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Stabilizing regulators with low esr output caps (Ceramics and polymer)

Would this actually work?

 Stabilizing regulators with low esr output caps (Ceramics and
polymer)

http://i33.tinypic.com/20rsqyg.png

The full note is here. Wayne Rewinkel National Semi

http://www.powerdesignindia.co.in/STATIC/PDF/200809/PDIOL_2008SEP12_S...

Are there any negatives other then decreased dropout voltage and power
 dissipation in the series resistor?

The theory is good. You may get into trouble with the feedforward
schemes, but the series resistor seems solid.
 
F

Fred Bartoli

Jan 1, 1970
0
[email protected] a écrit :
The theory is good. You may get into trouble with the feedforward
schemes, but the series resistor seems solid.

Yup. I've done even better. If you don't want the added dissipation just
use a small value inductor, then use an RC LPF to provide the adequate
compensation. In case of a buck you won't even notice the added inductor.
In one (custom linear) case the added inductor was as low as a 5mm track.
 
H

Hammy

Jan 1, 1970
0
Yup. I've done even better. If you don't want the added dissipation just
use a small value inductor, then use an RC LPF to provide the adequate
compensation. In case of a buck you won't even notice the added inductor.
In one (custom linear) case the added inductor was as low as a 5mm track.

I have to use a small resistor in the high side for current sensing
for current limiting anyway. If the sensing resistor can also provide
the needed zero bonus.

I tried to simulate his circuits but wasn't too successful.

I'll make a PCB of each one (LDO) using a Tant caps ESR and one using
the series resistor and ceramic cap. Trying to load step test these
accurately on a breadboard is an exercise in futility. You never can
be sure if what your looking at is resonant ringing because of all the
wires or an unstable loop.

Thanks for the input
 
H

Hammy

Jan 1, 1970
0
I hate to add resistance in series with the DC load current
of an LDO. If I had extra voltage to waste, I wouldn't need
an LDO.

Well yes I agree, but I'm using a FDT458P for a 1A (low duty cycle)
LDO so the worst case dropout is only 0.2444V, adding a 0.1 sense
resistor puts this to 0.344V. This is pretty respectable.

The input voltage can be 11V down to the dropout 6.6V (I'm using a
comparator for under voltage lockout). The rms current is only about
0.078A so worst case power dissipation is about 0.3744W. The FET can
easily handle that even with the minimum heat sink. I also have some
irlms5703 I'll try to.

My next order I'll probably get something like the Si3441BDV this has
a lower threshold voltage, comparable Rdson and it's only 0.28 cents.
The only downside is it would require about 0.75" square heatsink.
I've had pretty good results with adding a resistor in
series with a low ESR capacitor in the output filter.

That was my original plan,but this defeats the purpose of useing
either a ceramic or Polymer output capacitor.
As long as that RC is closer to the regulator than the rest of
the bypass capacitance, and the total bypass capacitance is
not larger than the one with the series resistor, I have not
yet had problems with oscillations. But it dies take some
experimentation (with pulsed load current and raw supply
voltage) to demonstrate the stability.

I am using a TLV2372IDR as the EA so I should be able to desighn a
compensation network around the EA. Analog Devices PMOS LDO's use
miller compensation (pole splitting) to remove the dependency on the
ESR zero. When I attempt this in spice I get bizzare bode plot's. Even
when using alternate compensation schemes I get weird plots. I dont
really trust spice for LDO simulations.

The TLV2372IDR model is pretty buggy and FETS are modeled typically
for switching not transcoundouctance.Any simulations I take with a
grain of salt.

So the quickest way to get a reliable regulator is by using the method
in the app note.
 
M

Mike Monett

Jan 1, 1970
0
Hammy said:
Would this actually work?
Stabilizing regulators with low esr output caps (Ceramics and
polymer)

The full note is here. Wayne Rewinkel National Semi

Are there any negatives other then decreased dropout voltage and
power dissipation in the series resistor?

One of the problems with LDO design is the ESR of the output cap
must fall within a certain range for the loop to remain stable.

Here are some comments from a post by Tim Shoppa on using ceramic
caps with LDO regulators. The ESR is usually too low and can cause
oscillation, and the bias voltage on Y5V dielectric can cause a
significant drop in capacitance:

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
09 Feb 2004 09:14:28
Tim Shoppa
Selecting > 1uF ceramic caps

R. Legg:

The ESR problem with 'LDO' regulators is not one that applies
specifically to ceramic capacitors, or even to LDOs; it's a problem
that applies generally to all regulators with PNP or P-chanel output
pass transistors, due to the added inversion in their control
structure and the capacitive nature of their normal load.

Leeper:

Take a 6V 10uf Y5V, put it on a 5V rail for filtering, and you end
up with an effective capacitance of 1uf.

http://www.avx.com/docs/Catalogs/cy5v.pdf
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

Here are some articles showing why LDO regulators are sensitive to
output cap ESR. The url's are omitted since they often change, but
google will find them very quickly.

AN1148.PDF 205,195 Compensating Low-Dropout Regulators
AN682.PDF 879,026 New Generation of Low Dropout Regulators
AND8028.PDF 38,766 Precision Sub-One Volt 1.7 Ampere Output LDO
SLVA068.PDF 68,595 LDO Fundamental Theory
SLVA072.PDF 291,538 LDO Technical Review
SLVA079.PDF 202,342 LDO Terms and Definitions
SLVA115.PDF 85,754 Regulator ESR Stability
SLYT151.PDF 468,245 Compensation Transient Response
SLYT187.PDF 254,973 Understanding the Stable ESR Range
SLYT194.PDF 246,355 LDO Linear Stability Analysis
SR003AN.PDF 73,945 Compensation for Linear Regulators
SR004AN.PDF 41,598 Linear Regulator Output Structures

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

Analog Devices has found a solution to the ESR problem:

"Solving Stability Problems of Low Dropout Regulators"

http://www.analog.com/en/content/0,2886,766_818_11812,00.html

and National Semiconductor solved it also:

"Capacitors are key to voltage regulator design"

http://www.national.com/nationaledge/jul02/article2.html

So with careful design, you can make a LDO regulator immune to the
ESR of the output cap.

Regards,

Mike Monett
 
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