Bad drives out the good, pandering to what is know to be a larger market to increase profits.
There has and always will be a hobby electronics market. This is a very GOOD thing as it allows enthusiast access to tools (instrumentation and such) to further their passion, interest and knowledge of electronics overall.
What has happened with the boom of cyber based everything is the discounting and alteration of user expectations of tools and information presented and accessed by this generation of users. It remains best in many ways to be honest and straight forward about the limitations of low cost test gear, point out their inherent limitations and strengths rather than simply advertise-market on features that appear to be useful. It seems today, any techno widget that offers less than a complete set of every imaginable feature is not desirable. Couple that with the user believe that if they are not getting every possible feature, they are not getting their money's worth.
Readers, followers should be aware of the potential bias built into any published review, test or advertisement as those who do this work need funding to keep their lights on, question is where does the funding and access to items being reviewed come from?
Those involved with promoting and reviewing these USB based instrumentation should be honest and frank about their limitations and what they do best and educate their audience on why these limitations and strengths matter. This methodology is in the tradition of application notes and papers written to help their end users get the very most out of their offerings and further their education on each specific topic.
I'm not convinced that USB and PC based instrumentation is the solution to many instrumentation needs. This has happened due to the amount of computing power and capability for their cost. What is almost never discussed or mention is the fact that any switching device can and does generate RF interference both radiated and conducted. How much varies greatly dependent on the specific device in question. How do these factors affect measurement accuracy and how much error is a result of these innate problems. This does not mean USB and PC based instrumentation are all poor, it just means one needs to be fully aware of these potential problems and never take them for granted.
How many O'scope users have been fooled and spent countless hours trying to figure out a problem that never was as a result of high distortion probes, poor probing techniques and numerous related basic measurement skills errors?
The current generation of computer, keyboard, software centric users can be so easily lure into a sense of security by what has been presented to them on screen or by software, yet the reality of what is actually happening in a circuit or system can be completely different. The only real defense against this self deception is to fully understand what any given measurement should be rather than completely trusting any item of instrumentation or data presented by software via any display.
Software should be bug free as delivered. Updates should only happen when absolutely required for functionality and overly common practice of updating OS and software as a must is pure folly IMO.
What should be most valued in any spectrum analyzer is it's front end. All that follows is mostly dress up and could be added as required. This is the beauty of computer centric instrumentation, software can be modified as required. But users should be fully aware that actual performance and limitations are baked into the front end and no amount of software can make up for poor front end performance.
I'm guessing that most would consider me a bigoted cronemudgeon who has rather fixed expectations of what quality instrumentation must be and not willing to compromise.
The first spectrum analyzer owned was a hewlett packard 141T system with several plug ins, tracking generator and pre-selector during the 1980's. This was not an inexpensive item to have in the home lab, it was used a LOT and eventually replaced with newer SAs over time. I'm still of the opinion that ownership of a SA like the 141T or 140T remains quite valuable as a learning tool as full documentation is easily available with spares available as needed. What desist and discourages ownership of instrumentation like the 140 series spectrum analyzers is their size, bulk and lack of PC friendly and centric interface.
Bernice
[/quote]
Up until maybe 5 years ago I would completely agree with you and so would a lot of engineers. But I really do think that there has been a change away from the traditional (and expected) design integrity of a decent spectrum analyser. I think a significant chunk of today's users don't care much about spurious free dynamic range or many of the other benchmark tests associated with a spectrum analyser. i.e. they won't care (or even understand or even want to understand) the limitations of the RF converter in the instrument. They will simply want to buy it and use it and just accept what they see on the display unless there is an obvious anomaly.
For many users the features that are offered by the back end DSP and the amount of analysis bandwidth are the key features they want. If they can get these features cheaper by buying an instrument without the classic design
integrity expected in the RF converter of of a traditional analyser they will choose that option because they probably don't fully understand what tradeoffs they are actually making. In many cases their decision will prove to be OK because they may well never use the instrument in a way that shows up the design compromises of the cheaper instrument.
So I think it's a case of giving the customer what they want and being less open about the true limitations of the instrument. For example, the glossy datasheets for lower cost analysis instruments (from the major manufacturers) often concentrate on the back end analysis features but will deliberately be very vague about the specifications and capability of the RF converter section.
So you generally won't see the classic performance data that you normally expect to see from a classic HP/Agilent lab analyser. Less info here is 'more'
[/quote]
Home
Help
Search
Login
Register
