Wednesday, March 28, 2012

NINCO News March-April 2012

*** Estimated Availability is April 2012 ***
NINCO LIGHTNING Mercedes SLS GT3 VIAGE 1/32 Slot Car #50578
Features - extra long slot guide, NC-12 motor with silicone wires. ProRace chassis with motor pod, Lexan interior, anglewinder transmision, 31T/13T. 15” hubs with ultra low profile fronts and 17” 19x10’s at the rear.

NINCO 1 Plus Mercedes SLS GT3 Team Holland 1/32 Slot Car #55053
NINCO 1 Plus with motor pod chassis. Usual NINCO 1 setup, lightened without cockpit, NC-9 motor.

NINCO 1 Plus N-Digital Mercedes SLS GT3 Team Holland 1/32 Slot Car #55054
N-Digital version, complete with N-Digital decoder chip installed. NINCO 1 Plus with motor pod chassis. Usual NINCO 1 setup, lightened without cockpit, NC-9 motor.

NINCO Jaguar E-Type Roadster 1/32 Slot Car #50599
NC-9 20,000 rpm motor, in-line front motor position with metal pinion and a 9/27 gear ratio. New wider sport tires at the rear.

NINCO LIGHTNING Audi R8 GT3 TOTAL 1/32 Slot Car #50597
Features - extra long slot guide, NC-12 motor with silicone wires. ProRace chassis with motor pod, Lexan interior, anglewinder transmision, 31T/13T. 15” hubs with ultra low profile fronts and 17” 19x10’s at the rear.

NINCO LIGHTNING CITROEN C4 WRC NOVIKOV 1/32 Slot Car #50598
AngleWinder setup with new adjustable suspension motor pod, road-grip effect 4-wheel drive, ProShock Suspension, new ProRace V.03 29T crown, NC-14 motor and new rear tires with new design & composition.

NINCO Porsche 550 Spyder 1/32 Slot Car #50601
New racing livery of the elegant 550 Spyder. Powered by the NC-8 motor!

NINCO ProRace Suspension Motor Mount for Citroen C4 #81808
For use with the NINCO ProRace Citroen C4 Suspension Motor Mount Chassis #81803.

NINCO Screw Kit for Suspension Motor Mount #80913
For use with the NINCO ProRace Suspension Motor Mount for Citroen C4 #81808.


NINCO ProRace Citroen C4 Suspension Motor Mount Chassis #81803

NINCO ProRace Citroen C4 Body Kit #81807

NINCO Citroen C4 Lexan Interior Tray #81809

NINCO XGEAR 3/32" 26T Angle Winder Crown Gear #80251
The new XGEAR angle winder crowns have straight teeth which makes them suitable for combining with different pinions.

NINCO XGEAR 3/32" 29T Angle Winder Crown Gear #80252

NINCO XGEAR 3/32" 31T Angle Winder Crown Gear #80253

NINCO Laprene Slick Tires (19 x 10 mm) - 4 pack #80523
New mold design and high-grip LP compound, (better than Shore-A25) straight sides, very high performance tire.

NINCO Xenon Light Kit #80912
Replaces the #80907 Light Kit –more powerful lights & bigger capacitor. Keeps lights on longer after car deslots or power is removed.

Wednesday, March 14, 2012

N-Digital Tips, Tricks & Tweaks

Well, I finally found (it would be more accurate to say, was given) a new, permanent home for my my N-Digital track. It now fills every available square foot of what used to be the guest bedroom. Now, the only guests in this room will be slotheads. Anyway, as long as I had to go through the arduous task of moving the track, I thought I would make some improvements and address a few niggling issues that have been tolerated far too long. Below is the new layout.
The next photo shows my prior track. Given the space constraint, it was a pretty good layout, providing many hours of competitive racing. And it was actually less than one foot shorter than the new circuit. But it definitely had some line-of-sight problems. And, it occupied one entire end of the living room. But the main thing that I didn't like was having the Pit Lane on the back straight – hard to reach. But there was no other option because that was the only straight long enough to accommodate it.
The new layout has a long enough straight in the front to accommodate the Pit Lane. However, this required that the N-Digital console/track be located after the pit exit, otherwise cars exiting the pits would bypass the start/finish (S/F) line and their current lap would not be counted. This could be done but it meant that the console/track (and, therefore, the S/F line) would be the last section going into an R2 turn. Not a good situation in the final lap of a close race. So I wanted my S/F line to be prior to the pit exit. In other words, next to the Pit Lane, not after it.

The solution was the N-Digital Multi-Lane Sensor track. This track section is normally used to provide a S/F line in a four (or more) lane layout, but it can also serve the same purpose in the Pit Lane. The two photos below show how the Multi-Lane Sensor track is installed within the Pit Lane as the last track section prior to the pit exit. It's the track section with the yellow cone standing on it. This allows the N-Digital console/track to also be moved back to a position prior to the pit exit, leaving room to slow down before the first R2 curve. Now when a car goes through the Pit Lane it crosses the S/F line and the lap is counted. Note that the Multi-Lane Sensor has a data cable just like the Pit Lane that must be connected to the N-Digital console. This will require the NINCO #40306 N-Digital Multi Connector Jack to accommodate both cables.
Important note: Obviously, only one lane (i.e., the left lane) of the Multi-Lane Sensor track is connected to the Pit Lane. After connecting the Multi-Lane Sensor as shown in the above photos and plugging its data cable into the N-Digital console, to my dismay laps were not being counted for cars passing through the Pit Lane. After some short but futile troubleshooting I removed the electronics cover on the underside of the track piece and discovered that the electronics (PCB) receives power from the rails of the right hand lane – the one that is not connected! The solution was to solder two short jumper wires to connect the respective rails of both lanes. Replaced the cover and problem solved.
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A well documented nuisance of the N-Digital lane change (LC) track sections is the gap that exists in the plastic slot liner where the tip of the flipper contacts the side of the slot. The gap is intended to allow full left/right movement of the flipper during a lane change. An unintended consequence of this gap occurs when a car's guide flag collides head on with the trailing edge of the liner gap – not a pleasant experience. Over the last few years several solutions to this problem have emerged, incdluding using a strip of tape to cover the gap or creating a bulge in the slot wall to deflect the guide flag away from the gap. They worked well enough but were not perfect or particularly elegant.

Recently a very novel solution to this problem was documented by Maurizio Ferrari of Slot.it. Very simply, a small thin strip of brass is inserted behind the leading edge of the gap between the liner and the rail, and extending just beyond the trailing edge of the gap to create a ramp (this will become clear with the following photos and description). This was a brilliant solution, however, there is some concern about using a conductive metal strip in the slot so close to the rails. So, Brian at BRS Hobbies located some very thin (0.01" thickness) styrene sheet material that works perfectly and eliminates the possibility of electrical damage should the ramp ever come loose.
The following photo shows the ramp cut from a styrene sheet. The dimensions that I use are about 4.5 mm high and 39 mm long. The leading edge is tapered slightly downward so as not to present a sharp corner sticking up from the slot wall to the on-coming guide.
The photos below show the ramp installed in the slot. The two black arrows highlight the gap in the slot liner. The edge of the gap depicted by the left black arrow (trailing edge) is where the guide flag can collide with the slot liner. The red arrow shows where the ramp is inserted between the rail and the liner. it is secured in place by a very small dab of CA glue on both sides. I set the trailing edge of the ramp to extend about 8-9 mm beyond the end of the gap. This allows the end of the ramp to be highly flexible, presenting minimum resistance to the passing guide flag. I find that if the overlap is too short then the ramp can seem a little stiff in this area, however, I don't feel that the overlap length has any physical effect on the guide flag as it passes through as long as it extends some distance beyond the end of the gap. The styrene is strong yet very flexible, but not at all malleable, making it perfect for this application. This fix is not necessary for the other gap (leading into the crossover lane) because, when the lane change is activated, centrifugal force acting on the guide flag presses it against the flipper, away from this gap.
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Quite a bit has been written about methods used to facilitate switching between digital and analog operation of an N-Digital track. Schemes range from the relatively simple, where the digital console is replaced with an analog power base; to the highly complex where external electrical switching circuits and/or N-Digital track section modifications are employed. I will describe the simplest method that there is (along with its limitations) and also provide a tip (a warning, actually) regarding two things that should not be done under any circumstances.

So, the simplest method of converting a N-Digital track to analog operation is pictured below. All that is needed is to replace the N-Digital console (half straight) and one additional half straight track section with the standard Ninco power base track. Additionally, if there are any N-Digital Control Towers in the layout, they must be disconnected from their half-straight track section. That section may then be left in the layout.
Use the same power source that was being used for N-Digital, either the N-Digital regulated 14 volt 3 amp power transformer (recommended), or a regulated power supply set no higher than 14.5 volts. You can then attach one (and only one) analog controller, such as the Ninco 55 Plus. Why only one? Because by leaving the N-Digital lane change track sections in the layout, what you have is a single lane analog circuit. This is because the rails of both lanes of the LC sections are cross connected internally to help with power/data distribution in digital operation. Remember that the N-Digital track is one single lane electrically regardless of how many physical lanes you may have.
This happens to be fine for me because it is all that I need. At least for now, I only use analog operation to tune and test cars that I am not ready or willing to convert to digital operation. So running one car at a time suits my purpose. Otherwise, I just prefer digital operation, even when running by myself.

Now if you really want that fully independent two lane operation without having to remove the LC sections you can modify the LC's by removing (de-soldering) the internal wires that connect the two lanes' rails together. It's a relatively simple, straight forward process, however, that subject is not covered here because it is well documented elsewhere in the slot car forums. Also, I always strive to avoid physical modifications to cars and track that are irreversible or may affect a current warranty. Not always possible, but I try. Suffice it to say that all LC's will require modification, or they will have to be replaced with comparable sections of regular track.
The Pit Lane is a single lane so it can be left in the layout in its stock condition. As previously mentioned, if there are any N-Digital Control Towers in the layout, they must be disconnected from their half-straight track section, leaving that track section in the layout.
At this point you can connect a second controller and race two cars independently.
Now for the warnings. Once you have switched over to analog operation with N-Digital track sections still connected:

First, do not use the standard unregulated Ninco (or anyone else's) power pack that comes with the analog race sets. If you are using a variable voltage power supply, it must be regulated (switching) and it must not be set higher than 14.5 volts. Failure to heed this warning will result in damaged LC electronics. So, just use the same power source that you were using for N-Digital, set and configured the same way, and you will have no worries.
Second, the direction switch on the Ninco power base track should be in the position for clockwise racing direction (see the blue arrow in the photo below). The same as N-Digital. Do not change the direction. The N-Digital track sections all get their power from the rails. As of now, I do not know what the effect of reversing polarity will be on the electronic circuits in the N-Digital track sections. I am not aware of any testing that has been done and for now, I'm not anxious to find out what will happen. It would probably be a good idea to cover the switch with tape or even hot glue (which could be removed later).
The information above on switching an N-Digital track between digital and analog operation is available as a Adobe pdf document that can be accessed by clicking this link - NDigital to Analog.
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Here are some thoughts on positioning lane change (LC, XLC, XLC curve) track sections in an N-Digital layout.
Where not to put them:

My first rule is to avoid placing a LC track section at the end of a long straight. This is due to the potential of getting stuck on the LC's dead strip when breaking hard while entering the corner – especially when running with a magnet. But looking at the photo of my new layout above, most prominent in the foreground is the XLC curve sitting at the end of the longest straight! It's really a tradeoff that I will address momentarily.

Don't connect two or more opposite single or XLC's together (consecutively). You will find your cars changing lanes and then immediately changing back because it's difficult to release the lane change button quickly enough to complete the first lane change while avoiding the second.

Good locations:

Remember that changing lanes is not just about overtaking. Every track has an optimal racing line. So, some thought should be given to placing LC's to provide access to the best racing line. For example, I placed a inside-to-outside LC just prior to the only (R1) hairpin turn in my layout so that the gentler radius outside lane could be used when taking the turn.

And, regarding that XLC curve section at the end of the long straight? It's in that position to allow 1.) a last second outside-to-inside lane change to get into the correct lane for a pit stop and, 2.) a last second inside-to-outside lane change to avoid someone who is about to exit the pit lane. It's a tradeoff that I have accepted for now. The fact that there is a mild down slope from the overpass helps by providing some extra momentum through the turn. Regardless, I'm dealing with the issue of being at the end of the straight by learning to drive better.

Generally, I try to place LC's at the beginning of a straight section for overtaking or right after a turn in more complex sections of the layout. There are no rules so it's important to experiment. If an LC causes problems in one location, try it somewhere else. After all, the LC's are supposed to make racing more fun, not to add stress. There are lots of opinions on this so look at these thoughts as a starting point.
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Finally, if you clean/treat your track rails with a solvent-based product such as WD-40 or INOX, here is a simple but effective applicator that will insure that the cleaner will be applied only to the rails and not the plastic part of the track.

First, cut the ends off a double-tipped Q-Tip, leaving about one quarter of an inch of the shaft in place for each of the resulting two pieces. Next you will need an old slot car guide that has a reasonably deep guide flag. In this example I used a Ninco standard suspension guide without the spring. The longer shaft of the suspension guide makes the guide easier to hold in this application. The final component is a small to medium insulated alligator clip.

Place one Q-Tip end piece on each side of the guide flag held tightly up against the base of the guide. Then use the alligator clip to pinch the remainder of the two Q-Tip shafts together against the guide flag. This will hold the two Q-Tip ends firmly in place. The following two photos show the fully assembled machine.
Apply the cleaning fluid to the Q-Tip ends, place the guide flag in the slot, and push the assembly along the slot with mild downward force for about four feet of track length. You will find a coating of the cleaning fluid deposited quite uniformly on the track rails and not on the plastic part of the track itself. Wipe the rails with a clean soft cloth and you are done. When the Q-Tip ends get dirty and ragged just replace them with a new pair.
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So, this is all fairly simple stuff but hopefully it will be useful to an N-Digital user or two. Perhaps there are some of you out there who have similar, or better, ideas that can make N-Digital racing a little better. Let us know by posting them here.

by Michael Ashton