Re: A collection of monographs on high accuracy electronics

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Sujet : Re: A collection of monographs on high accuracy electronics
De : pcdhSpamMeSenseless (at) *nospam* electrooptical.net (Phil Hobbs)
Groupes : sci.electronics.design
Date : 19. Jun 2024, 00:32:40
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JM <sunaecoNoSpam@gmail.com> wrote:
On Mon, 17 Jun 2024 07:09:12 -0700, john larkin <jl@650pot.com> wrote:
 
On Sun, 16 Jun 2024 22:20:43 +0100, JM <sunaecoNoSpam@gmail.com>
wrote:
 
On Tue, 11 Jun 2024 19:11:51 -0700, john larkin <jl@650pot.com> wrote:
 
On Wed, 12 Jun 2024 02:50:19 +0100, JM <sunaecoNoSpam@gmail.com>
wrote:
 
On Mon, 10 Jun 2024 15:14:40 -0400, Phil Hobbs
<pcdhSpamMeSenseless@electrooptical.net> wrote:
 
On 2024-06-09 21:43, Phil Hobbs wrote:
On 2024-06-09 20:55, JM wrote:
On Mon, 10 Jun 2024 00:29:17 -0000 (UTC), Phil Hobbs
<pcdhSpamMeSenseless@electrooptical.net> wrote:
 
JM <sunaecoNoSpam@gmail.com> wrote:
On Sun, 9 Jun 2024 18:09:24 -0000 (UTC), Phil Hobbs
<pcdhSpamMeSenseless@electrooptical.net> wrote:
 
Jeroen Belleman <jeroen@nospam.please> wrote:
On 6/9/24 19:02, ehsjr wrote:
On 6/7/2024 9:14 PM, JM wrote:
A collection of monographs on high accuracy electronics written
by Mr.
Chris Daykin, following his career predominantly in metrology.
 
Unfortunately Chris will be unable to complete the unfinished
monographs (having started end of life care) but there is plenty of
interest to any analogue engineer.
 
https://1drv.ms/b/c/1af24d72a509cd48/EZhO_rP5-glDmxtc4ZHycvYBhrsqmyC5tuZjt2NFFsS0gQ?e=Wq2Yj0
 
 
 
 
Thanks!
Ed
 
I have an issue with his definition of resistor noise power
as the product of open-circuit noise voltage and short-circuit
current. That makes no sense.
 
There's more than that, probably, but that just jumped out at
me.
 
Jeroen Belleman
 
 
It?s four times too high, for a start.
 
Cheers
 
Phil Hobbs
 
"It is shown elsewhere [1] that the noise power is four times the heat
energy which would flow down the conductors
from a warm source resistor to a matching cold resistor."
 
 
Which, if true, would solve all our energy problems, except that
thermodynamic systems would all be unstable.
 
The thermal noise power produced by a resistor into a matched load is kT
per hertz.
 
 
Sure, which is what he states.� By mentioning a hot and cold resistor
he makes it clear that net energy flow is from hot to cold, and that
the T refers to the hot source.
 
But apparently he says that it's four times larger than that.
 
I'm not making a microsoft account just to download the PDF, so if you
want to discuss it further, you could email it to me.
 
Cheers
 
Phil Hobbs
 
 
 
Bill was kind enough to send me a copy (thanks again, Bill), and right
there on P. 374, the author says,
 
Pn = 4kTB
 
which is a factor of four too high.
 
 
 
 
No it isn't. He is calculating the thermal noise power dissipated in
an unloaded resistor - something (or at least the related noise
voltage) which is actually required in the design process of a
transducer/amplifier low S/N system.
===============================================
 
 
 
What does that mean? Do unconnected resistors get hot?
 
A box of resistors could start a fire!
 
And why would that occur.  In thermal equilibrium there is no net
transfer of energy either from or to the resistor (when averaged over
any time interval of interest appropriate to the bandwidth of current
electronic circuits).
 
The so called resistor thermal "available noise power" KTB implies
there is a net power delivery from a source to a load.  In the case of
maximum transfer the source must dissipate within itself exactly the
same as it delivers to the load (due to having the same resistance).
However if the so called load is at the same temperature as the source
it also delivers KTB to the source and dissipates KTB within its own
resistance.  Thus there is no net transfer of energy between the two
resistors in thermal equilibrium.  If one is at a lower temperature
than the other there will be a net transfer of energy, but this will be
completely dwarfed in any practical system by the energy transferred
due to thermal conductivity between the two resistors. 
 
So the power dissipated in a system of two equal value resistors is
4KTB.  But this also holds if the two resistors have different values,
including the situation where one of the resistors is a short or open
circuit (i.e. leaving a single open or short circuit resistor).  So it
is entirely reasonable to state (as many engineers do) that the thermal
noise power of a resistor is 4kTB.
 
If as stated "the thermal noise power dissipated in an unloaded
resistor" is nonzero, a reel of 0805s is a fire hazard. What would
 
No taxation without representation
No chilli without beans
No fluctuation without dissipation
 
Which one is true?

No motion without perpetual, apparently. ;)

Cheers

Phil Hobbs
 
noise power mean if it can't be extracted or dissipated or even
measured?
 
I'm now designing a signal generator that would be more sellable if it
had lower voltage noise density. Given that I've got the noise as low
as I can without cryogenics, around 8 nV/rtHz, the only thing left is
to average multiple channels. Noise declines as the square root of
applied dollars.
 

E

--
Dr Philip C D Hobbs  Principal Consultant  ElectroOptical Innovations LLC /
Hobbs ElectroOptics  Optics, Electro-optics, Photonics, Analog Electronics

Date Sujet#  Auteur
8 Jun 24 * A collection of monographs on high accuracy electronics29JM
9 Jun 24 +- Re: A collection of monographs on high accuracy electronics1Bill Sloman
9 Jun 24 +* Re: A collection of monographs on high accuracy electronics25ehsjr
9 Jun 24 i+- Re: A collection of monographs on high accuracy electronics1Cursitor Doom
9 Jun 24 i`* Re: A collection of monographs on high accuracy electronics23Jeroen Belleman
9 Jun 24 i `* Re: A collection of monographs on high accuracy electronics22Phil Hobbs
10 Jun 24 i  `* Re: A collection of monographs on high accuracy electronics21JM
10 Jun 24 i   `* Re: A collection of monographs on high accuracy electronics20Phil Hobbs
10 Jun 24 i    `* Re: A collection of monographs on high accuracy electronics19JM
10 Jun 24 i     +- Re: A collection of monographs on high accuracy electronics1john larkin
10 Jun 24 i     `* Re: A collection of monographs on high accuracy electronics17Phil Hobbs
10 Jun 24 i      `* Re: A collection of monographs on high accuracy electronics16Phil Hobbs
10 Jun 24 i       +- Re: A collection of monographs on high accuracy electronics1Phil Hobbs
12 Jun 24 i       `* Re: A collection of monographs on high accuracy electronics14JM
12 Jun 24 i        +* Re: A collection of monographs on high accuracy electronics12john larkin
12 Jun 24 i        i+- Re: A collection of monographs on high accuracy electronics1Bill Sloman
16 Jun 24 i        i`* Re: A collection of monographs on high accuracy electronics10JM
17 Jun 24 i        i +* Re: A collection of monographs on high accuracy electronics3Jeroen Belleman
5 Jul 24 i        i i`* Re: A collection of monographs on high accuracy electronics2JM
6 Jul 24 i        i i `- Re: A collection of monographs on high accuracy electronics1Jeroen Belleman
17 Jun 24 i        i `* Re: A collection of monographs on high accuracy electronics6john larkin
17 Jun 24 i        i  +- Re: A collection of monographs on high accuracy electronics1Phil Hobbs
19 Jun 24 i        i  `* Re: A collection of monographs on high accuracy electronics4JM
19 Jun 24 i        i   `* Re: A collection of monographs on high accuracy electronics3Phil Hobbs
19 Jun 24 i        i    `* Re: A collection of monographs on high accuracy electronics2Cursitor Doom
19 Jun 24 i        i     `- Re: A collection of monographs on high accuracy electronics1Phil Hobbs
12 Jun 24 i        `- Re: A collection of monographs on high accuracy electronics1Phil Hobbs
10 Jun 24 `* Re: A collection of monographs on high accuracy electronics2piglet
12 Jun 24  `- Re: A collection of monographs on high accuracy electronics1Edward Rawde

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