[time-nuts] Low noise power supplies?

Adrian rfnuts at arcor.de
Thu Jan 31 21:26:58 UTC 2013 

There are at least two methods.

First, the broadband or time domain method that uses a low noise 
amplifier and oscilloscope, and specifies noise voltage within a certain 
bandwidth. For details check application notes from LTC and Analog Devices.

The narrowband or frequency domain method specifies noise voltage within 
a normalized bandwidth (nV/sqrt(Hz)) at a specific frequency.
A typical test setup is included in the HP 3048A phase noise measurement 
system as so-called base-band noise measurement. For higher noise 
voltages, the 3561A dynamic signal analyzer alone is used with a DC 
blocking capacitor. For lower noise voltages, the signal is first 
amplified by the LNA that is part of the 11848A phase noise test set. 
For details please see the HP 3048A manual that can be downloaded from 
http://www.hparchive.com/hp_equipment.htm
Note the Opt K23 DC blocking filter. There is an insertion loss of 6 dB 
to be entered in the 3048A software when using the DC block in 
conjunction with the 11848A.
Obviously, any FFT analyzer plus LNA and coupling cap can be used for 
that method. The major advantage of the 3048A system is the automatic 
generation of plots.

Adrian

John Ackermann N8UR schrieb:
> And this (very interesting) thread brings up the question of 
> measurement methods.  Some time ago I searched around and didn't find 
> much on a standard way to measure noise on low voltage DC supplies.
>
> John
> ----
>
> On 1/31/2013 11:36 AM, Bob Camp wrote:
>> Hi
>>
>> I think the comparison of PSD on a power supply to phase noise and phase
>> noise plots is a pretty good one in this case.
>>
>> For most applications nV/sqrt(Hz) is a pretty good way to check 
>> things out
>> on a supply or regulator. It's not quite the same thing as dbc / 
>> sqrt(Hz)
>> but it conveys the same sort of information. Unless you have a *very*
>> sensitive part, anything below 10 nV/ sqrt(Hz) is likely to be "a 
>> very quiet
>> supply". The main limit you hit is in the sub 100 Hz region where you 
>> likely
>> see things like popcorn noise.
>>
>> AC ripple is no different than spurs in phase noise testing. You 
>> sometimes
>> see people who ignore them when plotting phase noise. I'd suggest 
>> that they
>> are an important part of characterizing a power supply.
>>
>> As with phase noise, frequency ranges are going to be application 
>> dependant.
>> I may not care about 0.1 to 10 Hz phase noise for project A. It may 
>> be the
>> only thing I care about for project B. Same thing with power supplies.
>>
>> With a good enough voltmeter you could carry the analogy one step 
>> further
>> and compute an ADEV like number on the output voltage. I suspect that's
>> carrying things a bit far.
>>
>> Bob
>>
>> -----Original Message-----
>> From: time-nuts-bounces at febo.com [mailto:time-nuts-bounces at febo.com] On
>> Behalf Of Tom Van Baak
>> Sent: Thursday, January 31, 2013 9:43 AM
>> To: Discussion of precise time and frequency measurement
>> Subject: Re: [time-nuts] Low noise power supplies?
>>
>> Hi Rick,
>>
>> I'll answer the question with anther question -- how does one properly
>> measure power supply noise? Does it boil down to a single number, a 
>> couple
>> of key numbers, or is it a plot, or several plots?
>>
>> I ask because without some sort of standard test and reporting method it
>> just becomes a word game. Like, "use batteries because they are better";
>> "use my design because it is quiet"; "this has lower noise than 
>> that". RMS
>> AC ripple or nV/rtHz sounds like a good start, but I'm wondering if 
>> there's
>> something more complete.
>>
>> I was never quite satisfied with the outcome of comparing a half 
>> dozen power
>> supplies this way:
>> http://www.leapsecond.com/pages/tbolt/noise.htm
>>
>> We have rigorous ways to compare and report oscillator performance; 
>> both as
>> numbers and as plots. Is there something equivalent for power supplies?
>>
>> Thanks,
>> /tvb
>>
>>> I know this topic has been discussed in the past on the list, but
>>> a colleague is asking if there are any off the shelf low
>>> noise power supplies for testing oscillators.  Something
>>> a cut above an HP "brick" lab power supply etc.  They are hoping
>>> to avoid having to homebrew a power conditioning circuit.
>>> Did we ever arrive at a concensus as to the state of the art
>>> in homebrew power conditioning circuits?
>>>
>>> Any help would be appreciated.
>>>
>>> Rick Karlquist N6RK
>>
>>
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