April, 2012, do the following: 1 USER Display the USER key labels. 7 ENTER Choose DD/MM/YY, accept the new date. You can change the time in a similar way by opening the Time Adjust… menu (steps 2 and 3.) Saving Battery Life 2 Open the USER OPTIONS menu. F1 3 Open the DATE ADJUST menu.
Tips Saving Battery Life 6 Setting the Power Down Timer Setting the Display AUTO-off Timer Initially the power shutdown time is 30 minutes. You can set the power shutdown time to 5 minutes as following: Initially the display AUTO-off timer is disabled (no automatic display turn off). You can set the display AUTO-off timer to 30 seconds or to 5 minutes as following: 1 2 USER Display the USER key labels. 1 USER Display the USER key labels. Open the USER OPTIONS menu.
Fluke 190 Series II Users Manual To turn on the display again do one of the following: Changing the Auto Set Options • Press any key. The Display Auto-Off timer starts again and the display will be turned off when the time has elapsed. With the next procedure you can choose how auto set behaves when you press the AUTO-MANUAL (auto set) key. • Connect the power adapter; the Auto-Off timer is inactive now. 1 2 USER Display the USER key labels. Open the USER OPTIONS menu.
Tips Changing the Auto Set Options 4 ENTER 6 Select 1 Hz and up, then jump to Input Coupling: When you press the AUTO-MANUAL (auto set) key, the input coupling can either be set to dc or left unchanged: 5 Select Unchanged. ENTER When you press the AUTO-MANUAL (auto set) key glitch capture can either be set to On or left unchanged: 6 Select Unchanged. ENTER Note The auto set option for the signal frequency is similar to the automatic trigger option for the signal frequency.
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Chapter 7 Maintaining the Test Tool About this Chapter This chapter covers basic maintenance procedures that can be performed by the user. For complete service, disassembly, repair, and calibration information, see the Service Manual. (www.fluke.com) Warning • Have an approved technician repair the product. • Use only specified replacement parts. • Before carrying out any maintenance, carefully read the safety information at the beginning of this manual.
Fluke 190 Series II Users Manual Charging the Batteries At delivery, the Li-ion batteries may be empty and must be charged for 5 hours (with the test tool turned off) to reach full charge. When battery power is used, the battery indicator at the top of the screen informs you about the condition of the . The batteries. The battery symbols are: symbol indicates that there are typically five minutes of operating time left. See also Displaying Battery Information on page 101.
Maintaining the Test Tool Replacing the Battery Pack 7 Replacing the Battery Pack Warning Use only the Fluke BP290 (not recommended for 190-xx4) or BP291 for replacement! When no adapter power is supplied, data saved in the test tool memory is maintained if the battery is replaced within 30 seconds. To avoid loss of data, do one of the following before removing the battery: − − Store the data on a computer or a USB device. Connect the power adapter. To replace the battery pack, proceed as follows: 1.
Fluke 190 Series II Users Manual Figure 49. Removing the Battery Cover 98 Figure 50.
Maintaining the Test Tool Calibrating the Voltage Probes Calibrating the Voltage Probes To meet full user specifications, you need to adjust the voltage probes for optimal response. The calibration consists of a high frequency adjustment and a dc calibration for 10:1 probes and 100:1 probes. The probe calibration matches the probe to the input channel. 4 F3 Open the PROBE ON A menu again.
Fluke 190 Series II Users Manual A message appears asking you whether to start the 10:1 probe calibration. 6 F4 Start the probe calibration. A message appears telling you how to connect the probe. Connect the red 10:1 voltage probe to input A and to the probe calibration reference signal as shown in Figure 51. 7 Adjust the trimmer screw in the probe housing until a pure square wave is displayed. For instructions to access the trimmer screw in the probe housing see the probe instruction sheet.
Maintaining the Test Tool Displaying Version and Calibration Information Displaying Version and Calibration Information You can display version number and calibration date: 1 2 3 USER F3 F4 Display the USER key labels. Displaying Battery Information The battery information screen provides information about the batterystatus and battery serial number. To display the screen proceed from step 2 in the previous section as follows: 3 F1 Open the BATTERY INFORMATION menu.
Fluke 190 Series II Users Manual Parts and Accessories The following tables list the user-replaceable parts and specific optional accessories for the various test tool models. For more optional accessories, see www.fluke.com. To order replacement parts or additional accessories, contact your Fluke representative.
Maintaining the Test Tool Parts and Accessories 7 Replacement Parts (continued) Voltage Probe Set (Red or Blue or Gray or Green), designed for use with the Fluke 190-062,-102,-104,-202, and -204 test tool.
Fluke 190 Series II Users Manual Replacement Parts (continued) Voltage Probe Set, designed for use with the Fluke 190-502 test tool.
Maintaining the Test Tool Parts and Accessories 7 Replacement Parts (continued) BNC Feedthrough 50 Ohm terminator (set of two pieces, black) TRM50 Li-ion battery (26 Wh, not recommended for models 190-xx4) BP290 Li-ion battery (52 Wh) BP291 Hangstrap 946769 Optional Accessories Item Ordering Code Probe Accessory Extension Set AS400 The set includes the following items (not available separately): • 1x Industrial Alligator for Probe Tip (black) • 1x 2-mm Test Probe for Probe Tip (black) • 1x 4-m
Fluke 190 Series II Users Manual Optional accessories (continued) External Battery Charger, charges BP291 externally using BC190 EBC290 High Working Voltage Ruggedized Probe, 100:1, bicolor (red/black), 150 MHz, category rating 1000V CAT III / 600V CAT IV, working voltage (between probe tip and reference lead) 2000V in a CAT III environment/ 1200V in a CAT IV environment. VPS420-R Hanging Hook; allows the test tool to be hung on a cabinet door or separation wall.
Maintaining the Test Tool Troubleshooting • Troubleshooting The Test Tool Shuts Down After a Short Time • • • The batteries may be empty. Check the battery symbol at the top right of the screen. A symbol indicates that the batteries are empty and must be charged. Connect the BC190 power adapter. The test tool is still on but the ‘display auto off’ timer is active, see Chapter 6 ‘Setting the Display AUTO-off Timer’.
Fluke 190 Series II Users Manual Battery Operated Fluke Accessories Do Not Function • 108 When using battery operated Fluke accessories, always first check the battery condition of the accessory with a Fluke multimeter.
Chapter 8 Specifications Introduction Performance Characteristics FLUKE guarantees the properties expressed in numerical values with the stated tolerance. Specified non-tolerance numerical values indicate those that could be nominally expected from the mean of a range of identical ScopeMeter test tools. The Test Tool meets the specified accuracy 30 minutes and two complete acquisitions after power on. Specifications are based on a 1-year calibration cycle.
Fluke 190 Series II Users Manual Oscilloscope Isolated Inputs A,B, C and D (Vertical) Number of Channels Fluke 190-xx2 .................................................... 2 (A, B) Fluke 190-xx4 ..............................................4 (A,B,C,D) Bandwidth, DC Coupled FLUKE 190-502 ...................................500 MHz (-3 dB) FLUKE 190-2xx....................................200 MHz (-3 dB) FLUKE 190-1xx....................................100 MHz (-3 dB) FLUKE 190-062 ...........................
Specifications Oscilloscope 5 ns to 4 μs /div (all channels)............ up to 1.25 GS/s 10 μs to 120 s/div .........................................125 MS/s 8 10 μs to 120 s/div ........................................ 125 MS/s Record Length: see table below. FLUKE 190-062: 10 ns to 4 μs /div (all channels)...........up to 625 MS/s Table 2. Record Lenth (Samples/points per input) Mode Glitch Detect On Glitch Detect Off Max.
Fluke 190 Series II Users Manual Edge Trigger Trigger and Delay Screen Update ............Free Run, On Trigger, Single Shot Trigger Modes........................................Automatic, Edge, Video, Pulse Width, N-Cycle, External (190-xx2) Source......................................A, B, C, D, EXT (190-xx2) Trigger Delay ................................. up to +1200 divisions Trigger Sensitivity DC to 5 MHz at >5 mV/div.......................... 0.5 divisions DC to 5 MHz at 2 mV/div and 5 mV/div ..
Specifications Oscilloscope Video Trigger Continuous Auto Set Standards ....PAL, PAL+, NTSC, SECAM, Non-interlaced Autoranging attenuators and time base, automatic Connect-and-View™ triggering with automatic source selection. Modes ...................... Lines, Line Select, Field 1 or Field 2 Source ........................................................................... A 8 Sensitivity....................................... 0.7 division sync level Modes Normal....................................
Fluke 190 Series II Users Manual Automatic Scope Measurements AC Voltage (VAC) The accuracy of all readings is within ± (% of reading + number of counts) from 18 °C to 28 °C. Add 0.1x (specific accuracy) for each °C below 18 °C or above 28 °C. For voltage measurements with 10:1 probe, add probe accuracy, see section ‘10:1 Probe’ on page 127. At least 1.5 waveform period must be visible on the screen. Maximum Voltage with 10:1 probe...................................................1000 V direct (1:1) ..
Specifications Automatic Scope Measurements All accuracies are valid if: • The waveform amplitude is larger than one division • At least 1.5 waveform period is on the screen AC+DC Voltage (True RMS) 8 Accuracy .......................... same as VDC, VAC, VAC+DC (add current probe or current shunt accuracy) Peak Modes ................... Max peak, Min peak, or peak-to-peak Maximum Voltage with 10:1 probe................................................... 1000 V direct (1:1)..............................
Fluke 190 Series II Users Manual Duty Cycle (DUTY) Accuracy ................................................... %Vrms + %Hz Range ..................................................... 4.0 % to 98.0 % Note Resolution............................. 0.1 % (when period > 2 div) AC motors are designed for use with a rotating magnetic field of constant strength. This strength depends on the applied vottage (Vpwm) divided by the fundamental frequency of the appied voltage (Hz).
Specifications Meter Measurements for Fluke 190-xx4 8 Phase (A and B, C and D) Meter Measurements for Fluke 190-xx4 Range ............................................ -180 to +180 degrees Four of the Automatic Scope Measurements as defined above may be displayed at the same time, using larger screen area for convenient reading, suppressing the scope waveform information. For specifications see Automatic scope Measurements above. Resolution ..........................................................
Fluke 190 Series II Users Manual Meter Measurements for Fluke 190-xx2 General The accuracy of all measurements is within ± (% of reading + number of counts) from 18 °C to 28 °C. Add 0.1x (specific accuracy) for each °C below 18 °C or above 28 °C. DC Common Mode Rejection (CMRR) ..................>100 dB AC Common Mode Rejection at 50, 60, or 400 Hz ......>60 dB Meter Input (Banana Jacks) Input Coupling..............................................................DC Frequency Response...................
Specifications Meter Measurements for Fluke 190-xx2 8 Temperature (TEMP) AC+DC Voltage (True RMS) With Optional Temperature Probe Ranges......500.0 mV, 5.000 V, 50.00 V, 500.0 V, 1100 V Ranges (°C or °F) ..................................-40.0 to +100.0 ° -100.0 to +250.0 ° -100.0 to +500.0 ° -100 to +1000 ° -100 to + 2500 ° Full Scale Reading ........................................5000 counts Probe Sensitivity ............................ 1 mV/°C and 1 mV/°F DC Voltage (VDC) Ranges ..... 500.
Fluke 190 Series II Users Manual Recorder TrendPlot (Meter or Scope) Chart recorder that plots a graph of min and max values of Meter or Scope measurements over time. Measurement Speed ........................ >5 measurements/s Time/Div ........................................... 5 s/div to 30 min/div Record Size (min, max, average) .............. ≥18000 points Recorded Time Span........................... 60 min to 22 days Time Reference .....................
Specifications Zoom, Replay and Cursors 8 Zoom, Replay and Cursors Cursor Measurements Zoom Zoom ranges from full record overview to detailed view of individual samples Cursor Modes...................................single vertical cursor dual vertical cursors dual horizontal cursors (Scope mode) Replay Markers .......................automatic markers at cross points Displays a maximum of 100 captured quad input Scope screens. Replay modes ...........
Fluke 190 Series II Users Manual Miscellaneous Rechargeable Li-ion Battery (model BP 290 and BP291): Life Time (> 80 % capacity)........300x charge/discharge Display View Area .............. 126.8 x 88.4 mm (4.99 x 3.48 inches) Resolution............................................... 320 x 240 pixels Backlight ...................... LED (Temperature compensated) 2 Brightness............................... Power Adapter: 200 cd/m 2 Battery Power: 90 cd/ m Display Auto-OFF time (battery saving) .........
8 Specifications Miscellaneous Internal Memory Interface Ports Number of Scope Memories .........................................30 Each memory can contain 2/4 waveforms plus corresponding setups Two USB ports provided. Ports are fully insulated from instrument’s floating measurement circuitry. Number of Recorder Memories.....................................
Fluke 190 Series II Users Manual Environmental Shock ................................................................ max. 30 g Environmental..........................MIL-PRF-28800F, Class 2 Electromagnetic Compatibility (EMC) Emissions and immunity....... EN/IEC61326-1 (2005-12) Temperature Operating: battery installed .................... 0 to 40 °C (32 to 104 °F) no battery installed ............... 0 to 50 °C (32 to 122 °F) Storage .............................
Specifications Safety Max. Floating Voltage Safety Designed for 1000 V Measurement Category III (Fluke 190-502: 1000V Measurement Category II) , 600 V Measurement Category IV (Fluke 190-502: 600V Measurement Category III), Pollution Degree 2, per: • • • • EN/IEC 61010-1:2001 Pollution Degree 2 (According to CE mark) IEC61010-031:2002+A1:2008 ANSI/UL 61010-1:2004 {ed. 2.0} CAN/CSA C22.2 No. 61010-1-04 (including approval) Max.
Fluke 190 Series II Users Manual MAX. INPUT VOLTAGE (Vrms) VOLTAGE (Vrms) 200 100 100 50 50 20 30 20 10 10 5 5 2 2 1 0.01 0.02 0.05 0.1 1 0.2 0.5 1 2 5 10 20 50 100 FREQUENCY (MHz) Figure 52. Max. Input Voltage vs. Frequency 126 CAT IV (-502: CAT III) 500 200 0.01 0.02 0.05 0.1 CAT III (-502: CAT II) 1000 500 0.2 0.5 1 2 5 10 20 50 100 200 FREQUENCY (kHz) Figure 53. Safe Handling: Max. Voltage Between Scope References, and Between Scope References and earth ground.
8 Specifications 10:1 Probe VPS410 10:1 Probe VPS410 10:1 Probe VPS510 Accuracy Accuracy Probe accuracy when adjusted on the test tool: DC to 20 kHz..........................................................±1 % 20 kHz to 1 MHz.....................................................±2 % 1 MHz to 25 MHz ...................................................±3 % For higher frequencies the probe’s roll off starts affecting the accuracy. Probe accuracy when adjusted on the test tool: DC to 20 kHz ..............
Fluke 190 Series II Users Manual Electromagnetic Immunity The Fluke 190 Series II test tools, including standard accessories, conform with the EEC directive 2004/108/EC for EMC immunity, as defined by EN-61326-1, with the addition of the following tables. Trace disturbance with VPS410/VPS510 voltage probe shorted (Scope Mode, 10 ms/div): Table 3.
Specifications Electromagnetic Immunity 8 Table 6 No visible disturbance Frequency range 2 GHz to 2.
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Index —1— 10:1 Voltage, 103, 104 100:1 Voltage probe, 106 —A— Accessories, 81, 102 Accessory Extension Set, 105 AC-Coupling, 25 Acquiring the Waveform, 24 Acquisition Speed, 24 Add waveforms, 27 Altitude, 124 Ampere Measurement, 37 Amperes, 115, 119 Analysis Functions, 49, 121 AS400 Accessory Extension Set, 105 Auto Set, 113 Automatic Connect-and-View Trigger, 112 Automatic Power Shutdown, 90 Automatic Scope Measurements, 19 Automatic Triggering, 60 Average, 21, 24 smart, 21 —B— Banana Jack Inputs, 35 B
ScopeMeter 190 Series II Users Manual Charge Time, 122 Charging, 96 Cleaning, 95 Clear Menu, 14, 88 Comparing Waveforms, 30 Connect-and-View, 18, 57, 113 Connecting a Computer, 80 Connections, 15, 35 Continuity, 118 Contrast, 89 Copy files, 79 Current Measurement, 37 Current Probe, 37 Cursors Measurements, 53 —D— Date, 90 DC Voltage (VDC), 114, 119 DC-Coupling, 25 Decibel (dB), 117 Delay, Trigger, 112 Deleting Screens, 76 Diode, 118 Display, 122 Display AUTO-off, 90, 91 Displaying Recorded Data, 44, 46 Doc
Index (continued) —I— —M— Immunity, 124 Information Language, 89 Input A Measurement, 19 Input B Measurement, 19 Input Connections, 15 Input Coupling, 118 Input Impedance, 110, 118 Input Sensitivity Variable, 26 Insulation Sleeve, 3, 103, 104 Interface, 123 Inverted Waveform, 25 Isolated, 8 Maintenance, 95 mAs, 54 Mathematics Functions, 27 Max. Floating Voltage, 125 Max.
ScopeMeter 190 Series II Users Manual Probe Accessory Extension Set, 105 Probe Calibration, 99, 122 Probe Replacement Set, 103, 104 Probe Tip to BNC Adapter, 4 Probe Type, 16, 33 Pulse Trigger, 67 Pulse Width, 116 Pulse Width Trigger, 113 —R— Readings, 19 190-104, 33, 35 190-204, 33 Recalibrating, 101 Recalling Screens, 76 Recalling Setups, 77 Record Length, 111 Record+Setup Memory, 75 Recorder, 120 Recorder Options, 44 Recording Waveforms, 45 Reference value, 35, 40 Reference waveform, 30 Relative Measure
Index (continued) Time, 90 time measurement, 54 TrendPlot, 120 Trigger Delay, 59, 112 Level, 58 Modes, 112 Pre-trigger, 59 Slope, 58 Trigger Sensitivity, 112 Triggering Automatic, 60, 112 Dual Slope, 58 External, 64 N-Cycle, 63 On Edges, 61 On Pulses, 67 On Video, 65 On Waveforms, 57 Troubleshooting, 107 TV Triggering, 65 —U— Unpacking, 2 USB drivers, 80 USB Interface Cable, 3 USB Ports, 71 USB stick, 71 —V— V/Hz, 116 VA, 116 VA (Power...), 19 VA Reactive, 116 VA Reactive (Power...
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Appendices Appendix Title Page A Installing USB Drivers............................................................................................ A-1 B Battery Pack MSDS ................................................................................................ B-1 C Instrument Security Procedures ...........................................................................
Appendix A Installing USB Drivers Introduction The Fluke 190 Series II ScopeMeter comes with a USB interface (connector: USB type “B mini”) for communication with a computer. To be able to communicate with the instrument, drivers need to be loaded onto the computer. This document describes how to install the drivers on a Windows XP computer. Installing on other Windows versions will be similar.
Fluke 190 Series II Users Manual Installing the USB Drivers To install the USB drivers, do the following: 1 Connect the Fluke 190 Series II instrument to the PC. The USB cable can be plugged in and out (hot-swap) when both the computer and the instrument are on. It is not required to power off. When there is no driver loaded for the Fluke 190 Series II instrument, Windows will show that there is New Hardware detected, and the Wizard for installing new hardware will open.
Appendices Installing USB Drivers 2 A In the following window click ‘Next’ to install the software automatically. Windows will download the drivers automatically from the Windows Driver Distribution Center on the internet. If there is no connection to the internet, you need to load the CD-ROM, supplied with the ScopeMeter, which contains the drivers. 3 Follow the instructions on screen. When the driver has finished installation click ‘Finish’ to complete the first step of the driver installation.
Fluke 190 Series II Users Manual 4 After completing the first step the New Hardware Wizard will start again to install the USB Serial Port Driver. Click ‘Next’ to install the software automatically. Windows will download the drivers automatically from the Windows Driver Distribution Center on the internet. If there is no connection to the internet, you need to load the CD-ROM, supplied with the ScopeMeter, which contains the drivers. 5 Follow the instructions on screen.
Appendices Installing USB Drivers 6 A To check if the drivers are loaded properly, connect the ScopeMeter 190 Series II to your computer and open the Device Manager. (See the Help file of your computer how to open the device manager for your Windows version) From the device manager click on the + sign to Expand the ‘Universal Serial Bus controllers’. The ‘Fluke 190 ScopeMeter’ should be listed here.
Fluke 190 Series II Users Manual Notes A-6 1) Sometimes application software may require a different port number. (for example in the range Com 1..4). In this situation the COM port number can be changed manually. To manually assign a different COM port number right click on ‘Fluke USB Serial Port COM(5)’ and select properties. From the Properties menu, select the Port Settings tab, and click ‘Advanced…’ to change the port number.
Appendices Battery Pack MSDS B Appendix B Battery Pack MSDS Li-ion Battery Pack Contact Fluke for a Battery Material Safety Data Sheet (MSDS) or Compliance Information.
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Appendices Instrument Security Procedures C Appendix C Instrument Security Procedures Memory The 190 Series II ScopeMeter test tools has the following memory devices: 3. D5000, D5002: 2 x 32 Mb Flash EEPROM. Non-volatile memory used to store operating code (instrument firmware) for the product, and to store calibration constants. 1. D4000 Controller “Spider”.
Fluke 190 Series II Users Manual The instrument firmware can be loaded using a dedicated Fluke software program (only available for Fluke (authorized) workshops). Calibration constants stored in D5000, D5002 can be read using special remote interface commands (only available for use by Product Development). The calibration constants are generated when the meter is sent through its calibration process and are fundamental to the test tool operation.
Appendices Instrument Security Procedures Select DELETE with the up/down arrow keys. 3 4 5 6 7 C ENTER F2 ENTER F4 Press ENTER. Press F2 – SELECT ALL. Press ENTER. Press F4 – YES to confirm the Clear action. If the test tool is not powered through its Power Adapter removing the battery for 10 minutes will clear all data stored in SRAM.
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