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Author: Subject: Inductor and capacitor for rectifier output filter
yobbo II
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[*] posted on 16-7-2024 at 16:46


Finally got arount to this.

If using just one capacitor and an inductor for the filter. Where is the sensible place to put the inductor?
Before the capacitor or after the capacitor.
I have done both and took some scope pictures.

Also i think i need to get a proper true rms reading meter.
I have a cheap amazon meter.

Yob
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Rainwater
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[*] posted on 16-7-2024 at 17:22


basic filters

Depends on your configuration, got a schematic?
I may have missed it, but what is your final application and specifications?

If no ripple is the goal, active regulation is 3-20 times better than passive filtering




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yobbo II
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[*] posted on 17-7-2024 at 14:46


This is just a simple filter to reduce ripple (no actual pacific target ripple) on a full wave rectified signal. 50 amps supply approx.
Is there a (more) correct place to put the inductor.
I will try a pie filter too.
The caps i have are 68000 micro F. The inductor is 18 turns on an MOT core.

Yob

filter.png - 7kB
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[*] posted on 17-7-2024 at 19:04


The answer is rather complicated. If you put the L first then your unloaded output voltage will be higher than your transformer output voltage because the system operates a bit like a boost converter. With a load you get an initial output voltage boost on power up, which then drops over time (load dependent) to a voltage lower than your transformer output (with some ripple).
In the attached sim you can see the initial inrush current, which over-charges the capacitor, then every settles down to a lower voltage with ripple.
For this sim I used 1mH inductance, 10mF capacitance and a 10 ohm load.
Current is green, input V is blue, output V is red
filter.png - 70kB

[Edited on 18-7-2024 by Twospoons]




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[*] posted on 17-7-2024 at 19:07


If you put the inductor after the capacitor then you dont get the initial overshoot, the average output voltage is a bit higher, ripple is similar, but peak diode current is considerably higher.
Input V is green, current is blue, output V is red

Filter2.png - 59kB

[Edited on 18-7-2024 by Twospoons]




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[*] posted on 17-7-2024 at 19:13


In short, L first is easier on the diodes and transformer due to lower peak currents, but DC load regulation suffers.
L second means no overshoot, but is much harder on the diodes and transformer. It also means any load transients are going to seriously affect your output voltage.

So - choose your poison :D

See, this is why it is far more usual to use a switchmode PSU if you want 100A at 5V. You get stable output, usually with overcurrent protection, and a power factor corrected input which is friendly to your utilities company.
It will also weigh a lot less.

[Edited on 18-7-2024 by Twospoons]




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[*] posted on 18-7-2024 at 01:31


Thanks for replies.

I will post some scope pictures.
The inductor is around 1.3mH when measured with an inductance function on a multimeter. No DC through inductor and no gap in core.
Cap(s) are 68000mF. Yob
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Rainwater
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[*] posted on 18-7-2024 at 18:53


68F total? Imagine the bass you could pump with that
Supercaps or a big array?
Supercaps are not designed for ripple filtering, most employ thin film technology and many are a hybrid between a cap and a batterys. This makes them easily damaged.
Inrush current will be an issue,... supose an Cesr + Vccz = 1 ohm.
68F × 1ohm × 5 = 340S of charge time




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[*] posted on 18-7-2024 at 20:13


I guess he's just confused the prefixs for milli (m) and micro (u). To be fair, both words start with m.




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[*] posted on 19-7-2024 at 01:35


Yes indeed

Its micro F

Yob
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[*] posted on 19-7-2024 at 04:38


Quote: Originally posted by yobbo II  
Also i think i need to get a proper true rms reading meter.
I have a cheap amazon meter.
I have a cheap true rms meter and a nice one,
- no significant benefit to me so far, compared to a normal dmm.

If budget allows, I really recommend an oscilloscope.
Measurements are fine, but waveforms are so much more instructive.
Excellent models are available for a few hundred dollars, but..
I recently bought a small Chinese oscilloscope (SCO_2) and I can recommend it for dc to >1MHz work.
You could go for a single channel 'scope and it will be almost as useful, with more MHz/$
A great benefit of these mini-'scopes is that there is no earth connection so you can connect almost anywhere - but be careful.
........................
I once had access to scrapped mainframe computer parts,
one thing that I built was an audio amplifier (to match my diy speakers)
(8x 30W + 2x 120W rms ILP modules), 4x transformer and 6x giant electrolytics.
At normal listening level the sound would continue undistorted for over a minute after power was disconnected...
slightly over-engineered :D
(and HEAVY)

[Edited on 19-7-2024 by Sulaiman]




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[*] posted on 19-7-2024 at 05:36



I have a scope which can be verified with all my lovely pictures.
The earth can be infuriating.


Attached is diagram + scope pictures of PIE filter PSU using MOT's and an inductor made from MOT's.
Not a whole pile of science but that's compensated for by the fact that there is a whole lot of pretty pictures.

Don't purchase an Amazon 80CM810 true RMS clamp meter. They don't read correctly.
You should get the same value of RMS current (meter set to AC and clamp used) going into the rectifier as you get DC going into the load, after the filter, (meter set to DC and clamp used)? There was little ripple on load voltage/current. For example, I get 49 Amps AC (true RMS??) going into rectifier and 36 Amps DC (true RMS) going into load.
If I place a 0.001 Ohm resistor between the transformers and rectifier and use the AC voltage facility (the two leads) on the meter, it still reads a wrong value of 49 Amps
(it shown an AC Voltage (true RMS??) of 0.049V across the resistor).
There IS 36 Amps going to load according to scope and load resistor (0.11 Ohm). The meter seems to work OK on the DC (clamp) true RMS readings.
Yiz gets what ya pay for I suppose.

Anyhow the supply shown uses a pie filter made from two capacitors and an inductor made from two MOT's. The ripple decreases when spacers are placed into the inductor. I guess it is saturating without them.

Yob

Attachment: mot_circuit(1).zip (7.6MB)
This file has been downloaded 116 times

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[*] posted on 20-7-2024 at 02:39


Quote: Originally posted by Sulaiman  
Quote: Originally posted by wg48temp9  

That looks very optimistic. 100A for 10ms is 1C. 1C into 1 Farad is a change in voltage of 1V ie pk to pk.
you are correct,
I don't remember where I got my rule-of-thumb from but mathematically it is wrong :(
Sorry all


My calculation for the pk to pk ripple voltage shown above is worst case (max pk to pk) for ideal components and instant recharge of the capacitors on each cycle)

I wondered what the minium ripple voltage would be. I think the minimum is the capacitors are charged for half cycle and then discharged for half cycle. That makes the capacitor current a triangular waveform as opposed to a saw tooth waveform. So for the first half of the cycle, the rectifier supplies 200A (100A charge current and 100A load current). For the second half of the cycle, the 100A load current is only supplied by the capacitor. This would make the ripple voltage half of my previous calculation and equal to the rule-of-thumb.

So perhaps the rule of thumb should be : the pk to pk ripple is between the min and max values shown above.

It's interesting to note that switch mode power supple filters with square wave inputs could operate near the lower ripple limit, while filters for rectified AC will operate near the upper limit, assuming the first filter component is a capacitor
Perhaps that's were the rule-of-thumb originated.




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[*] posted on 12-8-2024 at 10:17




Sulaiman said:

Also, your choice of rectifier can reduce psu heating a lot.


What choices do i have for a rectifier?

Do you mean to split the output of the transformer and use a two diode rectifier.
My output is too.low for that.

Is there rectifiers that have less V drop than the usual silicon diode ones.

Yob

[Edited on 12-8-2024 by yobbo II]
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[*] posted on 12-8-2024 at 10:39


For low voltage high current full wave rectification,
At any particular current, a higher current rated diode (eg 250A) will have less voltage drop than a lower rated (eg 50A) diode of the same type.
Schottky diodes have lower voltage drop than normal silicon rectifiers. (I've not seen a 250A Schottky diodes)
Switched MOSFETs can have very low voltage drops.

Currents on the transformer side of the capacitor are peaky/pulses so the rms currents will be higher than the (average or rms) DC current.
Your measurements are consistent with reality




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[*] posted on 12-8-2024 at 13:12


Your clamp meter is reading correctly - on the ac side it is higher than your DC load current because it is also seeing the reactive current flowing in your filter capacitors, especially the capacitor just after the rectifier.

Attached is a spice simulation with L and C values similar to your setup, showing the current waveforms around the circuit and their RMS values.
Note the AC RMS current is double the DC load current!
Also note the magnitude of the diode peak currents, as compared to your
output current.
I would reduce the first capacitor by a factor of 10 to 6800uF and increase the second capacitor to 120000uF. That will halve the diode peak current while still keeping the output ripple low.
Also the Pi filter does not have an 'e' - its named after the Greek letter π, not the pastry.

Rectifier.png - 73kB

[Edited on 12-8-2024 by Twospoons]

[Edited on 12-8-2024 by Twospoons]




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[*] posted on 12-8-2024 at 18:33


Quote: Originally posted by yobbo II  

What choices do i have for a rectifier?

many.
Quote:

Is there rectifiers that have less V drop than the usual silicon diode ones.

Yes, your forgetting, we live in the future.
its been around for a while in welders.
Its call an active rectifier. But basically it is a full bridge with the diodes replaced by mosfet transistors.
forward resistance can be in the order of 10-4 if the $$$ is right(requires LN cooling) but typical values are 10-1
A lot less than the normal 0.6V drop of a diode.
wiki
Youtube
And not as many limitations.

If you can force your input A/C frequency up to around 300KHz, you can reduce the size of that transformer

[Edited on 13-8-2024 by Rainwater]

[Edited on 13-8-2024 by Rainwater]




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[*] posted on 13-8-2024 at 11:45



Can i use one of there as a rectifier?


https://www.ebay.co.uk/itm/196553357725?itmmeta=01J56KXM2JTC...:D2AAAOSwU9hmt3kb&itmprp=enc%3AAQAJAAAA4HoV3kP08IDx%2BKZ9MfhVJKn%2FEmx06xzAZI2LxwOzULg2uREWKc%2BvgrHTodwb3NanWj%2Fu7RgFyx69JEoaHDeMEwhBGpbBbq4RxWa JhTLVZXijreLx0b7cPbsQPnbPaIaxSg01qBgRQ2SYKj%2BCBXsimjG39idJ6JZH95Tu97Urg--lPY7ssoEgV72Y00UrrUd8Tq2YhjSXUnH0Hu02YvMcrdd7F6fUt6OFbW0523GFTnjrxLY408hU0cR 6wMpQh3a4NVqvlKW%2BZ1I3TQVSQgQWsL8GVlQk5Xvr32rmr8Hv2ZzF%7Ctkp%3ABk9SR6rB9tOpZA


Descrilfion below
Feature:

1. This is a MOSFET high current (50A) H‑bridge driver module
2. With the microcontroller PWM signal isolation, effectively protect microcontroller
3. To achieve the motor forward and reverse rotation, two PWM input maximum 200kHz frequency
4. 3.3V to 12V power on average use, fully compatible
5. The power supply voltage 5V to 15V


Specification:

Description:
The drive uses a full H-bridge driver module full-bridge MOSFET driver chip and composed with very low internal resistance and high current. MOSFET H-bridge driver circuit, with strong drive and braking effect, signal isolation chip isolates motor drive effectively. 3.3V to 12V, PWM level is fully compatible. High current 50A.


Features:

This is a MOSFET high current (50A) H-bridge driver module.
With the microcontroller PWM signal isolation, effectively protect microcontroller.
To achieve the motor forward and reverse rotation, two PWM input maximum 200kHz frequency.
3.3V to 12V power on average use, fully compatible.
Power indicator is schematically clear.

Specifications:

Max. Cu(rrent: 50A

Circuit Structure: H Bridge

Size: 4.3*4.8*2cm/1.7*1.9*0.8in
P

Package Includes:

1 x Motor Driver
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Rainwater
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[*] posted on 13-8-2024 at 13:05


So long as the maxium reverse drain source voltage (VDS) is not exceded.
But you will need a driver circuit.
Something like the TEA2209T. Ive worked with it before




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