. USB Drivers USB Drivers Page Almost all USB drivers work within Windows 7, in both 32 bit 64 bit versions. The following models have the same USB Driver: ). Fluke 430 Serie.
Usb Driver For Android
Fluke 1653, 1653B, 1654B. Thermometers Fluke 50 Serie II. Scopemeters Fluke Serie 120, 190, 220. DMM Serie 180, 280. MegOhmMeter Fluke 1550B. USB to RS232 Fluke 884x-USB All those (above) units work with the following 2 USB Cables.
There are 2 different driver editions for the both interface adapter type “OC4USB” and “IR189-USB”. One version for the old and one version for the latest version. The USB-Driver for 64Bit Systems (except Windows XP, 64bit version) are provided by Microsoft and will be installed automatically if a proper internet connection exists. For 64Bit systems of Windows XP it is necessary to install the USB driver manually.
(only Windows 7; 32 bit) 5. (only Windows XP) © 1995 - 2018 Fluke Corporation.
. ScopeMeters® Software Downloads Updates and Software Downloads for Fluke ScopeMeter® Test Tools FlukeView 2 for ScopeMeter® 120B Series Test Tools » ScopeMeter® Test Tools Firmware Downloads For Fluke 190 Series II, 2 and 4 Channel instruments. Improved trigger delay handling for fastest timebase settings (scope mode). Production related improvement Firmware release V11.43. Fixed issue where some units could show unstable behavior for some channels, erroneous base line level and/or sometimes incorrect amplitude of waveform.
This only applies to some units that have '2516' at the end of the Subversion information that is visible when selecting User key, F3=Version&Cal. Fixed issue with channel setting replication so that auto/manual ranging is now copied as well. Channel replication is selected by push and hold channel key and push another channel key.
Fixed icellSpacingssue that could lead to disappearing channel ground indication on left of display when waveform is moved to bottom of screen.
Being the nerd I am, I couldn't resist buying the new FLUKE 200 MHz, all insulated four channel colour scope. I like most of it. Battery life is good - a full day's work on an airport and still some battery left at the end of the day. But the plastic BNC connectors are delicate like they have been for decades. And internal memory is a mere 15 recordings 'deep'. Not to worry, I thought. There's always the USB port.
Just save data on USB sticks and use Flukeview 5 to get it back to the computer and into your report. Good thinking - but no luck, I could not get the data back. Yes, I could get the data back to internal memory in the scope.
But not able to transfer that data from internal memory to computer. The 'native' data (data that were stored directly in internal memory) could be tranferred with no problems, but not data that had been stored to USB and then taken back to INT. I prize my luck that I did save the more important measurements in INT and not USB. All I can do now with the USB data is to get them back as BMP. Coarse and not at all what my customer expected - and not me either. Anyone knows what to do?
Is there a magic trick so I can make USB data behave as well as the internally stored data? Gunnar Englund - Half full - Half empty? I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter.
Data on USB seem to be lost (Electrical) 7 May 11 17:17. Thanks, Pete. As I said, I left the more important measurements in the scope's internal memory (INT). And I am happy that I did that. It is not in RECORDER mode that I have the problem (I probably have, but haven't tested yet) it is in SCOPE mode. The SAVE menu has two choices: 'Screen + Setup' and 'Replay + Setup'.
Nothing else. The funny thing is that the text is identical when saving to INT and saving to USB, although saving to INT seems to preserve all data so I can use zoom, cursor measurements, FFT and other math on it while saving to USB and recalling from there does not even allow zoom - let alone any other function. I am starting to get quite frustrated. Could as well have bought a Chinese Rigol or similar for a tenth of what the 190-204 costs.
Doing a paper machine survey with hundreds of measurements, which is my main use for the scope, will not be an easy task if I have to transfer data to a PC every fiftenth measurement. The portability, isolated channels, high bandwidth and good battery life was what made me buy the 190-204. Perfect for field work. But the USB problem leaves me with a very poorly functioning 'solution'. I really hope that there is a way out.
But so far, I haven't seen one. And the support line is dead on Sundays. Gunnar Englund - Half full - Half empty?
I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 8 May 11 01:16. Good morning, Scotty.
I really hope so. I'm afraid I'll have to ship the instrument back to them if I cannot get a decent solution to this. I did some more checking. There are three modes; SCOPE, METER and RECORDER. The RECORDER mode.could. be a way out.
But when you want to measure current waveforms with 10 MHz components, a 200 microsecond resolution (fastest in RECORDER mode) is pathetic. There is a glitch cather, but that only says if there has been a glitch wider than 8 ns.
It doesn't show waveforms. Gunnar Englund - Half full - Half empty? I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical).
Yes VE1, I have had that, too. Even my relatively modern LeCroy WS 204 does only print a screen bitmap onto the drive when the corresponding button is pressed. But it is possible to make it save a waveform also.
But only one waveform at a time. To save all four waveforms on the screen, you have to work through several menues each time. The FLUKE 190 204 was released 2010 or perhaps 2011. I saw the first ads for it in March this year. So it is a recent development and I thought that they had learned from earlier mistakes and that they would be more generous with memory - it doesn't cost as much as it used to, after all. They weren't.
My older monochrome FLUKE 199 Scopemeter (also 200 MHz and 2.5 GS/s but only two channels and inputs not insulated) actually seems to work better. The PC connection (via that 'optocoupler interface) never caused any problems but the new 190 204 sometimes can't connect to the PC and I have to restart the PC to get a connection. They still use that COMXX: shit with baudrates starting from 1200 Bd instead of talking directly to the USB hardware like most of us do these days. We have designed two instruments where communication is absolutely transparent and connection is instantaneous. Why cannot FLUKE do that? Compatibility issues?
Thanks a lot. I'd rather use two software versions than being forced to use this crap. It is year 2011 - at least over here. Now, when I was already in a really bad mood, I decided to find out if that old overload problem had been solved.
They must have done something these years, i thought. At least the €4000/USD6500 price tag makes me believe that there is something more than colour and two more channels to it.
The problem with the 199 was that if you wanted to examine, say a VFD IGBT anode-cathode voltage drop, with high resolution - you couldn't do that because the vertical amplifier (or something else) got choked and produced artefacts that made you believe there was a problem in the IGBT. This time, I checked that with a simple function generator outputting less than 10 V peak and increased sensitivity gradually. The result can be seen in the attached jpg.
Looks like that old problem was not dealt with either. I feel very disappointed. Have the bean counters taken over FLUKE Corporation also? Gunnar Englund - Half full - Half empty?
I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter.
Data on USB seem to be lost (Electrical). Looks like I will do that. Or use my TiePie USB scopes plus an Eee small computer when I need to do lots of measurements and store the complete results. I have two of those little nice USB scopes (four channels, differential inputs, COLOUR!and stores ALL! Data directly to my drive or USB). Very often, the 20 MHz bandwidth they offer is adequate.
My fast PicoScope (the 3206) is way too sensitive and if there are transients on the input signal that exceed the 20 V limit clearly indicated on the instrument, the input gets damaged. Has happened twice. No guarantee - of course - and I therefore do not use PicoScope any more. For lower bandwidth and real long memory (equals hard disk space) I use our own ARCUS.
Ten channels, 12 bit resolution, inputs that can take 1 kV transients without blinking, fast and reliable USB communication. But that's me. I don't expect FLUKE or Pico Technology to come to me to learn how to design instruments. But I feel they could benefit from a visit Gunnar Englund - Half full - Half empty? I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter.
Data on USB seem to be lost (Electrical) 8 May 11 11:58. : Q: On the 190 series what is the difference between Scope Record and Trend Plot? The TrendPlot feature of the 190-series makes the instrument act as a paperless recorder that will collect a series of parameter measurements over time and will show the result as a graph, a trend-line, on screen. The measurements themselves can either be made using the Multimeter or can be any of the measurements that the oscilloscope can make on the waveform, like risetime- or dutycycle-measurements. The resulting TrendPlot graph will thus show the risetime or the dutycycle as it changes over a longer period of time. This is most useful for instance when studying the change of individual parameters over time or the influence of environmental changes like temperature over time. BThe ScopeRecord mode on the other hand is a genuine oscilloscope mode: the applied input voltage is registered over time and the resulting waveform is stored in a long memory record.
In other words (my interpretation) 'Trendplot' is a simple graph on the screen with no numbers stored. ScopeRecord is the raw data. Trendplot (screen-saves) are saved under the section labeled 'Q: On the 190 series when storing measurements into memory what is the difference between Screen + setup and Record + Setup?' ScopeRecords (nujmeric data) are saved under the section labeled 'Q: How do I record? Note also that the word 'screen copies' is used when describing how the Trendplots are stored under the section 'On the 190 series when storing measurements into memory what is the difference between Screen + setup and Record + Setup' So if you did not follow the instructions for ScopeRecord under 'how do I record', then I think you should not expect to have any numeric data saved.
At least that's my interpretation. We have a fluke 190 2-channel, but it has no USB. So I'm just going off what it says in the link. (2B)+(2B)'?
RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 8 May 11 12:02. For lower bandwidth and real long memory (equals hard disk space) I use our own ARCUS. Ten channels, 12 bit resolution, inputs that can take 1 kV transients without blinking, fast and reliable USB communication. But that's me. I don't expect FLUKE or Pico Technology to come to me to learn how to design instruments. But I feel they could benefit from a visit If your device costs the same as the Fluke Scopemeter, then it's a valid comparison.
Otherwise, this is starting to smell like some kin of sales gimmick disguised as a question. Please tell me I'm wrong. (2B)+(2B)'? RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 8 May 11 12:07.
Lots of things to answer. I will simplify somewhat. The resolution I need (tens of nanoseconds) is not available in scope record mode (best resolution is 200 us).
I think it is fair to say that I am surprised that Fluke still uses an antique way of doing things when a small 'mom and pop' operation like ours have found better ways of doing it. I had no intent to sell anything. But I have insights that I wanted to share. I do not think that I am satisfied with the 190 204. And there are reasons for that. Gunnar Englund - Half full - Half empty?
I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 8 May 11 12:53. Q: On the 190 series when storing measurements into memory what is the difference between Screen + setup and Record + Setup? A: The 190-series allows for different types of storage: Storage of 15 screens with set-up information, this is screen copies with the information about the instrument settings as they were during recording of the waveform.
The latter helps in determining what the actual amplitude speed of the voltages was as. Storage of 2 so-called Replay recordings with set-up information. A Replay record is a set of 100 screen copies successively recorded all having the same settings. So again it seems like you got exactly what the link said you would get (screen prints).
In contrast, you should get raw data by recording into a 'ScopeRecord' using instructions under 'Q: How do I record?' (2B)+(2B)'? RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 8 May 11 12:59.
A: Using the scope in recorder mode, the total time span of a recording is related to the time resolution of the recording, just like it is with a paper recorder. bThanks to the high sample rate, sudden changes such as glitches will still be captured.b The table shows: Time resolution of recording: 200 usec Will show glitches as narrow as: 50 nanoseconds. I have to admit it is not 100% clear what that means. Apparently it is an attempt to provide better resolution for suddent changes without wasting storage by recording the entire trace at the higher esolution (2B)+(2B)'? RE: FLUKE 190204 Scopemeter.
Data on USB seem to be lost (Electrical) 8 May 11 14:01. Yes, definitely. Use a 10:1 probe to protect the input. My mistake was that I had a small HF transformer and a high-pass filter to measure noise. I didn't think that the small HF transformer was able to let enough energy through. But it obviously did. I have used the same transformer with several other scopes and never had a problem.
With the PicoScope, I have destroyed two inputs. Didn't understand what had happened the first time.
So had to blow another to realize what was causing it. Gunnar Englund - Half full - Half empty? I don't mind. It's what in it that counts.
RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 8 May 11 17:06. I think if I had bought a product advertised as 200MHz bandwidth, 2.5 GSamples/sec sample rate, and I was unable to extract any waveform finer than 200 microsec spacing (5khz sample rate), I would also be surprised and disappointed.
Apparently their strategy was to process the heck out of the data and offer all varieties of processed data that they believe is more user-friendly and still somehow contains the vital info from the fast sampling. I'm not familiar with all their features (glitch detection etc) and even if these features do get back some of the data lost, I would certainly be annoyed at having to learn them, rather than just getting raw data which requires no extra learning and which can always be processed later. (2B)+(2B)'? RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical).
Yes, but not fast enough for the 2.5 GS/s. The main advantage is that the connection is faster and works everytime. The simulated COMxx: does not always find a free com port and it is sometimes necessary to restart the PC to get a connection at all.
Direct communication with the hardware works everytime and is fast. We have used FTDI components, which makes communication easy. TiePie seems to use a custom solution and that works very well also. The COMxx: method is, in my opinion, a relict from the RS232 era when you had either that or the Centronics interface to chose between. The main problem, that I have, is still that there is a very limited space for data (15 measurements) and that the USB stick, which I thought would be a good way of saving data, doesn't store anything but bitmaps of the screen. The other things mentioned in this thread are 'extra nuisances' that do not make me any happier.
Gunnar Englund - Half full - Half empty? I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Industrial) 5 Jul 11 11:05. Could you store waveforms or BMP?
I have no problems with BMP. But I need to store waveforms if want to import to FlukeView5 and do measurements there. That is important for my applications. I am talking to Fluke directly. They have not suggested that the instrument needs service. Question: Why would a Tek fan use Fluke?
Gunnar Englund - Half full - Half empty? I don't mind.
It's what in it that counts. RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Industrial) 6 Jul 11 04:32.
Gunnar, I save the waveform on the USB drive and with the file options menu I can retrieve them and download them into FlukeView (demoversion). Maybe you are wondering why i have bought a Fluke? I was using the Tek THS720 but that unit last ony a few years in a rough environment. The Fluke is more rugged and can be used upto 1000V cat III. I used the ScopeMetre for motor speed drives and the output voltage can be very high. Safety is what counts for me. I like the View&Connect and Replay features which makes my work as maintenance engineer much easy.
Guenther RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 6 Jul 11 15:22.
Keith, I had a long good look at that range of scopes three or four years ago. It's a reasonable scope but its capability is now lagging far behind Tek's mains-powered scopes, especially in memory capacity and communication options (no ethernet or USB), which it didn't when it was first introduced. I asked Tek if they had any plans to update it, but none were forthcoming. It's a shame because it is basically a decent scope but has been left behind in recent years. Had I not changed jobs I'd likely have bought a mains-powered Agilent scope with some decent isolation probes, giving better overall capbility and increased protection for the scope: better to blow an isolation amp than the scope. There aren't many places where I want a scope and can't get either a mains supply or generator given a little effort. If we learn from our mistakes I'm getting a great education!
RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 11 Jul 11 16:10. OK, while I am at it. The 'problem' with the maximum voltage between channel references (cold side of the probe) and channel reference to ground may be a simple mistake in the derating diagram. Regatta de blanc vinyl. If the horizontal scale is in MHz instead of kHz, it makes much more sense.
See attachment. I find it totally unnecessary that such simple errors shall caus a discussion like what we have had here and also that I have had with the guys in Holland. A customer should not be the first to spot it. Especially not when the question has been put directly to top officers at the headquarters. As several posters have noticed before - the company doesn't give the competent and solid impression it used to any more. I feel sorry for that.
Gunnar Englund - Half full - Half empty? I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical). Some time has gone since I last told about the Series II 190-204 Scopemeter. I have been able to use it, but I do not trust the USB storage and now I have reasons not to trust the 15(!) internal storage places either.
This is the story (as told to Fluke this morning): 'This week, I set out to find solutions to problems on board a ferry owned by Norwegian TIDE ferry company. I packed my 190-204 and some other things and drove the 800+ km way across the beautiful Norwegian landscape - you ought to do that at least once in a liftime - and did my measurements yesterday. Drove back tonight and started my report this morning (yes, not much sleep - and bad weather, too). I know how to make FV5 work the first time now, and I also have learned not to try anything else with any USB device as long as the 190-204 is connected.
So, I started transferring data from 190-204 internal memory to PC. First data was OK. Next was blank. As a matter of fact, the 190-204 refused to give me any data from 8 out of 14 memory places. I made a condensed report of what happened and it is available here: ' I am ready to throw this monster out the window now. Gunnar Englund - Half full - Half empty? I don't mind.
It's what in it that counts. RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 25 Nov 11 06:44. I was outbid on one of these Fluke scopes on ebay and was at first disappointed over that; now I'm thinking I might have just dodged a bullet! I desperately need a replacement for my trusty, but woefully superannuated Tektronix THS720P. I design power electronics and can't really afford high bandwidth differential probes and, of course, a grounded bench scope is verboten for this line of work.
The limitations of my 1996-vintage THS720P are becoming more and more glaring every year. I can't bring myself to get a TPS2xxx series scope because it really doesn't look like it is much of an improvement over the THS7xx series, and the fact that they charge $600+ for software to do basic math functions on the waveforms is exceptionally annoying. Hello - the main reason people buy this type of scope is to look at VFD and SMPS waveforms!!!
Anyway, is the French scope I have seen mentioned here the AEMC OX7xxx series? The OX7204-III sure looks promising, but it is 50% more expensive than the similar model from Fluke. Of course, that still might make it a relative bargain if it does what it says while the Fluke does not. I really prefer to avoid the Chinese stuff like Owon or Rigol or whatever unless someone has just been totally blown away by the performance.
RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost. I bought an OX 7204 and a 100 MHz Rigol.
The Rigol is surprisingly good for the money. No isolated channels, but very good otherwise. The display is a lot better than what I remember from a trade show one year ago. The Rigol DS1102E has a very comprhensive triggering menu. One thing that I have been looking for in other scopes (and did not expect to find in this low-cost scope) is to be able to trig on edges and where I can define an upper level (say 10 V) and a lower level (1 V) and then set the trigger condition so I trig on all transitions faster than a certain value (I needed 100 nanoseconds). That is quite an achievment. I haven't found that on the OX7204 and certainly not on any of the Fluke scopes I have used over the time.
FFT does work on the Rigol scope. But it doesn't exactly shine.
Useful if you need to introduce learners to basic signal theory. But not much more. The OX7204 has four isolated channels.
And TWELVE BIT resolution at 200 MHz BW. Genuine one-shot 12 bit resolution. The OX7204 also has four math channels. One math channel for every scope channel.
Just as one expects. Fluke only has one math channel.
So you cannot do much with the math functions, which, by the way are limited to four banger functions with an interlock (don't ask why) so you cannot square a channel. The OX7204 has all the math functions you will ever need. Transcendent functions, integration - everything you can possibly ask for. There is so much more in the OX7204. IP address, SD storage, USB works flawlessly, of course. Can't say that about the Fluke. The PC program is a run-time NI application and works well.
The Fluke FV5 does have a rudimentary Windows look-and-feel but lacks many fetures while others are poorly implemented. No file identity, no date or clock saying when the data were taken. But you do get a time-stamp that tells you when you downloaded the data to the PC. Not very useful. I am comparing the three scopes now, but it will take some time. Gunnar Englund - Half full - Half empty?
I don't mind. It's what in it that counts. RE: FLUKE 190204 Scopemeter. Data on USB seem to be lost (Electrical) 26 Nov 11 07:41.
Samsung Usb Driver
. FlukeView software adds PC power to your Fluke ScopeMeter test tool FlukeView ScopeMeter software helps you get more out of your by:. Documenting: Transfer screens, waveforms, and measurement data from the ScopeMeter to your PC for printing, or to import data to other programs. Archiving: Store and retrieve waveforms with text annotations and create your own library for easy reference and comparison.
Analysis: Gather valuable measurement data and enable cursor measurement to reveal relationship and conditions. Extended recording of up to four user-selected measurements help you monitor and analyze slow moving signals and related events. Upload waveforms to the PC and use cursors for detailed measurements. Perform waveform analysis, inlcuding analyzing harmonics.
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