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Unlike the later made VW and ZW transformers, the early PW "V" and "Z" had a separate winding for each of the four outputs.  The later VW and ZW shared common windings, so the failure of one affected all four.  Also, the earlier "V" and "Z" were / are better for good source powering because, not being shared windings, and not sharing amperages, you have full amps from each post as listed, no drop due to having shared with other of the four output circuits.  I have more than one of each, the "V", "Z" and VW as well as ZW..... prefer the earlier models for better sustained supply.  IMO...….

Jesse   TCA 

Jesse, take a look at the type V & Z manual, with schematic, available on the olsentoy website.  They speak of it as having a 2 coils, one giving 6 volts, and the other 6-24 as tapped off.  The schematic shows 4 rollers running across the single 6-24 volt secondary.

The breaker opens the feed to U. Thus, there is no protection against a short between any of the A,B,C,D terminals.

http://pictures.olsenstoy.com/cd/transfmr/psv1.pdf

A lengthy srticle indicates that there were many internal changes to the V over the years it was in production:

http://www.jbgilmer.com/ToyTra...0V%20Transformer.pdf

Last edited by RJR
coach joe posted:

On a more expensive note there are the "distribution Panels made by MTH.  very similar to barrier strips with jumpers. One hot and one neutral input and I believe 24 out puts of each hot and neutral.

coach Joe,

Those "distribution Panels made by MTH" are great - very easy to wire.  They do take up a lot of real estate though!  I have moved to doing most of my wiring on the slightly recessed 1" x 4" frame members for my train tables.  That way, I just pull the wires through the table, and do the wiring on the sides of the layout benchwork -- no more crawling under the tables.  The MTH distribution panels are too large for the 1" x 4" framework.

I will just put removable skirts around the layout, covering the wiring, but, giving ready access from the sides.

 

Last edited by Dennis GS-4 N & W No. 611

On the subject of Wago connectors, for many years Ideal has had a line of similar connectors that do not have levers and are slightly smaller. 

Mucking around on the internet, I came across a video in which a man makes up a length of what appears to be 12-gauge wire, with a series of splices---wago connector, crimp connector, wire nut, Euto-style screw connector---and then fed 70+ amps through it for awhile.  Melted the insulation off the wire, and the Wago was the first connector to smoke.

Last edited by RJR
RJR posted:

On the subject of Wago connectors, for many years Ideal has had a line of similar connectors that do not have levers and are slightly smaller. 

Mucking around on the internet, I came across a video in which a man makes up a length of what appears to be 12-gauge wire, with a series of splices---wago connector, crimp connector, wire nut, Euto-style screw connector---and then fed 70+ amps through it for awhile.  Melted the insulation off the wire, and the Wago was the first connector to smoke.

Found that video and watched it.   If the connector is still fine after the insulation has been charred off of the 12g wire,  thats a good sign it can handle the job.  Also, if the connection remained in tact after the 90amps of current burned the 12g wire in half, thats another good sign. 

The way he conducted the test was a little silly (although cool) because the 12g wire was basically converted into a stove top heating element.  So the wire itself was generating a tremendous amount of heat and was causing all of the plastic on the connectors to melt, and one couldnt be certain how much heat was being generated by the connector junctions themselves.   

Agree, MJCAT.

Supplementing my comment above, some years ago I was in discussions with a manufacturer of marine air conditioning units.  They advised me that the principal cause of problems was that crimp connectors would overheat & fail.  I have encountered that issue on marine a/c units, usually when a unit has been operating continuously for several days at about 17 amps on a12-gauge circuit.  On these units, I always replace crimped splices in a/c unit with an Ideal product that uses a metal ring with a set screw, over which a cap is screwed

  It looks great but you missed securing the green wire loom Dennis.

 Also, to move stresses off connections of heavy, draped wire, push the bundle to the left thru the wire stay slightly and wrap the wire bundle with a small zip tie(s) tightly to the left of the wire stay so it's head will butt against the wire stay when released.

  Ideally the wires should sort of push at the terminals vs pull.  Any wire stress down the line to the right is now held at the wire stay vs the crimp connections. Loops of excess I hang on the run (the right).

A fun way to dress some minor excess slack is to wrap a few turns around a phillps screwdriver or pen to "shorten it" then pull to length, then pull the coils off the driver, and slowly pull it to length.

It's silly, but visually effective dress.

 

Adriatic posted:

IMG_20190204_211215~2

Hi Adriatic,

I enjoyed and appreciate both of your posts, and now have some time to implement your suggestions.  In this regard, your pen/Philips screwdriver suggestion made me smile! I used the red/burgundy colored Lionel solid wire for my Super "O" layout as a young boy, and frequently used a pencil to coil some wire to give me "wiggle room" if I later made a modest change to the location of an accessory.  (I still have a few lengths of that 1960's era "coiled" wire in my miscellaneous wire box!)

I still use this method occasionally under the table if I envision possibly moving something a short distance in the future.  That's a wonderful layout "Tip & Trick" that I should probably use occasionally on the 1"4" layout framing where I am now running most of my wiring, as you suggest.

Question: Should I just plan in the future to place the plastic "wire stays" slightly above each connection with the barrier strip where possible?  I generally have room on the 1" x 4" layout framing for this.

Finally, those wire "looms" were installed when I first started the wiring and I can probably eliminate them and use the pencil/pen tip and trick to replace the larger coils with a short 1" coil of wire.  In this regard, each of those white, red and green colored wires are for a mainline track connection, so I likely wanted some flexibility when I started my layout wiring back when I made the O.P.

Thanks again!

Last edited by Dennis GS-4 N & W No. 611

Looms that are exposed get pulled on or bumped sooner or later, so yes. Would they survive without it? Maybe.

Ideally you dont want stress on the connection themselves, especially weight putting reversing torque on the screw heads. The vibrations will do their best to loosen a screw or two then. A crimp can't pull out if the stresses of an accidental yank are consentrated at a wire stay.

   Look at how heavy outdoor ac lines get terminated. A guy line comes from high off the pole and has a cable stay to hold the main weight of the long line off of any electrical connections. Looped slack being on the runs side gives it a beter chance to slack out under extreme pressures (tie loops ONCE just enough to hold loops reasonably, two will hang up uncoiling), less chance of wire damage, you just have to re-coil/re-tie.

 It's silly but the "real pigtail"(?) does garner smiles from folks that would never look twice at electrical too.

  We'd be assessed by non-techs for general order, cleanliness, etc.. This touch was a secret weapon to draw a bored eye away from something minor missed (usually by assistants) ....surprise visit protection  

Adriatic posted:

"Ideally you dont want stress on the connection themselves, especially weight putting reversing torque on the screw heads. The vibrations will do their best to loosen a screw or two then. A crimp can't pull out if the stresses of an accidental yank are concentrated at a wire stay."

That's helpful, and will be useful information for many different circumstances including this specific one.  It also makes very logical sense after better understanding the issue, and thinking about the various forces at play over time.

IMG_4396I'm  continuing with my layout wiring and Murphy's law has been added to the electrical equation.  As it turns out, the wire in the previously posted photo (above) that I did not cut longer than needed is the yellow accessory wire!  I have now run that wire to a bus bar, and can proceed with wiring the lighted accessories that are destined for that particular portion of the benchwork.

I was also able to utilize the helpful pointers for the actual wiring that Adriatic posted above.  

 

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Last edited by Dennis GS-4 N & W No. 611

Would using the left side of the left hand terminal strip work at all or for a while? .

  Remove any jumper you need to by clipping the strip that connects each terminal section. Let the wire color and maybe some term.-screw spaces keep you organized. Using a T-strip doesn't have "rule" forbidding running hots and com.s both, or unrelated circuits. Closest you see is hot and ground constants tend to be run on the ends; switched/ control/ etc. in between. 

  If using that strip leaves the wire in the hole shy of the strip, splice that on the underside or replace it and save that long scrap for dividing among other short runs to come, hopefully related, etc.. 

Long run savings?.... if you cut T-strip jumpers with thoughts of how you might use scraps long term. Avoid clipping a single one off because thats definitely waste; a pair or more just might get used one day. Any single slice reduces the effective total jump count by 1 when reused together so  be careful with cut count vs terminal counts, especially if you attempt any convoluted math to plan ahead. High count scrap drawer stock makes for easier math imo  

   Kinda like extra brick overstock buffer % applied to a job estimate so you don't run shy. Sometimes that excess can be forwarded to a new job, sometimes not. (if builder own it vs the build-ee, etc)  I didn't use brick much outside of architectural drafting and some trades estimating, blueprinting, surveyor mapping type work. I.e. a lot of paper brick and spiral bound mortar, not too much in crusty knuckles and grey boots that didn't involved a pour....

( Detroit-y trades & elders fav. story semi-re-enacted : ) ....  Mostly knocking holes in brick, then sealing lots of hvac/plumbing around the GM headquarters, south side apts, foods, business, etc.. I'm brain farting on the traditional old school "area" and buisness name; But one apt house, was actually once a trade school my mom's dad had taught welding at in the 30s-40s.

  To save a few class rooms of people, he was forced to catch, wrestle, and push a large acetylene tank who's valve broke off in a tip over, right out of a 4th floor window into that 1st former alley off the water, south of GM where it became a northbound rocket. Nobody got hurt though Grandfather always said he was very tempted to bury his foot "somewhere" in the idiot who didn't drape the tipping safety after it was stood in place but settled for suggesting he drop the class before temptation won. 

 Over half a century later, knowing the story and location, I got to drop bricks and other heavy debris from the same window (after I moved the dumpster over a room with my truck. ) and recall thinking about how quick it was all processed by him; the counting of lives vs risks going out the window to below and those negligence risks; manslaughter vs just running as they had time, vs being unable to warn other floors, vs was he able to even catch or control it (he WAS a very large man overall, +300lbs easy in shape. A near Shaq sized, broad, tall, Englishman; my hand spread, fits easily into both mens palms in a high five {high for me anyhow } )

    Anyhow,  I think that's it for a chance at an interesting Mason's story that isnt Masonic

Adriatic posted:

Would using the left side of the left hand terminal strip work at all or for a while? .

Answer: Good suggestion!  I actually have a number of lights, and lighted accessories to wire on the table, and those remaining "black" terminal spots are for the ground wires.

Using a T-strip doesn't have "rule" forbidding running hots and com.s both, or unrelated circuits. 

Answer:  I likely should know the answer, but what is a "T-strip"?

Anyhow,  I think that's it for a chance at an interesting Mason's story that isnt Masonic

Answer:  That was an interesting story!  

 

 

Last edited by Dennis GS-4 N & W No. 611

FWIW, you only need to have 3 wires going to a #97.  Note under the elevator that a bar connects 2 terminals.  Neither of these needs to be used.  On the side with 2 terminals, connect the terminal not on the bar to ground.  Feed hot directly to your controller, and connect the two output wires to the two terminals on the 3-terminal side that are not connected to the bar.  Thisa cuts voltage loss.

Similarly on 022 switches, leave off the wire from the switch middle terminal to the controller, and feed the controller directly from transformer ground.  Switches get hot from the track or preferably the fixed voltage plug.

RJR posted:

FWIW, you only need to have 3 wires going to a #97.  Note under the elevator that a bar connects 2 terminals.  Neither of these needs to be used.  On the side with 2 terminals, connect the terminal not on the bar to ground.  Feed hot directly to your controller, and connect the two output wires to the two terminals on the 3-terminal side that are not connected to the bar.  Thisa cuts voltage loss.

Similarly on 022 switches, leave off the wire from the switch middle terminal to the controller, and feed the controller directly from transformer ground.  Switches get hot from the track or preferably the fixed voltage plug.

I did not have the original controller for my 97.  I re-configured a controller for a UCS Track.  The right button opens the solenoid coil to unload the 97.  The left button operates the bucket conveyor.  The doorbell button operates the control rails to unload the dump car.

IMG_1717

I custom built my control rails to dump into the unloading tray for the 97. I placed an un-couple magnet before the control rails so I can drop off the dump car in position to un-load into the tray.

IMG_3864

As to my O-22 switches, I use 2 wire 18 gauge speaker wire.  Run a 2 wire pair to each switch.  The switch controllers on the control panel are grounded to the terminal strips on the back of my control panel.  A separate wire is run from accessory power to the voltage plug on the switch machine.

Below you can see my connections at one of my O-22 switches.  Built platform boxes to hide the switch machines.

IMG_2925

Steve

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