Metalworking (rec.crafts.metalworking) Discuss various aspects of working with metal, such as machining, welding, metal joining, screwing, casting, hardening/tempering, blacksmithing/forging, spinning and hammer work, sheet metal work.

Reply
 
LinkBack Thread Tools Search this Thread Display Modes
  #1   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus12493
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

Thanks for yesterday' suggestions regarding 3 phase transformers.

I have a hobart cybertig welder. It has a "six phase rectifier" shown
in this schematic:

http://igor.chudov.com/tmp/firing/6-phase.jpg

I received a three phase SCR control/firing system made by PCTI, that
seems to be extremely easy to hook up.

By the way, PCTI loves children and is highly recommended, they are a
wonderful company. The best of the best.

I want to convert this Cyber Tig to both TIG/Stick (CC) as well as MIG
(CV) mode. This way I could both tig and mig with it.

Here's its wiring diagram:

http://igor.chudov.com/tmp/firing/pcti-firing.jpg

My issue is that the PCTI schematic refers to a "three phase bridge"
and my welder has a "six phase" rectifier where all SCR's "point" to
one DC bus, and where another side is connected to an interphase
transformer. Very different schematics.

So, I have maybe one and maybe two possibilities:

1) Rewire the transformer. It is made of six secondary windings, two
independent ones on each phase. Two leads from two transformers on
every phase are tied into the interphase transformer.

The ones that are tied together I could disconnect them from
interphase transformer, parallel each pair, and then connect them so
that I have three leads instead of six. (I am not 100% sure how to
connect them, but I think that it is easy. I have an idea).

Then simply put together a new rectifier bridge wired as PCTI
suggests, using new SCR half bridges which I already have in my pile.

2) Maybe there is a possibility of wiring in the PCTI board so that it
works just fine controlling the six SCRs that make up the current "six
phase" rectifier.

I spoke to their engineer yesterday (did not give him the schematics)
and he was kind of vaguely positive about it, I asked if ony K2, K4
and K6 were used for synchronization and he said yes.

What I am thinking here is that I would wire all six existing Hobart
SCRs to the PCTI board, it would monitor voltage on K2, K4, K6, and
then adjust phase angles of firings of all six SCRs based on desired
current/voltage vs. actual. And that it would not matter that the SCRs
1, 3, and 5 are wired the opposite of the PCTI sample schematic.

Note that the SCRs that I have now are pointing with their gates to
the DC+ bus, which makes it impossible for K2, K4, and K6 to
meaningfully monitor voltage/phase. So, what I think I can do here is
turn all SCRs UPSIDE DOWN, so that K2, K4, and K6 could be connected
to 3 phase voltage.

The side effect of this is that the negatve bus will become positive,
and vice versa, but that is no big deal as I could simply switch
contacts leading to commutator.

Is this making any sense? Is approach #2 possible?

thanks

i

  #2   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
RoyJ
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

the "6 phase" rectifier is essentially 3 center tapped transformers wth
6 diodes. This design optimises the number of diodes at the expense of
extra trnasformer windings. This would be an older design when coper and
iron were cheap, tube type diodes were very expensive.

Your other option is to take the transformer you have, wire each of the
sperate outputs into a semiconductor bridge and get the same result.
Thsi optimizes copper and iron, has twice as many diodes.

Ignoramus12493 wrote:
Thanks for yesterday' suggestions regarding 3 phase transformers.

I have a hobart cybertig welder. It has a "six phase rectifier" shown
in this schematic:

http://igor.chudov.com/tmp/firing/6-phase.jpg

I received a three phase SCR control/firing system made by PCTI, that
seems to be extremely easy to hook up.

By the way, PCTI loves children and is highly recommended, they are a
wonderful company. The best of the best.

I want to convert this Cyber Tig to both TIG/Stick (CC) as well as MIG
(CV) mode. This way I could both tig and mig with it.

Here's its wiring diagram:

http://igor.chudov.com/tmp/firing/pcti-firing.jpg

My issue is that the PCTI schematic refers to a "three phase bridge"
and my welder has a "six phase" rectifier where all SCR's "point" to
one DC bus, and where another side is connected to an interphase
transformer. Very different schematics.

So, I have maybe one and maybe two possibilities:

1) Rewire the transformer. It is made of six secondary windings, two
independent ones on each phase. Two leads from two transformers on
every phase are tied into the interphase transformer.

The ones that are tied together I could disconnect them from
interphase transformer, parallel each pair, and then connect them so
that I have three leads instead of six. (I am not 100% sure how to
connect them, but I think that it is easy. I have an idea).

Then simply put together a new rectifier bridge wired as PCTI
suggests, using new SCR half bridges which I already have in my pile.

2) Maybe there is a possibility of wiring in the PCTI board so that it
works just fine controlling the six SCRs that make up the current "six
phase" rectifier.

I spoke to their engineer yesterday (did not give him the schematics)
and he was kind of vaguely positive about it, I asked if ony K2, K4
and K6 were used for synchronization and he said yes.

What I am thinking here is that I would wire all six existing Hobart
SCRs to the PCTI board, it would monitor voltage on K2, K4, K6, and
then adjust phase angles of firings of all six SCRs based on desired
current/voltage vs. actual. And that it would not matter that the SCRs
1, 3, and 5 are wired the opposite of the PCTI sample schematic.

Note that the SCRs that I have now are pointing with their gates to
the DC+ bus, which makes it impossible for K2, K4, and K6 to
meaningfully monitor voltage/phase. So, what I think I can do here is
turn all SCRs UPSIDE DOWN, so that K2, K4, and K6 could be connected
to 3 phase voltage.

The side effect of this is that the negatve bus will become positive,
and vice versa, but that is no big deal as I could simply switch
contacts leading to commutator.

Is this making any sense? Is approach #2 possible?

thanks

i

  #3   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier


Ignoramus12493 wrote:
Thanks for yesterday' suggestions regarding 3 phase transformers.

I have a hobart cybertig welder. It has a "six phase rectifier" shown
in this schematic:

http://igor.chudov.com/tmp/firing/6-phase.jpg

I received a three phase SCR control/firing system made by PCTI, that
seems to be extremely easy to hook up.

By the way, PCTI loves children and is highly recommended, they are a
wonderful company. The best of the best.

I want to convert this Cyber Tig to both TIG/Stick (CC) as well as MIG
(CV) mode. This way I could both tig and mig with it.

Here's its wiring diagram:

http://igor.chudov.com/tmp/firing/pcti-firing.jpg

My issue is that the PCTI schematic refers to a "three phase bridge"
and my welder has a "six phase" rectifier where all SCR's "point" to
one DC bus, and where another side is connected to an interphase
transformer. Very different schematics.

So, I have maybe one and maybe two possibilities:

1) Rewire the transformer. It is made of six secondary windings, two
independent ones on each phase. Two leads from two transformers on
every phase are tied into the interphase transformer.

The ones that are tied together I could disconnect them from
interphase transformer, parallel each pair, and then connect them so
that I have three leads instead of six. (I am not 100% sure how to
connect them, but I think that it is easy. I have an idea).

Then simply put together a new rectifier bridge wired as PCTI
suggests, using new SCR half bridges which I already have in my pile.

2) Maybe there is a possibility of wiring in the PCTI board so that it
works just fine controlling the six SCRs that make up the current "six
phase" rectifier.

I spoke to their engineer yesterday (did not give him the schematics)
and he was kind of vaguely positive about it, I asked if ony K2, K4
and K6 were used for synchronization and he said yes.

What I am thinking here is that I would wire all six existing Hobart
SCRs to the PCTI board, it would monitor voltage on K2, K4, K6, and
then adjust phase angles of firings of all six SCRs based on desired
current/voltage vs. actual. And that it would not matter that the SCRs
1, 3, and 5 are wired the opposite of the PCTI sample schematic.

Note that the SCRs that I have now are pointing with their gates to
the DC+ bus, which makes it impossible for K2, K4, and K6 to
meaningfully monitor voltage/phase. So, what I think I can do here is
turn all SCRs UPSIDE DOWN, so that K2, K4, and K6 could be connected
to 3 phase voltage.

The side effect of this is that the negatve bus will become positive,
and vice versa, but that is no big deal as I could simply switch
contacts leading to commutator.

Is this making any sense? Is approach #2 possible?

thanks

i


In a 6 pulse bridge the diodes are in series and so you allways need to
fire them in pairs. The gate pulses consist of 2 pulses 60deg apart. In
your original rectifier they are fired sequentialy 1 at a time, so the
fireing pulse trains are not compatable. It is possible to seperate
them with some logic but that would mean making an extra board.

  #4   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Rene Tschaggelar
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

Ignoramus12493 wrote:

On Sat, 22 Apr 2006 03:03:03 GMT, RoyJ wrote:

the "6 phase" rectifier is essentially 3 center tapped transformers wth
6 diodes. This design optimises the number of diodes at the expense of
extra trnasformer windings. This would be an older design when coper and
iron were cheap, tube type diodes were very expensive.



This is absolutely correct. A great description.



This is bull****. The 6 phase approach has lower
losses when it comes to high current.
There is only one semiconductor loss in the
centertapped recifier and not two as are in the
bridge approach. A semiconductor loss means in
the order of 2V for an SCR. An alternative
approach would use FETs, as they allow even
lower losses.

Rene
--
Ing.Buero R.Tschaggelar - http://www.ibrtses.com
& commercial newsgroups - http://www.talkto.net
  #5   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Simon Scott
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

Ignoramus12493 wrote:

I have a hobart cybertig welder. It has a "six phase rectifier" shown
in this schematic:


While we're not on the topic, how many people here call rectifiers 'rectum
fryers'?




  #6   Report Post  
Posted to rec.crafts.metalworking
Ken Taylor
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

"Simon Scott" wrote in message
...
Ignoramus12493 wrote:

I have a hobart cybertig welder. It has a "six phase rectifier" shown
in this schematic:


While we're not on the topic, how many people here call rectifiers 'rectum
fryers'?



You mean some people don't?? Outrageous!!

Ken


  #7   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus8092
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On 21 Apr 2006 22:28:02 -0700, wrote:

Ignoramus12493 wrote:
Thanks for yesterday' suggestions regarding 3 phase transformers.

I have a hobart cybertig welder. It has a "six phase rectifier" shown
in this schematic:

http://igor.chudov.com/tmp/firing/6-phase.jpg

I received a three phase SCR control/firing system made by PCTI, that
seems to be extremely easy to hook up.

By the way, PCTI loves children and is highly recommended, they are a
wonderful company. The best of the best.

I want to convert this Cyber Tig to both TIG/Stick (CC) as well as MIG
(CV) mode. This way I could both tig and mig with it.

Here's its wiring diagram:

http://igor.chudov.com/tmp/firing/pcti-firing.jpg

My issue is that the PCTI schematic refers to a "three phase bridge"
and my welder has a "six phase" rectifier where all SCR's "point" to
one DC bus, and where another side is connected to an interphase
transformer. Very different schematics.

So, I have maybe one and maybe two possibilities:

1) Rewire the transformer. It is made of six secondary windings, two
independent ones on each phase. Two leads from two transformers on
every phase are tied into the interphase transformer.

The ones that are tied together I could disconnect them from
interphase transformer, parallel each pair, and then connect them so
that I have three leads instead of six. (I am not 100% sure how to
connect them, but I think that it is easy. I have an idea).

Then simply put together a new rectifier bridge wired as PCTI
suggests, using new SCR half bridges which I already have in my pile.

2) Maybe there is a possibility of wiring in the PCTI board so that it
works just fine controlling the six SCRs that make up the current "six
phase" rectifier.

I spoke to their engineer yesterday (did not give him the schematics)
and he was kind of vaguely positive about it, I asked if ony K2, K4
and K6 were used for synchronization and he said yes.

What I am thinking here is that I would wire all six existing Hobart
SCRs to the PCTI board, it would monitor voltage on K2, K4, K6, and
then adjust phase angles of firings of all six SCRs based on desired
current/voltage vs. actual. And that it would not matter that the SCRs
1, 3, and 5 are wired the opposite of the PCTI sample schematic.

Note that the SCRs that I have now are pointing with their gates to
the DC+ bus, which makes it impossible for K2, K4, and K6 to
meaningfully monitor voltage/phase. So, what I think I can do here is
turn all SCRs UPSIDE DOWN, so that K2, K4, and K6 could be connected
to 3 phase voltage.

The side effect of this is that the negatve bus will become positive,
and vice versa, but that is no big deal as I could simply switch
contacts leading to commutator.

Is this making any sense? Is approach #2 possible?

thanks

i


In a 6 pulse bridge the diodes are in series and so you allways need to
fire them in pairs. The gate pulses consist of 2 pulses 60deg apart. In
your original rectifier they are fired sequentialy 1 at a time, so the
fireing pulse trains are not compatable. It is possible to seperate
them with some logic but that would mean making an extra board.


Thanks... Sounds like you are fully right.

i

  #8   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus8092
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Sat, 22 Apr 2006 08:54:58 +0200, Rene Tschaggelar wrote:
Ignoramus12493 wrote:

On Sat, 22 Apr 2006 03:03:03 GMT, RoyJ wrote:

the "6 phase" rectifier is essentially 3 center tapped transformers wth
6 diodes. This design optimises the number of diodes at the expense of
extra trnasformer windings. This would be an older design when coper and
iron were cheap, tube type diodes were very expensive.



This is absolutely correct. A great description.



This is bull****. The 6 phase approach has lower
losses when it comes to high current.
There is only one semiconductor loss in the
centertapped recifier and not two as are in the
bridge approach. A semiconductor loss means in
the order of 2V for an SCR. An alternative
approach would use FETs, as they allow even
lower losses.


Perhaps the OP meant "optimizees the number of dioes in the path of
current". There is only one voltage drop in a six phase rectifier.

I am not too worried, I can easily make 3 phase rectifier, I have all
the parts already.

i

  #9   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Guy Macon
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier




You mention six secondary windings, but I only see 3 connections
to the transformer on your schematic. The schematic looks like one
of these:
http://www.ipes.ethz.ch/ipes/Thyrist.../e_ThyrB3.html
...but the description (six secondaries, interphase transformer)
sounds more like one of these:
http://www.ipes.ethz.ch/ipes/Thyrist...ke/e_saug.html


I am not sure whether this describes your Cyber Tig, , but I have
often seen see welder transformers that consist of a 3-phase wye
secondary (which may or may not bring the center tap out) and a
eperate 3-phase delta secondary, each driving 3 diodes or triggered
SCRs. The the delta and wye are 60 degrees phase shifted from each
other. The advantage of this is that the rectifiers/SCRs send twice
as many pulses per cycle to the capacitor, lowering the ripple
amplitude, increasing the ripple frequency, and improving the power
factor -- which is the main reason for doing it in a welder.

--
Guy Macon
http://www.guymacon.com

  #10   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Guy Macon
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier



Ignoramus8092 wrote:

Guy Macon "http://www.guymacon.com/" wrote:

You mention six secondary windings, but I only see 3 connections
to the transformer on your schematic. The schematic looks like one
of these:
http://www.ipes.ethz.ch/ipes/Thyrist.../e_ThyrB3.html


That's similar the schematic for the three phase rectifier firing
system that I have and am considering installing into my CyberTIG:

http://igor.chudov.com/tmp/firing/pcti-firing.jpg

..but the description (six secondaries, interphase transformer)
sounds more like one of these:
http://www.ipes.ethz.ch/ipes/Thyrist...ke/e_saug.html


Yes, that is what I have right now.

I am not sure whether this describes your Cyber Tig, , but I have
often seen see welder transformers that consist of a 3-phase wye
secondary (which may or may not bring the center tap out) and a
eperate 3-phase delta secondary, each driving 3 diodes or triggered
SCRs.


I do not think so, no, what describes my CyberTIG right now is

http://www.ipes.ethz.ch/ipes/Thyrist...ke/e_saug.html
http://igor.chudov.com/tmp/firing/6-phase.jpg

The the delta and wye are 60 degrees phase shifted from each
other. The advantage of this is that the rectifiers/SCRs send twice
as many pulses per cycle to the capacitor, lowering the ripple
amplitude, increasing the ripple frequency, and improving the power
factor -- which is the main reason for doing it in a welder.


Yes... You are correct...

It seems as though this PCTI firing system cannot be adapted to the
current 6 phase wiring. Rewiring is not a huge deal and can always be
reversed.


It seems to me that you are on the right track. I am currently
designing systems that are in the 50KW to 1MW range; I am doing the
embedded processing and precision analog bits, but one of my
coworkers is among the top names in power electronics. I will be
happy to run things past him if your current effort runs into a snag.
I don't think it will, though.

--
Guy Macon
"http://www.guymacon.com/"



  #11   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus8092
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Sat, 22 Apr 2006 19:39:26 +0000, Guy Macon "http://www.guymacon.com/" wrote:


Ignoramus8092 wrote:

Guy Macon "http://www.guymacon.com/" wrote:

You mention six secondary windings, but I only see 3 connections
to the transformer on your schematic. The schematic looks like one
of these:
http://www.ipes.ethz.ch/ipes/Thyrist.../e_ThyrB3.html


That's similar the schematic for the three phase rectifier firing
system that I have and am considering installing into my CyberTIG:

http://igor.chudov.com/tmp/firing/pcti-firing.jpg

..but the description (six secondaries, interphase transformer)
sounds more like one of these:
http://www.ipes.ethz.ch/ipes/Thyrist...ke/e_saug.html


Yes, that is what I have right now.

I am not sure whether this describes your Cyber Tig, , but I have
often seen see welder transformers that consist of a 3-phase wye
secondary (which may or may not bring the center tap out) and a
eperate 3-phase delta secondary, each driving 3 diodes or triggered
SCRs.


I do not think so, no, what describes my CyberTIG right now is

http://www.ipes.ethz.ch/ipes/Thyrist...ke/e_saug.html
http://igor.chudov.com/tmp/firing/6-phase.jpg

The the delta and wye are 60 degrees phase shifted from each
other. The advantage of this is that the rectifiers/SCRs send twice
as many pulses per cycle to the capacitor, lowering the ripple
amplitude, increasing the ripple frequency, and improving the power
factor -- which is the main reason for doing it in a welder.


Yes... You are correct...

It seems as though this PCTI firing system cannot be adapted to the
current 6 phase wiring. Rewiring is not a huge deal and can always be
reversed.


It seems to me that you are on the right track. I am currently
designing systems that are in the 50KW to 1MW range; I am doing the
embedded processing and precision analog bits, but one of my
coworkers is among the top names in power electronics. I will be
happy to run things past him if your current effort runs into a snag.
I don't think it will, though.


Thank you Guy. My plan is as follows: wire the transformer as three
phase Wye, and use three SCR half bridges in a scheme similar to that
by PCTI. These three half bridges will be added without disturbing
current SCRs.

I have six secondaries, two on each leg, I will parallel each pair.

Does it make sense?

i

  #12   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Guy Macon
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier




Ignoramus8092 wrote:

Thank you Guy. My plan is as follows: wire the transformer as three
phase Wye, and use three SCR half bridges in a scheme similar to that
by PCTI. These three half bridges will be added without disturbing
current SCRs.

I have six secondaries, two on each leg, I will parallel each pair.

Does it make sense?


That appears to be correct, subject to the usual limitations of talking
about a circuit rather than having it in front of me. Normally I bring
up any such circuit slowly with a three phase variac or, in a pinch,
with three single-phase variacs and a lot of moving from knob to knob.
You might also consider using temporary fuses to do the paralleling at
first as an extra precaution. All of the jumpers we use in our lab have
inline fuseholders; putting a regular clip lead across a 440V 2KA supply
by mistake makes quite a spectacular flash.

--
Guy Macon
http://www.guymacon.com/

  #13   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Glen Walpert
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Sat, 22 Apr 2006 20:58:04 GMT, Ignoramus8092
wrote:

Thank you Guy. My plan is as follows: wire the transformer as three
phase Wye, and use three SCR half bridges in a scheme similar to that
by PCTI. These three half bridges will be added without disturbing
current SCRs.

I have six secondaries, two on each leg, I will parallel each pair.

Does it make sense?

i


No. Wiring the transformer as (a single) Wye requires having access
to all 6 secondary leads on each transformer half (12 secondary leads
available vice the 6 I think you actually have) so you can reverse the
phase on one half (switch the neutral connection with the 3 line
connections on one side) so they can be paralleled. This will totally
screw your existing 6-phase rectifier of course. I suggest you
re-read the description by Lawrence of how the 6-phase system works
(previously posted to ABSE).

You now have 2 separate 3-phase Y secondaries of opposite phase, if
you wish to add a separate SCR rectifier of standard 3-phase design
without screwing your existing rectifier you will need two of them,
they cannot be paralleled. The DC output of two separate rectifiers
can of course be paralleled.
  #14   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus17838
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Sun, 23 Apr 2006 14:27:51 GMT, Glen Walpert wrote:
On Sat, 22 Apr 2006 20:58:04 GMT, Ignoramus8092
wrote:

Thank you Guy. My plan is as follows: wire the transformer as three
phase Wye, and use three SCR half bridges in a scheme similar to that
by PCTI. These three half bridges will be added without disturbing
current SCRs.

I have six secondaries, two on each leg, I will parallel each pair.

Does it make sense?

i


No. Wiring the transformer as (a single) Wye requires having access
to all 6 secondary leads on each transformer half (12 secondary leads
available vice the 6 I think you actually have) so you can reverse the
phase on one half (switch the neutral connection with the 3 line
connections on one side) so they can be paralleled. This will totally
screw your existing 6-phase rectifier of course. I suggest you
re-read the description by Lawrence of how the 6-phase system works
(previously posted to ABSE).


Glen, I have physical access to all 12 leads: I have three legs, two
secondaries on each, and two leads on each secondary, all plainly
visible and physically accessible.

Some secondaries are connected in parallel to form the existing "6
phase rectifier", but I could disconnect them.

Here's the schematic of my welding xfmr:

http://igor.chudov.com/tmp/firing/xfmr.jpg

Here's its actual pictu

http://igor.chudov.com/tmp/firing/welding-xfmr.jpg

Right now, the following points are connected:

A3, B3, C3;

A2, B2, C2;

These connected pieces are connected to the interphase transformer.

I want to rewire it by disconnecting A3, B3, and C3 from one another,
and by connecting

(A3, A1); (A2, A4)
(B3, B1); (B2, B4)
(C3, C1); (C2, C4)

Then I will have a common point of (A2, A4, B2, B4, C2, C4); and the
wye leads (A1, A3), (B1, B3), (C1, C3).

Is this wrong?

i

  #15   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Glen Walpert
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Sun, 23 Apr 2006 15:24:02 GMT, Ignoramus17838
wrote:

On Sun, 23 Apr 2006 14:27:51 GMT, Glen Walpert wrote:
On Sat, 22 Apr 2006 20:58:04 GMT, Ignoramus8092
wrote:

Thank you Guy. My plan is as follows: wire the transformer as three
phase Wye, and use three SCR half bridges in a scheme similar to that
by PCTI. These three half bridges will be added without disturbing
current SCRs.

I have six secondaries, two on each leg, I will parallel each pair.

Does it make sense?

i


No. Wiring the transformer as (a single) Wye requires having access
to all 6 secondary leads on each transformer half (12 secondary leads
available vice the 6 I think you actually have) so you can reverse the
phase on one half (switch the neutral connection with the 3 line
connections on one side) so they can be paralleled. This will totally
screw your existing 6-phase rectifier of course. I suggest you
re-read the description by Lawrence of how the 6-phase system works
(previously posted to ABSE).


Glen, I have physical access to all 12 leads: I have three legs, two
secondaries on each, and two leads on each secondary, all plainly
visible and physically accessible.

Some secondaries are connected in parallel to form the existing "6
phase rectifier", but I could disconnect them.

Here's the schematic of my welding xfmr:

http://igor.chudov.com/tmp/firing/xfmr.jpg

Here's its actual pictu

http://igor.chudov.com/tmp/firing/welding-xfmr.jpg

Right now, the following points are connected:

A3, B3, C3;

A2, B2, C2;

These connected pieces are connected to the interphase transformer.

I want to rewire it by disconnecting A3, B3, and C3 from one another,
and by connecting

(A3, A1); (A2, A4)
(B3, B1); (B2, B4)
(C3, C1); (C2, C4)

Then I will have a common point of (A2, A4, B2, B4, C2, C4); and the
wye leads (A1, A3), (B1, B3), (C1, C3).

Is this wrong?

i


That is the correct way to rewire the transformer secondary as single
3-phase Y (and not what I thought you were planning), but I thought
you said you wanted to leave your existing 6-phase rectifier connected
and operational, and rewiring your transformer as 3-phase will
preclude that. This also gets rid of the current balancing action of
the interphase transformer, which is of course completely
disconnected.

Why not use the installed rectifier as wired, and build a new
controller for it, adaptable for either CC or CV? If you have
problems you can just reconnect the original controller.

If you are willing to abandon the existing rectifier entirely then
transformer rewiring and a standard 3-phase SCR rectifier module
should work. But it seems like the hard way to do the job to me.


  #16   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus17838
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Mon, 24 Apr 2006 01:05:34 GMT, Glen Walpert wrote:
On Sun, 23 Apr 2006 15:24:02 GMT, Ignoramus17838
wrote:

On Sun, 23 Apr 2006 14:27:51 GMT, Glen Walpert wrote:
On Sat, 22 Apr 2006 20:58:04 GMT, Ignoramus8092
wrote:

Thank you Guy. My plan is as follows: wire the transformer as three
phase Wye, and use three SCR half bridges in a scheme similar to that
by PCTI. These three half bridges will be added without disturbing
current SCRs.

I have six secondaries, two on each leg, I will parallel each pair.

Does it make sense?

i

No. Wiring the transformer as (a single) Wye requires having access
to all 6 secondary leads on each transformer half (12 secondary leads
available vice the 6 I think you actually have) so you can reverse the
phase on one half (switch the neutral connection with the 3 line
connections on one side) so they can be paralleled. This will totally
screw your existing 6-phase rectifier of course. I suggest you
re-read the description by Lawrence of how the 6-phase system works
(previously posted to ABSE).


Glen, I have physical access to all 12 leads: I have three legs, two
secondaries on each, and two leads on each secondary, all plainly
visible and physically accessible.

Some secondaries are connected in parallel to form the existing "6
phase rectifier", but I could disconnect them.

Here's the schematic of my welding xfmr:

http://igor.chudov.com/tmp/firing/xfmr.jpg

Here's its actual pictu

http://igor.chudov.com/tmp/firing/welding-xfmr.jpg

Right now, the following points are connected:

A3, B3, C3;

A2, B2, C2;

These connected pieces are connected to the interphase transformer.

I want to rewire it by disconnecting A3, B3, and C3 from one another,
and by connecting

(A3, A1); (A2, A4)
(B3, B1); (B2, B4)
(C3, C1); (C2, C4)

Then I will have a common point of (A2, A4, B2, B4, C2, C4); and the
wye leads (A1, A3), (B1, B3), (C1, C3).

Is this wrong?

i


That is the correct way to rewire the transformer secondary as single
3-phase Y (and not what I thought you were planning), but I thought
you said you wanted to leave your existing 6-phase rectifier connected
and operational, and rewiring your transformer as 3-phase will
preclude that. This also gets rid of the current balancing action of
the interphase transformer, which is of course completely
disconnected.


Glen, just to make sure that you are aware, I was given a three phase
firing system by PCTI. As a sign of appreciation for certain activity
of mine (algebra.com). Wiring it into a existing 3 phase supply is
next to trivial. All I have to do is supply SCRs and potentiometers
and switches. I already have it sitting on my desk.

Here it is:

http://www.pcti.com/3phfiring.htm

The question that we are discussing is how to make my power supply
compatible with this PCTI system.

So, yes, I was hoping that I could simply use my "6 phase rectifier"
to be controlled by this PCTI system. As of now, it does not look like
I could do it, because it is really a 6 phase system with different
phase angles that necessitate different firing angles.

Why not use the installed rectifier as wired, and build a new
controller for it, adaptable for either CC or CV? If you have
problems you can just reconnect the original controller.


Well, I think that reconnecting the xfmr (which is easily reversed) is
quite easy, will take a couple of evenings. And I already have a well
working SCR controller, made for rough industrial conditions, by company
that is.

If you are willing to abandon the existing rectifier entirely then
transformer rewiring and a standard 3-phase SCR rectifier module
should work. But it seems like the hard way to do the job to me.


It is hard if we assume that I need to make a SCR controller in either
case. But it is not my situation, my situation is that I have a super
nice controller for a 3 phase bridge.

Also, Glen, if I wire this transformer as a Wye vs. Delta, is it true
that I would get different voltages phase to phase? I have a suspicion
that the side effect of my Wye wiring would be increase of voltage by
sqrt( 3 ). Is that true?

Thanks, I always listen very closely to what you say.

i

  #17   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Glen Walpert
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Mon, 24 Apr 2006 02:49:10 GMT, Ignoramus17838
wrote:

Glen, I have physical access to all 12 leads: I have three legs, two
secondaries on each, and two leads on each secondary, all plainly
visible and physically accessible.

Some secondaries are connected in parallel to form the existing "6
phase rectifier", but I could disconnect them.

Here's the schematic of my welding xfmr:

http://igor.chudov.com/tmp/firing/xfmr.jpg

Here's its actual pictu

http://igor.chudov.com/tmp/firing/welding-xfmr.jpg


I got around to looking at the picture; not the easiest connections to
rewire with those brazed neutral bussbars!


Right now, the following points are connected:

A3, B3, C3;

A2, B2, C2;

These connected pieces are connected to the interphase transformer.

I want to rewire it by disconnecting A3, B3, and C3 from one another,
and by connecting

(A3, A1); (A2, A4)
(B3, B1); (B2, B4)
(C3, C1); (C2, C4)

Then I will have a common point of (A2, A4, B2, B4, C2, C4); and the
wye leads (A1, A3), (B1, B3), (C1, C3).

Is this wrong?

i


That is the correct way to rewire the transformer secondary as single
3-phase Y (and not what I thought you were planning), but I thought
you said you wanted to leave your existing 6-phase rectifier connected
and operational, and rewiring your transformer as 3-phase will
preclude that. This also gets rid of the current balancing action of
the interphase transformer, which is of course completely
disconnected.


Glen, just to make sure that you are aware, I was given a three phase
firing system by PCTI. As a sign of appreciation for certain activity
of mine (algebra.com). Wiring it into a existing 3 phase supply is
next to trivial. All I have to do is supply SCRs and potentiometers
and switches. I already have it sitting on my desk.

Here it is:

http://www.pcti.com/3phfiring.htm

The question that we are discussing is how to make my power supply
compatible with this PCTI system.

So, yes, I was hoping that I could simply use my "6 phase rectifier"
to be controlled by this PCTI system. As of now, it does not look like
I could do it, because it is really a 6 phase system with different
phase angles that necessitate different firing angles.


Your 6-phase rectifier is two 3-phase rectifiers in parallel, with 30
degrees phase difference between them, so you could use a pair of the
PCTI controllers for your pair of 3-phase rectifiers.

Why not use the installed rectifier as wired, and build a new
controller for it, adaptable for either CC or CV? If you have
problems you can just reconnect the original controller.


Well, I think that reconnecting the xfmr (which is easily reversed) is
quite easy, will take a couple of evenings. And I already have a well
working SCR controller, made for rough industrial conditions, by company
that is.

If you are willing to abandon the existing rectifier entirely then
transformer rewiring and a standard 3-phase SCR rectifier module
should work. But it seems like the hard way to do the job to me.


It is hard if we assume that I need to make a SCR controller in either
case. But it is not my situation, my situation is that I have a super
nice controller for a 3 phase bridge.

Also, Glen, if I wire this transformer as a Wye vs. Delta, is it true
that I would get different voltages phase to phase? I have a suspicion
that the side effect of my Wye wiring would be increase of voltage by
sqrt( 3 ). Is that true?


The transformer winding connections you have shown above are still Wye
connected (you still have a neutral), but if you are planning to
connect your new rectifier in Delta (and not use the neutral) then the
line-to-line voltage will be sqrt(3) times the line to neutral voltage
seen by the original rectifier. You could reduce the line-to-line
voltage to the same as your present line-to-neutral voltage by
rewiring the transformer secondary as Delta, with no neutral. (The
winding voltages will stay the same.) But since you are using a motor
based rotary converter with inherent voltage imbalances a Delta
connection could result in excessive circulating current - you would
want to measure this with a current shunt in the loop before using a
Delta winding connection.

How about starting out by using 1/2 of your transformer secondary
windings only; either one of the two Wye connected windings provides
3-phase power as is. If it works and you decide you need full power
instead of half power, get another control module or rewire the
transformer.

How about temporarily disconnecting half of your transformer and
rectifiers, so that you have only a 3-phase rectifier, and you can use
your existing SCRs and wiring too?

Thanks, I always listen very closely to what you say.


Fine, just don't always assume I know what I am talking about :-).


  #18   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus21673
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Mon, 24 Apr 2006 18:58:10 GMT, Glen Walpert wrote:
On Mon, 24 Apr 2006 02:49:10 GMT, Ignoramus17838
wrote:

Glen, I have physical access to all 12 leads: I have three legs, two
secondaries on each, and two leads on each secondary, all plainly
visible and physically accessible.

Some secondaries are connected in parallel to form the existing "6
phase rectifier", but I could disconnect them.

Here's the schematic of my welding xfmr:

http://igor.chudov.com/tmp/firing/xfmr.jpg

Here's its actual pictu

http://igor.chudov.com/tmp/firing/welding-xfmr.jpg


I got around to looking at the picture; not the easiest connections to
rewire with those brazed neutral bussbars!


Not the easiest, but, definitely, not terribly hard. A little bit of
cutting and maybe a little bit of drilling will "get me there".



Right now, the following points are connected:

A3, B3, C3;

A2, B2, C2;

These connected pieces are connected to the interphase transformer.

I want to rewire it by disconnecting A3, B3, and C3 from one another,
and by connecting

(A3, A1); (A2, A4)
(B3, B1); (B2, B4)
(C3, C1); (C2, C4)

Then I will have a common point of (A2, A4, B2, B4, C2, C4); and the
wye leads (A1, A3), (B1, B3), (C1, C3).

Is this wrong?

i

That is the correct way to rewire the transformer secondary as single
3-phase Y (and not what I thought you were planning), but I thought
you said you wanted to leave your existing 6-phase rectifier connected
and operational, and rewiring your transformer as 3-phase will
preclude that. This also gets rid of the current balancing action of
the interphase transformer, which is of course completely
disconnected.


Glen, just to make sure that you are aware, I was given a three phase
firing system by PCTI. As a sign of appreciation for certain activity
of mine (algebra.com). Wiring it into a existing 3 phase supply is
next to trivial. All I have to do is supply SCRs and potentiometers
and switches. I already have it sitting on my desk.

Here it is:

http://www.pcti.com/3phfiring.htm

The question that we are discussing is how to make my power supply
compatible with this PCTI system.

So, yes, I was hoping that I could simply use my "6 phase rectifier"
to be controlled by this PCTI system. As of now, it does not look like
I could do it, because it is really a 6 phase system with different
phase angles that necessitate different firing angles.


Your 6-phase rectifier is two 3-phase rectifiers in parallel, with 30
degrees phase difference between them, so you could use a pair of the
PCTI controllers for your pair of 3-phase rectifiers.


Well, I have only one controller set.

Why not use the installed rectifier as wired, and build a new
controller for it, adaptable for either CC or CV? If you have
problems you can just reconnect the original controller.


Well, I think that reconnecting the xfmr (which is easily reversed) is
quite easy, will take a couple of evenings. And I already have a well
working SCR controller, made for rough industrial conditions, by company
that is.

If you are willing to abandon the existing rectifier entirely then
transformer rewiring and a standard 3-phase SCR rectifier module
should work. But it seems like the hard way to do the job to me.


It is hard if we assume that I need to make a SCR controller in either
case. But it is not my situation, my situation is that I have a super
nice controller for a 3 phase bridge.

Also, Glen, if I wire this transformer as a Wye vs. Delta, is it true
that I would get different voltages phase to phase? I have a suspicion
that the side effect of my Wye wiring would be increase of voltage by
sqrt( 3 ). Is that true?


The transformer winding connections you have shown above are still Wye
connected (you still have a neutral), but if you are planning to
connect your new rectifier in Delta (and not use the neutral) then the
line-to-line voltage will be sqrt(3) times the line to neutral voltage
seen by the original rectifier. You could reduce the line-to-line
voltage to the same as your present line-to-neutral voltage by
rewiring the transformer secondary as Delta, with no neutral.


Makes sense.

(The winding voltages will stay the same.) But since you are using
a motor based rotary converter with inherent voltage imbalances a
Delta connection could result in excessive circulating current - you
would want to measure this with a current shunt in the loop before
using a Delta winding connection.


That (about the phase converter) is a great point indeed.

How about starting out by using 1/2 of your transformer secondary
windings only; either one of the two Wye connected windings provides
3-phase power as is. If it works and you decide you need full power
instead of half power, get another control module or rewire the
transformer.


It is a f*&^ing brilliant idea. I will do exactly that! I will try
starting tonight.

How about temporarily disconnecting half of your transformer and
rectifiers, so that you have only a 3-phase rectifier, and you can use
your existing SCRs and wiring too?


Well, my current SCRs are wired with gate towards the common DC+ bus,
so there is no way for the PCTI controller to sense voltage.

I already have enough isolated dual SCRs, adding them to the octagonal
DC+ bar is very easy. Note that the DC+ bar will no longer be
energized, it will only be used for cooling.

If you do not understand what I mean in the above paragraph, it is my
fault, my main message here is that I have all parts for using half
windings.

Thanks, I always listen very closely to what you say.


Fine, just don't always assume I know what I am talking about :-).



I have to admit to it! I think that you know what you are talking
about.

My plan is as follows:

1) use one half of the secondaries as a Wye connected 3 phase source
2) add new dual SCR modules to the octagonal heatsink (that used to
double as DC+ bar)

3) wire everything together with the PCTI modules for some test runs.

If everything works and produces voltage and current, then I could
work on doing a few things such as:

1) reconnecting second half of secondaries
2) making a proper welding control panel.

Glen, do you know anything about plasma cutting? The reason for this
question is that if I put secondaries in series, I would get a power
source that can supply 190V OCV and about 135V continuous voltage.

I could make this transformer switchable from paralleled secondaries
to secondaries in series, with three contactors (not too
expensive). Would it be able to do any plasma cutting?

It would be good to decide on whether to do it, sooner rather than
later. But, first things first, I will definitely try your great idea
about using only hald of the windings "as is".

i

  #19   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Glen Walpert
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Mon, 24 Apr 2006 19:25:02 GMT, Ignoramus21673
wrote:

clip

(The winding voltages will stay the same.) But since you are using
a motor based rotary converter with inherent voltage imbalances a
Delta connection could result in excessive circulating current - you
would want to measure this with a current shunt in the loop before
using a Delta winding connection.


That (about the phase converter) is a great point indeed.


Mabey, I am not sure it would actually work out to be a problem, just
something to check.

How about starting out by using 1/2 of your transformer secondary
windings only; either one of the two Wye connected windings provides
3-phase power as is. If it works and you decide you need full power
instead of half power, get another control module or rewire the
transformer.


It is a f*&^ing brilliant idea. I will do exactly that! I will try
starting tonight.

How about temporarily disconnecting half of your transformer and
rectifiers, so that you have only a 3-phase rectifier, and you can use
your existing SCRs and wiring too?


Well, my current SCRs are wired with gate towards the common DC+ bus,
so there is no way for the PCTI controller to sense voltage.

I already have enough isolated dual SCRs, adding them to the octagonal
DC+ bar is very easy. Note that the DC+ bar will no longer be
energized, it will only be used for cooling.

If you do not understand what I mean in the above paragraph, it is my
fault, my main message here is that I have all parts for using half
windings.

My plan is as follows:

1) use one half of the secondaries as a Wye connected 3 phase source
2) add new dual SCR modules to the octagonal heatsink (that used to
double as DC+ bar)

3) wire everything together with the PCTI modules for some test runs.

If everything works and produces voltage and current, then I could
work on doing a few things such as:

1) reconnecting second half of secondaries
2) making a proper welding control panel.


Sounds like a good plan to me, I trust you'll let us know how it goes.

Glen, do you know anything about plasma cutting? The reason for this
question is that if I put secondaries in series, I would get a power
source that can supply 190V OCV and about 135V continuous voltage.

I could make this transformer switchable from paralleled secondaries
to secondaries in series, with three contactors (not too
expensive). Would it be able to do any plasma cutting?

It would be good to decide on whether to do it, sooner rather than
later. But, first things first, I will definitely try your great idea
about using only hald of the windings "as is".


Alas, I know next to nothing about plasma cutting. Never even tried
one. They weren't all that common when I was welding a lot in the
early 70's. I think it is a constant current process with the arc
confined to the torch and not transferred to the workpiece as in
plasma welding, but that is just a foggy memory of something I may
have read 20 years ago. Perhaps you can pick a particular torch and
find out what it needs.
  #20   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus22091
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Tue, 25 Apr 2006 13:26:48 GMT, Glen Walpert wrote:
On Mon, 24 Apr 2006 19:25:02 GMT, Ignoramus21673
wrote:

clip

(The winding voltages will stay the same.) But since you are using
a motor based rotary converter with inherent voltage imbalances a
Delta connection could result in excessive circulating current - you
would want to measure this with a current shunt in the loop before
using a Delta winding connection.


That (about the phase converter) is a great point indeed.


Mabey, I am not sure it would actually work out to be a problem, just
something to check.


OK, I will keep this in mind. My phase converter is 17.5 HP idler
capacity. When I loaded it with full 200 amps of welder output
(shorted leads), the third leg sagged to about 190 volts.

How about starting out by using 1/2 of your transformer secondary
windings only; either one of the two Wye connected windings provides
3-phase power as is. If it works and you decide you need full power
instead of half power, get another control module or rewire the
transformer.


It is a f*&^ing brilliant idea. I will do exactly that! I will try
starting tonight.

How about temporarily disconnecting half of your transformer and
rectifiers, so that you have only a 3-phase rectifier, and you can use
your existing SCRs and wiring too?


Well, my current SCRs are wired with gate towards the common DC+ bus,
so there is no way for the PCTI controller to sense voltage.

I already have enough isolated dual SCRs, adding them to the octagonal
DC+ bar is very easy. Note that the DC+ bar will no longer be
energized, it will only be used for cooling.

If you do not understand what I mean in the above paragraph, it is my
fault, my main message here is that I have all parts for using half
windings.

My plan is as follows:

1) use one half of the secondaries as a Wye connected 3 phase source
2) add new dual SCR modules to the octagonal heatsink (that used to
double as DC+ bar)

3) wire everything together with the PCTI modules for some test runs.

If everything works and produces voltage and current, then I could
work on doing a few things such as:

1) reconnecting second half of secondaries
2) making a proper welding control panel.


Sounds like a good plan to me, I trust you'll let us know how it goes.


I already started, the first thing that I am working on is mounting
the SCR modules.

Glen, do you know anything about plasma cutting? The reason for this
question is that if I put secondaries in series, I would get a power
source that can supply 190V OCV and about 135V continuous voltage.

I could make this transformer switchable from paralleled secondaries
to secondaries in series, with three contactors (not too
expensive). Would it be able to do any plasma cutting?

It would be good to decide on whether to do it, sooner rather than
later. But, first things first, I will definitely try your great idea
about using only hald of the windings "as is".


Alas, I know next to nothing about plasma cutting. Never even tried
one. They weren't all that common when I was welding a lot in the
early 70's. I think it is a constant current process with the arc
confined to the torch and not transferred to the workpiece as in
plasma welding, but that is just a foggy memory of something I may
have read 20 years ago. Perhaps you can pick a particular torch and
find out what it needs.


I see. Well... If I connect my secondaries with each pair in series,
wye, it should give me about 208 volts AC to play with. I think that
it would result in about 300 volts OCV and 200 volts welding power.

But first things first, I want to make it work as a welder first to
get the proof of concept.

i



  #21   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
joseph2k
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

Ignoramus21673 wrote:

On Mon, 24 Apr 2006 18:58:10 GMT, Glen Walpert

wrote:
On Mon, 24 Apr 2006 02:49:10 GMT, Ignoramus17838
wrote:

Glen, I have physical access to all 12 leads: I have three legs, two
secondaries on each, and two leads on each secondary, all plainly
visible and physically accessible.

Some secondaries are connected in parallel to form the existing "6
phase rectifier", but I could disconnect them.

Here's the schematic of my welding xfmr:

http://igor.chudov.com/tmp/firing/xfmr.jpg

Here's its actual pictu

http://igor.chudov.com/tmp/firing/welding-xfmr.jpg


I got around to looking at the picture; not the easiest connections to
rewire with those brazed neutral bussbars!


Not the easiest, but, definitely, not terribly hard. A little bit of
cutting and maybe a little bit of drilling will "get me there".



Right now, the following points are connected:

A3, B3, C3;

A2, B2, C2;

These connected pieces are connected to the interphase transformer.

I want to rewire it by disconnecting A3, B3, and C3 from one another,
and by connecting

(A3, A1); (A2, A4)
(B3, B1); (B2, B4)
(C3, C1); (C2, C4)

Then I will have a common point of (A2, A4, B2, B4, C2, C4); and the
wye leads (A1, A3), (B1, B3), (C1, C3).

Is this wrong?

i

That is the correct way to rewire the transformer secondary as single
3-phase Y (and not what I thought you were planning), but I thought
you said you wanted to leave your existing 6-phase rectifier connected
and operational, and rewiring your transformer as 3-phase will
preclude that. This also gets rid of the current balancing action of
the interphase transformer, which is of course completely
disconnected.

Glen, just to make sure that you are aware, I was given a three phase
firing system by PCTI. As a sign of appreciation for certain activity
of mine (algebra.com). Wiring it into a existing 3 phase supply is
next to trivial. All I have to do is supply SCRs and potentiometers
and switches. I already have it sitting on my desk.

Here it is:

http://www.pcti.com/3phfiring.htm

The question that we are discussing is how to make my power supply
compatible with this PCTI system.

So, yes, I was hoping that I could simply use my "6 phase rectifier"
to be controlled by this PCTI system. As of now, it does not look like
I could do it, because it is really a 6 phase system with different
phase angles that necessitate different firing angles.


Your 6-phase rectifier is two 3-phase rectifiers in parallel, with 30
degrees phase difference between them, so you could use a pair of the
PCTI controllers for your pair of 3-phase rectifiers.


Well, I have only one controller set.

Why not use the installed rectifier as wired, and build a new
controller for it, adaptable for either CC or CV? If you have
problems you can just reconnect the original controller.

Well, I think that reconnecting the xfmr (which is easily reversed) is
quite easy, will take a couple of evenings. And I already have a well
working SCR controller, made for rough industrial conditions, by company
that is.

If you are willing to abandon the existing rectifier entirely then
transformer rewiring and a standard 3-phase SCR rectifier module
should work. But it seems like the hard way to do the job to me.

It is hard if we assume that I need to make a SCR controller in either
case. But it is not my situation, my situation is that I have a super
nice controller for a 3 phase bridge.

Also, Glen, if I wire this transformer as a Wye vs. Delta, is it true
that I would get different voltages phase to phase? I have a suspicion
that the side effect of my Wye wiring would be increase of voltage by
sqrt( 3 ). Is that true?


The transformer winding connections you have shown above are still Wye
connected (you still have a neutral), but if you are planning to
connect your new rectifier in Delta (and not use the neutral) then the
line-to-line voltage will be sqrt(3) times the line to neutral voltage
seen by the original rectifier. You could reduce the line-to-line
voltage to the same as your present line-to-neutral voltage by
rewiring the transformer secondary as Delta, with no neutral.


Makes sense.

(The winding voltages will stay the same.) But since you are using
a motor based rotary converter with inherent voltage imbalances a
Delta connection could result in excessive circulating current - you
would want to measure this with a current shunt in the loop before
using a Delta winding connection.


That (about the phase converter) is a great point indeed.

How about starting out by using 1/2 of your transformer secondary
windings only; either one of the two Wye connected windings provides
3-phase power as is. If it works and you decide you need full power
instead of half power, get another control module or rewire the
transformer.


It is a f*&^ing brilliant idea. I will do exactly that! I will try
starting tonight.

How about temporarily disconnecting half of your transformer and
rectifiers, so that you have only a 3-phase rectifier, and you can use
your existing SCRs and wiring too?


Well, my current SCRs are wired with gate towards the common DC+ bus,
so there is no way for the PCTI controller to sense voltage.

I already have enough isolated dual SCRs, adding them to the octagonal
DC+ bar is very easy. Note that the DC+ bar will no longer be
energized, it will only be used for cooling.

If you do not understand what I mean in the above paragraph, it is my
fault, my main message here is that I have all parts for using half
windings.

Thanks, I always listen very closely to what you say.


Fine, just don't always assume I know what I am talking about :-).



I have to admit to it! I think that you know what you are talking
about.

My plan is as follows:

1) use one half of the secondaries as a Wye connected 3 phase source
2) add new dual SCR modules to the octagonal heatsink (that used to
double as DC+ bar)

3) wire everything together with the PCTI modules for some test runs.

If everything works and produces voltage and current, then I could
work on doing a few things such as:

1) reconnecting second half of secondaries
2) making a proper welding control panel.

Glen, do you know anything about plasma cutting? The reason for this
question is that if I put secondaries in series, I would get a power
source that can supply 190V OCV and about 135V continuous voltage.

I could make this transformer switchable from paralleled secondaries
to secondaries in series, with three contactors (not too
expensive). Would it be able to do any plasma cutting?

It would be good to decide on whether to do it, sooner rather than
later. But, first things first, I will definitely try your great idea
about using only hald of the windings "as is".

i


Don't claim to know much about plasma cutters, but my one time neighbors
unit seemed to require an inert gas supply like GMAW and GTAW welders.

--
JosephKK
Gegen dummheit kampfen die Gotter Selbst, vergebens.Â*Â*
--Schiller
  #22   Report Post  
Posted to rec.crafts.metalworking
Ignoramus12938
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Sun, 30 Apr 2006 02:02:44 GMT, joseph2k wrote:
Ignoramus21673 wrote:

On Mon, 24 Apr 2006 18:58:10 GMT, Glen Walpert

wrote:
On Mon, 24 Apr 2006 02:49:10 GMT, Ignoramus17838
wrote:

Glen, I have physical access to all 12 leads: I have three legs, two
secondaries on each, and two leads on each secondary, all plainly
visible and physically accessible.

Some secondaries are connected in parallel to form the existing "6
phase rectifier", but I could disconnect them.

Here's the schematic of my welding xfmr:

http://igor.chudov.com/tmp/firing/xfmr.jpg

Here's its actual pictu

http://igor.chudov.com/tmp/firing/welding-xfmr.jpg

I got around to looking at the picture; not the easiest connections to
rewire with those brazed neutral bussbars!


Not the easiest, but, definitely, not terribly hard. A little bit of
cutting and maybe a little bit of drilling will "get me there".



Right now, the following points are connected:

A3, B3, C3;

A2, B2, C2;

These connected pieces are connected to the interphase transformer.

I want to rewire it by disconnecting A3, B3, and C3 from one another,
and by connecting

(A3, A1); (A2, A4)
(B3, B1); (B2, B4)
(C3, C1); (C2, C4)

Then I will have a common point of (A2, A4, B2, B4, C2, C4); and the
wye leads (A1, A3), (B1, B3), (C1, C3).

Is this wrong?

i

That is the correct way to rewire the transformer secondary as single
3-phase Y (and not what I thought you were planning), but I thought
you said you wanted to leave your existing 6-phase rectifier connected
and operational, and rewiring your transformer as 3-phase will
preclude that. This also gets rid of the current balancing action of
the interphase transformer, which is of course completely
disconnected.

Glen, just to make sure that you are aware, I was given a three phase
firing system by PCTI. As a sign of appreciation for certain activity
of mine (algebra.com). Wiring it into a existing 3 phase supply is
next to trivial. All I have to do is supply SCRs and potentiometers
and switches. I already have it sitting on my desk.

Here it is:

http://www.pcti.com/3phfiring.htm

The question that we are discussing is how to make my power supply
compatible with this PCTI system.

So, yes, I was hoping that I could simply use my "6 phase rectifier"
to be controlled by this PCTI system. As of now, it does not look like
I could do it, because it is really a 6 phase system with different
phase angles that necessitate different firing angles.

Your 6-phase rectifier is two 3-phase rectifiers in parallel, with 30
degrees phase difference between them, so you could use a pair of the
PCTI controllers for your pair of 3-phase rectifiers.


Well, I have only one controller set.

Why not use the installed rectifier as wired, and build a new
controller for it, adaptable for either CC or CV? If you have
problems you can just reconnect the original controller.

Well, I think that reconnecting the xfmr (which is easily reversed) is
quite easy, will take a couple of evenings. And I already have a well
working SCR controller, made for rough industrial conditions, by company
that is.

If you are willing to abandon the existing rectifier entirely then
transformer rewiring and a standard 3-phase SCR rectifier module
should work. But it seems like the hard way to do the job to me.

It is hard if we assume that I need to make a SCR controller in either
case. But it is not my situation, my situation is that I have a super
nice controller for a 3 phase bridge.

Also, Glen, if I wire this transformer as a Wye vs. Delta, is it true
that I would get different voltages phase to phase? I have a suspicion
that the side effect of my Wye wiring would be increase of voltage by
sqrt( 3 ). Is that true?

The transformer winding connections you have shown above are still Wye
connected (you still have a neutral), but if you are planning to
connect your new rectifier in Delta (and not use the neutral) then the
line-to-line voltage will be sqrt(3) times the line to neutral voltage
seen by the original rectifier. You could reduce the line-to-line
voltage to the same as your present line-to-neutral voltage by
rewiring the transformer secondary as Delta, with no neutral.


Makes sense.

(The winding voltages will stay the same.) But since you are using
a motor based rotary converter with inherent voltage imbalances a
Delta connection could result in excessive circulating current - you
would want to measure this with a current shunt in the loop before
using a Delta winding connection.


That (about the phase converter) is a great point indeed.

How about starting out by using 1/2 of your transformer secondary
windings only; either one of the two Wye connected windings provides
3-phase power as is. If it works and you decide you need full power
instead of half power, get another control module or rewire the
transformer.


It is a f*&^ing brilliant idea. I will do exactly that! I will try
starting tonight.

How about temporarily disconnecting half of your transformer and
rectifiers, so that you have only a 3-phase rectifier, and you can use
your existing SCRs and wiring too?


Well, my current SCRs are wired with gate towards the common DC+ bus,
so there is no way for the PCTI controller to sense voltage.

I already have enough isolated dual SCRs, adding them to the octagonal
DC+ bar is very easy. Note that the DC+ bar will no longer be
energized, it will only be used for cooling.

If you do not understand what I mean in the above paragraph, it is my
fault, my main message here is that I have all parts for using half
windings.

Thanks, I always listen very closely to what you say.

Fine, just don't always assume I know what I am talking about :-).



I have to admit to it! I think that you know what you are talking
about.

My plan is as follows:

1) use one half of the secondaries as a Wye connected 3 phase source
2) add new dual SCR modules to the octagonal heatsink (that used to
double as DC+ bar)

3) wire everything together with the PCTI modules for some test runs.

If everything works and produces voltage and current, then I could
work on doing a few things such as:

1) reconnecting second half of secondaries
2) making a proper welding control panel.

Glen, do you know anything about plasma cutting? The reason for this
question is that if I put secondaries in series, I would get a power
source that can supply 190V OCV and about 135V continuous voltage.

I could make this transformer switchable from paralleled secondaries
to secondaries in series, with three contactors (not too
expensive). Would it be able to do any plasma cutting?

It would be good to decide on whether to do it, sooner rather than
later. But, first things first, I will definitely try your great idea
about using only hald of the windings "as is".

i


Don't claim to know much about plasma cutters, but my one time neighbors
unit seemed to require an inert gas supply like GMAW and GTAW welders.


Thanks... I know nothing about plasma cutters... Actually right now my
both kids are asleep and this evening i will try to get this to work
in the most basic configuration..


i

  #23   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus19383
 
Posts: n/a
Default [GLEN WALPERT] Converting a six phase rectifier to three phase rectifier

Glen, I put together the most basic configuration, and voila, the
controller did produce the voltage that I expected. No current tests
yet, but that the voltage was correct, makes me think that everything
is alright. Now that I know that it is working, I will actually wire
it up properly, that will take quite a while to get all the copper
wiring, contactors etc, right.

I am now going to ask about making a plasma power supply.

i

On Sat, 22 Apr 2006 01:30:49 GMT, Ignoramus12493 wrote:
Thanks for yesterday' suggestions regarding 3 phase transformers.

I have a hobart cybertig welder. It has a "six phase rectifier" shown
in this schematic:

http://igor.chudov.com/tmp/firing/6-phase.jpg

I received a three phase SCR control/firing system made by PCTI, that
seems to be extremely easy to hook up.

By the way, PCTI loves children and is highly recommended, they are a
wonderful company. The best of the best.

I want to convert this Cyber Tig to both TIG/Stick (CC) as well as MIG
(CV) mode. This way I could both tig and mig with it.

Here's its wiring diagram:

http://igor.chudov.com/tmp/firing/pcti-firing.jpg

My issue is that the PCTI schematic refers to a "three phase bridge"
and my welder has a "six phase" rectifier where all SCR's "point" to
one DC bus, and where another side is connected to an interphase
transformer. Very different schematics.

So, I have maybe one and maybe two possibilities:

1) Rewire the transformer. It is made of six secondary windings, two
independent ones on each phase. Two leads from two transformers on
every phase are tied into the interphase transformer.

The ones that are tied together I could disconnect them from
interphase transformer, parallel each pair, and then connect them so
that I have three leads instead of six. (I am not 100% sure how to
connect them, but I think that it is easy. I have an idea).

Then simply put together a new rectifier bridge wired as PCTI
suggests, using new SCR half bridges which I already have in my pile.

2) Maybe there is a possibility of wiring in the PCTI board so that it
works just fine controlling the six SCRs that make up the current "six
phase" rectifier.

I spoke to their engineer yesterday (did not give him the schematics)
and he was kind of vaguely positive about it, I asked if ony K2, K4
and K6 were used for synchronization and he said yes.

What I am thinking here is that I would wire all six existing Hobart
SCRs to the PCTI board, it would monitor voltage on K2, K4, K6, and
then adjust phase angles of firings of all six SCRs based on desired
current/voltage vs. actual. And that it would not matter that the SCRs
1, 3, and 5 are wired the opposite of the PCTI sample schematic.

Note that the SCRs that I have now are pointing with their gates to
the DC+ bus, which makes it impossible for K2, K4, and K6 to
meaningfully monitor voltage/phase. So, what I think I can do here is
turn all SCRs UPSIDE DOWN, so that K2, K4, and K6 could be connected
to 3 phase voltage.

The side effect of this is that the negatve bus will become positive,
and vice versa, but that is no big deal as I could simply switch
contacts leading to commutator.

Is this making any sense? Is approach #2 possible?

thanks

i


  #24   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Glen Walpert
 
Posts: n/a
Default [GLEN WALPERT] Converting a six phase rectifier to three phase rectifier

On Mon, 01 May 2006 02:24:49 GMT, Ignoramus19383
wrote:

Glen, I put together the most basic configuration, and voila, the
controller did produce the voltage that I expected. No current tests
yet, but that the voltage was correct, makes me think that everything
is alright. Now that I know that it is working, I will actually wire
it up properly, that will take quite a while to get all the copper
wiring, contactors etc, right.

I am now going to ask about making a plasma power supply.

i


Sounds good so far. Do you have a MIG torch for testing under load
yet?

An alternitive to transformer reconfiguration with a bunch of large
contactors would be a patch panel with the transformer windings and
load connections brought out to studs on an insulating panel, with
copper bussbar links and a few jumper cables able to switch to any of
the 5 configurations (6-phase, and 3-phase wye and delta both with
series or parallel winding connections). Compare the time difference
in assembly with the likely time spent changing configurations, and of
course parts on hand ...

When connecting transformer windings in parallel it is always a good
idea to connect one end first, power up and check the voltages between
the unconnected ends, which will not only let you know if you have a
winding backwards without letting any smoke out, it will show any
winding imbalance with the correct connection, which should be very
small. Do the same thing with the delta connection, first connecting
the 3 windings in a U configuration and checking voltages between the
open ends before making the final delta connection. If there is a
significant voltage present (more than a few percent of phase voltage)
then check for circulating current at no-load with an amprobe or shunt
when you make the connection. Since it is not an always-on power dist
transformer you could live with some circulating current; eg 10% of
rated current circulating still leaves 90% available for welding and
my hunch is it will not be that high, what there is will tend to
equalize phase voltages, and it is just part of the cost of using
unbalanced power from your rotary converter.

(BTW I think it is considered poor netiquette to stick a persons name
in a message subject line, even though it is done all the time. Glen
or GW would be better than the full name in caps if you want my
attention, but I tend to keep an eye out for your project so you could
put that in the body and I would still probably notice.)

  #25   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Ignoramus5749
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Tue, 02 May 2006 14:49:35 GMT, Glen Walpert wrote:
On Mon, 01 May 2006 02:24:49 GMT, Ignoramus19383
wrote:

Glen, I put together the most basic configuration, and voila, the
controller did produce the voltage that I expected. No current tests
yet, but that the voltage was correct, makes me think that everything
is alright. Now that I know that it is working, I will actually wire
it up properly, that will take quite a while to get all the copper
wiring, contactors etc, right.

I am now going to ask about making a plasma power supply.


A little update, I took out the old rectifier from my Cyber Tig, which
freed up a lot of space, for a nice installation of isolated case dual
SCRs.

I will hopefully install the heatsink and SCRs in a couple of days. It
will need some brackets to fit into the space available.


Sounds good so far. Do you have a MIG torch for testing under load
yet?


No, all I have is TIG equipment...

An alternative to transformer reconfiguration with a bunch of large
contactors would be a patch panel with the transformer windings and
load connections brought out to studs on an insulating panel, with
copper bussbar links and a few jumper cables able to switch to any of
the 5 configurations (6-phase, and 3-phase wye and delta both with
series or parallel winding connections). Compare the time difference
in assembly with the likely time spent changing configurations, and of
course parts on hand ...


Well, I already bought five 50a contactors for $9.99 each. I drew some
schematics, they should be enough to switch between parallel delta,
vs. series wye (for plasma).

I am going to start with wiring for just welding (parallel delta), and
make the welder part work fully. I want to move in smaller steps.

After that, I will add contactors to switch between parallel delta,
vs. series wye.

When connecting transformer windings in parallel it is always a good
idea to connect one end first, power up and check the voltages between
the unconnected ends, which will not only let you know if you have a
winding backwards without letting any smoke out, it will show any
winding imbalance with the correct connection, which should be very
small.


Great point, I will do just that.

Do the same thing with the delta connection, first connecting
the 3 windings in a U configuration and checking voltages between the
open ends before making the final delta connection.


This is a very nice idea, I was quite afraid of this delta connection,
but this is a safe way to go.

If there is a significant voltage present (more than a few percent
of phase voltage) then check for circulating current at no-load with
an amprobe or shunt when you make the connection. Since it is not
an always-on power dist transformer you could live with some
circulating current; eg 10% of rated current circulating still
leaves 90% available for welding and my hunch is it will not be that
high, what there is will tend to equalize phase voltages, and it is
just part of the cost of using unbalanced power from your rotary
converter.


Yes. Also, I want to finally make the transformer switch on when I
need to actually weld. It should not be on all the time, like it used
to be, it is a waste of electrons.

(BTW I think it is considered poor netiquette to stick a persons name
in a message subject line, even though it is done all the time. Glen
or GW would be better than the full name in caps if you want my
attention, but I tend to keep an eye out for your project so you could
put that in the body and I would still probably notice.)


Sorry about that Glen, I changed the Subject of this post.

i



  #26   Report Post  
Posted to rec.crafts.metalworking,sci.electronics.design
Glen Walpert
 
Posts: n/a
Default Converting a six phase rectifier to three phase rectifier

On Tue, 02 May 2006 15:00:13 GMT, Ignoramus5749
wrote:


A little update, I took out the old rectifier from my Cyber Tig, which
freed up a lot of space, for a nice installation of isolated case dual
SCRs.

I will hopefully install the heatsink and SCRs in a couple of days. It
will need some brackets to fit into the space available.


Sounds good so far. Do you have a MIG torch for testing under load
yet?


No, all I have is TIG equipment...


So I assume you are scanning ebay for a deal?

An alternative to transformer reconfiguration with a bunch of large
contactors would be a patch panel with the transformer windings and
load connections brought out to studs on an insulating panel, with
copper bussbar links and a few jumper cables able to switch to any of
the 5 configurations (6-phase, and 3-phase wye and delta both with
series or parallel winding connections). Compare the time difference
in assembly with the likely time spent changing configurations, and of
course parts on hand ...


Well, I already bought five 50a contactors for $9.99 each. I drew some
schematics, they should be enough to switch between parallel delta,
vs. series wye (for plasma).


50 A is in the ballpark but seems a bit light for your transformer;
assuming a nominal rating of 200 A, 100 A per 3-phase section, 100 /
sqrt(3) = 58 A per winding. Probably close enough.

Your original rectifier did not make very effective use of the
transformer secondary windings, as each winding was used in one
direction only. With your full wave bridge each winding is used in
both directions, reducing copper losses by 1/sqrt(2) IIRC, so you
could use about 82 A per phase from one of the two windings for 82 *
sqrt(3) = 140 A RMS total welding current. (If you did that for both
secondary windings at the same time you would probably overload the
transformer primary, which was designed for the half wave rectifier
configuration). So you could do reasonable load testing with your
existing single winding configuration. Also you get the same VA with
either delta or wye, so the delta config of one winding would be good
for 140 * sqrt(3) = 245 A. With both windings paralleled the delta
connection will provide 200 * sqrt(3) = 346 A, limited by the
transformer priimary.

clip

Sorry about that Glen, I changed the Subject of this post.


Thanks!
Reply
Thread Tools Search this Thread
Search this Thread:

Advanced Search
Display Modes

Posting Rules

Smilies are On
[IMG] code is On
HTML code is Off
Trackbacks are On
Pingbacks are On
Refbacks are On


Similar Threads
Thread Thread Starter Forum Replies Last Post
My $45 homemade 10 HP phase converter is WORKING!!! Christopher Tidy Metalworking 56 July 30th 05 06:17 AM
My $45 homemade 10 HP phase converter is WORKING!!! Walter R. Home Repair 32 July 30th 05 06:17 AM
My $45 homemade 10 HP phase converter is WORKING!!! Christopher Tidy Home Repair 1 July 28th 05 08:05 AM
Motor capacitor sizing? Jeff Wisnia Metalworking 5 June 10th 05 11:14 PM
Phase converter balancing Karl Townsend Metalworking 7 July 13th 03 01:48 AM


All times are GMT +1. The time now is 12:27 PM.

Powered by vBulletin® Copyright ©2000 - 2024, Jelsoft Enterprises Ltd.
Copyright ©2004-2024 DIYbanter.
The comments are property of their posters.
 

About Us

"It's about DIY & home improvement"