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2nd December 2019, 11:52 #1
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Average vs RMS loadcurrent for LDO design
I am designing an LDO that will be used to power a small digital circuit. I have access to said digital circuit and have been simulating my LDO with it.
My question: when designing my pass device to support maximum load current, which numbers should I use, average or RMS current? And why?
Follow up question: when measuring the load current I realise that the current goes both ways (+ and ), so if I were to measure RMS the negative current will be squared and counted as well while in reality this negative current simply represents kick back current towards the LDO due to switching (I think), wouldn't counting these current be overdesign? Should I make some adjustment to the waveform to get rid of negative parts before taking RMS then?
Thank you in advance for your kind help.

2nd December 2019, 13:17 #2
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Re: Average vs RMS loadcurrent for LDO design
when measuring the load current I realise that the current goes both ways (+ and ),..

2nd December 2019, 13:29 #3
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Re: Average vs RMS loadcurrent for LDO design
Hi,
My question: when designing my pass device to support maximum load current, which numbers should I use, average or RMS current? And why?
* for devices with about constant voltage (across itīs pins), independent of current (like diodes, LEDs): use AVG.
...in most cases. It depends what you want to calculate
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2nd December 2019, 13:46 #4
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Re: Average vs RMS loadcurrent for LDO design
It's actually 10x of the same digital circuit, so in total they are not so small I guess. The range of RMS current I'm getting is 2.5mA typical and 5mA worst case.
The circuit itself is a driver circuit that is switching at 200MHz, I didn't dig deeper on what else are inside.

2nd December 2019, 13:52 #5
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Re: Average vs RMS loadcurrent for LDO design
Thanks for the reply.
How about if I want to calculate the current consumption of a switching digital blocks, do I use RMS or AVG?
Basically I want to make sure that I design the size of my pass device sufficiently to support the digital circuit while it's switching at its highest frequency and heaviest activities. I have the waveform of this current (kind look like noise with peaks here and there, e.g. 5mA peak, 10mA, etc), I'm wondering if I should calculate RMS or AVG for designing the LDO's pass device.

2nd December 2019, 16:49 #6
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Re: Average vs RMS loadcurrent for LDO design
For a DC current, the average and the RMS are the same.
Zapper
Curmudgeon Elektroniker

2nd December 2019, 17:06 #7
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Re: Average vs RMS loadcurrent for LDO design
Hi,
How about if I want to calculate the current consumption of a switching digital blocks, do I use RMS or AVG?
A digital block has several units inside.. Show us a setch of your "building block" and show what voltage and what current you want to use for power calculations.
If you have the sketch you should easily find out by yourself whether V and I are in a proportional relationship or not.
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2nd December 2019, 17:10 #8
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Re: Average vs RMS loadcurrent for LDO design
For a DC current, the average and the RMS are the same.
I guess I need not elaborate.

2nd December 2019, 17:17 #9
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Re: Average vs RMS loadcurrent for LDO design
Hi,
Not correct. This is true only for a constant current.
I guess I need not elaborate.
****
But maybe you see "DC" as every signal that just does not go negative. Then you are correct.
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2nd December 2019, 17:30 #10
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Re: Average vs RMS loadcurrent for LDO design
When I think about DC current, then itīs a straight horizontal line...

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2nd December 2019, 17:41 #11
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Re: Average vs RMS loadcurrent for LDO design
I would size this LDO pass element depending on desired Vout, say 5V, drop out voltage, say 1V, so i need at least 6 V in
the current requirement has to be the maximum current the load will draw. plus a little margin
what is the actual input voltage?
your device is drawing, ??? per digital circuit at its highest frequency? (let's say 5 mA for fun)
multiply that by 10, unless you can guarantee the maximum number of your digital circuits that may be"ON" at the same time is less than 10
(or 50 mA)
and add about 10 to 20% margin. (60 mA)
since you now know current and voltage, find power and add a heat sink.
so this (hypothetical) LDO pass element will drop 1 V at 60 mA, or 60 mW
your device will drop the maximum voltage across the pass element times the maximum current (worst case  so design for it)
check the LDO specs to size capacitors on input and output, especially if you need to pick so it doesn't oscillate

2nd December 2019, 17:41 #12
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Re: Average vs RMS loadcurrent for LDO design
For a DC current, the average and the RMS are the same.
The voltage regulator power dissipation only depends on the average DC current, the circuit must be additionally able to provide expectable peak current. No need to measure or calculate RMS numbers.
The circuit itself is a driver circuit that is switching at 200MHz.

2nd December 2019, 19:56 #13
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Re: Average vs RMS loadcurrent for LDO design
Hi,
Use RMS. It is the most talkative to estimate the load current with its all DC and AC components, and some overdesign is still necessary.
For example the voltage ripple on your LDO output should be low as possible, and probably design only for nominal current consumption is not enough to keep ripple low.
Bypass capacitor is not a solution always. Big load capacitance (even nF capacitors) can cause stability issues at certain LDOs, however to handle very fast peaks like in your case some capacitance (pF range) at the output is recommended.
If you design integrated circuit also necessary to know the AVG and PEAK values. Electromigration checker use different rule constants for those.
If it is not integrated I still suggest to calculate/measure AVG and PEAK values too, obviously they can tell you more info about your circuit."Try SCE to AUX." /John Aaron/

2nd December 2019, 21:39 #14
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Re: Average vs RMS loadcurrent for LDO design
Hi,
I don't agree.
One should not mix RMS and AVG.
Each value makes sense, but one value can not replace the other.
One application where one can see the difference is the power dissipation calculation of SCRs.
(If interested, read some application notes about this topic.)
At SCRs there is a combination of two major power dissipation sources:
* one is the diode drop where you need to use AVG current
* and the other is the ohmic power dissipation, where you need to use RMS.
Both calculated values combine to the total power dissipation.
> you can not use RMS only and you can not use AVG only.
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2nd December 2019, 22:53 #15
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Re: Average vs RMS loadcurrent for LDO design
Digital load current is like noise, as described in #5, and noise is characterized with its RMS value.
I agree with the difference, but SCR example is misleading now I think, or maybe it is answer for an other post."Try SCE to AUX." /John Aaron/

3rd December 2019, 00:30 #16
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Re: Average vs RMS loadcurrent for LDO design
Hi,
I see your point.
But I also see that the OP asks about LDO dimensioning and load current.
And when I hear "power supply" I see a constant input voltage, whare a "squared value" makes no sense.
As already written in post #3v
...in most cases. It depends what you want to calculate
Without exactly knowing what the OP really wants to calculate I can't give no detailed answer.
KlausPlease donīt contact me via PM, because there is no time to respond to them. No friend requests. Thank you.

3rd December 2019, 00:31 #17
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Re: Average vs RMS loadcurrent for LDO design
LDO pass transistor power dissipation is (VinVout)*avg(Iout). Additional considerations for SOA. Irms isn't present in the calculations.

3rd December 2019, 00:57 #18
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Re: Average vs RMS loadcurrent for LDO design
Hi,
This is exactly my idea, too (without more information from the OP)
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3rd December 2019, 01:19 #19
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Re: Average vs RMS loadcurrent for LDO design
Sorry for the late reply, just hit morning here.
This illustrate what I want to do: Vout vs Iload
In the Xaxis is a sweep of load DC current of the LDO, on the Yaxis is the LDO output. In this example I can see that 5mA is the maximum limit for my LDO and thus it can safely support any load up to that point.
My question is when I am given a digital blocks to design the LDO for, how do I approximate the equivalent DC current that I need to support based on the current waveform of said digital block. In other words, what is my "5mA" in that picture if I have the load current waveform, should it be based on average or rms?
The digital blocks themselves are a bunch of digital gates and inverters, so I don't think the V and I are proportional like resistor.

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3rd December 2019, 01:21 #20
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