This 2015 sled will surely rip in stock form like all the earlier years of 154, 163, 174 3" paddle tracks that inspired the making of it. If it weren't' for the aftermarket in the past, creating products that can be put together to form such a sled (for the last 4 years already), we prolly would not have it "factory direct".
T3 Eur 21:51 x 112P chain - 7T x 3" driver
T4 Eur 19:49 x 110P chain - 7T x 3" driver
40 helix
blue secondary spring
391 belt
438 ramps. With the track length and paddle depth, the amount the track will engage with the snow, It certainly was proper to go the route of using the 438 start of the ramp.
Congratz to BRP for a superb sled that streaks past the other OEM's.
Back in the day, one of my test guys Lee went to the 3” paddle. Lee being 6 foot something and 270ish with gear and avvy pack helped me to figure out the start of some ramp testing.
At first with the kit and stock track he could do a 180 at near to correct engine speed. Hitting the throttle, pulling the sled over he could hear the ETEC grind to less than 8000 (7800~ish) and climb to 8000 about ½ way through the turn.
Just as in a legal matter (clutch law) there is a: Problem - Cause - Solution
Problem
Lee performs same operation on a nice crisp clear blue sky day morning - Hitting the throttle, pulling the sled over he could hear the engine grind to less than 8000 and slowly climb to 8000 after the turn was completed, sled pointing in the opposite direction.
Doing this a couple of times he was able to get a good look at the tach. Hit throttle, lean sled, carve...7500 and slowly climb to 8000. The rest of the shift was deadly as would be with the 3” paddle track. Only complaint was off the bottom end.
Cause
441 ramp angle too steep off the start
Apply these facts to the Aaen’s "Laws & Rules of Thumb" (tuning handbook)
Aaen Handbook – Vol 2007 – pg 13 bottom.
The Driver(Primary) The driving clutch has one main purpose: to control the engine speed in all shift ratios. Etc...etc... Keeping the engine on the power curve and pulling hard is the main purpose of the driving clutch.
Aaen Handbook – Vol 2007 – pg 21
The driving clutch is required to take care of all the speed variations from stand still to top end
...did he say “from stand still”???
Aaen Handbook – Vol 2007 – pg 28~29
We want the force to decrease as the weight swings out, so the increased radius has to be compensated for by a cam(ramp) shape which transfers less of the force (allows engine speed to build quicker)
Solution
Ok, then just change the settings where the problem arises. Change the settings at the track speed where the difficulties are.
Low engine speed at the start (low ratio)
Correct engine speed once going
What settings can one change in the low ratio?
- primary spring engagement force
- ramp start angle
- secondary spring start force
- helix start angle
Go from the 441 and change to my “DJ” ramps and do nothing else to the system – hammer down.
Results
Doing this a couple of times he was able to get a good look at the tach. Hit throttle, lean sled, carve...7800 and quickly climb to 8000. The rest of the shift was deadly as would be with the 3” paddle track. No more complaint of the bottom end.
441 vs. 438 Today in 2015
I would say that BRP made a superb move by going from the 441 to the 438 to compensate for the enhanced ground engagement ANY sled-can-make with the 3” paddle. The engine will light up quite nicely when needed and not have slow accelerating engine speed. (remember a 174 up to 3.0 is not new)
I am not going to say the 441’s will be slow to accelerate the engine, no, rather just saying the increased angle of the 438 will reveal a quicker accelerating engine speed if you were to test, directly changing only the ramps out back-n-forth.
Caveat - ramps with humps (like the 438)
There is kind of a provision for using ramps with "humps" at the engagement. The engagement will still be low with the application of the hump. Just want to let the reader know that say if at one time you are on a trail or packed down or beat down path and are going to turn around - If you feel a "chirp" or slight "surge" when the engine speed is at engagement...might even feel a jerking motion when starting to press the throttle.
...Check your belt width and belt deflection.
Once the belt starts to get lower tension between the two pulleys (from wear & improper belt height) the primary clutch lever roller will dwell "to and fro" over top of that hump. the sheave will lightly smack the belt "puk puk puk" as you are starting to turn.
Check the belt tension between the two pulleys and tighten it up and that "dwelling" will disappear.
Hope this information was fun to read for you.
Cya
joey
OH...here is a fun ramp page to look at.
T3 Eur 21:51 x 112P chain - 7T x 3" driver
T4 Eur 19:49 x 110P chain - 7T x 3" driver
40 helix
blue secondary spring
391 belt
438 ramps. With the track length and paddle depth, the amount the track will engage with the snow, It certainly was proper to go the route of using the 438 start of the ramp.
Congratz to BRP for a superb sled that streaks past the other OEM's.
Back in the day, one of my test guys Lee went to the 3” paddle. Lee being 6 foot something and 270ish with gear and avvy pack helped me to figure out the start of some ramp testing.
At first with the kit and stock track he could do a 180 at near to correct engine speed. Hitting the throttle, pulling the sled over he could hear the ETEC grind to less than 8000 (7800~ish) and climb to 8000 about ½ way through the turn.
- Installs 3” paddle
Just as in a legal matter (clutch law) there is a: Problem - Cause - Solution
Problem
Lee performs same operation on a nice crisp clear blue sky day morning - Hitting the throttle, pulling the sled over he could hear the engine grind to less than 8000 and slowly climb to 8000 after the turn was completed, sled pointing in the opposite direction.
Doing this a couple of times he was able to get a good look at the tach. Hit throttle, lean sled, carve...7500 and slowly climb to 8000. The rest of the shift was deadly as would be with the 3” paddle track. Only complaint was off the bottom end.
Cause
441 ramp angle too steep off the start
Apply these facts to the Aaen’s "Laws & Rules of Thumb" (tuning handbook)
Aaen Handbook – Vol 2007 – pg 13 bottom.
The Driver(Primary) The driving clutch has one main purpose: to control the engine speed in all shift ratios. Etc...etc... Keeping the engine on the power curve and pulling hard is the main purpose of the driving clutch.
- Lets only adjust the settings in the required (problem) shift ratio (low ratio)
Aaen Handbook – Vol 2007 – pg 21
The driving clutch is required to take care of all the speed variations from stand still to top end
...did he say “from stand still”???
- Low ratio
Aaen Handbook – Vol 2007 – pg 28~29
We want the force to decrease as the weight swings out, so the increased radius has to be compensated for by a cam(ramp) shape which transfers less of the force (allows engine speed to build quicker)
Solution
Ok, then just change the settings where the problem arises. Change the settings at the track speed where the difficulties are.
Low engine speed at the start (low ratio)
Correct engine speed once going
What settings can one change in the low ratio?
- primary spring engagement force
- ramp start angle
- secondary spring start force
- helix start angle
Go from the 441 and change to my “DJ” ramps and do nothing else to the system – hammer down.
Results
Doing this a couple of times he was able to get a good look at the tach. Hit throttle, lean sled, carve...7800 and quickly climb to 8000. The rest of the shift was deadly as would be with the 3” paddle track. No more complaint of the bottom end.
441 vs. 438 Today in 2015
I would say that BRP made a superb move by going from the 441 to the 438 to compensate for the enhanced ground engagement ANY sled-can-make with the 3” paddle. The engine will light up quite nicely when needed and not have slow accelerating engine speed. (remember a 174 up to 3.0 is not new)
I am not going to say the 441’s will be slow to accelerate the engine, no, rather just saying the increased angle of the 438 will reveal a quicker accelerating engine speed if you were to test, directly changing only the ramps out back-n-forth.
Caveat - ramps with humps (like the 438)
There is kind of a provision for using ramps with "humps" at the engagement. The engagement will still be low with the application of the hump. Just want to let the reader know that say if at one time you are on a trail or packed down or beat down path and are going to turn around - If you feel a "chirp" or slight "surge" when the engine speed is at engagement...might even feel a jerking motion when starting to press the throttle.
...Check your belt width and belt deflection.
Once the belt starts to get lower tension between the two pulleys (from wear & improper belt height) the primary clutch lever roller will dwell "to and fro" over top of that hump. the sheave will lightly smack the belt "puk puk puk" as you are starting to turn.
Check the belt tension between the two pulleys and tighten it up and that "dwelling" will disappear.
Hope this information was fun to read for you.
Cya
joey
OH...here is a fun ramp page to look at.
Last edited:
