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- Path: sparky!uunet!cs.utexas.edu!uwm.edu!ogicse!news.u.washington.edu!milton.u.washington.edu!whit
- From: whit@milton.u.washington.edu (John Whitmore)
- Newsgroups: sci.electronics
- Subject: Re: Isolated Connector for IEEE Bus?
- Keywords: Advices sought
- Message-ID: <1992Sep1.014158.3052@u.washington.edu>
- Date: 1 Sep 92 01:41:58 GMT
- Article-I.D.: u.1992Sep1.014158.3052
- References: <4893@news.duke.edu>
- Sender: news@u.washington.edu (USENET News System)
- Organization: University of Washington, Seattle
- Lines: 27
-
- In article <4893@news.duke.edu> fang@phy.duke.edu (Fang Zhong) writes:
-
- > I work on small signals of less than micro volts. I use a computer
- >to control my experiment and take data via IEEE bus.
- >This equipment was designed so poorly that a ten-times larger noise was
- >added to my circuit if I added it to my IEEE bus.
-
- This is (alas) not unheard-of. The standard solutions are:
- isolation amplifiers (these allow a floating measurement, so you
- can disconnect common grounds); true differential amplification
- (rejection of common-mode voltage is pretty good if you take care);
- and preamplification (so that the silly microvolt signals
- are decently large..like a volt or ten... before they get computerized).
-
- Fiber-optic IEEE-488 links are available, but
- are expensive (and only solve half the problem: you still have
- the noise in two IEEE-488 boxes to contend with on the 'sensitive'
- side of the application).
-
- You should try isolation transformers for the AC power
- on one or two of your boxes, and analyze the ground configuration
- for loops, and look for unintended capacitive and inductive coupling.
- It might be possible to rewire the connections to the power lines
- (and the data cables) to get your noise floor down to tolerable
- levels.
-
- John Whitmore
-
