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From: jl@fornax.uucp (JL)
Newsgroups: sci.electronics
Subject: Re: TTL Questions
Message-ID: <360@fornax.uucp>
Date: Fri, 17-Jul-87 11:55:08 EDT
Article-I.D.: fornax.360
Posted: Fri Jul 17 11:55:08 1987
Date-Received: Sat, 18-Jul-87 16:51:08 EDT
References: <1395@crash.CTS.COM>
Organization: School of Computing Science, SFU, Burnaby, B.C. Canada
Lines: 49

> 
>     I have a couple questions about TTL logic that I hope can be
> answered here...
> 
>     2.  I've worked with Schottky and Low-power Schottky logic
> chips in the lab, and have seen that a no connection to inputs,
> such as a simple AND or OR gate, even sometimes in MUX's and
> others, drives the input high.  Is this guaranteed true?   If so,
> does it apply to all families (S, LS, CMOS, etc.)?  I'm working
> on projects that would be a heck of a lot easier if this were
> true.

     The TTL family logic circuits will float high on
an unconnected input.  Note, however, that it may not
be a wise idea to use this because in a very noisy
environment you could find the floating inputs going
low on occation.  This is very unlikely, but why take
the chance?  I ALWAYS connect  ALL  inputs to an output
or to the appropiate power rail.

    ***BUT***

       This is     NOT     true for CMOS !!!!!!!!!!!!!!!!!!!!!
                   ^^^

     CMOS inputs may, by chance, float high or low depending
on everything from what the rest of the circuit in the IC
package is doing to how much noise is in near-by parts of
the layout.

     Not only that, but an unconnected CMOS input can be
very easily damaged by static discharge!

     Never, NEVER, N E V E R    leave a CMOS input unconnected!
(Unless you want totally unpredictable glitches and burnt out
IC's   :-> )

     By the way, with CMOS circuits, you should really connect
up the inputs of the unused gates in a multi-gate IC too because
they are just as likely to get zapped by static discharges too.
For example, if you are using a 4011 NAND gate and you are using
just 1 ( or 2 or 3 ) of the gates, then the other 3 ( or 2 or 1 )
gates should have their inputs connected either to a power rail
of the output(s) of some other part of the circuit.  Of course
the power rail connection is preferable to connecting to other
parts of the circuit because then you increase the capacitance
of the line and slow the system down.
-- 
Jay-El